Mercurial > repos > cpt > cpt_shinefind
changeset 4:5004ddb62700 draft
planemo upload commit 94b0cd1fff0826c6db3e7dc0c91c0c5a8be8bb0c
author | cpt |
---|---|
date | Mon, 05 Jun 2023 02:53:31 +0000 |
parents | 4d4a4b603d33 |
children | e7e82d0ae286 |
files | cpt-macros.xml cpt_shinefind/cpt-macros.xml cpt_shinefind/gff3.py cpt_shinefind/macros.xml cpt_shinefind/shinefind.py cpt_shinefind/shinefind.xml cpt_shinefind/test-data/Miro_ShineFindIn.fa cpt_shinefind/test-data/Miro_ShineFindIn.gff3 cpt_shinefind/test-data/Miro_ShineFindOut.tbl cpt_shinefind/test-data/Miro_ShineFindOut1.gff3 cpt_shinefind/test-data/Miro_ShineFindOut2.gff3 gff3.py macros.xml shinefind.py shinefind.xml test-data/Miro_ShineFindIn.fa test-data/Miro_ShineFindIn.gff3 test-data/Miro_ShineFindOut.tbl test-data/Miro_ShineFindOut1.gff3 test-data/Miro_ShineFindOut2.gff3 |
diffstat | 20 files changed, 5651 insertions(+), 5611 deletions(-) [+] |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/cpt-macros.xml Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,115 @@ +<macros> + <xml name="gff_requirements"> + <requirements> + <requirement type="package" version="2.7">python</requirement> + <requirement type="package" version="1.65">biopython</requirement> + <requirement type="package" version="2.12.1">requests</requirement> + <requirement type="package" version="1.2.2">cpt_gffparser</requirement> + <yield/> + </requirements> + <version_command> + <![CDATA[ + cd '$__tool_directory__' && git rev-parse HEAD + ]]> + </version_command> + </xml> + <xml name="citation/mijalisrasche"> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex">@unpublished{galaxyTools, + author = {E. Mijalis, H. Rasche}, + title = {CPT Galaxy Tools}, + year = {2013-2017}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + </xml> + <xml name="citations"> + <citations> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {E. Mijalis, H. Rasche}, + title = {CPT Galaxy Tools}, + year = {2013-2017}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </citations> + </xml> + <xml name="citations-crr"> + <citations> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {C. Ross}, + title = {CPT Galaxy Tools}, + year = {2020-}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </citations> + </xml> + <xml name="citations-2020"> + <citations> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {E. Mijalis, H. Rasche}, + title = {CPT Galaxy Tools}, + year = {2013-2017}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {A. Criscione}, + title = {CPT Galaxy Tools}, + year = {2019-2021}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </citations> + </xml> + <xml name="citations-2020-AJC-solo"> + <citations> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {A. Criscione}, + title = {CPT Galaxy Tools}, + year = {2019-2021}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </citations> + </xml> + <xml name="citations-clm"> + <citations> + <citation type="doi">10.1371/journal.pcbi.1008214</citation> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {C. Maughmer}, + title = {CPT Galaxy Tools}, + year = {2017-2020}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </citations> + </xml> + <xml name="sl-citations-clm"> + <citation type="bibtex"> + @unpublished{galaxyTools, + author = {C. Maughmer}, + title = {CPT Galaxy Tools}, + year = {2017-2020}, + note = {https://github.com/tamu-cpt/galaxy-tools/} + } + </citation> + <yield/> + </xml> +</macros>
--- a/cpt_shinefind/cpt-macros.xml Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,115 +0,0 @@ -<?xml version="1.0"?> -<macros> - <xml name="gff_requirements"> - <requirements> - <requirement type="package" version="2.7">python</requirement> - <requirement type="package" version="1.65">biopython</requirement> - <requirement type="package" version="2.12.1">requests</requirement> - <yield/> - </requirements> - <version_command> - <![CDATA[ - cd $__tool_directory__ && git rev-parse HEAD - ]]> - </version_command> - </xml> - <xml name="citation/mijalisrasche"> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex">@unpublished{galaxyTools, - author = {E. Mijalis, H. Rasche}, - title = {CPT Galaxy Tools}, - year = {2013-2017}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - </xml> - <xml name="citations"> - <citations> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {E. Mijalis, H. Rasche}, - title = {CPT Galaxy Tools}, - year = {2013-2017}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </citations> - </xml> - <xml name="citations-crr"> - <citations> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {C. Ross}, - title = {CPT Galaxy Tools}, - year = {2020-}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </citations> - </xml> - <xml name="citations-2020"> - <citations> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {E. Mijalis, H. Rasche}, - title = {CPT Galaxy Tools}, - year = {2013-2017}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {A. Criscione}, - title = {CPT Galaxy Tools}, - year = {2019-2021}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </citations> - </xml> - <xml name="citations-2020-AJC-solo"> - <citations> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {A. Criscione}, - title = {CPT Galaxy Tools}, - year = {2019-2021}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </citations> - </xml> - <xml name="citations-clm"> - <citations> - <citation type="doi">10.1371/journal.pcbi.1008214</citation> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {C. Maughmer}, - title = {CPT Galaxy Tools}, - year = {2017-2020}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </citations> - </xml> - <xml name="sl-citations-clm"> - <citation type="bibtex"> - @unpublished{galaxyTools, - author = {C. Maughmer}, - title = {CPT Galaxy Tools}, - year = {2017-2020}, - note = {https://github.com/tamu-cpt/galaxy-tools/} - } - </citation> - <yield/> - </xml> -</macros>
--- a/cpt_shinefind/gff3.py Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,346 +0,0 @@ -import copy -import logging - -log = logging.getLogger() -log.setLevel(logging.WARN) - - -def feature_lambda( - feature_list, - test, - test_kwargs, - subfeatures=True, - parent=None, - invert=False, - recurse=True, -): - """Recursively search through features, testing each with a test function, yielding matches. - - GFF3 is a hierachical data structure, so we need to be able to recursively - search through features. E.g. if you're looking for a feature with - ID='bob.42', you can't just do a simple list comprehension with a test - case. You don't know how deeply burried bob.42 will be in the feature tree. This is where feature_lambda steps in. - - :type feature_list: list - :param feature_list: an iterable of features - - :type test: function reference - :param test: a closure with the method signature (feature, **kwargs) where - the kwargs are those passed in the next argument. This - function should return True or False, True if the feature is - to be yielded as part of the main feature_lambda function, or - False if it is to be ignored. This function CAN mutate the - features passed to it (think "apply"). - - :type test_kwargs: dictionary - :param test_kwargs: kwargs to pass to your closure when it is called. - - :type subfeatures: boolean - :param subfeatures: when a feature is matched, should just that feature be - yielded to the caller, or should the entire sub_feature - tree for that feature be included? subfeatures=True is - useful in cases such as searching for a gene feature, - and wanting to know what RBS/Shine_Dalgarno_sequences - are in the sub_feature tree (which can be accomplished - with two feature_lambda calls). subfeatures=False is - useful in cases when you want to process (and possibly - return) the entire feature tree, such as applying a - qualifier to every single feature. - - :type invert: boolean - :param invert: Negate/invert the result of the filter. - - :rtype: yielded list - :return: Yields a list of matching features. - """ - # Either the top level set of [features] or the subfeature attribute - for feature in feature_list: - feature._parent = parent - if not parent: - # Set to self so we cannot go above root. - feature._parent = feature - test_result = test(feature, **test_kwargs) - # if (not invert and test_result) or (invert and not test_result): - if invert ^ test_result: - if not subfeatures: - feature_copy = copy.deepcopy(feature) - feature_copy.sub_features = list() - yield feature_copy - else: - yield feature - - if recurse and hasattr(feature, "sub_features"): - for x in feature_lambda( - feature.sub_features, - test, - test_kwargs, - subfeatures=subfeatures, - parent=feature, - invert=invert, - recurse=recurse, - ): - yield x - - -def fetchParent(feature): - if not hasattr(feature, "_parent") or feature._parent is None: - return feature - else: - return fetchParent(feature._parent) - - -def feature_test_true(feature, **kwargs): - return True - - -def feature_test_type(feature, **kwargs): - if "type" in kwargs: - return str(feature.type).upper() == str(kwargs["type"]).upper() - elif "types" in kwargs: - for x in kwargs["types"]: - if str(feature.type).upper() == str(x).upper(): - return True - return False - raise Exception("Incorrect feature_test_type call, need type or types") - - -def feature_test_qual_value(feature, **kwargs): - """Test qualifier values. - - For every feature, check that at least one value in - feature.quailfiers(kwargs['qualifier']) is in kwargs['attribute_list'] - """ - if isinstance(kwargs["qualifier"], list): - for qualifier in kwargs["qualifier"]: - for attribute_value in feature.qualifiers.get(qualifier, []): - if attribute_value in kwargs["attribute_list"]: - return True - else: - for attribute_value in feature.qualifiers.get(kwargs["qualifier"], []): - if attribute_value in kwargs["attribute_list"]: - return True - return False - - -def feature_test_location(feature, **kwargs): - if "strand" in kwargs: - if feature.location.strand != kwargs["strand"]: - return False - - return feature.location.start <= kwargs["loc"] <= feature.location.end - - -def feature_test_quals(feature, **kwargs): - """ - Example:: - - a = Feature(qualifiers={'Note': ['Some notes', 'Aasdf']}) - - # Check if a contains a Note - feature_test_quals(a, {'Note': None}) # Returns True - feature_test_quals(a, {'Product': None}) # Returns False - - # Check if a contains a note with specific value - feature_test_quals(a, {'Note': ['ome']}) # Returns True - - # Check if a contains a note with specific value - feature_test_quals(a, {'Note': ['other']}) # Returns False - """ - for key in kwargs: - if key not in feature.qualifiers: - return False - - # Key is present, no value specified - if kwargs[key] is None: - return True - - # Otherwise there is a key value we're looking for. - # so we make a list of matches - matches = [] - # And check all of the feature qualifier valuse - for value in feature.qualifiers[key]: - # For that kwargs[key] value - for x in kwargs[key]: - matches.append(x in value) - - # If none matched, then we return false. - if not any(matches): - return False - - return True - - -def feature_test_contains(feature, **kwargs): - if "index" in kwargs: - return feature.location.start < kwargs["index"] < feature.location.end - elif "range" in kwargs: - return ( - feature.location.start < kwargs["range"]["start"] < feature.location.end - and feature.location.start < kwargs["range"]["end"] < feature.location.end - ) - else: - raise RuntimeError("Must use index or range keyword") - - -def get_id(feature=None, parent_prefix=None): - result = "" - if parent_prefix is not None: - result += parent_prefix + "|" - if "locus_tag" in feature.qualifiers: - result += feature.qualifiers["locus_tag"][0] - elif "gene" in feature.qualifiers: - result += feature.qualifiers["gene"][0] - elif "Gene" in feature.qualifiers: - result += feature.qualifiers["Gene"][0] - elif "product" in feature.qualifiers: - result += feature.qualifiers["product"][0] - elif "Product" in feature.qualifiers: - result += feature.qualifiers["Product"][0] - elif "Name" in feature.qualifiers: - result += feature.qualifiers["Name"][0] - else: - return feature.id - # Leaving in case bad things happen. - # result += '%s_%s_%s_%s' % ( - # feature.id, - # feature.location.start, - # feature.location.end, - # feature.location.strand - # ) - return result - - -def get_gff3_id(gene): - return gene.qualifiers.get("Name", [gene.id])[0] - - -def ensure_location_in_bounds(start=0, end=0, parent_length=0): - # This prevents frameshift errors - while start < 0: - start += 3 - while end < 0: - end += 3 - while start > parent_length: - start -= 3 - while end > parent_length: - end -= 3 - return (start, end) - - -def coding_genes(feature_list): - for x in genes(feature_list): - if ( - len( - list( - feature_lambda( - x.sub_features, - feature_test_type, - {"type": "CDS"}, - subfeatures=False, - ) - ) - ) - > 0 - ): - yield x - - -def genes(feature_list, feature_type="gene", sort=False): - """ - Simple filter to extract gene features from the feature set. - """ - - if not sort: - for x in feature_lambda( - feature_list, feature_test_type, {"type": feature_type}, subfeatures=True - ): - yield x - else: - data = list(genes(feature_list, feature_type=feature_type, sort=False)) - data = sorted(data, key=lambda feature: feature.location.start) - for x in data: - yield x - - -def wa_unified_product_name(feature): - """ - Try and figure out a name. We gave conflicting instructions, so - this isn't as trivial as it should be. Sometimes it will be in - 'product' or 'Product', othertimes in 'Name' - """ - # Manually applied tags. - protein_product = feature.qualifiers.get( - "product", feature.qualifiers.get("Product", [None]) - )[0] - - # If neither of those are available ... - if protein_product is None: - # And there's a name... - if "Name" in feature.qualifiers: - if not is_uuid(feature.qualifiers["Name"][0]): - protein_product = feature.qualifiers["Name"][0] - - return protein_product - - -def is_uuid(name): - return name.count("-") == 4 and len(name) == 36 - - -def get_rbs_from(gene): - # Normal RBS annotation types - rbs_rbs = list( - feature_lambda( - gene.sub_features, feature_test_type, {"type": "RBS"}, subfeatures=False - ) - ) - rbs_sds = list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "Shine_Dalgarno_sequence"}, - subfeatures=False, - ) - ) - # Fraking apollo - apollo_exons = list( - feature_lambda( - gene.sub_features, feature_test_type, {"type": "exon"}, subfeatures=False - ) - ) - apollo_exons = [x for x in apollo_exons if len(x) < 10] - # These are more NCBI's style - regulatory_elements = list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "regulatory"}, - subfeatures=False, - ) - ) - rbs_regulatory = list( - feature_lambda( - regulatory_elements, - feature_test_quals, - {"regulatory_class": ["ribosome_binding_site"]}, - subfeatures=False, - ) - ) - # Here's hoping you find just one ;) - return rbs_rbs + rbs_sds + rbs_regulatory + apollo_exons - - -def nice_name(record): - """ - get the real name rather than NCBI IDs and so on. If fails, will return record.id - """ - name = record.id - likely_parental_contig = list(genes(record.features, feature_type="contig")) - if len(likely_parental_contig) == 1: - name = likely_parental_contig[0].qualifiers.get("organism", [name])[0] - return name - - -def fsort(it): - for i in sorted(it, key=lambda x: int(x.location.start)): - yield i
--- a/cpt_shinefind/macros.xml Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,43 +0,0 @@ -<?xml version="1.0"?> -<macros> - <xml name="requirements"> - <requirements> - <requirement type="package" version="3.8.13">python</requirement> - <requirement type="package" version="1.79">biopython</requirement> - <requirement type="package" version="1.2.2">cpt_gffparser</requirement> - <yield/> - </requirements> - </xml> - <xml name="genome_selector"> - <param name="genome_fasta" type="data" format="fasta" label="Source FASTA Sequence"/> - </xml> - <xml name="gff3_input"> - <param label="GFF3 Annotations" name="gff3_data" type="data" format="gff3"/> - </xml> - <xml name="input/gff3+fasta"> - <expand macro="gff3_input" /> - <expand macro="genome_selector" /> - </xml> - <token name="@INPUT_GFF@"> - "$gff3_data" - </token> - <token name="@INPUT_FASTA@"> - genomeref.fa - </token> - <token name="@GENOME_SELECTOR_PRE@"> - ln -s $genome_fasta genomeref.fa; - </token> - <token name="@GENOME_SELECTOR@"> - genomeref.fa - </token> - <xml name="input/fasta"> - <param label="Fasta file" name="sequences" type="data" format="fasta"/> - </xml> - - <token name="@SEQUENCE@"> - "$sequences" - </token> - <xml name="input/fasta/protein"> - <param label="Protein fasta file" name="sequences" type="data" format="fasta"/> - </xml> -</macros>
--- a/cpt_shinefind/shinefind.py Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,420 +0,0 @@ -#!/usr/bin/env python -import re -import sys -import argparse -import logging -from CPT_GFFParser import gffParse, gffWrite, gffSeqFeature -from Bio import SeqIO -from Bio.SeqRecord import SeqRecord -from Bio.SeqFeature import FeatureLocation -from gff3 import ( - feature_lambda, - feature_test_type, - feature_test_true, - feature_test_quals, - get_id, - ensure_location_in_bounds, -) - -logging.basicConfig(level=logging.INFO) -log = logging.getLogger() - - -class NaiveSDCaller(object): - - # TODO May make switch for different sequence sets - SD_SEQUENCES = ( - "AGGAGGT", - "GGAGGT", - "AGGAGG", - "GGGGGG", - "AGGAG", - "GAGGT", - "GGAGG", - "GGGGG", - "AGGT", - "GGGT", - "GAGG", - "GGGG", - "AGGA", - "GGAG", - "GGA", - "GAG", - "AGG", - "GGT", - "GGG", - ) - - def __init__(self): - self.sd_reg = [re.compile(x, re.IGNORECASE) for x in self.SD_SEQUENCES] - - def list_sds(self, sequence, sd_min=3, sd_max=17): - hits = [] - for regex in self.sd_reg: - for match in regex.finditer(sequence): - spacing = len(sequence) - len(match.group()) - match.start() - if sd_max >= spacing+sd_min and spacing+sd_min >= sd_min: - #if the spacing is within gap limits, add - #(search space is [sd_max+7 .. sd_min] so actual gap is spacing+sd_min) - #print('min %d max %d - adding SD with gap %d' % (sd_min, sd_max, spacing+sd_min)) - hits.append( - { - "spacing": spacing, - "hit": match.group(), - "start": match.start(), - "end": match.end(), - "len": len(match.group()), - } - ) - hits = sorted(hits, key= lambda x: (-x['len'],x['spacing'])) - return hits - - @classmethod - def highlight_sd(cls, sequence, start, end): - return " ".join( - [ - sequence[0:start].lower(), - sequence[start:end].upper(), - sequence[end:].lower(), - ] - ) - - @classmethod - def to_features(cls, hits, strand, parent_start, parent_end, feature_id=None, sd_min=3, sd_max=17): - results = [] - for idx, hit in enumerate(hits): - # gene complement(124..486) - # -1 491 501 0 5 5 - # -1 491 501 0 4 5 - # -1 491 501 1 4 5 - # -1 491 501 2 3 5 - # -1 491 501 1 3 5 - # -1 491 501 0 3 5 - - qualifiers = { - "source": "CPT_ShineFind", - "ID": "%s.rbs-%s" % (feature_id, idx), - } - - if strand > 0: - start = parent_end - hit["spacing"] - hit["len"] - end = parent_end - hit["spacing"] - else: - start = parent_start + hit["spacing"] - end = parent_start + hit["spacing"] + hit["len"] - # check that the END of the SD sequence is within the given min/max of parent start/end - - # gap is either the sd_start-cds_end (neg strand) or the sd_end-cds_start (pos strand) - # minimum absolute value of these two will be the proper gap regardless of strand - tmp = gffSeqFeature( - FeatureLocation(min(start, end), max(start, end), strand=strand), - #FeatureLocation(min(start, end), max(start, end), strand=strand), - type="Shine_Dalgarno_sequence", - qualifiers=qualifiers, - ) - results.append(tmp) - return results - - def testFeatureUpstream(self, feature, record, sd_min=3, sd_max=17): - # Strand information necessary to getting correct upstream sequence - strand = feature.location.strand - - # n_bases_upstream (plus/minus 7 upstream to make the min/max define the possible gap position) - if strand > 0: - start = feature.location.start - sd_max - 7 - end = feature.location.start - sd_min - else: - start = feature.location.end + sd_min - end = feature.location.end + sd_max + 7 - - (start, end) = ensure_location_in_bounds( - start=start, end=end, parent_length=len(record) - ) - - # Create our temp feature used to obtain correct portion of - # genome - tmp = gffSeqFeature(FeatureLocation(min(start, end), max(start, end), strand=strand), type="domain") - seq = str(tmp.extract(record.seq)) - return self.list_sds(seq, sd_min, sd_max), start, end, seq - - def hasSd(self, feature, record, sd_min=3, sd_max=17): - sds, start, end, seq = self.testFeatureUpstream( - feature, record, sd_min=sd_min, sd_max=sd_max - ) - return len(sds) > 0 - - -# Cycle through subfeatures, set feature's location to be equal -# to the smallest start and largest end. -# Remove pending bugfix for feature display in Apollo -def fminmax(feature): - fmin = None - fmax = None - for sf in feature_lambda([feature], feature_test_true, {}, subfeatures=True): - if fmin is None: - fmin = sf.location.start - fmax = sf.location.end - if sf.location.start < fmin: - fmin = sf.location.start - if sf.location.end > fmax: - fmax = sf.location.end - return fmin, fmax - - -def fix_gene_boundaries(feature): - # There is a bug in Apollo whereby we have created gene - # features which are larger than expected, but we cannot see this. - # We only see a perfect sized gene + SD together. - # - # So, we clamp the location of the gene feature to the - # contained mRNAs. Will remove pending Apollo upgrade. - fmin, fmax = fminmax(feature) - if feature.location.strand > 0: - feature.location = FeatureLocation(fmin, fmax, strand=1) - else: - feature.location = FeatureLocation(fmin, fmax, strand=-1) - return feature - -def shinefind( - fasta, - gff3, - gff3_output=None, - table_output=None, - lookahead_min=3, - lookahead_max=17, - top_only=False, - add=False, -): - table_output.write( - "\t".join( - [ - "ID", - "Name", - "Terminus", - "Terminus", - "Strand", - "Upstream Sequence", - "SD", - "Spacing", - ] - ) - + "\n" - ) - - sd_finder = NaiveSDCaller() - # Load up sequence(s) for GFF3 data - seq_dict = SeqIO.to_dict(SeqIO.parse(fasta, "fasta")) - # Parse GFF3 records - for record in gffParse(gff3, base_dict=seq_dict): - # Shinefind's gff3_output. - gff3_output_record = SeqRecord(record.seq, record.id) - # Filter out just coding sequences - ignored_features = [] - for x in record.features: - # If feature X does NOT contain a CDS, add to ignored_features - # list. This means if we have a top level gene feature with or - # without a CDS subfeature, we're catch it appropriately here. - if ( - len( - list( - feature_lambda( - [x], feature_test_type, {"type": "CDS"}, subfeatures=True - ) - ) - ) - == 0 - ): - ignored_features.append(x) - - # Loop over all gene features - for gene in feature_lambda( - record.features, feature_test_type, {"type": "gene"}, subfeatures=True - ): - - # Get the CDS from this gene. - feature = sorted( - list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "CDS"}, - subfeatures=True, - ) - ), - key=lambda x: x.location.start, - ) - # If no CDSs are in this gene feature, then quit - if len(feature) == 0: - # We've already caught these above in our ignored_features - # list, so we skip out on the rest of this for loop - continue - else: - # Otherwise pull the first on the strand. - feature = feature[0] - - # Three different ways RBSs can be stored that we expect. - rbs_rbs = list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "RBS"}, - subfeatures=False, - ) - ) - rbs_sds = list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "Shine_Dalgarno_sequence"}, - subfeatures=False, - ) - ) - regulatory_elements = list( - feature_lambda( - gene.sub_features, - feature_test_type, - {"type": "regulatory"}, - subfeatures=False, - ) - ) - rbs_regulatory = list( - feature_lambda( - regulatory_elements, - feature_test_quals, - {"regulatory_class": ["ribosome_binding_site"]}, - subfeatures=False, - ) - ) - rbss = rbs_rbs + rbs_sds + rbs_regulatory - - # If someone has already annotated an RBS, we move to the next gene - if len(rbss) > 0: - log.debug("Has %s RBSs", len(rbss)) - ignored_features.append(gene) - continue - - sds, start, end, seq = sd_finder.testFeatureUpstream( - feature, record, sd_min=lookahead_min, sd_max=lookahead_max - ) - - feature_id = get_id(feature) - sd_features = sd_finder.to_features( - sds, feature.location.strand, start, end, feature_id=feature.id - ) - - human_strand = "+" if feature.location.strand == 1 else "-" - - # http://book.pythontips.com/en/latest/for_-_else.html - log.debug("Found %s SDs", len(sds)) - for (sd, sd_feature) in zip(sds, sd_features): - # If we only want the top feature, after the bulk of the - # forloop executes once, we append the top feature, and fake a - # break, because an actual break triggers the else: block - table_output.write( - "\t".join( - map( - str, - [ - feature.id, - feature_id, - feature.location.start, - feature.location.end, - human_strand, - sd_finder.highlight_sd(seq, sd["start"], sd["end"]), - sd["hit"], - int(sd["spacing"]) + lookahead_min, - ], - ) - ) - + "\n" - ) - - if add: - # Append the top RBS to the gene feature - gene.sub_features.append(sd_feature) - # Pick out start/end locations for all sub_features - locations = [x.location.start for x in gene.sub_features] + [ - x.location.end for x in gene.sub_features - ] - # Update gene's start/end to be inclusive - gene.location._start = min(locations) - gene.location._end = max(locations) - # Also register the feature with the separate GFF3 output - sd_feature = fix_gene_boundaries(sd_feature) - gff3_output_record.features.append(sd_feature) - - if top_only or sd == (sds[-1]): - break - else: - table_output.write( - "\t".join( - map( - str, - [ - feature.id, - feature_id, - feature.location.start, - feature.location.end, - human_strand, - seq, - None, - -1, - ], - ) - ) - + "\n" - ) - - record.annotations = {} - gffWrite([record], sys.stdout) - - gff3_output_record.features = sorted( - gff3_output_record.features, key=lambda x: x.location.start - ) - gff3_output_record.annotations = {} - gffWrite([gff3_output_record], gff3_output) - - -if __name__ == "__main__": - parser = argparse.ArgumentParser(description="Identify shine-dalgarno sequences") - parser.add_argument("fasta", type=argparse.FileType("r"), help="Fasta Genome") - parser.add_argument("gff3", type=argparse.FileType("r"), help="GFF3 annotations") - - parser.add_argument( - "--gff3_output", - type=argparse.FileType("w"), - help="GFF3 Output", - default="shinefind.gff3", - ) - parser.add_argument( - "--table_output", - type=argparse.FileType("w"), - help="Tabular Output", - default="shinefind.tbl", - ) - - parser.add_argument( - "--lookahead_min", - nargs="?", - type=int, - help="Number of bases upstream of CDSs to end search", - default=3, - ) - parser.add_argument( - "--lookahead_max", - nargs="?", - type=int, - help="Number of bases upstream of CDSs to begin search", - default=17, - ) - - parser.add_argument("--top_only", action="store_true", help="Only report best hits") - parser.add_argument( - "--add", - action="store_true", - help='Function in "addition" mode whereby the ' - + "RBSs are added directly to the gene model.", - ) - - args = parser.parse_args() - shinefind(**vars(args))
--- a/cpt_shinefind/shinefind.xml Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,98 +0,0 @@ -<tool id="edu.tamu.cpt.genbank.shinefind" name="Shine Find" version="21.1.0.0"> - <description>Identify shine-dalgarno sequences</description> - <macros> - <import>macros.xml</import> - <import>cpt-macros.xml</import> - </macros> - <expand macro="requirements"/> - <command detect_errors="aggressive"><![CDATA[ -@GENOME_SELECTOR_PRE@ - -python $__tool_directory__/shinefind.py - -@GENOME_SELECTOR@ -$gff3_data - ---table_output $default_output ---gff3_output $gff3_output - ---lookahead_min $lookahead_min ---lookahead_max $lookahead_max -$add -$top_only - - -> $stdout - -]]></command> - <inputs> - <expand macro="genome_selector" /> - <expand macro="gff3_input" /> - - <param label="Minimum number of bases upstream of CDS for gap (--lookahead_min)" name="lookahead_min" type="integer" value="3"/> - <param label="Maximum number of bases upstream of CDS for gap (--lookahead_max)" name="lookahead_max" type="integer" value="17"/> - <param checked="true" label="Automatically add RBSs to input GFF3" name="add" - type="boolean" truevalue="--add" falsevalue="" /> - <param checked="true" label="Only report best hits (--top_only)" - name="top_only" type="boolean" falsevalue="" truevalue="--top_only"/> - </inputs> - <outputs> - <data format="tabular" name="default_output" label="ShineFind RBS list from $gff3_data.name"/> - <data format="gff3" name="gff3_output" label="ShineFind GFF3 RBSs from $gff3_data.name"/> - <data format="gff3" name="stdout" label="$gff3_data.name with RBSs"/> - </outputs> - <tests> - <test> - <param name="genome_fasta" value="Miro_ShineFindIn.fa" /> - <param name="reference_genome_source" value="history" /> - <param name="gff3_data" value="Miro_ShineFindIn.gff3" /> - <param name="lookahead_max" value="15" /> - <param name="lookahead_min" value="5" /> - <param name="add" value="True"/> - <param name="top_only" value="False" /> - <output name="default_output" file="Miro_ShineFindOut.tbl" /> - <output name="gff3_output" file="Miro_ShineFindOut1.gff3" /> - <output name="stdout" file="Miro_ShineFindOut2.gff3" /> - </test> - </tests> - <help><![CDATA[ -**What it does** - -From an input GFF3 and FASTA file, the upstream sequence within user-specified bounds is -extracted for all CDS features. Input CDS features with an RBS are not re-analyzed. For -the remaining CDS features, the upstream sequence is searched against the following -possible Shine-Dalgarno sequences: -- AGGAGGT -- GGAGGT -- AGGAGG -- AGGAG -- GAGGT -- GGAGG -- AGGT -- GGGT -- GAGG -- GGGG -- AGGA -- GGAG -- GGA -- GAG -- AGG -- GGT - -**Gap Min/Max Settings** - In previous versions of this tool, the min/max was set for the window to find a Shine-Dalgarno sequence, but - currently we specify the minimum and maxium GAP between the end of the SD and the start of the closest CDS. - -By default, only the first (closest to consensus) hit to the list is returned to the GFF3. In the case of a tie, it will select the smaller gap. -By selecting ‘No’ for ‘Only report best hits’, **all hits** to the possible SD list will -be added to the GFF3 file. - -**March 10, 2021 Update** - Previous to this date, when using "Only report best hits" option the algorithm would pick the "first" one (moving downstream) found in the case of tied sequence length. After this date, it now will report the sequence with the smaller gap between the END of the SD sequence and the START of the CDS. - - ]]></help> - <expand macro="citations" > - <expand macro="sl-citations-clm"/> - </expand> -</tool> -
--- a/cpt_shinefind/test-data/Miro_ShineFindIn.fa Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,2936 +0,0 @@ ->Miro -TTAGTAATGGCTAAAACCATATGTAACATCAATCATGACTTTATAACGGCATACACGCAT -TTTTGCGTTATTGTAATCCACTGGGATCGCTACCACGTCAGCAGGATCCACCTTTACCTG -AATGACTCTACCAACACCGCCCCCGTAGTGTGGAAGGTATGATTTAGCCGCAACGTGTAG -GCCAGTAGAACAGGTGCGCGTTTTATCTTCGTCTACCATGTTTCGAGGCATGGAGACAGT -CACACCAGGACTATTATCAAATTTGCCAGTAGCGAGATCTTTATAGTTATCGCGCACACG -TTTCCAGGCAAGGAAACAACCATCATCGGTCAGTTCAATGTCATTATGTACAAGGAACCC -ATAAAGCTGGTATACAGCATCGCGTGAAGGGTTTCGCATCAACCGTTCAAAGAAGTTCAC -CAGATGTTCATACGGACGATCGTTATACATTTCGCGAATGATTCGTTGAGTGATATCAGA -ATCAAACACTACATCTTTATATAGAAGCTGATGACCAATGATTTTAATGTTGCCTTTGCT -ATAGGTTCGGATCGCTTCTTGAGTATCCAAACAAGTTACAGCACCTTTGACATCACCAGC -TTTCAGCATTTCATGCGCTTTCTTAAAGTTCGGATGTGTTTCACCCGCCATGAAAACGCG -CCCTTCGTATACAACCGTAATGAACGATTCAGATCCGATCATACGCGGTACAGTGTCTGA -TACTTTAGGCTTTTGTTTTACATCCCTTTTCTTAGGGAATTCCGCTAACTTGCGGTTGAT -AACGCGCCCAATGGTTCGGGCGCTTACGTTGAACTGTTGGGCCAGTGCTGTTTTACTTGC -CCCCGTCAACCATCCATTATAGATAGCTTTCTGTTGTACTTCGTCGAGAATTTTGACCAT -TATTTCCACCGTATTAATTTCTTAAACTCACTGAGATTCTTTTCGTTGTTGTAAATCGGA -CGAATTGAATAAGAATCGCTATGTTCAACAAGTGAAGCCAGTAACGGGTTTAGTGATTTA -AAGATTTCCCATGCCTGATCAACACGTTTTTTCATATTGCTGCGTTTAACGCGCATTGAT -GCTACGGACTCACGCAGAATCGGACAACGCACCCTGGAAAGATTTTTACCATCTTTCTCA -TACCCTTCCAGACACACTATACGTTCGAGGGTATCAACAATCTTATACAGTTTTTCATTA -TATCGGTTTTTCACAATCCGATCAAGCGATACACCGAAACGGCTATGCAATGCGTCTGTT -TCTGTTGAGTGATCCTTCCCAATCCATCCAGGCAAGCAATTATCTTTCAATGCCTTTTCA -GATTTAACATACTGCTTGCACAGCATATCATCAAAGCATACCAGATTTGAATCCGGGATC -CACTTCCAGAGGCTGTTACGTATAGCAAACACAACAGGGATCCCAGTATGGCGCATGATA -CGCGATAAAGTAGATTCTTTCATTGCTGAATCCATAGACAACCCGGAATTTTCACCATCT -AAGCGGCTATATTCATCAATACCATACAACCGAACACCTGGGGCTTTATCCAGTGATAAA -AACTCTGATTTTGTCATAAACAGAGAAGTTTTTGCCAGATTGCCGTTACTATCCAACTCA -TAACGATATACGGTCGGGGTTTTTGGGCGCGGTTCTGAATTTTTCGGTGCATATAGCGCT -TTTGATTTTTCGCGATCTGCATCATAGATCTCTTTTTCTTTTGTCATTTCACTGGTACGG -AGATACACAATTTCCGATTCATCAAAATGACCTTTCCGAACGATATCATTAACAATCTCA -CGCTTTGAATCACTATCGTAATATGCAACAAAGCTAACACGGCTTAGGTTATGCATTTTA -GCATACCCGACGATATACGGTTTAACCGTGTTGGTATCCACTTTTAACAGAATGAGTTTC -TTCTGTTTCCACGGATAATAAATGCGTGTGATGTCCTGGCGTTTGGTTGTTTCTGGCTTA -TACTTGCTCCAGCGGCCTCCGCTACCAGTTACCTGATACCATGCATCTTTACCGTCGTAT -TCGTTCGCCCAATACCCAGCAACATAATCATCATTATATTTGTTTGGTTTGACTAGTTCG -CTATGGATCCAGCCAATAGAATCACCATTGATGCGAAAATTAGCATCTTTACCAACAAAG -TTTTGTACCATTGAAGGCAGAGAATGGAACCACGTCAGTTTATCACGCACGGTTTGTAAC -TTATCGAATTCTGATTTAACTCGATTGAAATATACCCGGCTGATTTGTTTCAGACGTTCT -TTAACAATCCCTACTGTCATTTTATCCATACTCAACTCTTCGCGAGAAGGCATGAAATCA -AGTTCACCGATCGGGAAGTCAATAATATACGTATACTGGCTTTCTGTATAGCAATAGAAC -ATCGAGGTATCATACAAATCTTTATCCAGAGGATAAATGATGTTACCCATGCGAGCATAT -ACACCGCTAGTGTATGCTGATTTATGACGGATCACCCCGCTATCGTTGGTTGCTTCTTTC -GGCTGATAGTTGATTTTGAGAATAGAAGCACCAACAAAGTTAGGACGAATATCAGTAAAT -GATTCGTATACCCTTGCTGCTTCGTTTTCCCATTCTTTGATATCTTCAACCTTAACCGGA -ACAGTGATAGTAACCCCGTTAGGTTCATCGCTTTCAATCTCATACAGAGGATCGCAGAAA -GGTTCCCCATCATCCATATAGATTGTGTAACCGCATTTGATACCGTCTTTTACGGATTCC -ACCGTGAAAGCATCGGAATAGCAAAGCGGAGATTTGCAACCCAGACCCATAGAACCGATC -AGGTCGTTTGAATCATTTTTAGTTGATTCGAAGTAAACGGTAAACGCATCACTAACGAAA -TCAGGAGACATACCGATCCCGTAGTCACGAATAACAAAACGAGGATCAACAGCAGTTGGC -AACTGGACATCAAACGGGTTCTGATTTCCCGCTTCTTTGTGTCCATCAATCGCATTACAA -GACAGTTCGCGAATGATTGCGCGGATCTTGTATTTGTATACTGTCGAAGAAAGGATCTTA -TACGCTTTCTTGTTTGCGCGTAGAGATAGTTTGTTTCGTCCCTTGCTGGTATCTGTACCA -ACACGGTAGATGGTTTGCGGTGTATCTTCGCGTAATTTCATTGTTTATTTCTCACTTAAC -ATTAAAAATAACTTGGTCACAAGAGTACTTCGTTGGCTTTTTGTTCAGACCATATTCTAC -TACTTCACAATAGGTGTCAAGGAATTTTACCAATTTTTCTTCCTCGACCTGCTGTTTCTT -CATATCAAGGATACCCCACACGATAGCCCCGATAATGACAGAAAAGAACGCACAAAATCC -GAATATGGTCAGATATTTTCCCAACTTAGGCGCATTATAACGTGTCATACCTTACCCCTC -TTTGCGAATGTATGCAAGTTCTTCATGGGTTACTGGACGGATATACAGACGGCCTTTTGT -ATATGCCTTGCGCCCGCTGATCCAAATGTTTTTCATATCCTTAACACCGTTCATCACATC -GTTGTAAAACTTCTTATCAGCTTTAGCCTGATAGACTTCACGGCCTTGATAATCTTTCAT -GAACAAACAATAAAGGATCTCATTCTTATCAACTAGATTAGCATCCTTTGTAGTTGTTTT -ACTTGGTGAAGGTTTCGCACCCAGGCGCAAGGCCATAGCTTGCCACACTTTACCATGTTC -ATAACCGCGCCCGACAAGAGCATGAGCGATTTCGTGTAAAAGAGTGTCTAAAATATCCTC -GTAGATATCTTCCGCAACATGACGACCAGACAGTTCGATCAGTTTTTTGGTATAACTGCA -ACGGCCCAGAGTTTTTGTAATGCGTCCATTGATCCGGAATGTCCAACCATTACTGATCAA -ACCGTGTTTTTCCATCATGGTACGCGCCCAGTGGGTTACTTCCATTGCACTACGAGTTTT -CAACATTTTAGAATCTCCTTTGCTTGGTACAAAACCAATATAGCAAAAAGCCCCCTGCAT -TGCAAGAGGCTTTGTAATTATTTCAACTTCTTAGAAAGTTCTTTTAAATCATTGAGATAC -TCAATTTTAGGGGTTGTTTCTTCCCAGTATTTCAATTGTTTGCGCAATTCTTCGGCTTCG -TCTTCCAGCTTTTTTCTTTCGTCCGTGGTTAGATGGTAGATGTTCATAGCCACTAACATT -TCGGCATGATTCTCGCAACCTATCCACGTAGACACAAATTTAACCGCTTCGCTGCGACTA -AGGCCACGCAGAGAATCAGGAGATTCTACCATTTGAGCAATAAACGCAACCTTTGCCAGT -GCTTTATCTAACGCTTCCTTAGTTTCCTGGATACGCTTATTGATGCGCTGTTGATATACA -TTCATACGGATATCAACAAAATCCTTTAGAAGCGTTTCAGGGCGTTCGTATGAGTATAGT -TTACCCTCAAAGATAACGTTAATGTTTGGGTTTGAGTTTTCAATCAAACCGAAATCTTTC -AGGATCTTTTCACGGGTTAACCCATTAGCATACTCTCGCTTGAGCGTTACTTCATACCGA -AAATCTTCTTTCGATAGATCCTTGTAGCTAACGATAACGCCTTTTTCTTCCAGCTTGTCA -AGGATTGCAATGTATTTCACACGGTCATATTTCACTGGGATCTCAGTGATCACCAATTTG -GTTTTACCTTGCAATTCATAGGTGCCGTAAATCGTACCGTCTGTGATTTCACCTTTAAAG -TAAGGATATTTCAGATCCAGTGTGAAATCTTTATCATTCAGATATGCAATACACCCGTTA -ACAACTGATTTAGGATCATGAGGCGGAATGTTTGTTGCATATGCTTTTGCAATCCCGCTA -AACCCGTTAACCAGTACCATCGGAATGATCGGGAGATAGTACGCTGGCGGTACATGTTCC -GGATCTTCATGAACTGGCGTTAAATCACCATCCATATAAATTGCTTTGAATATTGGCGAT -AGTTTACACTTGATGTAACGAGGTGCGCCAGGTTTCTTAACCAAACGGGAACCAAAGAAC -CCATCACGGTCGAATAACGGAATGTTATTGCACCAGTGCGCCGCCATAAGGGATAACGCT -TCTTCTACAGAGGTTTCCCCGTGGTGATACCCATACATAGCAACACCGCCAGCGATAGAA -GCTACTTTCTGAAATCCCGTTCCGCCCTGCATAGCAGAGTGAATAAAGAAACGGTGAACG -GGTTTAAACCCGTCTACCAGGTGCGGGATCGCACGTGAATAAATCGTGTAAAGGGCAAAC -GTTAGCCCTTCCACCTGTACAACATCTTTAATACTTCTTTCCATTAGTCAACCTTAGAAA -ATTTGTGTTTTCCATTAACCCAATCTTTACGCGGATCAGATTCGTCGCCGAAGCATAGTT -CTAACACTTCTTTGTATTCGTCGTCAAGTACAATGACATCATACTTCAACTGATCACCCA -GAACACGGTCGTAATCTTCTTTGCGTAAAGAACCCAGCCCCTTGATATATCGTACATCTT -TTGCTTTATCGCGGAACGGTGCAAACTCATCAAGAGAATAGAACCATTTTTCCTCGCGCC -CAACTTTAGCGATAACGATCGGGGTTCGAATATATCGGATCCGTTTCTCAGTGAACAAAG -AAGGCCAACGGCTAAAGAATGCAAGCAACAGAGTTAAAATGTCACCACCGTCAACGTCAG -CATCGACCATGATGCCGATATTATCATAAGTCATTCCGGAAGTATCACCAGGATGAATAT -TGAGGATAGCCATTAGCTCAAACAGTTCTTTGTTTTTGATAATGTCTGTAAAACTCATAC -CCCATGTATTCAGAGGCTTACCACGTAGCGGGAAAGCGCCTTGTGTTTCTTCGTTACGGC -ATTCGATGAACTGACCAACAGCGGAATCACCTTCTGTCAGAAACAATGTTGTTTCTACCC -CTGGAGTATCGATACCGGAAGCCGGAACGTGTTTAGCAATCTTTGCCTTTTTCGCTTTCT -TTTTCGCTTTGGTGATCGCGGCGGCTTCTGCTGCTTGTTTACGAATCAATGCGGATTCAA -TGATCGGAGTAATGATTTCTGGAGTATCCATAATCATTTTTGCGATCTTTTTGTAATTCA -AATTCGCATGATTGTTAAACTCACCTGCTGTATTTGCCAATCGCTCTTTTGTTTGGCTAT -CGAATGCAGGTGCATTAAAGTTATGCAGGAATACCACAAGAGTTAAGCATTCTTTTACAC -GTGCTTTCGGGATCTCGATACTATGCTTTTTCTTGATCATCGGTTCAAGTTCAGAATAGA -TACCATCGATCATACACTCAACATGAACACCGCCATTTTTCGTATCCAGACCGTTAACAA -AGGATTTCTGTTTAAACCCGTCCTCAGTGCTCGCCAGAATGAAGCTGAGGCGATTATTTG -TCTGGACAATGGTTTTATCCCCATACATGGAAGCGTACAGCGGGAAGCGATTAGAGAGCG -TTTCGCCGTTATATGTGAATTTCACGGACGGGAAAGCAACGGCAAGGGCCATTAAGCGAT -CCTTAATCACTTCTTTGGTTTCTTCATCGATACCAGTTACACCAAACATAGAGAAGTCTG -GAGTAAACTTAACAGTAGTACCCTGTTCTTTACTGGGGCTGGTTCGGTAATCGATGTTCT -GTGCGCCGTCCGTACAGTTAATGGTTACTTTGCGTTTCCCGTTTGCAGTCTCGCCAATAA -AAATCGAGCTATAACAGTTTGTCAGGAAAGAACCAACACCATTCATACCCATCGTTACGC -GGTTTTTATCATCGAAGTTAGAACCCGATTTTGCCATAGTCCATGCCGCAACTGGTTTAG -GAACTATTTTCCCATCTGGGGTTTTTACATCATCCTGGGGAATACCGCGCCCGTTATCAG -AGATTTTAACCAGATTATGATCAATGGTTACATCAATCTTATTAGCATGTTTGAATTCAG -TTCGGATCGCTTCATCAATCGAGTTATCAAGGATTTCGTTGATGATTTTAACCAACCCTT -CCACGTACTCAACCTTGCGATATTGGCCCATTATGAAACGTTCATGCGCTTCTTTGTTAA -CCGATCCGACGTACATATTTGGACGCAACCGAATATGATCGCGATCGCTCATACAAAATG -ATTCGTCAACCTTTGCGCCTTTTTTGGCTGGTTGTGGTTTCTGTTCTGGTTCATCATCTG -CCAGAAGAAAATCTAAACTCATATTCACCTCTTTGTTTAATCACTGACATTATATAGGGT -TCTATGAAAAAGAAAACCCCTTTCGGGGTTTACTTGTTATAAGGGAAACCATCACGAACC -ATTTGAGGTTTATCAACCGTTCGTTTTGCTTCGCCTCCGCAATCACAATCTTTCGGTGCA -TCACGGGTAGCAATGCTTGCCATTTTTGGAAATTCTTTATTACACTTGGTGCATTTATAG -GTATAGGTAGGCATTAATAAATCTCTTTTAAACTCAACATCTTAACTAAACGGGCTTTGT -CTATGTCAAAAACACATTGACGTGCGCCCGGATACAACTTTTCAACTTCGTATACCATGC -AGACGAAACCAACATTGTGCATGTACTCGCGTTCATATGCATTGAACCAACGAGAAAGGC -GCTGTATTGACTGAAACCCAAAATATAACCCAGCCGCTTGAAAGTCTATGTTATCTTTTT -CAAGGTTGCGCATCAATCGATTATCGTCATCCGGCGCTGGATGTCGGTGATCATCCATAT -CAATATAGATATCAGGATTCATACAGAATTGATCAAGCCATTCAGCGGTATCCATCGACA -AATAACGATTGACATATGGGCCACTTTTTGTTTGCCATTTTTCTGTACAATCATTCCAGA -AAGAACAAGAAAATTCCACACGATATACGAACATGATATAATCCTCACAAGTAAACTCAA -GGTTTACAAGTACGATACCACTTATCTAATTTTTCTGCAAGCATTTCGTTGATAATTTTT -GCAATTTCGTACCGTCCGTGAGTAGTACCCAGTTCCAGGTAAATCACATCAAGTGCGCAC -ACAATCGCATCAATACTTTCTTCAACGATATTACCGCCGCGTTGAGGTTGAATGAGGCAT -TCGCTGATCTCACCAACTTCCGCTGATAGGTGATGAACCACATCACTCTTCGTGCGTTTC -TTCACTTTATGAGCGATTTCAAAAAACTTATCAAGTACGATCGCCGTTTCTTCTCGCGTT -GCAGTATTCTCGGATGTCGTCTCCGTTTGTTGAACAACGTATTTTGTAAAATAGTTTTCA -AACACGTTGAAAGGGATCACATGAGGAACACCATTCAAAAACACCCCTTCTTTACAAACA -TAATGGATTTGGCGCGGAATAGACAACCCGCCGCTGCGTTCCAAATGTCGTTTAACGCTT -GCTACAAAATCGAACTCTTTCCCGTATCCAGCCGATATACTGTGATACGTGAGTAGGCCA -AATGCAGAAACATAGAGATCATTTTCTTTATACAGATTCATTTACAATACCTTTATGGTA -GCCAAAAATATAACAATCAATTGAAGGACGTTCACCAGGGAAGTGAATGCATTGCATGAT -GCGTTCAGCCATTAGATCTTCTCCCATGTATACCGAAGTAGTTTCTTCGTTGTAATGGGT -ATCATACGACGTTTTAAGCGTCATGCCCGGAAGCCCTGCAATGTGCATGAATTTAGAATT -GGTGCAAGGTTTTCCTACTTCACCGTTGATCATTAACACTGCATTAGTTTTACGTGCTTT -TCTCATTTGAATTTCACCCCGATTTGCGATACGTTCCATTCTTTTACGTCATCAACAATA -TCATAATGGTTGATGTATGGTAAAGCAATTTTTAAATTACTCGCGTCTTGAATGTTGCGT -AAGAAACGAGTAGGAGAAAGAAGACACAACCGCTCGGATCCGTTGTTTCCTTTAGCGGCA -AATGATAGGGTTTCTCCCCCGTCAATCTTCATATCAACAGAAATCGTTTTGAATTCTGGT -GCGTATGACGTGATTTTGCCGTTGTCTCTCGGTGTACTATAGAAACATACACTTTGTGGG -ACATTATAACGGTCTGTTTCAATGTACATGTAATCGCCGTCAGTCATTCCCCACACGGTG -TAGAGGGATCCGGTATAGTCACCAAAGGAATTTTTAAAATCTTCCTTCGTGGTGTATCCC -AGAGAGCGCAATTGCATAAGCTGGCTATGCTGTTCGATTGCATCGGCTTTTTGTTGTTCC -TGTACTTGCGCATCAACCGTTTCTTGCCAGGAATTATACGCATAGTAACCCACAACAGCG -ATTACAGCCATAACCCCTACAGCTTTCCAGATTTTAGAGTCTTCGTTTTTGTTACTCATG -CTATATTCCTTTTAAGAAAAAGGGCCGAAGCCCCTTTGTTAACGAAGATAAACCACATAA -CCGCTTTGGTCAATCGCGCGGTCTGCGTCATTGAAGATATTACCACGAATGCCTTTTGCT -GGTGCTTTCCAGCTTGCAGGTTTCAGGATATTACCATCATTATCGATGAAAGCGGCAACA -GAACGCTGATTGAACATTTCACCAGTTTCTTTGTTGCGAGTATCCTGAACAACGCGATGA -TATTTGCGGCCTTTCTCCAGAAAGAAAACAGTTTCGAAAGGAGAATCTTGGAAACGAGCG -TTACGCGCTTTGTACATTGCTTCCATGAAAGGGGCTGCTTTTTCTGCGAGGATTTCGAAA -GTGTTCATGGTATATCTCCTAAAGTGTGTTTCGTTTCGATGTAAGTACTATATCAAAGAT -GGTTATTCTATGCAAGGCTTTTTTCGTTATCCATCAAATATTTTAAGTGTTCTTTTAATG -CAGGGAGTTCGTTCAAATGGCGTTGCTTAACTTTCTCGTACTCTTTGCGTTCCCAGTTTT -CAAGATTGCTTGCCAACGCTTCATCACAATAAGCGATCCCGCGTTCTGCATCCTGAACTT -TCTGTTTCCATTGTGCAACTGCTTGTTGATAAAGAGAACCGTTAACCATCATAATAATTT -CCTCCCTTGTTTCGATGGGGTAACTATACCAAAGCTACCCCAGAATGTTTTAACAAAAAG -TGCTATTAGTAGGTATCCAGTTTATACATTTTGCACCAGTTCATGAATTCTTCGAAAGTC -TGAGTATTAACACGTTTTTCCTTCTTCACTTTCTTAGTGATTACAGGACGGTTAGTAAAA -CGTTTTTGCATTTTCACAGTGATTGCTACTTTATCGCCCAGGTCTTCAACCTTTTCAACC -AGCGCCCACTGAGAACCAATTTCAGCGCCGAAAGTCAAACCAACAATCTCACCTGCTTTA -ACGTGTGCTGCATATTTTACTTTAACCATTTTCGTATTCCTTTCTCTGTTTCGTTTCGAT -GAATACAAGATACCAAAAAGCCTCCCGCAATGCAAGAGGCTTCTTTAACAAAAAATGCTA -TTTTATTTCTTTGAGTAATTTACGGATCCCGCCGCCCTGTGTCTTATCAAAGATTTTCTT -TGCATCAATAACAGAAGTGATTATGTGGTAGTTGTTACCTTTTCCGTCAAACTCAAACTC -GACCTTGTAGTCACTACGAAATTTCACAAAAACAAATTCACCTGCAAAGTGCTTACGGAA -CTGCTTTTCGTTAATGTCCAACCATTCCTGTGTATCATCTAACTGATACATGCGACAAAA -CAGGATCGAACCCATTACAACAATCATGACAAGAATAGCTAACGCGAATTCTGACATCAT -TTACCCCTGTTTACTGATTGACGGTGTAACGATTTAGGCACAACCGGATTTCGATACGGT -TTGACTTTATGGATCATGGGTTCTTCCTCAACCAAATTAGGAAATTGGTTGTTCCATTCC -ATCGAAAACGGATAAGGTTGTGACTTGAACTCTTCGATCACACAGTTTACTAAACGACCA -CCAATTACACCCAAAGCCGCCCCAATAATCGCTATACGCATAAATCACCCCTTAATTGTG -TCAAGTACAGTAAACCAGTCATTAAGCCATATCGTTGTTCTTACCGCGATATACGTTAAC -AAACTAATCAATGATACCGCTCCGCAAATAGCCAGCGTAATCAACAGCCGGATTTCAAAT -TTAGTAAAATTCATATCAATCTCCTTTCTTAGAACCCAATATAACAAAAGCCCTCAACCG -AAGTCAAGGGCTTTGTTTTAAATTTTTACTAGTTTTGGCAATCGAAGAACTATACCAGGA -TGGATCAGACGTGCATCCGGAATAGAATCACGGTTGATTTTAGCGATATCAGGCCAAAGT -TCACCAACACCATACAGTTTCTTTGCTATAGAATACAGGCTATCACCCGGTTGCACGACA -TAGCGATCCGATTCAATCTTAACCAGATCCTGGTTAATGATATCTTCAAAGGCTTTTGCT -TTTGCTTCGTTAATCGTGTTCCCGTAGTAATGGCGATCCATAATAGTTAATGTGATCATC -GTTTCTTTCCTATACTGTTTTCGTCTGTCTCTTCTAAGGATGGAGGTTCTTCCAGCCCCA -GGGCATAACGTTTAGCATAGATTAGCATCAATGCATCTTTAGCGCAATCATGAATTGAAT -CATGCTGAATGAATCCATCTAACATGCCTTTACGCAGTGGACACGTGGTCACTCCGCGAG -TCAGTAAACGGTTTTCAATAGCTGTACGCACATCACGGCTATTCCAGAACACGGTCGGCA -TATCTTCAAACGTGTCAAGTTTCCCTGTCATAGTTCGTACAGCATAGAACGATCGAATTC -AGGGCCGCGCGTATAATCGTATGACTGCCAACGACTCACACCGTCAGCCGCTAAATCAGC -AAAGAATTGTCGATGACCTTCGTACAAATCCATGTCAATATCAGAAGGGAACAAAACCCT -TTGCGCTTCTTTAGATTGCTGTTTCCACCATTCGATCGTTTTTTCATCTTTGATGCGTTC -TGGTTGTTTCCGGATGTCGAATTTATACTTTCTTCCTTTAGCAATCAGTTCCTGAAAGGT -AGGCGGATCATAAGGATCATCAACAAAAGGAACATAGCTAAGTTCAGCTAGTTTTCCTTT -TGGAAACGGGCCAATACTTTCATAATCAAATACGAAATCTACGGGTAAATGACTCATTCG -CGACCCCGCTTATATGATTCCATGAAATAGGCCAATGATAGCGCGACTTCCGGAGTAACA -TCAACGGATTCGATCATGCCTGGAGTTACCGCCATCATACCGAACTGACGAAGCCCACAA -CGAGCAATCGATTTTTCCAGTCGGATCATGTTTTCTACAGCCTCTGCGAAATTGTCCAGA -TGTTCCCAATCGTGGTAATCTTCCATTGTAGAACGATCACTTTTCAAAATCAGATCGGCA -ACCAATTCAGCATAAAGGCGCGGAAGGTGAATATTCATTTAAAATCCCTCAAGCATGTTT -TTGTTTTCACGAATGTTACGACCCATTTTCAAAGTATCAATGATCACTGCATACTCTTCA -AAAGTGAATTCGATATCTTGTGAAATGTTTCCCCACGTGTAGGTCGGCCCGTTAGGACAG -TATAACCCAACTTCTTTGTTTGCGTTGACAACGCAGCGCAATTTTGCAAACAACAAATTG -ATATCGATAGAATTGAACCCTTCGAGATAATCAAGCCCCTCTCTACCAATACGGTCAACT -TCTCGCAAAATCTTTTCTACATCTTTGACTTTAACAATAATTTTCATAATAACCTCAAAG -GGCCGAAGCCCTTAGACATAATCAACAGTGAATCGTGCGCGGGTAGTTCCTACATAAAGC -AACTGCTTACACAATTCATAATCGGCGTATGCGTATGCATCGCGCGTATACATGTATGAA -TGATCATACGTGCTTCCCTGACCTTTGTGATACGTACAAACCGGAAGCGCCTTAACCGTC -TGGAACTTGTTTTTGATTTGCCAGAACGAATACCAGGGGGCTTTGTATCCGGTTTCCTGT -TTCATCTTTTTATACTGAAACGCGACGTAGTTCAAATAATCGCCTAAACGTTCCTGCATA -ACCGGATCCGCGATAACCTGAATATCCGCTTTCGTATCCTCGAACATCGATTCTGTTTTC -ATCAAGAAATAATCGATTTGTACCGGATCGCATCGGTCAGCTTTGATAGTATCAGAACGC -GGTATGATTTCAAGGATTTTAATTTGCTCGTTGTTGTTATAGATAACTTCAACAAACGAA -ACCCCATTCACACGGCCTTCTGTCACTAACGGTTCTTGCATCACAACCACTTCACCAACA -ATGAACGGCTGATCAGTTTTGTACAAGTGTTTACGGATCACTGCGTTTAACTTGTCTACG -TTTGCGTTAGTGTAAGCAAACATACGGTTATTGTTCAGGTCATCCGGAGTCTTAACACGG -CTAAAATAACGTCTCAGGAAGTCACCAGCGTTTTCGTGCTTCATTACCCCTAGTTCACCA -TTCATGAGGGGCATTAACGGCTTACCGTCGCGTATAGCGCGTGATACCTGGATGATTGGG -TTTCCTTCTGCCTGACGCATAATCTTATCCATGCGAATGACATCAAAAATTTCCTCATCA -AAGAACGGTGAAAGCTCGGTGATCCCTTCGGTATTAACAGGACGGATCTGATCCTTATCA -CCCAATCCCAGGATCACCGCACAACTCGGAATAGTACGCTTGATGATACGGAATAGTTCT -TTGTCAACCATCGATACTTCTTCAACCACAAACACACGACATTCAGACAGATCAGCGGCT -TTTTTGCCTTTTTGCTGTTCAAATACTCGTAACTCTTCGTTGGTTACGGGGCTGATTTTC -AGTGCTGAGTGAATGGTCGTTGCATCCATACCCACCGCCTCAGAGAGAACGTTTTTAGCC -TGGTGCGTCGGTGCTGTCAACCAGATCCCACTAATACCCAGTTTTTTCAATGTTTCAAAC -ACAAATTTTACCAGAGTAGTTTTACCAACACCCGGCCCACCTGTGATAGTAGTATGGATT -TTGTTTCTGATATTTTTAATCACTCGATCATGTGCATTTTTCTGGTCTTCGCTCAGATCG -TCAAAAGTTAATTCGCTCATACTTTAATCAATACCCCTTGAATACTTGCGTGTTCAATAA -ACCAACGCATATCTTTCTTTTTCTTTTCGGTTACGGTTTCAACTTCTTCCTTTCGAAAGA -ATCGGCTAAGACCACTTTGTTTAACTGGATTCATCTTATCATGATATTCTTTGATAATCG -AATTTTTATACTCGTTAGCATCGTCCGGAGATAGAAACAACAAAGGTGTTAACTCTCCTT -CCTTAATGAAGGGAATTTTAAACCCGTCTTTATCCTTACTAACGACGATATAATATTTTG -TAATCATTCTCGCCCCTCATAACAAACGTAGAATATTCCAACAAACCAAAACACTGATAG -TATAATCAGTAAAAGTTTTCTTTCAACGCCATTTACGTGAAACACACACCAACCGAAAAG -ATATGTGATCATCGCGCAAACACCATAAGAAAGAACCCCAACAGCTACTAGCGCGATGAT -CGGATCCATTAGTAGTTGTTAGCCCAACGGCGGAGGTTTTCGGCTTGTTTCAGTGCATAC -AGTTTGTAGATGGTTTCCGCATCCATACCCAGCGCCAGGAATTTGCACATAAAGAAATGC -CACTGATCGATAAGTTCAAACAGAACTTCTAAACGATCCTCTTCACTCAGATCCGCAAAT -TTAGTATTGCGCAATTCCTGGTGATTTGCTTTCCACGGTTTCCAAACACCGGATGCAGGT -TTAACACCGCGAGACATTCCACCCAGAGCGGTGTAAAGTTCGCGGGTTTCGTCTGCGATC -GCGTCATCTTGCAGTTTCAGCCAATCAAGGATTTCTCCGCAAGTTTCCAGATTATCTGGA -CGCGGAACCCAATGCAGCGTATCAGACAGGCTTTGTTGTGCATGGTTTTGTAAATCCAGC -ATGGATTGTAAAGGATCGCCATTACGGGCCAGAACCTTTTGATATTCGGAATCTACAAAT -TCCAGATCTTCCGGGTTAACCAGGTGCGCACATGAATTAAATACAGGAGTTTTATCAGTA -GTCATATCAATCTCATTTTTTCGGTGATTTGTCCCACGACTTAAATCGAAGTTTTGCCGT -GAGTCCAGAAACAGTATTATCTTTCAAATACTGCATAATTTCAAGTTTAGTTGCGCCGTC -CGTTTTTATCATTTCGTTGATATCTTTGGAAGGCCACGGGCATTTATCCCACATTACAAC -CTTTTCTCCAGCCTCAATCAATTTAAAGAGGCGGTGAGTAGTATCCGGATGACGTGCTTC -ATTGTCAAGAACCCAGACACGCATATTTTTGTACGGAACCTCAGAAAGCGCAAGCTGTCC -ACCAGTGATAGCGCCAGCATTATCAACAAATAGGCTATCTAATGGCCCCTCAAGAAGATA -AACCGTTTTTAACGGATCTATCGTATCCTGTCCGTAAATCTTGGTTGATTCCTCACAGGC -TTTGATTGTGATATATTTCGACTTTGCACCGTCACGTAAAGCACGGCCCTGGAAAGATTC -TATTTTACCTTTCTTATCGAAGATAGGGATCACTAATCTCGGTTCTGGTTTTGCGATCGG -ATAGGTATCCGGATTCACCGTATTAACCAGTTGTTGCCATTCGCGAGTAAACCACAACCG -ATCCCACTTGTCACGGGGGATACAACGATTCTGCACATATTTTATGATCGGATGTTCATC -CGGCAAGGTATCTAACCTTTCGCAGAATTGAAGAGTAGGAATAAATTTCTTCTCTTCCTT -CGGTTGTTCTGTATGCGTTGGCTTTAACGAATTGCGATCCTTAAACGATTCCATGAGATA -ATCACGGTAATCGTCTGGATAATATTCTTTCAGGAATACGCTAAACGGTACACCATAACC -ACAGTTAAAACAACCACAATTCATATGATCACCCTTTTTAGAAGGGTAGATCCAAAATCG -TTTTTTGTACTTGTCTTTCATTGAGTCGCCGCAAATAGGACAACGCGCATTGATGCTTAA -TGCCCCCGATTTACGAACGATTTCGCTTTGAGGCAATGATCCCATGATTCGGGTTGCAAA -TTCTATATCAAGATACATTTCTTACCTCAGTTGACTATCTTTTGATCCTCGTCGATTATA -CCCGGCGCTGATCATTTCGTCATGTTCTTTTTGGCATTCAATACAATAACGGCAACCCTT -CACGATAGCCCTACGTTTTTCGGGTATCGGATCCCCACAATCAAAACAATGCGTTAATGA -TTCTCCGTTTCTGATTTGAGAACGTGCAAAATCTATCGCATTGTCTATTGTTGCCTGAAT -GGTATCTTGAACACCGTCAGCAGGGCCAAATCCAACCGCCATTGTAAATCCTCCTAATCA -AATGATTTCAATATCATAGACTAAGAGGATTTTTCTGTCAAGAACTTACTTGCTTTTCTG -TTCCGTCAAGCATTAACTTCCAACCACGAAATGCCTGTTTAAACGAATAATTTATTGCAA -TATCAATTTTATCAGAACCTTTTCGACGATTCTGATAAACGGTCGCGTTGTCACTCATAT -ACATGATACAAATTGGAAACCATGTATAATCGTTAGCAGTAGCCCAGATAGTGATATTCA -GCGGAGGAATTATCATTTCTTTTTCCTTTTCCCTGCACGGGTAACGCCTAATACTTTCGG -CCCGATGTTGGTTACTGCTCCAGTAGTCACACCAGAAGCAATCTTTTCTGTATCGCCGCC -AGAATCACCAGCGACCATATCCTCTAACATACGCCCCTTATCATAATATTCTTTGAGGCG -CGGAACGTTCATCATGATTTCTTCATGCTCTTGTTCTGTCAGATTGTAGCGATTGCGTAG -GGTATCATATGAACTTGTTAAGTTCATAAACCCAGTCATATACGGAACAGAATTCATTCT -ACGCTTGATATGGCGTACTGAACGATGAAAAGGAGAATACGCTTCTAACTCTTCTTTTGT -TTTGGGGTTACGAATTACTTCGCCTTGTCCATCAAGGATCCCCAGTTTATAAGCAGTCCA -TTCAGTCCAGGGCTTTTTGAGTAGCCGGATCATCCGGACGCTATATGTTAAATCCATATT -TTTAACTAATTGATCACTCATGATTATTACTCTATTGTGAAAGTGAATAAATCAGATTTG -GTTTCAGGTTCAAACTCCATACAAACAACCTCGCATAGTGGTTTAACCCCTTTCCAATCC -TCCAGGTAATACCCAGTATCTATACCGCATCCAGGATTCATAACGAGGCCAGTTTCATCA -AGAAACTTTTTGCATTTACTTGATGTGGTGCTGTCATCTTGTCGGAAACAGTGTGTTTTC -GAATACCGGAAATTTGCAGACATTTGAGGGATTATGAAAGTTCCCTGACGCGCGATCTGT -GATGCACGTTCGATTACTTTATACTCAAATTCCGCCCCTGTATACTTACCCTTAAAATCA -GATGTTTTGATTTTACCAAAAGGCGGGTTACTGATCGCCATATCAAACACCTGATTAAAT -TCAGTTGTTAAGGCGTCTCCATGAACCCAGGAGGCTTCTGGTACGATACGCTTACCTAAC -TCATAGTATGTGTGATTTAACTCAACACAGACGATTTCACGCGGCGTATTGTACATCATG -TAATGAACCATAGCGAAAGATAACCCACCAATACCAGCACACAGGTCAATAACACTTCCA -CCTGTACAAGCATCGATTGTGAAATCGCGAGCAAGTCCAATAGGGGTAAAGAACGCCCCT -AATTCGGAATTATTTGTAAAAGCGCCTTCATGAAAGTTTTCAATGATGAACAACTTCTCT -TCGTAAGTTAGCGCTTTGTCAGAGTGAACCAGATCCATTATCTGATTGTGTTTCTTGGTT -TCCGCTTTCGTTAACTTTGCCATTGTCCCAGCTATACAGTAATGTTGATTCATTTGGGTA -GAATTCCCACCCGTCCACATATCCGGTTTCCCAGTCAGTAGTTTGTTCAAAACCACAGAT -CCATTCATATACACCAGGAGGCATTTCGACAGAATCAGGAAGCCCGATATCTTCCGCGCT -GCGTCCACATTCAAAGAATGCATCGTGAATGAATGGTCGAGATAATACCGTAACATAACC -TTCATCGTCAACAGCTACGATCCAGCGAGAACTGTGAGGACTATCGAACTTCGGTTCTTC -TTCGTCTGCGTCAGCTTGCATTTCGGCCTTACAAAAATCTAAATTTATCATTTCAAACCC -TCTTTAACACCCTCTTTCATAGCTTTCCAGGTAGAACCCGCTTCACCATTCAGGGCGGCG -AATACAAATAGTAAGATAGCAAGGACAAGATTCACGCCAGCAATCACCATGATTTTGCTA -TACACGAAAATGTAAGGCATTGCCACCACCCACCAACTAAAAGAATTACCAGTTACGATG -TTGAGTGCTGCAAGTAAGAAAGTGATAACGAATGTGATTTTCATAATGTCCTCCTTTGTT -ATGATTAAGGTATCATCTTTTGCGAAAGAATGCAATACCTATAGATACAAAAAAGCCCCG -AAAGGGGCTTAATTTTTATGCGTTATTGATGAGATACCGAAGAACGTTTTTCGCTTGTTC -CTCATTACAACCAACTTTGAAACCAGGTTCGATAGGGAGGAAGTTCCAGAGGAAATCAAC -ACTTCCTTCAACGTCATCTTTGCCTTTTTCCAGCATTGCTAACAGTAAACCTTTGTTTTT -GATGCTGTTTACGATTGCGTCAAAATAACCATCGCTGAAATCAACATTCGGATTCAGCAT -TTCGTTGTAAGGGTTGTTGAATACGTTCATTTTGAATCTCCTTTGTTTAACTCAGTATCT -TGTCTACGTGAGTTATATTACCACAATGGAGATTCAGGTCAATACCTTTTACGATTTTTT -GAAAAATTTTTCGTATTTGGCTTTTATCCAGCGATACATATCTTCGGCCTTGTCACTGGA -AATCAGTGAGAACAGCAGATAGATCGCAACACCCACCAACACAACGCCTACCACAATGTA -GACGGGTAATAGAACTGGGAAGAGAACCCAGAACCATGACATATGCGAGAAGCCAAATAC -TTTAGCCGCTGCAAAAATCAGTGTTAGTCCAGTCAGAAGTTTGATAGCCGGAATAGGAAT -CGTTATAGTCTTAGTCATTTCATTACCTTACATTCTTTATGGGGCTATTCGCCCCAGTCA -ATTAAAATTGAATGTCAGATTTTGCAATCTGTGCCATTTTTTCACGTCGGGTAGATTCAG -CCTGTTTAATCATCGGGCCTTGTGTCTGTTCTACTGTTTTAGGCATAGTGTTGCCGTGGT -AGTCAGATTTAAACCCGTATTCGCTGTTGTCGGTATCCATCCAGCGCTGATTACCCTTGC -GAACTTCCAACTTGAACTTGTTGAAAGTGTTCTTATCGCCATAACGGGATTTGATTTGCT -TGAACAGTTGCATACCCTGATCAGCTAACTCTTCCGTCTCGATTACAGCTAACATAAAAT -CAGCCGTAGCAGGTAAACCAGCGGATTCCGCAACATCACCCATACTCACATCCGAACTAT -CCCATGCAGAACGCCCAACCTGTGCGCCTGTCCACATCACGGTATTAGTTTCAACAGCAA -GACCGCGTAGTTCTTCGGCAATTGCTTTAACCAGAATATAGGTATTTTCAGCACCTTTAA -CACGGGTTGAAGTACAGATCCCCAGGTAATCGACAATGATCACATCCGGAACAAACTGTT -TCTTCAATTTAAGCTCTTTCACAAGCGCTCTAAAGTGGTTTGCACCTGCACCCGATGTAG -GGTACTGCTTAACCACCAAACGCCCAACCTTACCCGCTTTAAGGCGCTCCATTTTGTTCT -TATAGTCTGCGTATGTAATGTTCCCTTCGTCGATGTCATCCATAGTCACATCAAGAAGGT -TAGCATCGATACGCTTAGAGCAAACATGCTCTGCCATTTCCATAGAAATGTAAAGAACGT -TTTTACCCTGTTGCAGATAATCAGCCGCAAGAGAACATAAGCCCAGTGATTTACCAACAT -TAACACCAGCCATGATGATATTCAGTGTACCACGTTCCGCACCGCCTTTGGTGATTGCGT -TCAGGATCGGGATACCAAACGGAATTTTCATCGCCTTCGATTGGTAAAGCATCCACCGTT -TTTCATAATCTTCGAAATAGTCATGACCTACTGAACTATCGAATGAAATTGCTAATGCTT -CCTCCATGATTTCAGGGATAGCCCCAACACCAGGAAGTTTCTTGTTCTGTTCTGCCAGTG -GTTTTTCTGCGTTAGCCTGGATCTCGATTGCGCGAGAAAGAGCACGATACATTGCTTTGT -CTTTGCAATATGTTTCCGTTTCCTTCATTAGCCAATCTAAATCTTCTGGCGCATTTTTCA -GCGACTGAATCGCCTTTTTCGTGTCTTCGTAGACTACATCACTTAGATTTCGTTTGTCAA -GCGCAACCTCTAAAGCAGTTTTTGACGGAATACCGTTGAATTCCTGTACATGTTTATCAA -TGAGGTCAAACAAAACTTGTGCATTGCCTTCAAAATATTCCTTTTTCAGATGAGGCCATG -CTTGGACAAAATACGTCCCGTTATAAATCAGGTTAGAAAATATTGTATCAACGATCATTG -TATTGCCTTATACCAGGTTGCTGAACATCATGAAAAAGTTGTAAACCTTTTGTTTGAATA -CATCCCATAATGTCAGTTTAGGCTTTGGGACAACTGAACCCTTTTCAAGCTCTTTAATCT -GTGCATAAATTGCATCATGCACCAGCGGGATCAACGCTTCTTTGTCTTCGTCTGGGGTAC -TGAATTCTACTTTCAGCCCATGATCCCAAAACACCTTATGAATATAAACCAGATGCGCAA -CACCTTTTTCATCGTTAATCAGAAGTTCCTGAATAACATCTTTCATCGCTTCATCAATAT -AATTCTTTGCTTTGCTCTCGATATCCATACATTGCCTCGGTTATGGGGCCGAAGCCCCAT -ATTTTTTATAAAATTTCGTCGTTTTCTTCGATATCATCAAATGATTCTGGGATATCGTCA -TCATCCAGATCAGGATCTGGGATGCTATCAGTGCTGTATAAATCTTCCAGCGCGGAACCA -TCACTGATTTCACGATCTGGGATCTTATACTTTTCTTCGATAGCTTTCAAGAATGGTTGA -TGAGTAAACAGAGGACGCCAGAATTCAACGCTATTTGTTTCTGACTCACGCCATTTCTTT -TCTTCAACTTCGAGTTCGCCAGTCTCGGTATTCAGGAAAGCGCGGTTGCGCCAGCCTTTG -GTTACGGTCTGTACAAAGTTCATTTCCATTGCCAGATCCAAAAGGCCAGAATACATACTA -ATACCGCCTTCATAGGTAACATGCAGCGGGAATTTTGATTTCTCTTTCACGAATCGAGAT -TTTTCGATATTCATGATGAAATCATAACCCACCACCTCAGTACCTTCTTTCACCTGTTGT -TTACCCAGGATGATCGCAGTATCAGCGGAATACATTAAACCAGTACCACCGGAAATAACT -TTCTTGCTGTACATTTCTTGCGTGTCATAGGTATGACAGATACAAACCATCGGGATATCC -AGGTCAGCCAGATAAGGCGTAACCATACGGAACATACCTTTTAATGCTTTTGCTCGCGTC -ATATCCTGTTTATCGTTATCAGACAGCGCGTCAGCAAGTTCTTTTTTACTTGCCGTGTTG -CCTACTGAGTCAACGAATACAATCACCTTATCACCGCGTTCAAGCGCGTTAAGCTGGCTT -ACAACGTCATTACGCAACTGCTCGACCGTCGTGATACGAGTATACACAACACGATCCGGA -TCAACACCCATTGATTTCAGATAGGATTTAGTAACACCTTTTTCTGAATCGTAGAACAGG -CACACAGCATCTTCATACGTTTTGAGATAAGCCGCTACGGTCAGCAAACCTAAGTTGGAT -TTGAAGTGTTTGGACGGGCCAGCGAAAAGGGTAAGACCAGAAGTTAGGCCACCGTTAAAC -GCACCGGACAACGCCAGATTCAGAATCGGCACACGGGTTCGCGTGATGGTAATATTGTTG -AATACGTCGCTTTCAGAAAGTACAGATGCAGTTTGGCTATTCGAGTTTTTGATCAGTTTT -TTTAGTAGTGCTTTGTTTGACATTTAATTTTTCCGATTTATTCATTCTCATTCTATATAT -CTCACTAGTTAATGAAAGGGGCCGAAGCCCCTAGAGTTTACCAGTCGCCGAACAGGTCGT -TTAAACTGGCACGTTTTTCATAATCAATTTTACATACTTCCGTGATATTAGTCAATGGAC -TAATAACATGTTTTTCAAACATACCCGGATAATCTACCCATGCCAGAATATCACTTTCGA -TCTCTGACGGTAGTTTATTTCCGGATTGCCACGCGATGCAATCGGCTTGCCACGGGTTTT -TATCCCTTAGTGGTAGAACCATTACCTTTTCACCTTCCATGATTGGCGTAACACCATCAA -TACCAGCAGTGAAACGGTTAAAGAAAAGCACCCCTTTAATATGGTTTGGTGTTCCCTTTA -TTGGATAGCCAGCCCCATCACGATATTTCGAAATGTTGTTGGCAGATGATACACCAGCAA -TTTCCCTGTAGTCAAGTGCCTTATATTCTTCTTCGAACTTTTTATAATGTTCATGCAAAG -ATAATTCACCTTCTTGCAGGATACGGCGGATCGCTTCTTTCAGGAATACTTTCACAGAGG -TCGGAGTACTCGATCGCTGTGTTTCCATACCCATGATTTTCAATTTCGGTTTTTCATAGC -GGGTTCCTTCGGAGTCCCACACGTTAGCAGCATATCGTTTTTTAGCAGTCCAGAAACTTC -CCAACCCTTCGGAACCCAGCGGAGGCCCAGAAATGATTTCACGATCCATAAACATCAGGT -GTTCCACGTTGTTCATGTATTCGCAAAGTTCACGATACCCTTTATCGATCATCGGTTCCA -TTCTTTCTTTAGCAAAGCGATCCAGGAAGTCAACCCAATGGTTATTATCCTTAAATTTAG -CCTCACCGCCAACTTTTGCAATCACGTTATCCATACAAACATAAATGGAGTCAGTATCAC -AGTATCGAACATATGCATGATCCGTAGTACCGCACAGGTCATTAAGGTATTCGTTTACCT -TACGTTCAATCCACTGGATAGCCAACTGCCCGAACATGGTGATCGCGCTGGCGTTTCGTA -GATCGAAGTATCGGAAGTGTTCATTACCCAACGCACCATAAAGGGAGTTGATAGAAATCT -TACGGTTAAGCTGTGCTGTGTTCGCTTGTGCGATCTTCTTCTCACACACGCGCTTAACTG -CTTTAAGCATTTGTTTCGTAAGAGTTTTCAGAACTGCTTTCGATTCATCACTGAAATCTG -TATAGAAATCAAAGTCAGGATCAACCATTTGGTTATGCGCGTCTGTTAAATGTTCGAGTT -CATGCTTGATGAGTTCAAGATTTCGCTCACCCGCCATCATTCGTTTTTTCCACATCTTAC -GCTGATCAAATACTTTCTTGATCTCTACTGGGATCACGCCTTTGATATCACGGCGGAACA -TCCACCCGTTAGGAGAACAGCTAAATTCATCGCTAGGGCGCGGCGCGGTCTTATTAATAT -ACTCTTCAAGAGCACGTACCGCAAAACTCCCCATAATCGTTTCAGGGCTTATATTCACCT -GTCGGATGATGGAAGGGTACAGGCTTGTTAAGTCGAACGATACCATGTATTTGTAAGGCC -CAGGAACAGGATCCTTCACAAATGCCCCAGGGTAAGGGGTTTTAGTATGGCGTCTGTTTT -CCGGAATAACAACCTTATCTTTACGCAGAGAGTTATAAATGATCGCGTCCCACGTTTTCA -GCGGAGACATAACCCCAGGGAAGTTAATTTTTGCATAGTACGCTACAGACAGAACCAGTT -CAATAAAGTTTCGTTTACCGTCGATATCAAGTACACGGATAACGTCAACAATGTTGTACG -TGATGTACAGTTGGTGATCGCGCTGGCGTAGTTCAGACAGAGAACCTTCATACTCAACTT -TATTTTTACCAGTTTCGTATTCCGCGATCGCGTCCAGGCGGTAAGATGGTTGCGGGGTAA -AGCTGAATTTCTTATACAGCGCCATACCATCCATTTGAGCAACGCCGAAAATATCATATC -CTAATTGTTCGTTGCCGTAAGCGTCAGTAGTGGTTCTGGCGGTTACTTTACCAAATGGGC -TAAAATGCCTTACCACGTTTTGACCGAAAATGTTCAGGTATCGCGTGATGATATATGCAA -TATCGAATTTGTCAGAGTTCCATCCGGTTACAATAACAGGGGTTCGCTCTTTCCAATCTT -TGATATACGCAGACAATAACGACTTCTCGGTCTGGAAAGACCGATAAACAATTTTGTTTA -AATCTTCTTCGCTAATGTCTTTGCGATCAACGTTTTCCGCGCACCATTCCGCAAGGCCAC -CCTCAACCAGATCGTATACATAGAATTTATCTTCAATGCTATCGTAATGGGTGATCGCAT -CGATTGGATATTTTGCTTCACGCGGATCCGGAAATTCTGGAGCGGTCACCTCGATATCGA -TAGAAGCAATGCGAATGTGTTCGCGGTTGTATTCGATTTCATTCCGGTACATGTCAGAAA -TGTAAGCCAGTCGGTAATCATCCATACCTAGAGCTTCCATCCCAACATCGCGCATACGCT -GCATCCAGCTTTTAGCTTCTTTGATGCTGTCAAACTGTTTTTTGAGGCAAGGCTTGCCGT -AAATGTCTTTGTATGGGGTTTCTACGCCATTCATAGCGTGTTGATACATTACGGGCGCAT -ATTTCGTCTTACGTACCTGTTCGGTGCCGTTAGAGTCAACGAAGCGCTCATAAATGGTAT -CTCCCATTTGTTCAACTGATAGGTAAAATTCATTCATTGGATCTTGTATTCTCCATTAAT -ATAATGTTCCATTGTAACACTACCTACAGCAAATTCAAGTTTACTCGATGTTCTAAAACC -AACAACCCTTCTGCTAACAAGTCACGGATCTTTCTCAGTTGAACAAGCTGGCGTTCAAGT -TTAAACCCGTCGAATAACATGCTAAAAATACTGGAATTTATACTATGATATTTTGCTTCT -GCAATTCCCTGGTTAACCATCATGATAGCTTTGTTAACCAGTAGTTTCCTTTCCGTTACT -GTATGTTCATCCAGTTGACAGGTTGCAAGGGAAACCAGATCATCATAAGCACGTTGGTCA -ATAACGTTATCCATACGGGCCGCGAAAATTTTATTCATGTAAGTGCGGATCATTGCGCGT -CCTCCATTCTTTTCATAAAGACTTCTTTTGCTTGTTGGATCAATTCCAGAGATTTTTTAA -TACGCTCATAGAAATGAGTGGTTTCAACTTGATTGCATAACAATGTGTACTCTGAAATGT -TACGATCGTAAAATCCAGGAAAGTAGTGTTGTGCATAGCTGTAAGTGCGGGTATCTGACA -GATTGCAAGTTAACGATAACAAGATGTCATCTTTTACAATCGGGATGATCAAAGTTTCGT -TGGATTTGATTGAATCCATGATTTCGTTAATAGTCATAATATATCCCTCTCAATGGTGTA -CACCCAATATAACAAAGCCCCTGCACGAATGCAAGGGCTTTTTGATTAGTGACCGATCCG -GTACTTGTACTTGAGGATCCAATCTGCTTTTTGCGAGTGAGTCAGTACGCGGAAGTTGTT -TTCTTCTGCAAACTTCAACCCAGGGGTTACGATCTTAACCATGCCCCACTCTTCGAGAAG -TCGCGCAATGTTGTTCCGGCGTAGTTCGTCTTCTTCCGTCATATCGACTTGACGACCATC -GAGTTTCAACAGTTCTTTAAAATGCACGATAAAATACTTACCTTGCTTTTTCAGAATGTG -GCACGATTGCCAGAGCATTTTCTTTTTGTTGTTTGCAATACCAATACGGGTTAGCGTTTC -ACGGATCTTTAAAAAAGAATCGTCGCTGATTAGTTGAATTTCTAACATACATCACCATTG -TTTAATCAATTTTTCCAATTTCTTTTGTTCAGCTTTGTTTTTCACAATACCCAACAAAGA -CAGAGCGACCTTTGCGTGTTTTCTTTTCCAATCCTCGAACATTCCGAGGTCTTTAAGTTC -CTGCAAATATTCCATCGCTGTACGTGTATTTACACTGTATTTTTCGCGAAGGATTTCGAT -AATAATTTTATCTTCAAAATCTTCCGATAGTTTAGCCCATGCACCGAAGCGTTTAGCCTT -CCTAACAGAGTTGAGATAATAGTTATAGTGCATTTGGTCAGAGATACTACCGCCTACCAG -ATTCATCACATACGCGTTGTATATCGTGTCTATGTGCTGGCTCATTGCGTTGTCTACAAA -GTACTTATCATACACTTCATCGATAACCAACGGCGTTTTGCCGTTGTTGATTTCGTCTAT -GATGTTAAACAAGGTGTTTTCTTTATCCTTGCCGTACTCTTTGACCAGTTCTTCAACCTT -ATCCCAATCTTTAGAAAGCCAAGCGGATTCATGCGGGGATAACTCTTCTTCATCCAGAAA -TTCCGCCAGGCTCATGATTACGCCTCCCAGACCATAGAAAGCATCAGGTTCATCAACAGA -TATTGCAGATGAATTTCTTTATTCATCGCCAGCCCGTATTGCGCGTTGTTTTCGCCTACA -ATCTGAATCAGTGCGATTTTAGAATCCTGATTCACGATAGGATAAATCGTATCAGTCAAT -TTTCCGATAAAGGTATCGTATTCTGACGCATATTTAATAACCTCAGAGCGCAACCCTTTA -TAGTTCTTTTCTTTCAACAGGGTAATGATATGAGACACATCAGAACCAACGATCTCATTT -AGGATCCCCGCATCAATTTCACCACGTTTCGAGTAGAACCCAATCGCTTTGATAATAGAA -CGCGCATCCGGATAATGCTCTTTAACAAACGCTGCAATGACTTTAGGATCATACTTGATA -TTCTCGATTTCAAGGATACCGAAACAACGCTTGATTAACTGTTTCATCAGTTCGATACGT -TCAGCATCAGACGGAACACCGAATTTAACAGGAGGACAACGAGAAAGCAGAGCACTATGC -ACACCGTTAATGTTGTTCGCTGTTACAATAACAGAAACGTTTTTACTGTATGCTTCGATA -AAGCTACGCAAGTGTTTCTGTGCTTCCGCCATACCAGAACGATCGAATTCATCAATGATG -ATAATCTTTCCGCCTGGTTTCTGCGTCATTGATGAAGCAAAACGATCCAGTTCATTACGA -ATGAAGTTTACACCACAGTTCGAACCGTTGACAAAGAACACCTCAGCATCAACCTCACGG -GCCAACACAAGCGCGAGGGTCGTTTTACCAGTGCCAGGGGAATCAGATACAAGGGTCATG -TTCTCAACACGCCCAGATTTGATTATGCCCCGCATAGCGGCTTTGTCACCAGAAGGTAAA -ATACACTCTTCAATCGTTGTTGGGCGATAGCGCTGATCCCATGCAAATTCATCAGGAGAT -CGAGAGATTTTACCGTATTTGGTTTCGATGATTTCAATATTTTCACTAAGTTCCATAATA -TACCTTCAAAATAAATGGTGTAAAAGAAAGGGGCCGTAGCCCCTTAAAACTATCTTACTT -GAATGTGCTACTTGCTTCAAGTACGACGACGTAAGCAACGCCGTTATCAGAAGAGAATTT -TGCGGCCCCTTTGGAGGAAATCTCTACTTTGTAATCGCTATTGATGAACTGCATGTTATC -AATCTTCATATCAAAATTGAAAACATTGTCGCCTTCATACTCACCGACTTCAACGGAGAA -AGTTGATTGACTTTCTTTGCTTTTCGCGGTGATGACCAGTTTACCATCAATCGGTTCAAC -GGACAGGTCGGTCAGTTTCATCATGCGAGACGCTTTGATCAGTTTTTCGAAATCGTTAGC -GGTAATCTGGAAAATCAGATCTGCTACTGGCATCACCAAACGTTTTTTCGGTTTCGGGAT -CGTTGTTGCGTCTGCTGAACGTTCGATGATCTTCATCTTGTCGCCGCGAATCACGATTTC -ACCAGTGGAAATATCATGAGTGATTTCCGCGTCAGTGCCGACGATGTTCAGCATGTTCAG -GAATGAGTTGAGATCGTAGATACCAACATCTTCATCAATCACATCAGCAATTTCAGCTTC -TGCGTATACAACGCTGTTGATTGATTTCGTCATGATGAATGAACCTTTGGTCAGCATGAT -CGAAGAGTTGATTTGAGAAAAGTTTTTCAGGATATCAATAGTTTGTTTAGAGAATTTCAT -ATTCAGCCTTTAGTTTTCAATAAGTGTTACTTAATAAGTGATTTTACAACGGTTTCCGCT -GCTGTGTCAAGCATATCAGCCATTTCTTTAACGGTTGTACGCTTCGGATCTTCGCGGCGT -TCGCTGGTAAGTTTACGATGTTCCGCAACCACTTTTTCATCAATGTCACGATAGTGTTTA -AAACGTTCCTCTTGAGGCATAGCCTTAAACAGTTCTTTTGTTTCGTCCGAGAGTTTAGCA -ACCCAGGATTTACGGACGCGGTTCATGTAGTCAACAAAAACATTACTTTCATTCATATAT -TTCTTCTCTAACTTAGAATTCTTTGAGTGGGGGCCGAAGCCCCCGCTTGTATTACATGTC -TAACAGTTTATCCAGGTCGTCATCACCGGAGGTATCAGAATCATCCAGGTCGAACGGTAC -GCCGTCATCTTCGCCTACCGGAACCGATGCAACACCACCAGATGATTTCACATCAGATGT -CTGATTGTCAAACTTAGCCATTTCGTTATCGAAGTTGCTCAGTTCGCTATCAAGGTCAGC -GGAAGCGCTGGAACCAGCAGAACCGATCGAACTACCCATAACTTTATTGAAGCGAGTGGT -CAGGTCAGCCAGCGGTTTGAATTCGCTTTCGGCGGTGATTGGGCGAAGATCGCTCATACC -TTCGAAAATTGCTTTCTGAACTTCTTCATCGTCGATGTTTTTGATCTTAGCCGGAACACC -AAACGAGCTATCGTCATAGTTAGGCCAATCACCAACTTTTTTCGCTTTCAGGGTGAAGTT -AGCACCATCAAACGGACAGGTTACAGCAATACCCGGTTCATCAAGTTCTGGATTACCGTT -AATTGCGGCGGTGATCTTGTCCATGATTTTCTTACCGAAGCGGTATTTGAACACCTTACC -TTCGTTTTCTGGAGCGCCTGGGTCTTTAACGACCAGGACGTTAGCCCAGAAACTTTGTTT -ACGACCGATCTGGCTCAGTAGCTTATCTTCTGGCCCGTTTTTGTTGGCTTTAGCCTTCTC -ATACAGATCGTTTTCGGAAATGTACTTACATGCAGGACAGCCGTCATAATCGCCGTGGGT -AGAGGAACAGTTCTCAATGTACCACTGGTTGTTTTTCTTGAAAGAGTGGCTCACGATACG -GACGAACGCCAGTTCATCATCGGAACGTGCTGGGAGGAATCGAATAACGGCGGAACCGTT -TTTCTGTGCGTCCAGGGTCAGTTTCCATTCTTTCTCATCTTTCTGGAAGCCGGAACCACC -TTTCAGATTTGCTACCTGTGCCTGGAGTTTAGCGGGATCTTGACGTTTAAAAATGCTGCT -CATATTCTGTTTTCTCGTTTAGTTTAGTTTGATTAACGTTTGTTTCATTAAGTTTCGATA -TTTTATGATATCTTTTTCAGTAAGGTCAAATATTTTTCTGTATGCCTTTAACTTAATGCT -AAAGTCAGACCAAATAATATCATCAGCTACTTGATCGTGTTTATTTATGATACCTAAAAA -TGAGTCAAAAATCAAAAACGATTCGTAAGATATCACATTTGACAGGACAAGTTTGCTTAT -GTAGGACGTTGATGATTTTTCGCTGTACTTGAACACCAGAGACACGGGGATCTCTTTCAT -TTTGGCGAATTCGTACACGTTTTTAACGTCATCCACAAACACGTTATCTAGTCTTTGTAA -CTTTCCTATGTACTGCCTGTAAAAGACAATACTATCTTCATCAACATCGCCTACCCAGAA -ATCCGGATTGGCTACGAAGTTGGAGAGGAATATAAAATAGATTTCTTTGAATGTAAAGCG -TTGAGCTAATTTTACAAAGAAATATCTATCCTTTCGCTTGTTAAAGGCGTTTTCACTAAC -TTTGATCTGCCAGTTGTATTGAAGGACATCAAAACGCCCCTGGAAATGAGTTTTCATCGC -CAGATATAACTTGTATACAGACAAAGGCACAAGCCGTGAATTCGCCTCGCTATCAGCAAA -CGGAGCTTTGAATCTCACATGAAGCCGTCCAGAGTGGTTGATGAACTATGTTCAAGCGCA -ACCGATGGGCGAAGCATGTTTCCTTTGATCGCTTCGTCGCTAATCTTATCAAGGATCGCG -CGAGGAACCGTTTTATTCAGCATCGCATAATCAATAGAATTTTCATCCATCCATTGTAGC -GTTGCTTCCATGTAGGTTGCCCCCTCAGAGGCAACCAGATTTTCGATATACAAACCGACT -TCGGTCTTATTTCCGATCATGCTTTACGCCTTATCGATCATATCATACAGTTCGATCAGT -TCGTTGTTTTCTTCTTCGAAAGCGGTACGGGCCTGTTCGTGATACAGTTTGAACAGTTTC -CCGAAGGTTTTTCCATCGATACCGAAATCGGTTTTCGCTTTGGATTTGATATCCTTGAAC -GTGCCGTTGAAGATCTCAACTTGAGTTTTCACGTTGGATGCTTCTTTGATCAGTTCTTTT -ACCTGTTTTGCTACATCAGGGTTTGTTTGTAAAAATTCTACACTCATTTTGTTACCTCAA -AAATCACTCAGTTTTTCGAACATACGGGAAAGTTTGTTATCCATGAAGTAACGTTCCATT -TTGGCTTTACTTCCGGATTTTGGAGTATTATACGCTTCAATAATCGAATTTTCAATATCT -TTTGGTATAAATTCGAAATCGCGTAGTTCCTCATTTTCTTTGTAACGTGCGGCCCATTCA -GGGGTCATCAATGTTGTCGGATCGTCTGCCTCCAGCCATGCCTCTAACTCAGAGGATTTT -ACCGCTGGGGCGCGTTCACCTTCAACCTTCGTCACAATATAATCATTTCTAATTTTAATG -CAAGCGATACTATCTTTTTTATCGCCTTTGATATTTTTGTATCGCAGATCGTTACGTGGC -GAACCGTACTTAGGCGTTACCCATTTTTTCTGGGGAGGCGACCATTGACGAACACCGTTA -TATTTCTGTAGTTGTGTAAAGTCGCTATCAGCAGAAACCACTAATACTCGTCTACCTTCA -CCAACAGCTTTTTTCGTAACAACAGCAATTATATCATCAGCTTCCGCGAATTCAACCTTT -AATCCGAGATAAGGCATATTCTGACGGATTTCTTCGAACACAGGATTAAGGAAGTTGTTC -AGACGATCCCAATCCCATTCTGATTCTTCGTGTTCGATCTGACGACGTTTTTTGTAGTAC -CAGGCTTTTTGCCTACGCCAGTAATTTCTGTCATCGAAGGCAATCACGATTTCTGGATAC -TCACCTTTAAATTTTACAACGTTAAACCGTAAAGTGTCAAGCACCAGATGACGAATCATT -TCGATCGTGATGGATGCTTGTTCCTTTGGTTTGAAGTTGTTCATCAGTGTAGCGATGGAA -ATGTTAGAGATATCGATGACCATAGTATCATCGGGTTCCCCTTCATCTTGCATCAGCTTG -TTCAAGTTAAACATGCTTGCAAAACTGCTCATACATACCTCAATTTTTCAAAGAACGGGG -TTATTGTAGTAACTTACGAAATGAAGTCAATACAAAAGACCATAAAATTTTGATCAATAA -TACTTGATCTGATCAAATTTATGATCTATAATTTATTAATTAATAATTATTTTACTACAA -TGATCATTGTAGGTCAAGTACTAAAATCAATAAATTTTATATAATTTAGATCTGATCTAT -AGATCATTAGATCTACTTTAACCTTAAATAATATAGAATGAAATTTGATTTTGTCTACAG -TTATTATATAATATTCTTAACTTCAAAGAGGAAATATGAATACTATGACTAAAGAAACAA -CCAATATCTACGCAGACAATGAAAAATTATACCCTATCCTCTGTGCATGGAAAAAGCAAA -TCGCCGAAACAGGTGATCGCAAAATGCCTAATGAGTTGGGGGCTGCTATTATGGATATTG -CAAACGGGCTATCACGTCGTTACAACTTCAACCGTTATTCCGAAGATTGGAAAATGGATA -TGATCGATGACGGAATTTCCGCTGCAATCTCAGGACTGCATAACTTCGATGAAACTCGTT -ATACCAACGTTTACGGTTACATTAACAAAGCATGTTGGCAAGCATTCGTAACACGTATTC -TGTACGAGAAAAAAGAGAACGCGAAGAAATATAAATTCTTCCTTGAGCACGTTTACGACT -GTGAAGATTCAGATATGGTTAGTATTGCAGACGAAGGTTTCATTCAAGATCTACATGACA -AACTATCTCAGTACGAGGCTTCCGCCACCAAAACCAAAGACAAGGAAGCGGAAGTATTCC -CAACATTGGAAGATTTTCTATGAAAGCAATAATTGACTTAAACAAAATATTAACTGATAT -CGATTACGAAATTGACTTGCTACCCTACTTCGTAAAATTAGAGTTGCAAAACGTGGGAAT -CCCGGTTATCATCGATCCAACTGACGTAAGAAACCCCGATTTCGAAGTAGAAGAAGGGGT -TTTGTCTTATATGATAAACGCCGAAACTATGATCATGGAGATCACTTATGATTGATGAAG -AGAAAGAAGTACTAACCAGTGTGGAAGAAGTGGATCCAGAAGAGGAAATTCAACAAAAGA -TCCAGGAACGTGTAGAAGCCGACGCATTGAAGCGAGCACAAAAATTCATTAAGAAGAACC -GGACTGAGATCAAACGCCTCCGTAGACACGCAGAGGAAGCCCTATTCAGGGGTAATAAGG -TTCAGTATGTGTATGCGGTTAAGAAACTTCGTGATATGCTCAAACAGCCGTATACAGAGG -ATTTCATTGATACGATGTGGAACACTTCACTAGCATCAATTCGAAATATCGTAGCTTCAC -AACAGAAGCACTAACAAACAAGTAGCCCCGAAAGGGGCTATGAGGGTCTTATGAGAAAGT -ACTTAATGATCGGGGATACTCACGCTGGCTTGCGTCAGGACAACCCCTGGAATGAAGAAA -ACCTATACAATGTATTCGTACAAATCGTAGAACACTGCAAAGCAAACGGCATTACCGAGG -CTTTCCATGCTGGTGATTTCTTTGATGTGCGCAAGGCCACCACACAAACCACGATGAAAT -TCATTCGTGAACGTATTGTGCCACTACTGGAAGAAGCCGGATTACATATCTATGTTCTGG -TTGGGAACCACGATTGCCAGTTTAAAGACAAGATCCGCCCTAACTCACCGCGAGAGATTC -TTGATCAGTATGATTGCTTCACGGTTGTTGATGAACCGATGACAGTAAATCTTGATACTT -CTCCGCTGCAATCAATCGATTTGATCCCGTGGATTTGTCAAGAAAACACCCAGCAGATTT -TTGATTTCATCAAAAAGTCAAAATCTCAATACTGCTTAGGACACTTTGAACTGTCCGGAT -ACTATTTCTATAAGAACAGTAAAGCGGATCATGGTCTTGAACCTGATTTCTTAAAGAAAT -ATGAAATCGTGTATTCAGGCCACTATCATCACGCTAACGAAGGCGCTAACGTTTTCTATA -TCGGTACACCGCTTACCATGAGCGCTAACGATGAGGACGAAACCAGGGGCTTCTATGAGC -TATCTTATGGCGACGGTAAACGTGAATTAACTTTCATTGCTAACCCAGTATGCCACCATC -GCCGGATCACCTATCCGGATCAAAAAGATGTTGATGTTGCAGATTACAAAAATTGCTCTG -TTCGCTTGATTGTGCGCGAAGTTGATAACGATTTGCCTAAGTTTCAAACAAAACTGGAAG -AAACAGTTTATGAGTTGAACATTGTCGATCGCGTGATCACTGATTCAGAAGTCGATACTG -ATTTTGAAATCAAAAGTGTATCTGGATTGATTAGTGAGTACATCAACAACATGCAGATCA -CTCCAGAAGAAAAGACCGAAGTATCTGCAATAATGAGTGCATTGTATGCAGAGGTTACGA -GCAATGGAAATAGTTGATTACGTTAATATTTTAAACGAAGAAGGGCGATATAAAGCCCTT -TATAAAATGTTTGGATTTGATGTGATTGTTGCAGTACAGCAGGATTCCTATAATGAGTAT -GTGTCATTGGGGTTCACTCTGATTAAAGACAACTATCACGAAACAAAGGTTTGGACATTT -ACTGTCCTGAATAGCATGGATGAAGATTCCGTGATATACTGCTTTGATAGCACGATTACA -AACATGATTAGTGATATATCCCAAAGGATAATTGATGAAACTCAAATTTAAAACATTGAC -TTATCAAAATATCTTGTCGGTCGGTAACGTACCGATCGTCATTGATTTTGATTCAGCAAA -GAAAACCCTCATTACGGGTAAAAACGGCGGTGGTAAATCCACCATGATCGAAGCGCTTAC -ATATGCTCTCTTTGGTAAGTCATTTCGCGATCTGAAAGTCGGGCAACTGGTGAACAGTAT -CAACAAGAAAAAATGTCTGGTTGAACTGTTGATCGAATACGGCAATGATGAATATAAAAT -CATCCGTGGACAAAAGCCGAAAGTATTTGAGATCTGGAAGAATGGCGAAAAACTGCCGGA -AGATTCAGCCGCTGGTGATTATCAGTCACAGCTTGAATCAATGTTGAATATTAACCTGGT -GGGCTTTAAACAGGTTATCGTTCTGGGTACTGCTGGTTATGTACCTTTCATGGAACTGAA -AACACCAGATCGCCGTAAATTGGTTGAAGATTTGCTTTCTCTGTCTATTATCAGTGAAAT -GGACAAACTAAACAAATCATACATCCGTGGTGTTAACCGTGAACTGGATACGCTTTCAAT -GCAGATTGGACACGTACAACAGCAGATCGCAACACATCAAAAGTTCATTGACGAACAACG -GGCAAAAGCAAATCAGAATACGGCGCGTTACCAGGATATCTACGATTCCCACGTAGAAAC -AGCAAAACAGATTAAAGCGCAATTAGTTGAACTTCAAACCCAGATCGCAGAATGCGTGAT -CAATGGTGAAGACCAAACAGCAAATATTCAAAAACTGCGTGATGGCTATACACGCCTCTC -AATGAACGTAGAACAGTTGCAGCGTCTTGAGGTGATGTATCGCAAGGGTGGTGAATGTCC -GGCCTGTAAACAGCCAATTAGCCCCACTCCTGAACGCATGGAAGAAATTGCCGAGAACAT -TAAAAATGGTACTCAGAAACTTACGCTGATTAAGAACAAGCAAGATCAGCTACAGAAAAT -CATGGATGATTTACTAACACAACAACGTACACTAAATGGGCTGAAATCCAAATACGAATC -ACTACGCGGTACACTTCAAAATGAAGTTGCAGCGGCTAAACGTGTTCGGGCTGTCATGGA -TAAAGCACAGGAAGACGTGGTGATCGACGAATCCCCAGTTGAAAAACTCCGTGAAGATGA -AAAGGAACTTGATTCTAAACGTTCTGGATTTGTCAAGGAAAAATATTTTAGAGGTATTGT -TACGGATCTGCTGAAAGATTCCGGCGTTAAAGCGAGCATCGTTAAACGTTATATTCCTTA -CTTCAATAAACAGATTGCGTACTATCTGGATCTGTTGGGTGCTGATTATCAGTTCACTCT -GGATGACGAATTTAACGAATCGATTAAATCGCTGGGTCGTAATGATTTTAGTTACGCATC -GTTCAGTCAAGGCGAAAGAGCACGTATTAACCTTGCTTTATTGTTCACCTGGCGCGATGT -AACCAGTAAAATTTCTGGTGTTGATTTATCCCTTCTGATCCTGGATGAAGTGTACGATGG -TGCAATTGATCGTGATGGTAGTTTTGCCGTAAAAGCACTATTGGATGGGATAAATGGTAA -CGTAATTGTTATCAGTCATCAGGATCTGGATCCGCAAGATTTCGATCGACATATCACCAT -GCAGAAAGTTGGACGGTTCACAAAGTGTACTATCAATGATCGAGGTGCATAATGTTAGAA -AGAGAATTTGAATTAGAAACCGCTCCGGAAATAGAGCGGTTTTATCTCCACAACAATTTT -CTTGAAGAAAAACATATAGTTACTATGAAAGATGTTGAGGAAGCATTCAAAGATAACCCT -ATAGAGTTGACGCGAATCAAGAACAACAAAAGTTCTGTTTGGTTCCTCGAAAAAATCTAT -TGACCGAAATCCATAAATACAGTAAAGTAGCCCATGTAACGAAACGTGGGCTTTGTTTTT -ATTTGAGGAACAATAAATGATCACTGAATCCAAAATGACTTATCAGGAAGCACTGAAAGT -TTTGGGCGCAACTGGTAGCGAAACCAGCGCTGAAATGTCCAGACTCTTCAAACGTGCATC -CTTACGCAATCACCCCGACCGTGGTGGTAGCAATGAATTAATGCAGAAAATTAACCAGGC -TTACGACGTAGTTACAAAAACTGGGCCTAGTGGCGCACGTTCTGAGACTGCTGGTGATGT -TCGCGCACGTTATGCACGTCAAAAGAAAGAATGGGAAGAAAAAGTTGATGCTTACTTTGT -AGTGGCGAAAAACTATTTCAGCACCAAATTTAACGCACAGGAATTTGCGGAATACTTCAC -CAAATACACTGGATTGCCTACCACTTTCAAACAGGAAGTAACAAAAGGTAGTCACGGTGT -TTATGCTTCGTTCCGTTTCACTTCTGGTGATGCTTACTTTGATTTCGGTTTCAACTGCAC -CCCTCCGAATGGACAAGGGTTAGCCGCTCCGGATTCATCTGCACTGGGTAACGTTTCTGT -TAGTACCTTTGTACTGGTTGGAACTAAAAAACATAAAATGGCAAGCCGTGATTATCAATG -GGGCAAAAACCCAGATAAGATCACTCCGGAAAGCCTGTTCCCGTCTAAAAAACTGGAAAG -CATTTTCAGCCCTGTACAGAAAAATATCAAATACAAACGTGCTGATTACCTTGCATCATT -CCGTAAGCTGTTAGGCGCTGACATTAGCGGAAACGATATCTTTGTTGAAGTTGGTACACT -GAAAGTTCGTTTCTATCGTCATGTAATGATGCGTAAAGGTGCGTATGTGTTTAGCGCGGT -GTATGATCCTGCTGTATCTAAGTATCGTCCGGCTGCACAACTTCGCGGAACTATGTTAGA -AGACGAGGACGGCGCTTGCCTGGATATGATCGTTGATACGTTCAAAGAGTTGCAGAAACT -GAAACCGAGTGTTCAAGGCGTTGTGAACGCGATCGATAAGATGAACGCAGAGTTTGCAGC -GGGACATCGTTCAGCATCTTTTGTTAAACGTGTAGCTGCTCAGGAAGCCGCGCCGAAGCC -AGAAGAGAAGCCAAAACGCACTGTTAATCGTATCGGTAAAGAGGAATACTTCGCAGCACT -AAAAGATATTGGTGCTCGTGTAATGCCTACCAGCGGTTATGTTGAATTTGATAACGGCGC -TGGTGTTACTATCAACTTCAAGCGTATTGTTGTAAACCGTAAAGCATACTACTCATTCAG -TAGCTTTGATTTCATGTACTCTGGTCAGAAACACATTGAGTGGTTGAAAGGAATCGATAT -CGCAGAAGATACCAAAGGCGCAAGCATTAGCCTACTCACTGATACTCTGAAATCTTTACG -TGGGATCTCTGACTGGAACACTGTTAAGAGCGCTTTAGATCAAATGAATTCTAACTTCAA -GGCGGGTAAATTCTCCGCACCTCATGTGAAGAAGGAAGCAGAGCAAAAAGCACCGAAACA -GAAAGACGAAATCGGCGCACAGCCTACCAAACCACAGGCGGCTAAGAAAGATACGCCGGA -AGTGGAAAAATCACAGGCTGTTCATGCAGCACGTGAGAAAGCGAATATGAACAACACTAT -TCGTAAAATGATGACTATGTTAGTCAAAGCACAGCGCAAAGACACTCCGGAAGATATCAA -GAAGGAAGTTGATGCAGCAATTCAATTGTGGCGCTTGACTTACTAATCAAATGAACTATA -ATGGGAACTGTTAACGCAGTTCCCTTTTTATTTGAGGAAAATATTATGAGTTGTCCAACA -TGGTTACGTTTGGAAAATCTGAAAGAAGGTACACAAAAACGGATTTATATTAATCTTGGT -TGGGTTCCTCCTACCGATTTTCAAATGGCTGAGATTTTAATCAATGCTGTTAAAGAAGTA -AGCGACACTTACGAATGGGAAAGGCTCTATTTTCCCTTGATTGGTTTGTATATGACGCGA -AATAAATTTGAAGAAATGAAACTTGCTGTTATTCGCGCTACGATTATTAATTCCCAACAA -AGATTTACTTTGAAAAATGCATGGAGTTCTGAATGATTATTCAAGTATCTGTACAGGGCG -ACACTCTGACTGTCACCGAATCCATCAATACCGCTCTTGCTGTATGTCGTGACCATATCT -CACAAAATCCTCCAGTGACTGAGATCCTGGAAATTGATGTTTGGGATCAGATTGGGATGA -TCGACGCATCATATGGATTTACCCCGCGAGATGAAGAACTATCTCGTATCGAATCATGGC -TGAATGAACAGGAAACGGAATGAAACTCCCTAAGAACACAACACTACTAACCCGCGAAAA -ACTTCACTCTGTTGATTGGTGTCCTCTGGATATCATGATTTTTGATATTGAATCTCGCGT -GATCAATGCAAAATATCAGGGGTGTAGTATTTTCTCTGTTGAATTCGAGAAGATTCGCGG -ATATGATGAGAAGTACAAAGAAAAACTGAAAGTTATGATTGAAGCATTAGGCTATATTGT -AACTGTTGAAGACAACAAAATGTGGATCGCAATATGAGCATAGTAAAAGCGGTGTTTGCG -CTGGGGCATGATATCTACCACGATGATTTCGCTTTTGGATATCAGCAAGGCTTGCCGTGG -GGCCACTGTAAAGAAGATTTACAGAACTTCAAAGAAGAAACCGCCGATAGCGTTCTGATT -ATGGGTGCAAATACGTTTACCTCTCTTCCGGGTAAATTGCCTGGTAGAATTCATTGCGTT -CTGTCTGGTTCCGGTAGTTTTTTGAAAACCAAAAAAGGCGAGGTTGCTGATTACGTGATC -CACGGTGGCGGGTTGTCTGCTGCTATTGGTACAATGCAAGCAACACACCCAGATAAAAAT -GTGTGTGTCATTGGTGGTAAGGGGTTGCTTTTAGATTCAATCAATAATAAAATGGTTGAT -GAAGTAGTTTTGACACACATTTACGGACATGATGTATATAATGCCCCCGCATTTAAACGC -GATGTTTCGTTTACTGCTTCTGAATTGGGTGATGCATTGTTAAAATATGAATTTTCTGAT -TTCGAAACTCAGTACATCAAAGAACATGAACGCATTGAAAAAATCATAGTCGATCGATAT -AAAAAGGTATAAAATGAAACAGTATCTGGATATTATTAAACTTGTACTTGATAACGGTGT -TGAATCAACCGATCGCACTGGTGTAGGTACTATTCGTATTTTCGGCGCACAAGCCCGATG -GGATCTAAACAGAGGTTTCCCCGCAACTACCTGTAAAAAACTATTCTTCAAACCGTGCAA -GCATGAATTGCAATGGTTCCTGTCCGGTTCAACCAACGTTGAAGAACTTCGCCGGATGAC -CTGGGGTGAAAATAGCGATAAGCGCACAATCTGGGATGATAACTATGAAAAACAAGCTAT -TGATTTAGGATATGATTCTGGTTATCTGGGGCCAATCTACGGTCATCAATGGCGTTCGTT -TGGTTCTCTTTATGGGGATGATGATAGTTATTATGGCGGTAGTGGTGTTGACCAGATAGC -AAAAGTCATTGAACAACTGAAATCAACCCCAGACGATCGTGGGATCATCGTTTCGGCATG -GAACCCCGTTGATCTTGATGATATGGCATTGCGTCCGTGTCACTGTTTCTTTCAGTTCGT -TGTAATCAACGGTAAACTGTCTCTACAGTGGTATCAGCGTTCAGTTGATGTCTTCTTAGG -GTTGCCGTTCAATATCGCCTCCTATGCTCTCCTGACGCATATTATCGCTGATATTTGCGG -GTACGAAGTGGGCGATCTGGTTTGGACTGGTGGTGATGTCCATATCTATAAAAATGCGGT -TGAACAAGCAAAAGAACTTTTACAGCCTAACCGTTCACCAATGCCATTACCGATTCTAAA -AATGCCGAAGGTAAATAGCTTACTTGATTTAGATCAAGAATTCTTTGACTCGATAACCTT -AGAAGGGTATCATAATCACGGCTCTCTAAAAGCTGAAATGGCAGTATGAAAAATGGGGCT -TCGGCCCCTTTCTTAACAAGGTAAGAGAATGAATGACATTAAAGTAGTAGTAAAATCCTC -TGGTGTACGCCAGCCGTTTGACAAAGAAAAAATATACAAAGTGCTCAAGTGGGCCTGTGA -TGGTCATAATATCGATGTTCGTGCATTCCTTGAAAATGTATTAGAACTGATCCGCGATGG -TATGACTACCAAACAAATTCAACGTATCGCTATCAAGTATGCAGCAGATCATATTTCTGT -TAAAGAACCGGATTGGCAATACGTAGCATCGAATCTTGAAATGTTTGCATTGCGTAAAGA -CGTTTACGGTCAGTTCGATCCTATCCCGTTCTACGATCACATCGTTAAAATGGTTGAAGC -GGGGAAATACGATAAAGAGATCCTGGAAAAATACAGCAAGCAAGATATTCAAGTTTTCGA -ACGTGCAATTGATCATGATAAGGATTTTGAATTTTCGTATGCTGGTTCCCAACAGTTAAT -CGGGAAATATCTGGTTCAGGATCGCGATACTGGCGAAATCTTTGAAACCCCTCAGTATGC -GTTTATGCTTATTGCGATGTGTCTGCATCAGGAAGAAACTGGGTTAGCACAGGTTACGCA -TATCGTTGATTTTTATAACGCAATTTCCGATCGCAAACTGTCTCTACCGACTCCAATTAT -GGCGGGTGTACGTACTCCTACGCGCCAGTTCTCCAGTTGTGTAGTAATTGAATCGGGTGA -TTCTCTTGGTTCTCTTAACGCTGTAACCTCTGCGATCGTGAAGTATATTTCACAACGTGC -TGGTATTGGGGTTAACGCGGGACATATTCGCGCAATGGGTTCTAAAATCCGTGGTGGTGA -AGCTGTTCATACTGGTGTGATTCCTTTCTGGAAACATATTCAAACCGCTGTTAAATCCTG -TTCACAGGGTGGCGTTCGTGGTGGTGCTGCAACACTGTATTATCCTTTCTGGCATCTGGA -AGTTGAAAACCTTCTGGTGTTGAAGAACAACAAAGGCGTAGAAGAAAACCGCGTTCGTCA -TCTTGATTATGGTGTACAGCTTAACCAGTTGATGTATAAACGCTTAATGAATCGTGATTA -CATTACGCTGTTTAGTCCGGATGTTGCTAACGATCGTCTGTATGATCTGTTCTATGAAGC -TGATCAGACTGCATTTGAAGAACTGTATGAAAGCCTGGAAAAAGATCCAACTGTTCGTAA -GAAACGCATCAAAGCGGTTGACCTGTTCCAACTTTTAGCACAGGAACGCGCACAGACAGG -ACGCAAATACATTTTCAACACTCATCACGTCAACCAACAGGGTAGTTTTACGGTTCCTGT -TCGTATGTCTAACCTGTGTTGTGAGATTGCGATCCCAACGTCGCCGCTGGATGACGATGA -TAAAATGGCTGGTGAAATCGGATTGTGTACGCTAATGGCTATCGTTCTGGATAACGCTGA -TATCAGCGAATTCCCGAAACTCACGCGTATTGCAGTACGTGCGCTTGATAACCTGTTGGA -TTACCAGAACTACCCTGTAAAAGCCGCTCTGAAAGCTAAACAGCGCCGTTCTCTGGGTGT -TGGTATCACCAACTATGCATCATGGTTAGCGAGCAACTATTGCGACTACTCAGAAGCGTA -TACAGACAAAGTTCATGAGTTAATGGAAGCGTTTCAGTTTAACCTTCTCGTTGCTTCTAT -GGAACTGGCGAAAGAACGTGGTGCATGTGGATTGTACAACGATACCAAATACGCTCGCGG -GTTACTGCCTATCGATTGGTATTGCAAAACCGTTGATGAACTGGTAGCACCTGTTTATAA -TTGCGATTGGGAATGGTTACGTAGTCAGATTAAGAAATACGGCTTGCGCAACTCTACTCT -TTCTGCTTTAATGCCTTGTGAAAGTAGTTCACAGGTTAGTAACTCTACCAACGGGATCGA -ACCTCCGCGCGGTTTAGTGAGTATCAAATCTTCGAAAGAAGGACACTATAACCAGGTTGT -GCCTAACCAGAATAACCAGATTGATTTCTATGATCTGCTCTGGGATATGGCTAAACGCGG -TAACAAAGGGTATCTGTCTCATGTAGCAGTTATGCAGAAGTTTGTCGATCAGTCTATTTC -TGCAAACACCAACTATGACCCGGCAAACTATGAAGACGGGAAAGTTAAAACAGAAGACAT -CATTGATGATCTGCTGTATGCTAACTACTACGGTGTTAAAACTCTGTACTATCATAATAC -GCGTGATGGTGCTGGTGATGAAGAAGAAGCCGCAGAAGATTGCGCGGGTTGTAAGATTTG -ATTAATGCCCCTTCGGGGGCTTTTTAAAGGTAAAGACATGTTAACAGTAATGAATACAAA -CCCAGATCATAACCACTTAGAACAACCTATGTTTTTTGGTGAAGATACTGGTGTTGCACG -TTATGAATCGCAGAAACACAAAGTTTTCGAAAGCCTGACGCAAAAACAGCTTTCTTTCTT -CTGGCGTCCGGAAGAAGTCGATCTGTCTACTGACCGTATGCAGTATGCAAAACTTCCTGA -ACATGAAAAAATCATTTTCGATTCTAACCTACAGTATCAAACCCTGTTAGATACCATTCA -GGGACGTGGGCCTAACCTCGCATTTTTGCCAATTGCATCCGATGTGAGCATGGAAACCTG -GATCGAAACGTGGGCGTTTAGTGAAACCATCCACAGCCGTAGTTACACGCATATTCAACG -TAACTTGCACATTGATCCTTCTGTACAGTTCGACCAAATCCTTCGCAATGAAGCGATTAT -GAAACGTTCTGCATCAATGACACGGTATTATGATACTCTGATTGATGAATGTCATAAGCT -GAAAACCATCATGATGCTACAGGAACAGGTTAGCGGCTATAAACCAAATGATCCGGCTGT -CGTGTATTATAACGAGCAATACACTAAACAGGCCACTAAGTGCAAAGAAGCTCTGTACCT -GTGTATGCACGCTGTGAACGCTCTGGAAGCGATCCGTTTCTATGTGTCGTTTAGTTTCAC -CTTTAACTTTGCTGAACAAGGCAAGATGGAAGGCAACGCGAAAATTATGCGCCTGATTGC -GCGTGATGAAGCATTGCATCAGAAAGGTACTCAGAGTAAAATCCGTTTGTGGCAAATGGG -TAAAGATGATCCAGAAATGGTTGAAATCTCCCGTAGGCTGAAAAAAGAAGCAACGGCTAT -CTTCCTGGAAGTATATGAACAGGAAAAAGAATGGGCTGAACATTTATTCTCTGTTGGTGA -TGTAGAAGGTGTATCGCTGAAAAGCACTATCGCTTATATTGAACACCTTACAGATCAGCG -TATGCGAGCGGTAGGGCTTGATTCACCATTCACCCCGATCCCTAACCCGTATCCGTGGAT -GAATAAATGGCTCAAAAGTGATAACGTACAGGTTGCCCCGCAAGAGGTTGAAGTAAGTTC -TTACCTCGTCGGAAACTTGAATACTGAAATCAGTGATGAAGCGTATGCAAAATGGGCCAG -CAAATACGCGTGATTGTCGGGTAGTAAACAAGTACAAAACTGATTGGGATGTCGATATTC -AAAGAGGTACGAAGTTCGGCAACCCTTATAACACAGGAACCAGGGGAGAAAACATTTTAG -CGTTTATCCCCTGGTTCCAGAATCAGGTTCGTACTGGGGCGATCACGATTGAAGAATTGA -AAGAACTTGATGGAAAGAGGCTTGGTTGTACCTGTGCGCCTCTTCCCTGTCACGGTGATT -ACATCGCGCATGTGGTTAATGTTTTGTGTGGTAAGAAAAGATCACTTGACTTTTTGGATA -TATAATGTATGAAATCTGAATTCAACTTAACCCTTGATAAATGTGGTCGCATCGATCGAA -GTTTTGTTAAGTGTGGTGAACTTAGGCATTGTGTTTATTTTATTGCAATTAACGATGAAA -TAGTATATGTTGGTAAATGTCGGGATATGTGGAAGCGTTTAGATACATATCGCAATGCAA -AGTATTGGAGAGAAGCCAACCCCAGCAACATCTTAAAAACGTGTCGATTGGAAATGGCTA -TCAAAAAACGAAAAACTGTGAAACTTATCGTGACTACTCACGATGAAAATACATATCATG -ATTATGAAATCAACATGATACGAAAATACAACCCTGAATGGAATAAACAGCACTATGACA -AAGGCACAAACTAAAATTATCAATACCCTTTACAAACAACTCATGCAGTTGTGTGGTGAA -TCCGAAACATTTTTCTTCGTTGATCAAGTAACCGTGATGGGTACACCTGTTCGAATCTTT -AACTATCGCATGGCCTCATATACAGACTGGCTAAAGCCTGGTGCTCTGGAATGTCGCGGT -ATCATGTTTGAAATGGATGGAGATACCCCCGTATCAATCATCAGCCGCCCTATGGAGAAG -TTTTTTAACTATGCCGAGGTAAAGGCATGGGAAGCGCTTAACGAGTCTCCTATTGAATTA -GGCGAAGTTTTAGACGTGATGATTAAAGAAGATGGTTCCTTGATCTCAACTTTCCTTGAC -GGTGGATTTCTGGCGGTCAAGTCTAAAGGTTCGGTTAAATCAGAACAAGCTATGGATGCG -CACAGCGTGTTAATGGCAAATCGTGAATTGCTGACCCGCTTAACTGAGATCGCTAAAGAA -AACTATACGGTGAATATGGAATACGTTTCCCCGAAAAACCGTATCGTTGTTGGTTATGAT -TCTCCGGATCTGCGTATCCTGAACGTTCGTCATAACATCACGGGTGAATACATCCCTTAT -GATGATCTGTTTGCTGACGCGCTGTTACGTGCGTATCTGGTTAAGCGCGAGAATATCGAA -GTACTGGATCTGGATGCATTCGCAAAAGAAGCATATCAGAATGAAGGATTCGAAGGCTAT -GTTGTTCTGACAACGAAAGGGTTTGTAAAAATCAAAACAAACTGGTATGTCAATCTGCAT -CGCACAAAAGATAGCATTACCAACAATAAGGATCTTTTCCTAAATATTGTTGAGAATACG -GTCGATGACCTGAAACAGCTATTCAGTTCGGATCTGGTCTCTCTGAAAAAGATTGACGAT -TTCGAAAAACTTTTCCTTGATAGTCTCAATCGTTTGAGTGCAAAAGCATTCAAAGCTATT -GAAGATAATAAAGGGAAATCGCGTAAAGATTTTGCTATCAGTCTAAGCGCGGATTTGTCA -AACGACGGTCGGATCATCTTCGGGCCTCTTATGAAGTACTTCGAAGAAACCGATCCACAA -AAACTGGTCGATCGCATCATTGAAATGATGGTTAAAAATTACGACCAGTTCATTCCTGGA -GAGTACAAGTGAAATCATTTGGCGCATATAGCCGAACGATAGAACAAGAAAAAGCAGGGA -TTGATTCCCTGCTTTCTTTCGTTGATGTTTTCCCCGAAACTGGAAAAATTTACTGGAATG -ATAAAGCATATCATAAAAGTAAGAGAGGAAAAGAAGCGGGTTCTATTGTTTGTGAAGAAT -ACCCTTATACGAAAATAAAGTATGCTGGGAAAAATTACATGAGGCATAGAATAATATTTT -ACTATGTTCATGGTTACTTACCAATCATAGTTGATCATAAAAATGGTCTTGATTTTGGTG -ATTGTATTGATAATCTTCAAGAATCCGATCCCGTTCATAATATATTGAAGAAAAACAAAA -CCAGAAAATCTAAAACTACCACATCAAAAGGGGTTGACTATCGTTCTTCTCGTGGAAAAT -ATAGAGCACAAATACGGATTAATGGTAAAACGAAACATATAGGATATTATGATACAGAAG -AACAGGCGTCTATCGCATATGAGGAAACTTTGAATGAATATCAAAAGCATCTTGGGTATG -ATTAATATAAAATCGTGGATATGGCCTATTATTGTTGCTTGCTCCCTAATAGCCCTTTTT -TACATTGCAGTTGATACCAAAATAGAAAACAGGCAATTGTCTAAGGATATCAAAGCGTTA -CAAGCTGATATCAAGAAAGTAAAAGAGACAAACAACAGTAATACAGTGATATACGTCGAA -CAGAAAGGCAAGGATCAGCAGTTAGTGAAAGATGCCGGACGTAAAGATCTGTTGTTCAAA -AAACCAGGACTGATCGAAATCAAGATCAACAAGTCCTTTGAAGAGTATATGAAGGATTAC -GAAAAATGAAAATCGCTACACTAGCGCTCGTTCTGGGCGTTCTGTTGGTCGGGTGTGCTG -AGAAGCCACCAGAAAAGATTTTGCCTACGCTACCCGCTAAGGTGAATCCGGTCAATGTGA -AATGGAAAGTGGTTGCAGAAGTAAGGGAAATCGACGGGAAGAAATATCTGGTCATGCCTT -ATGATGGTAATCCATACGTTGCCCTTTCATACCCAGATTCGTTAATCTTCCGTAGCTGGA -TGAATGACGTTAAGCGTCAGAAAGACCAGACGGATAACATTCTATGCACCGTGGGATACC -CCGAAAAATGCAAGTCAAAATAATTGATACATTCTTTGATGACTTGACGGTCGGAAAGGT -GTATGATGCTGTAGAATCCAAAAATGAACTATGGATTGATAGCGATTGGGGGATTGCAGT -CAATCTGCATACCGAAGCCAGTCAAGAACTAATTGAATATGAGATAGTGAAATGAATCTG -TTTATGACTATTGGCGTTCCGGGTAGTGGAAAAACTACCTGGGCGCATGAGAAAGCCCGT -GAATTGGGTAATACTGTTACGATCTCTCGCGATGATCTGCGTAGCTCTTTGTATAATGCG -GGTAAAGGTGCTGGCGGATACAAATACACCAAAGCGAAAGAAGACATGATTGCAGAAATG -CAGGATCACGTTGTTATCTCCACTCTGAAAGATGGTAAAAACGTGATCATACACAACACA -CATCTGAAAGAAAGTGATAAAAATCACTGGCGTGAAATTGCGTTGGAACACAAAGCTGAT -TTTCATATTGAATATTTTGATGTGTCTATTGTTGAACTGCTTCGCCGTAACCACAAACGC -GGTCGTGATGCATTACCCGTTTCGCGTGTTTGGGAAATGTTTAACCAGTATCGTAAGATC -CGTGGGTTCGTACCAGCAATGGAAATTGTCAATCCCCACAATCAGAAATGCGTGATCTTT -GATGTTGATGGTACGCTAACAAAAGTAGGGCAACGTAGCCCGTATGACTTTACCAAAGTG -ATCAATGATCCGCCAAACATCCCGATCCATCAACTGTTTCACCTGTACAAAAATGCAGGG -TATAAGTGTGTTGTTGTGTCTGGGCGTGAAGGTAATCCGCAATGCGCACATGATACATGG -GTTAGCCTGTTGAGTTATGGCGTTGAACCGGATGAAATTTTTATGCGTCAAGAAGGTGAT -ACCAGGACAGATTTTGAAGTAAAAGAAGAAATTTTGTTTGACAAGATTTTAGATAAGTAT -TATCCTGTTATTGCAGTGGACGATAGAGACACTCCGGTCGGAATGTGGCGAGCAAACGGG -ATTCCGTGCTTACAAGTCGATTATGGTGATTTCTGATTGACATATAATGTGGGTATGTTA -AAGTACCCACACAAAAGAGGATTATATTATGAACGTTATTCGTGAAGATAAACACATCAT -GGTTGAACTTGGCGATCGCATTCGCGTAGAAAATCTGGGCGATTTTAACCAAAAAGTTCG -TTTGTTGTGCCAAAAAATTGCTAACAAAATTCAGGAACAGGGTAAAGCTCCGGGCGGGTT -TGAAGTTAGCGCCACTCCGGTTTCTCAGTACTCCTATATTGTGTATATTCATGACGTGGA -TACTAACAGCACCCAATCTTTCGGGCTGGTGTTAAATCCTATTACTGGCTACGTTACATG -GGCGGCTGTATTATGAAAGTAAAAGTAATTGATAGAGCGATGATCACGGATGAATCTGTA -TACCCAGATCCTCGTTATTATGGCGGTGTTTTCGGATACATCAAAGGAACTGATATTGAT -GTAGTAACAAGTCCGATCGCCGAATACGATATCAACAAAGATCAGACAGAAGTTCGCGTT -ACTACAATCAACGGTTCAGAATATATCGTTGAAGCGACTCCTGATTTTATCAAACAGTTA -CTAAAGGTGATGAAAGATGCTTGATCATCCTGGCTCTATGAGCATGGTGCTTCTGGAAGC -ATTGAAAGCATATGATATCCCCTGTCATTTCGGTGAAGTAACTGTTAATACTATCGTTGA -CGAAATCGACAATCCAAATACTTTCATTGCTTGTCTTGTTCGAAAATTCACAAGTTGTTT -TCGACCGAGTCCAGAAAAAGTAGTAATCAGTTCTGTTTCTGCACATCATCGAGTGTTAGA -TGATGGAAAGATTCAACTTTACTGGAAAGTTCTTTATCACGTGGTGTATCATGAAGATTG -ATGATATTATGTTTATGCTTAGAGCAATAAGCGCTTCTAAGTTCTCTCAATGTGTCTCCG -TTAATGTTGGTGCTGCATTGAGAAATGGTAACGGGCGTGTGTTTGTAGGCGCAAATAATA -CGGTTGATCCTAGTCATCGTTGTACAGATCAGTGCAATCACTTATTAGATGATAACGGGA -AACTGAGTGAAGAAAAGCGCCCTGAACATTCACAATGGTCAGATCGCAACGAAGTACACG -CAGAAATGCGCGTTATTATGCTGGCGGCGTCTCATGAACAAATCAAAGACGCAACTTTGT -ATACAACTCATTCCCCTTGCTCACAATGTGCGAAAAATATCGAATTTTGTGTTGCAACAG -GTATGATTAAGCGTGTAGTATATCTACATAAATACGATCGTGGTGGCATCGAGTGGATAT -GGCGTCTACAGCAATACGGTGCCGAAGTAGTACAACTTGATCCCGAAGAATTGAATAAAC -ATTTTCGGATCAAATAACCAATGAGTAAATATATGTCTGAACTGAGTGTAAAAGCATCCT -TTGAATATGTTCTGATTGAAACCAACGCTAAAGCGGCTGGAACTGAAATTGTATCACCTT -CTGGTATTGTGACTGGTGTTCGTCAACACGGCGAGGAACCGATCTACGGCACAGTGTTAT -CATGTGGGCCGGATGTACCGGAAGAATATAAAACCCTGCTTATGGGTAAGCGCGTACCGC -TTCCTCATGCACAAATGGCAAACGTGCCGGATCCTGAACTGATTGCAGGAAAGGCAACAA -AAGAAGAAGCTCGCAAGTATCCGGTTAAATATGTAACCGCACACTATAAAGCGATTCAAG -CAATTTACGAATAAGAGATCCAACATGGCTAAACAAATTCAAGCAATCATCGCCGATACC -GTCGCAAAATCTAAAAAACTTTTCGACAAAGGCGACATCCTCGAAGCACCGACCCGCATC -GATGTAATGACTTCAATGATCATTGATGCTCACCAGGGAAAACTAAATTCCCGTGCTTCG -GAAGTAATGGAATACATCGTACAGTTCGAGGATGTATGCAAATACGCCAAAGCTGTTGAT -CCGGCTGTTCGCGAAATCTACCGCAAACAGTTCTAAAAATATCGGCCCCTTAGCTCAATA -GGTAGAGCTAATCACTCATAATGGTTAGGTTCCCGGTTCAAGTCACGGGAGGGGCCACCA -AACAAGGCAAGGCACTTAGAGAAGCGGGAGGAACAGAATCAGATTCTGTTGGTTGTAGGT -GCAAATCCTACCCTTGCCACCAAATTAGGGTGCGTAGCGCAATGCCGTTAAATGGTTCGG -AATATGCAACCTTTCTCACGGAGAAGGCTCTGTTGGTATCCGGTAATAGGTTCCCCGGAA -TGCGGGGTGAAGTAAAGAAACTCCCAGCCCACTAATTTTAATGAGGTTTATATGAAATTT -CGTGAAACTGTGAAATACCATAACGCGGTCGAATATACACAGATTTTTGTTGATATGTCT -CCCGCAAAATTCAAAGAACGTTATGGCATGACATTTAATGAATGGAAAGATGGATTGCCC -GATGGGGATTACCGAAAAAACTTCAAATTCAGTGAATGTTATGTGGATGATGACCCTTAC -GATCTGGATGTTTGTAGTAAAACAACACCTCTCATTGAGAATTCACCAGAACAGCTTTAC -GAATCTTGTATTGATTCTGCATACGAAATTTAAAGAGATAACATGAAAAATTTACAAAAA -CTGTTTAAAATGTCTCCGGCAATTAGAAAAATCATCGGAGAAAGCAATCCAACGAATCGC -AATAAAAAATTGATGGAACTTTTTGTAAAAGAGTTCGATGATTTTGATTCTGAACTTCAT -AAAGCGCTTGAGGCATATTCCAAACAAGGGTTCTTTGCATCGCCGCAAGTGAATAGTAAG -AAAGAGTATAGCGAACGATTCTTTGATTGGGAGATTGTCAATCTCGTTCGTAGAACAAAT -ATATCTCCGAGCAATCATCAATTGATTTCTCTTGATACTTCGGTATTCTTTATCCAGTAT -CTTATCAGTGGTGGTTTCAAAAATCCTGAAATTCCGTTTACAAATGAAGCGGTTAGCAGT -GAATTTGATGAATCATTTGTATACATCAACACAAACAAATAATCAAATGGCTATCTTCGG -ATAGCCTTATTTTTGGGGTGTCTATGCGCTTTTTAAAGTATGCAAGTTGGATCGTACTCG -TCCCTCTTGACATTATTACTGGAGTATTAGCAATTCTGTTTGCCCCGTTTGTTGTACCAT -TCTACAACGAGAAAACAGGGCATCTTCCTAAAGGCTTCCGGTGGATGGAAACCTTCGATA -ACCCTATTGATGGTGATGGTGGACATATCCGCCGTTGGGCGTCCATACGCTATCATCTGG -GGGCTTTTGGGGTGTACATGCAACGTGTTGGCTGGTTGTGGAGAAACAAGGCTTATAACT -TCGCATATCACGTTTTAGGACGTGAAGCGACAAGCAAATTCAACTGGAAAGGCAACCCAA -AAACAGAAGGTGGGCCGAACCCTGTAAATCATGGGTATCTGCTCATGTGGAACGAATCAG -CATGGGGTTTGTACGTTTACAAACCGTGGCTACGGATCCACAAAGTGCAATTCTGTTTGC -GCGTTTATGCTGGATGGAAGCTGAAACAAGAAGTTAGCGACCCAGTTAACCTGGATCGTG -CAATGCTGGCGTTTCATTTCAACCCGTTCAGGTATTATGTAATCAAGTAAAGGTAATACA -ATGAAAGCATTTCAAATTTTAGAAGGTTTGCATACTGGTACGATCTATCTGGAAGAAGGT -AACGATGTTCGGATCGTAGTATCAAAAACATTAACTATGGATTCTGTGATCGGCAAAGCT -CGCGTTACTCCGTTTGCAAAGCGTGAGATCGAGATCGAATATCAGCCAACTGTTAAGGTG -GAAGGTGGACAACATTTAAACGTTAACGTGTTGCGCCGAGAAACTCTCCTGGATGCGGTT -GAACATCCTGAAAAATACCCACAGTTAACGATCCGTGTTTCTGGTTATGCAGTGCGTTTT -AACTCACTGACCCCTGAACAGCAACGCGACGTTATCGCCCGAACCTTTACAGAGAGTCTA -TAATGGCAATTGATGATATCAAGGGTTATAAACCCCATACTGATAAAAAAGTAGAAACGG -TAAACCGTATCAAAGATGCTGAAAATGCATTAGGTGCAATCCTGGAAGATATCGAACAGC -GACTATCAAATTCAGATATTGATTCACTGATAGAGGAAGAATTAGATGAGGTGCTTGAAC -GTATCCATCAAATTCAACTAGCGAAAGACCGACTGAAAGAAGCCTCTATGTGGGCGTGTC -GTGCGGTGTTTCAGCCTGACGAAAAATATTAAAAATCAAGCCGTTGCCGAAAGGTAGCGG -CTTTTTCTTTTTTGGTGTAAAAAGTTGTTGACTCCCTTCTCACATTCCCTTATAGTTAAT -CCCGTAGACAAGAAAACACTTTTATGAGGATGACATTATGAAACGCTCTTACAACATGAA -TGAACTGGTTTTCTTCAAAACTCGTCGTGAAGCACGTGCTTACGTTCTGGCGGCTGGTAA -AAATACTTCTGCTGCTATCGATATGGGTACTGATAAAGCTGTTGGTGCTCGTTGGGCCGC -TGTTATCGTTATCGCTGCTCCGGTTACTCCGGTTAAAACTCTGGTACTTGGTGCGCGTCA -CGCCGAAACTCTTAACACTGCTGCAAGCGGTAGGGGCCACGAAGTTAAAGTGTTCAAGAA -GCGTTCTTATCTTTCATGTGCAAGGGGTTAACTATGGCACGATTCATATATAAAGTGGAA -TACGAAAATACTGAGTTATCTGATACCTTTTTGAAGATGATTCGTGATCACGGGCAACGT -CTGGAAAGAGTAACGATTGATACTGCGTTTGATTGTCCTGTTGGGTTGGTTCTAACATTA -TCTTGCAGCCCCGCAAAAGAATCAGCCCGTGTTGAAATGTTACATAAACTAAATGCATTT -TATGAAGGTGGTAGTGTATGGCGAGTATTGTAAAATTTTTCACCGACTCAGTGAAAGAAA -TTAAAAGCGCTCTGGAACAATGGAACACTCGTTGTGATGTATCCATTAAATCAGAGTACG -AAACAACTTATGATCGTTATGATCCGGCCCGTGGTTTGCACAATAACCCCCATGAGGTGG -AAGTGTGAAATACTACGGATTCAAAACGAGTCATTTTGGTAAAGCGTATCGTACAGAAAA -CATCGATCGCAAACGTCCGTACTATGATTCTTTAGTACGCGCGGGACGCAAACGCGCTCG -CCAGGAAGGGAAGAAAGAAGGTGAAGATCGTGGATAATTGGAAAACATGGGTATCAATTA -TCGTTGGTGTTATCATCGGTCGCGGTTTGTATGATTTAATATTTTCGGCGGGGGTTCATT -ATGGACATTGGTTCGGGTAGTCAGTACCCATCATGCGCGTTAAGCAACTTCGCTCCGCAT -CCATTCACGTTTGACGGGGTAGAATGTGCATCAATGGAGGGCTTTTTACAAAGCCTTAAA -TTCAGCAACCCAGATATGCAAGCCCATGTATGTACTCTGGTAGGCAAGGCCGCAAAGTTC -AAAGGCAAAAAGAAAAAATGGTGGACTAACCAGACCTTATACTGGAAAGGTATCCCTATT -CATCGTTCCTCTGAGGCGTATCAAATCCTGATTGAAAACGCATATAATGCATTATTCCTT -AATGAAGGGTTTCGCCGTGCGTTGGCAGCAACCGGAAAAAGTACCTTGACACATTCAATG -GGAAAGAATAAAATAAACGAAACTGTACTGACTGAAAGAGAGTTTGTACGCAACTTAACC -CGATTGAGAGATCTGTTATGAGTGAAAAAGAAAGAGTAGAATGCGTGTTTCTGTTCAAAG -GCGCGATTAATCCATTAGCGTTACTGTATGCGCAACATGCATTACGTTCAACGTTGATTC -AGAGTGTTATCTATAAAGCAGGTGTGTATTATGTTACCATCGGCGCAAATAACATGGTTG -TTATTGAATCCTACGTTAAGGAATGTGCATTAAACGGCGTTGTCTTTGATAAAGTCGATT -TTGATGCTGGGGTAGATGCTGTTTATATGTATAAGGGTTGATATGAGTTACGTAGTTTAT -TTCGATTGTTCGGATCTCGATCCGTTCGTGCTTCAACAGGCAAAGAAATATCATCAAGAT -GTCGTTGGCATTGGTGTAACAAATGATGATATGTTGTGCATCGAATTTGAATATTATCGG -ACATTTGAGCGTGAACAATTCCTGGGTGAATTGAATGCATTCAAAAGTACCCTTTTCTTT -GATCGTTATGAGGTTATATCTTGAAACCTGTTATTCTTACCGATATTGACGGGATCGCCG -TAAAATGGCAAAGCGGCCTCCCGTTCTTTTTGTCTAAGCACAACATGCCTACTGATATTG -CATTAGAAATGGTTACAGATGAAAAATTTCGTGATATGACCGAAATCTTCGGATGTGATC -AGCAGTTGGCTAAAATCCTTATGGAAGAATACAATAACAGTTCTTTCATTCGTTATCTGA -ATGCGTATGATGATGCATTGATTGTGATCAACCGTCTGAAAACGCAGTATGATTTCGTTG -CCGTTACCGCTCTGGGAACAACACCAACGGCAAGCCTTAACCGAATTGCTAACCTGAATA -CTCTTTTCCCGTCTGCGTTTAAAGAGGTGATGGTCGTGGGCCACGGTGAAACAAAAACTC -ATCGTTACCTGGAAGCAAAAGCAAAGTATGGTAATCGTCTGGTTTGCTTTGTTGATGATC -TCGCGATAAACTTAAACGAATGTCATAACGTCATTAGTCAGTTGCCGTTATTCCATATGT -TACGTGGTGAACGTGAAGAAACAAATGCACCTCACCAGTTAGTAAAATCGTGGTTTGAAA -TTGAAGAGAAACTAAATGATCTTGTCAATCCTTAATGAACTTGCGTCTACTCTGAAAACC -AAAGAGAAAGAAGCAATTTTAAAACGTAATGCCGATAATGAATTATTGAAAGAAGTTTTC -CGCATTACGTATACAAAACAGATTATGTTTTATGTGCGTCAATTTCCTCTGGTAGAAGGG -AAACCAGGCACAACACCGCTTTCCGATGCAATCAAAGCATTACTGGAAGATTTAGCAAGC -CGGAAATATACAGGCAATGCAGCGCGTGATCGTTTACTGGATATTGTATCATCAGTGAAC -ATTAACGATCGTGAAGTGCTACGCCGTATCATTAACCGCGATCTGGAATGTGGTGCTGGC -ACAACCTTACCAAACAGGGTATGGAAGAAACTCATTCCTGAACAGCCTCAATGCCTCGCT -ACGCCGTTTAGTGAAAAGGCTTTACGTCGCATCATTTTCCCTGCTTACTCGCAGCTTAAA -GCCGATGGTGCGCGTTGCATGGCTGATTTGCTGGAAGCATTAAACCGTAAGGTATCGAGA -GCGGGTAACGAGTACGAAGGGTTAACTCAGCTTGATATCGATCTGAAAAAGATTCGCGAT -TATCTGGGATATGATGTAGTTCTGGATGGAGAATTGATTTATGTTCCTTCCGGAACCGTA -CCAACATTACCTGAACCTGAAACAGACATGCCTTTTTCTTTATCTGCTTTCATGGACGAT -GATGATAACGACATTGCGTTATTTGCGGAAGAAGTTCGCAAAGTATCGTCCCCAGAAGAA -GAACAGGCCGAAGCAAAACGCGAAGAAGGGAACGGGATCGTAAACAAATCTCTGAAAGGG -ACGATCACCGAAGAAGAACAGCGAAACATTGTTTATGTTGTTTGGGATATTATTCCATAT -GAGGTGTATTACGGCGAAGCTGAAAGTGTTCAGACTTATGATGAGCGGTTTAGCCTGTTG -CGTGATATCCTCCTGGATCTTTCTCTGCCTTCTGTTCGTTTGATTCAGTCTAAGCTGGTT -AATAACATTGCAGAAGCGAAGCAGGACTATAACAATTACCGCAATGACGGTAAAGAAGGT -TCTATTCTCAAAAACAGAAACTTCAAATGGAAAGATTCGCGAGTAGCCGATCAGGTTAAG -CTGAAAAACAAAACCCCGATTGAACTACGGATCATTGATATCTACGCGCACACTAAAGAA -GACCATAAGGTCGGCGGGTTTGTGGTGGAAGATTTATCCGGAATGGCTCGAACGAATACC -GGATCTGGGTTAACTGATACCGATTATCGTTACGATGATGATGGTATTACCCGTGTATAC -ATTCCATTAGATGAACGTGGTGAACTGGATCGCGAATACATCATGGCGCATAAAGATGAA -TACATTGGGGCCATTGTAGAAATGGAAGTTGACGGCCTCCAGAAGTCGAAAACGCGTAAG -AAAGGGGAACCGGAATACAGTTTCTTCCTTCCTATTATCAAGAAGATAAGACGCGATAAG -ACCGAACCCGACGATATTCATGTTGTCTTTGCAGATCTATTTTAATAAAAAGCCCTTGAC -TCCGGTCGGGGGCTTTGTTATATTGGGCCTATCGAAACGTAAATCACTAAGAGAATATAT -TATGACTAGTAGTTATCAGAAACACAAAACCCTTATGGCAAACCTGTCCGGTAAACATAT -CGACGAAGTAAAATCTCTGCTGACAGTGACCGAAGGTTCCCGATTCGAAACAAATCACAT -TATCAAACCTTCTGTGAAGAAAGTACTGAAAGTGATTTACCGACATCCGGTGTATCAGTG -CGTTCATATCATGAACAGCAACGCATTTATTTTCGTATATAACGAATCCGATGATAAGTG -TGTTGGTATTTTCCGAAAACCTAACTTTGAATGCATGAGCGAAGCGGCTGTTGCAACCCC -GATCGTTGAAGAATATCCGGATTATGTTCAACGCAACATGCGTTATGTGCAATCCCGACT -TGATTATGCATACGATTTCAATTCTGACGCGGTAGAAGCGCTGGCGGATATCCTTTGCAA -AAACCAGAAAGATCGTCAAATGACAAAATATCTGACTGATCCAACACCGCCAACAATTCG -AATTTCTGTTGAAGTTCCGTTTGAAAATCATTTCATGGCAGTTGAAGCGCTTGCTAAACT -TGGTTTAGAAGTGAAAACAGAAGCCGTTTAATAGCACTTTTTGTTAAAGAAGCCTCTTGC -AATGCAGGGGGCTTTTTTGTATAGTGTGTTCATTGAAACGAAACACGGAGATAAACAAAA -TGGCTCACATGATGAAGAAAGCAGAATTCCTTAACCTGGTTAAAGATTGCGGATTCGCTC -ACTTGAAAACTTTTCGTGGTAGTGTTTACCTCTATGACCGCGAAATCCAGGTTGCCGAAG -TCTATTGCGCTTCTAACATGCAAGAATCTGGCATTATCTCTGCAATGAACCAATCAATCA -AATACCGTAAATGGATGGGCTGATTATGAAAGTTAACGTTTCTTATGAATCTCGCGTTAA -TGGCGCACAGTGGCGGAAGCTGGATAACGGACAAGTGGAAAGGCGCTTACCTGGTTCCGA -TGAGTGGACACTTGCGGCAGTGTTGGAAACCGAAATCGATCTGGCAACAAAAGACGGTAT -TTTGTTTGAGGTGAAGAAATGATCACACTCAGTGATTATCTTCTGTTTACTGCTCTTTGG -GCGGCTTCGATATTCATAACTGCTTTGATTTACAATAAACGTGATGATTTTGGGTTGTGG -GTATTCATTCACGGGTTTCCTCTGTCTATGTGGATCGTGATGACTGCTGAAATTCTCCAT -TAATAGCACTTTTTGCTAAAACTATCTTGTTCTTGTTTGGTATATTGTGTTCATCGAAAC -GAAACAGACAAAAGGAACATCACATGAACTTCATCGATATCAACAAAGATTTAGAAGGTA -AAAACATCAAACTCGTTAACCGTGAAATGTTAGAGAGTCTTGGTAATGGCGGCGAAAAAT -TCAGTGAAGAATTCTATAACAATTTATCGTTGATGACTGTTAAACGCGTTGATGTTCAGG -GTGGTTCTGGTTGGGTTTCTGCAATTCCGGTTTCCCTGGTAGATCAAGCAACATATGACC -CAGTTGCCGATTCATGGGATCTAGAAATGCCGTTGGTATTCGAAGAAGTCATGAAGTGCT -ACGAAATCGCATAAGGGTATTATTATGAATAGCGGAAAATTACAAATGAAAGTTAGCGAA -GAAGAAGTTAAAGAGCGGTTATCGGTAGCAAGAAGATTCCTTGAATCTATCGACCCTGAT -AAACTTGGAAAATGCCCTGATACGATTTGCCTTAATTGTGGGCGTTCTGTTCTTGTTGGT -AAGTGTTGCGATAATCCAAATATAGTTGTGATGGAAAAGGAACAAGTATCCCCCGAAACA -TGGGATCAGATCCAGGAAATCATTAAAAACCCTCCAGCGCCAACCAAGAAATTACGTGAA -TTGATGACAAGGAAAATGAAATATGAGCAAATTTAAATTGAGTGCAACCGTTCGCCTTAT -TCGTTGGAATGGTGAAGAGATCCGTTATGATGACCCTGAATTCGCCCATGAAATTCTTTC -ACATCGTCTGGGATTGAAAAACGCGTCATTGGTTCAGACTGTTAAAACATCAGCAGATCC -GGAAATTTGGCGTTGTGTTATCCTGGATCTCGATAACAACATTGACTATGATGATCCTAA -GAACTATCCGCTTCTGGAAGCACAAGTTGAGAATGCTCCAGAAGACAGACAGTGTTTTTT -GGTTGAGTTACCACGCGAACATTACGAAAACATCATAAAGGCCCGTAAAAAGGTCAATAA -CAATGTTTTCGATCTCCACCTCGGATTGTTTGAGGATTAAGTACTGCTAGTTGTGTTCGT -AGTAGCGGCGCTGGTAGGTTCCCCCACCTGTATACATTCAAGTGTTTGCAGGTGGAAATC -TTTTGATACGTCTCGAACACATTCAACAATCAGATATTTTCCTGCATACTCTTCCCCAAA -TACCTCAATGATTGTCCCTACCTTAACATCTAAACGACCCTGCTTTATATCGAATCGGAT -CCGGCGTTCATAGCTGGATAGCAATTGCATTTTAGAAGCCTGGAACGGTTTACCTTCTGA -ATCTGGGTTCTGAAAGTTGGTATCATAGATTGCATTACGGTTTGTGAAGATCCATGTATT -CTCTGTGTCTGTATCAGCCAGTATATCACCGTACATCTTTTTATCAGTCAATGACAGACT -AAAGAAACTGGCGTCTTTAAACAGCGTTGTGTTATCCTTATGGGTAATGTACTGGGCTTC -TGTGAATATGACAGTATCCCCAACAAACACGTTATCAACGTTAAATTTGTATGCTGGGAT -CGGTGTCTGGGCCAGAATGTCAGTTGAACTTTTAAGGAAAATACCGGAACCATCTTCCCA -CAGATAACAGAAGTCAGAAGAAACTACACTTTGCCCGTTGTCCCTGATATAATCAAATAT -ATCCTGATATGTACCATTTAGACATCCAGGAGGGATACGTATGTTACCGCCGACAACTTC -GGGGGTAAGTAGTTTCATTTTGCTATACAGTGCCGTCATACACTCTGTAATCGTCTGTAC -GGCGTTGTTACTAAATGAACGGGCAAACTTACGTCTGAACGTTTTATGCAGCGGAGAGAG -GTTCATACGCAGCACAGAACGGTTCTTATCGTCAGTATCTACGTTAGAGTAAAGCAATCC -GTAATAATGTTGTTCCTGTGTACCGTTATACTGGAAAGATACCTGTATGATCGGCTGGAT -AAGTTGCTGATAGATTAACTGTGCGTCGTATATCTGCATCAGCGTTTCCGATGAGCCGTT -AATCATCGTCTTTTCACTAAACGAGACAAGAGCGGGTAGCAATTCAGTATATGCGTTATC -AATGTATTTTTCGTATGATGTATATAATTTAATCGATGTGACTCGATTGACGATTTTTTC -AGCCATAAAAATCCCTCCTAATATATCCTATTTACTAAATAGTAAATAATGACCCAGGTT -CAATTTGAGGCAATAATGAAAAATAAAACTCTTGATAAATTTATGACTACACGGCTTGAA -ATCAAGAAGACTAACGTTAAAACCGTTCATCTTCCGGATGGAACAGCCATTGAGATCCCT -AAGATGTCGTATCGTCATTTTGTAAAGATTAAGACTCTGAAAGATGACCCAGTTGCGATC -ATGCGATTCATCATTGATGACATCAAACCGCGTGAACTGACAGCAGCGGAAATTGAATTT -GTGTTGATCCATATGTATGCACACAATAACGCTGATTATGCCAATACGCTTAAAGAAATT -GGGCTAAATCTTGATGACCTCAAAATCTCCGAACCTTGCTATGATTTTACGTTTGACAAC -GTGCGGTTAGTCTTTGACAAACCCAGCCTGTTAAATGCTCACCTTCCGTTCCTCATCAAA -GAGGCATATGTTGACGGTAAGCCAGTAGAATTAACTGAGGATAAACGAGACGAATTAATT -AATTGCCTGTACCGATTCGAATATGATCAGGTATCGCGTGGTGTCCTCCAGGAAGTATAC -ATTATCCATGAGGGGAAAACCATCAAAGGGCTTAACATCATTGGTGAATGATAATGGCTA -ACTCTTATTTCAACGAAGAACAAAAGAAAAAGTTTCTGAACAGAAACAGCAACAAACAAC -CAGCGGTCACCAAAGTAACAGCCTCCCTTGATGCTGAAAGCGCCCGTGACCTAAAGGAAA -TCAACGATAACACCCTTGAAAGTGCAATCAATACTCTTGATATCAAAGAAGGGTTGAAAT -CGTTCGAAGAAAAATTCCGTGACAAATTCGCGGGGTTCAAAGAACAATACGAAGAGGATA -AAAAGGAATCATTAGCCGAACAACTACCTGATTTCGTCGGCCCGATCCGTCCTATATCCT -TAACCGATGATAACTCAAAAACTGTTGACAATACAGTAAACGTTAACCAAAATGGTCAGT -TCGGTAAACTGGAAGAAAACACCGAATCTATTTTTCATGCTATTAACAAACTTGTTGATT -TATATGAAAATACTGATAAGCATAAGCCGCTTCCTGAACCAGTGGAAGAACCTGATCCGT -ATGTAGACACTAAGAAAAAACGCATCAATGATGATGACAAAAGAAGCAAAACTCTGGATA -GTATTGCTAAAAGTCTGGTTTCTATTAAAGGTTTTACATCGCAGATCCTTAGCCGTTTCA -TTGGTTACTCTCTGGAAGCAATGGCAAAGTTTGCTAAATGGACGCTCCTTATTGGTTCGT -TAATCTTTACATTCGATGTGTTGCGCGTCACAATACGCAAATGGTTCGAAGATATCCTGA -AAGAAGGGGAATCCTCAAAGAAACTATTTGGTACATATCTGGGTAACGTAAAGGCTATCG -TAACAAAGATCGAAGAAGGTTTGAACAACTTCAATATGAACAACTTAGGCGAATCACTTC -GTGATTTGTTCGTTGAGCCTATGAAGTTGTTGGGGCAAACTGTACAAACGGCAATCACTG -AGGGTATCGGTCGTCTTATTCAATCATTGGGTGAATCAACTGGCATAGACAGCATTACCA -ATGCCGGACGCGGAATGCAGATCACCGCTTTACGTGATAAACAGAAATTTGGTCTTGAAT -TGACTAAAGAAGATATTCTTATGATCAAGAAACAGGAACTAGAAGACCAAAAAGCGGCAT -TAGAAAAAGAAGATAAAGCTATTGCAGCACGTCATGCATTAACAATAACTCCTTCTCAAA -TTCCTAATGGTTCTATCTATAAAGTTGCTCCTACTGATTATCAAGAAAGAAATCAGAAAA -CCGTAGATGCTGATAAAGAACGGCTTGATAATATGAAGAAAGCAACGGAAGAAATGCAGA -AACAATACGATTTAGCTAAAAGCAGCGAAGAGGAAGCACAAAAATTAGCCGATGAGGAAA -ACAAACGCAACCGCGCACGTATAGAAGAAGCAAAAAGGTTAGAACAAGCGAGGAAGGAAG -GAAAACAGCCGCCAGAAGGTGAAGAGAAAAAGGGTGATGATCTGTTGGGTAAAGCAACCA -ACTATGCTAACTCTGAAAATCTGGATGCAGCCGATATCAAATACATTAACGATGAACTGT -TGGATCAGCTTGAAAAACGTCGTAATGAAGGCAATCTGGACGATGTACAGAAGGATAGAA -TCTCTGACCTTATCGAGCAATTGCAAAACAAGATTGCAGCCCGTACAGAATCCAGCGCCC -CGATCGACGCACAGCCACCGTTAGCAGCAAATAAACCGGATGCTGATAAAGCAAGCAACA -TTCAGGTTAACAACAAAACTGTTAACAACAACGTAACTCATTCAGTACAACGCACAGAGC -ATAAACCGCTCGTAGCGCTGGCATAAGGAACATATAATGAAGTTTTCTATTATTGATGAC -AGTATAAACACTCTCAAAAATATTAAAAATCGCGGTATCCCCTCTGGGGGTGCCGCAATC -ACAGAATCAGTATTAAAGCAAACTATCGTTACCGCCGAATTTCCGGCCCAACGTGCAGCA -GGTATCGATAACGCTTATAATGCTTCGAGTCTGTATAATAACGGCCTTCTGTTCACTGCA -TATGATTTTAATGGTGTTGGTAGTAAAGACAACTATCGTTCATTACGTCAGGCAGCACAG -AACCCAAAACAAATACTATCATCTGCGACTGGTAATGTTAAGTACAAACAAGTGTTGAAT -AGTTCTATTGGTACTATGGAACCTGTTTGCCAGATCCTGCTACCGCGAAGCCTGAACGAT -AACGAAGTAAACAGCCACCGCTATCAAGATGCAAACGATAGTTTCTTAACCAAAGGGTTG -AGCCGTGTTGTTTCAAACATGGTATGGGGCGCTGTAGAATCCGTTTCAGGCGGTATTATG -GCAGACCGAAGAGAAGCCCTTGATGTTGGTACTAAAGCCGCTTTCCAGGGTTCTGACAAG -CGAACAAAGATGTATTACAATACATTCGTGATCGAAAGCCGTAATGATTTGCTGGAACTG -ATTAAAATCTACTATCTGTTTACTGTTCTGGGATATGGTACAACTTCTGGCGGTACTGCT -AAAGAGGTTGCTGCATTGGTTAAACAGTATTACGGTGTTCTGGGTGCTAAAACCGCTAAC -GCAATTAGCCCTTCCAGTAACCCAGTAACAGCGTCAGATTTTGATAATAGTCTGGGTAAT -GACGTGGTTGATTTCATTTCAAACGTAGAGGTTATTAAATCGCCTCCTGTCTGGTTTATT -CGTGATTTCCAGTCTGGGGATTCCTTGCGTTTACCTCATTCAACCTTTGGGCCAGCAGGT -ATTACCAGTGTTCGCTTTGGTCGTTCTATTGATAATATTGTAAATACATTAAGAGAATCA -CCAAATACCCCGATCTCACTTGAGGTCGAAATTCAATTTATGGAACTGATCGATATGCGT -CAGGATTCTATTTTTGATACAAATTACTAAGGAGATATGATGTTTTACAACGTAGATGAA -TTTTTATCAGGTATGGCTAATCGCGATTTTCAGCGTAGCAACCTGTTTAGCGTTGTATTT -GCAACCAGCCCTGCATCACGTATCCTTGACAACACGATCGGTAGTATTCGAGATACTTTG -ATTGATGGATCTATTAGTTCTATCAACGCAAACAACCCGAACGAATTCATTAATGCTATC -ACTGGCGGTGTGAGTAAATTGTTTAGTTACACCGTCGATAAGGCGATTATGTCGCTGAAC -AAAACAGGATTTAGCAAAATCATCGGGGCAATTAGCCCCCGCTTGATTACTTCCCTGTTT -GGTGATAGCATGTATGGACAGTTGTTAGCTGAATTCCGTGATAAAATGATGTATAATATG -GGTTTAAGCATCATGGGAGTTAACCTCCCCGGTAAATCCATTGGGTACGAATACGTTTAT -AATGGTGGCGTACCTCAAATCAGATTCACTCGCCCTGAGAATGGGGAATTGTCGCTGACG -TTCCGCACCGATTCAGAAGCCCGTAACCTGAAAATCTTTAACGAATGGATTTCCGCTATT -CGCGATGATGTAACAGGACAATACGCCTTCATTGATGAAGTGACAAGTACTATTCAGGTT -AACTTACACGATCGTGATGGTTCACCGCATACAACATACGTATTTCAGAAGTGCTTGCCC -GTCAAAATCAGTAACAGTGAATTGAGCTATGAGAACAACAACGAAATCTGGACATTTACT -GTTGATTTTGCCTATAAAACATCATGGGTTGTTGAGGCTGATAAAGAAGGCTGGGAAGGG -TTCAAACAATCCGTAGAGGAAGGTTTAGCCATTGCAGCACGTACCGCAATTACAGGACAA -TAAAGGGGCTACGGCCCCTTTTGAGGATCTTATGTTTGATATTATTCGAGTAACATTACC -ATCAGGGATCAAACGATTCCCTATGTTTACAGTTAAAGACCAGTTTAAATTAATGCTGAC -CCGTATTGATATGGAAGGTCGGCCCCTTAAAGAGCAACAGGAAATACTGGATGAAGTGCT -GGATCTGCTTTATCCTGGGTATTCCAAAACAGAACAGGAATACATTTTCAGCCGGGTGTA -TTGTGGTTCGTTCGGTAAAAACGTTATCAAGGTTGTGATAGGCGGTAAAGGTGGGGGCCA -CTCCGAAGCCTTCATGGTGATTAATGATATTCAACTAGAAAATGAATACAAGTTGAATGA -TGAAATCACATTAGGGTTTAACTTCCCCCGTACACGCAATACAAGCGAAGAGTTGTTTCT -TGAATGTATCAGTTATGTAATATACAACGAACAGCGCTATGAATGGACATCACTAACCGA -AGAAACGAAAGAGAATATTCTTGATATAGTCGAACTTGATGATGTCGAAAAAATAGTTAC -TATGCTAACGAAATCGGTTGATGTGTCTATGCGCGGTAAATCATTTAGTGGTATGTTAAC -CCTGTTCAAGATCCTGTTTAGTCGCGGGGATCTGGATGAATTTGTGAAGACCAACTATCT -GCTAAATAAAAACGGCCTGAACCTGGAACCTATCATGAATAGTAGCCCGATGGAAAGGCA -AATTTATACTGCATTGCTTGCAGAAGACTTGAAAAAACAAGGTGCTGTTAAATGAGAAAG -CATGAATATAAACACGTTGAGAAATATAATGTTGATTATCGTCCTCTGACACATACAGAG -TTTACCCCCGATGCAGATTTTATCAAAGGGGATGTTTACCTGTATCAAAGAGAATATCTT -TTCATTCTGGCACTTCTGGAAAGTAAAAATATTGATACCCGTCAACTGTTCATCAACTGT -GAAGAATGTCAGGAAAGAATTGAATTCCAGCTTAAACGCAATCAAATAATGGTTGAAGAT -TTCGACGATAAGCTATACGGCAATGACGGGATCGCGTTATCTGTTCACCCTCGTAAGACT -GGTGATGAAGAGATCCCCGATCTTATCGATTACGTAATGATAGACGGCGAACAGATCATG -TGGAGTGATTGCAGCGACAAAGATAAAGAAATGGTGTTGGATGCAATCGACTATGCAACC -TATAAATCGATTTCTACCGCCCTGGATAAGCCAGCAGTGGTCGCAAACATTCCGGTAAGG -TGTTCGTGTGGACATAGCCATATCGTCTCTCTGAGAGGCTTACAGCAATTTTTAAAGGTG -GTCTAAATGGGTGTAAATCTGAGGTTGCTATATAGCGATATAGAACCTAACATGCAACGA -GATTGGAATAATGACGTAGCGGCCTCAAAAGGGGCCGCAGCAGTGAGAAATAGTTTGATT -GGTATCGTAACCACGATCAAGGGTACACGTCCATTTGATAGTAACTTTGGTTGTGCTATT -AGTGATATGCTGTTTGAGAACATGAACCCTCTGACAGCGGAATCAATTAGAACTTCTATC -GTATCTGCGATCCGGACATATGAGCCTAGAGTATATAATCTTTCTGTTGAAGTTATTCCA -CAGTATGATGATAACTCAGTAACAGTAACCATCTATTACAGCATCATTGATGACCCGGAT -GACGTAGAGCAAATCAAACTACAGCTTTCCGCATCATAACAAAAAGCCCCTTCCTTTCGG -TTGGGGCTTTCTTTTAGAATTCAATGAATCCCATTAGTGTTTGATATCGCAATTCAAACG -GGGAGATATAACTTTGCATCTGGTTTTGATCGGATACGATGTAATAATACACCTCATCAT -TATCATCATATAGCGCTTCTTTGATGATGCAATAACGATCGGTTTCCACGTTCACATAAA -GAGTATCCATGTACTTTGTAACTTTGGAACCCTGTGAACTGATTTCACGAATAGCGTTAT -CTATGAAAAGCGACAATGCTTGCATGAAGTTATCAAACTCACCATATTCACAGCCCATAA -TAGAAATTGCAGTGTATTGGTGCCAGCCTTTGATTGTGTCTCCACGGCGGATCCATCCAA -TTTGTCTACCCCCGATAGATACACACCACACTTTACCAACGGGACTATAGAACCGCACAA -CTTCTTTTAATAACAGGGACATGATCCCACATTTTGTATAAGGATTCATTTCAACCTCAT -TTCATATCAAGTAGCCAGGAAGGGCTAGTTTCAAGCGAAATTGCAGTATATTCGTATTTT -ACAGTATAACCTTTGAAACCGAAAGGAATGACTGCATTTTCATTGAGATATTTTACTTTA -TGCTTTGCTTCTTCTTCATTCAGAGCAGCACAGACTGTTGTTTGTTCAACGTTACCAGCA -GGAGAAGTAAATTTTTCAATGATAATGTATACGCAGTTCATCCTATTGCCCTCTTTCCAT -TTTTTCAAGTTTCAGTGTATCCACTTGTAGTTGAAGTTTAAGAATACAACCTTTCGATAT -GTTATACAAGTAGTCACTAACGATTTTTGACTTTACCTGATCGTAATCAGAAGATAACGT -AATCCAATCATACATCGTTTGGTATGATGGAAGATACGTACATTGTTCTTCTTTTGATAA -CGCTTTAAATGATTGGTAATCGGTTGGAGGTTCCGAAGCAATTGCGGTTGTGGTCATAAG -ACTAAGTGCAAGTAGTAGATATTTCATAATGTATTCCTCATTGTTTTCGATAGAACCAAT -ATAGCAAAAAGCCCCGACCGAAGTCAAGGGCTTTTTCATCAATGCAAGAAAGATTTCACG -TACTGTTCGATCTTTTCACGACATGTATCAACTGAGGTGCTTTCCGCAATTACGGCATGA -CATAACGCCTCGCCTCCGACCCAGAAACTCATCATGTACTGAATATCACGACCTTCCATT -TCTTTTTGATGCGCTTTGATTCGATCGAAAGCGTTTTCGATTGTTTCAGTAGCAGTAAGC -ATTTCGGATTCCCCGTCAACCTCCGCCAGTTCCCCATCGATCATTTCGCTTTCGACTTCT -TCCCAGTATACTATCGTTATCATGCATTACCCCAGTGGTTAACCGTCGTAATCCCCGCCA -CAATTCACATCGCCTTCAATGAACAGTTCGCGGTTATCACGTAATAAATTATACTTTCTT -TCGAGTTCAGGCCCGAACGCGTCGGCGTCTTCATACCAGCTATAATTGTATCTTCCGCAT -TCATCATCATATTCTGGTTCATCACCGCGCTCGTTGAAGTGAACAATTTTAATATCGTCC -ATCCCCAGTTCTTTCAGCTTATCCCAGATATACGAAATCTCAACGCTATGGGAACCGAAC -GCTTCCAGTGAGATCGTACCGTCGCTATCGACTTGAGGAACACCCCACTTCGAACGAGTA -TCATCGGTGATCATATCTATTAATGACTCAATATTATTCTCACCGTAGATATCAGCAACT -TCCTTTTCTTTACCAGGGCGAACAAGTCCGATCCCGATAATAAAGCTACTGCTTGAGCTA -TTGCTCACAAACCCAGAACGAATTTTCATCGCATCACCATATTACCAATCATGAATAGAG -GGATTAGCGCGAAGACGATACCCCATAGAATGACCTTATCTTCACGACGGTCACACCCAT -AATAGATAACACCTCCAGCGAAAATCAATACAACAACTGAAACGAACGCGAATAAATAAA -TCATTTGCAGGTATCCATTCTCATAGAAACTTCTTTCAGGATCTTATTCAGATCGTGAAG -CGCATCTTTTACGTTACCTTCGTTATAGGTAAGCATATCCTGGTACAGCCCTTTCAAGCA -ACGATTGATTACATATGCTTTTTCAGAAGGTAACATTGTACCAGAGCGATTATAATCTCT -GAAAATGTCCATCATCGTGCCGTTGTTACCAGGTAATGACGGGTTGAAGTTAACCATACC -GGACATCAAACTATCAACATACACAACTGTTGTGTTATCAGAACGATACGCGCCACCAAC -TTTAAACCAGTTGCTGAACACATACGGAGATTCCCGCACTTCGCTCAAATCGGTTCCGAT -TTCATCGATGTTTACACGAATGTTGTTAAAATACACCGATTCATCAATAGAACCATGACG -CCATAAGATAGCACCATTGTTATTTTTGAATCCGACTACATCAACCTGCCAGCCGTTATC -TGTTAACCGGACATCATCAACGACGATGAAATCAGGTAGCTGTGAATGAAAGCCGATGTT -TTCAGGACGGGAATTACGAAACCCATCACGATTGGAGAAATAAAGGATGTCGCCTTGATT -CAGTTCGCATATATTCATAAGATTTTTAAAGTCCAATTCAAGTAATTCCACAAGTCACCT -CAAAGCCCCCTTTCGGGGGCGAGATCTCATTAGAGTTTAACTTCTTTTTCTTCCAGAACG -ATTGTGCAATCAAATTTCACATCTTTCCAGAATTCCGCTGCAACGATATCTGTTGCGGTA -ACGCTTACGCTGGTTTCTTCGAAATCCAGATCCGCAAACCATGCGTGTCCGACGACAATA -CCGTACATTACACGACTCAGGCGATTATTAAGGGCGCGAACCTCTTTAATAGTTTCCTTT -GTCTGCTTATCAAGATACTCGATCAGGTCATTCTTGTCAAGCGCTTCGATCTCTTTAGAT -ACGGTATCGTAAGCCCACAGAATGATCAGGTCGCCATTGTTGAGTTTCTTCTTACCTTCG -GCGCGTTTTGCAACGGTAGCCGCAACAGCCGGAAGTGATGAAACGCCTTTGATTTTCACG -TTCAGTTCTTTCGACATGTAAACATCAGTCGATTCTGTGCGCTCAACCTTCGGAGAGAAG -CCGTAATCACGGATCCCTTGCTCAGACAACCATTCACCAGCCGCCTCACCAAAGCGCTGT -TTAAGCCCTTCTGCGTTGCGTAAACCAATCGCGTTATCACGGAAGAACTTCATTACCTTC -TGACGGCCTTTCAGGATTTCCAGACGGACGTTATCAGCAACAAATTCCTTACCAGAAATA -CCGCGAGTCATCGAACGGTTAACCAGAGGCAGAGAAGTAAAGTCAACCAGTACAGACATA -CGGTCTTCACCAATTTTAGCCAGCGGTTTGATAGTCAGACCAGAAGCACGTAAGTTTTTC -AGAGTCGGAATATCGGTTTCCAGCGGAAGTACCTTAACGTTCACGATACCATCTTTAACA -ATGGTAAAGTTACGCACTTGTTTGGTTTCTACTTTTTCCGGCAATCCAAACTCTTTTTGT -TTGCTTTCCGGAATGGTTACATAACCTTGCAGATCCGTATTGATGGAAATGTTCGGACGG -GAACTGTTACCCACCAGGTGTTTCACTGCAACTTTCGTTGTGGTTTGGGTAAATTCCGGT -TTCCATACTTCATGCGCTACCAGTTGCGCCGCCAGTGCTTTACGTTCTTCCGGAGTAGAA -GCGTTTGCAATCTGTTCTGACAGTTTATCCAGAGTATCATCATCTTTCTGGACAGTCTGA -CGGCCTGTACGATTGTACGCCCAGTGTTCAGAAGACAGGTCGATCACGGTGTCGGTTTCT -GCCAACAGTTCGAGAGCATCAACCAAAGTAAACGCGTTTTCATCAGGAACCATGTTGTAA -TCAACACCATCCATCAGACGTTTAGCCGGATCAACAACCGCTTCGGAGATCATATCTTTA -GCGTTGGAATAATCCTGTTTGGTAAAGCAGTTATCGTATGCTTTAATCAGGCGCACATCA -CCCAGTTTTTTCAGAACTTTCCATGCCAGATCTGGATTCATGGTATGAAGCGCATGATAC -AGAACCACATACAGAACCTGTTCGCCTTCTGCTGTTGCCGGATCGAAGCCGTCAACGTCA -TTGATCGCGTTTTCACCCAGCGCCCAAATGTTTTTGATATGTTCCGGAACCAGAACAACA -CCATTTGCAGCATTCAGGACATACACACGGCCTTCATCCAGGTAGATCGCATGAGTTGCA -TCGCCAACTTTGACTTCAACACGTGCGGAGGTTTGCGCGGTAATGATTTCATCAAATGCA -GGTACATACGCATCAAACCCTTCAACGAATTTGTGTAATGCGTTGGTTGCTTCCGCCATT -TTTTCCAGCAGAGGACGGTTTACATAATAACCATATTCCAGGAAAGCAATGTTGTTAAAC -GTCAACGGCAGAGTAGAACACGCTTTCAGGATATCATCAGTACGCCAGCAGTTATCATAA -CCATCAGTCAGGAAGATCAGACTGTTCAGATTGCCATTATCCGCTTGCAGATCGGTAGCG -ACTTCAACCGCCAGTTGCAGAGGTTCAACGAAGCCAGTACATCCGGTCGGACGCAGATAA -CGATCGATAGCATCATTGATTTTGCTCAGGTCGGATACAGAGCTAACCTTTTCGCCCACG -AATACAGAACCGAACTGACCACGGCTGGAGAAATACAGAATAGATACGGTATCATCCTGC -TTAACCAGCGTTGCCAGGTTGTTTTTCAGGTGCTGACGAATGCGCGGGAGTTCGTTATAC -ATCGATCCGGATACGTCACAAACAAAAACGTGGTTAGTCGGGGTTGGTTTGGCTACGGCG -TTTTTGAATTCAATGTTAGTGATCATAATTTTCTCATTTATAGGTAAATTTGATTAAAAT -TTCGTTTACTTTTTTGCTAATAATATCTAATGCATCATCGCATCCAAACTTACTACTCAA -CAATGAAACAAAATCATCCATCGTTGTTGTTTGAGACTCGCCAACGTCAAAAGACAGAGC -GTAGGCAACAGGATTTTTAATCCTTACGATTTGAATAGTATACTCATTCAGGTCAAACCG -TTCAAGATATTTTCGCAAAGAAAATAAATCAATCGGTACTGGTAGAGTTTGACTAAACGT -TATTTCTTCCCCCAGTTGATAGGGGGGCATTTTTACACAGATTTCGTATTCCATCAGTGA -TGACTCGTCATAGTGTGTTCCAGGTTACGGAAAATTTGCCCGTGTTCAAGCTGGGATTGA -AATTCTCCGCATTCATCAGAGTAAGTAAATTCATAAATGAATACACCGTTCTGATTGCCA -AATTTAGCGTTGTACTCTTCATACAGCCACATTTTGATCAGAGCGTCTTTCTCTTCTGTT -TCCAGATCATACCAGTCACGCCCATCATAAGCAAGCGCAATTTGCGGATTAGACCGATAT -CGAGTTTCGGCGCTATCTTCGGTTTCCCATTCATAACGCTTATCATCATAGTATGATTCG -AAGCTATTTCCCATATGACCGCCCAGGTCGCGGTGTACCTGCTGTACAACTTCTTCCGCT -GTCGGGCAAGTCATCCAGCTATAACCACAGTTAGGAACACAATCACCCATCATTTCGCGG -AGATTGTTGATATCAGTCGGATCCTTCGGGAACCGGACGATGAAACTACTTGATGAACTA -TTGCTCACAAAACCAGATCGGATTTTCATTATAATTTCTCCCAACGTTCAGCATTTTTAA -CCTTCATCTTTCACTTCCTTCATGTTTTTCATAACTTCTTCAAAAGTTACAGGGATCTCG -TTGTACTGTTGCGATTCTTCATCCCATACATCGCGATGCCCGAATGTCGAACTTTTTGCA -ATGAGTTTTTCATTTTCCCATACATCAATAGTAACATGATCGCCAAGATAAGGGAAATTA -GGAACTTTGTTCAGCGCATCAACACAGTTTTGCAATGATTCAGAAACATGAACAATTTCA -GTGAATTCATAATCAGCACTATAATAAGCTACGTAAATCATCACCACCCCCTAACGATGC -TAATCAACAGTAACCCCAGGATCCAGAACACAGCAACCGCACAAATACGGGCCATTACTA -CATTTCCGCGACTAGTCCACTCCGCACTAAGGAACAAGAGAACAAACGTTAACGCGTATA -AAACCATTTCAATAACTTCGGTAATCATATAAACCTCACGAAAAAGCCCCTTTCGGGGCT -TGATTAATCAATGTCCGAACACACCACGAATAGACTCTGCGAATGCATACAGTTCAGGGT -TTTTAGCTTTCACTGTTTCGATTTGCTCCAGAATATAATCTGGTTTATATTTCGCACCGA -ACCAGCAGTAAGAGAAAGAACGATCCCACATGAACACGTTATAGTATTCACCGTTGCGAA -CTTCAACCATCACATAACCAGGATTAGAACCCAGCGGATAATCTTTCAGAAGATTGAATT -TCGCGCCAGCACCAGTACATCCGTTAAACAGGTCATTAAAAGTCATGGTATGTTCCTTTT -GTCAGTTTCGTTTCAACAAGGACACTATACTATTCTTCTTTAGCCTGTGCAAGCGCTTTT -TTGATTTGTTTTGCTATGGCTTCAATCACTGGGATGGAAACTGAATTCCCAGCCTGTTTG -TAAGCCTGTATTTTGCTTTCAGGGATGATAAACGAATCCGGAAATCCTTGTAACCTAAAA -CATTCTCGCGGGCTTAATCTTCTAGGGTTCTTACCTTCCTGCAATACCAGACATTGAACA -CCATCCTTTCCATATTGGGCTGTTATCGTCCCAGTACACACAGAATCAACTGTAACGGCC -TGATAGCCAAACCCCTTACCGTTTGCCTTGTTTCGTTCTTTACGCTCTCTAAAGCCCTTC -CAGGCACGATCTGATATGGTGTATTGATCATTATCCGGTTCGAGAATGTCACCGACCCTT -GTTGGGGTACGTGGAGGAACAGGAAAACTAAAGAACACCGGATCGCGAAAGCAGACAATA -AACACGCGCTCTCTTCGTTGAGGCAATCCAAAATCTTTTGTATTCATTACCTGATAATGG -ATATCGTACCCTTCGTCCTGTAACAGCCTGTAGATGGTTTTAAACGTGTTTCCCTTGTCA -TGTGTTAATAGCTGGGGAACATTCTCAAAGAACAGCACAGAGGGCTTTTTAGCCCGTATA -ATGCGGAGTATTTCAAAGATGATAGTACCGCGAGGATCTAACATGCCCTGTTTTAACCCT -GCTTTACTGAACGCCTGACAAGGAAACCCCGCCAACAGGATATCGTGATCAGGTACGTCG -TTTTCATCAATGGCGAATATATCACCCTGAATATTTTCATCACCCCAGTTATCAGCATAT -GTTTGTTGTGCATGTTTATCGATTTCAGACGTTAAAAGGCATTCGACCCCGCCGAATGCC -TTATCGAAACCGAGCCTCACGCCACCAACACCAGCGCAAAGGTCAATTATTTTCATACGT -CGAAATCAACCTCATCGATTTTGTATGATTCTTCGCCAATATCAGCCCATAGCTGAATAT -TCACACTTTTTGCATCACGATAAAGAGATTGACCACAAAGCCCACCTGTATAACAAGTTT -CTGTAATCTCGTTAACTTCCAGGCGGAGGCTATTGCGCATAATTTTAACAACAGCCTTTT -CCATTGCCGAATCTAGGGTTTTAGTATCACCCAATACTACATCTTTAACGTTCAAAATAA -CATCACCCATTATCGCCACTCCGTTTCAATTCCGTGTTTGTATGCGTCAACGCCCAGAGG -GGTGATCACTAAACACATATCAGTATTTTTCGTTGGTGAACTAAACGCCATTGATGCGTA -ACCTTTTTGAATCAGGGAATCACGCCCTGATTTACTGGGAACATCGTTGAAATCTAAATC -CAACATTTTCGACGAGTATCCGTAAAGTTTACACAGAACATCAATTTCAGCGCCGGACAA -TTTCGGATATGTCATTTGTAGTACCTCACAACATGTTCAGAATACACACGTTCAATGAAA -TCATTCCAGAAATCGCGATCAACTTCTTTCGGATAACAAGATACAGCCGCCAGCTTTTCA -ACTTCACACATCGTTGATTCTAGCGCCTCTTGTACGGTTGCGAAAGGAACACCGCCAGCT -TTAACCATTTTCAAAAATGCGCTATCCGGAAGAGGATATACAATATCACCTTCTTTGAAA -ATCTGGATCAATTGCATACCACCGCGCAACGCATGAGAAAGAGCTTTCCAGTCGATCCCG -TTGTTGGCTTCTGCTTGCCGTGCTCGTTCCCCGTATTCATCCCAGAGTTTATACACGGAT -TTTTTCATTTCCGCTACGGTGATCGTAGACTGGAATTTACGCCCCAGAACTTCATAAAAT -TCCTGACAACCTGATTTCAGTGTTTTGTCTGTAACGAATCGACAAAACTCGTTGGTCGGG -AATCGGTTAGAAATCTCACCAACTTTGATGCGCTTGCCGTAATTAGATTCATCCACGTTA -CCCAGCAATGATGTACCATACCAGTAATCGGGAATCATTTGTAACACATCAACAACTTCA -CGCAGTGCCGCCAGGCGAGAACCTTTAACACCATACTTCGCCGCTTGCTTACGAACATAA -CCAAACAGGCCAGTTAATTCCGTAGTGTAGAAGCGCGAACGGTTAGCGCGGAGATATTGC -CAGATATCAGAGTTAGCGATCAGCTTGCTATCATCTGCATGAAGCATATCAATCGCCACG -GTGTCACCATCACATGCGAGGCTAATAAACTTTTGCAGACTGTAAATCTGACGATCTACG -TCATTAACATCGTTCTTTGAGTTTTTATCGCCAGTTGATGTATCGATAGACTTCTTCGCA -GTGCCTAACAGGATTTCGCGAGGATGAGGGAGATAGATCCCTTTGTAGTCTTTATCGCTT -GTTGGTGTTTCCAGTCCGTACAGGTGAGAACCGAATACGGTTTCCATAATCATTTTCATC -AGAATTCAACCTTTAATGTTTTTGCGATCCCGCGCAATTCAGCGGTAGTAATATCCGGAA -CGTTTGTTCCGTAGCTATTCCCAAATACTTTTTTAATCTTATCACACAAATCGCGGCGAT -ACACCATTTCTTTGTATTCTTCTTCGCTACGATACAGTTGATAACCCATCCACCCCTCAG -TCCATCCGGAATTGCGCTTGATTTTAATATTAGTACAACAATCAGACCCATCTTCCGGTC -GGAAAGATGCATACAGGTACTGACGCGCAACTTTTTGTACATAAAGAGTTTTGGGGCTGC -GATTTTGTCGCTGATCGCTACGGATCCCAGCATCATACAATGTATCGCCAACTTTCACAT -CACTTAAATCAATCATTTACGTCTCCAACAATTAGTTTTTTCACAGTAGTGAACGGGAAC -AGACACGCCCAACGTTTCTTTACTGCTTCTGTTGTATGTTATCACAATGAATCGATTTTC -GCCACCCCTAACACACTCCAGATCCAAAATCTCGCGGGTTCCCTTAGTGTTCATGTCTGC -AACATAGTATTCTTCGTTGTTGACAATCACTATATCCGACATAATCAAGCGAGGTTTCAT -GCAGCATACACCTCTGATTCATCAAGCCATTCCAGATTCTGATTGAGTGATTCAATCAGC -TTTTTATCGCGTCTGGAAATAACAACGGTAGAACCTTTTTCTGCCTTCGCGATGATATCA -CCAGAAGAAGTGATGTATTCAACCTCATAATCACGGCGAGGGCTTCCGAGTTTATCACCA -GGGACTACATTCCGTTTAACAGATTCATGGGATTTTTCGGTGAATACCAATTCATTCTCT -ACATGGGTAACAATACCATCAACAGCAGAACGAGAATTAATATAAATTTTGCTAATTTCC -GCCATGAAAACACTATCTCTCAGATATCGAGCAGTCACTTTATCTAAACACTGAGAAGAC -ACTTTATCTCCGCCAGGATATACCGAGATAATCATTACATGACCCTGAACACGGGCGGTT -CCTACTTTATGCAGAATGTAAACCGTTGAACCATCAGAATCTTTAGATATCAAGATCACA -CTGAATGATTCTTTCTTTTCCTTCCGAGTTTCACCACAGGTAAAACTCACATCCAGAAAA -TCACCAACTTTAACGGCACGGGGTTTTGCTACTTGTTCACGAACACTAATAACAGGGATC -ATAATCATTTCCTCACAGTTTCAAATTCTTCATCAGATTTCCAATATACGTTAAAATTAC -GACAATCATGATCGGATGTCAACGTGTATTTTTCATTTGTTTTTTCGTCAGTGATAACCA -TAGTTTCATTCTCGATCGAGTTAACACCGTAAACGAAAACATTCTCACCACGTTTGTTTA -AAAACGCATCACCCTTTTCAATCAACTGCCAACAGGTAACAGGCAAACCACCCGGACTAA -CCGGGCGGGTAACAAGACAATAGGGATGTTTAATCATTTAAATTCTTCCATTGCATAGGA -AGTAAGATCTTTGAAATACCTTGCGGTGTTGCCTTCTGGGTTGTTTGTAATCTCCATCAG -GATAACAGCACTATCAACTCCTGCTTTCTTAGCCATGAATGAAAGGGCTTCGGTAGCAAT -AATCGTTGCTTTCATAACATCAGCTTTAGAAACGTTGATTGTATTCATTTTTCTTCCTTT -TCATTAATCACTTGGTATGTGTGTATAATACAAAAGCCCTCACGAGAACGCAAGGGCTTT -TTATTAAATTTCGTATAAATCTGGATTCACAATAACCGCACATAAAAGATCATCTATATG -TGCGGCTTCTTGTTCTAAGGTTTGCTTAGATGAATGTGCTTTCAAGCAACCCCCGTAAAG -GCGTTTACTATCTGGAAATGATCATCAAAGAATTCCCCTTGTCGTTGCACGACCTCATGC -ATCGGTAGCCAGAACGCGTCTGCTGCATCATCAGAGCCGCCCATAATACGAGGTAATGAA -CCATCGTTATTAGGTTCGAGCTTGATATATTGTGCTACAGTCGGTTTTGAGAAGTACACC -GAACGTTTCGGATGATCGAACAGCATCGAATTACGGATAGAACCACGAATAACCTTTTCT -GGTACTTTAATTCGTACTTCTTCCAGCAATTCACGGATCGCACAATCAAGGAACGTTTCG -TTACCGTTTTTGTGTCCACCCGGAAGCGCTAACGCATCTTTACCAGGCGCAAACTTACGA -CGGATTACTAACACGTGGTTATTACATACGACCACTGAATCAGCCGTGCAACAGTTCAGA -GAATCCGGATACGGATATTTTTTGAACTTGTCAATCTCTCGTTGCCAGTGTGCATCTTCA -TGGGACAAACGCTGGAATTCTTTTGTTTGTGTCCATTCATCGATAAAGGAAACCGTAGTG -CTAGGCGCATATTTTAACAAATCTTCGTCCCAGCCTTCATGGTGTTCCCAGATAATTTTG -CGTAAATTGGTCGAGGACAGATCCTGGTCTCCAACCTTCACAGATTCAACCGGAATATGA -TTCCATCCGAATGCTTTAAGCCAGTAAGAATCTTTGTCTTTTTCGTACCCGACGATCGCA -ATTCGGTCATTTCGAGTTTCATCGATTGCCATACGAACACAGGATTTCCATTTTTCCTCG -TTATAGAGATAATCCGGAATGTGAGCGAATTTGATTCTGGCTGCATCTTCAACATCAAGT -TTGCAGATAGACCAGCGAGTGATCATTGCTTGACGCTGTTTAGCGGTCAATGGGTTTAAT -GTGTTCGGATATGCATAAGCAGAACCGATCAGAATGTAAACCGTATCAGCAACAGCAAGG -GCTTCCCTTACCATTTTCTCATGACCATAGTGAAAAGGTTGAAAACGTCCAATTACTACA -GCTTTATCATATTTGTGTTTCATAACGTGCTCCACGTTTAAAGGTTAATCATAAAACAGA -CGCAATTATTAAAACACCAAACAATCCACCAATGAAACCAAAGAATAGTGAAATGAGTAT -TGTCAATACGATCTGTTTTATGTTCATTATAGTATTCTCGTTTTAGATGTCAAGCCCCCA -AAGAGGGGGCTTTAAAACATTATTTACGAGAATCGAAAATCACTTTACCCGCATAATCCG -AACCCATTACAGTTTGAGGTACGCCACCTTTATAGCGGGTAGAGTAGTTCATCTGTACAT -CCAGTTCTTTCCAGCGGATCATTTCCGGTGTAATGGTGCGTTGCAGGGCGGCGTTGGCTT -CTGCTTCTTTCTTCGCTGCATACAGACGGGCATCAGCATCACGTTCGTTAGCGATTGCAG -CGTTTTCACGCGCCTGGCGATCGGCTTCCGCTTGTTTTACTGCTTGTAATGAAGTCTGTT -CTACTTTTTGCAGTTCAGCTTTAGCAGCGTTAACCTGTTCTTCGCGGATCTTCGTGTTAG -TTACCTGTTCCATGATAACTTCCGGCAGGGTGATATCCTGCAAGAATACCTGTTTCACAG -TGTAACCGTAAGGCCGTGCATAATCTTCTACTTCCTGCTGAATTGCGATTTGCAGTTGGT -TTTGGATCTTCGCATCAAACAGGTCTTGCGCTTTTGGTACGGATTTACCAAATTCGCGAA -CAGTAGAAAGCAGTTTTTCAGTTACATACTTATCCAGTGCCTGATCCTGATTACCCGCGT -TGATACGGTTGATCGGTGCTTTGCTACCGTCGAATTGCAGCATTACGGTCATATCCACAG -TGGATTTAAATTTATCCTGGGACGGAACCTGTAATTTGTCGAACTTCATCGCGATGTCTT -TGGTGCTGAACGTATCAAACGTTGCCAGCGGGTTTACAATGTGGAAACCAGGCAGTACGG -GTTTCGGTGATACTTTACCCATGAAGGTTTCAGTTTTAACCGTACCGTCTTGCACAATGG -TATACATGTTAGGCACTAACCACAGTGCTGCGACTACGCCCAGAGCGATCAGAGAGGTTT -TCTTCGGGTTGTTCACGATAGTGTTTAAGTTCATCATAATTTCCATAAGTTGTTGTTCAA -TTCGATAGTTATTCTATCATCACATTTCACGCTGTCAAACTATTTTTAAGAAAGTTTTGT -CAGCTTGTAGATTGTTTGATAGCACAAGCCCTTAATCTCGTCCAGGATGTTCTTCAAAGA -ACTATCTACTGATTCGTAGATCTCGTTTGCTTCGTTGGCTATTTTACGGAGATACGCCAC -CGTGTCAAGCACATTTTCGGTTTTTAGCACAGGTTTGTATCTTCCCGTGATTCCTATGTG -GATTTCGGTGAATTTATCAACCAAATCCTGCATATCTTCGTAAAAACCCTCATATGCTTT -ATGTTGTGAGTATGAACCTGTTGCAAAATGTGCGCTATGCATATAGGTAACGGACATAAG -GCACATGCCAATAAAGGCATCTATCTTGCTTGAGTTCTCAGATTCTGTAATTTGTTTAAA -TGATTGCATGATGATCCCTTTATGAACGATGGATACTTGCAAACTCATACGCGACCCTAA -TCCCTAGCTTTGCGCATTCGGATTCAGATCGGCATTGTTTTTGGCGCCATTTTCGTTCCA -TGTAGTTGTAGAATAGTTCGCTTGTATTTACGCTGGGAGGGATCGTTGTGATGTATACTT -GAAGGGCCGCATTGATATAATCGTCAAATTCTTTCTGAACCGGACGGTCGGCGGCGTGTG -TTGTGGGTGTCATCATCAACAATCCGAACAGCACAGCCATTGATATGCGTTTAATGTTCA -TAACAATTACTCTTTTACTCATAGACCCACTATAGGTCTACTCCTGTATATATTTATAGC -AAAAACGAGGCCGAAGCCTCGTTATAATATTTTTGCTGTAAAGTCAATCAAGTAATGTCA -TACCAACACAAACTTCTTTCGAAAGCGCGTATTTTGTTCACGTTTTCTACGTTTTCATCC -CAACCGATCACACCAGCTTTCATACGTTTCAGTTCCTGACGTAAACGGGTACGTACTTTT -GAATCAATTTTCTTTACTGCAATAGAAAGCATTGCGTTCAGATCGCCATGAGCTTTGTTA -CCGTCGCGACACAAATTATTATCAAATCGAATGTATGCACATCCTGATTTGTGTTTCCAG -TTGGTTGAGTACCAACGTAACCCATCCGGATCAATACCATGTTGAGCATAATAACGAGAA -TACTCTTTTACTTCTTCGATCTTTTCGTTAGATGAACGGTCACGAAGAGGATTGTATTTC -TTACGGTAAGTGCGACTCATAATGATCTCCTTTTGTTTATGCTTCCACTGTATCAGGGTT -GTTCTTTAGTTGCAAGTAGTGTTTTCGACAAAGTGAAACATATTTGTCTTCTGCCCCGAT -CTCAATCTGGTCGCCATTAGCAACAAATTTGCCATTTGCATCAATACGGGCAACGGTAGT -TGCTTTCTTTCCACAATAACAAACCCCTCGCAACTCCCTGATCTCATCAGCCAGCGCCAG -CAACATATAAGAACCTTCGAACAAGTTCAACTGAAAATCGGTTCTTAGTCCATAAGTCAT -TACGGGTATATCTAATTCGTCAACAACCCGACACAGATCCATGACATTTTTCCTGGAAAG -GAATTGCGCTTCATCCACAAACACGCAAGAAACCAGATTCGGGCTGTCTCTATAAAAATG -ATTGTTGTGAACATCATAATACAAGTCCATATCAGGCGTGATCATAGTGCATGTTGCTTC -CAACCCAATGCGCGAAGAGATACTCTGTTTACCTTCTCGCGTATCAATTGCTGGTTTGTA -CATCAGGATCCGCATACCGCGTTCCTGGTAGTTGTATGCATCAGTGAGTAAACGAGCACT -CTTGCCAGCATTCATTGATGCATAATGAAAATACAGTTTAGCCATTTATCCTCTCAACAA -AATCTGGGGTATTCTGGAATTTTCCTTCCCCTTCATGGTTTTTGCATGTTTTGTTTGAAC -AGTAGATCCACCAATCCCACTCATCATAAGGGGGTTTGGTAATGTTCATTACGCAAATTA -AAGGGAAATGACAATCCCGACAACGAACTTTTTCTATAATGTGTGCGTTAGCCAATTGAA -AACCATCCTTTACCCATGAGTTTTTCATTATGTCGCGCAAGATACTCTTTGATTTCTGGC -ATCCGGATCGCAGTGTCATACTCTTCTTTCGTCATGGTATGATTTGCGCAACCCATACAC -CCGCACACCTGCGCGTTACACCAACGGAGTGTTCCATATGTCGCAATCACCTTCATTGCT -TTAGCTTTGATTTTGTCAGTCATGATTATAACCACTCATTTCGTTATCTTGTGCTTGATG -TATATCAAGATACCACATATTGATTTTACTTTTCAGTTCGTCCATTTCCTTACTCAGACA -ATTGTCAACGATACATAGAACATTAACAGTTTCTTTACGCTGCATAATGTTGATGTTATT -CGCTTTCATCGCTTGCGCCAATGCATTACAGGTTTTAACCAGTGCGGCGCGTTGTCCTTT -GATTACGGTGATCCGTTTGTTCGCTTTCTTAATCTCCCGACCTGCTTTGATAGGATCCAT -CATGATTAATTCGCCTTACGAGGATCGAAATGAACGACAATGATCGGGTAATCACCAGTC -ACCTCATTAATAATGCGCTTAATGAGTTCCCAGTCGCCCCCAGCGAGGCCAGCACCGATT -AAAGGTGTGATGATAGGCTTTCCAGTCTTAACGGCGTCAGCAAGCCCTACAGCCTGTTTA -AAAGCATTGCCGATTGCGTCATAATCGACACGCGGCCCAGGTGTCCAGAAATCATATTGA -GTATATGCATTGAAAACAATGTTGCCTTTTTCGCCAATGTAAACAGAACAAGTTCCGAGC -TTATCACGGGAACCTTTTAACGTATTGGCATCAACTTGAAATGCACCAGGAATACGATCG -CGGATTTCGCGAGCAATACCAGCGCCCATATTGCAATAGCAGTTGCATCCGTGGATCAAA -TGGCCTTCACCGTTCAGATACATATTGACAGCATTACCTTTCACTTCTTTAATGATCATT -TTTATTTTTCCGATATAGTAGGGCCACAACAAGGCCCATCAAAATCACAAGGATCCACAA -TACAGTGAATTGAACCCCTACGCTCATTTTCTCGCTTTCCGTTCACGGCGGCGATCTTCT -TGATGACACATATATAAAACACCACCAAAAATTATAAAACCGATAACAACGCCTATAAAG -TATCCAGCACTAAACATAGTCATCATCCCCGCAATAGTAACAAGGCCCAGTGCTCTCATG -CTTACCAGCATTGTACGCCAAGAACACCACAACCGCCGCCATAATAATAAAAATCCAGAT -AGCCATTAGTAAAGTCCTATGCCAGCATTGAATTCGTCAACCAAATAAGTACGGAACTTT -TCGCACCGTTCCTTATTTGGCGCTTGTTTGCATAGATTCATCATTGGTTCAGACTGCAAA -AACTCTTTTTGTTTCAGCAACTTACCGCGTTTATACAGGTGAGCATTTTCCTCTCCCCAC -ATATAAGCAACATCTAACTGTTCTGCGATCACTTGCTTACATACTGCGACATCTTTGATA -TCACGATTGTTGCATAACTCATCCAGGCGAGCATCACCCGCGTGAGCAAATCCAGCAACC -AGAGTTAAAAGCAGTGCTAACTTTTTCATGATGATTCCTTATTCATCCTCTTCGATAGGG -GTATAATAATGCGCATTGCAGATATACGCAAGAACTTTTTTCAGAGACATATCCGAGAAC -GTCGGATCCTGATTTCGTCTCATCCCACTACCAGTTTCAACAGCCCAACGTTTGTTAGCT -GGATTGTATGTCAGCCAGTAACAATCCCATTCAGACAGAGTATGTTCGAACAGATCGAAA -CGCTTACGCCCATTTGCTTGCGGCCTGACAAAAGGTTCAACCATTTCTAAAGCGGTTAAA -ACTCGATTAAGGTTTGAACCGTCTTCATCCATCGCGATCCGCAAACAGTATTGGTTAATG -TCCGGATCCATACCATCGATACCCAGACCGATAGATTCGAAAAATTTTGTTGCCGCGTGA -TAAGACACACTGGAAGAACGATATTCCAACATCACGGGGATCTTTTCCCCGTCCTTGACG -TTGTTAATGATATCCTGATCGATGAGTTCAATCAGGTCTCTTTTCTCTTTAATCAACGTG -GAAATTTCTTCTTGCAGTGGGGCTATCTGTGCATGAAGTTCTTTTATCCGTTGATCAATT -ACGGTCACTTCGAACGCTAAGTTTCTCATTGTACCCATTCCCCGTTTTTGTCAATGTACA -TGATCCAATCAGCAACCGCCCAATGGGAAGTATTGCCTTTCGGAGTCGCCACGATGTAGG -AACCAGCTTTAAACAGTACGCGTTTAGTTTCGTTCAGGATCAGGTCGCTCATAATGTATT -CCTCATTTAACCAAAGTGAATCGTGATTCATAAGCATCGTTCGGGCGCTCATACACAGTA -TCCGAACTTGTAATGACAGTGTACACGGTTTCTTTCACAAGATCCATGATTTTCTGTGAT -TCTCCCCAGACATTGATACTAAAATACATCCCATTTTTAGGAATAGGATTGTATTCCATA -TCATAATACATATCCATGAGTTCACAAATGAACAGGCGGCGCTGTTCGTTATCATATGTG -AAATAAATGTTAAAACAATCGAGAGATTTACTCAAAGTAATCTCTTTGATAACGATGTTG -TCTTGTTTGCTAAAATGTTCGCGGATTGCTTGCACACAACGCAGCAGGTTAGGGTAATCA -TATTTTTGTGAAACAATGACTTGATGTGAAACGCTCATAATGTATTCCTCTCAATTAGAT -GCATCCATAATAAAAAAGCCCCTGACCGAAGTCAAGGGCTTTTTGTCAAATGATTTGTTT -TTCTTCTAACAGCTTCGCGGTTGTATTAACCATACGAGCATAATCACGGGCTTCTTTCTT -TGTATACTTGAAACCAGCGTTATAGCTCGCCAGCGCCTTTTTCAAGTCGCCTTTGTGGTA -ATCAAGCCAGTACTCCAGTTCATAGATCGCATACTTCGATCCACCTTGAAGAGTTTCGAG -CTTTTTGATTACTACGCGTTTAGGATATGACTTATCCATTCGTGCGCTGGCGCTCCTTGC -GGTAACTTGCCAGCATCCATAAGCGTGATGGCCTTTTTTACCTTTACCGACATTCTCACA -TGCGCGAGACTCGATCCAGACAATAGCCGCTAAATGATAACCTAAACGTTTAGCCTTATC -TTTTTCTACAGGTTTTGCAGTCTTCAAATCATAGTTGTGTCCAACTCGATAAGCATACTC -CAGAACCTCTTTCTGCTTCGGTGTGATATTATCCAAATCCTTGATGTAGGATGGAGAATT -TTTGTTTGCCGGAGGCTTCACAGTAGCCTTTTGTAAAGGCAATTGATGAGTAGGCAAATC -CGCAATGAAATCCCCTAGCGGATCCGTCGCAGCGTTGCCAGAAAAAGAGCACAAGAAAAT -GCTGGCAGCAATTATAATTTTCTTCATTTTAATACCTATGTTGCAAAAAGAAGGGCAATA -ATACACCCTATTTTATATTTATGCAACTATTTTAGATAGTTTTCGCGTCACGTAGTTTAT -CAGCGATAAACTCAGCAATGTTATAATTTGAAATAGCCTTGTTAGGATCGTATAGCGCAA -TGATTTCATCTAACGATACCATAACGGCATGTTTAAAGTAGACGCTCCAGCTAGTAGTAA -GGATCTCACTGTTGTCAAATCCACAATCAGGGCTGAACAATGCGCGGTATTTGTACCCAC -TGTATTTCGTCAGCCGATTCGTGCTGTGCGCATCACTGGTGATCAGAAAAGTCCCCTGGT -GAGTTTCAACAACGAAAAAGTATCCGAGGCGTTCTTTGTTGTCCAGCATCTTTTCAAACT -TGCGATCGGTTTCTTCGCGAACAATACGAGAAGTCAGCATTTCCAACACTTTATCGTATT -CGGGCCAATCATTCTCGATCACGATTGCATCAAACGGTTTCTTACCATTAATCCCGCGCC -CGATTTCGATTTTCGTGCAAATTTCGTTGAACGTTTTCAAATCTTCTGGCGTCAGTTCTT -TAAGATCGCTCAATTTTGCTACATAATAACGTTTTTCTAGTTTCATTTATGGAAACCTCA -ATTCAAAAATAATTTCACAGAGTTACCACATTTGGGACATGTGATAAATTTTTTCACGAC -ATAATCAGCAGCAGAGAAAAATCCATTGTAAATCGCTTCTCTCTTTTGCTGTATATCAGA -TAGTTCATATTCTAACCCACTTTTACAGCAACTGCAAACAGTAATTAGTTTTGGGCTATA -GATGACAGTAATCATATACACCTCACAAAAAAGGGGGCTTTCGCCCCCATCATTAGAAAT -TGTCTTCGACAAACGCCGCGAGACGGGAACGATACACTGTATCAAGAATGATATGGCTTG -AGTGTTCGTATTCTTTCAGCTTTTCAACAGCCCATACAAACCCGTTGTTAACGGCAGTGT -TTCTAGGGTTGTCGATCTGCTTAATGTTCCCGCATAGTATCAGAAGTGTGTTCTCTCCGC -AACGAGAAATAATAGATTTAATTTCGTGGTTGCTAAGGTTTTGACATTCATCAACAATCA -GCACAGAACCTTTGCCCGGATCCGGATGTCCGATACTGCGACCACGGAAGTAATACAGGC -TAGGGAATTGCACCACCCCTTTTTCAATCAAACCTTCAATGTATTTTTCAGATTCCGGAT -TATCCTTAAACAGAATGTTCAGGCTAGTAATACAAGGTTCGATAGAAGGCCGGAGTTTTT -CGCCCAATGTACCAGGAAGGAAGCCAATTTCACTTGATAACGGGCTATCTGACTTCACAT -ACATCAAGTTAGCGTAATGTCCACTATTAACCAGGTGCATAGCACCGGAAACAGCAAGCA -TTGTTTTACCAGAACCAGCGCCGCCCATAATGGTAGCAACATCGATTTCATTGCTCATAA -TGGATTCAACGAAAGCCGCTTGCAGAGAATCACGGGGCTGGATAGCTTTCATGAGTTTGC -GTTTCATAGCCTGTTCGTGCTTAACAGGTAAGACATTCAAGCAAATCTCATCAGCAGTCA -CCACACGCCCGACTAACTCACCATTTGAGGTAATGTACTGGTTAGGATAAAAATCTTCGT -CAGGAAGCGAACTGTAAGTGATTTGGGCTACATTATCCGTATATCCCAACACTTCCACGG -TATCCCAGAAATCAGGGATCTCTACGTAACCGGAATACAATACATCGCTATCTTTTAACG -TATCGTCGCCAGTATACTGTTCTACCTTACACCCACGGGACATTGCGATCAGCAACATCA -TAATATCGCGAGTAACTAAGGTTGCATCCTGTTGCATACAAGTTTCAATGATTCTTTCGT -CTTGCTTGTCAAGAGCAAACGTTTTGTTTCCGACATAATCAACCACTTTAAGGGTGATAG -TGTCAGACAGTGCTGGGGTTGTCAGGTTTAAAGGAATACCTGATTTCGTAATCGCATCAT -ATGACTGACCGAAAATAACTTTTGACAGAAGCCGGATCGCCAATCGTGCTTCGTGCGCTG -TTCGTTCTTTCGTTTTCAGGTGATCTAATTCACCCATAGTAGCAGAGGTAATAATGATTT -CTGTACCAGGTTGAGTGAATGAATAGATTGAATAGGGGTTACTAATCAAAACATTGGTGT -CTAATACGTATTTTGACATACATTAACCTTATGTGGTTTCGTTAAAAAATGCACCGAAAA -CCTCTTTTGCTTTCCGGTTATAAACGGATTTTGCTTCTTCTGGAGTGTTATAGTACCCCA -AAAATTTTCTTTTTCCATCTATGTTTATCTGCGCTTTGTACTTCCCATTGGCTTTATGAT -AAGAAACACCTTTCAACCCTGTACTACTGTTTGAGTTACATTTCTTTTTCATCGCATTTT -GCTGGTTCGTCGCTTTCTGTAAATTTCTTGCTGTATCTCCATTCTCAACACCATATACAT -GATCTACGATAGGAGGAAGATAACCATTCTCAACGTAAAACACTATTCGGTGTCGCAAAT -ACATAGAACCTTTAAAATGAATTTGGGAATACTCGTTTTTGCTTCCGGCTTCACTTCCAG -GAGACATAGGGCCGCGCTGAACTTTCCAATACACTTTACCTGTAGATGTATCAACATCTA -CAAAATTCAGAAGAGATTCGATCCCTTGAATCTCTTCATGTATGGTTCTTGATGAATAGC -CATGACTTTTCATTACATACCCAGCGAAATTACGTGAATATATGCTAATGGATGTTTCTT -TTGTACACAATGCATGAGTGTATTATACACAATGTCCATGCGTTCATTGCGCGTAAGATC -ACACTCATCAAAAATAAGGTTTATTGCCTGGTGCTCTATTCGACGTCCACGGAAATGATT -AAGAATTGCCCCTTTACTGGTCAATACATCACATCCGGTAGCACCATTTAGCTGTTTGGC -GTCTTGTGCTGCATTTAACGTATGCGCTACGTAAATGTTAAGGGAACTATGGGAACGTTT -CATAAAATCAAACGCGCCTTTAGTCTTTTGCGTTTCTCTGCCCAGATCCAGCCTGGTTTC -GAATACCATAAAATCGTTAGGGCCGTAATTATGCGTTGGTTCTTCCAACTCTCGCATAAG -ATGCATCTTACGACATTCTTCAATTGTCTTTACATAAAATTCACTATTCATGTTTTACCT -TTAAGGGGCCAAAGCCCCTTTGTTACGCTAATTCCACATGCGGGGCATCAATGAATTTTG -TTTCGATCGGAAGGTTCGGATCATTTTTCCAGTTGATACCAAAACGCAGTTTAACACCCA -GTTCATCACCTGCTTGTTTAACAGCATTCAGGACAGGCAACCACACTTTAGGGTTTGTTT -GCCAGCCTTGAGGCAACACGCTAGGATACAGATCCACAGCATCACCCGTGATGTGTTTTG -AGTTCATTGTTTGAGATACACCCTTACGGACGTTCTCGCGCTGTTGTTCTACAGTACGCA -GACCTTCACGTACACCAAAATCAACAGGAGACAGTTGCAGAGCACGTTCTACGACTTTCA -CCAGTTGAGGTTTAACACCTTTAAGGTTGTTAAGGCTTTTTTGACTGAATTTAAACATAA -ATCACCTCTTGTAAAAATACCCTGTTTGGGTACACAGGGTATTTATGGTTTAAGAGGTTC -GATAATTAATAATCGTAAAGATCACCGAAGCATTCTTCAAATTCACGTTTACGTTTCATC -TGTTCTTCTTTTCGCTCTTTCATATCAGGAGGAAGACGGTCTTCATTGACTTCATCAATG -TAAGCCTGTGCATCCTCTTTGGTCAGGAAGAAAGCATGGAAGTTATATCCGTTGCGCCCA -TTCATACTACGATCGTCAAGAGAGAATTCTGTGTGACATTCCCAGTCTTTGTACAGGGTG -ATGCATTTAGCAAACAGCCCAATACTGCGATGCATATAAGGGAAGCCAGTAACAATCATT -TTGCTACCCATTTCCGCCTTTTCGCCATTCACACAAAATACTTCATACATGATCGCGCCT -GGTTTAACATCTTTCTTAACAGCACGTTTTTCAAAAGCACTTTTCATAATATATTCCTCT -CAATTGGTGTAACTACAGACTACTGGTTTATTTTCTGGATGTCAACAAGGTTTATCGTTT -TTTGACGGAAAAGTTAGAGTGAACAAACGATCGTGAAGGTTGTCTATCCGTTCACAAGCC -TGTTTCAGTATGATTTTATCACCATCATTTGTTGTTTCAATGCATCCAAGTTCATCGGCG -TCAATGTTCACTACATCGCTCATCAATGAAGCAAACACGTTAGCATCAGGATGTAACAGT -TCTTCTATTTCGGCCTTCATGCCGTCGTGTTCAGAAAGGATATCAATAATATCGCGGGTT -AAATCTCCCTGGTACGGGAACCCTGTTTCTAAATGGTTAATGATCCTTTGTGCTTTCGTA -ATCATAATTTTACCTACAAAAAAGCCCCTTTCGGGGCTAGTTAATTAGAGTTCACAGCAA -CGGCACACACCGTATTTTGTAAATGGAGCATCACCGCTAACGTAGGCCCAGAAATCACAT -GCTTCTTCGGCAGTATCGAAGATTGCAGCATCATAGAACCCGTGGGCTTCGTTACCGTTC -TCATCGATGAAAACCGGAGTCCAGATATTAGGATTGAAGCAATCGTCAACAACAACCCAA -CCTTCTTTAGCTTTCATTGCTTCTTTGTTGGCTTCGATGTGAGCTAAGATTTCGTTCATG -ATGTCCATTTTTCTCTCCTAAAGTGCGTTTCGTTTCGACATGGCTATAGTCTCATAACCC -CGTATCTACGTCAACACTTATTTGAAGCGAATTGTGCTATTTTTGAAAAATAGTCCAGAG -CACACAGCACCTTCAATTTTCACCCCTGTAGGGCTTTTAGCAACGAACCCTGTTGCGTAG -GTGTCTTTCTCATCACATGCGAACCAGGCGTGGCCTGTGTACGTGATATCGCTAAACCCG -TTAGCAGTCAGAATACGTTCGGCTTCTTTCTCATCGGTGCATCCGGATTGTGCTAAAACG -ACAATAACTACTAACACCAAAGCAATAATATATTTCATGTTAAACTCTTTTTAAGTTGGT -TTTACTGGCTTCAATCCAGTACACGGGATCAGAATAGTTACCGCACATACCCAGTAACAC -AGTTGTACATCCTAAATGATCGGAAGGTCTCAATCCATCAGGATGAAAAGGCAATTCGTT -AACACCAATACTGGTAGCAAAAAGAGCACCTCCAGTACTGTAAAATGTTTTGATATGATC -GTATGCATCATCAGGCCACTGAAAACGATAAGTTTTATTGTCAATGGTTACTGTATACAT -ATCATATTCCGTAAACAACGGATCTTTTCCTTGTGTTGCCCCATACAGAGCGCCGCGCCA -TTCAACCAGATTTGCTTCAATGTCGCTTACACAAATTTCGTTACCCATACGCAAATCATG -AAGGATCCCTTCAATGGTACGAATGGCCCCACTAAGTTCATTAGTTAACATAGAGTTTCC -CTTAAATCGGTTTAATGGTTTTCAGGTGTAGTTTAGCATAAAAAGAACCAAATGAGTTAC -CATTATGATCAAATTTATAGTTTTCACTCTTCCAGTATTTCCCCGATTTCATCAGGGGAA -CACGCTTCTTACCTGCTGTTATCGTTTCAACCATTCCGGTATGAGTAAATGTCATGATAT -ACCCTCTTCTTTCAGCACTTCCCAGATCAGTTTATCAAGGTGCATCAGGTTCCACATAAC -CGAATCATAAGAACCCAGTGAGCGGGAGTAAATCACTCCCCATGAACGATAACTTTTCTG -GAATGCTTCTGCACTATCTACATCATACGGCATATCATCACCGGATGCAATCAAAAGTTT -AAGGATCATCAGACTGTTCAGAAGTTTTGAACTAGCGTCTTGTGCTTGTACTTTTGCACA -ATAATTTTCAATAATCGCTTTTGCCTTTGGTTCGGTGATGCGTCCATTTTTGCATCGCTC -TTTGTACACATACATAAGTTCATCGATTATTTCTTGCATATAACGCCTCCCGTTCTACTG -CTGATAACCCGCGAATGTAGTTCTGTGATTCTCTATGCGCATCTGCTACAGCGCGTCCTG -CTACAGCGCGTCCTGCTCGTTCCGACGCCAGTATATAAGTAACAACTTCATTACGAATGT -GCCATAGGTAATCCATCATTACAAGATCTTCTTCTGTATGAAAACCTTTAATGTCACACT -CGCAGCAAATAGCGTCTCTTTCCGATAGTGCCAGTTGCGCGGATTGCGCGTTGATTGGCA -TCATACTGTACTTGTCGATCAAACTATCCAACGTTCGCGGTTTCACAATACCAACTGTTA -CAGGAACAGGACGAAGAGTAGGTTTATCCGAATAAATCATAGTATTCCTCTTCATCAAGT -CTAGATGTCAGTTTAGCGATAAAGTCGAAAATGTGTTGTGAACCATCTTCAACATAATGA -CGGTATGCAAGCAAAGTTGATACGTGACACATATCGACCGATTCAACTTTGATGCTTGAT -GCGATCATTGTATCATCATTTCCATATCCGTCAATATCACGGAGTACCATTTCTTCAGTA -GGGAAACGCTGAAGGAGTGACGCTTCCCGATCTGATACCAGAGCAACTAAGCGATTATGT -CGCGTGTTGTACGATAATATTTTCATTTCAATTCCACCGCGTAAACATCAGGTTCAGGGG -CTTTGTGTACGCGCATATCTTTACCGCATACCGCATAAGCCGGACAGTTACGACAACCGT -TATGATCCTTATTACCGATCAGTTCATTACGGAACTGTTTGGTTTTCGGATGTTCCCAGA -TATCCTTAATGAAATCGTTCGCTTCCAGGACATTCAAACCTTCTTCCCAACCACCTTCAA -CCCAGCGTTCGGTAAACGAGCAAGGGAAGAACTGACCACGTTCGTTGATGTAAGAGCTAA -ACATCGTCGCTTCACAGTCTTCGGCGTATTGCTTGTACTGTTCGAAGTTCGGGTGTCCCT -CCATCGCTTCAACGAAAGCGGGGGCTGAACAGCTATCGAATCCAAATCCTACACCAGAAT -CGAGGCAATATTCAACAAGTTTTTTATACTGTTCGCGGGTAACGGTGTCCCAGTTCTTAC -CGCGTCCCTTTTGTTTCAGTCCCAGGAACACGATCGCGTTTACTTGTTTCAGGCGCGGAT -CATTCTTCACGGCATCAACCACGTTAAACGCGTCATCATAGGTTTTCGAGCTAACCATGA -AATGCAGGTTGATTTGCTGTTGTCCGGCTTCTGTCAGGTTCGCTACGGAGTCGAAAGCGA -CATCAAAGCCAGCGTGTTTATAAACAGATACCGCAACAGCCCCAGCAACCGCCGCTAAAC -GCGCTGCAACGTCTTTTGATACATCAGCAATGGTAAGGTTCGGTACAATGCCTTTAGAAC -GCGCATAGGCCATCATATCGAACATATCAGGGTTTGTTTGCCCCTGTGCATCAGCACCGA -GTGCGCATTGAGTCAGCCAGGGCATTTTGTCGATGATTTTTTTGAAGTTGGCAAGATCCA -TGTTGAACCCGTTCGGGTTATTGGACTTGTAGCAGAACCCGCAGAGTTTACCCGCTGGCC -CGTTGCATTTAGTTGTGATCTCGATATCGAGAATAAAAGGAAAATGACTATAAATAGGAT -CGTCAGCAGGAGTTTTTCCCCAAGTCATCATATGACCTGTTTTCATATCAAAATTAAAAT -TAACCTCTTCGGAACGATAGATTTTCTTTCCTTTCGCTTCCAGTAGAAGTCCAACAGGCG -TTTTGATATGTTTGGCGTTTACTTTAACGTGTCTCATAGGAACCTCATAATGTATTACGT -TTACAGAATCACAAATGTTATAGAGAACAAGCACTATTATGGATCAAGAAAACCTAAAAA -GTCAATGCTTGCTTCCGACGATTTAGGGAAACACTATTTCAGTAGTTCCCGTGATAGTCA -TTTCATCCAAGATCAGAAGGAAAATCCAGGACACTACAAATATAAAGTAATCGTATCTGG -GTTGTCAAGGGAAAAGGCGATGAAACTTGAGAAAAGGTTACACGAAATCTATAAGGTGGA -CAAGAACCCACATTTTTATAACAAACACATACACAACAGTGTTGATTTTTCATGTACACC -AGAAACAGGAAAGAAGATTTCGCAAACACACCAGAAATATGCAGCAAAGAAAATTTCAGA -ATCACATAAAAGGCGATTCAAGGAAGGTATAGCATCACATAAAGGAGAGAACAACCCACG -ATACAACGATCATCGGTCTTATAAAGAGATACACGGAGAAGAAAAAGCGGATACTATACG -CAAAGCACAATCTGAATCAAGAAGAGGAAAAGGTAATTCCCGCGCGGTTACGTGGAAATT -TACTTCCCCTAATGGAGAAGAATTTTTAGTTGAAGGAGAATGTAAAAAGTTTTGCAAAGA -CAGAAATATTTCCATGCGTAAACTGAAAACCTATCTGGGTGAAGTCATCACAACATGCGA -TAAACCCTACGATATCTCTAAGAATACCGTAGGATGGAAATTAGAAAAGATTAGTTGAAT -CTTCTTTTACGTTCGTCAGCCAGTTCTTTTTTGTACAGTTTAATGTACTTCCCGTTAAGG -GTGCGAAGCTGTTGGAAAACCTTGTTACACAAAGCACGTTTCGCTTTGTATTCCGGCGTA -TTACGGATTGATTCGACCGTCATACCCATTTCGTTTTTAGGGTACGCGCTCAACTCCCTG -CCGATCTCTCTGTGCCAGTTGCTTAACTGATCACGCTGTGCTTTGTACTCTTCAAAAGTT -AACATAACAATCTCCGGTTTCGTTTCTATGTGTGTAAGGTATCATTACCCTACACACAAC -GCAAGCGATTTTTATTTTCCGTAAAGAACACAATATTCTTTATATTTTTCACGGGCTTTT -TCTTCATTACTAAAGGAAACTCCCATTCCAAAATCAGAACCTTCGAACGTAACATCCCAC -GATTCATACCCATCTTCCGAATAATAGGAAAGTGTTATTTTACGATCTTCAAGAACAAGT -TGTTCAACAACAATATCAATTTCAGTAGTCATAGTTCATTTCCATAATCTTTTGCTGCAT -CTTCGGGGGTTGCGTCCAGTCGGTAAAGCTCAACGGCTAACGGACTGGGTTTGATTTCGC -GGTTCAGGATCTCACTGATACCGCGAAGGAATTCGATATAAGGACGGAATCTCATTTGAT -ACGTACCGCGTTAAAAGCCTGGTTGCGCAGTTCATAAGCCTGTTCAAGCTGTTCTGTAGT -GAACAGAGGACTATCGGTGTTAGTGGTGAAACTGCAAATGGTTTTGTTGTCGGCGTTAAC -TTCTTCAACAACGATTTCATAACCCCAGATCCCGCTGTACTCACATTTCACGTTACGGTA -CTTGATGTAAACCGCAGCAACATCTTCTTTTTTGTAGTTCCGGCTTTTGTAGATGATTTC -CATGATTTCCTCCTTCGTTTCGATGTGTGTACAATAACAGATCAGGGTTATCGAGTTTTA -GCAATTTGTGCTAATTATGCCATTTTCTTAGCGATTTTCCAGGAGGCTTTGAACGCCGGA -ACGTCTTCAATATCAATCCAGAAACCAGATCCGAAACCATCACTATAGCAAGGGCAACCG -TCGCAGTAGTTTTCCCAGGTCATCACTTCACCACCAACAGAAGCACCAGTTTCCATAGCA -CGTAATGCATCTTCAACTTTTTCCAGTTTTTCGGCGTTGTCGTCGTAAATGACAAAGTAC -CATTTACCGTTGTATTCGTTACCCAGTTTGATTGATTCGCGAACAAGTTTCATGATAATT -TCCTTTTGTCTGTTTCGTTTCTATGTGTGTAATATAACAAAACCCCTCACCATAGGCAAG -GGGTTTTGCAAAAAATTATCGTTTGATTGGGGTATTATCTATAACCCTTTGAATTTCCGA -ACGCATCGTAGAATACTGACACAATTCGGTAAGCGCCCGATCCAGGTGCATCATAGCATA -AGAAAACTCTTTTCCGCATTTGTCACATCGAGCGTATAAATGTAAATGGATGCGCCCGAT -CCCATCTACCTGACTATATTTCTGGAATATGTAAGGATCTGCACCTCGATAGCCAGTTGC -TTGATGCTTACACTCTCGTTTGAACCATGACATTAATAATATCCTTGTACGTTGAAGCGA -TCACATAACAATTTTCTTGTTTGGTTAGTATCGCTTTGGATAGAATGCAACATAGCGCTG -AACATGTTTAGGTTATTTTGCATCATTTCCGCGCTCATGAGAACTTCCATACGCGCACGT -AAGCGTTTATTTTCTTCTTCCAACTCAACCATACGGTCATATGCTTTTATGCGCTCTAAG -GGCATATCAGGGCGCTCTTTGAGTACGCGAGCACGTTCAACCTCACAAGCATGATTTGCT -TTCCAGTGGTTCGATTCCGCTTCAAATTTATTAAGGCGGCGGATCTCTTCAACCAGCTTT -TTGATCATGTGTGGATCCATCATGTCGATGAATTTCATCAAGCAATTGGATTTTGTTTGG -TTGTCAGCAACAGACCAAGACGAATTATACGTAACCGTAAACGTGCGGCCCATTTCATCA -ACAACCCCGATCTTGTTATCATCGGTGATTGTAGCCGCCCATTTCTCCCTCATGGCTGTA -CAGGTTCCGCTGGCGACACTATGCAACTTGTTTAATGTTGCGTCATCAAACACAATTTCA -TCACTCATGTATGCCTCACATAGATTTCAAAATACGCAGAAGTGCGTTAGTAAAGATATC -AGGAACACAACCACCAAACAACTTATGATTCATCAGCGCTAATTTCATGCTGTGATTTTC -AGTATATCGCCCGTTATGGATCCCCCAGGCAACGACATTACCAGGTTCATGAATAACTAA -GTTAGTGAGAGTAACGGTCATGCGCTCTTTATCATTGATAGAGAATGAATAGCGATAACC -GGATCCGATGTCGCCGTAAAGGTTAAGGTCTTTCAATTTCCCTTGCTCATGCAAGCGTTT -CATATGAACTGCACATGCATGATTAATAGTCATTTCGTCATCCCTAGCCCAGTCATCAAT -ACCAGAGGTATAACGAATATTGAAGTAGTTAGTCAGTTCATTTGATACGCTCATTAGAAA -CCTCACTTTTATAAAATTCTTTACCAGACCCATTACAGCTACTGCATTTGGGGGAACGGT -TGTTATCATACCGCCCCGAACCGTTACATGCAACACATTTCCTTAATTTCCAGCCATACA -CGAACCTCATGTAATAATCGGTTCGTGCGGCCTTGCGTTCATGGAAATTCATGCTTTGTA -AACCTGAACCAACCACATTTCGATGTTAGGCGCGTAAGTAACGTTTACCTTATGCATAGT -GCGGTATTTGTAAGCGGCTTTGTACGCATCGAGTTCAGTCGGAACACAGAAAGAGAAACC -GTTATCATAGCGTTCTGCGTTAGAAACTTCACAACCAACTACAGCGGCAATGTTTTTATT -CATGTTCATGATATTTTCCTTTCTCTGTTTCGTTTCGATGTGTGTAATATAACAAAGCCC -CTGCACTAATGCAAGGGCTTTTTGATTATTTTGGTAATTTTTCGATTGTTGCTTTCAACT -CATTGATTTTATTAAAGAGTTCATCGCTATATTTCATCAACTCACTACGGCGTTTTTCGG -CCCACTTGATCAGGAATTCATGAGAATCTACACCATACGTGTAACCTTCTGCACTCAGTT -GAATACGAGCACGGGAACCATAATCAACAGAACTTTGTTCAATGAGAAACTTAACCGCAT -CAAGCAGGGCTAAATCTTCATGACTTACCATGATTCCTTCTGCCTTTGGAAGATCCACAA -CTTCATCCTGAATGAGTTCACGACGGGTTGTTTCTTCCAGTGTTTCATGATTCTGGATCA -TCGTTTCGACCGGATCCTTTGCCACGGCTGGTTTGTTTTCACCTACTTCTTCCAAAAACA -TCAACATCCATCCAGGAATTTTAGTCCAGAAATAACTTTGTACTTCACTGGTGCATGAAT -TTCCCAGAATGTGGATCGCGTTACCATGCATATCAACTTTATTGATATAGATAACGTTCT -GCTGTTCCTGTCGGTTGCTACCATAAGAAAGGAAGCGGCGTAACGATGTGTTATGACCAT -ACTTCCCTAAATCGATTTCAGCCAGGCAATCAATGATCCCACGGTTAGAAACCTTGTAAC -GCTTACCCTGTTTGAAAAATAACGATTCTTCCAGGTGAGTAGGGGTAAACTCTTCATAAA -GAACATAGAATTCTTTAGGAATTTTGCGCTGAACCAGGCTCAGTTTACAATTATTAGAAG -GAACAATAACAGCGTGAATGTTTCCTTCTGCGTCACACATAGCTTGCATTACTTGCGGAT -AGTAAAGATGGTCTTTCTTGCAAGTATAGCTATGGATACGACTCTGCCGTTTTTTGAAGT -ACCATTTACCAGTTTCAAAAGGCGCTGTTGTAAAATTCATTTTGCATTCTCATACATAGT -TAAAATTGCTTGCATATGTTCCGGTGATTGTGGAACCCCTGCAAAGTTCACTTTCAAAAA -GAAATTCAACCGATCTTTTATGTTGCACTCATCGAGTCCAAGCGCTGGTAATGAAATGTT -TTCAAAAGCACGTTGTTCATGTCTTTCCATTTCACCCCAAAACAAACGGGAACCGTTAGG -CATCGGTATTCCAATTTCATTGTTCCAGAATTTCATGATAGTTGTCAAGCGTTGTTTTCC -GTCGATGACTTCTACCCATCGAGATTCGTTGAATTCACTATCAACCGCGATCGCGATGAT -ACCGCAAGGAAACCCAGTAATCAAAGTCTTCATGAAAGCATCTTGCTCTTTCTGCTTCCA -CACGTAGGGCCGCTGATAGGACGGATTCAGATCCAGATCGTTGTTCTTGAACCAGTGAAT -GTAACTACCAACCATGATCGCATGATCGCGACTTTGGAAAGTTTTTAACTCACGAATACG -GTTTCTTACAATTTCGTCTGTCATTATAAAATCACCATCCAGTATATAATCGTAATCATA -ACCGCTACAGTGAAACACATTGCAGCGTACACCCGCGCATTATGAACCTGTGTTTTCAAT -TCTGCGATCTCTTGATCCTTTTCGCTTTCAAACTCTTCGCGAGTACCATAATACCCAGGA -TCGTTAGCAGTTGCCAATCTAACCGCATCTTTTTCAACCAGCGTTGCATAACCGCTTTTT -ATTTGTGTCGCCCCGTACCATCCACCCCGATCATTGTTAATGATCAGATGGTCGCCTTTT -TCGTTATGCTTTGATTCACCAACGACAATAACCCGCTTACCATTCATAATATGATCCTCA -AAGGGGCCGAAGCCCCTATTTTGCGTTCTTCTGTAGATAATCTAACAGATTTCCGCTTTG -ATGTAAATCCAAAACTTTAGAAAACTTCTCTGCGTTTCTTTCGTTTGTGAGTTCGTCGAA -ATGCCATACACCATCATCAGCTATTAACGCGCCAGGTGATGAACCTGTTTCTACATCACG -GGAAAGCGCAAGCCCCAGAGGGTGTAAGATTTCGCGGTTAATGCGCCAAACAAGGCCCAT -TTCAGATAGAGTATTAAAATCGACGTATTTCATATTATGCCTTTGGTTTCACACCGTAGG -CCAACATACCAAAACGATGATCATTATCTGCATCTTTAAACAGAACTTCGTTACCATCAA -TGCAGATGACCTTTGCTTCCGGATCGATGTATGGAAGCAACCACAAAGGGATCAGGCGTA -GGCCGCTATGTTCATCCCAGCGACTGAAATTGAGTTCTTCCAGTTCATCAAGGGAAAGCT -CATTAGGATCGATATAACGGAACCATTTGGTATTTTTGAGGCGGTCGGGGAAGTTTACAA -TTTCTTCATAGCCGAATTCAGCACTCCATGAAGAGTAAATAGTGACTTCGGATGCTTTGG -TTAAAACAGCATCGCGAATTGATTTGCAGATATCGATTAAAGTCAGTTGATTTTCCATGA -TATATTTCTCATCTTGCTAAAATTTTAGGCAGTAGTTGCCCCATCGTTTTACGTGCATGT -GACGGAATCTGTGAGATCGGGACATATTTAAAATCATCCATTTCACGTATAGTCCGTCCG -TTCTTAACGAAAGTTGATGCACAATAGCATTCTTCCGCTACTGGGTAATCTTGCCCTACA -TAGAGGAATAAAGCAAGGTTTTTTGTTTTCGTGTAATCGAGAACACCCAGGCTAACCAAT -TCCTCCGCGAACACTTCAAATCCTGTTTCTTCGAAGCATTCGCGGATCGCCGCGTCAATA -TGAGTTTCGCCCTTTTCAACATGCCCCTTCGGAATATCCCAATGGGGCGTTTCAGTGGCA -TGGCCCATCAACACGGCACCATCTTTAACAAAGATAATACCCGCTGATAGTTCCATTTAT -TCACCCGCAAAAGCGTTATCAAATGCTTCAAGTGCGTTGTTAGCGCGAGCACTGGCTTTT -GTCACACCAGCCTGGAGATTTTCAAAGAAAGTATGTTTCCACACTTCGCGGCGACTGGAT -TCATGTTCCAGACTGTTTTTGTGATCACCGCGAATCTGTTCTTCCATGTCATAACGGTAC -AGATCGAGTTCTGCGTTTAATTTCTGCTCTAATGCCTGTGCAAATACATGTTCAATATTC -ATTTTGTATAGCCTATTTCAGATTTAAGGTTTTCGAGGGTGGAGTGATAAACAACATTCC -CTTCGTGTCGAGTATACCATACTTTTCCGTTCTGGTTACACTCATTCATTACATTTTCAT -CTAAACCAGGGATCGGCTTCATGCTGGGAGAAAACGTGATAGACATCATTTGTTCTGCAC -TATCAGCAAACCCACAAGGGAAAACAGATCCAGTTGGTTTATCAAGATACATCAACTCTA -CTTTAGCCATAGATTTCTTCGAAATCCTCACAATCAGGCAAATACGTTTCACAGAAGGTG -CAAAGCGTAAAGAATGCAGGTTGACGAATACCAGGATTATCCGGTAGATACATCCAGAAG -GTGTTAGCAAACACGATGAATGTTTTCAGGTTTTCGGTGGTGATTTCGCTAACACCATCA -TACCCGGATTGATTGATCGCGCGTTGCAGTGGCACCTCATACTGTTCGCAATAGTCGGCA -TAATGATCGCTTGTTACAAGGCCATTAGCCATTTTAATCAAATCGACGATTTTCATGATT -TTACATATTCCACTTTAACAGGTTTTGCAACAAATTTATCTTTGGTGCGCCCATGACCAT -TACACAGGTCACATTCTTTGTTGAAATCTTTCATATCTTCGACCCATCCAGAATCTGGCA -ACCCAGACGGATATGCGTTATAACGAATGGTTTCATAACCTTTTCCGTTGCATTTCGGGC -AAACATGAGGACGTTCTTTTTTAGCAGACTCTGCCAGTTCGCGAAGGGTGGTAGAACTAC -CATAAGCCCGACACATGTTTTCAAAGTCTTTTAAAGTCATTCTATAAACATCAATGACGT -TATATTTTTTGCCGGATGGTTTAGCCATAATATATTTCTCACTTAAAGAATTTTTTGATG -AAAGAGATAGCAAGGCCGATACCAAAGAAAATTAAGTAACCTTTTCCGTCACCGTGCGCC -AAAACATAGAGTGAGCTGCCGTATGCGATGAGTTCTGCGATGTTCATTAAGTTTCTCATG -ATATCCTCCTTTTTCTATATTAAGTATCTTACCATAATATAAACCAAAGTCAACAACAAA -GTTTTATCAACCCACTTATCACCAGTCATTAGTAATCCCCTACAGGTTGAGACGCCGCAA -CACTCAGGATCTTGAAAGTGCAATTGTTCCATTCACAATAAGTTTTTGCGCAATGAACAC -TTCCTTTCATAACAAACCCGTTTGAGAAAATTAACCAGTAAAGTTTCATGATAGCCTCCT -TTGTTTCGACAAGGCCAATATAACAAAGCCCCTGCACGAATGCAAGGGCTTTTTTCAGTT -TTTCAACATCCAAAGTTGCGGAGGACAATCTTTAGAAGCGATTAGACGATCCAGGCGGGA -CATAACCCGACGATAACCGTCGTATTCAAAATTAATTTTTGGTGGAACGTAGTTGACCTG -GATTGTTTTTCTGTTAGCTAAAGAAACATACTCAGGGATCACCGTTCGCAACCGTATAGC -GATCACTGGCTTCTCTTCGCCTTCGTTAAAGAACATTTGAACAGTTATAGGACAAGCAAA -GATTTTACCATTTACCCGACGATAAACAATAACTTCCTGTGTCCCTTCTGTTTTGGCCTT -CACAGCGTAGGTTAGAACATAACACGAATAATGATTTGCTAGACTCATCATGATATCGCG -ATAAGTTTCAATATCTTTTTTAATCGATACTGAACGGTCTTTAAAGCGATCTGCAATGTG -GTCAGCAGTAGCCGCTACCTTGATTGTATACCAGTCACCTAACGCGCTAGTAAACGCCTC -GCTAACTTCTTTTCGTACACTGTTAACAAGATACATTAAACGTGTTCTGTTCATATAATC -CTCACTGATTTTTGAAGTATTCGATCTGACGCAAACGCTTTTCAGCGGCGGCTTTCGAAT -CGTATTCACCAAGTTCTTTTGTGCGATCGTGATTCAAAACAACCCACTTATCGCCACGCT -GTTCAATGTGTTCTGTAATATCTTTTAACGACTTATCCAGATCCAGTGATTCAGCCTCTT -CACAGATAATAGTCAAATCCACGGGCAGTGTCAACAACCTTTTTACTCCGCTGATATCAT -CAAGCATCGAATCGTATGCAAGGGTTACGTGCGGTTTGTAATCCGGATAATCGTATGTTG -CGCCAGCATCAATAGAATCTTTGAAACGGCTATGCAGGTATTCAGATTCCAGGATCCCTA -CGATAGTGCTACCGTATTTTGTGTCCCACTTTTCAACATCAACCAGTTTAGCAGGTTCTG -TGATGTCCTGTTGCGGGAACAAATCAACCGTTTTCCGGCTGTATACGATCGTTGTATGCA -TCTTTTCGGCTGAAACAGCATTCTTTGTGATACCTAATGTCTTTTGAACATTTTTCAAAG -CCTCACATGAAGCCTGATCGAATTTAGCACACATGTAGATACCAGGATCTACAACAGGTT -TTGTGATTTCAAGAAATGATTTCATAAAACACCCCAATAAAAAAGGGGCCGAAGCCCCTT -TGTAATAAATTTGTTTTTACGCTTCTTCGCCAAAGGCGGCTTCATCTTCCGCGCCTTTTT -CGACTTCAACGGAAGGGATCAGAGCGGATACCGCGCCAATCACTGCTTCTGGGGTTACTG -GCTGGCTTGCGTCAATACCCAGTACCGAACACAGGTCGGACAGAAGTTGACGATGAACAG -AGAGTTCACTTTCTTTTTGCGCGATAACTTCGTTCAGATCGAATGCGCGGCCTTTCAGTA -CCAGTACTTCATTTTGCAGTTTTTGAATATCAGACATTTTATTACCCATTGTTAAAATTT -AAAAGTATCGAGCACTTTGCTCTTTAGTTGTTTCAAAGTACCTTCGTTAGTGATGATACT -ATCTCCAGGTTGAGGTGTCAAACCTTTTTCCGTGGAATGTTCATCAACAATTCCGGTATC -CTTTACAATAAACACAAACTTAGCACCTAAGCGTTTTAGGTATTTGTATTCGTGTTCTTG -ACGACAGTCAGTGACCAGAAGATGGTTGTATTCGTCACCAGTATATTTATTGACGAATCT -TTCCAACGTGTAACGAACCCAAACCGTGTTATCATACTTGCATACGATATCAGTTCCAAA -CACTTGCATCAAGCGTCTGATACTCCAGGGAGTATCGTTACTCATAATCAGGTTATCAAT -ATCATCAGGACTATAAACAATATTGTATCCACGTTCTTTGAGGATTTCAAGCCCGATTTT -GAAAATATTTAGAACATCTTCATTAGACATCACAAGAGGTTTCTCTCGATCGCCTTTGTA -AAAAATAGCATCCGGATCAGAATATTGTCCTTCAATCATATTGCGAATGTATGGTTTATC -GTAACCATATCGCTGCATTGCTATTCTTAGCGTTCTTTTGATACCAAATGCCAGTGCTTC -ACACTGAACATCATTGTACGCCTCTTGAATAAATTTAGCAACCGTATCTTTACCAGTTCG -CTTTTTTCCACTAATCACATAAATCATTAGCTCATTCTCTTTTGAGAAGTGACTACTTTT -CCGTCAATTTCAACTTCCATATGAAGGAAGCCAAAAGTTGCCATACACGTAACCGCTTCA -TCACTATCGTTAGTATAACCCAATTCAACCTCACCCAAGTTTGTTGGGAAGGCACCATAA -AATCTAAATGTGGCGATCGTTTTCATCTGGGAGTTATCCAGGATATGCACAGCGAATGAT -TGCTTAGGATCATCCCACGCAACAGAGTTAAACTCATTGTAATCGTTTGTGCTCAACATC -CATATGTAAATCCCAAGATACGATCTCATTTCCTCATCGACTACAAAGCGGATCATCAAA -GGATCAAACTCAAAAGCCGAACCAGGTACTTTACCTCGAACCATCATATTTGCAGGAATA -TCAACTGCTGGGAGGTTCATTGATGGTAGTGTAACCCCTTGAACTTGTAAAGTCAAACCT -TTCATGTAACTGTTATCAGGAATATCAACCCGAAAGTTTGTAGGTGAGATTTGGTTTAAA -ATCATTTCTGTAGACATAGGATCTCCTTTCCTCTATTTAGCGGGGAACGGGATCAAAGCG -GCCTGACGGGGTAATATAAAAATTTGAAGAAAATGCTTGACCTTTTAAAATCTTTGATCT -ATAATAATTATTAATTAAAATTTTATCAAAAAGATCTAACAAGATCAAGTAAAATTTAAT -AAATAATTTATCAAAAATTTTTAGATCTGATCTTGAATTCATAAATTTTATGATCTATAA -TATATTAATATTTTATTTTATCATAAATTTTTATGAAGATCAATACTTAGATCTAATAAA -TTTTATGCTTTTTCTGAAAACTTTTCCTTTACCCCGTCACTAAATACTGGTACTATGTTC -CCATATTGGAAATCAGGAAAAACAAAATGACTCACTTGAAAAAATTCAAAGAATTTCTGA -CCGAAGGTAAAACCCTCGCTCGTACCGTAGCACGTGGTCAACGCGCTAAAACTTCCGATA -AACATTCAATCGGTTTTCTTCACTTCAAACATGGTTCTGATTTCGAAGTTTTAGCACCGG -ATTCTCACGATCTGGCATACTTCGGTAAAAACATTGTACGTTTGAAAGGTATGACTACTG -GTAAAGTTCAAGCGGCTTATGTCGATTGGGCTAAAGGTACTGTTTCTTTCTACAGTGGCA -ATCCGGATGATGATCTGGATTTCGACAAACCAGAAAAATTCAAAGCTGCTACTCTGTATG -AAGAGGCGGAAGAAAATCTGGATCTGTATAACCAGTTAGCAGAAGATTTCGAAATCGAGA -TCCCTATGGATGAAGCTCTGGTGAAAGGTAAAGTTTACAAACTCCCAAGCAACGATATGC -GTCTTCTGTACACTGGGCGTTCTAAAACTAAAGCAAGCGGTGAATATGCAGTGTTTACCG -TAGTTGATGCTTCCGGCAAACCTCGCCTAGTATCTGGTAAAAAATTCACCCAAGAATATA -AAGGCGATATGGTTTCTAAACTGGTTCTGGCTGAATCCGAAGATCTGAATGAAGCGTCTA -AAGGCATTCGCGAAAAAGTTATTGCTGTGATGGTGAAACGCGGGTTTAACGAAAAAGATG -CAGAAAAGATGGTTGACAAAAACCTGAAAGATGCTATGAAAGTTAGACCTGGTGCGACCC -CTGGCAAACTTGCAGAAATAGTTAGCACCCTGTAAAAATAAAGCCCCTTCCTTTCGGTTG -GGGCTTCTGTATATGGCACCTGTATGAAAAAATATGGCAATGATGGAAGCATCAATGATG -AAATTGCTGGAATCGTTGATTTGCTAAAACATGTAAGAGTTGAACCCAAAGAGGGTAAAA -TCTATTGGACTAATCCTATAGGAAAGAAAATGAAACCTGGACAAGAAGCGGGTTCATACA -AAGGCGACTATTGGATTATATGCTTCAAGTATGCAAAATATAGGAGACATCGAATAATTT -TCTATTATCAACACGGCTACTTACCTCAGATAGTAGATCATAAAGATGGAATTGACGCAG -GGGATTCTATAGATAATCTTCGTGCTGCTGATGCAAAAGGAAACCAGCGAAACCGATTAG -GGGCGCAAAAGAATAGTAAAAGTGGTGTAAAGGGAGTGCGAGAAAAAAGAGGTAAATGGG -AAGCAAACATTAGATATGAAGGCAAAACGATTTATATTGGTACATATGAAAATATAGAAG -ATGCGAAACTAGCATATGATACCAAAGCAGTTGAATTGTTTGGAGAATTTGCAAAATAAA -AGCCCCGAAAGGGGCTTTTTAGTATCTGTTCCAGACTTTCTTCGCGCTGTAAGGCTTGCC -CTTTGAAACAAACGCTTGTGTAGGCAACCAAACTGATTTAGCCCAGTCTTTTGGGGCAAT -CTCTGCTAATGGTGATTTGAGGTGTGATGGTAGATATGCTTTGATCATTTCTGTTGCGCC -TCGCATACCTTTCACGTTACCCCAGTTAATTTTAAGCACGGTCTTGTTAGAGAGGCGTTT -AGTGGATCCGTACCCTCGCTTCAATAACTCTTCTAAAAACTCCTGTCGTGCTCTGGGTGG -CGCATAGTGCAAGTTCAAACCATAGAACACTAAGTTACCCGCTTTCGATCTTCCGGATCC -TAAGAAAATGATCAGTGGAAATCTATCCCAATACGGCAGGGTGTCTTTATATTTTGCATC -ATATGCAAACGTGTACAGGCGACCCGTTGCTGGTTTTGCCACACGGTGTGTTTTGATACT -GGTTTTGATGAAATTACCAAACCATTCTGTTGAATCTTTCTGTCGCTTTGCCGCCGATAC -ACCAACAGTGATCTTTTTCAGACTATTACGGAAATCGTTGATGATCTCGATCCCGTGTTT -TTTACGGTAGTCATTACGTTTTTTACGGGCTTCTGTCTCTGCGGAACGTCGTTCAATCTC -ATCATCAATCTGTTTTTTGTAACGATGCATTGACTTTGTGAACGTTGCGTAGTTTAATCC -CTCAGAATCGGCAAAACGTTTAGCAGAAACACCTTTCGTTTTTGCCTTACGGAATTTGAT -CCCCAGTTCAACCCAATCACTCAATTTGCGTTTGGGTGGTGCTTTGGGTTTATCCTCTTC -CGCGATGATCTCAAACTCAAAAATAAAACTCATGTTTCCCTCCAGGGATTACTGACCTCG -CCACCCAAAAACTTTTTTGAGTGATTCTTCTGTTACGATTTTGAACTGCCAGCCTTTTTG -ACGGCATAGCTCATTTGCGGCTTTCCACTTATCAATATTAACTGTATAGGTGTAAAGAGC -ATCAATAAATTTCTTTTTATTGTGTACGTTGTTGTTTACTGGCTTCGGTGGAGGCATGGT -TTCTTTAAGGGGCTTAACCTCCCAAAGATATGTAGTACCATTTTCCATTTCCACATAGAA -ATCCATGTAATAGCGTCTTCTCTTACCGTCTGCATTGCAGAAATACGGGATCACTATACA -TTCAGAATTCCAACGTTTTACGTGTGGGTTTTTATCCAGCCACTTCATAACGTAGCGCTC -CCACGATGACCTATACGTAATCTTTCGCGGATCGCCTTTATACTTCTGTATGTTTTCGGG -TACAAACGACCCTTTATACGTCTGTCTTCCAGCCATTGCGTAAATCCTAAATAGAATAAT -ATAACGTTTAGATAGGGGAACTTATCGTGCTATTTTCATACTTCCCGCCTGTTGATTACA -AAGGCACCCAGACAACTGATATTTTCCGAGACTATCGATTTTATTTTAATCGTGTGATTG -GAAAATATAAAACCCGTAGTTACCAGATAACAGGCACACTACGACCTGAACAACTTGCAG -AATCATTATATGGAAACCAGCAATACTACTGGATCCTGTTGATGCTTAACTCTGTTTATG -ACCCTTTCTATGGTTGGATCTCCGATCAGGAAGCCGCGTATCAGTGCGCTATACAGCGTT -ATTCTGAGGTTGGCGGTGAACAGGTTCTGTATCATGTAGATGAAAACAACAACAAGTATT -ATAACCTTGTCGAAGACCCCAATAACCCTGGTCATTGGTATGACAAAGGCGACAAACCAA -TGCTGTATTTACAGTATCAAGGTGTATTAGCTCCTGTAGATATTTATGAAGATGCAGTGT -TGCAAAATGAAGCAAAACGAACAATAAAAATCATTAGTCCGTCTGACATCCAGGCGTTTC -TGAATGATTTTATTAAAGAAATGGAAAAGGCTAACTCATGAAATTAGGCGGAAATTTACA -CTCCCCTTTCTTTGATGGGGTGGTTGAAAACGTTGATGATCCTCGCGGGTTGGGCCGTGT -TCAAGTCCGTGTATTTGGACAACACCCAGCCCAAAAACAAAAATCCGATGCGATCGGTGT -TCCTGTTGAAGATTTACCCTGGATGATGCCTATTCAGGATATTAGAAGCGCTGCGATCTC -TGGTGTGGGCTTCTCTCCAACTGGTATCACTCGCGGATCCTTTGTTGTTGGTTATTGGCG -TGACAAATGGCACCAAGATGGTATGATAATCGGTACTGTCGCTGGTGAATATGTCGAACA -ACCAGACACACAGAAAGGTTTTTGCGATCCTATGGGTGAATACCCTCGCTATGTTGGTAA -CGATGTTAACTCCCTTGCTTTAGGTGGTTTGAAAGGCAAAGGATCATCAAGTGTCATCAT -TCGTGATTCAAACACAAGCATAGCAGTAAACCCAGACGATCGCCCACTGGATGAGATACC -AGAAGATAACCGCCCTGATACGGGTGGATTTACTATCGAAAAGATGCTCAAGCAGGATGA -GGGGATCCGCACACGCTGGTATACAGACAGTGAAGGATATCCGACAATTGGGATCGGGCA -TTTGCTTATCCGCGAAAAGACTCGCGACACTGCAAAAATTAACGCTGCGATCAGTAAAGC -GGTAGGTCGAGAAGTAACAAACGGGACAATCACGGCAGAAGAGGTTTCAACCTTATTTGC -TCAAGATTTAGCCAAAGTAAGATCTGATATTCAGAGAACCGCTAACGTCCGTGAAGTGTA -TGTGAACCTAAACCGTCCTCGTCAAATGGCGATCGAAAACATGTCGTTTCAAATGGGCGT -CGGTGGTGTTGCTAAATTCACCAATACCCTAAAAGCGATGAAAAATGAAGATTGGCAAGC -GGCTTATAATGGTCTTCGCAATTCACTGTGGGCTAGTCAAACTCCAGGCCGTTCTTCTCG -CGTGTCTAAAATCGTCCTCACGGGCAACCTTGAATCATATGGGGTGCAAGTACCAGATCC -GGAAGGGCGCTCTCTGAGTGCTGCTTACGCTGCGTATAACGGTGCTACATTGTCGGCTAC -TAGTCCGGAAGATCCGTTTACTCCTGGTGATACCCGTGTGATGTTTGAAGAACCAGCATC -ATCTTATAATGCGGAATATCCGTATAACATGGTGTTTGAATCGAGATCCGGACACATTCA -GGAATTCGATGATACCCCAGGATACGAACGATATAACCGTGTTCACCCAGCAGGGAGTTA -CGAAGAAATTCGCCCGGATGGAACCCGCGTTGTTAAAATCGTAGGGGATGATTATCAAAT -TGTGATGCAGGGCCGGAAACTCAATGTTAAAGGCAACTTGCAGGTAGTTATTGAAGGCGA -CGCATTCATTTACAACATGGGTAACGTTCAACAAACGGTTGATGGTAACGTAACTGAGTT -TGTTCGTGGCAACGTTCAACAAACTGTTGAAGGTGAGTACGTTGGCCTGATTAAAGGTAA -CGCTGAACTAACTGTAAACAAAGATGCAACAGTTAACGTTGATCAGAATCTTACCGCAAA -TGTGAAACAGAATGCAACCGTAGCTGTAACAGAAGACGCAACGATCACTGCAAAAAATGC -GAAAATGGAGATTGAAGAAACGATGGATATCGGTGCTAAAGATATCAATATCAAAGCAAC -GAATAACACGTTTATTGATTCTGGCGCATTAACAAAAATCACTGGCGGCACCGTCCAAGT -GGGGTAATTAAATGATTATGGATTATGAATCAATAATTGATGGAATTATGCAAAATTATC -AGCATCCTTGTGATGCTGAGATCCCCGCTGGCTATTATCGGCGGGTTATCTGGCAAGGGC -ATACAGAAAATTATCCGGCTGTTGGGGTTGAGTGGGATACCGAGATAATCAAAATCGGTA -CTCATCTTTATACTCAAGAACCGTTCGGACATAGAAGCACGGATCTACCTGTTGTCAATT -CACCGGGAACAGATCCAAATACCGGACAACCAACAGGGATCCTTGTTCCGAAGATTGGCT -ATTATTTCAACACTCAAGCAGAGATTGATGCTTACATTACATCCATCGGTGCAACTAAAA -TCAATGGTGGTAATGATTGGTACGGCGCGGATCTGTCAAAATCAAACCTATACAAAAACC -CTGGCGAACTGGCTATGTATAAGGTTGAAAACAGTGGCGGGTATCTTTCCGGAACAAACC -CTGTATGTGATGCTCGCATACGTCAGGCGTATAATCAGGACACTGGCGCATTCACCAATA -TTGATTATTATTGGAATGGTAATCGTATAGCATATATGAAGCATGACGAAACAGGGGCGC -ACCAGTGCAAATATACGGGTATGCAGGTTAACACCAACGCAGATACAAGCATTCCTCCTG -TTCCTCCTGCAATGCCTTCCACTTATGGGGCATTACCGAGTGAATTAAGCCGTGCTGATA -TTTCGTGCATTCCGGCAACTGTTGGTTTCGCATATACAAATATCAGTGATGCTATGTTAC -AGGCATGGAACGAAACCCGTAATACGTTCAAGCTACAGTTTAACATGTTAACGGGTGCTG -TACAGAATGGATTCGGGATCGCGACGATGTTTGATGGTTTATCCGTATCGATGGAAGAAG -TAATGGCGGGGGCGCTCGCATTGTCACAGCAAGCATGGCAAACTGCTATGAAAGTTTTCA -GACAAGTGATTAGCGCTGCATTTAACATTATCGGTGGTGCGTGGGGATTGATTAATCAGT -TCTTGCCTCAAGTAACCATCTTAGGTGTTGCGATCAACATTTACGATCTGGTGTTTGGTG -ATAATTCTGTTCAGACTTTGAAAGATGCATTTAATGCAATCATCAAATCCGGACAACAAA -CATATGAAACCGTCATAAACGCAATATACGGGGCCATAGGAAGCGCATACAATTACTCTG -TGGAATATGTCAAAGCTGGCGCTCGCGACCTTGTGGATGCGTGTAGCGCGTTATTTGATT -GGTGTTTAACGATGTTCCAAAACGGTTGCGTTGCATTAATCGACTTATACGGTCGGATCA -TGCAAACATGGGCTATCCCTCCGGAAGTTCCAAACCCGTTATGGTCTGCGGTGCTGGCTA -TCCGTAACATCATGATGCAAATCAAACCACTTGATATAATTCTGGGCGGTAACTTCCCTG -GATTTACTGCAATGGATTTATATCAACAAGCACAGGAAAAAGTCAAGGCTTTTGTTGATG -AGTCATACGAACAGATCCGAGGGCTTTATGAACAAGGGCAGGAACTTTACAAAACGTTAA -AAAATCAGATTTTCGAACGTGATTCAATTCAGAGAAAATTCAACCAGTACTTAAACTGGA -TGTGGGGCGCTGTAACAGACGAAGCAACAGCGGCTTATCAATCTGCATTGGATGCTGCAA -ACGCTGCTGTAGCTGCAACACAGGCCGCGTATGACGCTATACAGGAACAGATTGGATCTC -TACAAGATGCAATGAAAGATACATACAGCATGGCGATGGAAGAATTAAAGAAATTGCCTT -TGATGAGTACAATAAACGAGTTTTTAGGATTCTGTGGTGTCGCATTTGACGATCTTCTCA -AGTCATATGAAAATGCGATTACTGGTGCTCAGTCTCTGTACAAAAATTTCATTGATAGTT -CTCGCTCGTTTAAAGATCACTGCAAAGTAATCTATAACCAAATTTGTACGTTGGCGTTGA -GTAAAGTCACACAATATGTGAATAAATTGCTGTCTCTCATAGGATTAGCAATCAACTTTG -GTTCGATTAGTGTATGTGTTCCAGTACTGAAATACTAAATAGTCGAATGATCAAGAGGAA -TTTATAATAATGGCTACTGCTAAGACTAAGACTGTCAAAAAACAGATTAACCAAATCCCC -GATATCTTTATCGGGGGTACTTTCGAAGAAATTAAAACAGATCTGATTGATTGGCTGGGT -GGACAAGAAGAGTTTAAGGATTACGATTTTTCCGGCTCGCGAATGAACGTACTGATCGAC -CTTCTGTCGTATGCTACTCTTTATATTCAGCAGATGGGTAACACGGCTCTATTTGAATCG -TTTATTCGCACGGCTGCATTGCGTAGTTCTGTTGTACAGTCTGCTCAAGAACTGGGATAT -ATGCCAGATTCGCGCACGGCTGCAAGCACAGCAGTAATGATTACGGCTGCTAACCCACTG -ACCCCAACATCGATCCGTATCCCGCGCGGTACAAAATTCATCGGTACTGTAAAGAATACA -GACAGTTATTCTTTTGTTGTATCAGATGACGTTGTTATCGTTCGTGATAGTAATAACAAC -TATACATCAATGCTGAACCTGGTGCAAGGCCGTTTAGTTCGTACTGAACTAATTTATGAC -GGTTCAAGTATCCTGATCCGAGATCCAAACATTGACCGTAGTCAGGTACGTTTAACTGTA -AACGGCGCACAATGGGAAGACTGGACAAACGAAAGCATTGTAAACGCAACAGGCGCAAGC -ACGATTTACTACATGCGTGAAACTGTTGATGGACATACCGAAGTTTATTTCGGTGAAGGT -GAAGCAAGTCAACAAGTGGCGGGTGGTGCATTAACCGCTGAATATATCGGGGGCTTGAAA -CCTGCTAATGGATCGACTATCGTTATTGAATACCTGTCAACCGATGGGGAAGCGGCTAAC -GGTGCAAAAGATTTTATCTATGTCGATACATTAACCAATATTAGCATCACTAACATCGAA -GAAAACCCGACTAAATCCCCTGATTATGTCGGTGCTGATGGTGGTGGTGATCCAGAAGAT -ATCGAGCGTATTCGAGAACTGGCCCCTGTTATGCGTGAAACACAACGCCGTTGTGTAACT -GCATCGGATTATGAATCTTTCCTGTCTCACAGATTTGGTTCTATCATCCAGGCGGTACAG -TGCTTTACTGATAACGAAAAACCTGGTTATGCTTTCATTTCTGTTAAACCAAAGTCAGGT -TTGCGCCTAACATCGGTACAGAAAGAAGATATGCAAACGTATCTTTCGAAATATAACCTC -GCGACGATCACCCCATCGATTATGGATCCTAACTATCTGTATATTGTGCAATCTGTCAAA -GTAACGTATGATATCAGTAAGTTGACGGAATCAGAGGAATGGTTACGCGGTCAGGTTATT -TCGTCGATCGACTCTTACTATACTAACAACGTTGAAATTTTCAACAAATCTTTCAGTGTA -TCTAAGATGTTGACTTATGTCGATCAGTCTGATACTTCTATTATCGGTTCGGAAGCAGAT -ATTAAATTGCTCCGTGAAATTGACAACTATTACAGCGCCCCTATGTCTGGGATCCATTTC -TTGAACCAGGTGGAATCTAAATCAATCATTTCCAGTACGTTCAAGTTCACCAACGAAGAA -GACGAAAGTTATGATGTTCGTTATGCTTCTACGGAAATGGATCAGGATGGTAACGCAAAA -ATTGTAATAGGCCCGTTCAAGGATGGGGATATTTCGATCGCTGCTTATACAGGCGATGAC -TTTGAAAAATTAACAGATGCAGGAACCCGTAATAAATATTACGAAGTTGGATCGGTTTCT -CATTACACCGATTTCATTAGCTTTGACCTGGGCGTTCTGAACGTATCCGCCGATAGTTTC -AGCGCTGCTTATATCGAGCTAACTGCAAAACCTCTCGAAGAAACCATTTTTACTCGCGAT -GGTTCGTTGATCGTGTTTGAAAATGACCTGCGTCCTCAATATACCACATTGACTATGAAT -CCTATCAGTCAATAATCTTTAACCCCTGTCTTCGGATAGGGGTTTTTCTTTTTATAAATA -CGTGATATACATAACCGCAAATTTGGAGAAATATAATGATTAAAGCGCCTTCGATTACGA -GTTTGCGCGTTGATAAACTGGCTGCTAACTTCGTTTACCTTAAATGGGATGATGTTGGCA -TGGATTTCTATTATGTGGTTGAATTGGCCCGTAGCCGTGATATGGACGGAACTATTATTC -CAGACGAAGAGTTAATCTGGACGCAGTTGGGTTATAGCTACGAAAACGAATGGTTTAGCG -ATCAGGTTGCCCCAAATACACGTTATAAATTCCGTATTCAAACAACTCATGAAGGGTTTG -AACCTTCTGATTGGGTGATCAGCGATGAATTATGGACGTTTGATGAGAACGCCTACGCAT -ATACAACCATGCGTGAATTCACCCCTGCTGATTCGTTTATCAATGAAAAATTCGCCAAAA -ACAATCGTGATTACGTCGATTTTAACGATGATGTTATTATGGCTTCTCTGATGGTTGAGG -ATTTTGTATACTCTCCCCTGTATTCTGATGTAAGCCAGATCAGCGATAAGATCCTGAAAC -AAGAAAGCTACCATGAAATTCAAGATCACATCGAACACGTTTGTAATGATATAGATCGCA -CGTTCCTGGTATACTCAAACGGATTGCTTTACCTGTTTGAACGTTTTCAGAATATGGCTA -AAGTGTCAAATGACAAAGGCCAAACGTGGTATTACTACAAAGCATTAAACGATCGTGTAG -GCAATCCGGTTTCCCGTACCATTGCTTATCAGAGCACTAACACTACGTATGTGTTAGGAT -ACGATCGCATATTTTACGGGCGCACGTCAACAGATATTCGTTGGTCTTCTGATGAAGTTC -GTTTTTCTTCTGATGATGTAACTTTTGCGAAGCTGGGGAACCAGTCAGGGTTAGATTTTG -ATGTTGACTCATACAACACGTATGCGCGTCTACCGGGCGGAGTGTCGAAGTATGCCGAAG -CTATGGCTTGTTCTAGTGATTGGCTCTATGTGGCTGCTAAGAACGTTATGCGCCGTATTG -CGTTACGTAACACACCAATTGATACTGATCCTGGTTCGCCGACCTTTGGTGAACGTATTT -TTGATGAAGTTTCATATACTATCGTACCAGGAAATGATAAAATTGTTGTTAAAAAAATGG -ATGTGCTGAATGATCGTCTGTACGTTCTGGTAACTGGTGAAGTTAAAACGGCGATGATGG -ATCCAACTGTCAAAGCTAACGTGATCCCATCAAACGATGCTGGCGTTTATCTGTGGGATG -AGAATGCAAAGACGTTTACCCGTGTTTATGGTAAAACCGAAGATGAACGTTTTTATATCA -CTCATGAATATACCAATATGTCAACCAATGGCGATGAAGTTTACATTTCTGTTGGTAACT -ACAAATATCCAGGCACTTTGCCAGATCCAGATCTGGTTGAAAAGTATCCGGAAGATGTGC -ATTCAGCGGTGAAATACGATCTTGTTCCTGGTTATACTGCGAGCATTTCGATTAACTTTG -CTACAGTTCGAGCAAATCAGAACGATCCTACTGTTTGGAACTTTGGGCCGCAAGAGTACT -ACAATGAAGCAAACTTTAGCTGGCATTTCCGCGATAAGGTTAGCACATGGATCACCAATG -ATAACCGTCCTCTGGTGGTTTATCCGGAAACCCTGTATACTCTGGTTACTGATAGCGCGT -CTCCTGCGTCAACGATTCGTGTAAACCATGAAGTTTGGGACAAAGGAACAGTTACTATCT -ACTTGAATAATATCAAATTTACTGGTTTTACGAAGTACACAAACGGTGTTCTGTTGTATC -GCTCAGGTGGTAGGATAATTGGATTCTATGAACTGTCATACCGCGCAAGGGATGAACTTA -CTATTTTCTGGAAACCTGATAACACTTTAATGGTGGCAAGTCTGGTTAATCAGGAACGTG -AAAACCCATACACGCCGGATATTGAACCTGGACTAATAGATCCTGATCTGAGTCACATGA -TTACTCGTTTTGCTCCGCAAAGCTATCTGGACAACCAACAGTTCGAAAAATTTGGTGAAT -ACTATCTGCAATATATTTCGTTGGGTAGCAACAGTTACTATAACAAATTGCTGAACCTCA -TCCGGAACAAATATCCGAGAGAGAAAAACAACGTTGAATATTTGTGGTCTGAAATTAACC -GCCGTAACATTTACCTGGATAAAACCAAACGTGAGGCAGTGGTTAGATTTTTTGAATCAC -GTGCAAGCGATTTCTATTCAACAAAAGGGATTGAGGCAAGTTATACGTTCCTGTTTAAAT -TGCTGTATAACGAAGATGTTTCCGTTGAGATCGAAAGCTCCAACAGTCTCGAATATGATA -TTTTGGTTAGTTCAACAAATATCAGTCAGGATATCGTAGGCCGGACGATCTATACACCAA -CTGGACGCGCTAACGTTACATACATCGAACGTGAATATGAAAATGGTCAATTGCGTTGGT -CAATGACTCTGCATAATGCTCAAGGTAACTTTATCGAAGGGCAGGTTGTCAAGTCAGAAA -AAACCAATTTCACCGGAATGGTAATTCGTGGTGTTCGTGGTAAACAAATGGCTAACAACT -CGATCGACTATATAAACCGTGGACGTTCTTACTACGTGATGAAAATTCGTTCAAATCTAC -CGACTTCCCGTTATAAGGATGACGTATTGAGGTTTGTTCATCCGGTAGGATTCGGCTTTA -TGGGTATCACGATGTTAACAGTATTCATCAACTCTGGTTTGTCAATGACTCATAACGAGA -CAATCATTGATATTCTGAGAAACTACCGTTTCGATAGTGGTTATCCTAAGTTCTGGCCTG -ATCGCATTGCGAGCATGGACGGTAACGGAAACCAACAATTCGACCTGGTTACTGGTGAAC -CTCTGTACACCGCACACCCGCGAGCGGGGGAACCTTTTGATGTACCTCCGGAATATGACG -TTGAAGAAAAACCGCTTAACGGTGTTCTTCCTTCTGCGCGACGGTTCGATCAAAGTCCGT -TGTTCGATTGCTCAGGCGTTAAATATTCACAGTTCCGTAATTTGGTGGATAGACGACTGA -AAGATGATGCAGGAAACCCACGTGATCCAAATCCTCCATCACAGATTAAGGTAGGAAATT -AAATGGCACAACAAAACTTGTATCGGTCGGTAATTACTGCAAAATTCCGAACCGAAAACT -TGATGAACTTCAAAGATATGATCGGCGATGCCGCCGATCTAAACACGATTTATATGTCTA -TTGGGCGAACTGAATCATGGGCGGATAACGAATCCGACCCTAACTTTGCCCCGCCATATC -CAAATGATAGCACCGATGGTGTTAGTGATATGTGGACGCATATGATCGGGGCTACTAAAG -TTCCTGGTGATATGATAGATGCAATTTTACCACGTAAAGACTGGGGTGATACTCGCTATC -CAAACCCGAAAATCTTTTACTTTAACGATATTGTTGTTGTAAACACCGCGCCTTATAACC -GTACTGATCCGGGTAAAGGTTGGATGGTTTATCGTGTAGTTGATGTTCCTGATATCGGTT -CTTGCTCCATTTCGAGCATTACCGGAAAACTTGAATGTATCAGGATCGGCGGTATCTGGA -GTCCGTCTCATGAATCGAGTGAACCTCCACGCGGAGAAGCTAACGGGATCGACATGGGCG -ACGGCTATAAATGGGAATACCTCTACACAATCCCGCCAGATGTCGTGATCAACCGCTGTA -CGAACGAACATATCGTAGTTCCTTTCCCTGGCGAACTGGAAGAGGATCCGGTACGTTGGG -GTTATGATAACGTGATTCAATGGTATCCAGGACAATACGATCTAGTGTATCGGTTAAAGG -TGAATTCAATGCGTTTTCGTGCGTACATGGATTCTCTTTTCTTCCCGCAATCTACGCTCC -CTGGTAACAAAGGGTTCCGTCAGATAAGTATTATTGTAAACCCGTTGATTAAAAAGGCAA -GCCCGACCGAACCTGAAAAGAAAGCAACTGGTGATTACTATAATGCTAACGCGCTTGAAC -CTGATTCCGGACGTATGATTTACATGGAAAACAGACAACCTATTATTCGCTCCCTTGATC -AGACTGAGGAAGTGAGTATTGTATTCGAATTCTAAGGAAAAACAATGGCTTACCAAACAG -CAAAAAAACTAATTGATGTCGGTGAAATCGGCAACCCATCAACAGGCGACCCGCTTTATG -ATGGTGGTGTTAAACTGAACGAAATGATCACCAACGTTTATAATGCGTTTGGTGATGTGC -GTATGCTGTCTGCAAACGAAGGTGTCGGTAACATGGTGATCCATGCTACCGGATACTATC -AGAAACTACCACGCACTTACTATTCAAGCACACCGATCGAACTGGGTTCCCTGCATGACA -TAGATACTTCAACAGGTTCGATTACCGTTGTTCTTCCTTCTGGTAAGGTTGGCGAAGGTT -GCTACTTCATAAATAGTACGGGTAGTGTCTCTGTTGATCGTCCTATCGCGTTTCGTCCTC -AAGTTGGGGATACTATCGCGGGGGTTGCAGACCAGTTGTATATCACGTCACCTTACACCT -TTGTAAAAATCTGGTGTACCAAAAAAGAAGGTGCGGTAACAAAATGGGATTATTCTGTAG -AATCTATGTTCGGTTCTAAAACGATGCCTGTTGACACTACGGCGCTTGTACTGAAAGCAA -ACCCGACTGCTATTCCTATGTTCGGATATAGCGAATTTAGCGGGGCTAAGGTGCTTGTAT -ACGCAGAAAACTTAGCTGGTACAGTTACCAAAATGGCAGAAGTTTTAATGACCGTGGATC -GTGTACACAAAACGATTTATTCAACGGAATATGCTATTTTGAAAAACAGTGAAGATGAAA -TGTTTACATTAAACTTTACTGTCGGTGCTGGTGATGTTGTATACGCTAACGTGCAAGCGA -TCAAAGAAGATCGAATTAAATTCACGATTAAAGCAATAGATACGATTAAATCAGGGATCG -CGTCATGAAACAAGAAATTTTAATAGGTCAGATTGTAGACGATGGTACAGGCGATTACCT -GCGTCGAGGTGGTCAAAAGACTAACAACAACTTTACAGAATTGTATAACATGCTGGGGGA -TGGTGAGATCCCCCATCCAGCAGGTGCCTGGAAAACTTTTGCGGGTACGACGCTATCACC -AAAATTTGGTGAATCATGGGCGTTGAATACCAGTGCAAACAAAATCACCGTAAACCTCCC -GAAAGGCGGCGTAGGCGATTATAACAAGGTTATTCGTCTGCGTGATGTGTGGTCGCGTTG -GGCTACCAACAACGTTAGACTGATCCCCGCAACTGGTGATACTATCAAAGGTTCCCCAAC -TCCTAAAGATCTGTTTAAAGATTTTATGGATGTGGAATTGGTGTATTGTTCTCCGGGCCG -TTGGGAATACGTCGAAAACAAACAGATTGACAAAATCACAACTTCGGATCTGGCAACAGT -AGCAAAAGAAACGTATATTGCTACTCAGGGACAAACTGACTTCCCTAACGTATTCGGTGT -TGGTAATGAATACAACCTGCAATCGTTCGAAGTTTACTATCGCGGTAACTTGCTGTTCAT -CGATGAGAAAGACGGATTCAATGCTGATAACTCAGACTATGGATCGATTGGCTCTGCTCC -TGGTGAACTGGTTGCACTTGATGGTAATTCAGTACGTCTTAAAAACCCGTGTAACGCTGG -TGACACGCTTCAATTTGTTACCTATCTAGATGGGTTAGCAACATGGCGTTCGAGCTATGA -AGCGTATGTGATGCGCATGTATCAGACTGGTGATACTTCTCTGGAAACCGTTCCTGGTGA -ACAGTGGGTAGGTGATCTGGCAACCAAAAAAGAGTTTACACCTGCTGAATTTGGTGTTAA -CCCTCGCGTGTTGATTAACCCTAACTCGTTTGAACTGCTTCTCAACGGTAAACAACTGGT -TAAAGGCGGTGACGCTGACTATCCGGCGTTTTCCTGTGAAGGTGCGGAAGGTGTTGATGA -AAGTACGTGTGTTGGTAACTCTGGTGTATGGGTTCCGTCAGGACAGGATTATAGTTTAGT -ATTCACTGATTCTGTAGTGACTTCAATCAAGTTTGCTCAGAAACTGGAATCCGGCGACGT -TGTAACGATCCGTTGGTTTAACAATGATATTGGTACTCTGATGGATTGGGAAGGAACTGG -CGGTATTAAAGAAAAAGCTGATAAGGTTTATCTCAATAACGAAGAAGAAGTTATATTGAC -GAACCGTATCGAATATACCGATTATAATAACCCTTCTCAGAAAACAATGCGTAATACAGG -GGAAACCTATCAGGGGCGTATTCTGGATATTCAGGCTATGTTTGATATTATCCACCCGAT -CGGAACCATCTATGAAAACGCACACAACCCGGCAAACCCTGCTGATTATATGGGATTTGG -TGGTTGGAAACGTTACGCAGAAGGTTATTTCCTGGCTGGCTGGACATCAAATGCAACGGA -TCCTGATTTCGCATTAAACAATAATGATTTAGATAGTGGTGGTCAACCGAGTCATACGGC -AGGTGGTACTGGTGGCGATCGTGGTACAGAAATCAAAATCATCAACGTTCCTGAACTTGT -ATCAAAAGATAAAGTTCTTATTGCTGATGAAAATGGTGCTGTGATCATTGGTGGTTGTCA -GTTAGATCCTGATGCTTCTGGCCCTGGATACACTAAATACCGTGAGGATACATTGAAAGT -GAATCATGGTAACACATTACCTGATAAAATCAAAACTATTCCACCGTATATGACTGCACA -TCGCTGGATAAGGGTTGCATAATGGCTTACAAAAATATTTCAAAAACAAGGGAGGGCGCT -CGCGTCCTCTCTAAAGAAGCAGATTACTTACAGTATGATACTTATGGTAAGTTGCCTCTG -ATCGGCGGTAAACGTTCGATCGGCGAACCAAACATTGACCAAACAAAACGCGGTGTTCTG -TATGGAAACGTACAATCCGCAATTGATGACCTGTATACGCTTATCGAGCAAATCCCGATT -AACGGCGTTGTTACCATGACTGAGGATGCCCCTCCAATCGCTGTACAGCAGGTTGAGAGT -GTTTCTTTTGATGGTATTGTACAGAACATCGATTCAGACCAAGAACAGGCTGTAGTTCAC -GTGTACGGATTTCCTTTCATCTTTGATAATGGGACTAACGCCGCAACTGTTTGTGAAACG -GCATACAACAAATTTACTGAATTTGTTGCAGCGGAAAAATATTTCGCAGAAGTTAACCGT -AAAGGTGTTGATGGTACGATCCTAGAATGTCGATTTATTGATAGTGTTCCGCACCCGGCA -ACAAATATCTCAGAAAACGGTATTCGTCAAATCGGAACTATCGACGTAGCCGCAAAAAGT -GGCTATGGTTCATGGGTTAAGTTGGGTTCTGGTTTCTTACCTGATGTTACTCCGCAAGTA -ACCGTGTATTACTTCAAACGAATTGCATAAGGATAACACATGAGTAACAATACAATCAAC -CACGTAAGTGATAAATCCATTTACGTGACATTTGACCCAACAGGTACTGATTGGCCTGAT -ACCATAACCAACGTACAAGATGCGTTGGAAAAAATAGGTAGTTGGGCGCGTACTGATACT -GGGCTTCCTATCGCAACAACTTCTGTTCGTGGTATTGCTCAGATCGCAACCGAAGCTGAT -ATTGACGCTGGCACGGATAACAATAAGATTGTTACTCCGAAACTGTTAGCGTATCGTATG -CAGAACCCTAAAGCATCACAAACTGTATGGGGTTATACGAAGTATTCGACTGATGCGGAA -TCTACAACCTTAACTAACGATGCATCGTCTATTACTCCGCGATCTCTGAACTATGTGTTC -AATAACCGTAAAGGTACAGAATCGGTTTGGGGTTCTTCTAAAATTGCCACCACTGCACAG -GCGGTTGCTGGTACAGATAACACTGTAACTATGACTCCGCTTAAAGTCAAGCAAGCGATC -GCGTCCCTGGTTCCGGTTCAGTCAAGCGCGACCGAAAGCTCGCAAGGTTTGGTACAACTG -GCAACAGTTGCACAGGTTCAGGCTGGTACGATCCGTGAAGGGTATGCAATTTCACCTTAT -ACGTTTATTCGTTTAACTGCAACTGAAAGCAACCTGGGCGTTATTCGTATCGCATCACAG -GCAGAAGCAAACGCGGGTACTGATGACACCAAAGCGATTACTGCGAAAAAATTAATCAAT -ACCCGTGCAACTGGATCTCAGTTCGGTGTTGTCAAATTAGCAACAACTGTTGGTTATGTG -GCAAACACTGCACTTTCTTCAAACGCTGCTGTATTACCTAGTGATCGAAATGCGGTAATT -AACGGTTCTCTTTATGAGAATAGCGCAATATATAACAACAAATATCAGACGTGGACAGAT -CTTGATTGGCATTTCCCAGTAGGTGCTATTGTCATGACTGGTTTTCAGACTGACCACGGT -AGTTTGTATATTTGTGATGGTCGCTCACTGAATAAAAATAACTATCCGTTACTTTTTGAG -CGTATAGGTTATACATTTGGTGGTGGCGGTGATTGGTTTAACCTTCCAGATTGTCGAGGC -GTTGCAGTACGTGGTCATGACCGTGGGCGTGGACTAAACCCTAATCGTGGGTATGGTACA -TATGAAGGCGATATGTTGGGCTGGCATGAACACCCATTACAGCTTATCTACCAGAACGGC -GGTAATATTCCTAAATGGCAAGCAGTTTACGAACTGAAAAGCGCCGAAAAGAATGACCAA -AGCGCTCGCGTATTTGATGCTTCTATAACTAAAGCCACTGGTGTGGGTGGGGAAGAAACC -CGCATGAAAAACATCGCATTAAACTACGTAATTCGTACTCAATAGAGGTTATTAAATGAT -CATCGACAAATTAAACCCGTTGCCGAAGATCCCGTTTGTTGATGGCGTCCCAGATGACGC -CACGACTCAAACGAAGATTATTTGGATCAAAAACGGTGAAACTCTGGACGGTTCGCCAGA -TAAAGTGTCAAACACTGGTAGTCTTAACCGAACTGGTGTAAACATCCAGCAGAACGCGGT -TCAGTTAGAACAAAATACCATCACCCATAATGATAAAATCAACGAAGTAATCGATCAGGT -TAACTTGATTACTGAAAACATTGATGCTATTGGTGATGAGAGCGTAATCAAAAAAGTTAA -CCAGTTGGATCAGGATGTTCGGGCATTAACTTTATCTAACACCCAAACACAGAACAAGGT -AGCACAGTTAACCCTTTCTGTAAATGCTCAAAACGATGAAATTGGTGAATACGATCCAGA -AAAAGATCCTAAACACCGCACAATTCGTAATGATATCATTTACATTAAGAAAGAAGTTGG -TTCATATCCTGGATTTAACGTTGATGGTGATGTTGACCCCTCTTCTACTGGTACTGGCCT -TAAATACCGCGTACTGAGTAACCAACGTGCTATTTCTATGCAGGAAACTCGCATAACCAA -ACTGGAAGATGATTGGGCGCTTTCCGAAGTAGGACAACTGACAGAAGAGGTAAAAGAACT -TCGTGCTGAAATGGGTGATTCTGGTCTTGCCACAACCCGATCAATCTATGCGCGAATCAA -GATCCTTGAGGATGGTTCTATTGTAATGCAAAATGAACTTGATGCGATTAATAGTTATAT -CGGTCGCACGTCAGGTTCAACCAGTTCCATTAACGATCGTGTGAACAGTCTGGAAAACTC -CGTTAGTTCTCTGGCTACACAAATCAATGATCCGGTAACTGGTATCACTGCACAAATTGC -AACCATTAACGGTCAAATCGGTACGGCTTCTGCTCAGGGTAGTATCCGTTATGATATTGC -GGAAACTAAACGCAGATTGATGGATATGGAAATGATTCTGGGTGAATCCGGCGATGATGG -ATTGCAGGGACAAGTTGCGATCTTAACTGGTGACGTTGGTGAAGATTCAGATCCTACCAG -TATCAAAGGCCGTTTGAGTGTTGTTGAGGGTGAATTGCGCACCAACACTAGCGCACTCTG -GGAACTGCAAGGCATTGTAGGTAACTCTTCTAGTGGCCTCGTTGCAACTAGCCAGCAGAT -TAACAAAGAAATCTATGGTGATGGTGTTAGTTCCGATCCTGTTACTCGCGCTGGTTTGAA -AAAGACAACCCGCAACCTGTTCACTCAGGTAGGCGATAACGCAGAAGGTAACGAAACTGG -CATTTATGCACTGATTGCCGACCTTAATAAACGTGTTGAGGATTTAGAAGCGTTGAACAT -TGCACAGGCACTTGCAGATCGCGTAACTATCGAAGATCTGAATGCTAAACTGGCTCTGTA -CATCAAAGAAGCTGACGCTGATCTCCGTTATGAGAGCAAAAACCCGCCTCTGTCATTCGG -TACTAACCTAACTGGTGATACTGAATACACTACTGGCGATCCATTGTCTCTAAGCGTAAC -TATGACTGGTGGCGTTTCTCCGCTGTCTTATCAGTGGACGAAGAACGGCGTAAATGTTGG -TACTAATGCTAACACATTTACCATTGATTCGCTACAGCCTTCTGATTCCGGAACCTACAA -AGTAACGGTAACTGATGCAAGCCATAAAGTCATCGTTTCTGATGAACTGGCGATCACTGT -CGCTTAACGATTAACAAGGGGCTTCGGCCCCTTTTGAGGATCTTTATGATTACGAACAAC -CCAGCACAATTAAAAGATGAAATTCTGCGCCGCTTAGGTGCTCCGATCGTCAAAATCGAA -GTGACAACAGATCAGGTTTATGACTGCATTCAACGAGCATTAGACCTATATGCAGAATAT -CATTACAATGGATCTAACAAAGGGTATATCATTCTTACCCTGGGGCCGGATAACCCGAAA -AATATTTTCGATCTGAGTAAAGAACACATTTTCGCAATTACTAAAGTATTGCGTACTAAC -ATGGGTTCCCTTGTATCGATGGATGGTACTGCGGTTTATCCGTGGTTTACTGATTTCCTG -ATGGGCCTTACTGGTGGTTCTCTGGGCGGTGGTGGTTGTGCATCACGTACCTACGGAATG -AACGCATACGGCGCGGATATGGGCTATTTTACCCAGATGATGAGCTATCAGCGGTCAATG -CAAGATCTCCTGTCTCCGCTTCCGGATTACTGGTATAACGACGACACAGGACAGTTTGCA -GTATACGGAACCGTTAAAGATGGTGATATTGTTGTTATCGAAGCAATGATCAGATCCTTT -GTTGATGTACCCAGTATGGTCGGTAACGTCTCTGGATACGCTACAGCGGGTTCTGATGGC -GAAGATAAGCCAACTATAGCAGATATATACAATAACCCCTACAAAGCTGTCTCAGGCGGT -GTGAAGGCTGGTCAAGGTACAAGCGTTCAGGGTTCATCCTCTGCGTATAACAACCGTTGG -GTGAAAGATTACGCAACTGCTCTTGTTAAAGAGGTAAACGGTCAGGTGCTGGCTAAGTTT -CAGGGTATGCAATTACCTGGTGGTGTTGCTCCGGATGGAACCCGACTGATTCAGGAAGCT -ATGCAAGAAAAAGAAAACCTCCGTCAAGAACTTCTGTTACTGTCTGATGCACTTCCAGTG -TTGATGATGTAAGGAGGAAAAATGCAAAATTGGGATGAAAGTCTGTTTGCACAGTTAGAA -GATGGTTCCGGCGTCGATCGGAACCTAAGACAAGAAGTAACAAACCCGTATGTTAACTGG -TACAAGTATAACCCTACTCAACAGTTGCATGATTCACTAACAGCCGAAGCAATTCAAATG -AAATCTCCGGATATGTATTACGTCCGTCGAGAATTTGTTAATATTGATAAAATTTTGGGC -GAAGACCGTGAATCGAAGTTTACAAAATCGTGGAAAATTGCAGCATACATCGATTCGTAT -GCAAACTACGAAGGGCAGAGAGACTTTTACAGTAAATTCGGTATGATGTCAAACGACGAA -ATGACACTTGTGATCAATCCTCGTTTATTTGCACATCAAACTGATGGCGGGATCCCTGTT -CTGGGAGATTTGATTTATTTCCCTATGGATAACAGCCTGTTTGAAATTACATGGATTGAG -TTTGACCCGTTCTTCCAGTTCGGCGATCGTCCTCAACGTAAAATCAACCTCGTTAAATTT -ATCTATACTGGTGAAGAATTGGATCCTAAACTGCAACGAAATGAAGGGATTAACCTTGCC -CCCGATGCCGATCTGGATCTCGAACCTATTCGAAATCTTGATGGGTTGGCGGATACCAAT -ATTGAACAATACGAAGAAGATCAAGCCTTTGAAGATGAAGGCGATGAATTCATTGAATCG -TTTGATGTTGTTAACGGGCGCGGATCACCGTTCGCACAGTTCCCATAAATATAACCAGGG -GAAACCCTATACATGTAGGGTATAGGAGAAATCTTATACCCGCTTTAACCCATACAGGAA -AAATAAAATGTTTGGATTTTGGTATAATAGTTCGCTGCGAAATTATATTGTCTTGATGGG -TTGTCTTTTCAATCACGTGCAAGTTAAACGCGTTCGCGGCGAACAAGAAAAATTTATCAA -GGTTCCGATTACCTACGCATCAAAAGAAAAATTCCTGGCATCCATGAACAAGCTGAACTA -TGCATACAGTCAGGAAAATGTTGCTAAAACGGAAACAATTTTACCACGTATGAATCTATC -CCTCGTTGATTTGCAGTATAACGCAATTCGTAAAACGGGGATCGCGGTAAACCAAAAAAT -GACGCAGTTACGCGCACCTGGAAAAACAGTAACGCAGTTTAATCCTGCTCCGTATCGTCT -CATGTTCGAACTGGGAGTGTATACCCGTTACGAAGATGATGTGTTTCAAATTATCGAACA -AATACTGCCATACTTCCAGCCGCATTTCAACTGTCGTATTACAGAATTACATAAAAACGA -CATTAAAATAGACCGAGATATTAAAATATCTCTGCAATCTGTTTCCCCTGATACCACGTT -TGAAGGTGATACAACGACACGGCGACACATTGAATGGTCTTTAATGTTTGAATTACAGGG -CTACCTGTATCCGCCTGTTAACGAGATTAAAGGCGAGATCAGAACAGTATACACGGATTT -CTTTTCCAATATGAACCCGTTGGACAAAGACAATTTTGAATCCGTTGATGCTCAGGTGGA -TCCGGTTGATATGCCTATACAGGATTACACGGGAGAAGAATACGTTCAAACGTATGCTAA -TGATATCCCAATTCCTAGCGGTGATCAACCTCCTAAACCGAGGGGCCAATAATGGAAGAA -TTTAGCGTAAAACAATTACTTGATCTTGAAAATCTCCCTGGTGCTGAAACTGGGGAAGAA -ATGGTTGTATATGAAAAACTCGAACTCGTTGATGTCGAGTCACACCCAGCAGATCGAAAA -CCTGATTTAGAGGAAGACTATGCACTTGCGCGTAAAACCGCGCATTACATGAATCAGATG -ATCATGGATATGGCACAAATTGCCTTGCATAACGCTAAAAACTCTGAATCTCCGAGACAC -GTTGAAGTTTTTACAACCCTGATGAATCAGTTAAACAATTCTAACCAGGGATTGATGAAA -ATTCATAAAGAAATGCGAGAAATTACCGAAGAAAAAACCACAACTACCCCGCTTCCTGAA -CAAAAGGATAAAGGGGTTAATATCGAAAACGCAACTGTTTTTGTTGGTTCTCCTACAGAG -TTGATGGCTATGAAAGGTAGTTCTTACGACGCAAAAGATGCGATTGCCGGGGAATGTGAG -GAAGTATGACCGAACCAGTAATGAATCCAGAAAAAGAATCAGATCATCCTTTGAATATGA -TGCACCCTAAATACCTGAAACGAAAAATCGAAGACGGGATGGAATGGGTACAAAGTAACC -ATGATGGGAAATGGTATCCAAAGACGTTTAAAGATTACCTTAAAATTAACGGTATCGAAA -AAGTAACGTTACAGGCAAAGGATAAGAAAAATTTCGCCACCTTTAAAGACAAAGGGAATA -AGCGAAGCCGTTACATGGGGATCCCAAACCTTAAACGTGCGTATGTCCAAACTCAATGGA -CAAATGAAATGGTTACAGAGTGGGTTAAATGTCGTGACGATATTATCTACTTTGCGGAAA -CATATTGCGCAATCACCCACATTGACTATGGTACTATAAAGGTTAAACTGCGTGATTACC -AGCGAGATATGCTAAAAGAAATGGTATCAAACCGTTTCTTTATTGCAAAACTTAGCCGTC -AGTTAGGTAAATCTACTTGTACGGCGATCTTCTTTGCACATTTCGTTTGCTTTAACAACG -ATAAAGACGTTGGTATTTTGGCGCATAAATTGTCGATGGCTAGTGAAGTTTTGGATCGTG -TGAAACAGGCTATTGAACTGCTCCCCGATTTCTTACAACCTGGTATCGTAGAATGGAACA -AAGGTTCTATCGAACTTGATAACGGCTGCTCCATTGGGGCATTTGCAAGTTCTCCAGACT -CCGTTCGTGGTAACTCCTTTGCATTGGTTTATCTTGATGAAGCCGCGTTTATTCAACAGT -GGGAAGATGTCTGGTTAGCGTTAAAACCAATTATTTCTTCTGGTAGGAAATCAAAAATAT -TTTTGACAACTACTCCTAACGGAATGAACTATTTCTACGATCTGTGGAACGCTTCTCTGG -AAGGAAAATCCGGTTTCACTACATACGAATCCAATTGGACTTCGGTCAAAGAACGTTTAT -ATAACGATAAAACCGATGAATTCGATGATGGTTATTCGTGGTCTGCTAATGATATTGGGG -CAGGTAGTCGAGAGGCATTTGCACAGGAACACGAAGGCGCATTTAACGGAAGTAACGGAA -CTCTTATTTCCGGCTGGAAACTTTCTAAAATGTCATGGATTGATATTGAAGAAACCGAAA -GTAATTTTTATCAGTATAAAGCACCAGAAGAGGGGCATAAATATATTGCGGTACTTGATC -CAGCCGAAGGGCGTGGTCAGGACTATCACGCGATGCATATTATAGATATTACATCTATGC -CGTTTGAACAGGTTGCTGTATACCATTCAAACAAAACATCGCACCTTATTTTGCCTGATG -TCCTGTTACGTTATCTTATGATGTACAACGAAGCATGGGTTTATATCGAGCTAAATAGCA -CAGGTCACTCAGTGGCTAAATCTTTGTTTTCTGAGTTGGATTACGATAACGTTATTTGTG -ATAGCTATAGCGATTTGGGGATGAAACAGAGTAAACGATCGAAAGCGATTGGCTGCTCAA -CCCTAAAAGACTTGATAGAGAAAGATAAACTCATCATAAATAACAAAAAGACAATACTTG -AATTTCGTACTTTCTCAGAAAAAGGTGTTTCGTGGGCTGCGGAAGAAGGTTTCCATGACG -ATCTCGTTATGGCGCTGGTTTGCTTTGCATGGCTAACAACACAAATGAAATTCGCAGAAT -TTTGCGAGAAAGACGATTTGCGGTTGGCAAATGAGGTATTCGCACGTGAGCGCGAACTGC -TTTATGAAGATATGTTATGTCCTGTTATCGTAACGAGTGGCGACGAAACAATATCTGTCG -GCCAACACGGTATTTCGTTTATATAAATTTAGAGGAAACTTAATAATGGCTTTAATCTCT -CCAGGCATTGAAACTAAAGAAACATCGGTACAATCTACCGTTGTTCGAAATTCAACTGGT -CGTGCTGCTATTGTTGGTAAATTTTCATGGGGGCCAGCTTACCAGATCCGTCAGATTTCT -AACGAAGTCGAACTGGTAAACTATTTTGGCTCCCCAGACAATGACACCGCTGATTATTTC -ATGAACGCTGTAAACTTTTTACAGTTCGGTCAGGATCTGCGTGTTGTTCGTGTCGTCGAT -AAAGAAGCCGCAAAAAACGCAACCGCGATCTATAATCAGATCAAAACCACGATCACCGCT -GCTGGTTCTAACTATGCAGTAGACGATCAAATCAAAGTTAAACACAATAACGTTGTTATT -GAAGAAGATGGCGTTGTTACCAGTGTTGATGATCAGGGTAAAATCCTGTCTGTGTTCATT -CCGAGCACTAAGATCATCGCACACGCTAAACAGGTTGGTGTATATCCGGATCTGTCTAGT -GGCTGGACTACAGAAATCGTTTCCAGTTCTTCTGGTGTTTCTGCTACGATTACAATCGAC -GGCGTAGAAGTTGATCCGGGTATTACTCTGCTCAACCTTGACACCGCAAAAGAAACTATT -CAGGCAACTGCTTTCCAGGAACTTTGCACCAAATACCAGCTACCGTCTGTTATTGCAATT -TATCCTGGCGAAATGGGTAGCACCGTAACGGTTGAAATTCTGTCTAAAGCTGCATACGAT -TCTTCGGCTGTCATTAAGTCTTATCCTTCTGGTAAGTCTGGTAAAAACAGCGGTCGCAGT -TCGATGAACTTTGGCCCTCAGAATGATAACCAATACGCGTTTATCGTTCGCCGTGGTGGT -ATTATCCAAGAAACGTTTATCGTGTCAACCGCTAAGGGTGATAAAGATATCTACGGTTCA -ACGATCTACATGGATGATTTCTTTGCAAACGGTGGTTCGCAGTATCTGTATGGTACGTCC -CTAAACTGGCCTGTCGGATTCTCCGGCGTTCTGGAACTGGGCGGCGGTACTTCTGCAAAC -TCCACTGTAGGCGCTGATGAACTCATGGCTGGTTGGGATATGTTCGCAGATCGTGAATCT -CTGCATGTTCCTCTGCTGATTGCTGGTGCTTGTGCTGGCGAAACTGCCGAAATTTCGTCT -ACTGTACAGAAACACGCTGTGTCTATCGGTGAAACCCGTTCAGATTGCGTTGTATTCGTT -TCTCCGCCGCGTTCTGCTCTGGTTAATATCCCACTGGCTCAGGCCGTTGATAACCTCGTA -GAATGGCGTACAGGCTACAAAATCGGTAATACTACCCCAGTTGATAACAACATGAACGTA -AGTTCAAGTTATGCGTTCATCGACGGTAACTATAAGTTCCAGTATGATAAATACAACGAT -GTTAACCGTTGGATCCCGCTCGCGGGTGATATGGCTGGCCTCTGTGTTTATACCGATCAG -GTATCGCAACCGTGGATGTCTCCGGCTGGCTACAACCGTGGTCAACTGCGTAACTGCATC -AAACTGGCTATCGAACCGACTAACGCGCATCGCGATTCTATGTACCAGGTACAGATTAAC -GCGGTTACTGGTTTCTCTGGTGGTGCTGGATACATTCTGTACGGTGATAAAACCGCAACG -ACTGTTCCAAGCCCGTTTGACCGTATCAACGTTCGTCGCTTGTTCAACATGATCAAGAAA -GACATTGGCGATAACGCAAAATATAAACTGTTTGAGAATAACGATGATTTCACTCGTTCT -TCCTTCCGTATGGATGCAGGACAGTATATGTCTAACGTTCGCGCTCTGGGCGGTGTATAC -GATTACCGTGTGGTTTGTGACACTACGAACAACACGCCGGATGTTATTGATCGCAATGAG -TTTATTGCATCAATCTACGTCAAACCAGCACGTTCTATCAACTACATCACACTGAACTTC -GTAGCAACCTCAACTGGTGCGGATTTCGATGAGTTGATTGGTTCAACGTCAGTATAACAT -GTAAGGGGCTGAAAAGCCCCTATAAATACACATAGAGGTTAGAAAATGCTTACTGATATT -GTACGCGCCTTTGAATCCGGTGATTTCGCACGTCCGAACCTGTTCGAAGTAGAGATCCCG -TACCTGGGCAAAAACTTTAAATTAAAATGTAAAGCCGCTACTATGCCAGCGTCTACCGTT -GAAAAAGTTCCGGTAGGTTACATGAACCGCAAAATTAACGTTGCTGGTGACCGTACCTAT -GATGACTGGACAATCACGGTATATAACGACGATGCACACACAACCCGTGATGCAATCGTA -GCATGGTCAAACATGCTGCATGGTATGGGTGAAGACATTACAGGGGATATCCCTGCAAAC -TACAAAAAAACCGCTACGGTTAAACAGAAAAACCGTAACGACGAAGTAACCGCCGAACAT -ACCATTTATGGCCTGTTCCCGACCAACGTTGGTGAGGTTACTTTAGACTGGGATAGCAAC -AACGAAGTGAGCACTTTTGAGTGTACTTTCGCGCTAGACTGGTGGGTTTAAACGCTATAA -ATACAGGGGTAGCAATACCCCTTATCATTATTTTTCGGAGTTGTAAATGAACTTTTTTGG -ATTAGACAATGTGTTAGGGTTTTTCAAAAATTTCGCCAAACAGGATGAAATGGAATTTGA -AGCCCAATTAAAAGATGATACAGGTTCGATTGCGCCTCCGAAAAATAACGATGGGGCGCA -CGAAATCGAAACGGACTTATCAAACCAGCGTTATTCTTCTGTGTTCCAACAGTTCTATTC -CGGACAGGATCCGCGAATTCAGAACAAAACACAGCTAATAAATACATACCGTGGTATCAT -GACATACCCGGAAGTGGAAAACGCTGTTTCTGAAATCATTAACGAAGCGATTGTTAATGA -ACAAGGGAAAGATATTGTTACGATGGATCTTACTAAAACGAATTTTAGTAAAAATATCCA -AGATAAGATCATGGAAGAACTCGATACCGTAATGAATATTCACGATTTCGATAACCGAGG -CTCTCGTTTATTCCGTGATTGGTATGTTGATTCGCGTATCTATTTCCATAAAATCATGCA -CAAAAATGAAGCTGACGGCATCAAAGAATTGCGCCAGTTAGATCCCCGTTGCATGGAACT -GATCCGAGAATCGGTTACAGAAACCCTACCCGGTGGGGTTAAAATTTTCCGTGGCTATCG -TGAATACTTCGTATACACTGCACCGAAAAACGGTTATAGCTACAACGGACAGATTTATAG -TCACAATGACAAGGTAAAAATTCCTCGCTCTGCGATTGTTTACGCTCATAGCGGCCTTGA -AGATTGCGACAACAACATTATAGGCTACCTGCACCGCGCGGTCAAGCCAGCTAACCAGTT -GCGTTTGCTGGAAGATGCTATGGTGATTTACCGTATTACCCGTGCGCCCGAACGTCGTGT -GTTCTATATCGACGTAGGTCAGATGGGTGGCCCTAAAGCTACACAGTACGTAAATAACAT -TGCACAGGGCTTAAAAAACCGTGTTGTATATGACGCGAGCACTGGTAAAGTTAAGAATCA -GCAAAATAACCTGTCAATGACAGAGGACTATTGGCTGATGCGTCGTGATGGTAAAGCAGT -TACCGAAGTTTCAACGCTTCCTGGTGGCACTGCCTTCTCTGATATCGACGATGTTAAGTG -GTTTAACCGTAAGCTGTATGAAGCGTTACGTATTCCGTTAAGCCGTATGCCTCGCGATGA -TGGCGGTATCCAGTTGGGTAACGATGGCGGTATTACCCGCGACGAATTGAACTTTAGCAA -ATTTATTCGCGAATTGCAAATTCAATTCAACCCTGTTCTTGCGGATCCGTTAAAAACTAA -CTTGATCGCGAAGAAAATCATTACAGAAGATGAATGGGATGAAAACGTAAGTAAGATTGC -TTTTGTATATCAGCAAGATTCTTACTATTCCGAAATCAAAGATATTGAGATTTTGGAACG -CCGTTTAAACCTGATGGGCCAACTTGAAGGGGTGGTCGGCAAATATATCTCCCATAAATA -CGTAATGAAAGAAGTTCTCCGGATGTCTGATGAGGAAATTCAAAGCGAAGCCAAACAGAT -AGAAGAAGAATCAAAAGAAGAACGTTTTAAAAATCCAGAAGCGGAAGAGGAAAACTTTTG -ATGAAAGAATTTATCGAAGCAATCAAAAGCGGTAATCTGGTGGAAGCTAAAAAAACTTTT -TACTCCATCATGGAAGACCGCACAGAAGCGCTTCGTCACGAATTGCGCGTTGAACTTGCC -GAAGCTGTACGCATCGAAGGCGAAGAAGACAAAGAAAAAGACGACGAAGGCGCTGATAAA -GATGACGAAAAGGGCGATAAAAAGCCAGCCGAGGATGATAAATCCGATAAAGATGATGAG -TGAGGTGTGTAATGCAACTTGACATCGAAATCACCGCCGAAGATCTCCATGAACATTTAG -ACGAAGCGAAAGCTCGTGTAGATATTCTGGGTATCGATGAAGGCACGGTTAAAATCATCG -AAAATTTGGCGGTCACCGAACCAAATTTAGCCCTTGCTATGATGGCGGTTGTTGAAGGTT -TAACACTTGATGAGGTAATTGTCAAGCATGTTGATTCCCGTGGCAACGTAGAACGCCTCA -AAGACAGGAAAACCCGTGAGCGTAATGCGTATCAGACGACCGGATTAACTAAATCCCAAC -GTCGCCAGATCGCGCGTCGTGCTCTCAAAACAAAACGTGCTAACCCGTCAATTGCTACTC -GCGCACAACGTAAGCGCAAGAAAGCATTGCGTAAACGTGCTGCACTGGGGCTATAAATAT -GAATGAATCCCAAATCAACGAAAACGGCGATATGCTTTTAATCGAAGAATGGGGTTTACC -TTGCGGTGACGTTTCAGAATCTATTTTAGAATCTGTTGGGGAATCAAAAGACGGTAAATT -ACGGATCGAAGGTATTTTCCTTCAAGCCGAAAAGGTTAACCGTAACCGTCGTTTGTATCC -TAAAAACGTACTTGAAGAAGCAGTTAACGATTATATTAGAACTCAAGTTAACACCCGTCA -AGCATTAGGTGAAATGAATCACCCTCCGCGTCCGAATGTGGATCCGCGAAATGCTTGCAT -CCTGATTGAAAAATTGTGGTGGAAGGGTAACGATGTTTGGGGCCGCGCTGTTGTTGTTGA -AGGCGACGGTGGTGATGGTGACAAACTGGCGGCGTTGATTCGTGCTGGTTGGGTTCCTGG -TGTTTCTTCCCGTGGATTAGGTAAGCTCTCCGATTCCGGCAAAGGCTACGGCGTTGTACA -AAAGGGCTTTAAATTAGCTGTAGGCGTTGATGTCGTCTGGGGGCCAAGCGCACCTGATGC -ATATGTTAAGCCTATAGTGGAAAATCAGCAAAGCAAACCGCTTGTTGAGAATAATAATGC -TGATGACGCTTTTCGGGAATTGTCCGAGCGTTTGAAAGGTCTATAAATACATTAAACAAA -ACAACAGGAAAATCAAAAATGCTTAAAGAACAACTGCTGGCGGAAGCCCAGAACCTGGAT -ACTCCGGTCGAGTTAGACAGCATTTTCGAATCAGTTGAACTTTCTGATGACGTGAAAGCG -ACATTCACCACTGTATTCGAACAAGCTGTAAAAGCTGGCGCTGCAAAACTCGCTGAATCC -CACATTACCCAGATCGCGGAACGTTCCGACGAACTGGTCGAAGCTCAGGTAACTGAACGT -GCCGCTGAAATCGAAACTAAGCTGTACGAAGATGCTGATAAATATTTTGCGCACATTTCC -GAAGAATGGCTGAAAGAAAACAAAGAAGCCGTTTCCCGTGACATCAAAGCCGATCTGTTT -GAATCCCTGATCATGGGCCTCAAAGAAGTTCTGGTTGAACATAACGTTGTCATTCCGGAA -GAACAGGTTGATGTAGTCGCCGAACTGGAAGACGAACTGACTGAGAATCAGCAGGAAGTT -AAAACCCTGTTTGAAGCGAATCAGGAACTGACCAAAGAAATTTCAGAAATGAAACGCAAT -GCAGTAGTTTCAGAGAAAACTAAAGGTTTGACCGAATCTCAGGTCGAAAAAGTAGAATCT -CTGATTGAAGGGCTGGAATATTCCGCAACCTTCGAAAATAAACTCAGCGCAATTGTTGAA -ATGGTAGCAACCAAAGCTGAAAAACCCGTTGACGAGTCTGTAAATACTCCGCAAACGAAA -GATAACTTTGTTCCGGTAGTAGAAAGTGTTCCGGCAGAGAAATCCAAGATCAATAAATAT -GTACAAGCGGCAAAAGCCCTTTCTTAATTTCAAAAGGTAAGAAACAATGTCTAAGAAAAA -CGAATTGATGGAAAAATGGAACGATCTTCTGGAGTCTCAGGAAGGCTTACCGGATATCGC -TACCAAATCCAAAAAACAACTGATTGCTGCCATTATGGAAGCACAGGAAAAAGACGCAGA -AGTTGATCCGGTTTACCGCGACGAGAAAATCGTTGAATCCTTCGGTGGTTTCCTGGCGGA -AGCTGAAATTGCTGGTGACCACGGTTACGACGCAACCAAAATCGCTTCTGGTAACTCAAG -CGGTGCTATCACCAACATCGGCCCTGCTGTAATCGGTATGGTTCGCCGTGCGATTCCTAA -CCTGATCGCGTTCGATATCTGCGGTGTTCAGCCTATGACTGGCCCTACTGGTCAGGTGTT -CGCTCTCCGCGCAGTGTACGGCAAAGATCCGCTGGCTTCCGGTGCTAAAGAAGCATTCCA -TCCGATGTTCTCTCCGGATAGCATGTACTCCGGTCAGGGCGCGGCTCCGAGCAACGGCTT -TACCGAACTGGCTTCCGGTACTGCGATCGCTGACGGTGCTATCGTGTTCCACGATTTCGG -TGAAACTGGTCGTGTGTTCCTCCAGAACGTTTCTGGCTCTCCGGTTACTGTAACTGGTTC -TACCGACGATGCTCTGGATGCTGCTGTTATCGCCGAACAGGAAAAAGGTACTCTGGCTGA -AATTTCTTACGGTATGGCTACCAGTGTAGCAGAACTGCAAGAACAGTTCAACGGTTCTAC -TGGCAACCCGTGGAACGAAATGGGCTTCCGTATCGATAAGCAGGTTATCGAAGCACGTAG -CCGCCAACTGAAAGCACAGTACTCTGTAGAACTGGCTCAGGATCTCCGCGCTGTTCACGG -TATGGACGCTGACGCCGAACTGTCTGCTATTCTGGCAACCGAAATCATGCTGGAAATCAA -CCGCGAAATCGTTGATATGATCAACTATACCGCACAGGTTGGTAAAACTGGTTTCACTCA -GACCGTTGGCTCTAAAGCTGGTGCGTTTGACTTCCAGGATCCGATTGATGTTCGTGGCGC -TCGTTGGGCTGGTGAAAGCTACAAAGCTCTGCTGATTCAGATCGACAAAGAAGCAAACGA -AATCGCACGTCAAACTGGTCGTGGTGCTGGTAACTTCATCATCGCTTCCCGTAACGTGGT -TTCCGCTCTGGCTCGTATCGATAGCGGTATCACTCCGGCAGGTCAAGGTCTCCAGAAGAC -TCTGAACGTTGACACCACTAAAGCAGTATTCGCTGGTGTTCTGGGTGGCGTGTATAAAGT -ATACATCGACCAGTATGCACGTGGTGATTACTTCACCGTGGGTTACAAAGGCGATAACGA -AATGGATGCTGGTATCTACTACGCTCCGTATGTTGCGCTGACCCCGCTGCGTGGTTCTGA -TCCGAAGAACTTCCAGCCAGTAATGGGCTTCAAAACTCGTTACGGTGTAGGTATCAACCC -GTTTGCGAACTCTCGCTCTCAGGCTCCGTCCGACCGTATCACTTCTGGTATGATTACCAA -AGAAATGTTCGGTAAAAACGCATACTTCCGTCGCGTGTATGTGAAGGGACTTTGATCCTA -ATTCGTTGAAAAACAACGACTTTTTAAAGGGAACCTTCGGGTTCCCTTTTTGTTTATATA -AATATTGAAAACATTCGAGGCTATATTATGAAACATATCATTTATAAGATAACAAACACA -ATCAATAACAAAATATATGTTGGTGCTCACTCAACCGAAGATATCAACGATTCATACATG -GGTTCCGGTATTGCAATCAAAAAAGCGCAAAAGAAATACGGTATGAAACATTTCATAAAA -GAAATACTTCATGTATTTGATACCCGTGAAGAAATGTATGAGAAGGAGAGGGAAATAGTT -GATATTGAATTCATAAATCGACCAGATACGTATAATGCTGGTATTGGCGGTAAAGGTGCT -CCAATGGCGTTGATTGGATGGAGTGATGAACAACGCAAGCTGATTTCTGAAAATACTTCG -AAAGTTATGCAATCTCCAGAAATGCGCGAACGTCTTTCAAAAATCAAAAAGGGAAGAAAG -CAATCCCAAGAATCCAACAGGAAGCGCTCAGAGACGTTAAAAGCTAAATATATGAATGGA -CGTATAGACAGAGAGTATAAACCTCTCACAGAAGCGCACAAGGCGAAATTAGGCCGTTCT -GTATCGATAGATGGAGTTGTATACTCATCCGGATCGGAGGCGGCAAAATCCCTTAGTATG -TCCCACTCTGGTTTAAAATATCGGATTAATAGCGACAAATACCCTACCTGGAAATTTGTT -GCATAAATACCATTATACACTTTACGCAGGAACATAAAATGAGTGAAAAATTTTACACAA -TTAACAAGCTGGTGCGTCAGTCACAGCTACCGCCTGGCCTGTCTAAAAAGGTTCTTGATG -AGGCAACCGGAACAGAAACAATTAACGTAGCTAATACCCGTCCGGATCTGGTATCTCTTA -CCCGTGCGGTAAACAACCTGATCTACGGTGAACTTGTAGCAATTCAGGAAACTAATTTGC -CTACCGCAACCCTGTTCGGTGTGCGTTATCGTAACCCTAAAGGCGATATGACGTTTTCCA -GCGCTGCTACCTATTCCGGTAAGTATGCAAGCCGTGATAACATTCCAGTTGGTGCGGTTG -GTACTGCCTATACCAAAGGCCAAGTTTTTAAACACCCGACAAGCGATGTCGTATACGAAG -CAACTGATAGCGTAACTCTCGCAGGTGCTGATATTGATGAAGCAATTATGGTCGCAGTAT -TCAGCAATAAATTACGCCTGGCAAGCGAAGCCGCGCCAACAAGTCAGTATGAAACCAGCG -AAGATATTAGCACAACTTCTTTCGAAATGGATCGTTGGAATATCAACGTTCGTTCCCGTA -AATTCAAAACTGAAATGACCGTGGAACTTATGCAGGATCTGGAAGCAAACCAATTCAACG -CAGAAAATGTGATTGAAGATGTTCTGGGTACTGTTGCCAGCGAAGAAGTAAACAAAGATA -TCATCCAGACTCTGATCAACGTATCACATCGTTACAACGTTGATGGTGTGGTAACAAATG -GCATTTTCGATGCTACAACCGCATACACTGCAAAGGATGCTCCGGCTTTAGGTCGTTTCC -TGTATCAATTAGTGTGTGAAATGGGGCAGGAAATGAATAGAACGACTTCATTTGAAGCTA -CCTATGTCCTGGCCTCTTCTCGCGTTGTAAGCGTTCTGTCTGCGTCTGGTTGGATGCATG -AAACTGATGAAACCCACCCGTTAGCAACAGGTCGACTTAAAAACGGTTACTATGTCTATA -CTGACACCAATACACCGTTTGATTACCTGCTGACTGGTTGCAAGTACGATCTGGGTGAAA -TGGATCATGTTGGCTCTCTGTTCTATACGCCATACACAGAAGCTGATCAGGCAGGTTCGA -TCAAGATTTCTGTTGATCCTCAATCCTTACAGCCTAAAGTTGCTATTCTGATGCGCTACG -GTTTATCGGTTAACCCGTATACCACTGCTGCTAATGAAAGACTTGTGAAAGGTGATGACT -GGGTAAACCTCTCAGGCAAATCTAAAATGAGTCAGATTGTTGGTATCAAACTTCCTAAAC -TGGGTTGATAGTATAACCCAACTGGGATAATATTCAATAGGTGGAGTAGGGAAACTTACT -CCACCTTTTAATAATTGTTATAATTAATATTAAATTAGATCTTGAATTTATAAATGATTT -ATGATAAAATTTATTAATTATAATTATTATAGATCAAATAATTTTTGAAATCAAGTAAAA -ATAAATTTGATTTTATTAATTAGATCATGTATAATTATTCTTTTAATAATATATTATATT -AGATCAAATAAAATTTGACTACAAATTAATATAGTATATTATAGATCAACTGGGTAAATT -GGTGAGTATGTTATGAGTTTGAAATTAGAAGATCTGCAAAATGAACTTGAGAAGGATATG -CTGATAGATCCCCTCAAGTTGCAATCAGAATCAGCGGATATCCCGAAGATTTGGGCTAAA -TGGCTTCGATACCATTCAAACGCTAAGAAAAAATTGATCCAACTTCATGCGAAAAAAGAA -GCTGATGTGAAGGATCGTATGTTGTACTACACCGGAAGGCATGACAAAGAAATGTGCGAA -GTGGTGTATACTGGGACTACTGAAATTAAAATCGCGATCGCTGGGGATCCGAAAATTGTA -GAAACCAACAAGCTGATCCAGTATTATGACATGGTGGTAGATTTCACCAGCAAAGCACTG -GATATCGTCAAAAACAAAGGATACTCTATCAAAAACATGTTAGAGATCCGTAAATTAGAA -AGTGGTGCATAATGTCTACTGAAAATGAAAAATGTGTAGTGTGCAAGTGTCCGGTTCCTT -CTACTGGTTTTGTGACTGAATCTGGGCGCGTGTGTAGTACTATCTGTGCTGACTACATCG -CAGAAAAAACAAAAAACGGCGAGATCAACGAATCCGATGATCTGAATGAAGTTCAAATGT -TGCTGTAGGAGGATCTTATGATTGGATACGGTGAAGGAATTACAGATCGTGATGAACATC -CTGATTTTTAGTGCATAAATACTAGCGTACCCGAAAGGGGCTTGATAAAAGAATGCTGGA -TGATAGGCGTACTCTTTTGCGCCGTCCGATGGAGTTTACCTTCGGCGGGGTGATTGATAA -TATACCTTCGATCAAGGGCATGTGAATAGAATAGCCAGAATAGTACAGCACTGGCGTTAA -GCAAATGTACAAAAGCCCCTTCCTTTCGGTTGGGGCTTCTTTTTAGAACTTTTCTTCTTC -TCCGCTTTCGAGTTCGGCCTTTAATTCTTCGGCTCGACCTTTCAGCGCATCGCGCATAGA -AATATCGTCTGACGGCGCAACATCAACTTCTTTTACACGATTTTTGTAATATTTTTCAAG -CTCTTTAAGGCCGTCCATAGTACGGCAAGAGGCGACCTTGCTCATGAAATCATCAATAGC -CGCCTCATAAAGTCGAAAATCGTTGAAACTCTTCATTTTGACCTCTAAATTTCGATTTGT -TTGATCACGTAGTCAAACTTTTCTTCATTGTAAATGCGTACTCGTTCGATTGCGTGTTTC -ATACCATAGTTTTTGTATGAATATTTATTTTTAGCATTTTTGGACTTTGCCAGCGTTGCT -AAGTTATCAACCAAATCCCAAACAGTAGCAAGAGATTTAGAATCATGTTTACGCAGTACG -CGCCCAATTGACTGTTTGACTATAACAGCAGATTTGCAAGGATGTCCGAAGATGATGTGA -TGCAGGTTCTTGACAGAAATACCTGTACTCAGTACACCAATAGAACCGATTACGATCAGC -CCCTTCGTTGATTCCGCGATCCGTTTCATTTCGTTTCGCTCATCAATCCCCGTTTCCCCA -GAAATGTATACAACGTTGTCATATACCTTTTTGAGTTGCTCATACAGCCATTTACCATGT -TTGATCTGATTGAACATCACAAACACGTTTTCATCTTTTTCCCTTGCCAGTTTCAACGCC -AGCTTACAGATCCATGCGTTACGCCTGGTATGCGATGTTATATACTTGATTTCGCTTTGG -TAATCGGCCCCCTTCATTTTCTTAATCTCATCCTCTTTGTATCTCATGAAGATGGTATTA -ATTCGAAGGTTGGTAACTTGACCTTCCTGCATCAATCGATTTGTATCAACTGGCTTGAAG -ATTTGACCAAAAGCGCCAATGTATTGCATCATGTTTGCTTTGCCTTCTTTCAGAGAACCA -GAAAGGCCAAACTTGAAAATACACTGATCCATTGTGTTGATGATCTTCTGTATGCTTTGT -CCTGTTGATTTGTGGCATTCATCCACCATCAAACACATGAACTGTTGAAACCACTCAGGA -GGCATTTTAACAGCCGATTGCCACGTAGACACGTAGATCAATGCATTACTGTTTTTAGCA -GTTCCTGAACGTATTCCAAGCATTGCCTCGCGAGGTAAAAGGCGATAGTTGACAATATCA -CCGATCATCTGATCAACAAGGGCGGTTGTTGGGACAATGATTAGTACTTTGCCTGTGTAA -TTTTCCAGACACCAACGAGATATCAACCCCTGGATAAGAGATTTACCCGCTGACGTTGGG -AGGTTAAGCACAGCACGGCGGTTTTTAATCGCATGGAACACCGATTGTTTTTGATACCAA -TACGGATCAATCTGCTTGTTTCCGTCGTATACTGGGTGTTCTTCTAACCACTTGTCAAAA -TCTGGCTGGGTAATTTCTTCTGTTTCGTGGATCTTAGGATCCATCCAGATAGAATACCCG -CGAGACTCCGCGAATTTTGTTACAAGATAGGCTAAACCGTAGGGCAGTTTCCCGTTATAG -TCCATCAAGTATATGTAGCCGTTCCATCCACCATATTTGTATTTTGCCTGGTACTGATAA -CCTGGCGGCTGGAAGCTGAAATAGTCGCGCAATTCATAGACTATGTTAGCCTCTGCCTGA -ATCTGCACATGACTAGTGTTAAGGAATTTGACTTCGATATCCACTATGTGTATCCTATAT -ACGGTTTATATGAATATTTATAGGCTAAATAATGATAAACATTGGAGAACTACAATGAGT -ATTGATTACGAAAAGGTTGAAGGTTTCAAAGCCTTAGAACAAAAAGAAGCCAAATTACAG -CTTGCTGCCTACGCGCAAGAAACGTTTGATGTCAAACTGAACCGCCAGAAGTCATTCGAA -AATATGCTTGCTGATCTGGAATCTGCCGTACCAGCAGAAAAGCCGGAACTGTTGATCGAC -TCCCCCGATCCTGAAATTGTTACATACGAAGGTGAACAATCCGTTCCTGATGTTGTTATT -GATGTGACTAACGATTTCATGGATTACGTTAAAGAGGTTGCTCCGGAAATCGCAGACCAG -ATTGAAATTGTTCCTGACGCTCTACAAGCTCCTACAAGCGATTCTGAGACGGTTTCTGAT -GAACTGGCATGGATGGAAGGGTTTACCCCGTCTATCATCATGATGGGCCGCTCTGTTTCG -AATACTGGCTTTTATACGTGTCCGTATTGGATCTATGATTGGATGAAACAAAATCCGGAT -TGGTACAAGCACCCTGACAGTTGTCCTCATTATTCAGCGCGTCAAACCCTCAAGTCGCTG -GCATGGTACATGCATCGTGATGGGATGGTTACTGTAAGGGAAACCCGAAACAGCCAGTTC -TACACGTTCAAAAAATAATTTTAAAAAGTAGTTGACCTTGCCCTGCTATTCGAGTATATT -TGTATTCGAAGGCGGGGGAATGGCTCTCGCAGTGAAGAAGGAAATACAAAATGAACATGA -TGAAAAATGCTTACTACCCAGTTCTGTTTGTTTGGACTAATGGTGAAGTTAAGAAAATCG -TCAATTCTAAAGCTCCTTATTACACTGTAGGTGAAGCACTTCGCCACGCTGCGGAAGCAA -ATTATCCTGTTCATGCCGAACCTGGTTATGCTCGTTGGAACGGTTCTAAATGGGTTGCTG -ATACCTGGGACAACTACGAAGAAGAAAGAATGGAGTGTGATCCTGATTACGTATCTCGTC -AAATGGAAGCTCATATGATTGCAGATCGTAGACTGGATAATGAAGCTCGCGGATTTTATT -GATTAACAAGGGGCTACGGCCCCTTTTCTTTTAGGTGAAATATGAACTTAAATCACGAAT -GTTTAAAAGATTTGAGCGATGGTAACGAGATTGGTAACGTTATTTTTCTTGATATCGATG -GCGTTCTAAATAATATGCGGTGCATGAAATTTGGTGAACATATGGACATCGAATGCGCAC -GACACTTACGCCGGATAGTGAATCACGCTAATTGTGATATCGTCATTTCCTCTACGTGGA -GAATCGGCAACAGTACCCATAATCTACGTGAAATATTTTATCCGTGGGGATTGTATCGGA -TCATTGGTAAAACTTGCACTAACTTCCCTCATAGCACTGGAATGCGTGGTGATGAAATCA -AGGCATGGATCGATACTTTCGGATGTAAAAACTATCTCATTCTTGATGATGACACCGATA -TGCTTTCTTCACAAAAAGATCATTTTATTAACACTGATGGGTTTGTTGGGTTGACCGAAG -AACAATCCACTTATGCGATCCGTAACATTTTCGGGGTTACTACTCCGTTTTGTCCTGAAT -GCAATGGGTATGGACGTGTTAACGGCTACGACAAATGCGGAACGTGTAACGGTAAAATAC -TCCGGCTATAAATACCAATAAACATAAGAGGTTAAATTTATGGCAATTCCTTCTGTAACA -ATTAGCGCCAACAAAAACGAACTTTTGATTGGCGAAACTTTGACCTTAGAGGTTGAAACT -ACTGAACTAGATCCGGGTGATGTGTTTCTGGCCTATCGTTGGCAAAAAGATGGTGTAGAT -ATTCCAGGCGCAACCGCCGATACTTACACAACTACGGTTGACGGTACAACTGCTGGTGAT -TATACCCTGATCTTAAAACACGGTGCTGATGAAGAATCAGCAACAGAAACCACGTCAGAT -ACAATCACCGTGACAACTTATTCTGATGATCTCGTTTCTAAATGGACGGTTCACCCGATT -CCGTGGCGTGATACCAGCTTTACCCCGATCGGTTATTGGGTACTTGATGAAATTCTGTAT -CAGAAAGCACAGGGTAAAGATTGGAAAACTGATTATGCTGATTACAAGTATAGTGAGGAA -GTACAAACGATCCTGAAAGCGTTCATGGAAAACGGTGAATGTGAGATCCAGGATTCACGA -AACGGCTATATTCATAAAATGAGTGAAATCTAAGAGGCTTTAAATGGCAACTGAAAAATG -GACTACGGTTCATCCTATTCCGTGGAGAAATACCAGTTTTACATATCTTCCATACTGGCT -ATACGATATTATCGTTGATGCTTTTGAGAAAGGCGACGACTGGCGCGATTATGCGGAAGA -AAAATATAAATTAGAGTTTGATACTCTGAAAGAGGCGTTTGAAGATTATGGTGATATTCA -TGTAATCGAATCTCGTAATGGTAAACTGGTTAGTCTGTTGTCATTGACTCCTGCTCCTGA -ACCAGATCCTGACCAATAAAATAAGGCAAACAATGAATACACTTCTTTTTGATTTCGACG -ACACTTTAGCAGAATTTTCTCAGACTTTTTATGATAAGTTCGGTGTACGTCCGGAAGGAA -CGCCAAAAGAACGATATGACGAAATGGCAGCTTCTTTGGTGCGTACTGATTTTTATAAAA -ACCTTCCCCGTATTCAGGCTGGGATTGACCTCCTTCAATGGAGTTTCCAACGCCGAATCG -GTGATCCTGCTACTTTGCTGCTTCGCGCGGAAGCGGTCAGCCCTCTTTGGGTTATGAAAG -AAAAACTGAACTATACTGATAAGATTTGCGCTGAACTGGGGATCTCTCGTCTCGATTTTA -GTCGCATTGACTATCCGAAACAGTTCGCAGAACATGCCTATCGTGGTGTTCTGATTTCCC -GCAACCAGAAACATCTTGAAATCTGGAACAATTCTCATCTAGCTAATAAAGTTCCAGGTA -TTTTCCTTGCGGAAACCCTGGAAGAAAATATTCAGCTAGTCACGGAAGCGCTTGCAAAGG -CTAATCAATAACAAAAAAGGGAACCGCAATGGTTCCCTTTTTTTACAATCTTTTTAATTC -ATCAAGCGCTGTTTTCTTATCACCAACAAAGAGGATTGCTTTACCTCCTGCTTTTCTGAA -AGGCAACACCGCTTTTGCCCGATCGTCAAACAGAATTCCTTTACCAGCGAATGCTGCTTT -TTCATGGCTACTTTTAACGTAGTGGAATTCTGGAACGTAACCCAATACTTTTTGTAATGC -TTTACGTTTTTGTTCGGCAACACCGTCAGAATTGAATTTACCGACACTGGTTAGTATTGC -TACATCGCCAAGTGTTCTTAAATGATGGAATAATTCAAATCCTTCTTTGATTGGTTCCAG -ATTTTCGTAGAAATCAGTTTTGGCAATTTTTGCTTTGCACTTTTTCAACTCATCTTCTGT -CATCATCGAGGGTTCGCCATACATTGGCACAAATGAACCTTCCCAGTCGAACAATACACC -ATCCATATCAAAGAAAAACTTATTCATATCAATTCCTCAGTTTGTGTATGCATACTATAA -TGTTTAATCATTAATGTCAACCCCAAGTGTCAGTTTTCGGTGCGTATGCTGCAACTTTAG -CCACAATTTCCTTATCCAGTTCAGCTACAGATTTCTGAGGCTTACCACGGGCTTTAACTT -TGATGTAGTTTGACTTAACAACAAACATCCCTTTGTTACCTGATTTCTTGATCTCGCTAT -CAACACCAACTTTGTTAAAGCTGATCCAAATGTCGCCGTCCATATACTGTTTAAGAGAAT -CACCCATGTTCAGGATCTTCGCCATAGTAAGGGCCGCGCCTTCGTGGGTATCCATGAGAA -TTTCTTTAGGAACTACACGATCGCGTTTCTGGTTCTGCTGCATAGCAATATGCACATCGT -TCATAACCCATACGATATGTACGTTTTCTTTTTTGTATCCCAGCGTTTCGACATCACGCG -CGATGCTTGCCAGCTTGCTCATGCCTTTTAACGTTACGTCAAAGATGAGGTTAGGTTTAC -GATCTTCTGGTGCTGCCATAATACCAGAATAAACACGGTTTTGGTTTTTGTTGGAAATGT -TGAAAACGTCGGCGATCACATGATGGAGGGTAGATACGTTTTCTGGGTTTTTGAGGTTCA -TTGTTTTGACATCATGACCCGTTTGTTTCTTGATCTCTGCTGCGAGTTTATCGCTACCCA -TTACAAGTTTTTTCAGGGCGTCAACGTCCAGTGTAATACCTTCGATGCCTAGCAGTTTTT -CCAGTGTGAATCCTTTACCGGAACCAGCACCGCCAGCCAGAATAACAACCTGACCAAACT -TAGGATAAGCACGGCCCCCGAAGGTGATCAGCGCTTCGGTTAAGGTGCTTTCTGTGAATT -GTTTAAATGACTTCATGTAAAATTCTCCAGTTTATTTTCTATTATTTATTGACATGCTTT -CTGACAGTGGTGTATGGTTATGGTGTTCGACGGATAGGCCGGAAGAACTTTAAACCATAA -GGTATATGATATGAAAATTGATTTACATCGCTTCATTGCAGAATTTTCCCGCGACCGCGA -CATGGACTCTTTCAACTACTACTCCCGTGAAATTGAAGATCGTTTTGCGGCTCATGTTGG -GTTCCGTCGCCACCATACTCCTAAAATGCGCCCTGACCACGATCCGAAGTATAGCCCTAT -CACATGGCAAGCCCCGATCAATGGTTACGTTGAAGGGATCCGGATCATGACTTTTAACGC -GATGTATGGAAACGCTTTGATCCATATTGCACGTGAGAAAAAGGCAGAATTCCCTAACGG -CTGGCGTATTGATGAAGTGATTCAAACCCTTATGCAGTTACGACGTGAATACAAAGCTGG -TATGTGTCTGCGTAATGAACAGTATCCGATGTATAAAACGTATGCCTATATCTCTAAGCA -TCTAATTAATTCCATGTTTTACATCGTTGGTAATCATGGTTCCGCTATAGATATCGGTTC -TTATGAAATCGTGGCTTATGCTCGCGAACAAGGAAAGGCCGCTGCACTGAAAATCATTGA -ATCTGGTGCTATCATTCTTAACCATCGCATTGATACTATTGCTTACTATGGCGATCAGGT -TGAGGTTGAAGGCGTACACCATGAACGATTCAACAAAGCCGTATTTGCTAAAAATGGTTA -TGCTTATGGTAATGACATTATAACTTCTGCTATTCCTTTCGTTCGTCTAACTGTTGAAGG -ATTTGGAGAAAGGTTGCCTTATAAACTGTCAGAAGCTCAAATGTGTGCGGCTGCTGAAAG -AATCGCCAAAAAGCGGAAAATGTATACCGATGAATACCTGGCGTATGTCAACAAGACAAA -AGAAGATGTAGATCGAGAAATTTCTTGCATGGATTTGTGCCTTTGATATAATGTAAGCAT -CTTTTAAAGGGAGGATGCATGAAAACGATACATTGCAGAAATGAAAACGTTGTTTACTAT -CACGGTTCGTGTACTGCTGCTGGTATTGAAAGCATGTTATTGCCTCCCTGTGATTCTGAT -ACTCTGTCTGAAAAAGGCAGGAAGAAAAATTTAGACCGTGTTTTCTTTACCGCTGATATC -GGGTTAGCTCGTATATACGCTGGAAGGGCCGCGCGTTCTATAGGTGGGGATCCTGTTCTG -TACAGGGTTGTGTGTCCGGTTGATGTTGTATGCATGAACGAAGACAAAGGCGCGAGCGTT -TACCATGCAGCATGGGCTTTTTGTGAGGAATTATGAATGATAAAGTGTTGGCGTATCTCG -TTTTCTTGCTGGGATATCGCTTAGAAGTGATGGGCGCGTATTCATCAATTTATGGTGATT -TAACGGCTATCTGGATGGTCGGGTTAGGGGTTGCTTTTACATTCCTTTCCTTTGCAATTG -TTAATGAATCGGAAAAGGATATTGTATGAAACTATATCATGTGATCTACTCTGGTGTTTT -AGGCATTGACAAACAAATGTTAGTTGATGTAATGTGTAAAAAACTCGATGAACGAATTGG -AACTCGATACAAAAATCATGTATCGGAAAGTATTTTCATCAACGTTGACCATCCAAATGA -CATGGAAGAAATGGTTAATACTCTTGATGATCAGCAGATCCCGTTTGTTGACAATTTCAA -CATGAGCGCTGGAGTGTATACGGTAGTAACTTTTGTTCTAAAAAATGTTGACAGCCGAAA -CGATAGCGTGTTGAATGTAGTTGCAAAAATCGATTCTACCAAAGGAAAATAATATGAAAA -TTGTACACCGTAGCATTTCCGAACTGTCTCAAGCTGAAAAAGTGCAAATTCATTTCAAAT -TCAATGATTTGCGTAAAGGTTATGCCGAAATTGCCCGTGAACATGGGTTAGATAACGGCG -ATATTTACCAGGTAGTACAGGAAATTGAACGTATCCGCGCGTTCCGTTCTGCAAATCTCC -CTGTTAAAAATGCAATGCGCCGTGAAGCGATCGAAATCCATCGTAAGCGTGTGTACAATT -TAGAACGTGCTAAACGTCCGATGAAGAAAGAAAAGAAACCTCGTCCGTTTAAACGTGAAC -ATCTTAACACCTCTATGGCGCTGGCGTTTCAAGATGCGGGGATTATCTAATGCGTAAATC -TGCGATGGATCGTTGGGCTAGTATTGCTACTTCAAACGTAAAACCAAATCAAGCCGCACC -TGATGTAGAAGCGGTTCGTAAAGCAAAAGAACCTGAGATCGTGGCCCTTAGCCCTGAACT -CATCGAGCATCGCCGTCGTGCGTCTGCTATTGAACTGGATCTGCGTATTGCGCGTTCATA -TAATCTCAAGCATGAACACGCCGCAAAGAACAACCATTCTTTTGACCTTACTCTGGAAGA -TTGGAAAGTGTTGATGACAACTGAACGTTGTCAGTATTCCGGCAAGATGTTTAGCAATAA -ACCAGGTAGCCCATATGCCCGTACAATGGAACGTATTAATCCACGTCTGGGATATACACA -AGAAAATACAATAGCGGTTATCAACGCCGCTAATGCCGAAAAATCACAGCTTGATGCATT -CGTTAAGGGTGATGTCATTCTGGATGAAGTAAAAGTGAAGTTGCTGCGTAAAGCACTTTA -TCAAGTTGAAAAACGTGTGAAAATGAAAGGTTAAATTATGTTTAAGAAATATTCTTCTCT -GACTAACCATTATGAAGGTAAGTTCATCAATGGTGTAATTATGAACGGGCTTACTGGCGG -TGTGTGGGTTGCACGTGAAAAGATCCACGGTGCTAACTTTAGCTTTATCACCGATGACGG -TAATATCGTTACCCCCGCAAAGCGTACTGATGTTGTTAAGCCAGCCGAAGATTTTTATGG -CTGTTCAGCAGTAGTTGCAAAGTATTCCCCAGGGATCCGTAAGATGTGGGAAACCCTCAA -AAAGACCGGAACTTATGATGATTTGGTTATTCAAGTCTACGGTGAATTTGCGGGGCGTGG -TGTACAGAAAGATGTTGATTACGGCGAAAAAGATTTCTACGTATTCGATATCCGCGTAAA -TGGTGAATTCCTTCCGGATAACCTGTGCTCGCTGATCTCTCGATCTCATGGCCTGAAAAT -GGCCCCGCTGTTGGGATACGGTACTTTTGAAGAGATCAAAGAACTGCCGATCACGTTTGA -ATCTGTTGTGAATAAAGCAAATAGCGGCATTGGTAGCGATAATACAGTATATGGTGAATT -CGTATATCCTATCATGGAAGTTGAAGAGGGCAACATTGCAGAAGGTTTTGTAATGAAACC -TGTTTCACCTGCTTTTATGCCAAACGGTGAACGCGTTGCAATCAAATGCAAAACAACCAA -ATTCACTGAGAAGAAAGCGAAGAAAGCAACCCGCTTTAATGCTCCGGTTTCACTGTCAGA -AAAAGACAAAAACCAACTCGATGAGTTTGTTTGTTACCTTACAGAGAACCGTGTGAAAAA -CGTTCTTTCGAAACTGGATCTGGCTTCGATCACTGCGAAAGATTTCGGTCGCATTATGGG -CTTAACGGTTCAGGATGCTATTGAAGAAATCAGCCGTAATCATGGGCCTTTCCTCGAACA -GTTCGAAGACCCAGCAATGGCTAAAAAGTTGTTTGTAACCGAAGCCCAAAATATGATTCG -CCCTGTATGGGGCAAAATCCTGAACCATGAATTTTAATCAGATTCTGGTTGATGCAAAAG -CGGCTTCCCTGATCGGTAGCCGTAAACCTCCTGAACGTATCGCAAACATTGCTGTTAAAA -TCGGACGTGCTTTGAACGAACGCGGGATCAGGGCTTATTCTGGCGGCGCTCCTGGTATGG -ATAGTCACTTTCTGTTTGACTATAGTCCGGATAACAGATGTATAATCCTTCCTGAGAACG -GGTTTAACGGCCTTTTCTCAAACGGAAAGGATATCATCGACTTTCGAGATTTAAACACAC -AGAAAGCCGCTGACGAAGCCAGAAAGGTAGCAGGTAACTTCGATACACAGAATGAATACG -TTCAAAGAAGGTATGCGCGAAACACGATTCAAGTTCTTCGTGAAAATCTTGACAATCCAA -CTGATTTTGTTTTATTTTGGGCGGAAGAACGTGAAGGATGTGTTAAAGGTGGAACCGCGA -TCGCTGTAAGATTGGCTAGGTTGTACAAGGTTCCATGTTTCAATCTCTTCAAAGAAAGTG -TATTGAACGATGTGTGTGATACGTTAGGGATCAATATCAAACCCCCAACGTTGGATTTTT -TATGGTAATTGAACATGCGCCCTTACTTCGTGAAACATACGAAAGATGGGCTGTTAATAA -CGCAATAGGTGAAAATATGATTCATGTACGTAGTATCGGTGCTGACGGCGAAACTCCGGT -TCCAGTAGAAGGCCGATCCCCCACTCTCGCAGAACGAGCAAGAGAAATTATAAACGATCA -GAATGCTAAGATGATCGAACATGCGCGGGATACAATCACAAAAGGTGTTCTGAAACACGC -GACTCAACAAAACCTTATCTATGATATGAAGCACGATATCGGCTCTTGTCTGGGTATTGA -ATGTACTCGCTATGCATTCCAACGCGTTTCTGAATGGTTGGAAGAAGAAGGGCTAAAATT -CGATACAGAAGAAAAACGCAACGCCGCTAAGATCACAAATTCTCTGGCTAGTAAGTACAA -TCAAACGTATCGAAACCAGGAAGAACGCGAAGTGTTCGGTTTCAAAATTCCTGAAAGGAA -AACAGATCGCCGTGTAAGTGAATTCACTTTTTACATTAGTTGGTAAAAAGGTGTTGACGG -GGGTTGGTTATAGTAGTATTCTAACTCCCGTAGACAAGACACTAACTCAGAAGGATAAAC -ATCATGGAAATCGTAATGAAAGCAACTTATGCTGGATATTGCCTGGAAGCAAAAGGTGTT -GCTAACAATGGCAAAGGCTTACGGGCCAATGTTGAAGCAATGCTGGATGAATTACATGCA -ATGTACGAATACGACAACGTAGCGGGTAGCGTTCTTATCCAGGCGTTGGAAGTTGATGGT -GTTGATTGTGTTGGTTGGTGGGATGCTTACATTGACTACAACGATAACCGGGTTTACCTG -TTGAGCAACAAAGATTATTTCTAAGGAACCACTATGAGCGATGAAGCTGAGGCTTTAGAA -GATTGGGCTGATTTTGATGACGAAGAAGACGGGGAATATTTCTGCGTTAACAGTGGTGCT -TACAAAGACCGTTTAGAACTTCGTGAACTTTTATCCGGTTCCTCTCAAATATCAGGATCC -AAACGAAAAAGTAGTAAACAAAAAGTTCAATATAGTGATGGTTCTGTACGTGATGAAACT -GTTGTTGCTGAATTTCGTGGTCGGGTTATCACAAAAGAACGACAAATTGATGTAAAGAAC -TTGTATGAAGTGGCTAAGGCTGCTAAAATAGGTTCTGTGATTGTTTGCCCTGTGTGCAAA -GAAAAACACACAAAGACAACGTATCACAAAGTTTTCTGTTCGAATGGCAGAAAAACCAGT -AAGGATTGTAAGTCTAAATATCACAATACAATCCATCCCGAACGACTGGATCGGGTATTT -TAAAATAAACTTAAAACGTGGAGTACGTTTATGAACAACAAAACTTTCGAAGAACTGAAC -AGCATTATCACTTCCGTAGATTCCTATAAGGTTTCTCACTGGTCGCAATATCCAACTGGC -TCCGAAGAGGCGCTGTTTTATATTGAATCTCGTGGTGGTAAATTTGATCAAGTAGTTACG -GCTGGCTGTAACCGCCTTGCGCAAATCCTATCACGTCCGGTGACTATGGAAAACGTGGAT -TTTGCTAATCGGTTGTACAAAATGCACTTTGGGCGCGAAATCTTCAACTACAAAGGTTGG -AAAGAAATTGCAGAACTGGGTTACATCCCTCTTGAATTCAGAGCGATTCCGGAAGGAACC -CCAGTAGCGGTTAAAAATCCGGTTGCAACTTTCCATGCTGGGAAAAATGCGCTGTGGTTA -GCAGGACACGTAGAAACCCTGGCGATCAGGGGAGTATGGTTCCCTTCAACCGTAGCAACT -CTATCCCGTGAATGTAAAAAAGTGTTGAAGAAATATCTCAAGAAAACCTCCGATCTCGAA -GGTGAAGCATTTGATATGGTGTTACGTACCCGTTTGCATGACTTCGGCGCACGTGGAACC -TCTTCTGCTGAATCTGCTGGTATTGGTGGCCTCGCGCACCTGTATAACTTCCTCGGTACT -GATACCGTAGAAGCGCTGATTATGGCTATCTCTCTGTTTGAAGATTGTCAGAAAGCGTTT -GATGATGGTGAAATGGCGGCTGGTATTTCAATTCCTGCTCGCGAACATTCCACTACCGTT -TCTTACGGCAAAGAAAACGAAGACCTTGCGTACAAAAACAGTATTGAGATCTTCGGAGAA -GGGATGTATGCATGTGTGTATGATTCCTGGGATTTTAAAGCGGCGGTTCGCCGTATCGCA -GAATATAAAGATTCTATTCTTTCTAAGGGCGGTACTCTGGTAGTTCGTCCGGATTCTGGT -GATATGGTAGACAATATCATGTACGCTCTTGAAGAACTGGGCCGTATCTTTGGCTATACA -GTGAACTCAAAAGGGTATAAAGTACTACACCCAGCAGTAAGGATCATTCAAGGCGATGAA -ATTCATGGCCCTGAAACAATCAATCGGGTGTTGAACTGGATGGAGTCTAACCGTTGGGCG -TCTGAAAACATCGCGTTTGGTATGGGCGGAGGATTGCTTCAAGAAGTTACCCGCGACACT -CAAAAATATGCGATGAAAATGTGCGCAATCAAAATTAACGGTGTGTGGACTGGTGTGTAT -AAATGTCCAAAAGGCGCTGAATGGAAAAAGAGTAAAAAAGGGTTGTTGATGACTATCACT -GATGGCGTTAACTTTAAAACCATTGATACTCTGGAACAGAAAGTGCCGGAAGGCTGGAAA -GATGCTATGATCACATACTATGTCAACGGAAAGATTACTTCCCGTGACACTTTAGAGGAA -ATTAGGAACCGTGCCGGGATTTAGTATCCGCAAAAACAACAAAGGAACCGTGATTTTCTA -TGACAACATTCCCCTTGTAGCTCGCAAGGGGCTTTTTGCTAAAATCGCTGGGTATTCCTT -TAAACTGGAAGAAGTCAACGACGAAACACTAAAAGAGATCGTAAGAATTGCCTTACAATT -AAGAGGTAAGAAAGACGAACAGAAAGCTATTGACATGATCAATAAATTGGGTGAAACTCA -ATGCTTTATAGTGAATCGTGGTTACAAGTACGATACCATTGCAAAATTTGAAAAAGGGCT -TTGTGAATTATGAGTTATTATGGTGTGATCCCATACACAGGAAACAAGCAATCGCTATTA -CCTGAACTATTCAAGCTGTTCCCCGAAAGAAGTTCATACATGCGTTTCATTGATTGTTTT -TGCGGTGGCCTTAGTGTGTCGCTAAACGTCCCTAAACCCGTTCTAAGCAACGATTATGAT -AAGACGCTGATTGATATGTATGAGCGTCTTAAAACGCTTCCTGACCTGTCTCCGGTGCGA -GAATTGATTGCATCGAAGGGGCTGGGGAAAGACAATAAAGAAGAGTATCTGAAATTCCGT -GATGAATACAACCAGAACAAAGATCCTTTATGGCTCTATGTCCTGATCCTGCATTCATTC -AGCAACGTTAACCGGACAAACGACAAAGGCGATTTTAACGCTGCTGTAGGAAAACGAACC -CTCAACTTTATGACAGAAAAACGTTTCGAACATTTCAAAAAGAATGTGACAGGAATTGAA -TTTCGTTCTGGTTCATACTCTGATATTGAAATCAACGATAACGATTTTGTTTATTGCGAT -CCTCCGTATCTGATCACTGATGCGGTGTATAACAAATTCTGGAACGCAGATCACGAACGC -GAGTTATATGCTTTCCTTGACTCCCTGCATGAGCGGGGTATCAAGTTTGGTTTATCAAAC -GTGACACATCATGCAGGAAAGCAAAATGATATCCTGATCGAGTGGATGCAAAAATATAAT -GTGCATAACCTCGATAAAAAGTATCTGTTAGGCCAGCATACTGATTCTTACGAACAAAAT -AAAACGCAAGAAGTCTACGTGTGTAACTACCAGAAACGCGACGTAAATACATACCCTGAA -ACACTGGATGACTTAATGTAAGGTAACATATGTTTAAGATTTTTGGTTATATCCCTTCTG -TTTATAATTGCGCTCCATGCCTGAATTCAAAGCGTTTGCTGGATGCGAAAAAACACCCAT -ACGAATTCGTATCTGTTGCGGATTCCGTGGAAGACGGTAAGCCTGTGCTGAACGAAGCGG -TGATCGATGAACTCGAAGCCCTGGTTGGTACGCGCCGGATGACTATGCCTCAGATTTTCC -ATGACGGTAAACATGTAGGCGGGTTTGACCAACTTCGTGAGTATGTCCGCACCCTGTAAT -AAATAATGACACCTTACTGAATGGTGTTATTATGCTGACGAAACGAATTACCAAAAAAGA -CTACCCCACGATCAAACAAGCTCTCTTTGAAAAACAAGGGGGCTGTTGTGCTCTGTGCAA -GCGCCCTTTAGAGGGTGAGATCGAAAAACATCACCTCGACCATGACCATGCTTTAGACGG -CGAAAACGCCGGACGTGTGCGCGGCCTACTGTGTAACCTATGTAACGGTACAGAAGGTAT -TGTGAAGCACAAATTCAACCGATCCGGTCTTGTGTCCCGTGATGTTGACTACATCCACTG -GTTAGAAAACCTGCTTGCATATCTGAAACAAGATTATTCCGAAAACCGTATTCATGACAA -ATTCATACCAGATAAGGTAAAATGGTTTTCAAGACTTACCAAACCTGATATGATTGCCGA -AATGGTTTCTATGGGCTTCGAGTACGCCGACAAAGACGAACGCAAAGCCTTAACCGCAAA -ATATAGAAAGCAATTAATGAAGGCAACGAAATGAAATATCTAAACGCTCGATTATCAACG -CAACAGAAGAAAAAGCTGATGATGTTGATATCCTCCACTGACAAAAAGATCATATCTCTA -CATGATTGGATGCTTGGAAGGGGTGACTCTGATTTGTGTTATGTCAAACCGAAAGACCGA -ACGATGTTTGATGATCGCGGTCGCACATTGACTAATTTTTCTCCTATCACCGTTATTGAT -ATGTGGGAACTCCTTGAGATTGTAGGACGGGATATACCTGTTGACGGGGTTGAACTGATC -AAATATCTTAACGAGATTGGACACAATTTAGATATTATCCATAAGGCAACGAAATGAAAG -TAGAAAAACGCGACGGCAAAACCGTCGATTTCGATCAAGAAAAAATTCGCAATGCTGTGT -ATAAAGCTGGCGGGACTATGACGGATGCTGACTCCGCGATCATGCTTGTGTTGCGTAGTC -AGATCCGCAACGGTAAAGCAATGAAGATTTCACAAATTCAAGAACTTGTTGAAGAATCTT -TAATGAAGACAAATCCGACTGTTGCCCGTGCATATATCGAATATCGTCATGATCGTGATA -TCGCCCGTGAACAAAACGGAAAATTATTCCGTGATATCAAGGGTTTGATGACTCTTAGTA -ACAAAGAATTAACCAACGAAAACGCAAACAAAGATTCTCGCGTATTCCCGACTAAACGCG -ATCTTCTGGCTGGTATCGTTTCTAAACATATGGCGCGTAACCATATTCTACCGAAACATA -TTGTTGCGGCGCATGATTCCGGTGATATTCATTATCACGATCTGGATTACAGCCCGTTCA -CGCCATACACAAACTGCTGTCTGGTGGATTTGAAAGGTATGCTGGCTAATGGCTTCAAGA -TGGGTAACGCAGACATCGAACCCCCGAAATCAATCGGTGTTGCGACGGCTCTCATGGCAC -AGATCACCGCACAGATTGCTTCTCACCAGTACGGCGGAACTACCTTTGCTAACGTCGATT -TAGTATTGGCTCCTTATGTGGAGAAGACATTCGCTAAACATGTACGTGATGCTCGCAAAT -ATCAAGTAGCATTAGTAAAAGATTATGCTATTTCAAAAACAGAAAAAGACGTATTTGATG -CTTTCCAATCGTATGAATACGAAGTTAACACGCTGCATACTGCCAACGGACAAACACCTT -TCGTTACTATTACTTTCGGTACTGGTACGGGAATGTTTGAACGCATGATCCAGAAAGCGA -TTCTGAAAAACCGTATTCGTGGACTGGGTAAAAAGGGCATTACCCCTGTATTCCCGAAAC -TGGTTATGTTTATGGAAAAAGGAATTAACCTTGATCCAGAGGATCAAAACTATGACATCA -AACAACTTGCCCTGGAATGTTCTTCAAAGCGTATGTATCCGGATATTATTAGCGCGGCTA -ATAACCGTCGTATTACTGGTTCTAGCGTTCCTGTATCTCCTATGGGTTGTCGTAGTTTCC -TTAGCGTGTGGAATGATGAGCACGGTAATGAAATTCTTGATGGACGTAATAACCTGGGCG -TTGTGACGATCAACCTTCCTCGTATTGCGATTGAAGCCGAAGCACAGGAAGATGAAGACG -CGCATGATGCATTTTGGCGTATCCTTGATGAACGTCTGGAACTGTGTTTTGAAGCCCTGA -TGACTCGTATTGATAGTCTCAGAGGTGTTAAAGCCAGTGTAGCCCCGATCCTTTATACAG -AAGGTGCGTTTGGTGTACGGTTGAAACCCGATGATGAAATTCTGGAACTGTTCAAAAATG -GGCGTAGTTCTATCAGTCTGGGATACATCGGATTGCATGAAACTCTGATGCTTTTCGGAT -CTGGACAACACCCATTCGACCGGATCGGTTCTCAGAACATGGGTAGACTGATTCTGGAAT -ATCTACGCGCTGCGACCGAAGCATGGAAAAAGAAAACCGGATTTGGGTTTAGTCTGTATT -CAACCCCTGCTGAATCTCTATGTCATCGTTTCTGCAAACTGGACTATGAGAAATTCGGAA -GTATCAAAGGGATCACAGATAAAGGCTGGTACACTAACAGTTTTCATCTGGACGTTGACC -GCAAGGTAACACCGTTCGAGAAAATCGACTATGAAGCCGATTATCATTACATTGCAACTG -CTGGACATATCAGCTATGTAGAATTCCCTGATATGAAAAACAACCTGGAAGCCCTTGAAA -AAGTCTGGGATTATGCAATGGATAAACTGGACTACTTCGGAACTAACCTTCCGGTTGATA -AATGCTTTGAGTGTGGCTCTGATGATGAATTTAAACCAACAGAAGACGGTTTTCATTGTA -CCCATTGTGGGAACCATGATCCGGAAAAAATGAGCGTCACGCGCCGTACATGCGGCTATT -TGGGTGCTCCCGCTGTCCGTGGGTTCAACGAAGGTAAGAACAAAGAAATGATGCATCGCA -CTAAGCATCAAAATTAATCAAAAAGCCCTTGACTTCGGTTGAGGGCTTTTGTTATATTAG -GCCTATCGAAAAAGGAGACAGATTATGAAACTGACTAAGAAAATGACCGATGTAGTAGCA -TGTGCGTTTGCATTAGGCTACAAAGTTGAAAATCATCCAACTCGCGTTGAAGTCATCAAC -CCTATCAAGGGCCGTCCTGGTTTGGTTCTGTGTGAAGACGGCACAGCATATCGTAATGAT -GTCTCTTTAGAACTGGCAACTACTATCCGCACCGCAAAACAAATGAAAGATGTTCTCATT -AGCGGCGCAAAATTGAGGGATTTATGATGTATTGGACAAAAGATAAATTTGTTTTTCGTG -ATGATACGTGCTTTGGGACTGCATACCGAAACTTAGCTATTCGTGGCGGTTCGTTTTCGG -CTAATGATTTGTCTAAGGTAGTATTCCCTATTAAAGTTACTGAGTATGACGTATTCGGTG -TTAAAGGGTTTACTGATTACTTTGGTACAAAGTTTGAATCAGAATCTTACATTTTCACTA -ATAGCGATCGTGAATTATTCAAAAAACACGTTGTTGTTAAAGAGAAACCGTTATTACCAA -AAGAAGATGAAGCAAAGGAAATCTATGATCTCCTGAACATGCTTGATAATCTTGGTACTT -GTCATCTGTTCGGGAAACGCGCCCGTAAAGCGAAAGATGTTCTCAATCTGTTACGCTCTC -GCCGGAATTACCTGATCCGGGAAGCAGAACGTAATCTGAAAAATTCAGAAAAACAGGTCG -ATGTTCATAAATCCACTCTTGCGAAATTAAAGTCTTTGTGATGTTTCCGTTATACGCTAA -AGTGCGTCGAAATGTCGGTGATTCGTATCAGGAATGGAGTGAATGGCTACGCGAAACAAA -GTCATTCTACATTTCAAAAGCAACTGATATGAAAGGCCGTAACATTCGCTATCGTAAACC -CAGTGGTAAGCGAGTGAATGGGATAGATTACATTGTTCTTGATTCGATTCGGGATGATAT -ACGATAATTTAACTTTGAGGCAATATTATGATTTTCAACAAAACAAATTCACGTAATTTG -AACTATCTACGCTGTGAACTGGAAGCTAACGAAATTGAACTGTTTTTCTGTGGGGCTACA -GATCCGGAACACAAATTGCATTGGGTATCAGGTGAGATTGTAAGCCTAACCGATCAGATT -GTCGAAGAGGCTACCCGCCGCAATGCAATCGTTAAAATTGGTGCTATTGATGTGAACTAC -GAAGGACATCCTTCATTTTTCATTCAATATTATCCATAAAAGTATTGACCTGTATATCTG -AATGTAGTAACATCCTTCTTGTCAACTAAGGAGGATGTTATGAAAATCAAAAACACTGCT -ACTGAAACTCTTTGCAACGAAATTGCAGAAATGTACTGGAGTAAAGGTCACTTAGAGGCT -ATGAAAGAGTTTCAAAAGTGGTGTGATACCCAAAAGTTAGCTAAATGGGAATACATCGTT -ATTGTTGAACGGATCAAAGAACTGATCCTCGTGAAGAAAGGTAATAAATAACCATGTAAA -TCAACATGGAACCCAATATGAACTATCAAAAAATATACGATTCTCTCATATCGAAATATA -GGGGAGAACCTCCAATATCTTACAGACACAAGAAATCAGGTTACGAGATTCATCACATAT -ACCCAAAATCAATGGGTGGATCTGATGAACCAGATAACTTAGTATATCTTACACCAAAAC -AGCATTATACTGCACATCATCTTCTGTCTAAAATATATGGCGGTACTATGCATAACGCAT -TTTGGATTATGTCATTTTCTCGTGGGTTTCCCATCACAGCAAGGCAGTATAAAACTGCAA -AAGAGAATAAAATTCTCAATCAAACTGGAAGAAAGCATTCTCCTGAAACTATAGAAAAAA -TGATAAAATCCAGACAAGGAAGAACGTATTCTATTGAATCGCGTAGAAAAATGAGTGAAT -CACATAAAGGATATTCTCATAGTGAAGAAACAAAAGAGAAAACACGAAAAAGTTGTTTAG -TTTCTAAAGCTAGATTTGTGAAAGTTGCTATCGGGACGAATATCAAAGATCCGTCAATTG -TTATCCGGCTGTGCGGAAAAACTGATATACGCAATCACGGATTCAGTCAAGGTAAGGTTC -ATTCTTGCTGTCGCGGTGAAATAAAAAGTTATAAAGGCTATACATGGAGATTTGAATGAA -TTATATTAGAATTTATAACATGGATGTGGTCAACGGAAAAGGGATCCGTGTTGTTTTGTT -TGTGGCCGGATGCAATCATAAGTGTGATGGGTGCTATAATCGCAGTTCATGGAATCCTTG -CAACGGAACACCGTACACGGAAGAGACAGAAAACCATCTGATTTCTCTGTTGAGTAATCC -GCATGTTGATGGACTTACATTAACTGGCGGCGATCCGCTTTACCGTGACAACTATCCTAC -TATCCTAAAACTGCTTGAGCGCGTTTCTAAGGAACTTCCAAAGAAAAACGTATGGTTATG -GACAGGATATACCCTGGAGGCTTTACAGGCCGACCCAGAACGTTCTAAGCTACTTCCTTA -CATTGATGTTCTGATTGATGGTAAGTATGAAAAAGATTTACCAACTAAAAAGCCGTTTCG -CGGTTCAGATAATCAACGTATGATCGAATTCGCTAAAAAATCGATAGAAATTAAAAATAT -TTCTTGACCTAATGTGTAACTATGGTAATCTTACCACATCGTAAATGACGATTAACTTTA -ATTGAGAGATAATATCATGATCCTGAATTTCAAAACCCGTAAAGAAGCGCGTAACTACTG -CTGGAAGTGGAACATTCCCCTGAAAACCATCCGTAATACAGGGCGCGGTTCTTGCCCGTG -GACAGTTCAAGCAAATGAACTGAAAACGTTCGTAGTTGGTAAAACTTACAAACTGGTTGA -CCGTGAAGGGTTTACTACCAATTCACACGGCGGATCTAACACCGCAAACACTATCCAGGC -GACACAGATCGAAAAATTCCTGAATAACGAGGTAAAAATTATCTCGAAAACCAATTCAGA -TACTTTCAAAATCGATCATACTCCGGAAATGACTTTTAGCTCTCTGCGTTCGTGGGAAGC -TCGTTATTTCGTCGAAGTTGGCGCGGCTCCAGCTAAGAAAAAGAAAGCCAACCCGAAAAA -AGCCAACGTTACGGCTCCGGTTGCGCCTGTTGCACCAGCAACCGCAGATCTTGATCAAAT -GCTTGATGGTGGTTCGGCAATGTCGGTTGAACTGGATCCTACTAAATTTGTTGAAGGCCG -TTCGTATGTTCTGGTTAAACCGCAGCAATTTAAAAATCGTTGTGGCGCTAACCACGGGAT -CAAATCATATACCGATGAACACAGTAATGGTGTATACACCGTTTACCATACGACTTCGCT -CGGTCATCATCAATTGAGCAAAACGGTAGAAACCATTGATTCCCAGACCGGAAACGGAAA -CGTTGGTTACTATCTGCTTGATTCTGAACGTTCGTTCTTCCGTGAACTGGCGACCGGAAC -TGTTGATGAACCTGTTAGCGTTTCCGGTAATAGCGCTATCGCTATCAATGTAGACGAAGC -GGCTAAGAAAGAAGAAATCGCAAAAGCAATGACACAGCTTGAAGAAGCGGTTAAAGCCCA -TGATGACGCGCTTCAAAATCTGCGTACTGCTTCCGACCTGGTTCGCAAAGCTGCTCGAAA -AGTAGCAGAAGTAAGCAAGTAAATTAAACTGGGTGCTCCGGCACCCTTTTTTATGAGGTG -ACACATGGAATTATTAGAAGGTAAATCTTATACCCTGAACATCGACGCTAAAGAATTTGC -AGAAAAAACCTGGCGAAATGCTTTAGCTGAATTGATCAAAAACAACGGCTATATTACAAT -CGATCGTATTGCGATTGGGGATACTGAGGACATTGCTTATGTTCTGCAAGATGATTTCGA -ATATGAGATCCCTAGCCATATCTGGAAATACTTCAAACCATATGATTTACCGGAAGAAGA -ACCGAAGATTGCTACTAAAGAAGAAATCGCCGCGCCTGATTTAAATTTCGTATCTTCCGA -TCCTAAAATGTGGATGACTGTAAAACCTGTTCAACAAGATATCAATGATCTGCGATTTGA -TTATCCTTTTGTCAAGCGGATCACTTCGATTTCTGTACTACCAGCGCCGACTGATTCACA -GGCACTTGAATTTGCATTACAGCATGTTTTCGGTGATAATAAGCTGTACGCGATTGACAA -GGAAGCTGCTATTGATGAACAGAAAAAGGAAATCATCAACCTTCTTTCTCTGCATCAACA -ACTTGAAGCGGTGGAATTGATTGAGCGTATGCTTTCTGATACAAAGAAAGATATCATTAG -CAAAATCACTCCGGCACGAAGGAAAGCAATTGATGAAAATCGAGATTTACGGTATTCCCG -AATCGCTTCATAAATGTTACGGCTGTATTGAAGCTCGGAAATTACTTGATGAGCATGGAT -TAGAATACGAATTTTATTCTGTTCTAAAGCCAGCAAATAACAGTGTGGGGTTTGATTACG -ATCGACCCCGCATTGAAGAGTTAGCGAAACGTGTTCGTAGTCGAAGCATGGCATTTACTT -ACCCTCGGATCTTTGTAGATGGTAATTTTATTGGCGGTTATATGCAATTGAAAGAGTATT -TGGGTGAAGCATGAATAAAGAATACATTCGCAAAGTAGCAAACGCTATTCACGCAACAAC -GATTGATTTTCTGGAAGGGTTTGATCATATTATCCACCCTGAAACGCTGGATAGTTGGGA -AGCCAAACTGTTTAAAAGTATCAATGAACAGTTTCCGGAAAAGGTTAAGCGCTGGTTTAT -CAGACAGGAAATCGTAGCAACGATCCTTAATGAACGTGGTGTTGAGGCGTTCGGTGTAAC -CCCTCTATATAAACGAAACCAGATTACAGACGAAACAATCAAGAAATATAAAAAGATGGT -TCGGAAGTAATAAATAATCAGTTAAATGGCCTTCGGGCCATTTTTTGTATATAAATATTG -GTATTGAATACAATATAGGAAAAAAGATAATGGTAGCTAAATCATTCCGCGCACGAAGTG -GCCTTGATGCTGCTGGTGAAAAAGTTATCAACGTTGGGAAGGCTGATCGTAATACGCTGA -GTGACGGCGTTAACGTTGACTTTTTCAATGAATTTAACGGAATCCAGCAGTATGACCCGA -CTCGTGGTTATTCTCAAGACATGGCGATCATTTATGCGCGTCGTATCTGGTACGCAAAAC -AGAATATTGCTTCCCCTGCTGGGGCTTTCGACGAATCCAAATGGATCGCAACTCGTAATG -ACCCGAAATGGGTTTATAGTAACGTAACCACTCCAGACGGTAGCATTATTGAATCTGGTA -GTTACATTATGGCTGATGGACGCTTTACTGAACTTCTGTACCTGCTGCCGGACAACCCGA -CAGAGGGCGACGTAATCACGTTTAAAGATTGTGGTGGTTTAGTAGGTGTGAACAGTATCC -TTGTTAAGTCTAACACCCGTCAGATCCGTTTACGTACTGTACAATCGGCACAGTATCGAC -TGACCCACCCGTACATGATCGCAACGTTTATCTATAACGGTAACGTATGGCGTGTTGCTG -AAACTCTGGATAACCGCGATTCTGAGATCGTGAACGCAACCGGAACAGGTTCATTCCAGT -TACAATCTGGTATGACAGTTTTCCGTAACAGTGCTACGGGTAAAATCACTCTCCAGTTGC -CGAAATATGCAAATGATGGTGATGTGATCACAACCTATGACGCTGATAAAATGAACTCTA -TCAACGTAGCCGTTTTGCAGATTTATCCAGGTAGTGGACACACTATTTCTGACGGTGCAA -TTACTGGTGTTACTTCGGTAACTAGCCAGAAATCTGGCTTTGGTATGTTCATCTTTGATG -CACAGAATAGCCAATGGAAAGTATATGATGCTGATAATCGTGTTCGTCTGCGTCGTATCT -ATAGTGATTTAAACACAGTTCCTAACGATTACGTTTTTGTTACTGCAAACCCTTCTGGGA -CTATACCAAACGTTACAGTTACCCTTCCAACTGATGTTGCTGATGGTGATCGCGTTTACG -TATCCCTTTATATGATGGGTAAAAACCAGAACTGTACAATCAAAGTTAAAGATGGTACAA -CGGACAAGATCCGCACCAACAAAAATATGATGCAGTTCCCGCAGCGCAAAGACTATCCGC -CTGATGATTGGTTTAGTGTAACTTCATTAGCATTTAATGCTGCTAGTGATTACCTCCCGT -ATATCGAGTTTTCTTACATGAAAGCTACGAAAGAATGGGTTGTTGCTAATTATCGTCCGA -TCGTTGAACGTGTTGACGCAACTAACAGATCGCGTACTGGTGTTATTGCTCTGGCTGCAC -AGGCAGAAGTAAACAAAAACTTGGAAGACAACCCGAACGACGAAACTGCTATTACTCCGA -TGACGTTAGCAAATAAAACTGCTACAGAAACCCGTCGTGGTATTGCACGGTTAGCAACAA -CTGCTGAGGTTAACAAACTTTCAACCGATACCTATCTGGATGATGTGATTGTTACCCCTA -AGAAGCTGAACGAAAGAACAGCAACTGAAACCCGTCGTGGACTGGCAGAAATCGCAACTC -AGGCAGAAACCAACGGAAGCACCGATGATATTACTATTGTAACCCCGAAAAAGTTGCATA -ACCGTATTGCATCGCCGACCTTGACTGGTATCCTTGCCCTTGTTGCTACTGGTGGTGATC -CTAACACCAACACGGATCGTTCTCAGGCTGGTACTGGGGTTTATGACCATTCAGATTATC -AGAAAGCGGTAACGCCTAAAACTCTTCGTGAGTATAAAGCGACTCAGTTACAATCTGGTG -TTGTATGGCTGGCTTCTGAAACCGAAGTTATTAACGGTACTGTTGCAAGTTCAAACGTTC -CGACCGTTGTTACTCCGGAAATGCTGCACAAGAAAACCTCTACTGATGGTCGTATTGGTT -TGATCGAGATTGCTACCCAGACAGAAACCAACGCAGGGACTGATTACACGCGAGCGGTAA -CGCCTAAAACGCTTAATGATCGTGCTGCAACGGAAACGCTGACAGGTATCATTGCAATTG -CAACCACTGCCGAAGTATCAGCAGGTACTGTAACGAATAAAGCGATCGTACCGTCTAAAC -TGAAAGGTTATCTGGACGATACAAGCCATATTACTGTTGCTACTGCTGATGGGTTAACTC -AATCTGGTACTATTTGGACTACGGTTAACATCGGTATTCAATCAGCAACTGAAACTCAAC -GTGGTACTTTACGCGTTGCTACGCAGTCTGAGACGAACGCAGGGACATTAGATACAGTAT -TTGTCACCCCTAAGAAGTTACACGCTAAGAAAGCGACTGAGAGCGCAGAAGGTATCATTC -AGGTGGCTACGGCTGCTGAAACTACCGCTGGCACCGTTGCAAACAAGGCTGTTTCTCCTA -AGAACTTGAAAAATACAATTCAGGTTGATACTTCATGGCAAGCTACCGATCTGGTACGTG -GTACTGTGAAGCTGTCTAAGGGGCTTGGTACTTGGTCTGGTAATGATGTGGCTGGTTCTA -CTCTTCCGGATGATGGTTATGCCGCTGTAGGTGTTGCTGTTTCTCCGTATGAACTGAACT -TAACACTGAAACACTATCTACCGATCGGTGCTAAAGCGGTTGATGCTGATAAGCTGGATA -ATCTGGATTCTTCCCAGTTCATTCGTCGTGATATTGATCAGACGGTTAACGGGGCATTGA -CTCTAACGAAAGAAACCACTGTACAGGCTAACATTAACTCAACCGCCGACGCGAGTTTCC -GGGTAATGAATGTTAGTGGAGATCTGAACGTTGGTGATGGCTCATCGATGGGTAAACTTC -GTTTGAATGGCGGTTCATCTAACGACTGGTCAATTCAAGCAAGTTCATCCTCTGGGCGTA -TTGCAATGATCTCAACGGGTAACACTGGCACAGTTCATCTTTCTGTGTATAATGATACTC -GCGGCGTTGTAGCTAACGTTAAATTCCAGGCTCCTGAAATTCAGGCGATTGGCAAAGTGA -CTCTGGGTAATGATACAGTGATCACGGCTGCTGGTTCTGTTCTCTCTATGGGTACGAACA -ACAAGACAACTAAGATCCTAACTTCGGACGCTGGTAACATTTTGGCAGAAGAATCAGGGA -ACTCTTATAAAGTCTTTACTGAGAAGAACGCGCAAACCTTGCTGAATCCTACGTATGTAC -GTAAAGCAGGTGATACGATGTCTGGGCGCTTGACGGTAAGCAACAGTTCAATTATCATTG -CAGGTCAAGCGGCTTGGTCAACGCTGGATGCAGTAACAGAAGCATCCAGGGGCAACTGGA -CGGCTGAGATCACAGCATCGGCACAGTACAACTTGCTTCCTGGTTATGCGGTTCCGGTTC -TTGAACCAGATCCTATTAATCCAGAAATCATGATTGTGACCCGTTATACCTATGTTAAAG -CACCGGGTACTTTAACGCAGTTTGGTAACGGAACTGCATTCACTTATCAGATTTGGGCAC -CTCGTCCGACCTCTGGTACTGGTGTTAATGCGCTGGCGCAATCCTTCTGGATCCGTCAAA -TGAACCCGATCACGGGTAAATTTGATGAGTGGGGCCGCATGTATACCAGCAACAACCCGC -CTACTGCTGGTGAGATTGGTGCAACGTCTGCTGTTGGTACTACGGTTAAAAACATGACTG -TTACCGATTGGATCAAAGTTGGTAATGTTAAGATTTACCCAGATCCGGTTACTCAGACAG -TTAAATTTGAGTGGGTGGCATAATGTCAAACTTAATGGCGGGGTTCGGCCCCGATTTTGT -AGAAACGCAAATTCTATCGGAAACAAACAGCGTAACTTACAGAATAACCGCAAAGGCAAC -ACATCCCAATGCGGTTCCTAATCAGTATGAGTTTACACTAAATCAAAAGGCGGTAGGGAC -ACCGCCTAGTGTTGGGATCAACGTATGGAGAATTAACAATGCTGTAGTTGATCCAATTAA -AACCTTCACATTATCGAATGATAATTCAGCAACTGCAAACAAAGCGTTTGTTGAATATAT -GGATGCTCAACCTTCTGGGCTGTATTTGATAATGACTAACGGTGAATACAAAACAAGCCA -AATCGTTGATGATTGGTTTGCTAAAAACAGATCCGTTATGTGGCAAGGCGCTGATTTCGC -TCAGAGATTCCCAAATTCTGCATATGTTGCATTGTATGGGGCTTCAAAATCTCGTATACT -GATTGAATCGTTTTACGCGAACGATGGAGTTTTAAAAGAAGATTCACGCGCATCAATCGA -TCTTGTCTATAATAACGTTGGTGATGTTGGGCGAACTGGTGTACCTTTCCGATCTGTTGA -AGATACGGAAGAATACAATTCAACCAATGGGTCTGAATATAAAGTATATCCTGTTGCAAA -CCCAGTGATCTCTAAACTGGCTGATTATGGTATGGCTCCTGGATTAGCTATGATGATTGC -TGGTGATTTTTACGCCAGCAAAGCATTATTGGATGCTGGATCAACAACAAGGGTTACTGT -TCGATGGTTTACGGGTACTGCTCAAACTTCATCATCGGTGATTGAAGTTCCTGCAAATAA -ACCTGATGAGTGGTTACGATTTGAACAGTTCTATACGATCCCTAGTGGTTGTGATGGATT -TAACGTTGCTGTATCTCGTTATCCTAAACCCGCTACGGATAGTTTATCTGCGATCCGTAA -CTTTGTGATGGTTCAGGTATCTGCTGCCGAAGCTGATCAAAACTTTGCTGCACAGTTTGG -GGTTAACGGTATCAGAATGAACAACATGATCGATGGTGGAACACCGTATATATTTGAATT -GCCGAATACTAAGGTTTATCCTGGTGGCGATTATTCTGCTTCCGAATTCCGTGAAGTTGA -TGCATAAACAAAGGCCCGGATCATCGGGCCTTATAAATATGTAAAAAGGGGTTATTATGG -CAGATTTAAAAGCTGGTTCTACAGTCGGGGGTTTACCTATTTGGCACTCCGGCACATTTC -CGCTGGTTCCGGTTGGTAATACTCTAACCTATCGCGGATATAAGGTTTATACTGAAAACG -ATAAACCGCAAGCATCAAATAACGACTTCGTTTCTAAAGCAAGCGGTGGTCAATATTTGG -GTGTAGTTGCCTTTAAACAGGGGCTACAAATTAAAGCTACTTTCACAGGCGGAAGTGACC -AGAACGGTTTATATTCTGGTGATGGTGATGGCGCGACATTATCAAAAGCCAACATTGATC -TTGTATCATGGTATGGTATTGGTATTCGTTCATCTTCCGGTACTAATGGTCGCGTATTAG -TCATCAACGCTCGAAATGGTGATTTAAACACTCAGGGTAATATTACGGTTGAAAAGCAAA -TCAGTATTACAACCGCTAACCCTACTGACGCAAGTCATGCAACACGAAAAAGTTATGTTG -ATGGACAGATAAATAATGTCACAACAAATGCTAATAGCAGGGTATTACGCGCTGGCGATA -CAATGACAGGGCTGTTAACTGCCCCGCAATTCGCGAGCACAGGCGCGGCTTCCCGTCCCG -AACACGTACCACGGCTCGACCAGGTAATTACTAAAGGGACTATCATAGATTTTGGATCTT -ATTAAGGTGAAACATGGCTGATTTAGAAAAAATTCAATTCCTACGTAGCACAGTTGCGGG -GAAAACACCTACTACAAGTCAGCTTGCAGATGGTGAACTGGCGATCAACATGGCTGATTA -TGCCATTTACACGAAAAATGGTTCTTCGATCGTTCAGTTAGCGGGTAAAGGTATCCCAGA -AACAAATACCAAAAAATTAACAGTTGATGGGCCTAGTGCTCTTAATGATACCGTTACCGT -AGCGGAAGGTAAAACTATTACTTTCACCAACGAGAATTTAAGTGGTGAAATAACTCGTCA -TATCGTCGGTAAATGTGCCAGCAATGATGGATGGTACATCGGCTCCGGTGGTACAAGCAA -TAACGGCATTCTTGAAATCGGTACTATTGACGATGGTACTGAAACAATCCAGTTTGTACA -ACGCGGTGCAGGTAACGTAGAAGCCAGAAAATTAGTCTTACTTGATAGCTCTGGTAATAC -TACTCTTCCTGGGGATTTAAGATTATCCACTAATAAAACCGTTAAAATTAGTAATGGAAG -CACTCTTACGTTAGAAATGGGCGTAGGTGCTAATGATGTATACATTAAAAACCTGAGAGG -TGCAGGGGTTCTTCAATTAACTAATGATAGTAACCTGACGTTCAGAAATTCCCAGGTTTA -TTATGCTATGAGTGGAAGAGGCCCTGGTAAAGATGGTACTCTTCTGACTAATGTAGAAAA -CGAGCGCCAACTTAAGCAAGATAATTTCCCTATATCTACAGGCACCGAAGCTCGGTGGAC -TAAAGTTGCTCTTTTAAAAGATCCTGGATCAAACCAGAGTCGCCTGCAACTGATGGTGAC -TAACGGCGGTAACTATGGTTCTACGCGTGGATCTATCGACTTTATCGATTGTAGCGCTAG -AAACTTTCCATCCACTTTAACAAGCGCTAATATTCGTAATCATCTACAGGTTCGTCGAAT -CGGTGATCCTGGAATTGATAACACTAACCAAATGCGTTATAGTCTGGTTCGTACCTCTGA -GGGTTTAGAACTGTGGTTTACTCAACGCGCATTCATTAGTAGTGTTAAAGTTGCTCTGCT -GTCTATTGCTGGTGATACTGAGTATTATCTGCCTACTGGTTACACAACTTCTGCAACTGC -TCCGGAAGGTTTAGTTGAGAGTGTGGCTATTCGTATCTATGACGAAATTAATAAACCTAA -CCTTGACAATGGTACTGATGGTATTCTGTCTATTGCTAAAGGTGGTACAGGCGCAAGTAC -AGCGGATGCTGCTCGTACAAACTTAGGGTTGGGTACTGCTGCAACCCGCGATGTCGGCGA -AGGTGCTGGTAATGTTTTAGAAAATGGCGCTTATGGCTTAGGCGGTAATGGTGGTAAATC -CATCAACGACATTATCTCTAATGCGGATATGTTGACCCGCTTAAAATCATACGGCGGTAC -TTTCTGGCGTGGTGTTGCTAAATCTGGTGTTAGCGTTCAAAATGGTCTTTATAGTCATGG -CTCTGGTATTTTTATGAATGCTGGTGATACCATGTCAGCCATTAATATCGACTATGCTAG -TGCTAAAGTTCGTGTATACGCGGCTAACAACGCGGCTCTTGCCGCAGGAGATGTCAAATA -CAACGAACTTTACGGTACAGCAAATAAACCGTCTAAGGCCGACGTAGGGCTTGGTAATCT -GACAAACGACATTCAGGTTAAAAAAGCTGGCGACACCATGACTGGTGATTTAGCTGCACC -TAACCTCCATGCTTCTGGGCCGGGAACCGCATCGGTGTATGTTAATGCAGGAAGCGGAAA -TGCTCATGTATGGTTTAGAACAAACGCCAATGAACGCGGTGTAATTTGGGCAACTCCAAA -TACTACGGACTTAGGACAAATTAACATTCGTGCAAAAACTACTGAAGGTGTTTCTGCTGG -TGATTTTAGCTTCCGTTCTGATGGCCGCCTTGATGTTCCTGTAGCAGTTAAAGTTGGTGG -AGCAGCAATACTAACCAAAGACGGGAATATTACCTCTGGCTCGATGTTTGGTGGCAACCT -TAATAACTATCTGAACACCATTAAAAATGATATCACTGCTGGCGATAATAAGCAAGTAAG -CAAGACTGGCGACACCATGACCGGTAACTTGACTATTAACGCTAACTTAAAAGTTGAAAA -TCCTAGTGGGACGTTTGTTGATTTAGGTTCAGAGAACTCGGACAAGTACAGTAGATTAAC -CCTTGCTCGTAAAGTTGGTAGCGGTGCTACCGTAGCAATGCTTAAAATTACTCCTGAAGG -ATACGTGCAATTTGGTTATCAAACTGCGGTTTCTAATCCAGCTCCTAGTAAATATATTCT -AGTTAAATCTAGCGGCCTTGAGGTAGAAGGGGACTTGGTTTTTAACCAGACATATCGTGG -TGCTGAAGACGCAGTTGATATTACTGATAAGACTAATGACCTTAACAACATGGTTATTAA -AGGCAGTGATTTAGGTACTCGTCTATTATACAAGTGTACTTCTACTGGTGGTGGTTCTAA -TATATCGAACAAACCTACCTCTGACGGCAACTTTGTTCTTGAAGTTCTATCTTTGCGTAA -AATTTCTGATACCGATTGGACATGTAAGCAGACCTTTACTACAAAGAACGGTGATGTTGA -AGGCACATATGTTCGATACTGCCAAAACGGTACATGGTCTGCATGGAAAGAGGTTGTTGC -TGGTGTTCAACCAATTAATTTAGGTGGTACTGGAGCAACTTCTGTAGCTGCTGCTCGTAA -TAACCTCGGTGTTGGTGAAGGACAGAGCGTTAAGTTCGGCGGATTAGTTGTTGATGGAAA -CATCAACGTTGCTTCTGGTAATTTTGTTATTGCAGGCCAAGCTCCTACTGATAACTCGCA -TCTGACCAACAAGAAATATGTTGATGATAAGGTTGCTTCTGCTATTAGTAATGCTGGCGA -CACGTATCTTCCGTTAGCAGGTGGTACTGTAACTGGGCGGTTAACAATTACAGGCGATCA -GTTAAAGACTACATCGCTCTGGGTTACTGGAGATGCTGCTGTTAACGGTGTTTTAACTGT -TGATGGAAGGGCTAGATTTAATCAAGAGTTCATTGTATCAACTTCGGTTAACGTCCAGAA -CACTGGTAACAGTCATTTGGTCTTCCGTAAAGCTGATGGTACAGAAAAAGGACTTATTTG -GGCTGATGACCCTGGTAACGTTAGTATAAGAGCAGGTGGTGGAAGTGGCCCTACTTGGAA -CTTTTGGGAATCAGGATCTTGTCAATTCCCAGGTGCTATTAGTAACTTTAATGGTGTTAA -TAGTACTACTAATTACCCTGGCGGCGGTATTGGCGCGTATTTAAATACAGCGGGCCTAAC -AAGTAGATTTAGTAATGGTGCTTATGTTTCCTTATACTTCCAAGAATATGTAGGAAGCTA -TCACCAAGCTATTCTTAATGTTAACGGCTATGGGCAAGATAACAGCTTTTATTTCCGGGC -TGGTGGTGATTTCATATGTACCCGTAATGGTTCATTCGATAACGTCGAGATTCGTTCTGA -CCGTAGAGCCAAATCGGATATCAAAGTTATTGAAAATGCTTTGGAAAAAGTAGAAAAACT -AACCGGTAATACTTATGAGCTTCACAACACATCCGGTGGTACTACTCGTTCTGCGGGTTT -AATCGCGCAGGAAGTTCAAGAAGTTCTTCCGGAAGCAGTTACTCAGGATATTGAAGCAGA -CGGGGGTTTATTGCGTCTGAATTACAACTCAGTAATTGCACTTCTCGTTGAATCTGTTAA -AGAGCTTTCTGCTGAGGTTAAAGAGCTTAAATCTCAACTGAAATAATGTAAGGGGCTTCG -GCCCCTTTTAGGAGAAATAACTATGGCAGTAACAGGGCCGTGGGTCGGAAGTTCGGCAAA -GGCTGAAACTGGCGAAGCATGGATGGTGCAAGCTGGGGCCAAATTAAGAATAGGGACACC -GTTTTGGATGTCTAATATGATTGGACAAAGCGTATTCCATTTAATTTTCAGAATTAACTA -TGCACAAGGTTCTTCTGGCGATCCATCTAGATATAGAGGATTCTTTAAAAGAGGGTTATC -AGTAAATATAGGAGACTCAGCAAACCAGCCAACATTAAATGCATTTCCTGGTGGTGAAGT -AGGGTCTTTAGTAGCCATTACAAATATTAAAGGGGATCCTTATTGTTTGTCTATTTTAAA -TGGGGCTGATCGACGAGTTAAAGTGTCTATATTTAATGCATCTGGCGGAGACCAGTATGA -TGTTTATTTCAGTAGAACTACTATGAGTGACGGTTGGAGAAGATATAGATGCGAAAACGC -TGGTGGCCTCAATGGGTATTTTGAAGCTAGAATGGATAATCAGTTCGGTGCTTTATTAGA -ATATGTTTGATAGATAAACCAACAAACTCACCTCATACTATTAAATATATTAAAAGGCTA -CCATATAGGTAGCCTTTTTGTTGCATCCTAAATATACCTATAGTAACCTAAGAAGAGTCT -TATAAAATGGCTGAGAGAAATCCCGTAGATAAACTAGCCTTATTTGATCGGGTAATATCG -TTTGTGATGGGTGTGAAAACATGGAAACAATTGCTGATAAAAATAATTCTAATAATGGTT -ATGTTTCTTATGGTAGTAACTTGGTACAAATGGACTGATATATTCCCGATGATAAAAGGT -GCCCTTGTAGTCGATACAAGGGCTATCGAAATGGAAAGAACAGAAAAGTTTAATCAATCC -GCGTTGGAACAGTTGAGCATAGTTCATCTTACTTCCAACGCGGATTTTTCGGCGGTACTG -GCATTCAGACCAAAGAACATAAACTATTTTGTTGACATTGTAGAATATCAGGGAAAATTA -CCATCCCAAATCGATCCTAAAAACCTCGGTGGTTATCCGATCGATAAAACATCCGAAGAA -TACACGAATCATATAAATGGCTTGTACTATTCATCAACTACAGCAAGTTCCTACCTACCG -ACACGTGATTTTGTGCCAGTAGCTTATACTTTTAGTTGCCCTTATTTCAATCTTGATAAC -TACTATTCTGGATCGGTTTTGATGGAATGGTATGCAAAGCGGCCTGATATACCAGATATG -AAGATAAACATCATATGTGGACAGGCCGCGCGCATTTTAGGTCGAGCGAGGTGATTAACG -TAATGCTGGTGTTAAATTGTGTGATCTTCCAATAGCCCGTTTGATTGCTTTAAAGAAGTT -CATCACCGGGCTATTTTTCTCGTAAATATCCCAAACTTTCAATTTGTCCCACGGATCCGG -AACATAATCTTCATTCCTTGCCGAAACCCCCAACGTAACCCTCCTGTATCCAGCGCTGTC -GTGATAATACACGAAGAATGGCCTACCTATTGGCGCAACCTTACAACCTCTCTTAGCGGC -TCTCATAGCCTCATCGAACGTCATGGATTCCCCCAAAAATTTCTATGCATGAATGGTCGA -ATTCCGATAGTTTCACTCAAAATGAATATCGGATGATCTAGCTCATCGTGGTTTTCTTCG -TCAATGACGATATCCCAATCAGTAGCCTTTTGTTCTTCTACCGTGGCAATGAATACCTGG -TTTACTTCACACTTGCGGTGTGTACGTCTGATGATTGTATCCCCCTCACGAAACACAATC -ATATCAGGATTGGTAGTGCGGTACGCGGTTTTACCCGCGCACACTTCATTAAGCATATCT -TCGTATGTCATTATAAAACCTTTACACGTTGAACGATGGTTTGTTTAACGTCTTTGTATT -CTCCGTGCTCTTTAACGGTTGCTTTGAAAGTGATTTCATCACCTTCGTTTGCAATGTTAT -TACCGAAGTAAACAACAACATTACCATCAACATTAATTTTGGTCATGAATCTTTCTACAG -AAGTGTAGTAAGAAACTTGAGTATATCCCAGTGAAATCACTTTCTCAACGGTTCCGGTCA -TTTCCAGACGTTGTTTGATTTCACCGATGTGGTTAGCTTTAGAAATGCGTTCCTGGCGCT -CTTGTTCCCACTGTTCGCGGATTTCTTCGCGTTTGGCGATATAATCCTTTTCCAGTGCAA -CACCCATGCAGTAAGCGCACACAGCATCGAATACAGGGCTGTTTTTGTTGTCTTCTTTAG -ACTGGTCAGCCCACCAAAGAACAGTAAACATTGGCATTTCTGCAATTACTTCGCCTTTAC -GCTTGCCAATCGGCATGATCCCTTTTTCCAGCAGTTCCAGTTTTTCAGTATCGAACACTG -ACAGTTTACCGCGACGTTCGAACAGATCGAAATCTGCAAAGCCCTGGAATATCATTTTGA -AAGTATCAGTTTCAGTTAAACGGGCTGAAACACGGTCGAAATACTCACGCGCTTTCGCTT -CCGCTTTCTCCGGATCGGTAGATAAGTTGCAGATATAGTTATCAGAAGTATAACCGCCGC -CTCTACGCTCAACACGCAAGGTATACATTGCATTTTTACGACCAGAAGAAATGAAGTAAG -TGGTAGTAACTACGGTTGCGTTAGTCATGGTATTTCTCCTTAAAGGGTATCTCGTTTCGA -TATGGCTAATATAGCAAAAGCCCCTGACCGAAGTCAAGGGCTTTTTCATCATTCATTCGA -ATCTTTCATTGTTTTATGAAGATGAATATCAAAAATTTTCCAGTACGCCTTTCCGCGAGG -ATAAATTTTTGCTTTGTCAATATCGTTGTTGCTTCCCCATGTGTTGTTTGGGCCACGACA -TCGATTTTTTATATAATCTGTATGCCAGAATAAGCGCTGAACCGATGATTCCGTACCTAA -TGGATCTTCTTTACTGAACAGAATTTGTATACTCATAAGAAGAACCCAGTGCGAACAATC -AGATCGATTTTCTTTTCTGGTTCAAACGGTGATTTGCTATCGATGTTACACTGATAGAAC -ATACCAACATACTTTTCAGGAATGTTGGATTCACGCGCCCATTTCAGGTTATCATCGGTA -TTCGGCCCCAGCATGAGGTTAACAACATCAACAGCATAATCCTGTTCTTTGGTGTTGCCG -GAACCGTTTACATAATGCCCGTGGGCGGTTTTGAGGATCTCAATTACTTCGCTATCGTCA -GTTTCGACTTTGTAAAGCGTTGTATTTTCAGGAATTTCTTCAAGAATGATCAAAGCGGTT -TTCATCACACTTACCTTTGTGTTTCTGTTTACGTTTTGCTTCTTTAAATGCTCGCTTGCG -ATCGCGGTGAGTAGAAGCGCGGTTGAAATCATGTTTCGCTACCAAATTATTCATATAAGC -CCCTTAAAGAAAAATATTTAGGGGCTTTCGCCCCTGTATTAATCCAGCAATTTGCGGATC -TTGTCTGCGATACGTCCGGCGCGGGTTGCACTTGCAGTATGATCGCTTTCTTTTGAAGCC -AGTTCCGCCAGCTTACGCTGATGTTCTTCTTCTGCTGCTTGACGATCTGCTGCAACCTGT -GCAACCTGCTCATTATCGTGAGCAATACGCGCTTCCAGTTCAGACAGGGTTTTGTCGAAA -GTTGCTACGATTTCATCTACAGAACGAATTTTATTAAACAGTTTCATAATTTATCTCAAT -TGGTTAGTTTTAATCAGTATACATCAATATGGTTGAAATTCAAAATCATAAATGTCATTC -AGTGCGCGGTTCCACTCGGTGTAGTTTTCACCAGCACCATAACGCATTTGAATAGCACTT -TCGAACGTTGATCCGTTGAGGTTCGGGAAACCGAACAGGTTTTTGATTTTGTCATGTGCT -ACATAATACAGAGAAGCACTTTCCAGCATCGCAACCATCGCAGACGGTTCGTGTTCGCGG -CGCTTGATACGTAACAGAGTACGACTAGCACCAGTTTTACGGCGTTGATTTGGTGCTACG -TAGAAACGGAATACTACGCGCCCTGTTTTATCATCAACTACCAGGTAAAACCCGTTTTCT -TTCAGATCCACGCCTTCGAATTTCTTGAAGGTTCCGCGTTTCATGTCACCAATTTTAATT -GCATATTTGTGAATGTCAAGTCTTGTCAGAATTCTTTTCATATTTTTTAGATACCAGTTT -GCCTAATTTTGTAATTTCGCCTGTTTTTACGTTAACAAACAAGGCGATGCTCAGAAATGG -GATGCTAATCACTACGCTGATCAATGTAAACAGAAAACGTATCACAAAAAGAACAGCACG -TTCAAGATATCGTTGCATCCACGCGATTCCTAAACAACTATACCCTACTATAAAGGTGGT -TGCAACATAAAATGCACCAAATCCTTTACGAAATACGTAACCTTTCCCGGATTCTATCCG -GTCGTCGGCCCACATTTCACGGGCAGTTTTCAGAATAGATTCACCACTAGCGCGAGTTTC -GTTAGCCGAAGGCATGTTTTTAAATTTCATGATAGTCTCCTATGCGCCCAGAACTCTCCA -GGCGCGGTTGTTTAG
--- a/cpt_shinefind/test-data/Miro_ShineFindIn.gff3 Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,827 +0,0 @@ -##gff-version 3 -##sequence-region Miro 1 176055 -Miro feature gene 7454 7906 . - . ID=Miro_8 -Miro GenBank CDS 7454 7894 . - 1 ID=Miro_8.CDS;Name=Miro_8;Parent=Miro_8;obsolete_name=Miro_156;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 7903 7906 . - 1 Alias=Miro_8;ID=Miro_8.RBS;Name=Miro_8;Parent=Miro_8 -Miro feature gene 7917 8512 . - . ID=Miro_9 -Miro GenBank CDS 7917 8501 . - 1 ID=Miro_9.CDS;Name=Miro_9;Parent=Miro_9;obsolete_name=Miro_155;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 8509 8512 . - 1 Alias=Miro_9;ID=Miro_9.RBS;Name=Miro_9;Parent=Miro_9 -Miro feature gene 123276 124212 . + . ID=Miro_206 -Miro GenBank CDS 123286 124212 . + 1 Alias=Miro_206;ID=Miro_206.CDS;Name=Miro_206;Parent=Miro_206;obsolete_name=Miro_234;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 123276 123279 . + 1 ID=Miro_206.rbs;Name=Miro_206;Parent=Miro_206 -Miro feature gene 68490 70715 . - . ID=Miro_117 -Miro GenBank CDS 68490 70706 . - 1 ID=Miro_117.CDS;Name=Miro_117;Note=contains von Willebrand factor%2C type A;Parent=Miro_117;obsolete_name=Miro_047;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 70713 70715 . - 1 Alias=Miro_117;ID=Miro_117.RBS;Name=Miro_117;Parent=Miro_117 -Miro feature gene 115729 116735 . + . ID=Miro_200 -Miro GenBank CDS 115743 116735 . + 1 Alias=Miro_200;ID=Miro_200.CDS;Name=Miro_200;Note=T4 gp6-like;Parent=Miro_200;obsolete_name=Miro_240;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 115729 115732 . + 1 ID=Miro_200.RBS;Name=Miro_200;Parent=Miro_200 -Miro feature gene 116735 117608 . + . ID=Miro_201 -Miro GenBank CDS 116745 117608 . + 1 Alias=Miro_201;ID=Miro_201.CDS;Name=Miro_201;Note=T4 gp9/gp10-like;Parent=Miro_201;obsolete_name=Miro_239;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 116735 116738 . + 1 ID=Miro_201.RBS;Name=Miro_201;Parent=Miro_201 -Miro feature gene 117595 119422 . + . ID=Miro_202 -Miro GenBank CDS 117605 119422 . + 1 Alias=Miro_202;ID=Miro_202.CDS;Name=Miro_202;Note=T4 gp9/gp10-like;Parent=Miro_202;obsolete_name=Miro_238;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 117595 117597 . + 1 ID=Miro_202.RBS;Name=Miro_202;Parent=Miro_202 -Miro feature gene 119412 120090 . + . ID=Miro_203 -Miro GenBank CDS 119422 120090 . + 1 Alias=Miro_203;ID=Miro_203.CDS;Name=Miro_203;Note=T4 gp11-like;Parent=Miro_203;obsolete_name=Miro_237;product=baseplate to short tail fiber connector protein -Miro GenBank Shine_Dalgarno_sequence 119412 119415 . + 1 ID=Miro_203.RBS;Name=Miro_203;Parent=Miro_203 -Miro feature gene 81829 81940 . - . ID=Miro_142 -Miro GenBank CDS 81829 81927 . - 1 ID=Miro_142.CDS;Name=Miro_142;Parent=Miro_142;obsolete_name=Miro_022;product=hypothetical conserved;tmhelix=1 TMD %284-26%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 81938 81940 . - 1 Alias=Miro_142;ID=Miro_142.RBS;Name=Miro_142;Parent=Miro_142 -Miro feature gene 1 910 . - . ID=Miro_1 -Miro GenBank CDS 1 900 . - 1 ID=Miro_1.CDS;Name=Miro_1;Parent=Miro_1;obsolete_name=Miro_163;product=rIIb -Miro GenBank Shine_Dalgarno_sequence 908 910 . - 1 Alias=Miro_1;ID=Miro_1.RBS;Name=Miro_1;Parent=Miro_1 -Miro feature gene 900 3173 . - . ID=Miro_2 -Miro GenBank CDS 900 3161 . - 1 ID=Miro_2.CDS;Name=Miro_2;Parent=Miro_2;obsolete_name=Miro_162;product=rIIa -Miro GenBank Shine_Dalgarno_sequence 3171 3173 . - 1 Alias=Miro_2;ID=Miro_2.RBS;Name=Miro_2;Parent=Miro_2 -Miro feature gene 3172 3417 . - . ID=Miro_3 -Miro GenBank CDS 3172 3408 . - 1 ID=Miro_3.CDS;Name=Miro_3;Parent=Miro_3;obsolete_name=Miro_161;product=hypothetical conserved;tmhelix=1 TMD %2812-34%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 3414 3417 . - 1 Alias=Miro_3;ID=Miro_3.RBS;Name=Miro_3;Parent=Miro_3 -Miro feature gene 3412 3979 . - . ID=Miro_4 -Miro GenBank CDS 3412 3966 . - 1 ID=Miro_4.CDS;Name=Miro_4;Note=contains SprT domain;Parent=Miro_4;obsolete_name=Miro_160;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 3975 3979 . - 1 Alias=Miro_4;ID=Miro_4.RBS;Name=Miro_4;Parent=Miro_4 -Miro feature gene 4038 5334 . - . ID=Miro_5 -Miro GenBank CDS 4038 5324 . - 1 ID=Miro_5.CDS;Name=Miro_5;Note=T4 gp52-like;Parent=Miro_5;obsolete_name=Miro_159;product=DNA topoisomerase II medium subunit -Miro GenBank Shine_Dalgarno_sequence 5331 5334 . - 1 Alias=Miro_5;ID=Miro_5.RBS;Name=Miro_5;Parent=Miro_5 -Miro feature gene 5324 7231 . - . ID=Miro_6 -Miro GenBank CDS 5324 7222 . - 1 ID=Miro_6.CDS;Name=Miro_6;Note=T4 gp39-like;Parent=Miro_6;obsolete_name=Miro_158;product=DNA topoisomerase II%2C large subunit -Miro GenBank Shine_Dalgarno_sequence 7228 7231 . - 1 Alias=Miro_6;ID=Miro_6.RBS;Name=Miro_6;Parent=Miro_6 -Miro feature gene 7290 7465 . - . ID=Miro_7 -Miro GenBank CDS 7290 7454 . - 1 ID=Miro_7.CDS;Name=Miro_7;Note=contains zinc ribbon domain;Parent=Miro_7;obsolete_name=Miro_157;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 7463 7465 . - 1 Alias=Miro_7;ID=Miro_7.RBS;Name=Miro_7;Parent=Miro_7 -Miro feature gene 124212 124968 . + . ID=Miro_207 -Miro GenBank CDS 124222 124968 . + 1 Alias=Miro_207;ID=Miro_207.CDS;Name=Miro_207;Note=T4 gp14-like;Parent=Miro_207;obsolete_name=Miro_233;product=neck protein -Miro GenBank Shine_Dalgarno_sequence 124212 124216 . + 1 ID=Miro_207.RBS;Name=Miro_207;Parent=Miro_207 -Miro feature gene 173061 173361 . - . ID=Miro_269 -Miro GenBank CDS 173061 173351 . - 1 ID=Miro_269.CDS;Name=Miro_269;Parent=Miro_269;obsolete_name=Miro_171;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 173358 173361 . - 1 Alias=Miro_269;ID=Miro_269.RBS;Name=Miro_269;Parent=Miro_269 -Miro feature gene 66523 66819 . - . ID=Miro_112 -Miro GenBank CDS 66523 66807 . - 1 ID=Miro_112.CDS;Name=Miro_112;Parent=Miro_112;obsolete_name=Miro_052;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18 -Miro GenBank Shine_Dalgarno_sequence 66816 66819 . - 1 Alias=Miro_112;ID=Miro_112.RBS;Name=Miro_112;Parent=Miro_112 -Miro feature gene 66879 67172 . - . ID=Miro_113 -Miro GenBank CDS 66879 67163 . - 1 ID=Miro_113.CDS;Name=Miro_113;Parent=Miro_113;obsolete_name=Miro_051;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 67169 67172 . - 1 Alias=Miro_113;ID=Miro_113.RBS;Name=Miro_113;Parent=Miro_113 -Miro feature gene 44560 45732 . + . ID=Miro_69 -Miro GenBank CDS 44575 45732 . + 1 Alias=Miro_69;ID=Miro_69.CDS;Name=Miro_69;Note=T4 RNA ligase 1-like;Parent=Miro_69;obsolete_name=Miro_095;product=RNA ligase -Miro GenBank Shine_Dalgarno_sequence 44560 44562 . + 1 ID=Miro_69.RBS;Name=Miro_69;Parent=Miro_69 -Miro feature gene 44216 44594 . + . ID=Miro_68 -Miro GenBank CDS 44229 44594 . + 1 Alias=Miro_68;ID=Miro_68.CDS;Name=Miro_68;Note=contains GIY-YIG domain;Parent=Miro_68;obsolete_name=Miro_096;product=homing endonuclease -Miro GenBank Shine_Dalgarno_sequence 44216 44218 . + 1 ID=Miro_68.RBS;Name=Miro_68;Parent=Miro_68 -Miro GenBank CDS 43905 44225 . + 1 ID=Miro_67;Name=Miro_67;obsolete_name=Miro_097;product=hypothetical conserved -Miro feature gene 42748 43933 . + . ID=Miro_66 -Miro GenBank CDS 42758 43933 . + 1 Alias=Miro_66;ID=Miro_66.CDS;Name=Miro_66;Note=T4 NrdB-like;Parent=Miro_66;obsolete_name=Miro_098;product=ribonucleotide reductase%2C small subunit -Miro GenBank Shine_Dalgarno_sequence 42748 42751 . + 1 ID=Miro_66.RBS;Name=Miro_66;Parent=Miro_66 -Miro feature gene 40459 42721 . + . ID=Miro_65 -Miro GenBank CDS 40469 42721 . + 1 Alias=Miro_65;ID=Miro_65.CDS;Name=Miro_65;Note=T4 NrdA-like%3B E-val 0;Parent=Miro_65;obsolete_name=Miro_099;product=ribonucleotide reductase%2C large subunit -Miro GenBank Shine_Dalgarno_sequence 40459 40462 . + 1 ID=Miro_65.RBS;Name=Miro_65;Parent=Miro_65 -Miro feature gene 39545 40429 . + . ID=Miro_64 -Miro GenBank CDS 39554 40429 . + 1 Alias=Miro_64;ID=Miro_64.CDS;Name=Miro_64;Note=T4-like;Parent=Miro_64;obsolete_name=Miro_100;product=thymidylate synthase -Miro GenBank Shine_Dalgarno_sequence 39545 39548 . + 1 ID=Miro_64.RBS;Name=Miro_64;Parent=Miro_64 -Miro feature gene 38964 39552 . + . ID=Miro_63 -Miro GenBank CDS 38974 39552 . + 1 Alias=Miro_63;ID=Miro_63.CDS;Name=Miro_63;Note=T4-like;Parent=Miro_63;obsolete_name=Miro_101;product=dihydrofolate reductase -Miro GenBank Shine_Dalgarno_sequence 38964 38966 . + 1 ID=Miro_63.RBS;Name=Miro_63;Parent=Miro_63 -Miro feature gene 38710 38977 . + . ID=Miro_62 -Miro GenBank CDS 38720 38977 . + 1 Alias=Miro_62;ID=Miro_62.CDS;Name=Miro_62;Parent=Miro_62;obsolete_name=Miro_102;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 38710 38713 . + 1 ID=Miro_62.RBS;Name=Miro_62;Parent=Miro_62 -Miro feature gene 38483 38723 . + . ID=Miro_61 -Miro GenBank CDS 38493 38723 . + 1 Alias=Miro_61;ID=Miro_61.CDS;Name=Miro_61;Parent=Miro_61;obsolete_name=Miro_103;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 38483 38486 . + 1 ID=Miro_61.RBS;Name=Miro_61;Parent=Miro_61 -Miro feature gene 38194 38496 . + . ID=Miro_60 -Miro GenBank CDS 38206 38496 . + 1 Alias=Miro_60;ID=Miro_60.CDS;Name=Miro_60;Parent=Miro_60;obsolete_name=Miro_104;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 38194 38197 . + 1 ID=Miro_60.RBS;Name=Miro_60;Parent=Miro_60 -Miro feature gene 97404 97739 . - . ID=Miro_176 -Miro GenBank CDS 97404 97727 . - 1 ID=Miro_176.CDS;Name=Miro_176;Parent=Miro_176;obsolete_name=Miro_264;product=hypothetical conserved;tmhelix=1 TMD %2884-106%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 97736 97739 . - 1 Alias=Miro_176;ID=Miro_176.RBS;Name=Miro_176;Parent=Miro_176 -Miro feature gene 97756 98022 . - . ID=Miro_177 -Miro GenBank CDS 97756 98013 . - 1 ID=Miro_177.CDS;Name=Miro_177;Parent=Miro_177;obsolete_name=Miro_263;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 98020 98022 . - 1 Alias=Miro_177;ID=Miro_177.RBS;Name=Miro_177;Parent=Miro_177 -Miro feature gene 95966 96891 . - . ID=Miro_174 -Miro GenBank CDS 95966 96880 . - 1 ID=Miro_174.CDS;Name=Miro_174;Parent=Miro_174;obsolete_name=Miro_266;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 96889 96891 . - 1 Alias=Miro_174;ID=Miro_174.RBS;Name=Miro_174;Parent=Miro_174 -Miro feature gene 96877 97416 . - . ID=Miro_175 -Miro GenBank CDS 96877 97404 . - 1 ID=Miro_175.CDS;Name=Miro_175;Parent=Miro_175;obsolete_name=Miro_265;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 97414 97416 . - 1 Alias=Miro_175;ID=Miro_175.RBS;Name=Miro_175;Parent=Miro_175 -Miro feature gene 95498 95705 . - . ID=Miro_172 -Miro GenBank CDS 95498 95692 . - 1 ID=Miro_172.CDS;Name=Miro_172;Note=heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_172;obsolete_name=Miro_268;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 95702 95705 . - 1 Alias=Miro_172;ID=Miro_172.RBS;Name=Miro_172;Parent=Miro_172 -Miro feature gene 95689 95900 . - . ID=Miro_173 -Miro GenBank CDS 95689 95889 . - 1 ID=Miro_173.CDS;Name=Miro_173;Parent=Miro_173;obsolete_name=Miro_267;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 95897 95900 . - 1 Alias=Miro_173;ID=Miro_173.RBS;Name=Miro_173;Parent=Miro_173 -Miro feature gene 94533 95117 . - . ID=Miro_170 -Miro GenBank CDS 94533 95108 . - 1 ID=Miro_170.CDS;Name=Miro_170;Parent=Miro_170;obsolete_name=Miro_270;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 95114 95117 . - 1 Alias=Miro_170;ID=Miro_170.RBS;Name=Miro_170;Parent=Miro_170 -Miro feature gene 95116 95524 . - . ID=Miro_171 -Miro GenBank CDS 95116 95514 . - 1 ID=Miro_171.CDS;Name=Miro_171;Parent=Miro_171;obsolete_name=Miro_269;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 95520 95524 . - 1 Alias=Miro_171;ID=Miro_171.RBS;Name=Miro_171;Parent=Miro_171 -Miro feature gene 98015 98410 . - . ID=Miro_178 -Miro GenBank CDS 98015 98398 . - 1 ID=Miro_178.CDS;Name=Miro_178;Parent=Miro_178;obsolete_name=Miro_262;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 98408 98410 . - 1 Alias=Miro_178;ID=Miro_178.RBS;Name=Miro_178;Parent=Miro_178 -Miro feature gene 98409 98826 . - . ID=Miro_179 -Miro GenBank CDS 98409 98816 . - 1 ID=Miro_179.CDS;Name=Miro_179;Parent=Miro_179;obsolete_name=Miro_261;product=NUDIX hydrolase -Miro GenBank Shine_Dalgarno_sequence 98823 98826 . - 1 Alias=Miro_179;ID=Miro_179.RBS;Name=Miro_179;Parent=Miro_179 -Miro feature gene 105709 106188 . - . ID=Miro_194 -Miro GenBank CDS 105709 106176 . - 1 ID=Miro_194.CDS;Name=Miro_194;Parent=Miro_194;obsolete_name=Miro_246;product=restriction endonuclease -Miro GenBank Shine_Dalgarno_sequence 106185 106188 . - 1 Alias=Miro_194;ID=Miro_194.RBS;Name=Miro_194;Parent=Miro_194 -Miro feature gene 106215 106781 . + . ID=Miro_195 -Miro GenBank CDS 106227 106781 . + 1 Alias=Miro_195;ID=Miro_195.CDS;Name=Miro_195;Note=T4 gp53-like;Parent=Miro_195;obsolete_name=Miro_245;product=baseplate wedge protein -Miro GenBank Shine_Dalgarno_sequence 106215 106218 . + 1 ID=Miro_195.RBS;Name=Miro_195;Parent=Miro_195 -Miro feature gene 106763 108547 . + . ID=Miro_196 -Miro GenBank CDS 106778 108547 . + 1 Alias=Miro_196;ID=Miro_196.CDS;Name=Miro_196;Note=T4 gp5-like;Parent=Miro_196;obsolete_name=Miro_244;product=baseplate hub structural protein and tail lysozyme -Miro GenBank Shine_Dalgarno_sequence 106763 106765 . + 1 ID=Miro_196.RBS;Name=Miro_196;Parent=Miro_196 -Miro feature gene 108542 110618 . + . ID=Miro_197 -Miro GenBank CDS 108552 110618 . + 1 Alias=Miro_197;ID=Miro_197.CDS;Name=Miro_197;Parent=Miro_197;obsolete_name=Miro_243;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 108542 108545 . + 1 ID=Miro_197.RBS;Name=Miro_197;Parent=Miro_197 -Miro feature gene 102567 103107 . - . ID=Miro_190 -Miro GenBank CDS 102567 103097 . - 1 ID=Miro_190.CDS;Name=Miro_190;Note=T4 gp19-like;Parent=Miro_190;obsolete_name=Miro_250;product=tail tube protein -Miro GenBank Shine_Dalgarno_sequence 103103 103107 . - 1 Alias=Miro_190;ID=Miro_190.RBS;Name=Miro_190;Parent=Miro_190 -Miro feature gene 103455 104255 . + . ID=Miro_191 -Miro GenBank CDS 103467 104255 . + 1 Alias=Miro_191;ID=Miro_191.CDS;Name=Miro_191;Parent=Miro_191;obsolete_name=Miro_249;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 103455 103458 . + 1 ID=Miro_191.RBS;Name=Miro_191;Parent=Miro_191 -Miro feature gene 104349 104819 . + . ID=Miro_192 -Miro GenBank CDS 104361 104819 . + 1 Alias=Miro_192;ID=Miro_192.CDS;Name=Miro_192;Note=contains AP2/ERF domain;Parent=Miro_192;obsolete_name=Miro_248;product=homing endonuclease -Miro GenBank Shine_Dalgarno_sequence 104349 104351 . + 1 ID=Miro_192.RBS;Name=Miro_192;Parent=Miro_192 -Miro feature gene 73313 73582 . - . ID=Miro_124 -Miro GenBank CDS 73313 73570 . - 1 ID=Miro_124.CDS;Name=Miro_124;Parent=Miro_124;obsolete_name=Miro_040;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 73579 73582 . - 1 Alias=Miro_124;ID=Miro_124.RBS;Name=Miro_124;Parent=Miro_124 -Miro feature gene 125036 125872 . + . ID=Miro_208 -Miro GenBank CDS 125048 125872 . + 1 Alias=Miro_208;ID=Miro_208.CDS;Name=Miro_208;Parent=Miro_208;obsolete_name=Miro_232;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 125036 125039 . + 1 ID=Miro_208.RBS;Name=Miro_208;Parent=Miro_208 -Miro feature gene 110635 112575 . + . ID=Miro_198 -Miro GenBank CDS 110650 112575 . + 1 Alias=Miro_198;ID=Miro_198.CDS;Name=Miro_198;Parent=Miro_198;obsolete_name=Miro_242;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 110635 110638 . + 1 ID=Miro_198.RBS;Name=Miro_198;Parent=Miro_198 -Miro feature gene 112645 115742 . + . ID=Miro_199 -Miro GenBank CDS 112656 115742 . + 1 Alias=Miro_199;ID=Miro_199.CDS;Name=Miro_199;Parent=Miro_199;obsolete_name=Miro_241;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 112645 112648 . + 1 ID=Miro_199.RBS;Name=Miro_199;Parent=Miro_199 -Miro feature gene 136157 136806 . + . ID=Miro_219 -Miro GenBank CDS 136168 136806 . + 1 Alias=Miro_219;ID=Miro_219.CDS;Name=Miro_219;Note=contains GIY-YIG domain;Parent=Miro_219;obsolete_name=Miro_221;product=homing endonuclease -Miro GenBank Shine_Dalgarno_sequence 136157 136160 . + 1 ID=Miro_219.RBS;Name=Miro_219;Parent=Miro_219 -Miro feature gene 125860 126369 . + . ID=Miro_209 -Miro GenBank CDS 125872 126369 . + 1 Alias=Miro_209;ID=Miro_209.CDS;Name=Miro_209;Note=T4 gp16-like;Parent=Miro_209;obsolete_name=Miro_231;product=terminase%2C small subunit -Miro GenBank Shine_Dalgarno_sequence 125860 125863 . + 1 ID=Miro_209.RBS;Name=Miro_209;Parent=Miro_209 -Miro feature gene 93915 94204 . - . ID=Miro_169 -Miro GenBank CDS 93915 94193 . - 1 ID=Miro_169.CDS;Name=Miro_169;Parent=Miro_169;obsolete_name=Miro_271;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 94201 94204 . - 1 Alias=Miro_169;ID=Miro_169.RBS;Name=Miro_169;Parent=Miro_169 -Miro feature gene 93592 93854 . - . ID=Miro_168 -Miro GenBank CDS 93592 93843 . - 1 ID=Miro_168.CDS;Name=Miro_168;Parent=Miro_168;obsolete_name=Miro_272;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 93849 93854 . - 1 Alias=Miro_168;ID=Miro_168.RBS;Name=Miro_168;Parent=Miro_168 -Miro feature gene 48763 49277 . + . ID=Miro_78 -Miro GenBank CDS 48771 49277 . + 1 Alias=Miro_78;ID=Miro_78.CDS;Name=Miro_78;Note=T4-like;Parent=Miro_78;obsolete_name=Miro_086;product=dCMP deaminase -Miro GenBank Shine_Dalgarno_sequence 48763 48765 . + 1 ID=Miro_78.RBS;Name=Miro_78;Parent=Miro_78 -Miro feature gene 49267 49634 . + . ID=Miro_79 -Miro GenBank CDS 49281 49634 . + 1 Alias=Miro_79;ID=Miro_79.CDS;Name=Miro_79;Note=T4 gp31-like;Parent=Miro_79;obsolete_name=Miro_085;product=chaperonin-GroEL -Miro GenBank Shine_Dalgarno_sequence 49267 49269 . + 1 ID=Miro_79.RBS;Name=Miro_79;Parent=Miro_79 -Miro feature gene 120090 121485 . + . ID=Miro_204 -Miro GenBank CDS 120100 121485 . + 1 Alias=Miro_204;ID=Miro_204.CDS;Name=Miro_204;Note=T4 gp12-like;Parent=Miro_204;obsolete_name=Miro_236;product=short tail fiber protein -Miro GenBank Shine_Dalgarno_sequence 120090 120093 . + 1 ID=Miro_204.RBS;Name=Miro_204;Parent=Miro_204 -Miro feature gene 47021 47916 . + . ID=Miro_74 -Miro GenBank CDS 47032 47916 . + 1 Alias=Miro_74;ID=Miro_74.CDS;Name=Miro_74;Note=contains HAD-like domain;Parent=Miro_74;obsolete_name=Miro_090;product=nucleoside triphosphate hydrolase -Miro GenBank Shine_Dalgarno_sequence 47021 47023 . + 1 ID=Miro_74.RBS;Name=Miro_74;Parent=Miro_74 -Miro feature gene 47957 48256 . + . ID=Miro_75 -Miro GenBank CDS 47969 48256 . + 1 Alias=Miro_75;ID=Miro_75.CDS;Name=Miro_75;Parent=Miro_75;obsolete_name=Miro_089;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 47957 47960 . + 1 ID=Miro_75.RBS;Name=Miro_75;Parent=Miro_75 -Miro feature gene 48240 48504 . + . ID=Miro_76 -Miro GenBank CDS 48253 48504 . + 1 Alias=Miro_76;ID=Miro_76.CDS;Name=Miro_76;Parent=Miro_76;obsolete_name=Miro_088;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 48240 48242 . + 1 ID=Miro_76.RBS;Name=Miro_76;Parent=Miro_76 -Miro feature gene 48485 48781 . + . ID=Miro_77 -Miro GenBank CDS 48497 48781 . + 1 Alias=Miro_77;ID=Miro_77.CDS;Name=Miro_77;Parent=Miro_77;obsolete_name=Miro_087;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 48485 48488 . + 1 ID=Miro_77.RBS;Name=Miro_77;Parent=Miro_77 -Miro feature gene 45718 46265 . + . ID=Miro_70 -Miro GenBank CDS 45729 46265 . + 1 Alias=Miro_70;ID=Miro_70.CDS;Name=Miro_70;Note=contains AP2/ERF domain;Parent=Miro_70;obsolete_name=Miro_094;product=homing endonuclease -Miro GenBank Shine_Dalgarno_sequence 45718 45721 . + 1 ID=Miro_70.RBS;Name=Miro_70;Parent=Miro_70 -Miro feature gene 46221 46569 . + . ID=Miro_71 -Miro GenBank CDS 46234 46569 . + 1 Alias=Miro_71;ID=Miro_71.CDS;Name=Miro_71;Note=T4 PseT.3-like;Parent=Miro_71;obsolete_name=Miro_093;product=i-spanin;tmhelix=1 TMD %2815-33%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 46221 46224 . + 1 ID=Miro_71.RBS;Name=Miro_71;Parent=Miro_71 -Miro feature gene 46553 46883 . + . ID=Miro_72 -Miro GenBank CDS 46566 46883 . + 1 Alias=Miro_72;ID=Miro_72.CDS;Name=Miro_72;Note=T4 PseT.2-like;Parent=Miro_72;obsolete_name=Miro_092;product=o-spanin;signal=signal peptidase II cleavage site 16-17 -Miro GenBank Shine_Dalgarno_sequence 46553 46556 . + 1 ID=Miro_72.RBS;Name=Miro_72;Parent=Miro_72 -Miro feature gene 46854 47035 . + . ID=Miro_73 -Miro GenBank CDS 46868 47035 . + 1 Alias=Miro_73;ID=Miro_73.CDS;Name=Miro_73;Parent=Miro_73;obsolete_name=Miro_091;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 46854 46856 . + 1 ID=Miro_73.RBS;Name=Miro_73;Parent=Miro_73 -Miro feature gene 90380 90770 . - . ID=Miro_161 -Miro GenBank CDS 90380 90760 . - 1 ID=Miro_161.CDS;Name=Miro_161;Parent=Miro_161;obsolete_name=Miro_003;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 90767 90770 . - 1 Alias=Miro_161;ID=Miro_161.RBS;Name=Miro_161;Parent=Miro_161 -Miro feature gene 90052 90410 . - . ID=Miro_160 -Miro GenBank CDS 90052 90399 . - 1 ID=Miro_160.CDS;Name=Miro_160;Parent=Miro_160;obsolete_name=Miro_004;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 90406 90410 . - 1 Alias=Miro_160;ID=Miro_160.RBS;Name=Miro_160;Parent=Miro_160 -Miro feature gene 91043 92201 . - . ID=Miro_163 -Miro GenBank CDS 91043 92197 . - 1 ID=Miro_163.CDS;Name=Miro_163;Note=contains 4Fe4S-binding SPASM domain;Parent=Miro_163;obsolete_name=Miro_001;product=radical SAM superfamily protein -Miro GenBank Shine_Dalgarno_sequence 92198 92201 . + 1 Alias=Miro_163;ID=Miro_163.RBS;Name=Miro_163;Parent=Miro_163 -Miro feature gene 100922 101554 . - . ID=Miro_187 -Miro GenBank CDS 100922 101545 . - 1 ID=Miro_187.CDS;Name=Miro_187;Parent=Miro_187;obsolete_name=Miro_253;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 101551 101554 . - 1 Alias=Miro_187;ID=Miro_187.RBS;Name=Miro_187;Parent=Miro_187 -Miro feature gene 100375 100923 . - . ID=Miro_186 -Miro GenBank CDS 100375 100914 . - 1 ID=Miro_186.CDS;Name=Miro_186;Parent=Miro_186;obsolete_name=Miro_254;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 100920 100923 . - 1 Alias=Miro_186;ID=Miro_186.RBS;Name=Miro_186;Parent=Miro_186 -Miro feature gene 100169 100320 . - . ID=Miro_185 -Miro GenBank CDS 100169 100309 . - 1 ID=Miro_185.CDS;Name=Miro_185;Parent=Miro_185;obsolete_name=Miro_255;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 100315 100320 . - 1 Alias=Miro_185;ID=Miro_185.RBS;Name=Miro_185;Parent=Miro_185 -Miro feature gene 90744 91055 . - . ID=Miro_162 -Miro GenBank CDS 90744 91046 . - 1 ID=Miro_162.CDS;Name=Miro_162;Parent=Miro_162;obsolete_name=Miro_002;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 91053 91055 . - 1 Alias=Miro_162;ID=Miro_162.RBS;Name=Miro_162;Parent=Miro_162 -Miro feature gene 99593 99940 . - . ID=Miro_183 -Miro GenBank CDS 99593 99928 . - 1 ID=Miro_183.CDS;Name=Miro_183;Note=contains heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_183;obsolete_name=Miro_257;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 99938 99940 . - 1 Alias=Miro_183;ID=Miro_183.RBS;Name=Miro_183;Parent=Miro_183 -Miro feature gene 99303 99611 . - . ID=Miro_182 -Miro GenBank CDS 99303 99596 . - 1 ID=Miro_182.CDS;Name=Miro_182;Parent=Miro_182;obsolete_name=Miro_258;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 99609 99611 . - 1 Alias=Miro_182;ID=Miro_182.RBS;Name=Miro_182;Parent=Miro_182 -Miro feature gene 99059 99328 . - . ID=Miro_181 -Miro GenBank CDS 99059 99310 . - 1 ID=Miro_181.CDS;Name=Miro_181;Parent=Miro_181;obsolete_name=Miro_259;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 99325 99328 . - 1 Alias=Miro_181;ID=Miro_181.RBS;Name=Miro_181;Parent=Miro_181 -Miro feature gene 98817 99074 . - . ID=Miro_180 -Miro GenBank CDS 98817 99062 . - 1 ID=Miro_180.CDS;Name=Miro_180;Parent=Miro_180;obsolete_name=Miro_260;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 99072 99074 . - 1 Alias=Miro_180;ID=Miro_180.RBS;Name=Miro_180;Parent=Miro_180 -Miro feature gene 92931 93195 . - . ID=Miro_165 -Miro GenBank CDS 92931 93185 . - 1 ID=Miro_165.CDS;Name=Miro_165;Parent=Miro_165;obsolete_name=Miro_275;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 93192 93195 . - 1 Alias=Miro_165;ID=Miro_165.RBS;Name=Miro_165;Parent=Miro_165 -Miro feature gene 101872 102579 . - . ID=Miro_189 -Miro GenBank CDS 101872 102567 . - 1 ID=Miro_189.CDS;Name=Miro_189;Note=contains P-loop NTPase domain;Parent=Miro_189;obsolete_name=Miro_251;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 102577 102579 . - 1 Alias=Miro_189;ID=Miro_189.RBS;Name=Miro_189;Parent=Miro_189 -Miro feature gene 92203 92938 . + . ID=Miro_164 -Miro GenBank CDS 92210 92938 . + 1 Alias=Miro_164;ID=Miro_164.CDS;Name=Miro_164;Parent=Miro_164;obsolete_name=Miro_276;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 92203 92206 . - 1 ID=Miro_164.RBS;Name=Miro_164;Parent=Miro_164 -Miro feature gene 93449 93607 . - . ID=Miro_167 -Miro GenBank CDS 93449 93595 . - 1 ID=Miro_167.CDS;Name=Miro_167;Parent=Miro_167;obsolete_name=Miro_273;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 93605 93607 . - 1 Alias=Miro_167;ID=Miro_167.RBS;Name=Miro_167;Parent=Miro_167 -Miro feature gene 121485 123247 . + . ID=Miro_205 -Miro GenBank CDS 121496 123247 . + 1 Alias=Miro_205;ID=Miro_205.CDS;Name=Miro_205;Note=T4 fibritin-like;Parent=Miro_205;obsolete_name=Miro_235;product=neck whisker protein -Miro GenBank Shine_Dalgarno_sequence 121485 121489 . + 1 ID=Miro_205.RBS;Name=Miro_205;Parent=Miro_205 -Miro feature gene 93252 93463 . - . ID=Miro_166 -Miro GenBank CDS 93252 93452 . - 1 ID=Miro_166.CDS;Name=Miro_166;Parent=Miro_166;obsolete_name=Miro_274;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 93461 93463 . - 1 Alias=Miro_166;ID=Miro_166.RBS;Name=Miro_166;Parent=Miro_166 -Miro feature gene 30315 30571 . - . ID=Miro_49 -Miro GenBank CDS 30315 30560 . - 1 ID=Miro_49.CDS;Name=Miro_49;Parent=Miro_49;obsolete_name=Miro_115;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 30569 30571 . - 1 Alias=Miro_49;ID=Miro_49.RBS;Name=Miro_49;Parent=Miro_49 -Miro feature gene 29659 30330 . - . ID=Miro_48 -Miro GenBank CDS 29659 30318 . - 1 ID=Miro_48.CDS;Name=Miro_48;Note=T4 gp59-like;Parent=Miro_48;obsolete_name=Miro_116;product=helicase assembly protein -Miro GenBank Shine_Dalgarno_sequence 30328 30330 . - 1 Alias=Miro_48;ID=Miro_48.RBS;Name=Miro_48;Parent=Miro_48 -Miro GenBank DNA 1 176055 . . 1 Alias=Miro;ID=Miro;Name=Miro;date=01-JAN-1980 -Miro feature gene 70714 71046 . - . ID=Miro_118 -Miro GenBank CDS 70714 71034 . - 1 ID=Miro_118.CDS;Name=Miro_118;Parent=Miro_118;obsolete_name=Miro_046;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 71044 71046 . - 1 Alias=Miro_118;ID=Miro_118.RBS;Name=Miro_118;Parent=Miro_118 -Miro feature gene 71034 71561 . - . ID=Miro_119 -Miro GenBank CDS 71034 71549 . - 1 ID=Miro_119.CDS;Name=Miro_119;Parent=Miro_119;obsolete_name=Miro_045;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 71558 71561 . - 1 Alias=Miro_119;ID=Miro_119.RBS;Name=Miro_119;Parent=Miro_119 -Miro feature gene 25310 25609 . - . ID=Miro_41 -Miro GenBank CDS 25310 25597 . - 1 ID=Miro_41.CDS;Name=Miro_41;Parent=Miro_41;obsolete_name=Miro_123;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 25606 25609 . - 1 Alias=Miro_41;ID=Miro_41.RBS;Name=Miro_41;Parent=Miro_41 -Miro feature gene 24984 25325 . - . ID=Miro_40 -Miro GenBank CDS 24984 25313 . - 1 ID=Miro_40.CDS;Name=Miro_40;Parent=Miro_40;obsolete_name=Miro_124;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 25321 25325 . - 1 Alias=Miro_40;ID=Miro_40.RBS;Name=Miro_40;Parent=Miro_40 -Miro feature gene 26032 26607 . - . ID=Miro_43 -Miro GenBank CDS 26032 26595 . - 1 ID=Miro_43.CDS;Name=Miro_43;Parent=Miro_43;obsolete_name=Miro_121;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 26603 26607 . - 1 Alias=Miro_43;ID=Miro_43.RBS;Name=Miro_43;Parent=Miro_43 -Miro feature gene 25666 26036 . - . ID=Miro_42 -Miro GenBank CDS 25666 26028 . - 1 ID=Miro_42.CDS;Name=Miro_42;Note=T4 RegA-like;Parent=Miro_42;obsolete_name=Miro_122;product=translational repressor protein -Miro GenBank Shine_Dalgarno_sequence 26034 26036 . - 1 Alias=Miro_42;ID=Miro_42.RBS;Name=Miro_42;Parent=Miro_42 -Miro feature gene 27655 28329 . - . ID=Miro_45 -Miro GenBank CDS 27655 28320 . - 1 ID=Miro_45.CDS;Name=Miro_45;Note=T4-like;Parent=Miro_45;obsolete_name=Miro_119;product=DNA polymerase processivity component -Miro GenBank Shine_Dalgarno_sequence 28327 28329 . - 1 Alias=Miro_45;ID=Miro_45.RBS;Name=Miro_45;Parent=Miro_45 -Miro feature gene 26598 27605 . - . ID=Miro_44 -Miro GenBank CDS 26598 27596 . - 1 ID=Miro_44.CDS;Name=Miro_44;Note=T4 gp44-like;Parent=Miro_44;obsolete_name=Miro_120;product=sliding-clamp-loader subunit -Miro GenBank Shine_Dalgarno_sequence 27602 27605 . - 1 Alias=Miro_44;ID=Miro_44.RBS;Name=Miro_44;Parent=Miro_44 -Miro feature gene 28672 29656 . - . ID=Miro_47 -Miro GenBank CDS 28672 29643 . - 1 ID=Miro_47.CDS;Name=Miro_47;Note=T4 gp32-like;Parent=Miro_47;obsolete_name=Miro_117;product=ssDNA-binding protein -Miro GenBank Shine_Dalgarno_sequence 29654 29656 . - 1 Alias=Miro_47;ID=Miro_47.RBS;Name=Miro_47;Parent=Miro_47 -Miro feature gene 28347 28628 . - . ID=Miro_46 -Miro GenBank CDS 28347 28616 . - 1 ID=Miro_46.CDS;Name=Miro_46;Note=T4-like;Parent=Miro_46;obsolete_name=Miro_118;product=RNA polymerase binding protein -Miro GenBank Shine_Dalgarno_sequence 28626 28628 . - 1 Alias=Miro_46;ID=Miro_46.RBS;Name=Miro_46;Parent=Miro_46 -Miro feature gene 159724 160702 . + . ID=Miro_258 -Miro GenBank CDS 159737 160702 . + 1 Alias=Miro_258;ID=Miro_258.CDS;Name=Miro_258;Parent=Miro_258;obsolete_name=Miro_182;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 159724 159726 . + 1 ID=Miro_258.RBS;Name=Miro_258;Parent=Miro_258 -Miro feature gene 165793 166927 . + . ID=Miro_263 -Miro GenBank CDS 165803 166927 . + 1 Alias=Miro_263;ID=Miro_263.CDS;Name=Miro_263;Parent=Miro_263;obsolete_name=Miro_177;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 165793 165796 . + 1 ID=Miro_263.RBS;Name=Miro_263;Parent=Miro_263 -Miro feature gene 126351 128186 . + . ID=Miro_210 -Miro GenBank CDS 126366 128186 . + 1 Alias=Miro_210;ID=Miro_210.CDS;Name=Miro_210;Note=T4 gp17-like;Parent=Miro_210;obsolete_name=Miro_230;product=terminase%2C large subunit -Miro GenBank Shine_Dalgarno_sequence 126351 126353 . + 1 ID=Miro_210.RBS;Name=Miro_210;Parent=Miro_210 -Miro feature gene 34191 34491 . + . ID=Miro_56 -Miro GenBank CDS 34204 34491 . + 1 Alias=Miro_56;ID=Miro_56.CDS;Name=Miro_56;Parent=Miro_56;obsolete_name=Miro_108;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 34191 34195 . + 1 ID=Miro_56.RBS;Name=Miro_56;Parent=Miro_56 -Miro feature gene 34465 36172 . + . ID=Miro_57 -Miro GenBank CDS 34475 36172 . + 1 Alias=Miro_57;ID=Miro_57.CDS;Name=Miro_57;Parent=Miro_57;obsolete_name=Miro_107;product=methyl methanesulphonate-sensitivity protein -Miro GenBank Shine_Dalgarno_sequence 34465 34468 . + 1 ID=Miro_57.RBS;Name=Miro_57;Parent=Miro_57 -Miro feature gene 32797 33134 . + . ID=Miro_54 -Miro GenBank CDS 32808 33134 . + 1 Alias=Miro_54;ID=Miro_54.CDS;Name=Miro_54;Parent=Miro_54;obsolete_name=Miro_110;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 32797 32800 . + 1 ID=Miro_54.RBS;Name=Miro_54;Parent=Miro_54 -Miro feature gene 33173 34217 . + . ID=Miro_55 -Miro GenBank CDS 33186 34217 . + 1 Alias=Miro_55;ID=Miro_55.CDS;Name=Miro_55;Note=T4 exonuclease subunit 1-like;Parent=Miro_55;obsolete_name=Miro_109;product=exonuclease -Miro GenBank Shine_Dalgarno_sequence 33173 33175 . + 1 ID=Miro_55.RBS;Name=Miro_55;Parent=Miro_55 -Miro feature gene 32068 32603 . + . ID=Miro_52 -Miro GenBank CDS 32076 32603 . + 1 Alias=Miro_52;ID=Miro_52.CDS;Name=Miro_52;Parent=Miro_52;obsolete_name=Miro_112;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 32068 32070 . + 1 ID=Miro_52.RBS;Name=Miro_52;Parent=Miro_52 -Miro feature gene 32588 32815 . + . ID=Miro_53 -Miro GenBank CDS 32600 32815 . + 1 Alias=Miro_53;ID=Miro_53.CDS;Name=Miro_53;Parent=Miro_53;obsolete_name=Miro_111;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 32588 32590 . + 1 ID=Miro_53.RBS;Name=Miro_53;Parent=Miro_53 -Miro feature gene 30564 30838 . - . ID=Miro_50 -Miro GenBank CDS 30564 30827 . - 1 ID=Miro_50.CDS;Name=Miro_50;Note=T4-like;Parent=Miro_50;obsolete_name=Miro_114;product=dsDNA-binding protein -Miro GenBank Shine_Dalgarno_sequence 30834 30838 . - 1 Alias=Miro_50;ID=Miro_50.RBS;Name=Miro_50;Parent=Miro_50 -Miro feature gene 30837 31781 . - . ID=Miro_51 -Miro GenBank CDS 30837 31772 . - 1 ID=Miro_51.CDS;Name=Miro_51;Note=T4 RNase H-like;Parent=Miro_51;obsolete_name=Miro_113;product=5%27-3%27 exonuclease -Miro GenBank Shine_Dalgarno_sequence 31778 31781 . - 1 Alias=Miro_51;ID=Miro_51.RBS;Name=Miro_51;Parent=Miro_51 -Miro feature gene 36162 36363 . + . ID=Miro_58 -Miro GenBank CDS 36172 36363 . + 1 Alias=Miro_58;ID=Miro_58.CDS;Name=Miro_58;Parent=Miro_58;obsolete_name=Miro_106;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 36162 36166 . + 1 ID=Miro_58.RBS;Name=Miro_58;Parent=Miro_58 -Miro feature gene 36425 38146 . + . ID=Miro_59 -Miro GenBank CDS 36437 38146 . + 1 Alias=Miro_59;ID=Miro_59.CDS;Name=Miro_59;Note=contains DNAJ domain;Parent=Miro_59;obsolete_name=Miro_105;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 36425 36428 . + 1 ID=Miro_59.RBS;Name=Miro_59;Parent=Miro_59 -Miro feature gene 65396 65799 . + . ID=Miro_109 -Miro GenBank CDS 65407 65799 . + 1 Alias=Miro_109;ID=Miro_109.CDS;Name=Miro_109;Note=T4-like;Parent=Miro_109;obsolete_name=Miro_055;product=tail lysozyme -Miro GenBank Shine_Dalgarno_sequence 65396 65399 . + 1 ID=Miro_109.RBS;Name=Miro_109;Parent=Miro_109 -Miro feature gene 64840 65406 . + . ID=Miro_108 -Miro GenBank CDS 64852 65406 . + 1 Alias=Miro_108;ID=Miro_108.CDS;Name=Miro_108;Note=T4 gp26/gp51-like;Parent=Miro_108;obsolete_name=Miro_056;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 64840 64843 . + 1 ID=Miro_108.RBS;Name=Miro_108;Parent=Miro_108 -Miro feature gene 64103 64855 . + . ID=Miro_107 -Miro GenBank CDS 64112 64855 . + 1 Alias=Miro_107;ID=Miro_107.CDS;Name=Miro_107;Note=T4 gp26/gp51-like;Parent=Miro_107;obsolete_name=Miro_057;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 64103 64106 . + 1 ID=Miro_107.RBS;Name=Miro_107;Parent=Miro_107 -Miro feature gene 63210 64083 . + . ID=Miro_106 -Miro GenBank CDS 63220 64083 . + 1 Alias=Miro_106;ID=Miro_106.CDS;Name=Miro_106;Note=T4 gp19-like;Parent=Miro_106;obsolete_name=Miro_058;product=tail tube protein -Miro GenBank Shine_Dalgarno_sequence 63210 63214 . + 1 ID=Miro_106.RBS;Name=Miro_106;Parent=Miro_106 -Miro feature gene 62126 63210 . + . ID=Miro_105 -Miro GenBank CDS 62137 63210 . + 1 Alias=Miro_105;ID=Miro_105.CDS;Name=Miro_105;Note=T4 gp48-like;Parent=Miro_105;obsolete_name=Miro_059;product=tail tube assembly protein -Miro GenBank Shine_Dalgarno_sequence 62126 62129 . + 1 ID=Miro_105.RBS;Name=Miro_105;Parent=Miro_105 -Miro feature gene 60343 62126 . + . ID=Miro_104 -Miro GenBank CDS 60354 62126 . + 1 Alias=Miro_104;ID=Miro_104.CDS;Name=Miro_104;Parent=Miro_104;obsolete_name=Miro_060;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 60343 60345 . + 1 ID=Miro_104.RBS;Name=Miro_104;Parent=Miro_104 -Miro feature gene 59767 60351 . + . ID=Miro_103 -Miro GenBank CDS 59776 60351 . + 1 Alias=Miro_103;ID=Miro_103.CDS;Name=Miro_103;Note=T4 gp28-like;Parent=Miro_103;obsolete_name=Miro_061;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 59767 59770 . + 1 ID=Miro_103.RBS;Name=Miro_103;Parent=Miro_103 -Miro feature gene 58597 59719 . - . ID=Miro_102 -Miro GenBank CDS 58597 59706 . - 1 ID=Miro_102.CDS;Name=Miro_102;Note=T4 gp27-like;Parent=Miro_102;obsolete_name=Miro_062;product=baseplate structural protein -Miro GenBank Shine_Dalgarno_sequence 59714 59719 . - 1 Alias=Miro_102;ID=Miro_102.RBS;Name=Miro_102;Parent=Miro_102 -Miro feature gene 58210 58600 . + . ID=Miro_101 -Miro GenBank CDS 58223 58600 . + 1 Alias=Miro_101;ID=Miro_101.CDS;Name=Miro_101;Parent=Miro_101;obsolete_name=Miro_063;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 58210 58213 . + 1 ID=Miro_101.RBS;Name=Miro_101;Parent=Miro_101 -Miro feature gene 57934 58236 . + . ID=Miro_100 -Miro GenBank CDS 57946 58236 . + 1 Alias=Miro_100;ID=Miro_100.CDS;Name=Miro_100;Parent=Miro_100;obsolete_name=Miro_064;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 57934 57936 . + 1 ID=Miro_100.RBS;Name=Miro_100;Parent=Miro_100 -Miro feature gene 142768 143313 . + . ID=Miro_228 -Miro GenBank CDS 142780 143313 . + 1 Alias=Miro_228;ID=Miro_228.CDS;Name=Miro_228;Note=contains Ig-like fold;Parent=Miro_228;obsolete_name=Miro_212;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 142768 142772 . + 1 ID=Miro_228.RBS;Name=Miro_228;Parent=Miro_228 -Miro feature gene 143314 143599 . + . ID=Miro_229 -Miro GenBank CDS 143324 143599 . + 1 Alias=Miro_229;ID=Miro_229.CDS;Name=Miro_229;Parent=Miro_229;obsolete_name=Miro_211;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 143314 143317 . + 1 ID=Miro_229.RBS;Name=Miro_229;Parent=Miro_229 -Miro feature gene 138844 139028 . + . ID=Miro_222 -Miro GenBank CDS 138852 139028 . + 1 Alias=Miro_222;ID=Miro_222.CDS;Name=Miro_222;Parent=Miro_222;obsolete_name=Miro_218;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 138844 138846 . + 1 ID=Miro_222.RBS;Name=Miro_222;Parent=Miro_222 -Miro feature gene 139303 139545 . - . ID=Miro_223 -Miro GenBank CDS 139303 139536 . - 1 ID=Miro_223.CDS;Name=Miro_223;Note=T4 UvsW-like;Parent=Miro_223;obsolete_name=Miro_217;product=ATP-dependent DNA helicase -Miro GenBank Shine_Dalgarno_sequence 139542 139545 . - 1 Alias=Miro_223;ID=Miro_223.RBS;Name=Miro_223;Parent=Miro_223 -Miro feature gene 136828 138128 . + . ID=Miro_220 -Miro GenBank CDS 136839 138128 . + 1 Alias=Miro_220;ID=Miro_220.CDS;Name=Miro_220;Note=T4 gp23/gp24-like;Parent=Miro_220;obsolete_name=Miro_220;product=major capsid protein -Miro GenBank Shine_Dalgarno_sequence 136828 136831 . + 1 ID=Miro_220.RBS;Name=Miro_220;Parent=Miro_220 -Miro feature gene 138424 138852 . + . ID=Miro_221 -Miro GenBank CDS 138433 138852 . + 1 Alias=Miro_221;ID=Miro_221.CDS;Name=Miro_221;Parent=Miro_221;obsolete_name=Miro_219;product=UvsY recombination protein -Miro GenBank Shine_Dalgarno_sequence 138424 138426 . + 1 ID=Miro_221.RBS;Name=Miro_221;Parent=Miro_221 -Miro feature gene 141819 142142 . + . ID=Miro_226 -Miro GenBank CDS 141831 142142 . + 1 Alias=Miro_226;ID=Miro_226.CDS;Name=Miro_226;Parent=Miro_226;obsolete_name=Miro_214;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 141819 141822 . + 1 ID=Miro_226.RBS;Name=Miro_226;Parent=Miro_226 -Miro feature gene 142173 142751 . + . ID=Miro_227 -Miro GenBank CDS 142182 142751 . + 1 Alias=Miro_227;ID=Miro_227.CDS;Name=Miro_227;Note=contains heat shock protein DNAJ domain;Parent=Miro_227;obsolete_name=Miro_213;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 142173 142176 . + 1 ID=Miro_227.RBS;Name=Miro_227;Parent=Miro_227 -Miro feature gene 139545 141056 . - . ID=Miro_224 -Miro GenBank CDS 139545 141044 . - 1 ID=Miro_224.CDS;Name=Miro_224;Note=contains helicase superfamily and ATP-binding domains;Parent=Miro_224;obsolete_name=Miro_216;product=DNA helicase -Miro GenBank Shine_Dalgarno_sequence 141053 141056 . - 1 Alias=Miro_224;ID=Miro_224.RBS;Name=Miro_224;Parent=Miro_224 -Miro feature gene 141104 141738 . + . ID=Miro_225 -Miro GenBank CDS 141115 141738 . + 1 Alias=Miro_225;ID=Miro_225.CDS;Name=Miro_225;Parent=Miro_225;obsolete_name=Miro_215;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 141104 141107 . + 1 ID=Miro_225.RBS;Name=Miro_225;Parent=Miro_225 -Miro feature gene 154043 154534 . + . ID=Miro_248 -Miro GenBank CDS 154052 154534 . + 1 Alias=Miro_248;ID=Miro_248.CDS;Name=Miro_248;Note=T4 gp49-like;Parent=Miro_248;obsolete_name=Miro_192;product=recombination endonuclease -Miro GenBank Shine_Dalgarno_sequence 154043 154045 . + 1 ID=Miro_248.RBS;Name=Miro_248;Parent=Miro_248 -Miro feature gene 154521 154857 . + . ID=Miro_249 -Miro GenBank CDS 154531 154857 . + 1 Alias=Miro_249;ID=Miro_249.CDS;Name=Miro_249;Parent=Miro_249;obsolete_name=Miro_191;product=hypothetical novel -Miro GenBank Shine_Dalgarno_sequence 154521 154523 . + 1 ID=Miro_249.RBS;Name=Miro_249;Parent=Miro_249 -Miro feature gene 149229 149828 . + . ID=Miro_240 -Miro GenBank CDS 149247 149828 . + 1 Alias=Miro_240;ID=Miro_240.CDS;Name=Miro_240;Parent=Miro_240;obsolete_name=Miro_200;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 149229 149232 . + 1 ID=Miro_240.RBS;Name=Miro_240;Parent=Miro_240 -Miro feature gene 149813 150346 . + . ID=Miro_241 -Miro GenBank CDS 149822 150346 . + 1 Alias=Miro_241;ID=Miro_241.CDS;Name=Miro_241;Parent=Miro_241;obsolete_name=Miro_199;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 149813 149815 . + 1 ID=Miro_241.RBS;Name=Miro_241;Parent=Miro_241 -Miro feature gene 150412 150684 . + . ID=Miro_242 -Miro GenBank CDS 150424 150684 . + 1 Alias=Miro_242;ID=Miro_242.CDS;Name=Miro_242;Parent=Miro_242;obsolete_name=Miro_198;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 150412 150415 . + 1 ID=Miro_242.RBS;Name=Miro_242;Parent=Miro_242 -Miro feature gene 150684 151143 . + . ID=Miro_243 -Miro GenBank CDS 150694 151143 . + 1 Alias=Miro_243;ID=Miro_243.CDS;Name=Miro_243;Parent=Miro_243;obsolete_name=Miro_197;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 150684 150687 . + 1 ID=Miro_243.RBS;Name=Miro_243;Parent=Miro_243 -Miro feature gene 151160 152604 . + . ID=Miro_244 -Miro GenBank CDS 151171 152604 . + 1 Alias=Miro_244;ID=Miro_244.CDS;Name=Miro_244;Note=contains quinolinate phosphoribosyl transferase domain;Parent=Miro_244;obsolete_name=Miro_196;product=nicotinamide phosphoribosyl transferase -Miro GenBank Shine_Dalgarno_sequence 151160 151163 . + 1 ID=Miro_244.RBS;Name=Miro_244;Parent=Miro_244 -Miro feature gene 152576 152893 . + . ID=Miro_245 -Miro GenBank CDS 152591 152893 . + 1 Alias=Miro_245;ID=Miro_245.CDS;Name=Miro_245;Parent=Miro_245;obsolete_name=Miro_195;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 152576 152579 . + 1 ID=Miro_245.RBS;Name=Miro_245;Parent=Miro_245 -Miro feature gene 153004 153741 . + . ID=Miro_246 -Miro GenBank CDS 153016 153741 . + 1 Alias=Miro_246;ID=Miro_246.CDS;Name=Miro_246;Note=T4-like;Parent=Miro_246;obsolete_name=Miro_194;product=DNA adenine methylase -Miro GenBank Shine_Dalgarno_sequence 153004 153006 . + 1 ID=Miro_246.RBS;Name=Miro_246;Parent=Miro_246 -Miro feature gene 153741 154019 . + . ID=Miro_247 -Miro GenBank CDS 153750 154019 . + 1 Alias=Miro_247;ID=Miro_247.CDS;Name=Miro_247;Note=T4 NrdC-like;Parent=Miro_247;obsolete_name=Miro_193;product=glutaredoxin -Miro GenBank Shine_Dalgarno_sequence 153741 153744 . + 1 ID=Miro_247.RBS;Name=Miro_247;Parent=Miro_247 - -Miro feature gene 12732 14075 . - . ID=Miro_23 -Miro GenBank CDS 12732 14060 . - 1 ID=Miro_23.CDS;Name=Miro_23;Note=contains P-loop containing nucleoside triphosphate hydrolase domain;Parent=Miro_23;obsolete_name=Miro_141;product=DNA helicase -Miro GenBank Shine_Dalgarno_sequence 14073 14075 . - 1 Alias=Miro_23;ID=Miro_23.RBS;Name=Miro_23;Parent=Miro_23 - -Miro feature gene 12399 12716 . - . ID=Miro_22 -Miro GenBank CDS 12399 12707 . - 1 ID=Miro_22.CDS;Name=Miro_22;Parent=Miro_22;obsolete_name=Miro_142;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 12713 12716 . - 1 Alias=Miro_22;ID=Miro_22.RBS;Name=Miro_22;Parent=Miro_22 -Miro feature gene 12114 12410 . - . ID=Miro_21 -Miro GenBank CDS 12114 12398 . - 1 ID=Miro_21.CDS;Name=Miro_21;Parent=Miro_21;obsolete_name=Miro_143;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 12407 12410 . - 1 Alias=Miro_21;ID=Miro_21.RBS;Name=Miro_21;Parent=Miro_21 -Miro feature gene 11728 12126 . - . ID=Miro_20 -Miro GenBank CDS 11728 12117 . - 1 ID=Miro_20.CDS;Name=Miro_20;Parent=Miro_20;obsolete_name=Miro_144;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 12123 12126 . - 1 Alias=Miro_20;ID=Miro_20.RBS;Name=Miro_20;Parent=Miro_20 -Miro feature gene 15073 16108 . - . ID=Miro_27 -Miro GenBank CDS 15073 16098 . - 1 ID=Miro_27.CDS;Name=Miro_27;Note=T4-like;Parent=Miro_27;obsolete_name=Miro_137;product=DNA primase -Miro GenBank Shine_Dalgarno_sequence 16104 16108 . - 1 Alias=Miro_27;ID=Miro_27.RBS;Name=Miro_27;Parent=Miro_27 -Miro feature gene 14529 15074 . - . ID=Miro_26 -Miro GenBank CDS 14529 15065 . - 1 ID=Miro_26.CDS;Name=Miro_26;Parent=Miro_26;obsolete_name=Miro_138;product=dCTP pyrophosphatase -Miro GenBank Shine_Dalgarno_sequence 15072 15074 . - 1 Alias=Miro_26;ID=Miro_26.RBS;Name=Miro_26;Parent=Miro_26 -Miro feature gene 14344 14545 . - . ID=Miro_25 -Miro GenBank CDS 14344 14529 . - 1 ID=Miro_25.CDS;Name=Miro_25;Parent=Miro_25;obsolete_name=Miro_139;product=hypothetical conserved;tmhelix=2TMDs %287-29%2C 39-57%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 14543 14545 . - 1 Alias=Miro_25;ID=Miro_25.RBS;Name=Miro_25;Parent=Miro_25 -Miro feature gene 14057 14358 . - . ID=Miro_24 -Miro GenBank CDS 14057 14347 . - 1 ID=Miro_24.CDS;Name=Miro_24;Parent=Miro_24;obsolete_name=Miro_140;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 14355 14358 . - 1 Alias=Miro_24;ID=Miro_24.RBS;Name=Miro_24;Parent=Miro_24 -Miro feature gene 16418 16647 . - . ID=Miro_29 -Miro GenBank CDS 16418 16636 . - 1 ID=Miro_29.CDS;Name=Miro_29;Parent=Miro_29;obsolete_name=Miro_135;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 16644 16647 . - 1 Alias=Miro_29;ID=Miro_29.RBS;Name=Miro_29;Parent=Miro_29 -Miro feature gene 16102 16375 . - . ID=Miro_28 -Miro GenBank CDS 16102 16362 . - 1 ID=Miro_28.CDS;Name=Miro_28;Note=contains zinc finger domain;Parent=Miro_28;obsolete_name=Miro_136;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 16370 16375 . - 1 Alias=Miro_28;ID=Miro_28.RBS;Name=Miro_28;Parent=Miro_28 -Miro feature gene 76662 77733 . - . ID=Miro_132 -Miro GenBank CDS 76662 77723 . - 1 ID=Miro_132.CDS;Name=Miro_132;Parent=Miro_132;obsolete_name=Miro_032;product=NUDIX hydrolase -Miro GenBank Shine_Dalgarno_sequence 77730 77733 . - 1 Alias=Miro_132;ID=Miro_132.RBS;Name=Miro_132;Parent=Miro_132 -Miro feature gene 77900 78824 . - . ID=Miro_133 -Miro GenBank CDS 77900 78814 . - 1 ID=Miro_133.CDS;Name=Miro_133;Parent=Miro_133;obsolete_name=Miro_031;product=hypothetical conserved;signal=signal peptidase I cleavage site 34-35 -Miro GenBank Shine_Dalgarno_sequence 78822 78824 . - 1 Alias=Miro_133;ID=Miro_133.RBS;Name=Miro_133;Parent=Miro_133 -Miro feature gene 76025 76309 . - . ID=Miro_130 -Miro GenBank CDS 76025 76297 . - 1 ID=Miro_130.CDS;Name=Miro_130;Parent=Miro_130;obsolete_name=Miro_034;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 76307 76309 . - 1 Alias=Miro_130;ID=Miro_130.RBS;Name=Miro_130;Parent=Miro_130 -Miro feature gene 76294 76498 . - . ID=Miro_131 -Miro GenBank CDS 76294 76488 . - 1 ID=Miro_131.CDS;Name=Miro_131;Parent=Miro_131;obsolete_name=Miro_033;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 76495 76498 . - 1 Alias=Miro_131;ID=Miro_131.RBS;Name=Miro_131;Parent=Miro_131 -Miro feature gene 79668 80071 . - . ID=Miro_136 -Miro GenBank CDS 79668 80060 . - 1 ID=Miro_136.CDS;Name=Miro_136;Parent=Miro_136;obsolete_name=Miro_028;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 80067 80071 . - 1 Alias=Miro_136;ID=Miro_136.RBS;Name=Miro_136;Parent=Miro_136 -Miro feature gene 80077 80695 . - . ID=Miro_137 -Miro GenBank CDS 80077 80685 . - 1 ID=Miro_137.CDS;Name=Miro_137;Note=contains P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_137;obsolete_name=Miro_027;product=thymidine kinase -Miro GenBank Shine_Dalgarno_sequence 80693 80695 . - 1 Alias=Miro_137;ID=Miro_137.RBS;Name=Miro_137;Parent=Miro_137 -Miro feature gene 78886 79317 . - . ID=Miro_134 -Miro GenBank CDS 78886 79308 . - 1 ID=Miro_134.CDS;Name=Miro_134;Parent=Miro_134;obsolete_name=Miro_030;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 79314 79317 . - 1 Alias=Miro_134;ID=Miro_134.RBS;Name=Miro_134;Parent=Miro_134 -Miro feature gene 79280 79572 . - . ID=Miro_135 -Miro GenBank CDS 79280 79561 . - 1 ID=Miro_135.CDS;Name=Miro_135;Parent=Miro_135;obsolete_name=Miro_029;product=hypothetical conserved;tmhelix=2TMDs %287-24%2C 39-61%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 79570 79572 . - 1 Alias=Miro_135;ID=Miro_135.RBS;Name=Miro_135;Parent=Miro_135 -Miro feature gene 80678 80889 . - . ID=Miro_138 -Miro GenBank CDS 80678 80875 . - 1 ID=Miro_138.CDS;Name=Miro_138;Parent=Miro_138;obsolete_name=Miro_026;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 80886 80889 . - 1 Alias=Miro_138;ID=Miro_138.RBS;Name=Miro_138;Parent=Miro_138 -Miro feature gene 80868 81097 . - . ID=Miro_139 -Miro GenBank CDS 80868 81083 . - 1 ID=Miro_139.CDS;Name=Miro_139;Parent=Miro_139;obsolete_name=Miro_025;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 81095 81097 . - 1 Alias=Miro_139;ID=Miro_139.RBS;Name=Miro_139;Parent=Miro_139 -Miro feature gene 128192 130197 . + . ID=Miro_211 -Miro GenBank CDS 128206 130197 . + 1 Alias=Miro_211;ID=Miro_211.CDS;Name=Miro_211;Note=T4 gp18-like;Parent=Miro_211;obsolete_name=Miro_229;product=tail sheath protein -Miro GenBank Shine_Dalgarno_sequence 128192 128195 . + 1 ID=Miro_211.RBS;Name=Miro_211;Parent=Miro_211 -Miro feature gene 148228 149257 . + . ID=Miro_239 -Miro GenBank CDS 148238 149257 . + 1 Alias=Miro_239;ID=Miro_239.CDS;Name=Miro_239;Note=T4 Rnl2-like;Parent=Miro_239;obsolete_name=Miro_201;product=RNA ligase -Miro GenBank Shine_Dalgarno_sequence 148228 148231 . + 1 ID=Miro_239.RBS;Name=Miro_239;Parent=Miro_239 -Miro feature gene 99939 100090 . - . ID=Miro_184 -Miro GenBank CDS 99939 100079 . - 1 ID=Miro_184.CDS;Name=Miro_184;Parent=Miro_184;obsolete_name=Miro_256;product=hypothetical conserved;tmhelix=1 TMD %2819-41%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 100085 100090 . - 1 Alias=Miro_184;ID=Miro_184.RBS;Name=Miro_184;Parent=Miro_184 -Miro feature gene 146845 147029 . + . ID=Miro_235 -Miro GenBank CDS 146853 147029 . + 1 Alias=Miro_235;ID=Miro_235.CDS;Name=Miro_235;Parent=Miro_235;obsolete_name=Miro_205;product=hypothetical conserved;tmhelix=2TMDs %285-27%2C 31-50%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 146845 146847 . + 1 ID=Miro_235.RBS;Name=Miro_235;Parent=Miro_235 -Miro feature gene 146530 146856 . + . ID=Miro_234 -Miro GenBank CDS 146539 146856 . + 1 Alias=Miro_234;ID=Miro_234.CDS;Name=Miro_234;Parent=Miro_234;obsolete_name=Miro_206;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 146530 146533 . + 1 ID=Miro_234.RBS;Name=Miro_234;Parent=Miro_234 -Miro feature gene 147343 147710 . + . ID=Miro_237 -Miro GenBank CDS 147354 147710 . + 1 Alias=Miro_237;ID=Miro_237.CDS;Name=Miro_237;Parent=Miro_237;obsolete_name=Miro_203;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 147343 147346 . + 1 ID=Miro_237.RBS;Name=Miro_237;Parent=Miro_237 -Miro feature gene 147016 147352 . + . ID=Miro_236 -Miro GenBank CDS 147026 147352 . + 1 Alias=Miro_236;ID=Miro_236.CDS;Name=Miro_236;Parent=Miro_236;obsolete_name=Miro_204;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 147016 147019 . + 1 ID=Miro_236.RBS;Name=Miro_236;Parent=Miro_236 -Miro feature gene 144163 144638 . - . ID=Miro_231 -Miro GenBank CDS 144163 144627 . - 1 ID=Miro_231.CDS;Name=Miro_231;Note=contains HAD-like domain;Parent=Miro_231;obsolete_name=Miro_209;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 144635 144638 . - 1 Alias=Miro_231;ID=Miro_231.RBS;Name=Miro_231;Parent=Miro_231 -Miro feature gene 143604 144131 . + . ID=Miro_230 -Miro GenBank CDS 143613 144131 . + 1 Alias=Miro_230;ID=Miro_230.CDS;Name=Miro_230;Parent=Miro_230;obsolete_name=Miro_210;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 143604 143606 . + 1 ID=Miro_230.RBS;Name=Miro_230;Parent=Miro_230 -Miro feature gene 145620 146506 . + . ID=Miro_233 -Miro GenBank CDS 145631 146506 . + 1 Alias=Miro_233;ID=Miro_233.CDS;Name=Miro_233;Parent=Miro_233;obsolete_name=Miro_207;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 145620 145623 . + 1 ID=Miro_233.RBS;Name=Miro_233;Parent=Miro_233 -Miro feature gene 144677 145528 . - . ID=Miro_232 -Miro GenBank CDS 144677 145516 . - 1 ID=Miro_232.CDS;Name=Miro_232;Note=contains P-loop NTPase and zeta toxin domains;Parent=Miro_232;obsolete_name=Miro_208;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 145525 145528 . - 1 Alias=Miro_232;ID=Miro_232.RBS;Name=Miro_232;Parent=Miro_232 -Miro feature gene 160735 161413 . + . ID=Miro_259 -Miro GenBank CDS 160745 161413 . + 1 Alias=Miro_259;ID=Miro_259.CDS;Name=Miro_259;Parent=Miro_259;obsolete_name=Miro_181;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 160735 160739 . + 1 ID=Miro_259.RBS;Name=Miro_259;Parent=Miro_259 -Miro feature gene 65834 66298 . - . ID=Miro_110 -Miro GenBank CDS 65834 66289 . - 1 ID=Miro_110.CDS;Name=Miro_110;Parent=Miro_110;obsolete_name=Miro_054;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 66295 66298 . - 1 Alias=Miro_110;ID=Miro_110.RBS;Name=Miro_110;Parent=Miro_110 -Miro GenBank CDS 157781 157987 . + 1 ID=Miro_253;Name=Miro_253;obsolete_name=Miro_187;product=hypothetical conserved -Miro feature gene 157275 157781 . + . ID=Miro_252 -Miro GenBank CDS 157287 157781 . + 1 Alias=Miro_252;ID=Miro_252.CDS;Name=Miro_252;Parent=Miro_252;obsolete_name=Miro_188;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 157275 157278 . + 1 ID=Miro_252.RBS;Name=Miro_252;Parent=Miro_252 -Miro feature gene 157033 157287 . + . ID=Miro_251 -Miro GenBank CDS 157045 157287 . + 1 Alias=Miro_251;ID=Miro_251.CDS;Name=Miro_251;Parent=Miro_251;obsolete_name=Miro_189;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 157033 157037 . + 1 ID=Miro_251.RBS;Name=Miro_251;Parent=Miro_251 -Miro feature gene 154844 156977 . + . ID=Miro_250 -Miro GenBank CDS 154854 156977 . + 1 Alias=Miro_250;ID=Miro_250.CDS;Name=Miro_250;Note=T4-like%3B contains glycine radical domain;Parent=Miro_250;obsolete_name=Miro_190;product=anaerobic ribonucleoside-triphosphate reductase -Miro GenBank Shine_Dalgarno_sequence 154844 154846 . + 1 ID=Miro_250.RBS;Name=Miro_250;Parent=Miro_250 -Miro feature gene 159166 159667 . + . ID=Miro_257 -Miro GenBank CDS 159176 159667 . + 1 Alias=Miro_257;ID=Miro_257.CDS;Name=Miro_257;Note=T4 NrdG-like;Parent=Miro_257;obsolete_name=Miro_183;product=ribonucleoside-triphosphate reductase activating protein -Miro GenBank Shine_Dalgarno_sequence 159166 159169 . + 1 ID=Miro_257.RBS;Name=Miro_257;Parent=Miro_257 -Miro feature gene 158528 159179 . + . ID=Miro_256 -Miro GenBank CDS 158538 159179 . + 1 Alias=Miro_256;ID=Miro_256.CDS;Name=Miro_256;Note=contains nuclease associated modular 3 and winged helix-turn-helix DNA-binding domains;Parent=Miro_256;obsolete_name=Miro_184;product=homing endonuclease -Miro GenBank Shine_Dalgarno_sequence 158528 158530 . + 1 ID=Miro_256.RBS;Name=Miro_256;Parent=Miro_256 -Miro feature gene 158309 158511 . + . ID=Miro_255 -Miro GenBank CDS 158320 158511 . + 1 Alias=Miro_255;ID=Miro_255.CDS;Name=Miro_255;Parent=Miro_255;obsolete_name=Miro_185;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 158309 158314 . + 1 ID=Miro_255.RBS;Name=Miro_255;Parent=Miro_255 -Miro feature gene 157997 158259 . + . ID=Miro_254 -Miro GenBank CDS 158008 158259 . + 1 Alias=Miro_254;ID=Miro_254.CDS;Name=Miro_254;Parent=Miro_254;obsolete_name=Miro_186;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 157997 158000 . + 1 ID=Miro_254.RBS;Name=Miro_254;Parent=Miro_254 -Miro feature gene 16633 17132 . - . ID=Miro_30 -Miro GenBank CDS 16633 17121 . - 1 ID=Miro_30.CDS;Name=Miro_30;Note=T4 gp23/gp24-like;Parent=Miro_30;obsolete_name=Miro_134;product=major capsid protein -Miro GenBank Shine_Dalgarno_sequence 17130 17132 . - 1 Alias=Miro_30;ID=Miro_30.RBS;Name=Miro_30;Parent=Miro_30 -Miro feature gene 17127 17819 . - . ID=Miro_31 -Miro GenBank CDS 17127 17813 . - 1 ID=Miro_31.CDS;Name=Miro_31;Note=contains N-6 adenine-specific DNA methylase conserved site;Parent=Miro_31;obsolete_name=Miro_133;product=radical SAM protein -Miro GenBank Shine_Dalgarno_sequence 17817 17819 . - 1 Alias=Miro_31;ID=Miro_31.RBS;Name=Miro_31;Parent=Miro_31 -Miro feature gene 17839 18240 . - . ID=Miro_32 -Miro GenBank CDS 17839 18231 . - 1 ID=Miro_32.CDS;Name=Miro_32;Parent=Miro_32;obsolete_name=Miro_132;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 18237 18240 . - 1 Alias=Miro_32;ID=Miro_32.RBS;Name=Miro_32;Parent=Miro_32 -Miro feature gene 18228 18475 . - . ID=Miro_33 -Miro GenBank CDS 18228 18464 . - 1 ID=Miro_33.CDS;Name=Miro_33;Parent=Miro_33;obsolete_name=Miro_131;product=hypothetical conserved;tmhelix=2TMDs %285-27%2C 38-60%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 18470 18475 . - 1 Alias=Miro_33;ID=Miro_33.RBS;Name=Miro_33;Parent=Miro_33 -Miro feature gene 18556 18822 . - . ID=Miro_34 -Miro GenBank CDS 18556 18810 . - 1 ID=Miro_34.CDS;Name=Miro_34;Parent=Miro_34;obsolete_name=Miro_130;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 18818 18822 . - 1 Alias=Miro_34;ID=Miro_34.RBS;Name=Miro_34;Parent=Miro_34 -Miro feature gene 18889 19168 . - . ID=Miro_35 -Miro GenBank CDS 18889 19158 . - 1 ID=Miro_35.CDS;Name=Miro_35;Parent=Miro_35;obsolete_name=Miro_129;product=hypothetical conserved;tmhelix=2TMDs %287-29%2C 44-66%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 19165 19168 . - 1 Alias=Miro_35;ID=Miro_35.RBS;Name=Miro_35;Parent=Miro_35 -Miro feature gene 19202 20648 . - . ID=Miro_36 -Miro GenBank CDS 19202 20638 . - 1 ID=Miro_36.CDS;Name=Miro_36;Note=T4 gp41-like;Parent=Miro_36;obsolete_name=Miro_128;product=DNA helicase -Miro GenBank Shine_Dalgarno_sequence 20646 20648 . - 1 Alias=Miro_36;ID=Miro_36.RBS;Name=Miro_36;Parent=Miro_36 -Miro feature gene 20648 20978 . - . ID=Miro_37 -Miro GenBank CDS 20648 20968 . - 1 ID=Miro_37.CDS;Name=Miro_37;Note=T4 gp40-like;Parent=Miro_37;obsolete_name=Miro_127;product=head formation protein -Miro GenBank Shine_Dalgarno_sequence 20975 20978 . - 1 Alias=Miro_37;ID=Miro_37.RBS;Name=Miro_37;Parent=Miro_37 -Miro feature gene 21006 22174 . - . ID=Miro_38 -Miro GenBank CDS 21006 22163 . - 1 ID=Miro_38.CDS;Name=Miro_38;Note=T4 RecA-like;Parent=Miro_38;obsolete_name=Miro_126;product=DNA recombination and repair protein;tmhelix=1 TMD %2840-62%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 22172 22174 . - 1 Alias=Miro_38;ID=Miro_38.RBS;Name=Miro_38;Parent=Miro_38 -Miro feature gene 22238 24954 . - . ID=Miro_39 -Miro GenBank CDS 22238 24937 . - 1 ID=Miro_39.CDS;Name=Miro_39;Note=T4 gp43-like;Parent=Miro_39;obsolete_name=Miro_125;product=DNA polymerase -Miro GenBank Shine_Dalgarno_sequence 24951 24954 . - 1 Alias=Miro_39;ID=Miro_39.RBS;Name=Miro_39;Parent=Miro_39 -Miro feature gene 101597 101867 . - . ID=Miro_188 -Miro GenBank CDS 101597 101857 . - 1 ID=Miro_188.CDS;Name=Miro_188;Parent=Miro_188;obsolete_name=Miro_252;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 101864 101867 . - 1 Alias=Miro_188;ID=Miro_188.RBS;Name=Miro_188;Parent=Miro_188 -Miro feature gene 73570 73827 . - . ID=Miro_125 -Miro GenBank CDS 73570 73815 . - 1 ID=Miro_125.CDS;Name=Miro_125;Parent=Miro_125;obsolete_name=Miro_039;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 73823 73827 . - 1 Alias=Miro_125;ID=Miro_125.RBS;Name=Miro_125;Parent=Miro_125 -Miro feature gene 66297 66533 . - . ID=Miro_111 -Miro GenBank CDS 66297 66521 . - 1 ID=Miro_111.CDS;Name=Miro_111;Parent=Miro_111;obsolete_name=Miro_053;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 66530 66533 . - 1 Alias=Miro_111;ID=Miro_111.RBS;Name=Miro_111;Parent=Miro_111 -Miro feature gene 74819 75206 . - . ID=Miro_127 -Miro GenBank CDS 74819 75196 . - 1 ID=Miro_127.CDS;Name=Miro_127;Parent=Miro_127;obsolete_name=Miro_037;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 75203 75206 . - 1 Alias=Miro_127;ID=Miro_127.RBS;Name=Miro_127;Parent=Miro_127 -Miro feature gene 73812 74832 . - . ID=Miro_126 -Miro GenBank CDS 73812 74819 . - 1 ID=Miro_126.CDS;Name=Miro_126;Note=T4 nrdC.11-like;Parent=Miro_126;obsolete_name=Miro_038;product=nucleotidyltransferase -Miro GenBank Shine_Dalgarno_sequence 74829 74832 . - 1 Alias=Miro_126;ID=Miro_126.RBS;Name=Miro_126;Parent=Miro_126 -Miro feature gene 71861 72037 . - . ID=Miro_121 -Miro GenBank CDS 71861 72028 . - 1 ID=Miro_121.CDS;Name=Miro_121;Parent=Miro_121;obsolete_name=Miro_043;product=hypothetical conserved;tmhelix=2TMDs %289-26%2C 30-52%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 72034 72037 . - 1 Alias=Miro_121;ID=Miro_121.RBS;Name=Miro_121;Parent=Miro_121 -Miro feature gene 71577 71871 . - . ID=Miro_120 -Miro GenBank CDS 71577 71861 . - 1 ID=Miro_120.CDS;Name=Miro_120;Parent=Miro_120;obsolete_name=Miro_044;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 71868 71871 . - 1 Alias=Miro_120;ID=Miro_120.RBS;Name=Miro_120;Parent=Miro_120 -Miro feature gene 72390 73331 . - . ID=Miro_123 -Miro GenBank CDS 72390 73316 . - 1 ID=Miro_123.CDS;Name=Miro_123;Note=C-5 cytosine-specific active site;Parent=Miro_123;obsolete_name=Miro_041;product=cytosine-specific methyltransferase -Miro GenBank Shine_Dalgarno_sequence 73329 73331 . - 1 Alias=Miro_123;ID=Miro_123.RBS;Name=Miro_123;Parent=Miro_123 -Miro feature gene 72068 72357 . - . ID=Miro_122 -Miro GenBank CDS 72068 72346 . - 1 ID=Miro_122.CDS;Name=Miro_122;Parent=Miro_122;obsolete_name=Miro_042;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 72354 72357 . - 1 Alias=Miro_122;ID=Miro_122.RBS;Name=Miro_122;Parent=Miro_122 -Miro feature gene 75417 76034 . - . ID=Miro_129 -Miro GenBank CDS 75417 76022 . - 1 ID=Miro_129.CDS;Name=Miro_129;Parent=Miro_129;obsolete_name=Miro_035;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 76031 76034 . - 1 Alias=Miro_129;ID=Miro_129.RBS;Name=Miro_129;Parent=Miro_129 -Miro feature gene 75193 75434 . - . ID=Miro_128 -Miro GenBank CDS 75193 75420 . - 1 ID=Miro_128.CDS;Name=Miro_128;Parent=Miro_128;obsolete_name=Miro_036;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 75430 75434 . - 1 Alias=Miro_128;ID=Miro_128.RBS;Name=Miro_128;Parent=Miro_128 -Miro feature gene 133686 134487 . + . ID=Miro_217 -Miro GenBank CDS 133699 134487 . + 1 Alias=Miro_217;ID=Miro_217.CDS;Name=Miro_217;Parent=Miro_217;obsolete_name=Miro_223;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 133686 133689 . + 1 ID=Miro_217.RBS;Name=Miro_217;Parent=Miro_217 -Miro feature gene 172795 173074 . - . ID=Miro_268 -Miro GenBank CDS 172795 173064 . - 1 ID=Miro_268.CDS;Name=Miro_268;Parent=Miro_268;obsolete_name=Miro_172;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 173071 173074 . - 1 Alias=Miro_268;ID=Miro_268.RBS;Name=Miro_268;Parent=Miro_268 -Miro feature gene 133007 133666 . + . ID=Miro_216 -Miro GenBank CDS 133019 133666 . + 1 Alias=Miro_216;ID=Miro_216.CDS;Name=Miro_216;Note=T4 gp21-like;Parent=Miro_216;obsolete_name=Miro_224;product=prohead core protein protease -Miro GenBank Shine_Dalgarno_sequence 133007 133010 . + 1 ID=Miro_216.RBS;Name=Miro_216;Parent=Miro_216 -Miro feature gene 171490 172030 . + . ID=Miro_266 -Miro GenBank CDS 171503 172030 . + 1 Alias=Miro_266;ID=Miro_266.CDS;Name=Miro_266;Note=T2 gp38-like;Parent=Miro_266;obsolete_name=Miro_174;product=receptor-recognizing protein -Miro GenBank Shine_Dalgarno_sequence 171490 171494 . + 1 ID=Miro_266.RBS;Name=Miro_266;Parent=Miro_266 -Miro feature gene 172135 172794 . + . ID=Miro_267 -Miro GenBank CDS 172147 172794 . + 1 Alias=Miro_267;ID=Miro_267.CDS;Name=Miro_267;Note=T4 gpT-like;Parent=Miro_267;obsolete_name=Miro_173;product=holin;tmhelix=1 TMD %2829-47%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 172135 172137 . + 1 ID=Miro_267.RBS;Name=Miro_267;Parent=Miro_267 -Miro feature gene 166968 167645 . + . ID=Miro_264 -Miro GenBank CDS 166977 167645 . + 1 Alias=Miro_264;ID=Miro_264.CDS;Name=Miro_264;Note=T4 gp36-like;Parent=Miro_264;obsolete_name=Miro_176;product=tail fiber -Miro GenBank Shine_Dalgarno_sequence 166968 166971 . + 1 ID=Miro_264.RBS;Name=Miro_264;Parent=Miro_264 -Miro feature gene 167645 171466 . + . ID=Miro_265 -Miro GenBank CDS 167654 171466 . + 1 Alias=Miro_265;ID=Miro_265.CDS;Name=Miro_265;Parent=Miro_265;obsolete_name=Miro_175;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 167645 167648 . + 1 ID=Miro_265.RBS;Name=Miro_265;Parent=Miro_265 -Miro feature gene 162017 165803 . + . ID=Miro_262 -Miro GenBank CDS 162030 165803 . + 1 Alias=Miro_262;ID=Miro_262.CDS;Name=Miro_262;Parent=Miro_262;obsolete_name=Miro_178;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 162017 162020 . + 1 ID=Miro_262.RBS;Name=Miro_262;Parent=Miro_262 -Miro feature gene 132602 133016 . + . ID=Miro_215 -Miro GenBank CDS 132612 133016 . + 1 Alias=Miro_215;ID=Miro_215.CDS;Name=Miro_215;Note=T4 gp68-like;Parent=Miro_215;obsolete_name=Miro_225;product=prohead core protein -Miro GenBank Shine_Dalgarno_sequence 132602 132606 . + 1 ID=Miro_215.RBS;Name=Miro_215;Parent=Miro_215 -Miro feature gene 161360 161654 . + . ID=Miro_260 -Miro GenBank CDS 161373 161654 . + 1 Alias=Miro_260;ID=Miro_260.CDS;Name=Miro_260;Note=T4 NrdC-like;Parent=Miro_260;obsolete_name=Miro_180;product=glutaredoxin -Miro GenBank Shine_Dalgarno_sequence 161360 161363 . + 1 ID=Miro_260.RBS;Name=Miro_260;Parent=Miro_260 -Miro feature gene 161642 161950 . + . ID=Miro_261 -Miro GenBank CDS 161651 161950 . + 1 Alias=Miro_261;ID=Miro_261.CDS;Name=Miro_261;Note=T4 gp55.2-like;Parent=Miro_261;obsolete_name=Miro_179;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 161642 161645 . + 1 ID=Miro_261.RBS;Name=Miro_261;Parent=Miro_261 -Miro feature gene 132347 132603 . + . ID=Miro_214 -Miro GenBank CDS 132361 132603 . + 1 Alias=Miro_214;ID=Miro_214.CDS;Name=Miro_214;Parent=Miro_214;obsolete_name=Miro_226;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 132347 132350 . + 1 ID=Miro_214.RBS;Name=Miro_214;Parent=Miro_214 -Miro feature gene 130777 132361 . + . ID=Miro_213 -Miro GenBank CDS 130787 132361 . + 1 Alias=Miro_213;ID=Miro_213.CDS;Name=Miro_213;Note=T4 gp20-like;Parent=Miro_213;obsolete_name=Miro_227;product=portal protein -Miro GenBank Shine_Dalgarno_sequence 130777 130780 . + 1 ID=Miro_213.RBS;Name=Miro_213;Parent=Miro_213 -Miro feature gene 147698 148234 . + . ID=Miro_238 -Miro GenBank CDS 147710 148234 . + 1 Alias=Miro_238;ID=Miro_238.CDS;Name=Miro_238;Parent=Miro_238;obsolete_name=Miro_202;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 147698 147701 . + 1 ID=Miro_238.RBS;Name=Miro_238;Parent=Miro_238 -Miro feature gene 130235 130731 . + . ID=Miro_212 -Miro GenBank CDS 130246 130731 . + 1 Alias=Miro_212;ID=Miro_212.CDS;Name=Miro_212;Note=T4 gp19-like;Parent=Miro_212;obsolete_name=Miro_228;product=tail tube protein -Miro GenBank Shine_Dalgarno_sequence 130235 130239 . + 1 ID=Miro_212.RBS;Name=Miro_212;Parent=Miro_212 -Miro feature gene 51892 52172 . + . ID=Miro_85 -Miro GenBank CDS 51903 52172 . + 1 Alias=Miro_85;ID=Miro_85.CDS;Name=Miro_85;Parent=Miro_85;obsolete_name=Miro_079;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 51892 51894 . + 1 ID=Miro_85.RBS;Name=Miro_85;Parent=Miro_85 -Miro feature gene 51531 51903 . + . ID=Miro_84 -Miro GenBank CDS 51541 51903 . + 1 Alias=Miro_84;ID=Miro_84.CDS;Name=Miro_84;Note=T4-like%3B contains glycine radical domain;Parent=Miro_84;obsolete_name=Miro_080;product=autonomous glycyl radical cofactor -Miro GenBank Shine_Dalgarno_sequence 51531 51534 . + 1 ID=Miro_84.RBS;Name=Miro_84;Parent=Miro_84 -Miro feature gene 52585 52833 . + . ID=Miro_87 -Miro GenBank CDS 52594 52833 . + 1 Alias=Miro_87;ID=Miro_87.CDS;Name=Miro_87;Parent=Miro_87;obsolete_name=Miro_077;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 52585 52588 . + 1 ID=Miro_87.RBS;Name=Miro_87;Parent=Miro_87 -Miro feature gene 52286 52591 . + . ID=Miro_86 -Miro GenBank CDS 52298 52591 . + 1 Alias=Miro_86;ID=Miro_86.CDS;Name=Miro_86;Parent=Miro_86;obsolete_name=Miro_078;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 52286 52289 . + 1 ID=Miro_86.RBS;Name=Miro_86;Parent=Miro_86 -Miro feature gene 50203 50493 . + . ID=Miro_81 -Miro GenBank CDS 50212 50493 . + 1 Alias=Miro_81;ID=Miro_81.CDS;Name=Miro_81;Parent=Miro_81;obsolete_name=Miro_083;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 50203 50206 . + 1 ID=Miro_81.RBS;Name=Miro_81;Parent=Miro_81 -Miro feature gene 49635 49896 . + . ID=Miro_80 -Miro GenBank CDS 49645 49896 . + 1 Alias=Miro_80;ID=Miro_80.CDS;Name=Miro_80;Parent=Miro_80;obsolete_name=Miro_084;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 49635 49637 . + 1 ID=Miro_80.RBS;Name=Miro_80;Parent=Miro_80 -Miro feature gene 50955 51530 . + . ID=Miro_83 -Miro GenBank CDS 50964 51530 . + 1 Alias=Miro_83;ID=Miro_83.CDS;Name=Miro_83;Parent=Miro_83;obsolete_name=Miro_081;product=hypothetical conserved;tmhelix=1 TMD %289-31%29 N in%2C C out -Miro GenBank Shine_Dalgarno_sequence 50955 50958 . + 1 ID=Miro_83.RBS;Name=Miro_83;Parent=Miro_83 -Miro feature gene 50495 50922 . + . ID=Miro_82 -Miro GenBank CDS 50503 50922 . + 1 Alias=Miro_82;ID=Miro_82.CDS;Name=Miro_82;Parent=Miro_82;obsolete_name=Miro_082;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 50495 50497 . + 1 ID=Miro_82.RBS;Name=Miro_82;Parent=Miro_82 -Miro feature gene 104839 105703 . - . ID=Miro_193 -Miro GenBank CDS 104839 105693 . - 1 ID=Miro_193.CDS;Name=Miro_193;Parent=Miro_193;obsolete_name=Miro_247;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 105699 105703 . - 1 Alias=Miro_193;ID=Miro_193.RBS;Name=Miro_193;Parent=Miro_193 -Miro feature gene 52974 53137 . + . ID=Miro_89 -Miro GenBank CDS 52985 53137 . + 1 Alias=Miro_89;ID=Miro_89.CDS;Name=Miro_89;Parent=Miro_89;obsolete_name=Miro_075;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 52974 52978 . + 1 ID=Miro_89.RBS;Name=Miro_89;Parent=Miro_89 -Miro feature gene 52806 52988 . + . ID=Miro_88 -Miro GenBank CDS 52818 52988 . + 1 Alias=Miro_88;ID=Miro_88.CDS;Name=Miro_88;Parent=Miro_88;obsolete_name=Miro_076;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 52806 52809 . + 1 ID=Miro_88.RBS;Name=Miro_88;Parent=Miro_88 -Miro feature gene 85193 86549 . - . ID=Miro_150 -Miro GenBank CDS 85193 86539 . - 1 ID=Miro_150.CDS;Name=Miro_150;Note=contains PIN domain and P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_150;obsolete_name=Miro_014;product=PhoH-like protein -Miro GenBank Shine_Dalgarno_sequence 86546 86549 . - 1 Alias=Miro_150;ID=Miro_150.RBS;Name=Miro_150;Parent=Miro_150 -Miro feature gene 86549 87082 . - . ID=Miro_151 -Miro GenBank CDS 86549 87073 . - 1 ID=Miro_151.CDS;Name=Miro_151;Note=contains AP2/ERF domain;Parent=Miro_151;obsolete_name=Miro_013;product=HNH endonuclease -Miro GenBank Shine_Dalgarno_sequence 87079 87082 . - 1 Alias=Miro_151;ID=Miro_151.RBS;Name=Miro_151;Parent=Miro_151 -Miro feature gene 87073 87540 . - . ID=Miro_152 -Miro GenBank CDS 87073 87531 . - 1 ID=Miro_152.CDS;Name=Miro_152;Parent=Miro_152;obsolete_name=Miro_012;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 87537 87540 . - 1 Alias=Miro_152;ID=Miro_152.RBS;Name=Miro_152;Parent=Miro_152 -Miro feature gene 87563 87968 . - . ID=Miro_153 -Miro GenBank CDS 87563 87958 . - 1 ID=Miro_153.CDS;Name=Miro_153;Note=D-alanyl-D-alanine carboxypeptidase;Parent=Miro_153;obsolete_name=Miro_011;product=endolysin -Miro GenBank Shine_Dalgarno_sequence 87964 87968 . - 1 Alias=Miro_153;ID=Miro_153.RBS;Name=Miro_153;Parent=Miro_153 -Miro feature gene 88026 88439 . - . ID=Miro_154 -Miro GenBank CDS 88026 88427 . - 1 ID=Miro_154.CDS;Name=Miro_154;Parent=Miro_154;obsolete_name=Miro_010;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 88436 88439 . - 1 Alias=Miro_154;ID=Miro_154.RBS;Name=Miro_154;Parent=Miro_154 -Miro feature gene 88482 88815 . - . ID=Miro_155 -Miro GenBank CDS 88482 88805 . - 1 ID=Miro_155.CDS;Name=Miro_155;Parent=Miro_155;obsolete_name=Miro_009;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 88812 88815 . - 1 Alias=Miro_155;ID=Miro_155.RBS;Name=Miro_155;Parent=Miro_155 -Miro feature gene 88845 89119 . - . ID=Miro_156 -Miro GenBank CDS 88845 89108 . - 1 ID=Miro_156.CDS;Name=Miro_156;Parent=Miro_156;obsolete_name=Miro_008;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 89115 89119 . - 1 Alias=Miro_156;ID=Miro_156.RBS;Name=Miro_156;Parent=Miro_156 -Miro feature gene 89178 89447 . - . ID=Miro_157 -Miro GenBank CDS 89178 89438 . - 1 ID=Miro_157.CDS;Name=Miro_157;Parent=Miro_157;obsolete_name=Miro_007;product=hypothetical conserved;signal=signal peptidase II cleavage site 19-20 -Miro GenBank Shine_Dalgarno_sequence 89445 89447 . - 1 Alias=Miro_157;ID=Miro_157.RBS;Name=Miro_157;Parent=Miro_157 -Miro feature gene 89440 89880 . - . ID=Miro_158 -Miro GenBank CDS 89440 89871 . - 1 ID=Miro_158.CDS;Name=Miro_158;Parent=Miro_158;obsolete_name=Miro_006;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 89878 89880 . - 1 Alias=Miro_158;ID=Miro_158.RBS;Name=Miro_158;Parent=Miro_158 -Miro feature gene 89882 90064 . - . ID=Miro_159 -Miro GenBank CDS 89882 90055 . - 1 ID=Miro_159.CDS;Name=Miro_159;Parent=Miro_159;obsolete_name=Miro_005;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 90061 90064 . - 1 Alias=Miro_159;ID=Miro_159.RBS;Name=Miro_159;Parent=Miro_159 -Miro feature gene 134495 136075 . + . ID=Miro_218 -Miro GenBank CDS 134507 136075 . + 1 Alias=Miro_218;ID=Miro_218.CDS;Name=Miro_218;Note=T4 gp23/gp24-like;Parent=Miro_218;obsolete_name=Miro_222;product=major capsid protein -Miro GenBank Shine_Dalgarno_sequence 134495 134498 . + 1 ID=Miro_218.RBS;Name=Miro_218;Parent=Miro_218 -Miro feature gene 174229 174467 . - . ID=Miro_271 -Miro GenBank CDS 174229 174456 . - 1 ID=Miro_271.CDS;Name=Miro_271;Parent=Miro_271;obsolete_name=Miro_169;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 174464 174467 . - 1 Alias=Miro_271;ID=Miro_271.RBS;Name=Miro_271;Parent=Miro_271 -Miro feature gene 173351 174160 . - . ID=Miro_270 -Miro GenBank CDS 173351 174148 . - 1 ID=Miro_270.CDS;Name=Miro_270;Parent=Miro_270;obsolete_name=Miro_170;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 174156 174160 . - 1 Alias=Miro_270;ID=Miro_270.RBS;Name=Miro_270;Parent=Miro_270 -Miro feature gene 174760 174903 . - . ID=Miro_273 -Miro GenBank CDS 174760 174894 . - 1 ID=Miro_273.CDS;Name=Miro_273;Parent=Miro_273;obsolete_name=Miro_167;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 174900 174903 . - 1 Alias=Miro_273;ID=Miro_273.RBS;Name=Miro_273;Parent=Miro_273 -Miro feature gene 174453 174796 . - . ID=Miro_272 -Miro GenBank CDS 174453 174785 . - 1 ID=Miro_272.CDS;Name=Miro_272;Parent=Miro_272;obsolete_name=Miro_168;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 174793 174796 . - 1 Alias=Miro_272;ID=Miro_272.RBS;Name=Miro_272;Parent=Miro_272 -Miro feature gene 175224 175675 . - . ID=Miro_275 -Miro GenBank CDS 175224 175661 . - 1 ID=Miro_275.CDS;Name=Miro_275;Parent=Miro_275;obsolete_name=Miro_165;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 175673 175675 . - 1 Alias=Miro_275;ID=Miro_275.RBS;Name=Miro_275;Parent=Miro_275 -Miro feature gene 174939 175197 . - . ID=Miro_274 -Miro GenBank CDS 174939 175187 . - 1 ID=Miro_274.CDS;Name=Miro_274;Note=contains FCH and colicin domains;Parent=Miro_274;obsolete_name=Miro_166;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 175195 175197 . - 1 Alias=Miro_274;ID=Miro_274.RBS;Name=Miro_274;Parent=Miro_274 -Miro feature gene 175636 176021 . - . ID=Miro_276 -Miro GenBank CDS 175636 176010 . - 1 ID=Miro_276.CDS;Name=Miro_276;Parent=Miro_276;obsolete_name=Miro_164;product=hypothetical conserved;tmhelix=2TMDs %2844-66%2C 76-98%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 176017 176021 . - 1 Alias=Miro_276;ID=Miro_276.RBS;Name=Miro_276;Parent=Miro_276 -Miro feature gene 82146 82479 . - . ID=Miro_144 -Miro GenBank CDS 82146 82469 . - 1 ID=Miro_144.CDS;Name=Miro_144;Parent=Miro_144;obsolete_name=Miro_020;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18 -Miro GenBank Shine_Dalgarno_sequence 82476 82479 . - 1 Alias=Miro_144;ID=Miro_144.RBS;Name=Miro_144;Parent=Miro_144 -Miro feature gene 11178 11471 . - . ID=Miro_18 -Miro GenBank CDS 11178 11459 . - 1 ID=Miro_18.CDS;Name=Miro_18;Note=contains LysM domain;Parent=Miro_18;obsolete_name=Miro_146;product=peptidoglycan-binding protein -Miro GenBank Shine_Dalgarno_sequence 11468 11471 . - 1 Alias=Miro_18;ID=Miro_18.RBS;Name=Miro_18;Parent=Miro_18 -Miro GenBank CDS 11456 11731 . - 1 ID=Miro_19;Name=Miro_19;obsolete_name=Miro_145;product=hypothetical conserved -Miro feature gene 9399 9740 . - . ID=Miro_12 -Miro GenBank CDS 9399 9728 . - 1 ID=Miro_12.CDS;Name=Miro_12;Parent=Miro_12;obsolete_name=Miro_152;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 9736 9740 . - 1 Alias=Miro_12;ID=Miro_12.RBS;Name=Miro_12;Parent=Miro_12 -Miro feature gene 9788 10025 . - . ID=Miro_13 -Miro GenBank CDS 9788 10012 . - 1 ID=Miro_13.CDS;Name=Miro_13;Parent=Miro_13;obsolete_name=Miro_151;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 10021 10025 . - 1 Alias=Miro_13;ID=Miro_13.RBS;Name=Miro_13;Parent=Miro_13 -Miro feature gene 8488 8779 . - . ID=Miro_10 -Miro GenBank CDS 8488 8766 . - 1 ID=Miro_10.CDS;Name=Miro_10;Parent=Miro_10;obsolete_name=Miro_154;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 8776 8779 . - 1 Alias=Miro_10;ID=Miro_10.RBS;Name=Miro_10;Parent=Miro_10 -Miro feature gene 8763 9370 . - . ID=Miro_11 -Miro GenBank CDS 8763 9359 . - 1 ID=Miro_11.CDS;Name=Miro_11;Parent=Miro_11;obsolete_name=Miro_153;product=hypothetical conserved;tmhelix=1 TMD %2810-29%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 9367 9370 . - 1 Alias=Miro_11;ID=Miro_11.RBS;Name=Miro_11;Parent=Miro_11 -Miro feature gene 10737 10970 . - . ID=Miro_16 -Miro GenBank CDS 10737 10961 . - 1 ID=Miro_16.CDS;Name=Miro_16;Parent=Miro_16;obsolete_name=Miro_148;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 10967 10970 . - 1 Alias=Miro_16;ID=Miro_16.RBS;Name=Miro_16;Parent=Miro_16 -Miro feature gene 10965 11125 . - . ID=Miro_17 -Miro GenBank CDS 10965 11114 . - 1 ID=Miro_17.CDS;Name=Miro_17;Parent=Miro_17;obsolete_name=Miro_147;product=hypothetical conserved;tmhelix=1 TMD %2810-32%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 11121 11125 . - 1 Alias=Miro_17;ID=Miro_17.RBS;Name=Miro_17;Parent=Miro_17 -Miro feature gene 10086 10361 . - . ID=Miro_14 -Miro GenBank CDS 10086 10349 . - 1 ID=Miro_14.CDS;Name=Miro_14;Parent=Miro_14;obsolete_name=Miro_150;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 10358 10361 . - 1 Alias=Miro_14;ID=Miro_14.RBS;Name=Miro_14;Parent=Miro_14 -Miro feature gene 10438 10746 . - . ID=Miro_15 -Miro GenBank CDS 10438 10737 . - 1 ID=Miro_15.CDS;Name=Miro_15;Parent=Miro_15;obsolete_name=Miro_149;product=hypothetical conserved;tmhelix=1 TMD %284-21%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 10743 10746 . - 1 Alias=Miro_15;ID=Miro_15.RBS;Name=Miro_15;Parent=Miro_15 -Miro feature gene 53914 54144 . + . ID=Miro_92 -Miro GenBank CDS 53923 54144 . + 1 Alias=Miro_92;ID=Miro_92.CDS;Name=Miro_92;Parent=Miro_92;obsolete_name=Miro_072;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 53914 53916 . + 1 ID=Miro_92.RBS;Name=Miro_92;Parent=Miro_92 -Miro feature gene 54130 54755 . + . ID=Miro_93 -Miro GenBank CDS 54141 54755 . + 1 Alias=Miro_93;ID=Miro_93.CDS;Name=Miro_93;Note=contains haloacid dehydrogenase %28HAD%29-like domain;Parent=Miro_93;obsolete_name=Miro_071;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 54130 54134 . + 1 ID=Miro_93.RBS;Name=Miro_93;Parent=Miro_93 -Miro feature gene 53212 53661 . + . ID=Miro_90 -Miro GenBank CDS 53221 53661 . + 1 Alias=Miro_90;ID=Miro_90.CDS;Name=Miro_90;Note=T4 Y12G-like;Parent=Miro_90;obsolete_name=Miro_074;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 53212 53215 . + 1 ID=Miro_90.RBS;Name=Miro_90;Parent=Miro_90 -Miro feature gene 53646 53921 . + . ID=Miro_91 -Miro GenBank CDS 53658 53921 . + 1 Alias=Miro_91;ID=Miro_91.CDS;Name=Miro_91;Parent=Miro_91;obsolete_name=Miro_073;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 53646 53648 . + 1 ID=Miro_91.RBS;Name=Miro_91;Parent=Miro_91 -Miro feature gene 56987 57203 . + . ID=Miro_96 -Miro GenBank CDS 57000 57203 . + 1 Alias=Miro_96;ID=Miro_96.CDS;Name=Miro_96;Parent=Miro_96;obsolete_name=Miro_068;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 56987 56990 . + 1 ID=Miro_96.RBS;Name=Miro_96;Parent=Miro_96 -Miro feature gene 57193 57382 . + . ID=Miro_97 -Miro GenBank CDS 57206 57382 . + 1 Alias=Miro_97;ID=Miro_97.CDS;Name=Miro_97;Parent=Miro_97;obsolete_name=Miro_067;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 57193 57195 . + 1 ID=Miro_97.RBS;Name=Miro_97;Parent=Miro_97 -Miro feature gene 54726 56265 . + . ID=Miro_94 -Miro GenBank CDS 54736 56265 . + 1 Alias=Miro_94;ID=Miro_94.CDS;Name=Miro_94;Note=T4-like;Parent=Miro_94;obsolete_name=Miro_070;product=DNA ligase -Miro GenBank Shine_Dalgarno_sequence 54726 54728 . + 1 ID=Miro_94.RBS;Name=Miro_94;Parent=Miro_94 -Miro feature gene 56331 56911 . + . ID=Miro_95 -Miro GenBank CDS 56342 56911 . + 1 Alias=Miro_95;ID=Miro_95.CDS;Name=Miro_95;Parent=Miro_95;obsolete_name=Miro_069;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 56331 56333 . + 1 ID=Miro_95.RBS;Name=Miro_95;Parent=Miro_95 -Miro feature gene 57368 57543 . + . ID=Miro_98 -Miro GenBank CDS 57379 57543 . + 1 Alias=Miro_98;ID=Miro_98.CDS;Name=Miro_98;Parent=Miro_98;obsolete_name=Miro_066;product=hypothetical conserved;tmhelix=2TMDs %287-26%2C 31-53%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 57368 57372 . + 1 ID=Miro_98.RBS;Name=Miro_98;Parent=Miro_98 -Miro feature gene 57613 57914 . + . ID=Miro_99 -Miro GenBank CDS 57624 57914 . + 1 Alias=Miro_99;ID=Miro_99.CDS;Name=Miro_99;Parent=Miro_99;obsolete_name=Miro_065;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 57613 57616 . + 1 ID=Miro_99.RBS;Name=Miro_99;Parent=Miro_99 -Miro feature gene 81924 82086 . - . ID=Miro_143 -Miro GenBank CDS 81924 82079 . - 1 ID=Miro_143.CDS;Name=Miro_143;Parent=Miro_143;obsolete_name=Miro_021;product=hypothetical conserved;tmhelix=1 TMD %2815-37%29 N out%2C C in -Miro GenBank Shine_Dalgarno_sequence 82084 82086 . - 1 Alias=Miro_143;ID=Miro_143.RBS;Name=Miro_143;Parent=Miro_143 -Miro feature gene 67179 67658 . - . ID=Miro_114 -Miro GenBank CDS 67179 67649 . - 1 ID=Miro_114.CDS;Name=Miro_114;Parent=Miro_114;obsolete_name=Miro_050;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 67656 67658 . - 1 Alias=Miro_114;ID=Miro_114.RBS;Name=Miro_114;Parent=Miro_114 -Miro feature gene 81366 81851 . - . ID=Miro_141 -Miro GenBank CDS 81366 81839 . - 1 ID=Miro_141.CDS;Name=Miro_141;Note=contains macro domain;Parent=Miro_141;obsolete_name=Miro_023;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 81849 81851 . - 1 Alias=Miro_141;ID=Miro_141.RBS;Name=Miro_141;Parent=Miro_141 -Miro feature gene 81076 81376 . - . ID=Miro_140 -Miro GenBank CDS 81076 81363 . - 1 ID=Miro_140.CDS;Name=Miro_140;Parent=Miro_140;obsolete_name=Miro_024;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 81374 81376 . - 1 Alias=Miro_140;ID=Miro_140.RBS;Name=Miro_140;Parent=Miro_140 -Miro feature gene 83223 83630 . - . ID=Miro_147 -Miro GenBank CDS 83223 83618 . - 1 ID=Miro_147.CDS;Name=Miro_147;Parent=Miro_147;obsolete_name=Miro_017;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 83627 83630 . - 1 Alias=Miro_147;ID=Miro_147.RBS;Name=Miro_147;Parent=Miro_147 -Miro feature gene 83066 83224 . - . ID=Miro_146 -Miro GenBank CDS 83066 83212 . - 1 ID=Miro_146.CDS;Name=Miro_146;Parent=Miro_146;obsolete_name=Miro_018;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 83221 83224 . - 1 Alias=Miro_146;ID=Miro_146.RBS;Name=Miro_146;Parent=Miro_146 -Miro feature gene 82479 83083 . - . ID=Miro_145 -Miro GenBank CDS 82479 83069 . - 1 ID=Miro_145.CDS;Name=Miro_145;Parent=Miro_145;obsolete_name=Miro_019;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 83080 83083 . - 1 Alias=Miro_145;ID=Miro_145.RBS;Name=Miro_145;Parent=Miro_145 -Miro feature gene 67646 67816 . - . ID=Miro_115 -Miro GenBank CDS 67646 67804 . - 1 ID=Miro_115.CDS;Name=Miro_115;Parent=Miro_115;obsolete_name=Miro_049;product=hypothetical conserved;tmhelix=2TMDs %282-21%2C 31-50%29 N in%2C C in -Miro GenBank Shine_Dalgarno_sequence 67814 67816 . - 1 Alias=Miro_115;ID=Miro_115.RBS;Name=Miro_115;Parent=Miro_115 -Miro feature gene 84392 84959 . - . ID=Miro_149 -Miro GenBank CDS 84392 84946 . - 1 ID=Miro_149.CDS;Name=Miro_149;Parent=Miro_149;obsolete_name=Miro_015;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 84955 84959 . - 1 Alias=Miro_149;ID=Miro_149.RBS;Name=Miro_149;Parent=Miro_149 -Miro feature gene 83686 84337 . - . ID=Miro_148 -Miro GenBank CDS 83686 84327 . - 1 ID=Miro_148.CDS;Name=Miro_148;Note=T4 RegB-like;Parent=Miro_148;obsolete_name=Miro_016;product=endoribonuclease;signal=signal peptidase II cleavage site 12-13 -Miro GenBank Shine_Dalgarno_sequence 84334 84337 . - 1 Alias=Miro_148;ID=Miro_148.RBS;Name=Miro_148;Parent=Miro_148 -Miro feature gene 67801 68461 . - . ID=Miro_116 -Miro GenBank CDS 67801 68451 . - 1 ID=Miro_116.CDS;Name=Miro_116;Parent=Miro_116;obsolete_name=Miro_048;product=hypothetical conserved -Miro GenBank Shine_Dalgarno_sequence 68457 68461 . - 1 Alias=Miro_116;ID=Miro_116.RBS;Name=Miro_116;Parent=Miro_116
--- a/cpt_shinefind/test-data/Miro_ShineFindOut.tbl Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,1 +0,0 @@ -ID Name Terminus Terminus Strand Upstream Sequence SD Spacing
--- a/cpt_shinefind/test-data/Miro_ShineFindOut1.gff3 Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,1 +0,0 @@ -##gff-version 3
--- a/cpt_shinefind/test-data/Miro_ShineFindOut2.gff3 Fri May 20 09:04:04 2022 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,824 +0,0 @@ -##gff-version 3 -Miro feature gene 7454 7906 . - . ID=Miro_8; -Miro GenBank CDS 7454 7894 . - 1 ID=Miro_8.CDS;Name=Miro_8;Parent=Miro_8;obsolete_name=Miro_156;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 7903 7906 . - 1 Alias=Miro_8;ID=Miro_8.RBS;Name=Miro_8;Parent=Miro_8; -Miro feature gene 7917 8512 . - . ID=Miro_9; -Miro GenBank CDS 7917 8501 . - 1 ID=Miro_9.CDS;Name=Miro_9;Parent=Miro_9;obsolete_name=Miro_155;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 8509 8512 . - 1 Alias=Miro_9;ID=Miro_9.RBS;Name=Miro_9;Parent=Miro_9; -Miro feature gene 123276 124212 . + . ID=Miro_206; -Miro GenBank CDS 123286 124212 . + 1 Alias=Miro_206;ID=Miro_206.CDS;Name=Miro_206;Parent=Miro_206;obsolete_name=Miro_234;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 123276 123279 . + 1 ID=Miro_206.rbs;Name=Miro_206;Parent=Miro_206; -Miro feature gene 68490 70715 . - . ID=Miro_117; -Miro GenBank CDS 68490 70706 . - 1 ID=Miro_117.CDS;Name=Miro_117;Note=contains von Willebrand factor%2C type A;Parent=Miro_117;obsolete_name=Miro_047;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 70713 70715 . - 1 Alias=Miro_117;ID=Miro_117.RBS;Name=Miro_117;Parent=Miro_117; -Miro feature gene 115729 116735 . + . ID=Miro_200; -Miro GenBank CDS 115743 116735 . + 1 Alias=Miro_200;ID=Miro_200.CDS;Name=Miro_200;Note=T4 gp6-like;Parent=Miro_200;obsolete_name=Miro_240;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 115729 115732 . + 1 ID=Miro_200.RBS;Name=Miro_200;Parent=Miro_200; -Miro feature gene 116735 117608 . + . ID=Miro_201; -Miro GenBank CDS 116745 117608 . + 1 Alias=Miro_201;ID=Miro_201.CDS;Name=Miro_201;Note=T4 gp9/gp10-like;Parent=Miro_201;obsolete_name=Miro_239;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 116735 116738 . + 1 ID=Miro_201.RBS;Name=Miro_201;Parent=Miro_201; -Miro feature gene 117595 119422 . + . ID=Miro_202; -Miro GenBank CDS 117605 119422 . + 1 Alias=Miro_202;ID=Miro_202.CDS;Name=Miro_202;Note=T4 gp9/gp10-like;Parent=Miro_202;obsolete_name=Miro_238;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 117595 117597 . + 1 ID=Miro_202.RBS;Name=Miro_202;Parent=Miro_202; -Miro feature gene 119412 120090 . + . ID=Miro_203; -Miro GenBank CDS 119422 120090 . + 1 Alias=Miro_203;ID=Miro_203.CDS;Name=Miro_203;Note=T4 gp11-like;Parent=Miro_203;obsolete_name=Miro_237;product=baseplate to short tail fiber connector protein; -Miro GenBank Shine_Dalgarno_sequence 119412 119415 . + 1 ID=Miro_203.RBS;Name=Miro_203;Parent=Miro_203; -Miro feature gene 81829 81940 . - . ID=Miro_142; -Miro GenBank CDS 81829 81927 . - 1 ID=Miro_142.CDS;Name=Miro_142;Parent=Miro_142;obsolete_name=Miro_022;product=hypothetical conserved;tmhelix=1 TMD (4-26) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 81938 81940 . - 1 Alias=Miro_142;ID=Miro_142.RBS;Name=Miro_142;Parent=Miro_142; -Miro feature gene 1 910 . - . ID=Miro_1; -Miro GenBank CDS 1 900 . - 1 ID=Miro_1.CDS;Name=Miro_1;Parent=Miro_1;obsolete_name=Miro_163;product=rIIb; -Miro GenBank Shine_Dalgarno_sequence 908 910 . - 1 Alias=Miro_1;ID=Miro_1.RBS;Name=Miro_1;Parent=Miro_1; -Miro feature gene 900 3173 . - . ID=Miro_2; -Miro GenBank CDS 900 3161 . - 1 ID=Miro_2.CDS;Name=Miro_2;Parent=Miro_2;obsolete_name=Miro_162;product=rIIa; -Miro GenBank Shine_Dalgarno_sequence 3171 3173 . - 1 Alias=Miro_2;ID=Miro_2.RBS;Name=Miro_2;Parent=Miro_2; -Miro feature gene 3172 3417 . - . ID=Miro_3; -Miro GenBank CDS 3172 3408 . - 1 ID=Miro_3.CDS;Name=Miro_3;Parent=Miro_3;obsolete_name=Miro_161;product=hypothetical conserved;tmhelix=1 TMD (12-34) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 3414 3417 . - 1 Alias=Miro_3;ID=Miro_3.RBS;Name=Miro_3;Parent=Miro_3; -Miro feature gene 3412 3979 . - . ID=Miro_4; -Miro GenBank CDS 3412 3966 . - 1 ID=Miro_4.CDS;Name=Miro_4;Note=contains SprT domain;Parent=Miro_4;obsolete_name=Miro_160;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 3975 3979 . - 1 Alias=Miro_4;ID=Miro_4.RBS;Name=Miro_4;Parent=Miro_4; -Miro feature gene 4038 5334 . - . ID=Miro_5; -Miro GenBank CDS 4038 5324 . - 1 ID=Miro_5.CDS;Name=Miro_5;Note=T4 gp52-like;Parent=Miro_5;obsolete_name=Miro_159;product=DNA topoisomerase II medium subunit; -Miro GenBank Shine_Dalgarno_sequence 5331 5334 . - 1 Alias=Miro_5;ID=Miro_5.RBS;Name=Miro_5;Parent=Miro_5; -Miro feature gene 5324 7231 . - . ID=Miro_6; -Miro GenBank CDS 5324 7222 . - 1 ID=Miro_6.CDS;Name=Miro_6;Note=T4 gp39-like;Parent=Miro_6;obsolete_name=Miro_158;product=DNA topoisomerase II%2C large subunit; -Miro GenBank Shine_Dalgarno_sequence 7228 7231 . - 1 Alias=Miro_6;ID=Miro_6.RBS;Name=Miro_6;Parent=Miro_6; -Miro feature gene 7290 7465 . - . ID=Miro_7; -Miro GenBank CDS 7290 7454 . - 1 ID=Miro_7.CDS;Name=Miro_7;Note=contains zinc ribbon domain;Parent=Miro_7;obsolete_name=Miro_157;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 7463 7465 . - 1 Alias=Miro_7;ID=Miro_7.RBS;Name=Miro_7;Parent=Miro_7; -Miro feature gene 124212 124968 . + . ID=Miro_207; -Miro GenBank CDS 124222 124968 . + 1 Alias=Miro_207;ID=Miro_207.CDS;Name=Miro_207;Note=T4 gp14-like;Parent=Miro_207;obsolete_name=Miro_233;product=neck protein; -Miro GenBank Shine_Dalgarno_sequence 124212 124216 . + 1 ID=Miro_207.RBS;Name=Miro_207;Parent=Miro_207; -Miro feature gene 173061 173361 . - . ID=Miro_269; -Miro GenBank CDS 173061 173351 . - 1 ID=Miro_269.CDS;Name=Miro_269;Parent=Miro_269;obsolete_name=Miro_171;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 173358 173361 . - 1 Alias=Miro_269;ID=Miro_269.RBS;Name=Miro_269;Parent=Miro_269; -Miro feature gene 66523 66819 . - . ID=Miro_112; -Miro GenBank CDS 66523 66807 . - 1 ID=Miro_112.CDS;Name=Miro_112;Parent=Miro_112;obsolete_name=Miro_052;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18; -Miro GenBank Shine_Dalgarno_sequence 66816 66819 . - 1 Alias=Miro_112;ID=Miro_112.RBS;Name=Miro_112;Parent=Miro_112; -Miro feature gene 66879 67172 . - . ID=Miro_113; -Miro GenBank CDS 66879 67163 . - 1 ID=Miro_113.CDS;Name=Miro_113;Parent=Miro_113;obsolete_name=Miro_051;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 67169 67172 . - 1 Alias=Miro_113;ID=Miro_113.RBS;Name=Miro_113;Parent=Miro_113; -Miro feature gene 44560 45732 . + . ID=Miro_69; -Miro GenBank CDS 44575 45732 . + 1 Alias=Miro_69;ID=Miro_69.CDS;Name=Miro_69;Note=T4 RNA ligase 1-like;Parent=Miro_69;obsolete_name=Miro_095;product=RNA ligase; -Miro GenBank Shine_Dalgarno_sequence 44560 44562 . + 1 ID=Miro_69.RBS;Name=Miro_69;Parent=Miro_69; -Miro feature gene 44216 44594 . + . ID=Miro_68; -Miro GenBank CDS 44229 44594 . + 1 Alias=Miro_68;ID=Miro_68.CDS;Name=Miro_68;Note=contains GIY-YIG domain;Parent=Miro_68;obsolete_name=Miro_096;product=homing endonuclease; -Miro GenBank Shine_Dalgarno_sequence 44216 44218 . + 1 ID=Miro_68.RBS;Name=Miro_68;Parent=Miro_68; -Miro GenBank CDS 43905 44225 . + 1 ID=Miro_67;Name=Miro_67;obsolete_name=Miro_097;product=hypothetical conserved; -Miro feature gene 42748 43933 . + . ID=Miro_66; -Miro GenBank CDS 42758 43933 . + 1 Alias=Miro_66;ID=Miro_66.CDS;Name=Miro_66;Note=T4 NrdB-like;Parent=Miro_66;obsolete_name=Miro_098;product=ribonucleotide reductase%2C small subunit; -Miro GenBank Shine_Dalgarno_sequence 42748 42751 . + 1 ID=Miro_66.RBS;Name=Miro_66;Parent=Miro_66; -Miro feature gene 40459 42721 . + . ID=Miro_65; -Miro GenBank CDS 40469 42721 . + 1 Alias=Miro_65;ID=Miro_65.CDS;Name=Miro_65;Note=T4 NrdA-like%3B E-val 0;Parent=Miro_65;obsolete_name=Miro_099;product=ribonucleotide reductase%2C large subunit; -Miro GenBank Shine_Dalgarno_sequence 40459 40462 . + 1 ID=Miro_65.RBS;Name=Miro_65;Parent=Miro_65; -Miro feature gene 39545 40429 . + . ID=Miro_64; -Miro GenBank CDS 39554 40429 . + 1 Alias=Miro_64;ID=Miro_64.CDS;Name=Miro_64;Note=T4-like;Parent=Miro_64;obsolete_name=Miro_100;product=thymidylate synthase; -Miro GenBank Shine_Dalgarno_sequence 39545 39548 . + 1 ID=Miro_64.RBS;Name=Miro_64;Parent=Miro_64; -Miro feature gene 38964 39552 . + . ID=Miro_63; -Miro GenBank CDS 38974 39552 . + 1 Alias=Miro_63;ID=Miro_63.CDS;Name=Miro_63;Note=T4-like;Parent=Miro_63;obsolete_name=Miro_101;product=dihydrofolate reductase; -Miro GenBank Shine_Dalgarno_sequence 38964 38966 . + 1 ID=Miro_63.RBS;Name=Miro_63;Parent=Miro_63; -Miro feature gene 38710 38977 . + . ID=Miro_62; -Miro GenBank CDS 38720 38977 . + 1 Alias=Miro_62;ID=Miro_62.CDS;Name=Miro_62;Parent=Miro_62;obsolete_name=Miro_102;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 38710 38713 . + 1 ID=Miro_62.RBS;Name=Miro_62;Parent=Miro_62; -Miro feature gene 38483 38723 . + . ID=Miro_61; -Miro GenBank CDS 38493 38723 . + 1 Alias=Miro_61;ID=Miro_61.CDS;Name=Miro_61;Parent=Miro_61;obsolete_name=Miro_103;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 38483 38486 . + 1 ID=Miro_61.RBS;Name=Miro_61;Parent=Miro_61; -Miro feature gene 38194 38496 . + . ID=Miro_60; -Miro GenBank CDS 38206 38496 . + 1 Alias=Miro_60;ID=Miro_60.CDS;Name=Miro_60;Parent=Miro_60;obsolete_name=Miro_104;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 38194 38197 . + 1 ID=Miro_60.RBS;Name=Miro_60;Parent=Miro_60; -Miro feature gene 97404 97739 . - . ID=Miro_176; -Miro GenBank CDS 97404 97727 . - 1 ID=Miro_176.CDS;Name=Miro_176;Parent=Miro_176;obsolete_name=Miro_264;product=hypothetical conserved;tmhelix=1 TMD (84-106) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 97736 97739 . - 1 Alias=Miro_176;ID=Miro_176.RBS;Name=Miro_176;Parent=Miro_176; -Miro feature gene 97756 98022 . - . ID=Miro_177; -Miro GenBank CDS 97756 98013 . - 1 ID=Miro_177.CDS;Name=Miro_177;Parent=Miro_177;obsolete_name=Miro_263;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 98020 98022 . - 1 Alias=Miro_177;ID=Miro_177.RBS;Name=Miro_177;Parent=Miro_177; -Miro feature gene 95966 96891 . - . ID=Miro_174; -Miro GenBank CDS 95966 96880 . - 1 ID=Miro_174.CDS;Name=Miro_174;Parent=Miro_174;obsolete_name=Miro_266;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 96889 96891 . - 1 Alias=Miro_174;ID=Miro_174.RBS;Name=Miro_174;Parent=Miro_174; -Miro feature gene 96877 97416 . - . ID=Miro_175; -Miro GenBank CDS 96877 97404 . - 1 ID=Miro_175.CDS;Name=Miro_175;Parent=Miro_175;obsolete_name=Miro_265;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 97414 97416 . - 1 Alias=Miro_175;ID=Miro_175.RBS;Name=Miro_175;Parent=Miro_175; -Miro feature gene 95498 95705 . - . ID=Miro_172; -Miro GenBank CDS 95498 95692 . - 1 ID=Miro_172.CDS;Name=Miro_172;Note=heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_172;obsolete_name=Miro_268;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 95702 95705 . - 1 Alias=Miro_172;ID=Miro_172.RBS;Name=Miro_172;Parent=Miro_172; -Miro feature gene 95689 95900 . - . ID=Miro_173; -Miro GenBank CDS 95689 95889 . - 1 ID=Miro_173.CDS;Name=Miro_173;Parent=Miro_173;obsolete_name=Miro_267;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 95897 95900 . - 1 Alias=Miro_173;ID=Miro_173.RBS;Name=Miro_173;Parent=Miro_173; -Miro feature gene 94533 95117 . - . ID=Miro_170; -Miro GenBank CDS 94533 95108 . - 1 ID=Miro_170.CDS;Name=Miro_170;Parent=Miro_170;obsolete_name=Miro_270;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 95114 95117 . - 1 Alias=Miro_170;ID=Miro_170.RBS;Name=Miro_170;Parent=Miro_170; -Miro feature gene 95116 95524 . - . ID=Miro_171; -Miro GenBank CDS 95116 95514 . - 1 ID=Miro_171.CDS;Name=Miro_171;Parent=Miro_171;obsolete_name=Miro_269;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 95520 95524 . - 1 Alias=Miro_171;ID=Miro_171.RBS;Name=Miro_171;Parent=Miro_171; -Miro feature gene 98015 98410 . - . ID=Miro_178; -Miro GenBank CDS 98015 98398 . - 1 ID=Miro_178.CDS;Name=Miro_178;Parent=Miro_178;obsolete_name=Miro_262;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 98408 98410 . - 1 Alias=Miro_178;ID=Miro_178.RBS;Name=Miro_178;Parent=Miro_178; -Miro feature gene 98409 98826 . - . ID=Miro_179; -Miro GenBank CDS 98409 98816 . - 1 ID=Miro_179.CDS;Name=Miro_179;Parent=Miro_179;obsolete_name=Miro_261;product=NUDIX hydrolase; -Miro GenBank Shine_Dalgarno_sequence 98823 98826 . - 1 Alias=Miro_179;ID=Miro_179.RBS;Name=Miro_179;Parent=Miro_179; -Miro feature gene 105709 106188 . - . ID=Miro_194; -Miro GenBank CDS 105709 106176 . - 1 ID=Miro_194.CDS;Name=Miro_194;Parent=Miro_194;obsolete_name=Miro_246;product=restriction endonuclease; -Miro GenBank Shine_Dalgarno_sequence 106185 106188 . - 1 Alias=Miro_194;ID=Miro_194.RBS;Name=Miro_194;Parent=Miro_194; -Miro feature gene 106215 106781 . + . ID=Miro_195; -Miro GenBank CDS 106227 106781 . + 1 Alias=Miro_195;ID=Miro_195.CDS;Name=Miro_195;Note=T4 gp53-like;Parent=Miro_195;obsolete_name=Miro_245;product=baseplate wedge protein; -Miro GenBank Shine_Dalgarno_sequence 106215 106218 . + 1 ID=Miro_195.RBS;Name=Miro_195;Parent=Miro_195; -Miro feature gene 106763 108547 . + . ID=Miro_196; -Miro GenBank CDS 106778 108547 . + 1 Alias=Miro_196;ID=Miro_196.CDS;Name=Miro_196;Note=T4 gp5-like;Parent=Miro_196;obsolete_name=Miro_244;product=baseplate hub structural protein and tail lysozyme; -Miro GenBank Shine_Dalgarno_sequence 106763 106765 . + 1 ID=Miro_196.RBS;Name=Miro_196;Parent=Miro_196; -Miro feature gene 108542 110618 . + . ID=Miro_197; -Miro GenBank CDS 108552 110618 . + 1 Alias=Miro_197;ID=Miro_197.CDS;Name=Miro_197;Parent=Miro_197;obsolete_name=Miro_243;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 108542 108545 . + 1 ID=Miro_197.RBS;Name=Miro_197;Parent=Miro_197; -Miro feature gene 102567 103107 . - . ID=Miro_190; -Miro GenBank CDS 102567 103097 . - 1 ID=Miro_190.CDS;Name=Miro_190;Note=T4 gp19-like;Parent=Miro_190;obsolete_name=Miro_250;product=tail tube protein; -Miro GenBank Shine_Dalgarno_sequence 103103 103107 . - 1 Alias=Miro_190;ID=Miro_190.RBS;Name=Miro_190;Parent=Miro_190; -Miro feature gene 103455 104255 . + . ID=Miro_191; -Miro GenBank CDS 103467 104255 . + 1 Alias=Miro_191;ID=Miro_191.CDS;Name=Miro_191;Parent=Miro_191;obsolete_name=Miro_249;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 103455 103458 . + 1 ID=Miro_191.RBS;Name=Miro_191;Parent=Miro_191; -Miro feature gene 104349 104819 . + . ID=Miro_192; -Miro GenBank CDS 104361 104819 . + 1 Alias=Miro_192;ID=Miro_192.CDS;Name=Miro_192;Note=contains AP2/ERF domain;Parent=Miro_192;obsolete_name=Miro_248;product=homing endonuclease; -Miro GenBank Shine_Dalgarno_sequence 104349 104351 . + 1 ID=Miro_192.RBS;Name=Miro_192;Parent=Miro_192; -Miro feature gene 73313 73582 . - . ID=Miro_124; -Miro GenBank CDS 73313 73570 . - 1 ID=Miro_124.CDS;Name=Miro_124;Parent=Miro_124;obsolete_name=Miro_040;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 73579 73582 . - 1 Alias=Miro_124;ID=Miro_124.RBS;Name=Miro_124;Parent=Miro_124; -Miro feature gene 125036 125872 . + . ID=Miro_208; -Miro GenBank CDS 125048 125872 . + 1 Alias=Miro_208;ID=Miro_208.CDS;Name=Miro_208;Parent=Miro_208;obsolete_name=Miro_232;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 125036 125039 . + 1 ID=Miro_208.RBS;Name=Miro_208;Parent=Miro_208; -Miro feature gene 110635 112575 . + . ID=Miro_198; -Miro GenBank CDS 110650 112575 . + 1 Alias=Miro_198;ID=Miro_198.CDS;Name=Miro_198;Parent=Miro_198;obsolete_name=Miro_242;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 110635 110638 . + 1 ID=Miro_198.RBS;Name=Miro_198;Parent=Miro_198; -Miro feature gene 112645 115742 . + . ID=Miro_199; -Miro GenBank CDS 112656 115742 . + 1 Alias=Miro_199;ID=Miro_199.CDS;Name=Miro_199;Parent=Miro_199;obsolete_name=Miro_241;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 112645 112648 . + 1 ID=Miro_199.RBS;Name=Miro_199;Parent=Miro_199; -Miro feature gene 136157 136806 . + . ID=Miro_219; -Miro GenBank CDS 136168 136806 . + 1 Alias=Miro_219;ID=Miro_219.CDS;Name=Miro_219;Note=contains GIY-YIG domain;Parent=Miro_219;obsolete_name=Miro_221;product=homing endonuclease; -Miro GenBank Shine_Dalgarno_sequence 136157 136160 . + 1 ID=Miro_219.RBS;Name=Miro_219;Parent=Miro_219; -Miro feature gene 125860 126369 . + . ID=Miro_209; -Miro GenBank CDS 125872 126369 . + 1 Alias=Miro_209;ID=Miro_209.CDS;Name=Miro_209;Note=T4 gp16-like;Parent=Miro_209;obsolete_name=Miro_231;product=terminase%2C small subunit; -Miro GenBank Shine_Dalgarno_sequence 125860 125863 . + 1 ID=Miro_209.RBS;Name=Miro_209;Parent=Miro_209; -Miro feature gene 93915 94204 . - . ID=Miro_169; -Miro GenBank CDS 93915 94193 . - 1 ID=Miro_169.CDS;Name=Miro_169;Parent=Miro_169;obsolete_name=Miro_271;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 94201 94204 . - 1 Alias=Miro_169;ID=Miro_169.RBS;Name=Miro_169;Parent=Miro_169; -Miro feature gene 93592 93854 . - . ID=Miro_168; -Miro GenBank CDS 93592 93843 . - 1 ID=Miro_168.CDS;Name=Miro_168;Parent=Miro_168;obsolete_name=Miro_272;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 93849 93854 . - 1 Alias=Miro_168;ID=Miro_168.RBS;Name=Miro_168;Parent=Miro_168; -Miro feature gene 48763 49277 . + . ID=Miro_78; -Miro GenBank CDS 48771 49277 . + 1 Alias=Miro_78;ID=Miro_78.CDS;Name=Miro_78;Note=T4-like;Parent=Miro_78;obsolete_name=Miro_086;product=dCMP deaminase; -Miro GenBank Shine_Dalgarno_sequence 48763 48765 . + 1 ID=Miro_78.RBS;Name=Miro_78;Parent=Miro_78; -Miro feature gene 49267 49634 . + . ID=Miro_79; -Miro GenBank CDS 49281 49634 . + 1 Alias=Miro_79;ID=Miro_79.CDS;Name=Miro_79;Note=T4 gp31-like;Parent=Miro_79;obsolete_name=Miro_085;product=chaperonin-GroEL; -Miro GenBank Shine_Dalgarno_sequence 49267 49269 . + 1 ID=Miro_79.RBS;Name=Miro_79;Parent=Miro_79; -Miro feature gene 120090 121485 . + . ID=Miro_204; -Miro GenBank CDS 120100 121485 . + 1 Alias=Miro_204;ID=Miro_204.CDS;Name=Miro_204;Note=T4 gp12-like;Parent=Miro_204;obsolete_name=Miro_236;product=short tail fiber protein; -Miro GenBank Shine_Dalgarno_sequence 120090 120093 . + 1 ID=Miro_204.RBS;Name=Miro_204;Parent=Miro_204; -Miro feature gene 47021 47916 . + . ID=Miro_74; -Miro GenBank CDS 47032 47916 . + 1 Alias=Miro_74;ID=Miro_74.CDS;Name=Miro_74;Note=contains HAD-like domain;Parent=Miro_74;obsolete_name=Miro_090;product=nucleoside triphosphate hydrolase; -Miro GenBank Shine_Dalgarno_sequence 47021 47023 . + 1 ID=Miro_74.RBS;Name=Miro_74;Parent=Miro_74; -Miro feature gene 47957 48256 . + . ID=Miro_75; -Miro GenBank CDS 47969 48256 . + 1 Alias=Miro_75;ID=Miro_75.CDS;Name=Miro_75;Parent=Miro_75;obsolete_name=Miro_089;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 47957 47960 . + 1 ID=Miro_75.RBS;Name=Miro_75;Parent=Miro_75; -Miro feature gene 48240 48504 . + . ID=Miro_76; -Miro GenBank CDS 48253 48504 . + 1 Alias=Miro_76;ID=Miro_76.CDS;Name=Miro_76;Parent=Miro_76;obsolete_name=Miro_088;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 48240 48242 . + 1 ID=Miro_76.RBS;Name=Miro_76;Parent=Miro_76; -Miro feature gene 48485 48781 . + . ID=Miro_77; -Miro GenBank CDS 48497 48781 . + 1 Alias=Miro_77;ID=Miro_77.CDS;Name=Miro_77;Parent=Miro_77;obsolete_name=Miro_087;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 48485 48488 . + 1 ID=Miro_77.RBS;Name=Miro_77;Parent=Miro_77; -Miro feature gene 45718 46265 . + . ID=Miro_70; -Miro GenBank CDS 45729 46265 . + 1 Alias=Miro_70;ID=Miro_70.CDS;Name=Miro_70;Note=contains AP2/ERF domain;Parent=Miro_70;obsolete_name=Miro_094;product=homing endonuclease; -Miro GenBank Shine_Dalgarno_sequence 45718 45721 . + 1 ID=Miro_70.RBS;Name=Miro_70;Parent=Miro_70; -Miro feature gene 46221 46569 . + . ID=Miro_71; -Miro GenBank CDS 46234 46569 . + 1 Alias=Miro_71;ID=Miro_71.CDS;Name=Miro_71;Note=T4 PseT.3-like;Parent=Miro_71;obsolete_name=Miro_093;product=i-spanin;tmhelix=1 TMD (15-33) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 46221 46224 . + 1 ID=Miro_71.RBS;Name=Miro_71;Parent=Miro_71; -Miro feature gene 46553 46883 . + . ID=Miro_72; -Miro GenBank CDS 46566 46883 . + 1 Alias=Miro_72;ID=Miro_72.CDS;Name=Miro_72;Note=T4 PseT.2-like;Parent=Miro_72;obsolete_name=Miro_092;product=o-spanin;signal=signal peptidase II cleavage site 16-17; -Miro GenBank Shine_Dalgarno_sequence 46553 46556 . + 1 ID=Miro_72.RBS;Name=Miro_72;Parent=Miro_72; -Miro feature gene 46854 47035 . + . ID=Miro_73; -Miro GenBank CDS 46868 47035 . + 1 Alias=Miro_73;ID=Miro_73.CDS;Name=Miro_73;Parent=Miro_73;obsolete_name=Miro_091;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 46854 46856 . + 1 ID=Miro_73.RBS;Name=Miro_73;Parent=Miro_73; -Miro feature gene 90380 90770 . - . ID=Miro_161; -Miro GenBank CDS 90380 90760 . - 1 ID=Miro_161.CDS;Name=Miro_161;Parent=Miro_161;obsolete_name=Miro_003;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 90767 90770 . - 1 Alias=Miro_161;ID=Miro_161.RBS;Name=Miro_161;Parent=Miro_161; -Miro feature gene 90052 90410 . - . ID=Miro_160; -Miro GenBank CDS 90052 90399 . - 1 ID=Miro_160.CDS;Name=Miro_160;Parent=Miro_160;obsolete_name=Miro_004;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 90406 90410 . - 1 Alias=Miro_160;ID=Miro_160.RBS;Name=Miro_160;Parent=Miro_160; -Miro feature gene 91043 92201 . - . ID=Miro_163; -Miro GenBank CDS 91043 92197 . - 1 ID=Miro_163.CDS;Name=Miro_163;Note=contains 4Fe4S-binding SPASM domain;Parent=Miro_163;obsolete_name=Miro_001;product=radical SAM superfamily protein; -Miro GenBank Shine_Dalgarno_sequence 92198 92201 . + 1 Alias=Miro_163;ID=Miro_163.RBS;Name=Miro_163;Parent=Miro_163; -Miro feature gene 100922 101554 . - . ID=Miro_187; -Miro GenBank CDS 100922 101545 . - 1 ID=Miro_187.CDS;Name=Miro_187;Parent=Miro_187;obsolete_name=Miro_253;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 101551 101554 . - 1 Alias=Miro_187;ID=Miro_187.RBS;Name=Miro_187;Parent=Miro_187; -Miro feature gene 100375 100923 . - . ID=Miro_186; -Miro GenBank CDS 100375 100914 . - 1 ID=Miro_186.CDS;Name=Miro_186;Parent=Miro_186;obsolete_name=Miro_254;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 100920 100923 . - 1 Alias=Miro_186;ID=Miro_186.RBS;Name=Miro_186;Parent=Miro_186; -Miro feature gene 100169 100320 . - . ID=Miro_185; -Miro GenBank CDS 100169 100309 . - 1 ID=Miro_185.CDS;Name=Miro_185;Parent=Miro_185;obsolete_name=Miro_255;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 100315 100320 . - 1 Alias=Miro_185;ID=Miro_185.RBS;Name=Miro_185;Parent=Miro_185; -Miro feature gene 90744 91055 . - . ID=Miro_162; -Miro GenBank CDS 90744 91046 . - 1 ID=Miro_162.CDS;Name=Miro_162;Parent=Miro_162;obsolete_name=Miro_002;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 91053 91055 . - 1 Alias=Miro_162;ID=Miro_162.RBS;Name=Miro_162;Parent=Miro_162; -Miro feature gene 99593 99940 . - . ID=Miro_183; -Miro GenBank CDS 99593 99928 . - 1 ID=Miro_183.CDS;Name=Miro_183;Note=contains heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_183;obsolete_name=Miro_257;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 99938 99940 . - 1 Alias=Miro_183;ID=Miro_183.RBS;Name=Miro_183;Parent=Miro_183; -Miro feature gene 99303 99611 . - . ID=Miro_182; -Miro GenBank CDS 99303 99596 . - 1 ID=Miro_182.CDS;Name=Miro_182;Parent=Miro_182;obsolete_name=Miro_258;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 99609 99611 . - 1 Alias=Miro_182;ID=Miro_182.RBS;Name=Miro_182;Parent=Miro_182; -Miro feature gene 99059 99328 . - . ID=Miro_181; -Miro GenBank CDS 99059 99310 . - 1 ID=Miro_181.CDS;Name=Miro_181;Parent=Miro_181;obsolete_name=Miro_259;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 99325 99328 . - 1 Alias=Miro_181;ID=Miro_181.RBS;Name=Miro_181;Parent=Miro_181; -Miro feature gene 98817 99074 . - . ID=Miro_180; -Miro GenBank CDS 98817 99062 . - 1 ID=Miro_180.CDS;Name=Miro_180;Parent=Miro_180;obsolete_name=Miro_260;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 99072 99074 . - 1 Alias=Miro_180;ID=Miro_180.RBS;Name=Miro_180;Parent=Miro_180; -Miro feature gene 92931 93195 . - . ID=Miro_165; -Miro GenBank CDS 92931 93185 . - 1 ID=Miro_165.CDS;Name=Miro_165;Parent=Miro_165;obsolete_name=Miro_275;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 93192 93195 . - 1 Alias=Miro_165;ID=Miro_165.RBS;Name=Miro_165;Parent=Miro_165; -Miro feature gene 101872 102579 . - . ID=Miro_189; -Miro GenBank CDS 101872 102567 . - 1 ID=Miro_189.CDS;Name=Miro_189;Note=contains P-loop NTPase domain;Parent=Miro_189;obsolete_name=Miro_251;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 102577 102579 . - 1 Alias=Miro_189;ID=Miro_189.RBS;Name=Miro_189;Parent=Miro_189; -Miro feature gene 92203 92938 . + . ID=Miro_164; -Miro GenBank CDS 92210 92938 . + 1 Alias=Miro_164;ID=Miro_164.CDS;Name=Miro_164;Parent=Miro_164;obsolete_name=Miro_276;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 92203 92206 . - 1 ID=Miro_164.RBS;Name=Miro_164;Parent=Miro_164; -Miro feature gene 93449 93607 . - . ID=Miro_167; -Miro GenBank CDS 93449 93595 . - 1 ID=Miro_167.CDS;Name=Miro_167;Parent=Miro_167;obsolete_name=Miro_273;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 93605 93607 . - 1 Alias=Miro_167;ID=Miro_167.RBS;Name=Miro_167;Parent=Miro_167; -Miro feature gene 121485 123247 . + . ID=Miro_205; -Miro GenBank CDS 121496 123247 . + 1 Alias=Miro_205;ID=Miro_205.CDS;Name=Miro_205;Note=T4 fibritin-like;Parent=Miro_205;obsolete_name=Miro_235;product=neck whisker protein; -Miro GenBank Shine_Dalgarno_sequence 121485 121489 . + 1 ID=Miro_205.RBS;Name=Miro_205;Parent=Miro_205; -Miro feature gene 93252 93463 . - . ID=Miro_166; -Miro GenBank CDS 93252 93452 . - 1 ID=Miro_166.CDS;Name=Miro_166;Parent=Miro_166;obsolete_name=Miro_274;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 93461 93463 . - 1 Alias=Miro_166;ID=Miro_166.RBS;Name=Miro_166;Parent=Miro_166; -Miro feature gene 30315 30571 . - . ID=Miro_49; -Miro GenBank CDS 30315 30560 . - 1 ID=Miro_49.CDS;Name=Miro_49;Parent=Miro_49;obsolete_name=Miro_115;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 30569 30571 . - 1 Alias=Miro_49;ID=Miro_49.RBS;Name=Miro_49;Parent=Miro_49; -Miro feature gene 29659 30330 . - . ID=Miro_48; -Miro GenBank CDS 29659 30318 . - 1 ID=Miro_48.CDS;Name=Miro_48;Note=T4 gp59-like;Parent=Miro_48;obsolete_name=Miro_116;product=helicase assembly protein; -Miro GenBank Shine_Dalgarno_sequence 30328 30330 . - 1 Alias=Miro_48;ID=Miro_48.RBS;Name=Miro_48;Parent=Miro_48; -Miro GenBank DNA 1 176055 . . 1 Alias=Miro;ID=Miro;Name=Miro;date=01-JAN-1980; -Miro feature gene 70714 71046 . - . ID=Miro_118; -Miro GenBank CDS 70714 71034 . - 1 ID=Miro_118.CDS;Name=Miro_118;Parent=Miro_118;obsolete_name=Miro_046;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 71044 71046 . - 1 Alias=Miro_118;ID=Miro_118.RBS;Name=Miro_118;Parent=Miro_118; -Miro feature gene 71034 71561 . - . ID=Miro_119; -Miro GenBank CDS 71034 71549 . - 1 ID=Miro_119.CDS;Name=Miro_119;Parent=Miro_119;obsolete_name=Miro_045;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 71558 71561 . - 1 Alias=Miro_119;ID=Miro_119.RBS;Name=Miro_119;Parent=Miro_119; -Miro feature gene 25310 25609 . - . ID=Miro_41; -Miro GenBank CDS 25310 25597 . - 1 ID=Miro_41.CDS;Name=Miro_41;Parent=Miro_41;obsolete_name=Miro_123;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 25606 25609 . - 1 Alias=Miro_41;ID=Miro_41.RBS;Name=Miro_41;Parent=Miro_41; -Miro feature gene 24984 25325 . - . ID=Miro_40; -Miro GenBank CDS 24984 25313 . - 1 ID=Miro_40.CDS;Name=Miro_40;Parent=Miro_40;obsolete_name=Miro_124;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 25321 25325 . - 1 Alias=Miro_40;ID=Miro_40.RBS;Name=Miro_40;Parent=Miro_40; -Miro feature gene 26032 26607 . - . ID=Miro_43; -Miro GenBank CDS 26032 26595 . - 1 ID=Miro_43.CDS;Name=Miro_43;Parent=Miro_43;obsolete_name=Miro_121;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 26603 26607 . - 1 Alias=Miro_43;ID=Miro_43.RBS;Name=Miro_43;Parent=Miro_43; -Miro feature gene 25666 26036 . - . ID=Miro_42; -Miro GenBank CDS 25666 26028 . - 1 ID=Miro_42.CDS;Name=Miro_42;Note=T4 RegA-like;Parent=Miro_42;obsolete_name=Miro_122;product=translational repressor protein; -Miro GenBank Shine_Dalgarno_sequence 26034 26036 . - 1 Alias=Miro_42;ID=Miro_42.RBS;Name=Miro_42;Parent=Miro_42; -Miro feature gene 27655 28329 . - . ID=Miro_45; -Miro GenBank CDS 27655 28320 . - 1 ID=Miro_45.CDS;Name=Miro_45;Note=T4-like;Parent=Miro_45;obsolete_name=Miro_119;product=DNA polymerase processivity component; -Miro GenBank Shine_Dalgarno_sequence 28327 28329 . - 1 Alias=Miro_45;ID=Miro_45.RBS;Name=Miro_45;Parent=Miro_45; -Miro feature gene 26598 27605 . - . ID=Miro_44; -Miro GenBank CDS 26598 27596 . - 1 ID=Miro_44.CDS;Name=Miro_44;Note=T4 gp44-like;Parent=Miro_44;obsolete_name=Miro_120;product=sliding-clamp-loader subunit; -Miro GenBank Shine_Dalgarno_sequence 27602 27605 . - 1 Alias=Miro_44;ID=Miro_44.RBS;Name=Miro_44;Parent=Miro_44; -Miro feature gene 28672 29656 . - . ID=Miro_47; -Miro GenBank CDS 28672 29643 . - 1 ID=Miro_47.CDS;Name=Miro_47;Note=T4 gp32-like;Parent=Miro_47;obsolete_name=Miro_117;product=ssDNA-binding protein; -Miro GenBank Shine_Dalgarno_sequence 29654 29656 . - 1 Alias=Miro_47;ID=Miro_47.RBS;Name=Miro_47;Parent=Miro_47; -Miro feature gene 28347 28628 . - . ID=Miro_46; -Miro GenBank CDS 28347 28616 . - 1 ID=Miro_46.CDS;Name=Miro_46;Note=T4-like;Parent=Miro_46;obsolete_name=Miro_118;product=RNA polymerase binding protein; -Miro GenBank Shine_Dalgarno_sequence 28626 28628 . - 1 Alias=Miro_46;ID=Miro_46.RBS;Name=Miro_46;Parent=Miro_46; -Miro feature gene 159724 160702 . + . ID=Miro_258; -Miro GenBank CDS 159737 160702 . + 1 Alias=Miro_258;ID=Miro_258.CDS;Name=Miro_258;Parent=Miro_258;obsolete_name=Miro_182;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 159724 159726 . + 1 ID=Miro_258.RBS;Name=Miro_258;Parent=Miro_258; -Miro feature gene 165793 166927 . + . ID=Miro_263; -Miro GenBank CDS 165803 166927 . + 1 Alias=Miro_263;ID=Miro_263.CDS;Name=Miro_263;Parent=Miro_263;obsolete_name=Miro_177;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 165793 165796 . + 1 ID=Miro_263.RBS;Name=Miro_263;Parent=Miro_263; -Miro feature gene 126351 128186 . + . ID=Miro_210; -Miro GenBank CDS 126366 128186 . + 1 Alias=Miro_210;ID=Miro_210.CDS;Name=Miro_210;Note=T4 gp17-like;Parent=Miro_210;obsolete_name=Miro_230;product=terminase%2C large subunit; -Miro GenBank Shine_Dalgarno_sequence 126351 126353 . + 1 ID=Miro_210.RBS;Name=Miro_210;Parent=Miro_210; -Miro feature gene 34191 34491 . + . ID=Miro_56; -Miro GenBank CDS 34204 34491 . + 1 Alias=Miro_56;ID=Miro_56.CDS;Name=Miro_56;Parent=Miro_56;obsolete_name=Miro_108;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 34191 34195 . + 1 ID=Miro_56.RBS;Name=Miro_56;Parent=Miro_56; -Miro feature gene 34465 36172 . + . ID=Miro_57; -Miro GenBank CDS 34475 36172 . + 1 Alias=Miro_57;ID=Miro_57.CDS;Name=Miro_57;Parent=Miro_57;obsolete_name=Miro_107;product=methyl methanesulphonate-sensitivity protein; -Miro GenBank Shine_Dalgarno_sequence 34465 34468 . + 1 ID=Miro_57.RBS;Name=Miro_57;Parent=Miro_57; -Miro feature gene 32797 33134 . + . ID=Miro_54; -Miro GenBank CDS 32808 33134 . + 1 Alias=Miro_54;ID=Miro_54.CDS;Name=Miro_54;Parent=Miro_54;obsolete_name=Miro_110;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 32797 32800 . + 1 ID=Miro_54.RBS;Name=Miro_54;Parent=Miro_54; -Miro feature gene 33173 34217 . + . ID=Miro_55; -Miro GenBank CDS 33186 34217 . + 1 Alias=Miro_55;ID=Miro_55.CDS;Name=Miro_55;Note=T4 exonuclease subunit 1-like;Parent=Miro_55;obsolete_name=Miro_109;product=exonuclease; -Miro GenBank Shine_Dalgarno_sequence 33173 33175 . + 1 ID=Miro_55.RBS;Name=Miro_55;Parent=Miro_55; -Miro feature gene 32068 32603 . + . ID=Miro_52; -Miro GenBank CDS 32076 32603 . + 1 Alias=Miro_52;ID=Miro_52.CDS;Name=Miro_52;Parent=Miro_52;obsolete_name=Miro_112;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 32068 32070 . + 1 ID=Miro_52.RBS;Name=Miro_52;Parent=Miro_52; -Miro feature gene 32588 32815 . + . ID=Miro_53; -Miro GenBank CDS 32600 32815 . + 1 Alias=Miro_53;ID=Miro_53.CDS;Name=Miro_53;Parent=Miro_53;obsolete_name=Miro_111;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 32588 32590 . + 1 ID=Miro_53.RBS;Name=Miro_53;Parent=Miro_53; -Miro feature gene 30564 30838 . - . ID=Miro_50; -Miro GenBank CDS 30564 30827 . - 1 ID=Miro_50.CDS;Name=Miro_50;Note=T4-like;Parent=Miro_50;obsolete_name=Miro_114;product=dsDNA-binding protein; -Miro GenBank Shine_Dalgarno_sequence 30834 30838 . - 1 Alias=Miro_50;ID=Miro_50.RBS;Name=Miro_50;Parent=Miro_50; -Miro feature gene 30837 31781 . - . ID=Miro_51; -Miro GenBank CDS 30837 31772 . - 1 ID=Miro_51.CDS;Name=Miro_51;Note=T4 RNase H-like;Parent=Miro_51;obsolete_name=Miro_113;product=5'-3' exonuclease; -Miro GenBank Shine_Dalgarno_sequence 31778 31781 . - 1 Alias=Miro_51;ID=Miro_51.RBS;Name=Miro_51;Parent=Miro_51; -Miro feature gene 36162 36363 . + . ID=Miro_58; -Miro GenBank CDS 36172 36363 . + 1 Alias=Miro_58;ID=Miro_58.CDS;Name=Miro_58;Parent=Miro_58;obsolete_name=Miro_106;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 36162 36166 . + 1 ID=Miro_58.RBS;Name=Miro_58;Parent=Miro_58; -Miro feature gene 36425 38146 . + . ID=Miro_59; -Miro GenBank CDS 36437 38146 . + 1 Alias=Miro_59;ID=Miro_59.CDS;Name=Miro_59;Note=contains DNAJ domain;Parent=Miro_59;obsolete_name=Miro_105;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 36425 36428 . + 1 ID=Miro_59.RBS;Name=Miro_59;Parent=Miro_59; -Miro feature gene 65396 65799 . + . ID=Miro_109; -Miro GenBank CDS 65407 65799 . + 1 Alias=Miro_109;ID=Miro_109.CDS;Name=Miro_109;Note=T4-like;Parent=Miro_109;obsolete_name=Miro_055;product=tail lysozyme; -Miro GenBank Shine_Dalgarno_sequence 65396 65399 . + 1 ID=Miro_109.RBS;Name=Miro_109;Parent=Miro_109; -Miro feature gene 64840 65406 . + . ID=Miro_108; -Miro GenBank CDS 64852 65406 . + 1 Alias=Miro_108;ID=Miro_108.CDS;Name=Miro_108;Note=T4 gp26/gp51-like;Parent=Miro_108;obsolete_name=Miro_056;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 64840 64843 . + 1 ID=Miro_108.RBS;Name=Miro_108;Parent=Miro_108; -Miro feature gene 64103 64855 . + . ID=Miro_107; -Miro GenBank CDS 64112 64855 . + 1 Alias=Miro_107;ID=Miro_107.CDS;Name=Miro_107;Note=T4 gp26/gp51-like;Parent=Miro_107;obsolete_name=Miro_057;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 64103 64106 . + 1 ID=Miro_107.RBS;Name=Miro_107;Parent=Miro_107; -Miro feature gene 63210 64083 . + . ID=Miro_106; -Miro GenBank CDS 63220 64083 . + 1 Alias=Miro_106;ID=Miro_106.CDS;Name=Miro_106;Note=T4 gp19-like;Parent=Miro_106;obsolete_name=Miro_058;product=tail tube protein; -Miro GenBank Shine_Dalgarno_sequence 63210 63214 . + 1 ID=Miro_106.RBS;Name=Miro_106;Parent=Miro_106; -Miro feature gene 62126 63210 . + . ID=Miro_105; -Miro GenBank CDS 62137 63210 . + 1 Alias=Miro_105;ID=Miro_105.CDS;Name=Miro_105;Note=T4 gp48-like;Parent=Miro_105;obsolete_name=Miro_059;product=tail tube assembly protein; -Miro GenBank Shine_Dalgarno_sequence 62126 62129 . + 1 ID=Miro_105.RBS;Name=Miro_105;Parent=Miro_105; -Miro feature gene 60343 62126 . + . ID=Miro_104; -Miro GenBank CDS 60354 62126 . + 1 Alias=Miro_104;ID=Miro_104.CDS;Name=Miro_104;Parent=Miro_104;obsolete_name=Miro_060;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 60343 60345 . + 1 ID=Miro_104.RBS;Name=Miro_104;Parent=Miro_104; -Miro feature gene 59767 60351 . + . ID=Miro_103; -Miro GenBank CDS 59776 60351 . + 1 Alias=Miro_103;ID=Miro_103.CDS;Name=Miro_103;Note=T4 gp28-like;Parent=Miro_103;obsolete_name=Miro_061;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 59767 59770 . + 1 ID=Miro_103.RBS;Name=Miro_103;Parent=Miro_103; -Miro feature gene 58597 59719 . - . ID=Miro_102; -Miro GenBank CDS 58597 59706 . - 1 ID=Miro_102.CDS;Name=Miro_102;Note=T4 gp27-like;Parent=Miro_102;obsolete_name=Miro_062;product=baseplate structural protein; -Miro GenBank Shine_Dalgarno_sequence 59714 59719 . - 1 Alias=Miro_102;ID=Miro_102.RBS;Name=Miro_102;Parent=Miro_102; -Miro feature gene 58210 58600 . + . ID=Miro_101; -Miro GenBank CDS 58223 58600 . + 1 Alias=Miro_101;ID=Miro_101.CDS;Name=Miro_101;Parent=Miro_101;obsolete_name=Miro_063;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 58210 58213 . + 1 ID=Miro_101.RBS;Name=Miro_101;Parent=Miro_101; -Miro feature gene 57934 58236 . + . ID=Miro_100; -Miro GenBank CDS 57946 58236 . + 1 Alias=Miro_100;ID=Miro_100.CDS;Name=Miro_100;Parent=Miro_100;obsolete_name=Miro_064;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 57934 57936 . + 1 ID=Miro_100.RBS;Name=Miro_100;Parent=Miro_100; -Miro feature gene 142768 143313 . + . ID=Miro_228; -Miro GenBank CDS 142780 143313 . + 1 Alias=Miro_228;ID=Miro_228.CDS;Name=Miro_228;Note=contains Ig-like fold;Parent=Miro_228;obsolete_name=Miro_212;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 142768 142772 . + 1 ID=Miro_228.RBS;Name=Miro_228;Parent=Miro_228; -Miro feature gene 143314 143599 . + . ID=Miro_229; -Miro GenBank CDS 143324 143599 . + 1 Alias=Miro_229;ID=Miro_229.CDS;Name=Miro_229;Parent=Miro_229;obsolete_name=Miro_211;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 143314 143317 . + 1 ID=Miro_229.RBS;Name=Miro_229;Parent=Miro_229; -Miro feature gene 138844 139028 . + . ID=Miro_222; -Miro GenBank CDS 138852 139028 . + 1 Alias=Miro_222;ID=Miro_222.CDS;Name=Miro_222;Parent=Miro_222;obsolete_name=Miro_218;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 138844 138846 . + 1 ID=Miro_222.RBS;Name=Miro_222;Parent=Miro_222; -Miro feature gene 139303 139545 . - . ID=Miro_223; -Miro GenBank CDS 139303 139536 . - 1 ID=Miro_223.CDS;Name=Miro_223;Note=T4 UvsW-like;Parent=Miro_223;obsolete_name=Miro_217;product=ATP-dependent DNA helicase; -Miro GenBank Shine_Dalgarno_sequence 139542 139545 . - 1 Alias=Miro_223;ID=Miro_223.RBS;Name=Miro_223;Parent=Miro_223; -Miro feature gene 136828 138128 . + . ID=Miro_220; -Miro GenBank CDS 136839 138128 . + 1 Alias=Miro_220;ID=Miro_220.CDS;Name=Miro_220;Note=T4 gp23/gp24-like;Parent=Miro_220;obsolete_name=Miro_220;product=major capsid protein; -Miro GenBank Shine_Dalgarno_sequence 136828 136831 . + 1 ID=Miro_220.RBS;Name=Miro_220;Parent=Miro_220; -Miro feature gene 138424 138852 . + . ID=Miro_221; -Miro GenBank CDS 138433 138852 . + 1 Alias=Miro_221;ID=Miro_221.CDS;Name=Miro_221;Parent=Miro_221;obsolete_name=Miro_219;product=UvsY recombination protein; -Miro GenBank Shine_Dalgarno_sequence 138424 138426 . + 1 ID=Miro_221.RBS;Name=Miro_221;Parent=Miro_221; -Miro feature gene 141819 142142 . + . ID=Miro_226; -Miro GenBank CDS 141831 142142 . + 1 Alias=Miro_226;ID=Miro_226.CDS;Name=Miro_226;Parent=Miro_226;obsolete_name=Miro_214;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 141819 141822 . + 1 ID=Miro_226.RBS;Name=Miro_226;Parent=Miro_226; -Miro feature gene 142173 142751 . + . ID=Miro_227; -Miro GenBank CDS 142182 142751 . + 1 Alias=Miro_227;ID=Miro_227.CDS;Name=Miro_227;Note=contains heat shock protein DNAJ domain;Parent=Miro_227;obsolete_name=Miro_213;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 142173 142176 . + 1 ID=Miro_227.RBS;Name=Miro_227;Parent=Miro_227; -Miro feature gene 139545 141056 . - . ID=Miro_224; -Miro GenBank CDS 139545 141044 . - 1 ID=Miro_224.CDS;Name=Miro_224;Note=contains helicase superfamily and ATP-binding domains;Parent=Miro_224;obsolete_name=Miro_216;product=DNA helicase; -Miro GenBank Shine_Dalgarno_sequence 141053 141056 . - 1 Alias=Miro_224;ID=Miro_224.RBS;Name=Miro_224;Parent=Miro_224; -Miro feature gene 141104 141738 . + . ID=Miro_225; -Miro GenBank CDS 141115 141738 . + 1 Alias=Miro_225;ID=Miro_225.CDS;Name=Miro_225;Parent=Miro_225;obsolete_name=Miro_215;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 141104 141107 . + 1 ID=Miro_225.RBS;Name=Miro_225;Parent=Miro_225; -Miro feature gene 154043 154534 . + . ID=Miro_248; -Miro GenBank CDS 154052 154534 . + 1 Alias=Miro_248;ID=Miro_248.CDS;Name=Miro_248;Note=T4 gp49-like;Parent=Miro_248;obsolete_name=Miro_192;product=recombination endonuclease; -Miro GenBank Shine_Dalgarno_sequence 154043 154045 . + 1 ID=Miro_248.RBS;Name=Miro_248;Parent=Miro_248; -Miro feature gene 154521 154857 . + . ID=Miro_249; -Miro GenBank CDS 154531 154857 . + 1 Alias=Miro_249;ID=Miro_249.CDS;Name=Miro_249;Parent=Miro_249;obsolete_name=Miro_191;product=hypothetical novel; -Miro GenBank Shine_Dalgarno_sequence 154521 154523 . + 1 ID=Miro_249.RBS;Name=Miro_249;Parent=Miro_249; -Miro feature gene 149229 149828 . + . ID=Miro_240; -Miro GenBank CDS 149247 149828 . + 1 Alias=Miro_240;ID=Miro_240.CDS;Name=Miro_240;Parent=Miro_240;obsolete_name=Miro_200;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 149229 149232 . + 1 ID=Miro_240.RBS;Name=Miro_240;Parent=Miro_240; -Miro feature gene 149813 150346 . + . ID=Miro_241; -Miro GenBank CDS 149822 150346 . + 1 Alias=Miro_241;ID=Miro_241.CDS;Name=Miro_241;Parent=Miro_241;obsolete_name=Miro_199;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 149813 149815 . + 1 ID=Miro_241.RBS;Name=Miro_241;Parent=Miro_241; -Miro feature gene 150412 150684 . + . ID=Miro_242; -Miro GenBank CDS 150424 150684 . + 1 Alias=Miro_242;ID=Miro_242.CDS;Name=Miro_242;Parent=Miro_242;obsolete_name=Miro_198;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 150412 150415 . + 1 ID=Miro_242.RBS;Name=Miro_242;Parent=Miro_242; -Miro feature gene 150684 151143 . + . ID=Miro_243; -Miro GenBank CDS 150694 151143 . + 1 Alias=Miro_243;ID=Miro_243.CDS;Name=Miro_243;Parent=Miro_243;obsolete_name=Miro_197;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 150684 150687 . + 1 ID=Miro_243.RBS;Name=Miro_243;Parent=Miro_243; -Miro feature gene 151160 152604 . + . ID=Miro_244; -Miro GenBank CDS 151171 152604 . + 1 Alias=Miro_244;ID=Miro_244.CDS;Name=Miro_244;Note=contains quinolinate phosphoribosyl transferase domain;Parent=Miro_244;obsolete_name=Miro_196;product=nicotinamide phosphoribosyl transferase; -Miro GenBank Shine_Dalgarno_sequence 151160 151163 . + 1 ID=Miro_244.RBS;Name=Miro_244;Parent=Miro_244; -Miro feature gene 152576 152893 . + . ID=Miro_245; -Miro GenBank CDS 152591 152893 . + 1 Alias=Miro_245;ID=Miro_245.CDS;Name=Miro_245;Parent=Miro_245;obsolete_name=Miro_195;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 152576 152579 . + 1 ID=Miro_245.RBS;Name=Miro_245;Parent=Miro_245; -Miro feature gene 153004 153741 . + . ID=Miro_246; -Miro GenBank CDS 153016 153741 . + 1 Alias=Miro_246;ID=Miro_246.CDS;Name=Miro_246;Note=T4-like;Parent=Miro_246;obsolete_name=Miro_194;product=DNA adenine methylase; -Miro GenBank Shine_Dalgarno_sequence 153004 153006 . + 1 ID=Miro_246.RBS;Name=Miro_246;Parent=Miro_246; -Miro feature gene 153741 154019 . + . ID=Miro_247; -Miro GenBank CDS 153750 154019 . + 1 Alias=Miro_247;ID=Miro_247.CDS;Name=Miro_247;Note=T4 NrdC-like;Parent=Miro_247;obsolete_name=Miro_193;product=glutaredoxin; -Miro GenBank Shine_Dalgarno_sequence 153741 153744 . + 1 ID=Miro_247.RBS;Name=Miro_247;Parent=Miro_247; -Miro feature gene 12732 14075 . - . ID=Miro_23; -Miro GenBank CDS 12732 14060 . - 1 ID=Miro_23.CDS;Name=Miro_23;Note=contains P-loop containing nucleoside triphosphate hydrolase domain;Parent=Miro_23;obsolete_name=Miro_141;product=DNA helicase; -Miro GenBank Shine_Dalgarno_sequence 14073 14075 . - 1 Alias=Miro_23;ID=Miro_23.RBS;Name=Miro_23;Parent=Miro_23; -Miro feature gene 12399 12716 . - . ID=Miro_22; -Miro GenBank CDS 12399 12707 . - 1 ID=Miro_22.CDS;Name=Miro_22;Parent=Miro_22;obsolete_name=Miro_142;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 12713 12716 . - 1 Alias=Miro_22;ID=Miro_22.RBS;Name=Miro_22;Parent=Miro_22; -Miro feature gene 12114 12410 . - . ID=Miro_21; -Miro GenBank CDS 12114 12398 . - 1 ID=Miro_21.CDS;Name=Miro_21;Parent=Miro_21;obsolete_name=Miro_143;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 12407 12410 . - 1 Alias=Miro_21;ID=Miro_21.RBS;Name=Miro_21;Parent=Miro_21; -Miro feature gene 11728 12126 . - . ID=Miro_20; -Miro GenBank CDS 11728 12117 . - 1 ID=Miro_20.CDS;Name=Miro_20;Parent=Miro_20;obsolete_name=Miro_144;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 12123 12126 . - 1 Alias=Miro_20;ID=Miro_20.RBS;Name=Miro_20;Parent=Miro_20; -Miro feature gene 15073 16108 . - . ID=Miro_27; -Miro GenBank CDS 15073 16098 . - 1 ID=Miro_27.CDS;Name=Miro_27;Note=T4-like;Parent=Miro_27;obsolete_name=Miro_137;product=DNA primase; -Miro GenBank Shine_Dalgarno_sequence 16104 16108 . - 1 Alias=Miro_27;ID=Miro_27.RBS;Name=Miro_27;Parent=Miro_27; -Miro feature gene 14529 15074 . - . ID=Miro_26; -Miro GenBank CDS 14529 15065 . - 1 ID=Miro_26.CDS;Name=Miro_26;Parent=Miro_26;obsolete_name=Miro_138;product=dCTP pyrophosphatase; -Miro GenBank Shine_Dalgarno_sequence 15072 15074 . - 1 Alias=Miro_26;ID=Miro_26.RBS;Name=Miro_26;Parent=Miro_26; -Miro feature gene 14344 14545 . - . ID=Miro_25; -Miro GenBank CDS 14344 14529 . - 1 ID=Miro_25.CDS;Name=Miro_25;Parent=Miro_25;obsolete_name=Miro_139;product=hypothetical conserved;tmhelix=2TMDs (7-29%2C 39-57) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 14543 14545 . - 1 Alias=Miro_25;ID=Miro_25.RBS;Name=Miro_25;Parent=Miro_25; -Miro feature gene 14057 14358 . - . ID=Miro_24; -Miro GenBank CDS 14057 14347 . - 1 ID=Miro_24.CDS;Name=Miro_24;Parent=Miro_24;obsolete_name=Miro_140;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 14355 14358 . - 1 Alias=Miro_24;ID=Miro_24.RBS;Name=Miro_24;Parent=Miro_24; -Miro feature gene 16418 16647 . - . ID=Miro_29; -Miro GenBank CDS 16418 16636 . - 1 ID=Miro_29.CDS;Name=Miro_29;Parent=Miro_29;obsolete_name=Miro_135;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 16644 16647 . - 1 Alias=Miro_29;ID=Miro_29.RBS;Name=Miro_29;Parent=Miro_29; -Miro feature gene 16102 16375 . - . ID=Miro_28; -Miro GenBank CDS 16102 16362 . - 1 ID=Miro_28.CDS;Name=Miro_28;Note=contains zinc finger domain;Parent=Miro_28;obsolete_name=Miro_136;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 16370 16375 . - 1 Alias=Miro_28;ID=Miro_28.RBS;Name=Miro_28;Parent=Miro_28; -Miro feature gene 76662 77733 . - . ID=Miro_132; -Miro GenBank CDS 76662 77723 . - 1 ID=Miro_132.CDS;Name=Miro_132;Parent=Miro_132;obsolete_name=Miro_032;product=NUDIX hydrolase; -Miro GenBank Shine_Dalgarno_sequence 77730 77733 . - 1 Alias=Miro_132;ID=Miro_132.RBS;Name=Miro_132;Parent=Miro_132; -Miro feature gene 77900 78824 . - . ID=Miro_133; -Miro GenBank CDS 77900 78814 . - 1 ID=Miro_133.CDS;Name=Miro_133;Parent=Miro_133;obsolete_name=Miro_031;product=hypothetical conserved;signal=signal peptidase I cleavage site 34-35; -Miro GenBank Shine_Dalgarno_sequence 78822 78824 . - 1 Alias=Miro_133;ID=Miro_133.RBS;Name=Miro_133;Parent=Miro_133; -Miro feature gene 76025 76309 . - . ID=Miro_130; -Miro GenBank CDS 76025 76297 . - 1 ID=Miro_130.CDS;Name=Miro_130;Parent=Miro_130;obsolete_name=Miro_034;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 76307 76309 . - 1 Alias=Miro_130;ID=Miro_130.RBS;Name=Miro_130;Parent=Miro_130; -Miro feature gene 76294 76498 . - . ID=Miro_131; -Miro GenBank CDS 76294 76488 . - 1 ID=Miro_131.CDS;Name=Miro_131;Parent=Miro_131;obsolete_name=Miro_033;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 76495 76498 . - 1 Alias=Miro_131;ID=Miro_131.RBS;Name=Miro_131;Parent=Miro_131; -Miro feature gene 79668 80071 . - . ID=Miro_136; -Miro GenBank CDS 79668 80060 . - 1 ID=Miro_136.CDS;Name=Miro_136;Parent=Miro_136;obsolete_name=Miro_028;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 80067 80071 . - 1 Alias=Miro_136;ID=Miro_136.RBS;Name=Miro_136;Parent=Miro_136; -Miro feature gene 80077 80695 . - . ID=Miro_137; -Miro GenBank CDS 80077 80685 . - 1 ID=Miro_137.CDS;Name=Miro_137;Note=contains P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_137;obsolete_name=Miro_027;product=thymidine kinase; -Miro GenBank Shine_Dalgarno_sequence 80693 80695 . - 1 Alias=Miro_137;ID=Miro_137.RBS;Name=Miro_137;Parent=Miro_137; -Miro feature gene 78886 79317 . - . ID=Miro_134; -Miro GenBank CDS 78886 79308 . - 1 ID=Miro_134.CDS;Name=Miro_134;Parent=Miro_134;obsolete_name=Miro_030;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 79314 79317 . - 1 Alias=Miro_134;ID=Miro_134.RBS;Name=Miro_134;Parent=Miro_134; -Miro feature gene 79280 79572 . - . ID=Miro_135; -Miro GenBank CDS 79280 79561 . - 1 ID=Miro_135.CDS;Name=Miro_135;Parent=Miro_135;obsolete_name=Miro_029;product=hypothetical conserved;tmhelix=2TMDs (7-24%2C 39-61) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 79570 79572 . - 1 Alias=Miro_135;ID=Miro_135.RBS;Name=Miro_135;Parent=Miro_135; -Miro feature gene 80678 80889 . - . ID=Miro_138; -Miro GenBank CDS 80678 80875 . - 1 ID=Miro_138.CDS;Name=Miro_138;Parent=Miro_138;obsolete_name=Miro_026;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 80886 80889 . - 1 Alias=Miro_138;ID=Miro_138.RBS;Name=Miro_138;Parent=Miro_138; -Miro feature gene 80868 81097 . - . ID=Miro_139; -Miro GenBank CDS 80868 81083 . - 1 ID=Miro_139.CDS;Name=Miro_139;Parent=Miro_139;obsolete_name=Miro_025;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 81095 81097 . - 1 Alias=Miro_139;ID=Miro_139.RBS;Name=Miro_139;Parent=Miro_139; -Miro feature gene 128192 130197 . + . ID=Miro_211; -Miro GenBank CDS 128206 130197 . + 1 Alias=Miro_211;ID=Miro_211.CDS;Name=Miro_211;Note=T4 gp18-like;Parent=Miro_211;obsolete_name=Miro_229;product=tail sheath protein; -Miro GenBank Shine_Dalgarno_sequence 128192 128195 . + 1 ID=Miro_211.RBS;Name=Miro_211;Parent=Miro_211; -Miro feature gene 148228 149257 . + . ID=Miro_239; -Miro GenBank CDS 148238 149257 . + 1 Alias=Miro_239;ID=Miro_239.CDS;Name=Miro_239;Note=T4 Rnl2-like;Parent=Miro_239;obsolete_name=Miro_201;product=RNA ligase; -Miro GenBank Shine_Dalgarno_sequence 148228 148231 . + 1 ID=Miro_239.RBS;Name=Miro_239;Parent=Miro_239; -Miro feature gene 99939 100090 . - . ID=Miro_184; -Miro GenBank CDS 99939 100079 . - 1 ID=Miro_184.CDS;Name=Miro_184;Parent=Miro_184;obsolete_name=Miro_256;product=hypothetical conserved;tmhelix=1 TMD (19-41) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 100085 100090 . - 1 Alias=Miro_184;ID=Miro_184.RBS;Name=Miro_184;Parent=Miro_184; -Miro feature gene 146845 147029 . + . ID=Miro_235; -Miro GenBank CDS 146853 147029 . + 1 Alias=Miro_235;ID=Miro_235.CDS;Name=Miro_235;Parent=Miro_235;obsolete_name=Miro_205;product=hypothetical conserved;tmhelix=2TMDs (5-27%2C 31-50) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 146845 146847 . + 1 ID=Miro_235.RBS;Name=Miro_235;Parent=Miro_235; -Miro feature gene 146530 146856 . + . ID=Miro_234; -Miro GenBank CDS 146539 146856 . + 1 Alias=Miro_234;ID=Miro_234.CDS;Name=Miro_234;Parent=Miro_234;obsolete_name=Miro_206;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 146530 146533 . + 1 ID=Miro_234.RBS;Name=Miro_234;Parent=Miro_234; -Miro feature gene 147343 147710 . + . ID=Miro_237; -Miro GenBank CDS 147354 147710 . + 1 Alias=Miro_237;ID=Miro_237.CDS;Name=Miro_237;Parent=Miro_237;obsolete_name=Miro_203;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 147343 147346 . + 1 ID=Miro_237.RBS;Name=Miro_237;Parent=Miro_237; -Miro feature gene 147016 147352 . + . ID=Miro_236; -Miro GenBank CDS 147026 147352 . + 1 Alias=Miro_236;ID=Miro_236.CDS;Name=Miro_236;Parent=Miro_236;obsolete_name=Miro_204;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 147016 147019 . + 1 ID=Miro_236.RBS;Name=Miro_236;Parent=Miro_236; -Miro feature gene 144163 144638 . - . ID=Miro_231; -Miro GenBank CDS 144163 144627 . - 1 ID=Miro_231.CDS;Name=Miro_231;Note=contains HAD-like domain;Parent=Miro_231;obsolete_name=Miro_209;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 144635 144638 . - 1 Alias=Miro_231;ID=Miro_231.RBS;Name=Miro_231;Parent=Miro_231; -Miro feature gene 143604 144131 . + . ID=Miro_230; -Miro GenBank CDS 143613 144131 . + 1 Alias=Miro_230;ID=Miro_230.CDS;Name=Miro_230;Parent=Miro_230;obsolete_name=Miro_210;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 143604 143606 . + 1 ID=Miro_230.RBS;Name=Miro_230;Parent=Miro_230; -Miro feature gene 145620 146506 . + . ID=Miro_233; -Miro GenBank CDS 145631 146506 . + 1 Alias=Miro_233;ID=Miro_233.CDS;Name=Miro_233;Parent=Miro_233;obsolete_name=Miro_207;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 145620 145623 . + 1 ID=Miro_233.RBS;Name=Miro_233;Parent=Miro_233; -Miro feature gene 144677 145528 . - . ID=Miro_232; -Miro GenBank CDS 144677 145516 . - 1 ID=Miro_232.CDS;Name=Miro_232;Note=contains P-loop NTPase and zeta toxin domains;Parent=Miro_232;obsolete_name=Miro_208;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 145525 145528 . - 1 Alias=Miro_232;ID=Miro_232.RBS;Name=Miro_232;Parent=Miro_232; -Miro feature gene 160735 161413 . + . ID=Miro_259; -Miro GenBank CDS 160745 161413 . + 1 Alias=Miro_259;ID=Miro_259.CDS;Name=Miro_259;Parent=Miro_259;obsolete_name=Miro_181;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 160735 160739 . + 1 ID=Miro_259.RBS;Name=Miro_259;Parent=Miro_259; -Miro feature gene 65834 66298 . - . ID=Miro_110; -Miro GenBank CDS 65834 66289 . - 1 ID=Miro_110.CDS;Name=Miro_110;Parent=Miro_110;obsolete_name=Miro_054;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 66295 66298 . - 1 Alias=Miro_110;ID=Miro_110.RBS;Name=Miro_110;Parent=Miro_110; -Miro GenBank CDS 157781 157987 . + 1 ID=Miro_253;Name=Miro_253;obsolete_name=Miro_187;product=hypothetical conserved; -Miro feature gene 157275 157781 . + . ID=Miro_252; -Miro GenBank CDS 157287 157781 . + 1 Alias=Miro_252;ID=Miro_252.CDS;Name=Miro_252;Parent=Miro_252;obsolete_name=Miro_188;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 157275 157278 . + 1 ID=Miro_252.RBS;Name=Miro_252;Parent=Miro_252; -Miro feature gene 157033 157287 . + . ID=Miro_251; -Miro GenBank CDS 157045 157287 . + 1 Alias=Miro_251;ID=Miro_251.CDS;Name=Miro_251;Parent=Miro_251;obsolete_name=Miro_189;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 157033 157037 . + 1 ID=Miro_251.RBS;Name=Miro_251;Parent=Miro_251; -Miro feature gene 154844 156977 . + . ID=Miro_250; -Miro GenBank CDS 154854 156977 . + 1 Alias=Miro_250;ID=Miro_250.CDS;Name=Miro_250;Note=T4-like%3B contains glycine radical domain;Parent=Miro_250;obsolete_name=Miro_190;product=anaerobic ribonucleoside-triphosphate reductase; -Miro GenBank Shine_Dalgarno_sequence 154844 154846 . + 1 ID=Miro_250.RBS;Name=Miro_250;Parent=Miro_250; -Miro feature gene 159166 159667 . + . ID=Miro_257; -Miro GenBank CDS 159176 159667 . + 1 Alias=Miro_257;ID=Miro_257.CDS;Name=Miro_257;Note=T4 NrdG-like;Parent=Miro_257;obsolete_name=Miro_183;product=ribonucleoside-triphosphate reductase activating protein; -Miro GenBank Shine_Dalgarno_sequence 159166 159169 . + 1 ID=Miro_257.RBS;Name=Miro_257;Parent=Miro_257; -Miro feature gene 158528 159179 . + . ID=Miro_256; -Miro GenBank CDS 158538 159179 . + 1 Alias=Miro_256;ID=Miro_256.CDS;Name=Miro_256;Note=contains nuclease associated modular 3 and winged helix-turn-helix DNA-binding domains;Parent=Miro_256;obsolete_name=Miro_184;product=homing endonuclease; -Miro GenBank Shine_Dalgarno_sequence 158528 158530 . + 1 ID=Miro_256.RBS;Name=Miro_256;Parent=Miro_256; -Miro feature gene 158309 158511 . + . ID=Miro_255; -Miro GenBank CDS 158320 158511 . + 1 Alias=Miro_255;ID=Miro_255.CDS;Name=Miro_255;Parent=Miro_255;obsolete_name=Miro_185;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 158309 158314 . + 1 ID=Miro_255.RBS;Name=Miro_255;Parent=Miro_255; -Miro feature gene 157997 158259 . + . ID=Miro_254; -Miro GenBank CDS 158008 158259 . + 1 Alias=Miro_254;ID=Miro_254.CDS;Name=Miro_254;Parent=Miro_254;obsolete_name=Miro_186;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 157997 158000 . + 1 ID=Miro_254.RBS;Name=Miro_254;Parent=Miro_254; -Miro feature gene 16633 17132 . - . ID=Miro_30; -Miro GenBank CDS 16633 17121 . - 1 ID=Miro_30.CDS;Name=Miro_30;Note=T4 gp23/gp24-like;Parent=Miro_30;obsolete_name=Miro_134;product=major capsid protein; -Miro GenBank Shine_Dalgarno_sequence 17130 17132 . - 1 Alias=Miro_30;ID=Miro_30.RBS;Name=Miro_30;Parent=Miro_30; -Miro feature gene 17127 17819 . - . ID=Miro_31; -Miro GenBank CDS 17127 17813 . - 1 ID=Miro_31.CDS;Name=Miro_31;Note=contains N-6 adenine-specific DNA methylase conserved site;Parent=Miro_31;obsolete_name=Miro_133;product=radical SAM protein; -Miro GenBank Shine_Dalgarno_sequence 17817 17819 . - 1 Alias=Miro_31;ID=Miro_31.RBS;Name=Miro_31;Parent=Miro_31; -Miro feature gene 17839 18240 . - . ID=Miro_32; -Miro GenBank CDS 17839 18231 . - 1 ID=Miro_32.CDS;Name=Miro_32;Parent=Miro_32;obsolete_name=Miro_132;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 18237 18240 . - 1 Alias=Miro_32;ID=Miro_32.RBS;Name=Miro_32;Parent=Miro_32; -Miro feature gene 18228 18475 . - . ID=Miro_33; -Miro GenBank CDS 18228 18464 . - 1 ID=Miro_33.CDS;Name=Miro_33;Parent=Miro_33;obsolete_name=Miro_131;product=hypothetical conserved;tmhelix=2TMDs (5-27%2C 38-60) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 18470 18475 . - 1 Alias=Miro_33;ID=Miro_33.RBS;Name=Miro_33;Parent=Miro_33; -Miro feature gene 18556 18822 . - . ID=Miro_34; -Miro GenBank CDS 18556 18810 . - 1 ID=Miro_34.CDS;Name=Miro_34;Parent=Miro_34;obsolete_name=Miro_130;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 18818 18822 . - 1 Alias=Miro_34;ID=Miro_34.RBS;Name=Miro_34;Parent=Miro_34; -Miro feature gene 18889 19168 . - . ID=Miro_35; -Miro GenBank CDS 18889 19158 . - 1 ID=Miro_35.CDS;Name=Miro_35;Parent=Miro_35;obsolete_name=Miro_129;product=hypothetical conserved;tmhelix=2TMDs (7-29%2C 44-66) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 19165 19168 . - 1 Alias=Miro_35;ID=Miro_35.RBS;Name=Miro_35;Parent=Miro_35; -Miro feature gene 19202 20648 . - . ID=Miro_36; -Miro GenBank CDS 19202 20638 . - 1 ID=Miro_36.CDS;Name=Miro_36;Note=T4 gp41-like;Parent=Miro_36;obsolete_name=Miro_128;product=DNA helicase; -Miro GenBank Shine_Dalgarno_sequence 20646 20648 . - 1 Alias=Miro_36;ID=Miro_36.RBS;Name=Miro_36;Parent=Miro_36; -Miro feature gene 20648 20978 . - . ID=Miro_37; -Miro GenBank CDS 20648 20968 . - 1 ID=Miro_37.CDS;Name=Miro_37;Note=T4 gp40-like;Parent=Miro_37;obsolete_name=Miro_127;product=head formation protein; -Miro GenBank Shine_Dalgarno_sequence 20975 20978 . - 1 Alias=Miro_37;ID=Miro_37.RBS;Name=Miro_37;Parent=Miro_37; -Miro feature gene 21006 22174 . - . ID=Miro_38; -Miro GenBank CDS 21006 22163 . - 1 ID=Miro_38.CDS;Name=Miro_38;Note=T4 RecA-like;Parent=Miro_38;obsolete_name=Miro_126;product=DNA recombination and repair protein;tmhelix=1 TMD (40-62) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 22172 22174 . - 1 Alias=Miro_38;ID=Miro_38.RBS;Name=Miro_38;Parent=Miro_38; -Miro feature gene 22238 24954 . - . ID=Miro_39; -Miro GenBank CDS 22238 24937 . - 1 ID=Miro_39.CDS;Name=Miro_39;Note=T4 gp43-like;Parent=Miro_39;obsolete_name=Miro_125;product=DNA polymerase; -Miro GenBank Shine_Dalgarno_sequence 24951 24954 . - 1 Alias=Miro_39;ID=Miro_39.RBS;Name=Miro_39;Parent=Miro_39; -Miro feature gene 101597 101867 . - . ID=Miro_188; -Miro GenBank CDS 101597 101857 . - 1 ID=Miro_188.CDS;Name=Miro_188;Parent=Miro_188;obsolete_name=Miro_252;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 101864 101867 . - 1 Alias=Miro_188;ID=Miro_188.RBS;Name=Miro_188;Parent=Miro_188; -Miro feature gene 73570 73827 . - . ID=Miro_125; -Miro GenBank CDS 73570 73815 . - 1 ID=Miro_125.CDS;Name=Miro_125;Parent=Miro_125;obsolete_name=Miro_039;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 73823 73827 . - 1 Alias=Miro_125;ID=Miro_125.RBS;Name=Miro_125;Parent=Miro_125; -Miro feature gene 66297 66533 . - . ID=Miro_111; -Miro GenBank CDS 66297 66521 . - 1 ID=Miro_111.CDS;Name=Miro_111;Parent=Miro_111;obsolete_name=Miro_053;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 66530 66533 . - 1 Alias=Miro_111;ID=Miro_111.RBS;Name=Miro_111;Parent=Miro_111; -Miro feature gene 74819 75206 . - . ID=Miro_127; -Miro GenBank CDS 74819 75196 . - 1 ID=Miro_127.CDS;Name=Miro_127;Parent=Miro_127;obsolete_name=Miro_037;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 75203 75206 . - 1 Alias=Miro_127;ID=Miro_127.RBS;Name=Miro_127;Parent=Miro_127; -Miro feature gene 73812 74832 . - . ID=Miro_126; -Miro GenBank CDS 73812 74819 . - 1 ID=Miro_126.CDS;Name=Miro_126;Note=T4 nrdC.11-like;Parent=Miro_126;obsolete_name=Miro_038;product=nucleotidyltransferase; -Miro GenBank Shine_Dalgarno_sequence 74829 74832 . - 1 Alias=Miro_126;ID=Miro_126.RBS;Name=Miro_126;Parent=Miro_126; -Miro feature gene 71861 72037 . - . ID=Miro_121; -Miro GenBank CDS 71861 72028 . - 1 ID=Miro_121.CDS;Name=Miro_121;Parent=Miro_121;obsolete_name=Miro_043;product=hypothetical conserved;tmhelix=2TMDs (9-26%2C 30-52) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 72034 72037 . - 1 Alias=Miro_121;ID=Miro_121.RBS;Name=Miro_121;Parent=Miro_121; -Miro feature gene 71577 71871 . - . ID=Miro_120; -Miro GenBank CDS 71577 71861 . - 1 ID=Miro_120.CDS;Name=Miro_120;Parent=Miro_120;obsolete_name=Miro_044;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 71868 71871 . - 1 Alias=Miro_120;ID=Miro_120.RBS;Name=Miro_120;Parent=Miro_120; -Miro feature gene 72390 73331 . - . ID=Miro_123; -Miro GenBank CDS 72390 73316 . - 1 ID=Miro_123.CDS;Name=Miro_123;Note=C-5 cytosine-specific active site;Parent=Miro_123;obsolete_name=Miro_041;product=cytosine-specific methyltransferase; -Miro GenBank Shine_Dalgarno_sequence 73329 73331 . - 1 Alias=Miro_123;ID=Miro_123.RBS;Name=Miro_123;Parent=Miro_123; -Miro feature gene 72068 72357 . - . ID=Miro_122; -Miro GenBank CDS 72068 72346 . - 1 ID=Miro_122.CDS;Name=Miro_122;Parent=Miro_122;obsolete_name=Miro_042;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 72354 72357 . - 1 Alias=Miro_122;ID=Miro_122.RBS;Name=Miro_122;Parent=Miro_122; -Miro feature gene 75417 76034 . - . ID=Miro_129; -Miro GenBank CDS 75417 76022 . - 1 ID=Miro_129.CDS;Name=Miro_129;Parent=Miro_129;obsolete_name=Miro_035;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 76031 76034 . - 1 Alias=Miro_129;ID=Miro_129.RBS;Name=Miro_129;Parent=Miro_129; -Miro feature gene 75193 75434 . - . ID=Miro_128; -Miro GenBank CDS 75193 75420 . - 1 ID=Miro_128.CDS;Name=Miro_128;Parent=Miro_128;obsolete_name=Miro_036;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 75430 75434 . - 1 Alias=Miro_128;ID=Miro_128.RBS;Name=Miro_128;Parent=Miro_128; -Miro feature gene 133686 134487 . + . ID=Miro_217; -Miro GenBank CDS 133699 134487 . + 1 Alias=Miro_217;ID=Miro_217.CDS;Name=Miro_217;Parent=Miro_217;obsolete_name=Miro_223;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 133686 133689 . + 1 ID=Miro_217.RBS;Name=Miro_217;Parent=Miro_217; -Miro feature gene 172795 173074 . - . ID=Miro_268; -Miro GenBank CDS 172795 173064 . - 1 ID=Miro_268.CDS;Name=Miro_268;Parent=Miro_268;obsolete_name=Miro_172;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 173071 173074 . - 1 Alias=Miro_268;ID=Miro_268.RBS;Name=Miro_268;Parent=Miro_268; -Miro feature gene 133007 133666 . + . ID=Miro_216; -Miro GenBank CDS 133019 133666 . + 1 Alias=Miro_216;ID=Miro_216.CDS;Name=Miro_216;Note=T4 gp21-like;Parent=Miro_216;obsolete_name=Miro_224;product=prohead core protein protease; -Miro GenBank Shine_Dalgarno_sequence 133007 133010 . + 1 ID=Miro_216.RBS;Name=Miro_216;Parent=Miro_216; -Miro feature gene 171490 172030 . + . ID=Miro_266; -Miro GenBank CDS 171503 172030 . + 1 Alias=Miro_266;ID=Miro_266.CDS;Name=Miro_266;Note=T2 gp38-like;Parent=Miro_266;obsolete_name=Miro_174;product=receptor-recognizing protein; -Miro GenBank Shine_Dalgarno_sequence 171490 171494 . + 1 ID=Miro_266.RBS;Name=Miro_266;Parent=Miro_266; -Miro feature gene 172135 172794 . + . ID=Miro_267; -Miro GenBank CDS 172147 172794 . + 1 Alias=Miro_267;ID=Miro_267.CDS;Name=Miro_267;Note=T4 gpT-like;Parent=Miro_267;obsolete_name=Miro_173;product=holin;tmhelix=1 TMD (29-47) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 172135 172137 . + 1 ID=Miro_267.RBS;Name=Miro_267;Parent=Miro_267; -Miro feature gene 166968 167645 . + . ID=Miro_264; -Miro GenBank CDS 166977 167645 . + 1 Alias=Miro_264;ID=Miro_264.CDS;Name=Miro_264;Note=T4 gp36-like;Parent=Miro_264;obsolete_name=Miro_176;product=tail fiber; -Miro GenBank Shine_Dalgarno_sequence 166968 166971 . + 1 ID=Miro_264.RBS;Name=Miro_264;Parent=Miro_264; -Miro feature gene 167645 171466 . + . ID=Miro_265; -Miro GenBank CDS 167654 171466 . + 1 Alias=Miro_265;ID=Miro_265.CDS;Name=Miro_265;Parent=Miro_265;obsolete_name=Miro_175;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 167645 167648 . + 1 ID=Miro_265.RBS;Name=Miro_265;Parent=Miro_265; -Miro feature gene 162017 165803 . + . ID=Miro_262; -Miro GenBank CDS 162030 165803 . + 1 Alias=Miro_262;ID=Miro_262.CDS;Name=Miro_262;Parent=Miro_262;obsolete_name=Miro_178;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 162017 162020 . + 1 ID=Miro_262.RBS;Name=Miro_262;Parent=Miro_262; -Miro feature gene 132602 133016 . + . ID=Miro_215; -Miro GenBank CDS 132612 133016 . + 1 Alias=Miro_215;ID=Miro_215.CDS;Name=Miro_215;Note=T4 gp68-like;Parent=Miro_215;obsolete_name=Miro_225;product=prohead core protein; -Miro GenBank Shine_Dalgarno_sequence 132602 132606 . + 1 ID=Miro_215.RBS;Name=Miro_215;Parent=Miro_215; -Miro feature gene 161360 161654 . + . ID=Miro_260; -Miro GenBank CDS 161373 161654 . + 1 Alias=Miro_260;ID=Miro_260.CDS;Name=Miro_260;Note=T4 NrdC-like;Parent=Miro_260;obsolete_name=Miro_180;product=glutaredoxin; -Miro GenBank Shine_Dalgarno_sequence 161360 161363 . + 1 ID=Miro_260.RBS;Name=Miro_260;Parent=Miro_260; -Miro feature gene 161642 161950 . + . ID=Miro_261; -Miro GenBank CDS 161651 161950 . + 1 Alias=Miro_261;ID=Miro_261.CDS;Name=Miro_261;Note=T4 gp55.2-like;Parent=Miro_261;obsolete_name=Miro_179;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 161642 161645 . + 1 ID=Miro_261.RBS;Name=Miro_261;Parent=Miro_261; -Miro feature gene 132347 132603 . + . ID=Miro_214; -Miro GenBank CDS 132361 132603 . + 1 Alias=Miro_214;ID=Miro_214.CDS;Name=Miro_214;Parent=Miro_214;obsolete_name=Miro_226;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 132347 132350 . + 1 ID=Miro_214.RBS;Name=Miro_214;Parent=Miro_214; -Miro feature gene 130777 132361 . + . ID=Miro_213; -Miro GenBank CDS 130787 132361 . + 1 Alias=Miro_213;ID=Miro_213.CDS;Name=Miro_213;Note=T4 gp20-like;Parent=Miro_213;obsolete_name=Miro_227;product=portal protein; -Miro GenBank Shine_Dalgarno_sequence 130777 130780 . + 1 ID=Miro_213.RBS;Name=Miro_213;Parent=Miro_213; -Miro feature gene 147698 148234 . + . ID=Miro_238; -Miro GenBank CDS 147710 148234 . + 1 Alias=Miro_238;ID=Miro_238.CDS;Name=Miro_238;Parent=Miro_238;obsolete_name=Miro_202;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 147698 147701 . + 1 ID=Miro_238.RBS;Name=Miro_238;Parent=Miro_238; -Miro feature gene 130235 130731 . + . ID=Miro_212; -Miro GenBank CDS 130246 130731 . + 1 Alias=Miro_212;ID=Miro_212.CDS;Name=Miro_212;Note=T4 gp19-like;Parent=Miro_212;obsolete_name=Miro_228;product=tail tube protein; -Miro GenBank Shine_Dalgarno_sequence 130235 130239 . + 1 ID=Miro_212.RBS;Name=Miro_212;Parent=Miro_212; -Miro feature gene 51892 52172 . + . ID=Miro_85; -Miro GenBank CDS 51903 52172 . + 1 Alias=Miro_85;ID=Miro_85.CDS;Name=Miro_85;Parent=Miro_85;obsolete_name=Miro_079;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 51892 51894 . + 1 ID=Miro_85.RBS;Name=Miro_85;Parent=Miro_85; -Miro feature gene 51531 51903 . + . ID=Miro_84; -Miro GenBank CDS 51541 51903 . + 1 Alias=Miro_84;ID=Miro_84.CDS;Name=Miro_84;Note=T4-like%3B contains glycine radical domain;Parent=Miro_84;obsolete_name=Miro_080;product=autonomous glycyl radical cofactor; -Miro GenBank Shine_Dalgarno_sequence 51531 51534 . + 1 ID=Miro_84.RBS;Name=Miro_84;Parent=Miro_84; -Miro feature gene 52585 52833 . + . ID=Miro_87; -Miro GenBank CDS 52594 52833 . + 1 Alias=Miro_87;ID=Miro_87.CDS;Name=Miro_87;Parent=Miro_87;obsolete_name=Miro_077;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 52585 52588 . + 1 ID=Miro_87.RBS;Name=Miro_87;Parent=Miro_87; -Miro feature gene 52286 52591 . + . ID=Miro_86; -Miro GenBank CDS 52298 52591 . + 1 Alias=Miro_86;ID=Miro_86.CDS;Name=Miro_86;Parent=Miro_86;obsolete_name=Miro_078;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 52286 52289 . + 1 ID=Miro_86.RBS;Name=Miro_86;Parent=Miro_86; -Miro feature gene 50203 50493 . + . ID=Miro_81; -Miro GenBank CDS 50212 50493 . + 1 Alias=Miro_81;ID=Miro_81.CDS;Name=Miro_81;Parent=Miro_81;obsolete_name=Miro_083;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 50203 50206 . + 1 ID=Miro_81.RBS;Name=Miro_81;Parent=Miro_81; -Miro feature gene 49635 49896 . + . ID=Miro_80; -Miro GenBank CDS 49645 49896 . + 1 Alias=Miro_80;ID=Miro_80.CDS;Name=Miro_80;Parent=Miro_80;obsolete_name=Miro_084;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 49635 49637 . + 1 ID=Miro_80.RBS;Name=Miro_80;Parent=Miro_80; -Miro feature gene 50955 51530 . + . ID=Miro_83; -Miro GenBank CDS 50964 51530 . + 1 Alias=Miro_83;ID=Miro_83.CDS;Name=Miro_83;Parent=Miro_83;obsolete_name=Miro_081;product=hypothetical conserved;tmhelix=1 TMD (9-31) N in%2C C out; -Miro GenBank Shine_Dalgarno_sequence 50955 50958 . + 1 ID=Miro_83.RBS;Name=Miro_83;Parent=Miro_83; -Miro feature gene 50495 50922 . + . ID=Miro_82; -Miro GenBank CDS 50503 50922 . + 1 Alias=Miro_82;ID=Miro_82.CDS;Name=Miro_82;Parent=Miro_82;obsolete_name=Miro_082;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 50495 50497 . + 1 ID=Miro_82.RBS;Name=Miro_82;Parent=Miro_82; -Miro feature gene 104839 105703 . - . ID=Miro_193; -Miro GenBank CDS 104839 105693 . - 1 ID=Miro_193.CDS;Name=Miro_193;Parent=Miro_193;obsolete_name=Miro_247;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 105699 105703 . - 1 Alias=Miro_193;ID=Miro_193.RBS;Name=Miro_193;Parent=Miro_193; -Miro feature gene 52974 53137 . + . ID=Miro_89; -Miro GenBank CDS 52985 53137 . + 1 Alias=Miro_89;ID=Miro_89.CDS;Name=Miro_89;Parent=Miro_89;obsolete_name=Miro_075;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 52974 52978 . + 1 ID=Miro_89.RBS;Name=Miro_89;Parent=Miro_89; -Miro feature gene 52806 52988 . + . ID=Miro_88; -Miro GenBank CDS 52818 52988 . + 1 Alias=Miro_88;ID=Miro_88.CDS;Name=Miro_88;Parent=Miro_88;obsolete_name=Miro_076;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 52806 52809 . + 1 ID=Miro_88.RBS;Name=Miro_88;Parent=Miro_88; -Miro feature gene 85193 86549 . - . ID=Miro_150; -Miro GenBank CDS 85193 86539 . - 1 ID=Miro_150.CDS;Name=Miro_150;Note=contains PIN domain and P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_150;obsolete_name=Miro_014;product=PhoH-like protein; -Miro GenBank Shine_Dalgarno_sequence 86546 86549 . - 1 Alias=Miro_150;ID=Miro_150.RBS;Name=Miro_150;Parent=Miro_150; -Miro feature gene 86549 87082 . - . ID=Miro_151; -Miro GenBank CDS 86549 87073 . - 1 ID=Miro_151.CDS;Name=Miro_151;Note=contains AP2/ERF domain;Parent=Miro_151;obsolete_name=Miro_013;product=HNH endonuclease; -Miro GenBank Shine_Dalgarno_sequence 87079 87082 . - 1 Alias=Miro_151;ID=Miro_151.RBS;Name=Miro_151;Parent=Miro_151; -Miro feature gene 87073 87540 . - . ID=Miro_152; -Miro GenBank CDS 87073 87531 . - 1 ID=Miro_152.CDS;Name=Miro_152;Parent=Miro_152;obsolete_name=Miro_012;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 87537 87540 . - 1 Alias=Miro_152;ID=Miro_152.RBS;Name=Miro_152;Parent=Miro_152; -Miro feature gene 87563 87968 . - . ID=Miro_153; -Miro GenBank CDS 87563 87958 . - 1 ID=Miro_153.CDS;Name=Miro_153;Note=D-alanyl-D-alanine carboxypeptidase;Parent=Miro_153;obsolete_name=Miro_011;product=endolysin; -Miro GenBank Shine_Dalgarno_sequence 87964 87968 . - 1 Alias=Miro_153;ID=Miro_153.RBS;Name=Miro_153;Parent=Miro_153; -Miro feature gene 88026 88439 . - . ID=Miro_154; -Miro GenBank CDS 88026 88427 . - 1 ID=Miro_154.CDS;Name=Miro_154;Parent=Miro_154;obsolete_name=Miro_010;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 88436 88439 . - 1 Alias=Miro_154;ID=Miro_154.RBS;Name=Miro_154;Parent=Miro_154; -Miro feature gene 88482 88815 . - . ID=Miro_155; -Miro GenBank CDS 88482 88805 . - 1 ID=Miro_155.CDS;Name=Miro_155;Parent=Miro_155;obsolete_name=Miro_009;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 88812 88815 . - 1 Alias=Miro_155;ID=Miro_155.RBS;Name=Miro_155;Parent=Miro_155; -Miro feature gene 88845 89119 . - . ID=Miro_156; -Miro GenBank CDS 88845 89108 . - 1 ID=Miro_156.CDS;Name=Miro_156;Parent=Miro_156;obsolete_name=Miro_008;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 89115 89119 . - 1 Alias=Miro_156;ID=Miro_156.RBS;Name=Miro_156;Parent=Miro_156; -Miro feature gene 89178 89447 . - . ID=Miro_157; -Miro GenBank CDS 89178 89438 . - 1 ID=Miro_157.CDS;Name=Miro_157;Parent=Miro_157;obsolete_name=Miro_007;product=hypothetical conserved;signal=signal peptidase II cleavage site 19-20; -Miro GenBank Shine_Dalgarno_sequence 89445 89447 . - 1 Alias=Miro_157;ID=Miro_157.RBS;Name=Miro_157;Parent=Miro_157; -Miro feature gene 89440 89880 . - . ID=Miro_158; -Miro GenBank CDS 89440 89871 . - 1 ID=Miro_158.CDS;Name=Miro_158;Parent=Miro_158;obsolete_name=Miro_006;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 89878 89880 . - 1 Alias=Miro_158;ID=Miro_158.RBS;Name=Miro_158;Parent=Miro_158; -Miro feature gene 89882 90064 . - . ID=Miro_159; -Miro GenBank CDS 89882 90055 . - 1 ID=Miro_159.CDS;Name=Miro_159;Parent=Miro_159;obsolete_name=Miro_005;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 90061 90064 . - 1 Alias=Miro_159;ID=Miro_159.RBS;Name=Miro_159;Parent=Miro_159; -Miro feature gene 134495 136075 . + . ID=Miro_218; -Miro GenBank CDS 134507 136075 . + 1 Alias=Miro_218;ID=Miro_218.CDS;Name=Miro_218;Note=T4 gp23/gp24-like;Parent=Miro_218;obsolete_name=Miro_222;product=major capsid protein; -Miro GenBank Shine_Dalgarno_sequence 134495 134498 . + 1 ID=Miro_218.RBS;Name=Miro_218;Parent=Miro_218; -Miro feature gene 174229 174467 . - . ID=Miro_271; -Miro GenBank CDS 174229 174456 . - 1 ID=Miro_271.CDS;Name=Miro_271;Parent=Miro_271;obsolete_name=Miro_169;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 174464 174467 . - 1 Alias=Miro_271;ID=Miro_271.RBS;Name=Miro_271;Parent=Miro_271; -Miro feature gene 173351 174160 . - . ID=Miro_270; -Miro GenBank CDS 173351 174148 . - 1 ID=Miro_270.CDS;Name=Miro_270;Parent=Miro_270;obsolete_name=Miro_170;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 174156 174160 . - 1 Alias=Miro_270;ID=Miro_270.RBS;Name=Miro_270;Parent=Miro_270; -Miro feature gene 174760 174903 . - . ID=Miro_273; -Miro GenBank CDS 174760 174894 . - 1 ID=Miro_273.CDS;Name=Miro_273;Parent=Miro_273;obsolete_name=Miro_167;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 174900 174903 . - 1 Alias=Miro_273;ID=Miro_273.RBS;Name=Miro_273;Parent=Miro_273; -Miro feature gene 174453 174796 . - . ID=Miro_272; -Miro GenBank CDS 174453 174785 . - 1 ID=Miro_272.CDS;Name=Miro_272;Parent=Miro_272;obsolete_name=Miro_168;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 174793 174796 . - 1 Alias=Miro_272;ID=Miro_272.RBS;Name=Miro_272;Parent=Miro_272; -Miro feature gene 175224 175675 . - . ID=Miro_275; -Miro GenBank CDS 175224 175661 . - 1 ID=Miro_275.CDS;Name=Miro_275;Parent=Miro_275;obsolete_name=Miro_165;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 175673 175675 . - 1 Alias=Miro_275;ID=Miro_275.RBS;Name=Miro_275;Parent=Miro_275; -Miro feature gene 174939 175197 . - . ID=Miro_274; -Miro GenBank CDS 174939 175187 . - 1 ID=Miro_274.CDS;Name=Miro_274;Note=contains FCH and colicin domains;Parent=Miro_274;obsolete_name=Miro_166;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 175195 175197 . - 1 Alias=Miro_274;ID=Miro_274.RBS;Name=Miro_274;Parent=Miro_274; -Miro feature gene 175636 176021 . - . ID=Miro_276; -Miro GenBank CDS 175636 176010 . - 1 ID=Miro_276.CDS;Name=Miro_276;Parent=Miro_276;obsolete_name=Miro_164;product=hypothetical conserved;tmhelix=2TMDs (44-66%2C 76-98) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 176017 176021 . - 1 Alias=Miro_276;ID=Miro_276.RBS;Name=Miro_276;Parent=Miro_276; -Miro feature gene 82146 82479 . - . ID=Miro_144; -Miro GenBank CDS 82146 82469 . - 1 ID=Miro_144.CDS;Name=Miro_144;Parent=Miro_144;obsolete_name=Miro_020;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18; -Miro GenBank Shine_Dalgarno_sequence 82476 82479 . - 1 Alias=Miro_144;ID=Miro_144.RBS;Name=Miro_144;Parent=Miro_144; -Miro feature gene 11178 11471 . - . ID=Miro_18; -Miro GenBank CDS 11178 11459 . - 1 ID=Miro_18.CDS;Name=Miro_18;Note=contains LysM domain;Parent=Miro_18;obsolete_name=Miro_146;product=peptidoglycan-binding protein; -Miro GenBank Shine_Dalgarno_sequence 11468 11471 . - 1 Alias=Miro_18;ID=Miro_18.RBS;Name=Miro_18;Parent=Miro_18; -Miro GenBank CDS 11456 11731 . - 1 ID=Miro_19;Name=Miro_19;obsolete_name=Miro_145;product=hypothetical conserved; -Miro feature gene 9399 9740 . - . ID=Miro_12; -Miro GenBank CDS 9399 9728 . - 1 ID=Miro_12.CDS;Name=Miro_12;Parent=Miro_12;obsolete_name=Miro_152;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 9736 9740 . - 1 Alias=Miro_12;ID=Miro_12.RBS;Name=Miro_12;Parent=Miro_12; -Miro feature gene 9788 10025 . - . ID=Miro_13; -Miro GenBank CDS 9788 10012 . - 1 ID=Miro_13.CDS;Name=Miro_13;Parent=Miro_13;obsolete_name=Miro_151;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 10021 10025 . - 1 Alias=Miro_13;ID=Miro_13.RBS;Name=Miro_13;Parent=Miro_13; -Miro feature gene 8488 8779 . - . ID=Miro_10; -Miro GenBank CDS 8488 8766 . - 1 ID=Miro_10.CDS;Name=Miro_10;Parent=Miro_10;obsolete_name=Miro_154;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 8776 8779 . - 1 Alias=Miro_10;ID=Miro_10.RBS;Name=Miro_10;Parent=Miro_10; -Miro feature gene 8763 9370 . - . ID=Miro_11; -Miro GenBank CDS 8763 9359 . - 1 ID=Miro_11.CDS;Name=Miro_11;Parent=Miro_11;obsolete_name=Miro_153;product=hypothetical conserved;tmhelix=1 TMD (10-29) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 9367 9370 . - 1 Alias=Miro_11;ID=Miro_11.RBS;Name=Miro_11;Parent=Miro_11; -Miro feature gene 10737 10970 . - . ID=Miro_16; -Miro GenBank CDS 10737 10961 . - 1 ID=Miro_16.CDS;Name=Miro_16;Parent=Miro_16;obsolete_name=Miro_148;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 10967 10970 . - 1 Alias=Miro_16;ID=Miro_16.RBS;Name=Miro_16;Parent=Miro_16; -Miro feature gene 10965 11125 . - . ID=Miro_17; -Miro GenBank CDS 10965 11114 . - 1 ID=Miro_17.CDS;Name=Miro_17;Parent=Miro_17;obsolete_name=Miro_147;product=hypothetical conserved;tmhelix=1 TMD (10-32) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 11121 11125 . - 1 Alias=Miro_17;ID=Miro_17.RBS;Name=Miro_17;Parent=Miro_17; -Miro feature gene 10086 10361 . - . ID=Miro_14; -Miro GenBank CDS 10086 10349 . - 1 ID=Miro_14.CDS;Name=Miro_14;Parent=Miro_14;obsolete_name=Miro_150;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 10358 10361 . - 1 Alias=Miro_14;ID=Miro_14.RBS;Name=Miro_14;Parent=Miro_14; -Miro feature gene 10438 10746 . - . ID=Miro_15; -Miro GenBank CDS 10438 10737 . - 1 ID=Miro_15.CDS;Name=Miro_15;Parent=Miro_15;obsolete_name=Miro_149;product=hypothetical conserved;tmhelix=1 TMD (4-21) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 10743 10746 . - 1 Alias=Miro_15;ID=Miro_15.RBS;Name=Miro_15;Parent=Miro_15; -Miro feature gene 53914 54144 . + . ID=Miro_92; -Miro GenBank CDS 53923 54144 . + 1 Alias=Miro_92;ID=Miro_92.CDS;Name=Miro_92;Parent=Miro_92;obsolete_name=Miro_072;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 53914 53916 . + 1 ID=Miro_92.RBS;Name=Miro_92;Parent=Miro_92; -Miro feature gene 54130 54755 . + . ID=Miro_93; -Miro GenBank CDS 54141 54755 . + 1 Alias=Miro_93;ID=Miro_93.CDS;Name=Miro_93;Note=contains haloacid dehydrogenase (HAD)-like domain;Parent=Miro_93;obsolete_name=Miro_071;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 54130 54134 . + 1 ID=Miro_93.RBS;Name=Miro_93;Parent=Miro_93; -Miro feature gene 53212 53661 . + . ID=Miro_90; -Miro GenBank CDS 53221 53661 . + 1 Alias=Miro_90;ID=Miro_90.CDS;Name=Miro_90;Note=T4 Y12G-like;Parent=Miro_90;obsolete_name=Miro_074;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 53212 53215 . + 1 ID=Miro_90.RBS;Name=Miro_90;Parent=Miro_90; -Miro feature gene 53646 53921 . + . ID=Miro_91; -Miro GenBank CDS 53658 53921 . + 1 Alias=Miro_91;ID=Miro_91.CDS;Name=Miro_91;Parent=Miro_91;obsolete_name=Miro_073;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 53646 53648 . + 1 ID=Miro_91.RBS;Name=Miro_91;Parent=Miro_91; -Miro feature gene 56987 57203 . + . ID=Miro_96; -Miro GenBank CDS 57000 57203 . + 1 Alias=Miro_96;ID=Miro_96.CDS;Name=Miro_96;Parent=Miro_96;obsolete_name=Miro_068;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 56987 56990 . + 1 ID=Miro_96.RBS;Name=Miro_96;Parent=Miro_96; -Miro feature gene 57193 57382 . + . ID=Miro_97; -Miro GenBank CDS 57206 57382 . + 1 Alias=Miro_97;ID=Miro_97.CDS;Name=Miro_97;Parent=Miro_97;obsolete_name=Miro_067;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 57193 57195 . + 1 ID=Miro_97.RBS;Name=Miro_97;Parent=Miro_97; -Miro feature gene 54726 56265 . + . ID=Miro_94; -Miro GenBank CDS 54736 56265 . + 1 Alias=Miro_94;ID=Miro_94.CDS;Name=Miro_94;Note=T4-like;Parent=Miro_94;obsolete_name=Miro_070;product=DNA ligase; -Miro GenBank Shine_Dalgarno_sequence 54726 54728 . + 1 ID=Miro_94.RBS;Name=Miro_94;Parent=Miro_94; -Miro feature gene 56331 56911 . + . ID=Miro_95; -Miro GenBank CDS 56342 56911 . + 1 Alias=Miro_95;ID=Miro_95.CDS;Name=Miro_95;Parent=Miro_95;obsolete_name=Miro_069;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 56331 56333 . + 1 ID=Miro_95.RBS;Name=Miro_95;Parent=Miro_95; -Miro feature gene 57368 57543 . + . ID=Miro_98; -Miro GenBank CDS 57379 57543 . + 1 Alias=Miro_98;ID=Miro_98.CDS;Name=Miro_98;Parent=Miro_98;obsolete_name=Miro_066;product=hypothetical conserved;tmhelix=2TMDs (7-26%2C 31-53) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 57368 57372 . + 1 ID=Miro_98.RBS;Name=Miro_98;Parent=Miro_98; -Miro feature gene 57613 57914 . + . ID=Miro_99; -Miro GenBank CDS 57624 57914 . + 1 Alias=Miro_99;ID=Miro_99.CDS;Name=Miro_99;Parent=Miro_99;obsolete_name=Miro_065;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 57613 57616 . + 1 ID=Miro_99.RBS;Name=Miro_99;Parent=Miro_99; -Miro feature gene 81924 82086 . - . ID=Miro_143; -Miro GenBank CDS 81924 82079 . - 1 ID=Miro_143.CDS;Name=Miro_143;Parent=Miro_143;obsolete_name=Miro_021;product=hypothetical conserved;tmhelix=1 TMD (15-37) N out%2C C in; -Miro GenBank Shine_Dalgarno_sequence 82084 82086 . - 1 Alias=Miro_143;ID=Miro_143.RBS;Name=Miro_143;Parent=Miro_143; -Miro feature gene 67179 67658 . - . ID=Miro_114; -Miro GenBank CDS 67179 67649 . - 1 ID=Miro_114.CDS;Name=Miro_114;Parent=Miro_114;obsolete_name=Miro_050;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 67656 67658 . - 1 Alias=Miro_114;ID=Miro_114.RBS;Name=Miro_114;Parent=Miro_114; -Miro feature gene 81366 81851 . - . ID=Miro_141; -Miro GenBank CDS 81366 81839 . - 1 ID=Miro_141.CDS;Name=Miro_141;Note=contains macro domain;Parent=Miro_141;obsolete_name=Miro_023;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 81849 81851 . - 1 Alias=Miro_141;ID=Miro_141.RBS;Name=Miro_141;Parent=Miro_141; -Miro feature gene 81076 81376 . - . ID=Miro_140; -Miro GenBank CDS 81076 81363 . - 1 ID=Miro_140.CDS;Name=Miro_140;Parent=Miro_140;obsolete_name=Miro_024;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 81374 81376 . - 1 Alias=Miro_140;ID=Miro_140.RBS;Name=Miro_140;Parent=Miro_140; -Miro feature gene 83223 83630 . - . ID=Miro_147; -Miro GenBank CDS 83223 83618 . - 1 ID=Miro_147.CDS;Name=Miro_147;Parent=Miro_147;obsolete_name=Miro_017;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 83627 83630 . - 1 Alias=Miro_147;ID=Miro_147.RBS;Name=Miro_147;Parent=Miro_147; -Miro feature gene 83066 83224 . - . ID=Miro_146; -Miro GenBank CDS 83066 83212 . - 1 ID=Miro_146.CDS;Name=Miro_146;Parent=Miro_146;obsolete_name=Miro_018;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 83221 83224 . - 1 Alias=Miro_146;ID=Miro_146.RBS;Name=Miro_146;Parent=Miro_146; -Miro feature gene 82479 83083 . - . ID=Miro_145; -Miro GenBank CDS 82479 83069 . - 1 ID=Miro_145.CDS;Name=Miro_145;Parent=Miro_145;obsolete_name=Miro_019;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 83080 83083 . - 1 Alias=Miro_145;ID=Miro_145.RBS;Name=Miro_145;Parent=Miro_145; -Miro feature gene 67646 67816 . - . ID=Miro_115; -Miro GenBank CDS 67646 67804 . - 1 ID=Miro_115.CDS;Name=Miro_115;Parent=Miro_115;obsolete_name=Miro_049;product=hypothetical conserved;tmhelix=2TMDs (2-21%2C 31-50) N in%2C C in; -Miro GenBank Shine_Dalgarno_sequence 67814 67816 . - 1 Alias=Miro_115;ID=Miro_115.RBS;Name=Miro_115;Parent=Miro_115; -Miro feature gene 84392 84959 . - . ID=Miro_149; -Miro GenBank CDS 84392 84946 . - 1 ID=Miro_149.CDS;Name=Miro_149;Parent=Miro_149;obsolete_name=Miro_015;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 84955 84959 . - 1 Alias=Miro_149;ID=Miro_149.RBS;Name=Miro_149;Parent=Miro_149; -Miro feature gene 83686 84337 . - . ID=Miro_148; -Miro GenBank CDS 83686 84327 . - 1 ID=Miro_148.CDS;Name=Miro_148;Note=T4 RegB-like;Parent=Miro_148;obsolete_name=Miro_016;product=endoribonuclease;signal=signal peptidase II cleavage site 12-13; -Miro GenBank Shine_Dalgarno_sequence 84334 84337 . - 1 Alias=Miro_148;ID=Miro_148.RBS;Name=Miro_148;Parent=Miro_148; -Miro feature gene 67801 68461 . - . ID=Miro_116; -Miro GenBank CDS 67801 68451 . - 1 ID=Miro_116.CDS;Name=Miro_116;Parent=Miro_116;obsolete_name=Miro_048;product=hypothetical conserved; -Miro GenBank Shine_Dalgarno_sequence 68457 68461 . - 1 Alias=Miro_116;ID=Miro_116.RBS;Name=Miro_116;Parent=Miro_116;
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/gff3.py Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,346 @@ +import copy +import logging + +log = logging.getLogger() +log.setLevel(logging.WARN) + + +def feature_lambda( + feature_list, + test, + test_kwargs, + subfeatures=True, + parent=None, + invert=False, + recurse=True, +): + """Recursively search through features, testing each with a test function, yielding matches. + + GFF3 is a hierachical data structure, so we need to be able to recursively + search through features. E.g. if you're looking for a feature with + ID='bob.42', you can't just do a simple list comprehension with a test + case. You don't know how deeply burried bob.42 will be in the feature tree. This is where feature_lambda steps in. + + :type feature_list: list + :param feature_list: an iterable of features + + :type test: function reference + :param test: a closure with the method signature (feature, **kwargs) where + the kwargs are those passed in the next argument. This + function should return True or False, True if the feature is + to be yielded as part of the main feature_lambda function, or + False if it is to be ignored. This function CAN mutate the + features passed to it (think "apply"). + + :type test_kwargs: dictionary + :param test_kwargs: kwargs to pass to your closure when it is called. + + :type subfeatures: boolean + :param subfeatures: when a feature is matched, should just that feature be + yielded to the caller, or should the entire sub_feature + tree for that feature be included? subfeatures=True is + useful in cases such as searching for a gene feature, + and wanting to know what RBS/Shine_Dalgarno_sequences + are in the sub_feature tree (which can be accomplished + with two feature_lambda calls). subfeatures=False is + useful in cases when you want to process (and possibly + return) the entire feature tree, such as applying a + qualifier to every single feature. + + :type invert: boolean + :param invert: Negate/invert the result of the filter. + + :rtype: yielded list + :return: Yields a list of matching features. + """ + # Either the top level set of [features] or the subfeature attribute + for feature in feature_list: + feature._parent = parent + if not parent: + # Set to self so we cannot go above root. + feature._parent = feature + test_result = test(feature, **test_kwargs) + # if (not invert and test_result) or (invert and not test_result): + if invert ^ test_result: + if not subfeatures: + feature_copy = copy.deepcopy(feature) + feature_copy.sub_features = list() + yield feature_copy + else: + yield feature + + if recurse and hasattr(feature, "sub_features"): + for x in feature_lambda( + feature.sub_features, + test, + test_kwargs, + subfeatures=subfeatures, + parent=feature, + invert=invert, + recurse=recurse, + ): + yield x + + +def fetchParent(feature): + if not hasattr(feature, "_parent") or feature._parent is None: + return feature + else: + return fetchParent(feature._parent) + + +def feature_test_true(feature, **kwargs): + return True + + +def feature_test_type(feature, **kwargs): + if "type" in kwargs: + return str(feature.type).upper() == str(kwargs["type"]).upper() + elif "types" in kwargs: + for x in kwargs["types"]: + if str(feature.type).upper() == str(x).upper(): + return True + return False + raise Exception("Incorrect feature_test_type call, need type or types") + + +def feature_test_qual_value(feature, **kwargs): + """Test qualifier values. + + For every feature, check that at least one value in + feature.quailfiers(kwargs['qualifier']) is in kwargs['attribute_list'] + """ + if isinstance(kwargs["qualifier"], list): + for qualifier in kwargs["qualifier"]: + for attribute_value in feature.qualifiers.get(qualifier, []): + if attribute_value in kwargs["attribute_list"]: + return True + else: + for attribute_value in feature.qualifiers.get(kwargs["qualifier"], []): + if attribute_value in kwargs["attribute_list"]: + return True + return False + + +def feature_test_location(feature, **kwargs): + if "strand" in kwargs: + if feature.location.strand != kwargs["strand"]: + return False + + return feature.location.start <= kwargs["loc"] <= feature.location.end + + +def feature_test_quals(feature, **kwargs): + """ + Example:: + + a = Feature(qualifiers={'Note': ['Some notes', 'Aasdf']}) + + # Check if a contains a Note + feature_test_quals(a, {'Note': None}) # Returns True + feature_test_quals(a, {'Product': None}) # Returns False + + # Check if a contains a note with specific value + feature_test_quals(a, {'Note': ['ome']}) # Returns True + + # Check if a contains a note with specific value + feature_test_quals(a, {'Note': ['other']}) # Returns False + """ + for key in kwargs: + if key not in feature.qualifiers: + return False + + # Key is present, no value specified + if kwargs[key] is None: + return True + + # Otherwise there is a key value we're looking for. + # so we make a list of matches + matches = [] + # And check all of the feature qualifier valuse + for value in feature.qualifiers[key]: + # For that kwargs[key] value + for x in kwargs[key]: + matches.append(x in value) + + # If none matched, then we return false. + if not any(matches): + return False + + return True + + +def feature_test_contains(feature, **kwargs): + if "index" in kwargs: + return feature.location.start < kwargs["index"] < feature.location.end + elif "range" in kwargs: + return ( + feature.location.start < kwargs["range"]["start"] < feature.location.end + and feature.location.start < kwargs["range"]["end"] < feature.location.end + ) + else: + raise RuntimeError("Must use index or range keyword") + + +def get_id(feature=None, parent_prefix=None): + result = "" + if parent_prefix is not None: + result += parent_prefix + "|" + if "locus_tag" in feature.qualifiers: + result += feature.qualifiers["locus_tag"][0] + elif "gene" in feature.qualifiers: + result += feature.qualifiers["gene"][0] + elif "Gene" in feature.qualifiers: + result += feature.qualifiers["Gene"][0] + elif "product" in feature.qualifiers: + result += feature.qualifiers["product"][0] + elif "Product" in feature.qualifiers: + result += feature.qualifiers["Product"][0] + elif "Name" in feature.qualifiers: + result += feature.qualifiers["Name"][0] + else: + return feature.id + # Leaving in case bad things happen. + # result += '%s_%s_%s_%s' % ( + # feature.id, + # feature.location.start, + # feature.location.end, + # feature.location.strand + # ) + return result + + +def get_gff3_id(gene): + return gene.qualifiers.get("Name", [gene.id])[0] + + +def ensure_location_in_bounds(start=0, end=0, parent_length=0): + # This prevents frameshift errors + while start < 0: + start += 3 + while end < 0: + end += 3 + while start > parent_length: + start -= 3 + while end > parent_length: + end -= 3 + return (start, end) + + +def coding_genes(feature_list): + for x in genes(feature_list): + if ( + len( + list( + feature_lambda( + x.sub_features, + feature_test_type, + {"type": "CDS"}, + subfeatures=False, + ) + ) + ) + > 0 + ): + yield x + + +def genes(feature_list, feature_type="gene", sort=False): + """ + Simple filter to extract gene features from the feature set. + """ + + if not sort: + for x in feature_lambda( + feature_list, feature_test_type, {"type": feature_type}, subfeatures=True + ): + yield x + else: + data = list(genes(feature_list, feature_type=feature_type, sort=False)) + data = sorted(data, key=lambda feature: feature.location.start) + for x in data: + yield x + + +def wa_unified_product_name(feature): + """ + Try and figure out a name. We gave conflicting instructions, so + this isn't as trivial as it should be. Sometimes it will be in + 'product' or 'Product', othertimes in 'Name' + """ + # Manually applied tags. + protein_product = feature.qualifiers.get( + "product", feature.qualifiers.get("Product", [None]) + )[0] + + # If neither of those are available ... + if protein_product is None: + # And there's a name... + if "Name" in feature.qualifiers: + if not is_uuid(feature.qualifiers["Name"][0]): + protein_product = feature.qualifiers["Name"][0] + + return protein_product + + +def is_uuid(name): + return name.count("-") == 4 and len(name) == 36 + + +def get_rbs_from(gene): + # Normal RBS annotation types + rbs_rbs = list( + feature_lambda( + gene.sub_features, feature_test_type, {"type": "RBS"}, subfeatures=False + ) + ) + rbs_sds = list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "Shine_Dalgarno_sequence"}, + subfeatures=False, + ) + ) + # Fraking apollo + apollo_exons = list( + feature_lambda( + gene.sub_features, feature_test_type, {"type": "exon"}, subfeatures=False + ) + ) + apollo_exons = [x for x in apollo_exons if len(x) < 10] + # These are more NCBI's style + regulatory_elements = list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "regulatory"}, + subfeatures=False, + ) + ) + rbs_regulatory = list( + feature_lambda( + regulatory_elements, + feature_test_quals, + {"regulatory_class": ["ribosome_binding_site"]}, + subfeatures=False, + ) + ) + # Here's hoping you find just one ;) + return rbs_rbs + rbs_sds + rbs_regulatory + apollo_exons + + +def nice_name(record): + """ + get the real name rather than NCBI IDs and so on. If fails, will return record.id + """ + name = record.id + likely_parental_contig = list(genes(record.features, feature_type="contig")) + if len(likely_parental_contig) == 1: + name = likely_parental_contig[0].qualifiers.get("organism", [name])[0] + return name + + +def fsort(it): + for i in sorted(it, key=lambda x: int(x.location.start)): + yield i
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/macros.xml Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,74 @@ +<macros> + <xml name="requirements"> + <requirements> + <requirement type="package">progressivemauve</requirement> + <!--<requirement type="package" version="2.7">python</requirement>--> + <requirement type="package" version="0.6.4">bcbiogff</requirement> + <yield/> + </requirements> + </xml> + <token name="@WRAPPER_VERSION@">2.4.0</token> + <xml name="citation/progressive_mauve"> + <citation type="doi">10.1371/journal.pone.0011147</citation> + </xml> + <xml name="citation/gepard"> + <citation type="doi">10.1093/bioinformatics/btm039</citation> + </xml> + <token name="@XMFA_INPUT@"> + '$xmfa' + </token> + <xml name="xmfa_input" token_formats="xmfa"> + <param type="data" format="@FORMATS@" name="xmfa" label="XMFA MSA"/> + </xml> + <token name="@XMFA_FA_INPUT@"> + '$sequences' + </token> + <xml name="xmfa_fa_input"> + <param type="data" format="fasta" name="sequences" label="Sequences in alignment" help="These sequences should be the SAME DATASET that was used in the progressiveMauve run. Failing that, they should be provided in the same order as in original progressiveMauve run"/> + </xml> + <xml name="genome_selector"> + <conditional name="reference_genome"> + <param name="reference_genome_source" type="select" label="Reference Genome"> + <option value="history" selected="True">From History</option> + <option value="cached">Locally Cached</option> + </param> + <when value="cached"> + <param name="fasta_indexes" type="select" label="Source FASTA Sequence"> + <options from_data_table="all_fasta"/> + </param> + </when> + <when value="history"> + <param name="genome_fasta" type="data" format="fasta" label="Source FASTA Sequence"/> + </when> + </conditional> + </xml> + <xml name="gff3_input"> + <param label="GFF3 Annotations" name="gff3_data" type="data" format="gff3"/> + </xml> + <xml name="input/gff3+fasta"> + <expand macro="gff3_input"/> + <expand macro="genome_selector"/> + </xml> + <token name="@INPUT_GFF@"> + '$gff3_data' + </token> + <token name="@INPUT_FASTA@"> + #if str($reference_genome.reference_genome_source) == 'cached': + '${reference_genome.fasta_indexes.fields.path}' + #else if str($reference_genome.reference_genome_source) == 'history': + genomeref.fa + #end if + </token> + <token name="@GENOME_SELECTOR_PRE@"> + #if $reference_genome.reference_genome_source == 'history': + ln -s '$reference_genome.genome_fasta' genomeref.fa; + #end if + </token> + <token name="@GENOME_SELECTOR@"> + #if str($reference_genome.reference_genome_source) == 'cached': + '${reference_genome.fasta_indexes.fields.path}' + #else if str($reference_genome.reference_genome_source) == 'history': + genomeref.fa + #end if + </token> +</macros>
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/shinefind.py Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,433 @@ +#!/usr/bin/env python +import re +import sys +import argparse +import logging +from CPT_GFFParser import gffParse, gffWrite, gffSeqFeature +from Bio import SeqIO +from Bio.SeqRecord import SeqRecord +from Bio.SeqFeature import FeatureLocation +from gff3 import ( + feature_lambda, + feature_test_type, + feature_test_true, + feature_test_quals, + get_id, + ensure_location_in_bounds, +) + +logging.basicConfig(level=logging.INFO) +log = logging.getLogger() + + +class NaiveSDCaller(object): + + # TODO May make switch for different sequence sets + SD_SEQUENCES = ( + "AGGAGGT", + "GGAGGT", + "AGGAGG", + "GGGGGG", + "AGGAG", + "GAGGT", + "GGAGG", + "GGGGG", + "AGGT", + "GGGT", + "GAGG", + "GGGG", + "AGGA", + "GGAG", + "GGA", + "GAG", + "AGG", + "GGT", + "GGG", + ) + + def __init__(self): + self.sd_reg = [re.compile(x, re.IGNORECASE) for x in self.SD_SEQUENCES] + + def list_sds(self, sequence, sd_min=3, sd_max=17): + hits = [] + for regex in self.sd_reg: + for match in regex.finditer(sequence): + spacing = len(sequence) - len(match.group()) - match.start() + if sd_max >= spacing + sd_min and spacing + sd_min >= sd_min: + # if the spacing is within gap limits, add + # (search space is [sd_max+7 .. sd_min] so actual gap is spacing+sd_min) + # print('min %d max %d - adding SD with gap %d' % (sd_min, sd_max, spacing+sd_min)) + hits.append( + { + "spacing": spacing, + "hit": match.group(), + "start": match.start(), + "end": match.end(), + "len": len(match.group()), + } + ) + hits = sorted(hits, key=lambda x: (-x["len"], x["spacing"])) + return hits + + @classmethod + def highlight_sd(cls, sequence, start, end): + return " ".join( + [ + sequence[0:start].lower(), + sequence[start:end].upper(), + sequence[end:].lower(), + ] + ) + + @classmethod + def to_features( + cls, + hits, + strand, + parent_start, + parent_end, + feature_id=None, + sd_min=3, + sd_max=17, + ): + results = [] + for idx, hit in enumerate(hits): + # gene complement(124..486) + # -1 491 501 0 5 5 + # -1 491 501 0 4 5 + # -1 491 501 1 4 5 + # -1 491 501 2 3 5 + # -1 491 501 1 3 5 + # -1 491 501 0 3 5 + + qualifiers = { + "source": "CPT_ShineFind", + "ID": "%s.rbs-%s" % (feature_id, idx), + } + + if strand > 0: + start = parent_end - hit["spacing"] - hit["len"] + end = parent_end - hit["spacing"] + else: + start = parent_start + hit["spacing"] + end = parent_start + hit["spacing"] + hit["len"] + # check that the END of the SD sequence is within the given min/max of parent start/end + + # gap is either the sd_start-cds_end (neg strand) or the sd_end-cds_start (pos strand) + # minimum absolute value of these two will be the proper gap regardless of strand + tmp = gffSeqFeature( + FeatureLocation(min(start, end), max(start, end), strand=strand), + # FeatureLocation(min(start, end), max(start, end), strand=strand), + type="Shine_Dalgarno_sequence", + qualifiers=qualifiers, + ) + results.append(tmp) + return results + + def testFeatureUpstream(self, feature, record, sd_min=3, sd_max=17): + # Strand information necessary to getting correct upstream sequence + strand = feature.location.strand + + # n_bases_upstream (plus/minus 7 upstream to make the min/max define the possible gap position) + if strand > 0: + start = feature.location.start - sd_max - 7 + end = feature.location.start - sd_min + else: + start = feature.location.end + sd_min + end = feature.location.end + sd_max + 7 + + (start, end) = ensure_location_in_bounds( + start=start, end=end, parent_length=len(record) + ) + + # Create our temp feature used to obtain correct portion of + # genome + tmp = gffSeqFeature( + FeatureLocation(min(start, end), max(start, end), strand=strand), + type="domain", + ) + seq = str(tmp.extract(record.seq)) + return self.list_sds(seq, sd_min, sd_max), start, end, seq + + def hasSd(self, feature, record, sd_min=3, sd_max=17): + sds, start, end, seq = self.testFeatureUpstream( + feature, record, sd_min=sd_min, sd_max=sd_max + ) + return len(sds) > 0 + + +# Cycle through subfeatures, set feature's location to be equal +# to the smallest start and largest end. +# Remove pending bugfix for feature display in Apollo +def fminmax(feature): + fmin = None + fmax = None + for sf in feature_lambda([feature], feature_test_true, {}, subfeatures=True): + if fmin is None: + fmin = sf.location.start + fmax = sf.location.end + if sf.location.start < fmin: + fmin = sf.location.start + if sf.location.end > fmax: + fmax = sf.location.end + return fmin, fmax + + +def fix_gene_boundaries(feature): + # There is a bug in Apollo whereby we have created gene + # features which are larger than expected, but we cannot see this. + # We only see a perfect sized gene + SD together. + # + # So, we clamp the location of the gene feature to the + # contained mRNAs. Will remove pending Apollo upgrade. + fmin, fmax = fminmax(feature) + if feature.location.strand > 0: + feature.location = FeatureLocation(fmin, fmax, strand=1) + else: + feature.location = FeatureLocation(fmin, fmax, strand=-1) + return feature + + +def shinefind( + fasta, + gff3, + gff3_output=None, + table_output=None, + lookahead_min=3, + lookahead_max=17, + top_only=False, + add=False, +): + table_output.write( + "\t".join( + [ + "ID", + "Name", + "Terminus", + "Terminus", + "Strand", + "Upstream Sequence", + "SD", + "Spacing", + ] + ) + + "\n" + ) + + sd_finder = NaiveSDCaller() + # Load up sequence(s) for GFF3 data + seq_dict = SeqIO.to_dict(SeqIO.parse(fasta, "fasta")) + # Parse GFF3 records + for record in gffParse(gff3, base_dict=seq_dict): + # Shinefind's gff3_output. + gff3_output_record = SeqRecord(record.seq, record.id) + # Filter out just coding sequences + ignored_features = [] + for x in record.features: + # If feature X does NOT contain a CDS, add to ignored_features + # list. This means if we have a top level gene feature with or + # without a CDS subfeature, we're catch it appropriately here. + if ( + len( + list( + feature_lambda( + [x], feature_test_type, {"type": "CDS"}, subfeatures=True + ) + ) + ) + == 0 + ): + ignored_features.append(x) + + # Loop over all gene features + for gene in feature_lambda( + record.features, feature_test_type, {"type": "gene"}, subfeatures=True + ): + + # Get the CDS from this gene. + feature = sorted( + list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "CDS"}, + subfeatures=True, + ) + ), + key=lambda x: x.location.start, + ) + # If no CDSs are in this gene feature, then quit + if len(feature) == 0: + # We've already caught these above in our ignored_features + # list, so we skip out on the rest of this for loop + continue + else: + # Otherwise pull the first on the strand. + feature = feature[0] + + # Three different ways RBSs can be stored that we expect. + rbs_rbs = list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "RBS"}, + subfeatures=False, + ) + ) + rbs_sds = list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "Shine_Dalgarno_sequence"}, + subfeatures=False, + ) + ) + regulatory_elements = list( + feature_lambda( + gene.sub_features, + feature_test_type, + {"type": "regulatory"}, + subfeatures=False, + ) + ) + rbs_regulatory = list( + feature_lambda( + regulatory_elements, + feature_test_quals, + {"regulatory_class": ["ribosome_binding_site"]}, + subfeatures=False, + ) + ) + rbss = rbs_rbs + rbs_sds + rbs_regulatory + + # If someone has already annotated an RBS, we move to the next gene + if len(rbss) > 0: + log.debug("Has %s RBSs", len(rbss)) + ignored_features.append(gene) + continue + + sds, start, end, seq = sd_finder.testFeatureUpstream( + feature, record, sd_min=lookahead_min, sd_max=lookahead_max + ) + + feature_id = get_id(feature) + sd_features = sd_finder.to_features( + sds, feature.location.strand, start, end, feature_id=feature.id + ) + + human_strand = "+" if feature.location.strand == 1 else "-" + + # http://book.pythontips.com/en/latest/for_-_else.html + log.debug("Found %s SDs", len(sds)) + for (sd, sd_feature) in zip(sds, sd_features): + # If we only want the top feature, after the bulk of the + # forloop executes once, we append the top feature, and fake a + # break, because an actual break triggers the else: block + table_output.write( + "\t".join( + map( + str, + [ + feature.id, + feature_id, + feature.location.start, + feature.location.end, + human_strand, + sd_finder.highlight_sd(seq, sd["start"], sd["end"]), + sd["hit"], + int(sd["spacing"]) + lookahead_min, + ], + ) + ) + + "\n" + ) + + if add: + # Append the top RBS to the gene feature + gene.sub_features.append(sd_feature) + # Pick out start/end locations for all sub_features + locations = [x.location.start for x in gene.sub_features] + [ + x.location.end for x in gene.sub_features + ] + # Update gene's start/end to be inclusive + gene.location._start = min(locations) + gene.location._end = max(locations) + # Also register the feature with the separate GFF3 output + sd_feature = fix_gene_boundaries(sd_feature) + gff3_output_record.features.append(sd_feature) + + if top_only or sd == (sds[-1]): + break + else: + table_output.write( + "\t".join( + map( + str, + [ + feature.id, + feature_id, + feature.location.start, + feature.location.end, + human_strand, + seq, + None, + -1, + ], + ) + ) + + "\n" + ) + + record.annotations = {} + gffWrite([record], sys.stdout) + + gff3_output_record.features = sorted( + gff3_output_record.features, key=lambda x: x.location.start + ) + gff3_output_record.annotations = {} + gffWrite([gff3_output_record], gff3_output) + + +if __name__ == "__main__": + parser = argparse.ArgumentParser(description="Identify shine-dalgarno sequences") + parser.add_argument("fasta", type=argparse.FileType("r"), help="Fasta Genome") + parser.add_argument("gff3", type=argparse.FileType("r"), help="GFF3 annotations") + + parser.add_argument( + "--gff3_output", + type=argparse.FileType("w"), + help="GFF3 Output", + default="shinefind.gff3", + ) + parser.add_argument( + "--table_output", + type=argparse.FileType("w"), + help="Tabular Output", + default="shinefind.tbl", + ) + + parser.add_argument( + "--lookahead_min", + nargs="?", + type=int, + help="Number of bases upstream of CDSs to end search", + default=3, + ) + parser.add_argument( + "--lookahead_max", + nargs="?", + type=int, + help="Number of bases upstream of CDSs to begin search", + default=17, + ) + + parser.add_argument("--top_only", action="store_true", help="Only report best hits") + parser.add_argument( + "--add", + action="store_true", + help='Function in "addition" mode whereby the ' + + "RBSs are added directly to the gene model.", + ) + + args = parser.parse_args() + shinefind(**vars(args))
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/shinefind.xml Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,94 @@ +<tool id="edu.tamu.cpt.genbank.shinefind" name="Shine Find" version="21.1.0.0"> + <description>Identify shine-dalgarno sequences</description> + <macros> + <import>macros.xml</import> + <import>cpt-macros.xml</import> + </macros> + <expand macro="requirements"/> + <command detect_errors="aggressive"><![CDATA[ +@GENOME_SELECTOR_PRE@ + +python '$__tool_directory__/shinefind.py' + +@GENOME_SELECTOR@ +'$gff3_data' + +--table_output '$default_output' +--gff3_output '$gff3_output' + +--lookahead_min '$lookahead_min' +--lookahead_max '$lookahead_max' +'$add' +'$top_only' + + +> '$stdout' + +]]></command> + <inputs> + <expand macro="genome_selector"/> + <expand macro="gff3_input"/> + <param label="Minimum number of bases upstream of CDS for gap (--lookahead_min)" name="lookahead_min" type="integer" value="3"/> + <param label="Maximum number of bases upstream of CDS for gap (--lookahead_max)" name="lookahead_max" type="integer" value="17"/> + <param checked="true" label="Automatically add RBSs to input GFF3" name="add" type="boolean" truevalue="--add" falsevalue=""/> + <param checked="true" label="Only report best hits (--top_only)" name="top_only" type="boolean" falsevalue="" truevalue="--top_only"/> + </inputs> + <outputs> + <data format="tabular" name="default_output" label="ShineFind RBS list from $gff3_data.name"/> + <data format="gff3" name="gff3_output" label="ShineFind GFF3 RBSs from $gff3_data.name"/> + <data format="gff3" name="stdout" label="$gff3_data.name with RBSs"/> + </outputs> + <tests> + <test> + <param name="genome_fasta" value="Miro_ShineFindIn.fa"/> + <param name="reference_genome_source" value="history"/> + <param name="gff3_data" value="Miro_ShineFindIn.gff3"/> + <param name="lookahead_max" value="15"/> + <param name="lookahead_min" value="5"/> + <param name="add" value="True"/> + <param name="top_only" value="False"/> + <output name="default_output" file="Miro_ShineFindOut.tbl"/> + <output name="gff3_output" file="Miro_ShineFindOut1.gff3"/> + <output name="stdout" file="Miro_ShineFindOut2.gff3"/> + </test> + </tests> + <help><![CDATA[ +**What it does** + +From an input GFF3 and FASTA file, the upstream sequence within user-specified bounds is +extracted for all CDS features. Input CDS features with an RBS are not re-analyzed. For +the remaining CDS features, the upstream sequence is searched against the following +possible Shine-Dalgarno sequences: +- AGGAGGT +- GGAGGT +- AGGAGG +- AGGAG +- GAGGT +- GGAGG +- AGGT +- GGGT +- GAGG +- GGGG +- AGGA +- GGAG +- GGA +- GAG +- AGG +- GGT + +**Gap Min/Max Settings** + In previous versions of this tool, the min/max was set for the window to find a Shine-Dalgarno sequence, but + currently we specify the minimum and maxium GAP between the end of the SD and the start of the closest CDS. + +By default, only the first (closest to consensus) hit to the list is returned to the GFF3. In the case of a tie, it will select the smaller gap. +By selecting ‘No’ for ‘Only report best hits’, **all hits** to the possible SD list will +be added to the GFF3 file. + +**March 10, 2021 Update** + Previous to this date, when using "Only report best hits" option the algorithm would pick the "first" one (moving downstream) found in the case of tied sequence length. After this date, it now will report the sequence with the smaller gap between the END of the SD sequence and the START of the CDS. + + ]]></help> + <expand macro="citations"> + <expand macro="sl-citations-clm"/> + </expand> +</tool>
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/Miro_ShineFindIn.fa Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,2936 @@ +>Miro +TTAGTAATGGCTAAAACCATATGTAACATCAATCATGACTTTATAACGGCATACACGCAT +TTTTGCGTTATTGTAATCCACTGGGATCGCTACCACGTCAGCAGGATCCACCTTTACCTG +AATGACTCTACCAACACCGCCCCCGTAGTGTGGAAGGTATGATTTAGCCGCAACGTGTAG +GCCAGTAGAACAGGTGCGCGTTTTATCTTCGTCTACCATGTTTCGAGGCATGGAGACAGT +CACACCAGGACTATTATCAAATTTGCCAGTAGCGAGATCTTTATAGTTATCGCGCACACG +TTTCCAGGCAAGGAAACAACCATCATCGGTCAGTTCAATGTCATTATGTACAAGGAACCC +ATAAAGCTGGTATACAGCATCGCGTGAAGGGTTTCGCATCAACCGTTCAAAGAAGTTCAC +CAGATGTTCATACGGACGATCGTTATACATTTCGCGAATGATTCGTTGAGTGATATCAGA +ATCAAACACTACATCTTTATATAGAAGCTGATGACCAATGATTTTAATGTTGCCTTTGCT +ATAGGTTCGGATCGCTTCTTGAGTATCCAAACAAGTTACAGCACCTTTGACATCACCAGC +TTTCAGCATTTCATGCGCTTTCTTAAAGTTCGGATGTGTTTCACCCGCCATGAAAACGCG +CCCTTCGTATACAACCGTAATGAACGATTCAGATCCGATCATACGCGGTACAGTGTCTGA +TACTTTAGGCTTTTGTTTTACATCCCTTTTCTTAGGGAATTCCGCTAACTTGCGGTTGAT +AACGCGCCCAATGGTTCGGGCGCTTACGTTGAACTGTTGGGCCAGTGCTGTTTTACTTGC +CCCCGTCAACCATCCATTATAGATAGCTTTCTGTTGTACTTCGTCGAGAATTTTGACCAT +TATTTCCACCGTATTAATTTCTTAAACTCACTGAGATTCTTTTCGTTGTTGTAAATCGGA +CGAATTGAATAAGAATCGCTATGTTCAACAAGTGAAGCCAGTAACGGGTTTAGTGATTTA +AAGATTTCCCATGCCTGATCAACACGTTTTTTCATATTGCTGCGTTTAACGCGCATTGAT +GCTACGGACTCACGCAGAATCGGACAACGCACCCTGGAAAGATTTTTACCATCTTTCTCA +TACCCTTCCAGACACACTATACGTTCGAGGGTATCAACAATCTTATACAGTTTTTCATTA +TATCGGTTTTTCACAATCCGATCAAGCGATACACCGAAACGGCTATGCAATGCGTCTGTT +TCTGTTGAGTGATCCTTCCCAATCCATCCAGGCAAGCAATTATCTTTCAATGCCTTTTCA +GATTTAACATACTGCTTGCACAGCATATCATCAAAGCATACCAGATTTGAATCCGGGATC +CACTTCCAGAGGCTGTTACGTATAGCAAACACAACAGGGATCCCAGTATGGCGCATGATA +CGCGATAAAGTAGATTCTTTCATTGCTGAATCCATAGACAACCCGGAATTTTCACCATCT +AAGCGGCTATATTCATCAATACCATACAACCGAACACCTGGGGCTTTATCCAGTGATAAA +AACTCTGATTTTGTCATAAACAGAGAAGTTTTTGCCAGATTGCCGTTACTATCCAACTCA +TAACGATATACGGTCGGGGTTTTTGGGCGCGGTTCTGAATTTTTCGGTGCATATAGCGCT +TTTGATTTTTCGCGATCTGCATCATAGATCTCTTTTTCTTTTGTCATTTCACTGGTACGG +AGATACACAATTTCCGATTCATCAAAATGACCTTTCCGAACGATATCATTAACAATCTCA +CGCTTTGAATCACTATCGTAATATGCAACAAAGCTAACACGGCTTAGGTTATGCATTTTA +GCATACCCGACGATATACGGTTTAACCGTGTTGGTATCCACTTTTAACAGAATGAGTTTC +TTCTGTTTCCACGGATAATAAATGCGTGTGATGTCCTGGCGTTTGGTTGTTTCTGGCTTA +TACTTGCTCCAGCGGCCTCCGCTACCAGTTACCTGATACCATGCATCTTTACCGTCGTAT +TCGTTCGCCCAATACCCAGCAACATAATCATCATTATATTTGTTTGGTTTGACTAGTTCG +CTATGGATCCAGCCAATAGAATCACCATTGATGCGAAAATTAGCATCTTTACCAACAAAG +TTTTGTACCATTGAAGGCAGAGAATGGAACCACGTCAGTTTATCACGCACGGTTTGTAAC +TTATCGAATTCTGATTTAACTCGATTGAAATATACCCGGCTGATTTGTTTCAGACGTTCT +TTAACAATCCCTACTGTCATTTTATCCATACTCAACTCTTCGCGAGAAGGCATGAAATCA +AGTTCACCGATCGGGAAGTCAATAATATACGTATACTGGCTTTCTGTATAGCAATAGAAC +ATCGAGGTATCATACAAATCTTTATCCAGAGGATAAATGATGTTACCCATGCGAGCATAT +ACACCGCTAGTGTATGCTGATTTATGACGGATCACCCCGCTATCGTTGGTTGCTTCTTTC +GGCTGATAGTTGATTTTGAGAATAGAAGCACCAACAAAGTTAGGACGAATATCAGTAAAT +GATTCGTATACCCTTGCTGCTTCGTTTTCCCATTCTTTGATATCTTCAACCTTAACCGGA +ACAGTGATAGTAACCCCGTTAGGTTCATCGCTTTCAATCTCATACAGAGGATCGCAGAAA +GGTTCCCCATCATCCATATAGATTGTGTAACCGCATTTGATACCGTCTTTTACGGATTCC +ACCGTGAAAGCATCGGAATAGCAAAGCGGAGATTTGCAACCCAGACCCATAGAACCGATC +AGGTCGTTTGAATCATTTTTAGTTGATTCGAAGTAAACGGTAAACGCATCACTAACGAAA +TCAGGAGACATACCGATCCCGTAGTCACGAATAACAAAACGAGGATCAACAGCAGTTGGC +AACTGGACATCAAACGGGTTCTGATTTCCCGCTTCTTTGTGTCCATCAATCGCATTACAA +GACAGTTCGCGAATGATTGCGCGGATCTTGTATTTGTATACTGTCGAAGAAAGGATCTTA +TACGCTTTCTTGTTTGCGCGTAGAGATAGTTTGTTTCGTCCCTTGCTGGTATCTGTACCA +ACACGGTAGATGGTTTGCGGTGTATCTTCGCGTAATTTCATTGTTTATTTCTCACTTAAC +ATTAAAAATAACTTGGTCACAAGAGTACTTCGTTGGCTTTTTGTTCAGACCATATTCTAC +TACTTCACAATAGGTGTCAAGGAATTTTACCAATTTTTCTTCCTCGACCTGCTGTTTCTT +CATATCAAGGATACCCCACACGATAGCCCCGATAATGACAGAAAAGAACGCACAAAATCC +GAATATGGTCAGATATTTTCCCAACTTAGGCGCATTATAACGTGTCATACCTTACCCCTC +TTTGCGAATGTATGCAAGTTCTTCATGGGTTACTGGACGGATATACAGACGGCCTTTTGT +ATATGCCTTGCGCCCGCTGATCCAAATGTTTTTCATATCCTTAACACCGTTCATCACATC +GTTGTAAAACTTCTTATCAGCTTTAGCCTGATAGACTTCACGGCCTTGATAATCTTTCAT +GAACAAACAATAAAGGATCTCATTCTTATCAACTAGATTAGCATCCTTTGTAGTTGTTTT +ACTTGGTGAAGGTTTCGCACCCAGGCGCAAGGCCATAGCTTGCCACACTTTACCATGTTC +ATAACCGCGCCCGACAAGAGCATGAGCGATTTCGTGTAAAAGAGTGTCTAAAATATCCTC +GTAGATATCTTCCGCAACATGACGACCAGACAGTTCGATCAGTTTTTTGGTATAACTGCA +ACGGCCCAGAGTTTTTGTAATGCGTCCATTGATCCGGAATGTCCAACCATTACTGATCAA +ACCGTGTTTTTCCATCATGGTACGCGCCCAGTGGGTTACTTCCATTGCACTACGAGTTTT +CAACATTTTAGAATCTCCTTTGCTTGGTACAAAACCAATATAGCAAAAAGCCCCCTGCAT +TGCAAGAGGCTTTGTAATTATTTCAACTTCTTAGAAAGTTCTTTTAAATCATTGAGATAC +TCAATTTTAGGGGTTGTTTCTTCCCAGTATTTCAATTGTTTGCGCAATTCTTCGGCTTCG +TCTTCCAGCTTTTTTCTTTCGTCCGTGGTTAGATGGTAGATGTTCATAGCCACTAACATT +TCGGCATGATTCTCGCAACCTATCCACGTAGACACAAATTTAACCGCTTCGCTGCGACTA +AGGCCACGCAGAGAATCAGGAGATTCTACCATTTGAGCAATAAACGCAACCTTTGCCAGT +GCTTTATCTAACGCTTCCTTAGTTTCCTGGATACGCTTATTGATGCGCTGTTGATATACA +TTCATACGGATATCAACAAAATCCTTTAGAAGCGTTTCAGGGCGTTCGTATGAGTATAGT +TTACCCTCAAAGATAACGTTAATGTTTGGGTTTGAGTTTTCAATCAAACCGAAATCTTTC +AGGATCTTTTCACGGGTTAACCCATTAGCATACTCTCGCTTGAGCGTTACTTCATACCGA +AAATCTTCTTTCGATAGATCCTTGTAGCTAACGATAACGCCTTTTTCTTCCAGCTTGTCA +AGGATTGCAATGTATTTCACACGGTCATATTTCACTGGGATCTCAGTGATCACCAATTTG +GTTTTACCTTGCAATTCATAGGTGCCGTAAATCGTACCGTCTGTGATTTCACCTTTAAAG +TAAGGATATTTCAGATCCAGTGTGAAATCTTTATCATTCAGATATGCAATACACCCGTTA +ACAACTGATTTAGGATCATGAGGCGGAATGTTTGTTGCATATGCTTTTGCAATCCCGCTA +AACCCGTTAACCAGTACCATCGGAATGATCGGGAGATAGTACGCTGGCGGTACATGTTCC +GGATCTTCATGAACTGGCGTTAAATCACCATCCATATAAATTGCTTTGAATATTGGCGAT +AGTTTACACTTGATGTAACGAGGTGCGCCAGGTTTCTTAACCAAACGGGAACCAAAGAAC +CCATCACGGTCGAATAACGGAATGTTATTGCACCAGTGCGCCGCCATAAGGGATAACGCT +TCTTCTACAGAGGTTTCCCCGTGGTGATACCCATACATAGCAACACCGCCAGCGATAGAA +GCTACTTTCTGAAATCCCGTTCCGCCCTGCATAGCAGAGTGAATAAAGAAACGGTGAACG +GGTTTAAACCCGTCTACCAGGTGCGGGATCGCACGTGAATAAATCGTGTAAAGGGCAAAC +GTTAGCCCTTCCACCTGTACAACATCTTTAATACTTCTTTCCATTAGTCAACCTTAGAAA +ATTTGTGTTTTCCATTAACCCAATCTTTACGCGGATCAGATTCGTCGCCGAAGCATAGTT +CTAACACTTCTTTGTATTCGTCGTCAAGTACAATGACATCATACTTCAACTGATCACCCA +GAACACGGTCGTAATCTTCTTTGCGTAAAGAACCCAGCCCCTTGATATATCGTACATCTT +TTGCTTTATCGCGGAACGGTGCAAACTCATCAAGAGAATAGAACCATTTTTCCTCGCGCC +CAACTTTAGCGATAACGATCGGGGTTCGAATATATCGGATCCGTTTCTCAGTGAACAAAG +AAGGCCAACGGCTAAAGAATGCAAGCAACAGAGTTAAAATGTCACCACCGTCAACGTCAG +CATCGACCATGATGCCGATATTATCATAAGTCATTCCGGAAGTATCACCAGGATGAATAT +TGAGGATAGCCATTAGCTCAAACAGTTCTTTGTTTTTGATAATGTCTGTAAAACTCATAC +CCCATGTATTCAGAGGCTTACCACGTAGCGGGAAAGCGCCTTGTGTTTCTTCGTTACGGC +ATTCGATGAACTGACCAACAGCGGAATCACCTTCTGTCAGAAACAATGTTGTTTCTACCC +CTGGAGTATCGATACCGGAAGCCGGAACGTGTTTAGCAATCTTTGCCTTTTTCGCTTTCT +TTTTCGCTTTGGTGATCGCGGCGGCTTCTGCTGCTTGTTTACGAATCAATGCGGATTCAA +TGATCGGAGTAATGATTTCTGGAGTATCCATAATCATTTTTGCGATCTTTTTGTAATTCA +AATTCGCATGATTGTTAAACTCACCTGCTGTATTTGCCAATCGCTCTTTTGTTTGGCTAT +CGAATGCAGGTGCATTAAAGTTATGCAGGAATACCACAAGAGTTAAGCATTCTTTTACAC +GTGCTTTCGGGATCTCGATACTATGCTTTTTCTTGATCATCGGTTCAAGTTCAGAATAGA +TACCATCGATCATACACTCAACATGAACACCGCCATTTTTCGTATCCAGACCGTTAACAA +AGGATTTCTGTTTAAACCCGTCCTCAGTGCTCGCCAGAATGAAGCTGAGGCGATTATTTG +TCTGGACAATGGTTTTATCCCCATACATGGAAGCGTACAGCGGGAAGCGATTAGAGAGCG +TTTCGCCGTTATATGTGAATTTCACGGACGGGAAAGCAACGGCAAGGGCCATTAAGCGAT +CCTTAATCACTTCTTTGGTTTCTTCATCGATACCAGTTACACCAAACATAGAGAAGTCTG +GAGTAAACTTAACAGTAGTACCCTGTTCTTTACTGGGGCTGGTTCGGTAATCGATGTTCT +GTGCGCCGTCCGTACAGTTAATGGTTACTTTGCGTTTCCCGTTTGCAGTCTCGCCAATAA +AAATCGAGCTATAACAGTTTGTCAGGAAAGAACCAACACCATTCATACCCATCGTTACGC +GGTTTTTATCATCGAAGTTAGAACCCGATTTTGCCATAGTCCATGCCGCAACTGGTTTAG +GAACTATTTTCCCATCTGGGGTTTTTACATCATCCTGGGGAATACCGCGCCCGTTATCAG +AGATTTTAACCAGATTATGATCAATGGTTACATCAATCTTATTAGCATGTTTGAATTCAG +TTCGGATCGCTTCATCAATCGAGTTATCAAGGATTTCGTTGATGATTTTAACCAACCCTT +CCACGTACTCAACCTTGCGATATTGGCCCATTATGAAACGTTCATGCGCTTCTTTGTTAA +CCGATCCGACGTACATATTTGGACGCAACCGAATATGATCGCGATCGCTCATACAAAATG +ATTCGTCAACCTTTGCGCCTTTTTTGGCTGGTTGTGGTTTCTGTTCTGGTTCATCATCTG +CCAGAAGAAAATCTAAACTCATATTCACCTCTTTGTTTAATCACTGACATTATATAGGGT +TCTATGAAAAAGAAAACCCCTTTCGGGGTTTACTTGTTATAAGGGAAACCATCACGAACC +ATTTGAGGTTTATCAACCGTTCGTTTTGCTTCGCCTCCGCAATCACAATCTTTCGGTGCA +TCACGGGTAGCAATGCTTGCCATTTTTGGAAATTCTTTATTACACTTGGTGCATTTATAG +GTATAGGTAGGCATTAATAAATCTCTTTTAAACTCAACATCTTAACTAAACGGGCTTTGT +CTATGTCAAAAACACATTGACGTGCGCCCGGATACAACTTTTCAACTTCGTATACCATGC +AGACGAAACCAACATTGTGCATGTACTCGCGTTCATATGCATTGAACCAACGAGAAAGGC +GCTGTATTGACTGAAACCCAAAATATAACCCAGCCGCTTGAAAGTCTATGTTATCTTTTT +CAAGGTTGCGCATCAATCGATTATCGTCATCCGGCGCTGGATGTCGGTGATCATCCATAT +CAATATAGATATCAGGATTCATACAGAATTGATCAAGCCATTCAGCGGTATCCATCGACA +AATAACGATTGACATATGGGCCACTTTTTGTTTGCCATTTTTCTGTACAATCATTCCAGA +AAGAACAAGAAAATTCCACACGATATACGAACATGATATAATCCTCACAAGTAAACTCAA +GGTTTACAAGTACGATACCACTTATCTAATTTTTCTGCAAGCATTTCGTTGATAATTTTT +GCAATTTCGTACCGTCCGTGAGTAGTACCCAGTTCCAGGTAAATCACATCAAGTGCGCAC +ACAATCGCATCAATACTTTCTTCAACGATATTACCGCCGCGTTGAGGTTGAATGAGGCAT +TCGCTGATCTCACCAACTTCCGCTGATAGGTGATGAACCACATCACTCTTCGTGCGTTTC +TTCACTTTATGAGCGATTTCAAAAAACTTATCAAGTACGATCGCCGTTTCTTCTCGCGTT +GCAGTATTCTCGGATGTCGTCTCCGTTTGTTGAACAACGTATTTTGTAAAATAGTTTTCA +AACACGTTGAAAGGGATCACATGAGGAACACCATTCAAAAACACCCCTTCTTTACAAACA +TAATGGATTTGGCGCGGAATAGACAACCCGCCGCTGCGTTCCAAATGTCGTTTAACGCTT +GCTACAAAATCGAACTCTTTCCCGTATCCAGCCGATATACTGTGATACGTGAGTAGGCCA +AATGCAGAAACATAGAGATCATTTTCTTTATACAGATTCATTTACAATACCTTTATGGTA +GCCAAAAATATAACAATCAATTGAAGGACGTTCACCAGGGAAGTGAATGCATTGCATGAT +GCGTTCAGCCATTAGATCTTCTCCCATGTATACCGAAGTAGTTTCTTCGTTGTAATGGGT +ATCATACGACGTTTTAAGCGTCATGCCCGGAAGCCCTGCAATGTGCATGAATTTAGAATT +GGTGCAAGGTTTTCCTACTTCACCGTTGATCATTAACACTGCATTAGTTTTACGTGCTTT +TCTCATTTGAATTTCACCCCGATTTGCGATACGTTCCATTCTTTTACGTCATCAACAATA +TCATAATGGTTGATGTATGGTAAAGCAATTTTTAAATTACTCGCGTCTTGAATGTTGCGT +AAGAAACGAGTAGGAGAAAGAAGACACAACCGCTCGGATCCGTTGTTTCCTTTAGCGGCA +AATGATAGGGTTTCTCCCCCGTCAATCTTCATATCAACAGAAATCGTTTTGAATTCTGGT +GCGTATGACGTGATTTTGCCGTTGTCTCTCGGTGTACTATAGAAACATACACTTTGTGGG +ACATTATAACGGTCTGTTTCAATGTACATGTAATCGCCGTCAGTCATTCCCCACACGGTG +TAGAGGGATCCGGTATAGTCACCAAAGGAATTTTTAAAATCTTCCTTCGTGGTGTATCCC +AGAGAGCGCAATTGCATAAGCTGGCTATGCTGTTCGATTGCATCGGCTTTTTGTTGTTCC +TGTACTTGCGCATCAACCGTTTCTTGCCAGGAATTATACGCATAGTAACCCACAACAGCG +ATTACAGCCATAACCCCTACAGCTTTCCAGATTTTAGAGTCTTCGTTTTTGTTACTCATG +CTATATTCCTTTTAAGAAAAAGGGCCGAAGCCCCTTTGTTAACGAAGATAAACCACATAA +CCGCTTTGGTCAATCGCGCGGTCTGCGTCATTGAAGATATTACCACGAATGCCTTTTGCT +GGTGCTTTCCAGCTTGCAGGTTTCAGGATATTACCATCATTATCGATGAAAGCGGCAACA +GAACGCTGATTGAACATTTCACCAGTTTCTTTGTTGCGAGTATCCTGAACAACGCGATGA +TATTTGCGGCCTTTCTCCAGAAAGAAAACAGTTTCGAAAGGAGAATCTTGGAAACGAGCG +TTACGCGCTTTGTACATTGCTTCCATGAAAGGGGCTGCTTTTTCTGCGAGGATTTCGAAA +GTGTTCATGGTATATCTCCTAAAGTGTGTTTCGTTTCGATGTAAGTACTATATCAAAGAT +GGTTATTCTATGCAAGGCTTTTTTCGTTATCCATCAAATATTTTAAGTGTTCTTTTAATG +CAGGGAGTTCGTTCAAATGGCGTTGCTTAACTTTCTCGTACTCTTTGCGTTCCCAGTTTT +CAAGATTGCTTGCCAACGCTTCATCACAATAAGCGATCCCGCGTTCTGCATCCTGAACTT +TCTGTTTCCATTGTGCAACTGCTTGTTGATAAAGAGAACCGTTAACCATCATAATAATTT +CCTCCCTTGTTTCGATGGGGTAACTATACCAAAGCTACCCCAGAATGTTTTAACAAAAAG +TGCTATTAGTAGGTATCCAGTTTATACATTTTGCACCAGTTCATGAATTCTTCGAAAGTC +TGAGTATTAACACGTTTTTCCTTCTTCACTTTCTTAGTGATTACAGGACGGTTAGTAAAA +CGTTTTTGCATTTTCACAGTGATTGCTACTTTATCGCCCAGGTCTTCAACCTTTTCAACC +AGCGCCCACTGAGAACCAATTTCAGCGCCGAAAGTCAAACCAACAATCTCACCTGCTTTA +ACGTGTGCTGCATATTTTACTTTAACCATTTTCGTATTCCTTTCTCTGTTTCGTTTCGAT +GAATACAAGATACCAAAAAGCCTCCCGCAATGCAAGAGGCTTCTTTAACAAAAAATGCTA +TTTTATTTCTTTGAGTAATTTACGGATCCCGCCGCCCTGTGTCTTATCAAAGATTTTCTT +TGCATCAATAACAGAAGTGATTATGTGGTAGTTGTTACCTTTTCCGTCAAACTCAAACTC +GACCTTGTAGTCACTACGAAATTTCACAAAAACAAATTCACCTGCAAAGTGCTTACGGAA +CTGCTTTTCGTTAATGTCCAACCATTCCTGTGTATCATCTAACTGATACATGCGACAAAA +CAGGATCGAACCCATTACAACAATCATGACAAGAATAGCTAACGCGAATTCTGACATCAT +TTACCCCTGTTTACTGATTGACGGTGTAACGATTTAGGCACAACCGGATTTCGATACGGT +TTGACTTTATGGATCATGGGTTCTTCCTCAACCAAATTAGGAAATTGGTTGTTCCATTCC +ATCGAAAACGGATAAGGTTGTGACTTGAACTCTTCGATCACACAGTTTACTAAACGACCA +CCAATTACACCCAAAGCCGCCCCAATAATCGCTATACGCATAAATCACCCCTTAATTGTG +TCAAGTACAGTAAACCAGTCATTAAGCCATATCGTTGTTCTTACCGCGATATACGTTAAC +AAACTAATCAATGATACCGCTCCGCAAATAGCCAGCGTAATCAACAGCCGGATTTCAAAT +TTAGTAAAATTCATATCAATCTCCTTTCTTAGAACCCAATATAACAAAAGCCCTCAACCG +AAGTCAAGGGCTTTGTTTTAAATTTTTACTAGTTTTGGCAATCGAAGAACTATACCAGGA +TGGATCAGACGTGCATCCGGAATAGAATCACGGTTGATTTTAGCGATATCAGGCCAAAGT +TCACCAACACCATACAGTTTCTTTGCTATAGAATACAGGCTATCACCCGGTTGCACGACA +TAGCGATCCGATTCAATCTTAACCAGATCCTGGTTAATGATATCTTCAAAGGCTTTTGCT +TTTGCTTCGTTAATCGTGTTCCCGTAGTAATGGCGATCCATAATAGTTAATGTGATCATC +GTTTCTTTCCTATACTGTTTTCGTCTGTCTCTTCTAAGGATGGAGGTTCTTCCAGCCCCA +GGGCATAACGTTTAGCATAGATTAGCATCAATGCATCTTTAGCGCAATCATGAATTGAAT +CATGCTGAATGAATCCATCTAACATGCCTTTACGCAGTGGACACGTGGTCACTCCGCGAG +TCAGTAAACGGTTTTCAATAGCTGTACGCACATCACGGCTATTCCAGAACACGGTCGGCA +TATCTTCAAACGTGTCAAGTTTCCCTGTCATAGTTCGTACAGCATAGAACGATCGAATTC +AGGGCCGCGCGTATAATCGTATGACTGCCAACGACTCACACCGTCAGCCGCTAAATCAGC +AAAGAATTGTCGATGACCTTCGTACAAATCCATGTCAATATCAGAAGGGAACAAAACCCT +TTGCGCTTCTTTAGATTGCTGTTTCCACCATTCGATCGTTTTTTCATCTTTGATGCGTTC +TGGTTGTTTCCGGATGTCGAATTTATACTTTCTTCCTTTAGCAATCAGTTCCTGAAAGGT +AGGCGGATCATAAGGATCATCAACAAAAGGAACATAGCTAAGTTCAGCTAGTTTTCCTTT +TGGAAACGGGCCAATACTTTCATAATCAAATACGAAATCTACGGGTAAATGACTCATTCG +CGACCCCGCTTATATGATTCCATGAAATAGGCCAATGATAGCGCGACTTCCGGAGTAACA +TCAACGGATTCGATCATGCCTGGAGTTACCGCCATCATACCGAACTGACGAAGCCCACAA +CGAGCAATCGATTTTTCCAGTCGGATCATGTTTTCTACAGCCTCTGCGAAATTGTCCAGA +TGTTCCCAATCGTGGTAATCTTCCATTGTAGAACGATCACTTTTCAAAATCAGATCGGCA +ACCAATTCAGCATAAAGGCGCGGAAGGTGAATATTCATTTAAAATCCCTCAAGCATGTTT +TTGTTTTCACGAATGTTACGACCCATTTTCAAAGTATCAATGATCACTGCATACTCTTCA +AAAGTGAATTCGATATCTTGTGAAATGTTTCCCCACGTGTAGGTCGGCCCGTTAGGACAG +TATAACCCAACTTCTTTGTTTGCGTTGACAACGCAGCGCAATTTTGCAAACAACAAATTG +ATATCGATAGAATTGAACCCTTCGAGATAATCAAGCCCCTCTCTACCAATACGGTCAACT +TCTCGCAAAATCTTTTCTACATCTTTGACTTTAACAATAATTTTCATAATAACCTCAAAG +GGCCGAAGCCCTTAGACATAATCAACAGTGAATCGTGCGCGGGTAGTTCCTACATAAAGC +AACTGCTTACACAATTCATAATCGGCGTATGCGTATGCATCGCGCGTATACATGTATGAA +TGATCATACGTGCTTCCCTGACCTTTGTGATACGTACAAACCGGAAGCGCCTTAACCGTC +TGGAACTTGTTTTTGATTTGCCAGAACGAATACCAGGGGGCTTTGTATCCGGTTTCCTGT +TTCATCTTTTTATACTGAAACGCGACGTAGTTCAAATAATCGCCTAAACGTTCCTGCATA +ACCGGATCCGCGATAACCTGAATATCCGCTTTCGTATCCTCGAACATCGATTCTGTTTTC +ATCAAGAAATAATCGATTTGTACCGGATCGCATCGGTCAGCTTTGATAGTATCAGAACGC +GGTATGATTTCAAGGATTTTAATTTGCTCGTTGTTGTTATAGATAACTTCAACAAACGAA +ACCCCATTCACACGGCCTTCTGTCACTAACGGTTCTTGCATCACAACCACTTCACCAACA +ATGAACGGCTGATCAGTTTTGTACAAGTGTTTACGGATCACTGCGTTTAACTTGTCTACG +TTTGCGTTAGTGTAAGCAAACATACGGTTATTGTTCAGGTCATCCGGAGTCTTAACACGG +CTAAAATAACGTCTCAGGAAGTCACCAGCGTTTTCGTGCTTCATTACCCCTAGTTCACCA +TTCATGAGGGGCATTAACGGCTTACCGTCGCGTATAGCGCGTGATACCTGGATGATTGGG +TTTCCTTCTGCCTGACGCATAATCTTATCCATGCGAATGACATCAAAAATTTCCTCATCA +AAGAACGGTGAAAGCTCGGTGATCCCTTCGGTATTAACAGGACGGATCTGATCCTTATCA +CCCAATCCCAGGATCACCGCACAACTCGGAATAGTACGCTTGATGATACGGAATAGTTCT +TTGTCAACCATCGATACTTCTTCAACCACAAACACACGACATTCAGACAGATCAGCGGCT +TTTTTGCCTTTTTGCTGTTCAAATACTCGTAACTCTTCGTTGGTTACGGGGCTGATTTTC +AGTGCTGAGTGAATGGTCGTTGCATCCATACCCACCGCCTCAGAGAGAACGTTTTTAGCC +TGGTGCGTCGGTGCTGTCAACCAGATCCCACTAATACCCAGTTTTTTCAATGTTTCAAAC +ACAAATTTTACCAGAGTAGTTTTACCAACACCCGGCCCACCTGTGATAGTAGTATGGATT +TTGTTTCTGATATTTTTAATCACTCGATCATGTGCATTTTTCTGGTCTTCGCTCAGATCG +TCAAAAGTTAATTCGCTCATACTTTAATCAATACCCCTTGAATACTTGCGTGTTCAATAA +ACCAACGCATATCTTTCTTTTTCTTTTCGGTTACGGTTTCAACTTCTTCCTTTCGAAAGA +ATCGGCTAAGACCACTTTGTTTAACTGGATTCATCTTATCATGATATTCTTTGATAATCG +AATTTTTATACTCGTTAGCATCGTCCGGAGATAGAAACAACAAAGGTGTTAACTCTCCTT +CCTTAATGAAGGGAATTTTAAACCCGTCTTTATCCTTACTAACGACGATATAATATTTTG +TAATCATTCTCGCCCCTCATAACAAACGTAGAATATTCCAACAAACCAAAACACTGATAG +TATAATCAGTAAAAGTTTTCTTTCAACGCCATTTACGTGAAACACACACCAACCGAAAAG +ATATGTGATCATCGCGCAAACACCATAAGAAAGAACCCCAACAGCTACTAGCGCGATGAT +CGGATCCATTAGTAGTTGTTAGCCCAACGGCGGAGGTTTTCGGCTTGTTTCAGTGCATAC +AGTTTGTAGATGGTTTCCGCATCCATACCCAGCGCCAGGAATTTGCACATAAAGAAATGC +CACTGATCGATAAGTTCAAACAGAACTTCTAAACGATCCTCTTCACTCAGATCCGCAAAT +TTAGTATTGCGCAATTCCTGGTGATTTGCTTTCCACGGTTTCCAAACACCGGATGCAGGT +TTAACACCGCGAGACATTCCACCCAGAGCGGTGTAAAGTTCGCGGGTTTCGTCTGCGATC +GCGTCATCTTGCAGTTTCAGCCAATCAAGGATTTCTCCGCAAGTTTCCAGATTATCTGGA +CGCGGAACCCAATGCAGCGTATCAGACAGGCTTTGTTGTGCATGGTTTTGTAAATCCAGC +ATGGATTGTAAAGGATCGCCATTACGGGCCAGAACCTTTTGATATTCGGAATCTACAAAT +TCCAGATCTTCCGGGTTAACCAGGTGCGCACATGAATTAAATACAGGAGTTTTATCAGTA +GTCATATCAATCTCATTTTTTCGGTGATTTGTCCCACGACTTAAATCGAAGTTTTGCCGT +GAGTCCAGAAACAGTATTATCTTTCAAATACTGCATAATTTCAAGTTTAGTTGCGCCGTC +CGTTTTTATCATTTCGTTGATATCTTTGGAAGGCCACGGGCATTTATCCCACATTACAAC +CTTTTCTCCAGCCTCAATCAATTTAAAGAGGCGGTGAGTAGTATCCGGATGACGTGCTTC +ATTGTCAAGAACCCAGACACGCATATTTTTGTACGGAACCTCAGAAAGCGCAAGCTGTCC +ACCAGTGATAGCGCCAGCATTATCAACAAATAGGCTATCTAATGGCCCCTCAAGAAGATA +AACCGTTTTTAACGGATCTATCGTATCCTGTCCGTAAATCTTGGTTGATTCCTCACAGGC +TTTGATTGTGATATATTTCGACTTTGCACCGTCACGTAAAGCACGGCCCTGGAAAGATTC +TATTTTACCTTTCTTATCGAAGATAGGGATCACTAATCTCGGTTCTGGTTTTGCGATCGG +ATAGGTATCCGGATTCACCGTATTAACCAGTTGTTGCCATTCGCGAGTAAACCACAACCG +ATCCCACTTGTCACGGGGGATACAACGATTCTGCACATATTTTATGATCGGATGTTCATC +CGGCAAGGTATCTAACCTTTCGCAGAATTGAAGAGTAGGAATAAATTTCTTCTCTTCCTT +CGGTTGTTCTGTATGCGTTGGCTTTAACGAATTGCGATCCTTAAACGATTCCATGAGATA +ATCACGGTAATCGTCTGGATAATATTCTTTCAGGAATACGCTAAACGGTACACCATAACC +ACAGTTAAAACAACCACAATTCATATGATCACCCTTTTTAGAAGGGTAGATCCAAAATCG +TTTTTTGTACTTGTCTTTCATTGAGTCGCCGCAAATAGGACAACGCGCATTGATGCTTAA +TGCCCCCGATTTACGAACGATTTCGCTTTGAGGCAATGATCCCATGATTCGGGTTGCAAA +TTCTATATCAAGATACATTTCTTACCTCAGTTGACTATCTTTTGATCCTCGTCGATTATA +CCCGGCGCTGATCATTTCGTCATGTTCTTTTTGGCATTCAATACAATAACGGCAACCCTT +CACGATAGCCCTACGTTTTTCGGGTATCGGATCCCCACAATCAAAACAATGCGTTAATGA +TTCTCCGTTTCTGATTTGAGAACGTGCAAAATCTATCGCATTGTCTATTGTTGCCTGAAT +GGTATCTTGAACACCGTCAGCAGGGCCAAATCCAACCGCCATTGTAAATCCTCCTAATCA +AATGATTTCAATATCATAGACTAAGAGGATTTTTCTGTCAAGAACTTACTTGCTTTTCTG +TTCCGTCAAGCATTAACTTCCAACCACGAAATGCCTGTTTAAACGAATAATTTATTGCAA +TATCAATTTTATCAGAACCTTTTCGACGATTCTGATAAACGGTCGCGTTGTCACTCATAT +ACATGATACAAATTGGAAACCATGTATAATCGTTAGCAGTAGCCCAGATAGTGATATTCA +GCGGAGGAATTATCATTTCTTTTTCCTTTTCCCTGCACGGGTAACGCCTAATACTTTCGG +CCCGATGTTGGTTACTGCTCCAGTAGTCACACCAGAAGCAATCTTTTCTGTATCGCCGCC +AGAATCACCAGCGACCATATCCTCTAACATACGCCCCTTATCATAATATTCTTTGAGGCG +CGGAACGTTCATCATGATTTCTTCATGCTCTTGTTCTGTCAGATTGTAGCGATTGCGTAG +GGTATCATATGAACTTGTTAAGTTCATAAACCCAGTCATATACGGAACAGAATTCATTCT +ACGCTTGATATGGCGTACTGAACGATGAAAAGGAGAATACGCTTCTAACTCTTCTTTTGT +TTTGGGGTTACGAATTACTTCGCCTTGTCCATCAAGGATCCCCAGTTTATAAGCAGTCCA +TTCAGTCCAGGGCTTTTTGAGTAGCCGGATCATCCGGACGCTATATGTTAAATCCATATT +TTTAACTAATTGATCACTCATGATTATTACTCTATTGTGAAAGTGAATAAATCAGATTTG +GTTTCAGGTTCAAACTCCATACAAACAACCTCGCATAGTGGTTTAACCCCTTTCCAATCC +TCCAGGTAATACCCAGTATCTATACCGCATCCAGGATTCATAACGAGGCCAGTTTCATCA +AGAAACTTTTTGCATTTACTTGATGTGGTGCTGTCATCTTGTCGGAAACAGTGTGTTTTC +GAATACCGGAAATTTGCAGACATTTGAGGGATTATGAAAGTTCCCTGACGCGCGATCTGT +GATGCACGTTCGATTACTTTATACTCAAATTCCGCCCCTGTATACTTACCCTTAAAATCA +GATGTTTTGATTTTACCAAAAGGCGGGTTACTGATCGCCATATCAAACACCTGATTAAAT +TCAGTTGTTAAGGCGTCTCCATGAACCCAGGAGGCTTCTGGTACGATACGCTTACCTAAC +TCATAGTATGTGTGATTTAACTCAACACAGACGATTTCACGCGGCGTATTGTACATCATG +TAATGAACCATAGCGAAAGATAACCCACCAATACCAGCACACAGGTCAATAACACTTCCA +CCTGTACAAGCATCGATTGTGAAATCGCGAGCAAGTCCAATAGGGGTAAAGAACGCCCCT +AATTCGGAATTATTTGTAAAAGCGCCTTCATGAAAGTTTTCAATGATGAACAACTTCTCT +TCGTAAGTTAGCGCTTTGTCAGAGTGAACCAGATCCATTATCTGATTGTGTTTCTTGGTT +TCCGCTTTCGTTAACTTTGCCATTGTCCCAGCTATACAGTAATGTTGATTCATTTGGGTA +GAATTCCCACCCGTCCACATATCCGGTTTCCCAGTCAGTAGTTTGTTCAAAACCACAGAT +CCATTCATATACACCAGGAGGCATTTCGACAGAATCAGGAAGCCCGATATCTTCCGCGCT +GCGTCCACATTCAAAGAATGCATCGTGAATGAATGGTCGAGATAATACCGTAACATAACC +TTCATCGTCAACAGCTACGATCCAGCGAGAACTGTGAGGACTATCGAACTTCGGTTCTTC +TTCGTCTGCGTCAGCTTGCATTTCGGCCTTACAAAAATCTAAATTTATCATTTCAAACCC +TCTTTAACACCCTCTTTCATAGCTTTCCAGGTAGAACCCGCTTCACCATTCAGGGCGGCG +AATACAAATAGTAAGATAGCAAGGACAAGATTCACGCCAGCAATCACCATGATTTTGCTA +TACACGAAAATGTAAGGCATTGCCACCACCCACCAACTAAAAGAATTACCAGTTACGATG +TTGAGTGCTGCAAGTAAGAAAGTGATAACGAATGTGATTTTCATAATGTCCTCCTTTGTT +ATGATTAAGGTATCATCTTTTGCGAAAGAATGCAATACCTATAGATACAAAAAAGCCCCG +AAAGGGGCTTAATTTTTATGCGTTATTGATGAGATACCGAAGAACGTTTTTCGCTTGTTC +CTCATTACAACCAACTTTGAAACCAGGTTCGATAGGGAGGAAGTTCCAGAGGAAATCAAC +ACTTCCTTCAACGTCATCTTTGCCTTTTTCCAGCATTGCTAACAGTAAACCTTTGTTTTT +GATGCTGTTTACGATTGCGTCAAAATAACCATCGCTGAAATCAACATTCGGATTCAGCAT +TTCGTTGTAAGGGTTGTTGAATACGTTCATTTTGAATCTCCTTTGTTTAACTCAGTATCT +TGTCTACGTGAGTTATATTACCACAATGGAGATTCAGGTCAATACCTTTTACGATTTTTT +GAAAAATTTTTCGTATTTGGCTTTTATCCAGCGATACATATCTTCGGCCTTGTCACTGGA +AATCAGTGAGAACAGCAGATAGATCGCAACACCCACCAACACAACGCCTACCACAATGTA +GACGGGTAATAGAACTGGGAAGAGAACCCAGAACCATGACATATGCGAGAAGCCAAATAC +TTTAGCCGCTGCAAAAATCAGTGTTAGTCCAGTCAGAAGTTTGATAGCCGGAATAGGAAT +CGTTATAGTCTTAGTCATTTCATTACCTTACATTCTTTATGGGGCTATTCGCCCCAGTCA +ATTAAAATTGAATGTCAGATTTTGCAATCTGTGCCATTTTTTCACGTCGGGTAGATTCAG +CCTGTTTAATCATCGGGCCTTGTGTCTGTTCTACTGTTTTAGGCATAGTGTTGCCGTGGT +AGTCAGATTTAAACCCGTATTCGCTGTTGTCGGTATCCATCCAGCGCTGATTACCCTTGC +GAACTTCCAACTTGAACTTGTTGAAAGTGTTCTTATCGCCATAACGGGATTTGATTTGCT +TGAACAGTTGCATACCCTGATCAGCTAACTCTTCCGTCTCGATTACAGCTAACATAAAAT +CAGCCGTAGCAGGTAAACCAGCGGATTCCGCAACATCACCCATACTCACATCCGAACTAT +CCCATGCAGAACGCCCAACCTGTGCGCCTGTCCACATCACGGTATTAGTTTCAACAGCAA +GACCGCGTAGTTCTTCGGCAATTGCTTTAACCAGAATATAGGTATTTTCAGCACCTTTAA +CACGGGTTGAAGTACAGATCCCCAGGTAATCGACAATGATCACATCCGGAACAAACTGTT +TCTTCAATTTAAGCTCTTTCACAAGCGCTCTAAAGTGGTTTGCACCTGCACCCGATGTAG +GGTACTGCTTAACCACCAAACGCCCAACCTTACCCGCTTTAAGGCGCTCCATTTTGTTCT +TATAGTCTGCGTATGTAATGTTCCCTTCGTCGATGTCATCCATAGTCACATCAAGAAGGT +TAGCATCGATACGCTTAGAGCAAACATGCTCTGCCATTTCCATAGAAATGTAAAGAACGT +TTTTACCCTGTTGCAGATAATCAGCCGCAAGAGAACATAAGCCCAGTGATTTACCAACAT +TAACACCAGCCATGATGATATTCAGTGTACCACGTTCCGCACCGCCTTTGGTGATTGCGT +TCAGGATCGGGATACCAAACGGAATTTTCATCGCCTTCGATTGGTAAAGCATCCACCGTT +TTTCATAATCTTCGAAATAGTCATGACCTACTGAACTATCGAATGAAATTGCTAATGCTT +CCTCCATGATTTCAGGGATAGCCCCAACACCAGGAAGTTTCTTGTTCTGTTCTGCCAGTG +GTTTTTCTGCGTTAGCCTGGATCTCGATTGCGCGAGAAAGAGCACGATACATTGCTTTGT +CTTTGCAATATGTTTCCGTTTCCTTCATTAGCCAATCTAAATCTTCTGGCGCATTTTTCA +GCGACTGAATCGCCTTTTTCGTGTCTTCGTAGACTACATCACTTAGATTTCGTTTGTCAA +GCGCAACCTCTAAAGCAGTTTTTGACGGAATACCGTTGAATTCCTGTACATGTTTATCAA +TGAGGTCAAACAAAACTTGTGCATTGCCTTCAAAATATTCCTTTTTCAGATGAGGCCATG +CTTGGACAAAATACGTCCCGTTATAAATCAGGTTAGAAAATATTGTATCAACGATCATTG +TATTGCCTTATACCAGGTTGCTGAACATCATGAAAAAGTTGTAAACCTTTTGTTTGAATA +CATCCCATAATGTCAGTTTAGGCTTTGGGACAACTGAACCCTTTTCAAGCTCTTTAATCT +GTGCATAAATTGCATCATGCACCAGCGGGATCAACGCTTCTTTGTCTTCGTCTGGGGTAC +TGAATTCTACTTTCAGCCCATGATCCCAAAACACCTTATGAATATAAACCAGATGCGCAA +CACCTTTTTCATCGTTAATCAGAAGTTCCTGAATAACATCTTTCATCGCTTCATCAATAT +AATTCTTTGCTTTGCTCTCGATATCCATACATTGCCTCGGTTATGGGGCCGAAGCCCCAT +ATTTTTTATAAAATTTCGTCGTTTTCTTCGATATCATCAAATGATTCTGGGATATCGTCA +TCATCCAGATCAGGATCTGGGATGCTATCAGTGCTGTATAAATCTTCCAGCGCGGAACCA +TCACTGATTTCACGATCTGGGATCTTATACTTTTCTTCGATAGCTTTCAAGAATGGTTGA +TGAGTAAACAGAGGACGCCAGAATTCAACGCTATTTGTTTCTGACTCACGCCATTTCTTT +TCTTCAACTTCGAGTTCGCCAGTCTCGGTATTCAGGAAAGCGCGGTTGCGCCAGCCTTTG +GTTACGGTCTGTACAAAGTTCATTTCCATTGCCAGATCCAAAAGGCCAGAATACATACTA +ATACCGCCTTCATAGGTAACATGCAGCGGGAATTTTGATTTCTCTTTCACGAATCGAGAT +TTTTCGATATTCATGATGAAATCATAACCCACCACCTCAGTACCTTCTTTCACCTGTTGT +TTACCCAGGATGATCGCAGTATCAGCGGAATACATTAAACCAGTACCACCGGAAATAACT +TTCTTGCTGTACATTTCTTGCGTGTCATAGGTATGACAGATACAAACCATCGGGATATCC +AGGTCAGCCAGATAAGGCGTAACCATACGGAACATACCTTTTAATGCTTTTGCTCGCGTC +ATATCCTGTTTATCGTTATCAGACAGCGCGTCAGCAAGTTCTTTTTTACTTGCCGTGTTG +CCTACTGAGTCAACGAATACAATCACCTTATCACCGCGTTCAAGCGCGTTAAGCTGGCTT +ACAACGTCATTACGCAACTGCTCGACCGTCGTGATACGAGTATACACAACACGATCCGGA +TCAACACCCATTGATTTCAGATAGGATTTAGTAACACCTTTTTCTGAATCGTAGAACAGG +CACACAGCATCTTCATACGTTTTGAGATAAGCCGCTACGGTCAGCAAACCTAAGTTGGAT +TTGAAGTGTTTGGACGGGCCAGCGAAAAGGGTAAGACCAGAAGTTAGGCCACCGTTAAAC +GCACCGGACAACGCCAGATTCAGAATCGGCACACGGGTTCGCGTGATGGTAATATTGTTG +AATACGTCGCTTTCAGAAAGTACAGATGCAGTTTGGCTATTCGAGTTTTTGATCAGTTTT +TTTAGTAGTGCTTTGTTTGACATTTAATTTTTCCGATTTATTCATTCTCATTCTATATAT +CTCACTAGTTAATGAAAGGGGCCGAAGCCCCTAGAGTTTACCAGTCGCCGAACAGGTCGT +TTAAACTGGCACGTTTTTCATAATCAATTTTACATACTTCCGTGATATTAGTCAATGGAC +TAATAACATGTTTTTCAAACATACCCGGATAATCTACCCATGCCAGAATATCACTTTCGA +TCTCTGACGGTAGTTTATTTCCGGATTGCCACGCGATGCAATCGGCTTGCCACGGGTTTT +TATCCCTTAGTGGTAGAACCATTACCTTTTCACCTTCCATGATTGGCGTAACACCATCAA +TACCAGCAGTGAAACGGTTAAAGAAAAGCACCCCTTTAATATGGTTTGGTGTTCCCTTTA +TTGGATAGCCAGCCCCATCACGATATTTCGAAATGTTGTTGGCAGATGATACACCAGCAA +TTTCCCTGTAGTCAAGTGCCTTATATTCTTCTTCGAACTTTTTATAATGTTCATGCAAAG +ATAATTCACCTTCTTGCAGGATACGGCGGATCGCTTCTTTCAGGAATACTTTCACAGAGG +TCGGAGTACTCGATCGCTGTGTTTCCATACCCATGATTTTCAATTTCGGTTTTTCATAGC +GGGTTCCTTCGGAGTCCCACACGTTAGCAGCATATCGTTTTTTAGCAGTCCAGAAACTTC +CCAACCCTTCGGAACCCAGCGGAGGCCCAGAAATGATTTCACGATCCATAAACATCAGGT +GTTCCACGTTGTTCATGTATTCGCAAAGTTCACGATACCCTTTATCGATCATCGGTTCCA +TTCTTTCTTTAGCAAAGCGATCCAGGAAGTCAACCCAATGGTTATTATCCTTAAATTTAG +CCTCACCGCCAACTTTTGCAATCACGTTATCCATACAAACATAAATGGAGTCAGTATCAC +AGTATCGAACATATGCATGATCCGTAGTACCGCACAGGTCATTAAGGTATTCGTTTACCT +TACGTTCAATCCACTGGATAGCCAACTGCCCGAACATGGTGATCGCGCTGGCGTTTCGTA +GATCGAAGTATCGGAAGTGTTCATTACCCAACGCACCATAAAGGGAGTTGATAGAAATCT +TACGGTTAAGCTGTGCTGTGTTCGCTTGTGCGATCTTCTTCTCACACACGCGCTTAACTG +CTTTAAGCATTTGTTTCGTAAGAGTTTTCAGAACTGCTTTCGATTCATCACTGAAATCTG +TATAGAAATCAAAGTCAGGATCAACCATTTGGTTATGCGCGTCTGTTAAATGTTCGAGTT +CATGCTTGATGAGTTCAAGATTTCGCTCACCCGCCATCATTCGTTTTTTCCACATCTTAC +GCTGATCAAATACTTTCTTGATCTCTACTGGGATCACGCCTTTGATATCACGGCGGAACA +TCCACCCGTTAGGAGAACAGCTAAATTCATCGCTAGGGCGCGGCGCGGTCTTATTAATAT +ACTCTTCAAGAGCACGTACCGCAAAACTCCCCATAATCGTTTCAGGGCTTATATTCACCT +GTCGGATGATGGAAGGGTACAGGCTTGTTAAGTCGAACGATACCATGTATTTGTAAGGCC +CAGGAACAGGATCCTTCACAAATGCCCCAGGGTAAGGGGTTTTAGTATGGCGTCTGTTTT +CCGGAATAACAACCTTATCTTTACGCAGAGAGTTATAAATGATCGCGTCCCACGTTTTCA +GCGGAGACATAACCCCAGGGAAGTTAATTTTTGCATAGTACGCTACAGACAGAACCAGTT +CAATAAAGTTTCGTTTACCGTCGATATCAAGTACACGGATAACGTCAACAATGTTGTACG +TGATGTACAGTTGGTGATCGCGCTGGCGTAGTTCAGACAGAGAACCTTCATACTCAACTT +TATTTTTACCAGTTTCGTATTCCGCGATCGCGTCCAGGCGGTAAGATGGTTGCGGGGTAA +AGCTGAATTTCTTATACAGCGCCATACCATCCATTTGAGCAACGCCGAAAATATCATATC +CTAATTGTTCGTTGCCGTAAGCGTCAGTAGTGGTTCTGGCGGTTACTTTACCAAATGGGC +TAAAATGCCTTACCACGTTTTGACCGAAAATGTTCAGGTATCGCGTGATGATATATGCAA +TATCGAATTTGTCAGAGTTCCATCCGGTTACAATAACAGGGGTTCGCTCTTTCCAATCTT +TGATATACGCAGACAATAACGACTTCTCGGTCTGGAAAGACCGATAAACAATTTTGTTTA +AATCTTCTTCGCTAATGTCTTTGCGATCAACGTTTTCCGCGCACCATTCCGCAAGGCCAC +CCTCAACCAGATCGTATACATAGAATTTATCTTCAATGCTATCGTAATGGGTGATCGCAT +CGATTGGATATTTTGCTTCACGCGGATCCGGAAATTCTGGAGCGGTCACCTCGATATCGA +TAGAAGCAATGCGAATGTGTTCGCGGTTGTATTCGATTTCATTCCGGTACATGTCAGAAA +TGTAAGCCAGTCGGTAATCATCCATACCTAGAGCTTCCATCCCAACATCGCGCATACGCT +GCATCCAGCTTTTAGCTTCTTTGATGCTGTCAAACTGTTTTTTGAGGCAAGGCTTGCCGT +AAATGTCTTTGTATGGGGTTTCTACGCCATTCATAGCGTGTTGATACATTACGGGCGCAT +ATTTCGTCTTACGTACCTGTTCGGTGCCGTTAGAGTCAACGAAGCGCTCATAAATGGTAT +CTCCCATTTGTTCAACTGATAGGTAAAATTCATTCATTGGATCTTGTATTCTCCATTAAT +ATAATGTTCCATTGTAACACTACCTACAGCAAATTCAAGTTTACTCGATGTTCTAAAACC +AACAACCCTTCTGCTAACAAGTCACGGATCTTTCTCAGTTGAACAAGCTGGCGTTCAAGT +TTAAACCCGTCGAATAACATGCTAAAAATACTGGAATTTATACTATGATATTTTGCTTCT +GCAATTCCCTGGTTAACCATCATGATAGCTTTGTTAACCAGTAGTTTCCTTTCCGTTACT +GTATGTTCATCCAGTTGACAGGTTGCAAGGGAAACCAGATCATCATAAGCACGTTGGTCA +ATAACGTTATCCATACGGGCCGCGAAAATTTTATTCATGTAAGTGCGGATCATTGCGCGT +CCTCCATTCTTTTCATAAAGACTTCTTTTGCTTGTTGGATCAATTCCAGAGATTTTTTAA +TACGCTCATAGAAATGAGTGGTTTCAACTTGATTGCATAACAATGTGTACTCTGAAATGT +TACGATCGTAAAATCCAGGAAAGTAGTGTTGTGCATAGCTGTAAGTGCGGGTATCTGACA +GATTGCAAGTTAACGATAACAAGATGTCATCTTTTACAATCGGGATGATCAAAGTTTCGT +TGGATTTGATTGAATCCATGATTTCGTTAATAGTCATAATATATCCCTCTCAATGGTGTA +CACCCAATATAACAAAGCCCCTGCACGAATGCAAGGGCTTTTTGATTAGTGACCGATCCG +GTACTTGTACTTGAGGATCCAATCTGCTTTTTGCGAGTGAGTCAGTACGCGGAAGTTGTT +TTCTTCTGCAAACTTCAACCCAGGGGTTACGATCTTAACCATGCCCCACTCTTCGAGAAG +TCGCGCAATGTTGTTCCGGCGTAGTTCGTCTTCTTCCGTCATATCGACTTGACGACCATC +GAGTTTCAACAGTTCTTTAAAATGCACGATAAAATACTTACCTTGCTTTTTCAGAATGTG +GCACGATTGCCAGAGCATTTTCTTTTTGTTGTTTGCAATACCAATACGGGTTAGCGTTTC +ACGGATCTTTAAAAAAGAATCGTCGCTGATTAGTTGAATTTCTAACATACATCACCATTG +TTTAATCAATTTTTCCAATTTCTTTTGTTCAGCTTTGTTTTTCACAATACCCAACAAAGA +CAGAGCGACCTTTGCGTGTTTTCTTTTCCAATCCTCGAACATTCCGAGGTCTTTAAGTTC +CTGCAAATATTCCATCGCTGTACGTGTATTTACACTGTATTTTTCGCGAAGGATTTCGAT +AATAATTTTATCTTCAAAATCTTCCGATAGTTTAGCCCATGCACCGAAGCGTTTAGCCTT +CCTAACAGAGTTGAGATAATAGTTATAGTGCATTTGGTCAGAGATACTACCGCCTACCAG +ATTCATCACATACGCGTTGTATATCGTGTCTATGTGCTGGCTCATTGCGTTGTCTACAAA +GTACTTATCATACACTTCATCGATAACCAACGGCGTTTTGCCGTTGTTGATTTCGTCTAT +GATGTTAAACAAGGTGTTTTCTTTATCCTTGCCGTACTCTTTGACCAGTTCTTCAACCTT +ATCCCAATCTTTAGAAAGCCAAGCGGATTCATGCGGGGATAACTCTTCTTCATCCAGAAA +TTCCGCCAGGCTCATGATTACGCCTCCCAGACCATAGAAAGCATCAGGTTCATCAACAGA +TATTGCAGATGAATTTCTTTATTCATCGCCAGCCCGTATTGCGCGTTGTTTTCGCCTACA +ATCTGAATCAGTGCGATTTTAGAATCCTGATTCACGATAGGATAAATCGTATCAGTCAAT +TTTCCGATAAAGGTATCGTATTCTGACGCATATTTAATAACCTCAGAGCGCAACCCTTTA +TAGTTCTTTTCTTTCAACAGGGTAATGATATGAGACACATCAGAACCAACGATCTCATTT +AGGATCCCCGCATCAATTTCACCACGTTTCGAGTAGAACCCAATCGCTTTGATAATAGAA +CGCGCATCCGGATAATGCTCTTTAACAAACGCTGCAATGACTTTAGGATCATACTTGATA +TTCTCGATTTCAAGGATACCGAAACAACGCTTGATTAACTGTTTCATCAGTTCGATACGT +TCAGCATCAGACGGAACACCGAATTTAACAGGAGGACAACGAGAAAGCAGAGCACTATGC +ACACCGTTAATGTTGTTCGCTGTTACAATAACAGAAACGTTTTTACTGTATGCTTCGATA +AAGCTACGCAAGTGTTTCTGTGCTTCCGCCATACCAGAACGATCGAATTCATCAATGATG +ATAATCTTTCCGCCTGGTTTCTGCGTCATTGATGAAGCAAAACGATCCAGTTCATTACGA +ATGAAGTTTACACCACAGTTCGAACCGTTGACAAAGAACACCTCAGCATCAACCTCACGG +GCCAACACAAGCGCGAGGGTCGTTTTACCAGTGCCAGGGGAATCAGATACAAGGGTCATG +TTCTCAACACGCCCAGATTTGATTATGCCCCGCATAGCGGCTTTGTCACCAGAAGGTAAA +ATACACTCTTCAATCGTTGTTGGGCGATAGCGCTGATCCCATGCAAATTCATCAGGAGAT +CGAGAGATTTTACCGTATTTGGTTTCGATGATTTCAATATTTTCACTAAGTTCCATAATA +TACCTTCAAAATAAATGGTGTAAAAGAAAGGGGCCGTAGCCCCTTAAAACTATCTTACTT +GAATGTGCTACTTGCTTCAAGTACGACGACGTAAGCAACGCCGTTATCAGAAGAGAATTT +TGCGGCCCCTTTGGAGGAAATCTCTACTTTGTAATCGCTATTGATGAACTGCATGTTATC +AATCTTCATATCAAAATTGAAAACATTGTCGCCTTCATACTCACCGACTTCAACGGAGAA +AGTTGATTGACTTTCTTTGCTTTTCGCGGTGATGACCAGTTTACCATCAATCGGTTCAAC +GGACAGGTCGGTCAGTTTCATCATGCGAGACGCTTTGATCAGTTTTTCGAAATCGTTAGC +GGTAATCTGGAAAATCAGATCTGCTACTGGCATCACCAAACGTTTTTTCGGTTTCGGGAT +CGTTGTTGCGTCTGCTGAACGTTCGATGATCTTCATCTTGTCGCCGCGAATCACGATTTC +ACCAGTGGAAATATCATGAGTGATTTCCGCGTCAGTGCCGACGATGTTCAGCATGTTCAG +GAATGAGTTGAGATCGTAGATACCAACATCTTCATCAATCACATCAGCAATTTCAGCTTC +TGCGTATACAACGCTGTTGATTGATTTCGTCATGATGAATGAACCTTTGGTCAGCATGAT +CGAAGAGTTGATTTGAGAAAAGTTTTTCAGGATATCAATAGTTTGTTTAGAGAATTTCAT +ATTCAGCCTTTAGTTTTCAATAAGTGTTACTTAATAAGTGATTTTACAACGGTTTCCGCT +GCTGTGTCAAGCATATCAGCCATTTCTTTAACGGTTGTACGCTTCGGATCTTCGCGGCGT +TCGCTGGTAAGTTTACGATGTTCCGCAACCACTTTTTCATCAATGTCACGATAGTGTTTA +AAACGTTCCTCTTGAGGCATAGCCTTAAACAGTTCTTTTGTTTCGTCCGAGAGTTTAGCA +ACCCAGGATTTACGGACGCGGTTCATGTAGTCAACAAAAACATTACTTTCATTCATATAT +TTCTTCTCTAACTTAGAATTCTTTGAGTGGGGGCCGAAGCCCCCGCTTGTATTACATGTC +TAACAGTTTATCCAGGTCGTCATCACCGGAGGTATCAGAATCATCCAGGTCGAACGGTAC +GCCGTCATCTTCGCCTACCGGAACCGATGCAACACCACCAGATGATTTCACATCAGATGT +CTGATTGTCAAACTTAGCCATTTCGTTATCGAAGTTGCTCAGTTCGCTATCAAGGTCAGC +GGAAGCGCTGGAACCAGCAGAACCGATCGAACTACCCATAACTTTATTGAAGCGAGTGGT +CAGGTCAGCCAGCGGTTTGAATTCGCTTTCGGCGGTGATTGGGCGAAGATCGCTCATACC +TTCGAAAATTGCTTTCTGAACTTCTTCATCGTCGATGTTTTTGATCTTAGCCGGAACACC +AAACGAGCTATCGTCATAGTTAGGCCAATCACCAACTTTTTTCGCTTTCAGGGTGAAGTT +AGCACCATCAAACGGACAGGTTACAGCAATACCCGGTTCATCAAGTTCTGGATTACCGTT +AATTGCGGCGGTGATCTTGTCCATGATTTTCTTACCGAAGCGGTATTTGAACACCTTACC +TTCGTTTTCTGGAGCGCCTGGGTCTTTAACGACCAGGACGTTAGCCCAGAAACTTTGTTT +ACGACCGATCTGGCTCAGTAGCTTATCTTCTGGCCCGTTTTTGTTGGCTTTAGCCTTCTC +ATACAGATCGTTTTCGGAAATGTACTTACATGCAGGACAGCCGTCATAATCGCCGTGGGT +AGAGGAACAGTTCTCAATGTACCACTGGTTGTTTTTCTTGAAAGAGTGGCTCACGATACG +GACGAACGCCAGTTCATCATCGGAACGTGCTGGGAGGAATCGAATAACGGCGGAACCGTT +TTTCTGTGCGTCCAGGGTCAGTTTCCATTCTTTCTCATCTTTCTGGAAGCCGGAACCACC +TTTCAGATTTGCTACCTGTGCCTGGAGTTTAGCGGGATCTTGACGTTTAAAAATGCTGCT +CATATTCTGTTTTCTCGTTTAGTTTAGTTTGATTAACGTTTGTTTCATTAAGTTTCGATA +TTTTATGATATCTTTTTCAGTAAGGTCAAATATTTTTCTGTATGCCTTTAACTTAATGCT +AAAGTCAGACCAAATAATATCATCAGCTACTTGATCGTGTTTATTTATGATACCTAAAAA +TGAGTCAAAAATCAAAAACGATTCGTAAGATATCACATTTGACAGGACAAGTTTGCTTAT +GTAGGACGTTGATGATTTTTCGCTGTACTTGAACACCAGAGACACGGGGATCTCTTTCAT +TTTGGCGAATTCGTACACGTTTTTAACGTCATCCACAAACACGTTATCTAGTCTTTGTAA +CTTTCCTATGTACTGCCTGTAAAAGACAATACTATCTTCATCAACATCGCCTACCCAGAA +ATCCGGATTGGCTACGAAGTTGGAGAGGAATATAAAATAGATTTCTTTGAATGTAAAGCG +TTGAGCTAATTTTACAAAGAAATATCTATCCTTTCGCTTGTTAAAGGCGTTTTCACTAAC +TTTGATCTGCCAGTTGTATTGAAGGACATCAAAACGCCCCTGGAAATGAGTTTTCATCGC +CAGATATAACTTGTATACAGACAAAGGCACAAGCCGTGAATTCGCCTCGCTATCAGCAAA +CGGAGCTTTGAATCTCACATGAAGCCGTCCAGAGTGGTTGATGAACTATGTTCAAGCGCA +ACCGATGGGCGAAGCATGTTTCCTTTGATCGCTTCGTCGCTAATCTTATCAAGGATCGCG +CGAGGAACCGTTTTATTCAGCATCGCATAATCAATAGAATTTTCATCCATCCATTGTAGC +GTTGCTTCCATGTAGGTTGCCCCCTCAGAGGCAACCAGATTTTCGATATACAAACCGACT +TCGGTCTTATTTCCGATCATGCTTTACGCCTTATCGATCATATCATACAGTTCGATCAGT +TCGTTGTTTTCTTCTTCGAAAGCGGTACGGGCCTGTTCGTGATACAGTTTGAACAGTTTC +CCGAAGGTTTTTCCATCGATACCGAAATCGGTTTTCGCTTTGGATTTGATATCCTTGAAC +GTGCCGTTGAAGATCTCAACTTGAGTTTTCACGTTGGATGCTTCTTTGATCAGTTCTTTT +ACCTGTTTTGCTACATCAGGGTTTGTTTGTAAAAATTCTACACTCATTTTGTTACCTCAA +AAATCACTCAGTTTTTCGAACATACGGGAAAGTTTGTTATCCATGAAGTAACGTTCCATT +TTGGCTTTACTTCCGGATTTTGGAGTATTATACGCTTCAATAATCGAATTTTCAATATCT +TTTGGTATAAATTCGAAATCGCGTAGTTCCTCATTTTCTTTGTAACGTGCGGCCCATTCA +GGGGTCATCAATGTTGTCGGATCGTCTGCCTCCAGCCATGCCTCTAACTCAGAGGATTTT +ACCGCTGGGGCGCGTTCACCTTCAACCTTCGTCACAATATAATCATTTCTAATTTTAATG +CAAGCGATACTATCTTTTTTATCGCCTTTGATATTTTTGTATCGCAGATCGTTACGTGGC +GAACCGTACTTAGGCGTTACCCATTTTTTCTGGGGAGGCGACCATTGACGAACACCGTTA +TATTTCTGTAGTTGTGTAAAGTCGCTATCAGCAGAAACCACTAATACTCGTCTACCTTCA +CCAACAGCTTTTTTCGTAACAACAGCAATTATATCATCAGCTTCCGCGAATTCAACCTTT +AATCCGAGATAAGGCATATTCTGACGGATTTCTTCGAACACAGGATTAAGGAAGTTGTTC +AGACGATCCCAATCCCATTCTGATTCTTCGTGTTCGATCTGACGACGTTTTTTGTAGTAC +CAGGCTTTTTGCCTACGCCAGTAATTTCTGTCATCGAAGGCAATCACGATTTCTGGATAC +TCACCTTTAAATTTTACAACGTTAAACCGTAAAGTGTCAAGCACCAGATGACGAATCATT +TCGATCGTGATGGATGCTTGTTCCTTTGGTTTGAAGTTGTTCATCAGTGTAGCGATGGAA +ATGTTAGAGATATCGATGACCATAGTATCATCGGGTTCCCCTTCATCTTGCATCAGCTTG +TTCAAGTTAAACATGCTTGCAAAACTGCTCATACATACCTCAATTTTTCAAAGAACGGGG +TTATTGTAGTAACTTACGAAATGAAGTCAATACAAAAGACCATAAAATTTTGATCAATAA +TACTTGATCTGATCAAATTTATGATCTATAATTTATTAATTAATAATTATTTTACTACAA +TGATCATTGTAGGTCAAGTACTAAAATCAATAAATTTTATATAATTTAGATCTGATCTAT +AGATCATTAGATCTACTTTAACCTTAAATAATATAGAATGAAATTTGATTTTGTCTACAG +TTATTATATAATATTCTTAACTTCAAAGAGGAAATATGAATACTATGACTAAAGAAACAA +CCAATATCTACGCAGACAATGAAAAATTATACCCTATCCTCTGTGCATGGAAAAAGCAAA +TCGCCGAAACAGGTGATCGCAAAATGCCTAATGAGTTGGGGGCTGCTATTATGGATATTG +CAAACGGGCTATCACGTCGTTACAACTTCAACCGTTATTCCGAAGATTGGAAAATGGATA +TGATCGATGACGGAATTTCCGCTGCAATCTCAGGACTGCATAACTTCGATGAAACTCGTT +ATACCAACGTTTACGGTTACATTAACAAAGCATGTTGGCAAGCATTCGTAACACGTATTC +TGTACGAGAAAAAAGAGAACGCGAAGAAATATAAATTCTTCCTTGAGCACGTTTACGACT +GTGAAGATTCAGATATGGTTAGTATTGCAGACGAAGGTTTCATTCAAGATCTACATGACA +AACTATCTCAGTACGAGGCTTCCGCCACCAAAACCAAAGACAAGGAAGCGGAAGTATTCC +CAACATTGGAAGATTTTCTATGAAAGCAATAATTGACTTAAACAAAATATTAACTGATAT +CGATTACGAAATTGACTTGCTACCCTACTTCGTAAAATTAGAGTTGCAAAACGTGGGAAT +CCCGGTTATCATCGATCCAACTGACGTAAGAAACCCCGATTTCGAAGTAGAAGAAGGGGT +TTTGTCTTATATGATAAACGCCGAAACTATGATCATGGAGATCACTTATGATTGATGAAG +AGAAAGAAGTACTAACCAGTGTGGAAGAAGTGGATCCAGAAGAGGAAATTCAACAAAAGA +TCCAGGAACGTGTAGAAGCCGACGCATTGAAGCGAGCACAAAAATTCATTAAGAAGAACC +GGACTGAGATCAAACGCCTCCGTAGACACGCAGAGGAAGCCCTATTCAGGGGTAATAAGG +TTCAGTATGTGTATGCGGTTAAGAAACTTCGTGATATGCTCAAACAGCCGTATACAGAGG +ATTTCATTGATACGATGTGGAACACTTCACTAGCATCAATTCGAAATATCGTAGCTTCAC +AACAGAAGCACTAACAAACAAGTAGCCCCGAAAGGGGCTATGAGGGTCTTATGAGAAAGT +ACTTAATGATCGGGGATACTCACGCTGGCTTGCGTCAGGACAACCCCTGGAATGAAGAAA +ACCTATACAATGTATTCGTACAAATCGTAGAACACTGCAAAGCAAACGGCATTACCGAGG +CTTTCCATGCTGGTGATTTCTTTGATGTGCGCAAGGCCACCACACAAACCACGATGAAAT +TCATTCGTGAACGTATTGTGCCACTACTGGAAGAAGCCGGATTACATATCTATGTTCTGG +TTGGGAACCACGATTGCCAGTTTAAAGACAAGATCCGCCCTAACTCACCGCGAGAGATTC +TTGATCAGTATGATTGCTTCACGGTTGTTGATGAACCGATGACAGTAAATCTTGATACTT +CTCCGCTGCAATCAATCGATTTGATCCCGTGGATTTGTCAAGAAAACACCCAGCAGATTT +TTGATTTCATCAAAAAGTCAAAATCTCAATACTGCTTAGGACACTTTGAACTGTCCGGAT +ACTATTTCTATAAGAACAGTAAAGCGGATCATGGTCTTGAACCTGATTTCTTAAAGAAAT +ATGAAATCGTGTATTCAGGCCACTATCATCACGCTAACGAAGGCGCTAACGTTTTCTATA +TCGGTACACCGCTTACCATGAGCGCTAACGATGAGGACGAAACCAGGGGCTTCTATGAGC +TATCTTATGGCGACGGTAAACGTGAATTAACTTTCATTGCTAACCCAGTATGCCACCATC +GCCGGATCACCTATCCGGATCAAAAAGATGTTGATGTTGCAGATTACAAAAATTGCTCTG +TTCGCTTGATTGTGCGCGAAGTTGATAACGATTTGCCTAAGTTTCAAACAAAACTGGAAG +AAACAGTTTATGAGTTGAACATTGTCGATCGCGTGATCACTGATTCAGAAGTCGATACTG +ATTTTGAAATCAAAAGTGTATCTGGATTGATTAGTGAGTACATCAACAACATGCAGATCA +CTCCAGAAGAAAAGACCGAAGTATCTGCAATAATGAGTGCATTGTATGCAGAGGTTACGA +GCAATGGAAATAGTTGATTACGTTAATATTTTAAACGAAGAAGGGCGATATAAAGCCCTT +TATAAAATGTTTGGATTTGATGTGATTGTTGCAGTACAGCAGGATTCCTATAATGAGTAT +GTGTCATTGGGGTTCACTCTGATTAAAGACAACTATCACGAAACAAAGGTTTGGACATTT +ACTGTCCTGAATAGCATGGATGAAGATTCCGTGATATACTGCTTTGATAGCACGATTACA +AACATGATTAGTGATATATCCCAAAGGATAATTGATGAAACTCAAATTTAAAACATTGAC +TTATCAAAATATCTTGTCGGTCGGTAACGTACCGATCGTCATTGATTTTGATTCAGCAAA +GAAAACCCTCATTACGGGTAAAAACGGCGGTGGTAAATCCACCATGATCGAAGCGCTTAC +ATATGCTCTCTTTGGTAAGTCATTTCGCGATCTGAAAGTCGGGCAACTGGTGAACAGTAT +CAACAAGAAAAAATGTCTGGTTGAACTGTTGATCGAATACGGCAATGATGAATATAAAAT +CATCCGTGGACAAAAGCCGAAAGTATTTGAGATCTGGAAGAATGGCGAAAAACTGCCGGA +AGATTCAGCCGCTGGTGATTATCAGTCACAGCTTGAATCAATGTTGAATATTAACCTGGT +GGGCTTTAAACAGGTTATCGTTCTGGGTACTGCTGGTTATGTACCTTTCATGGAACTGAA +AACACCAGATCGCCGTAAATTGGTTGAAGATTTGCTTTCTCTGTCTATTATCAGTGAAAT +GGACAAACTAAACAAATCATACATCCGTGGTGTTAACCGTGAACTGGATACGCTTTCAAT +GCAGATTGGACACGTACAACAGCAGATCGCAACACATCAAAAGTTCATTGACGAACAACG +GGCAAAAGCAAATCAGAATACGGCGCGTTACCAGGATATCTACGATTCCCACGTAGAAAC +AGCAAAACAGATTAAAGCGCAATTAGTTGAACTTCAAACCCAGATCGCAGAATGCGTGAT +CAATGGTGAAGACCAAACAGCAAATATTCAAAAACTGCGTGATGGCTATACACGCCTCTC +AATGAACGTAGAACAGTTGCAGCGTCTTGAGGTGATGTATCGCAAGGGTGGTGAATGTCC +GGCCTGTAAACAGCCAATTAGCCCCACTCCTGAACGCATGGAAGAAATTGCCGAGAACAT +TAAAAATGGTACTCAGAAACTTACGCTGATTAAGAACAAGCAAGATCAGCTACAGAAAAT +CATGGATGATTTACTAACACAACAACGTACACTAAATGGGCTGAAATCCAAATACGAATC +ACTACGCGGTACACTTCAAAATGAAGTTGCAGCGGCTAAACGTGTTCGGGCTGTCATGGA +TAAAGCACAGGAAGACGTGGTGATCGACGAATCCCCAGTTGAAAAACTCCGTGAAGATGA +AAAGGAACTTGATTCTAAACGTTCTGGATTTGTCAAGGAAAAATATTTTAGAGGTATTGT +TACGGATCTGCTGAAAGATTCCGGCGTTAAAGCGAGCATCGTTAAACGTTATATTCCTTA +CTTCAATAAACAGATTGCGTACTATCTGGATCTGTTGGGTGCTGATTATCAGTTCACTCT +GGATGACGAATTTAACGAATCGATTAAATCGCTGGGTCGTAATGATTTTAGTTACGCATC +GTTCAGTCAAGGCGAAAGAGCACGTATTAACCTTGCTTTATTGTTCACCTGGCGCGATGT +AACCAGTAAAATTTCTGGTGTTGATTTATCCCTTCTGATCCTGGATGAAGTGTACGATGG +TGCAATTGATCGTGATGGTAGTTTTGCCGTAAAAGCACTATTGGATGGGATAAATGGTAA +CGTAATTGTTATCAGTCATCAGGATCTGGATCCGCAAGATTTCGATCGACATATCACCAT +GCAGAAAGTTGGACGGTTCACAAAGTGTACTATCAATGATCGAGGTGCATAATGTTAGAA +AGAGAATTTGAATTAGAAACCGCTCCGGAAATAGAGCGGTTTTATCTCCACAACAATTTT +CTTGAAGAAAAACATATAGTTACTATGAAAGATGTTGAGGAAGCATTCAAAGATAACCCT +ATAGAGTTGACGCGAATCAAGAACAACAAAAGTTCTGTTTGGTTCCTCGAAAAAATCTAT +TGACCGAAATCCATAAATACAGTAAAGTAGCCCATGTAACGAAACGTGGGCTTTGTTTTT +ATTTGAGGAACAATAAATGATCACTGAATCCAAAATGACTTATCAGGAAGCACTGAAAGT +TTTGGGCGCAACTGGTAGCGAAACCAGCGCTGAAATGTCCAGACTCTTCAAACGTGCATC +CTTACGCAATCACCCCGACCGTGGTGGTAGCAATGAATTAATGCAGAAAATTAACCAGGC +TTACGACGTAGTTACAAAAACTGGGCCTAGTGGCGCACGTTCTGAGACTGCTGGTGATGT +TCGCGCACGTTATGCACGTCAAAAGAAAGAATGGGAAGAAAAAGTTGATGCTTACTTTGT +AGTGGCGAAAAACTATTTCAGCACCAAATTTAACGCACAGGAATTTGCGGAATACTTCAC +CAAATACACTGGATTGCCTACCACTTTCAAACAGGAAGTAACAAAAGGTAGTCACGGTGT +TTATGCTTCGTTCCGTTTCACTTCTGGTGATGCTTACTTTGATTTCGGTTTCAACTGCAC +CCCTCCGAATGGACAAGGGTTAGCCGCTCCGGATTCATCTGCACTGGGTAACGTTTCTGT +TAGTACCTTTGTACTGGTTGGAACTAAAAAACATAAAATGGCAAGCCGTGATTATCAATG +GGGCAAAAACCCAGATAAGATCACTCCGGAAAGCCTGTTCCCGTCTAAAAAACTGGAAAG +CATTTTCAGCCCTGTACAGAAAAATATCAAATACAAACGTGCTGATTACCTTGCATCATT +CCGTAAGCTGTTAGGCGCTGACATTAGCGGAAACGATATCTTTGTTGAAGTTGGTACACT +GAAAGTTCGTTTCTATCGTCATGTAATGATGCGTAAAGGTGCGTATGTGTTTAGCGCGGT +GTATGATCCTGCTGTATCTAAGTATCGTCCGGCTGCACAACTTCGCGGAACTATGTTAGA +AGACGAGGACGGCGCTTGCCTGGATATGATCGTTGATACGTTCAAAGAGTTGCAGAAACT +GAAACCGAGTGTTCAAGGCGTTGTGAACGCGATCGATAAGATGAACGCAGAGTTTGCAGC +GGGACATCGTTCAGCATCTTTTGTTAAACGTGTAGCTGCTCAGGAAGCCGCGCCGAAGCC +AGAAGAGAAGCCAAAACGCACTGTTAATCGTATCGGTAAAGAGGAATACTTCGCAGCACT +AAAAGATATTGGTGCTCGTGTAATGCCTACCAGCGGTTATGTTGAATTTGATAACGGCGC +TGGTGTTACTATCAACTTCAAGCGTATTGTTGTAAACCGTAAAGCATACTACTCATTCAG +TAGCTTTGATTTCATGTACTCTGGTCAGAAACACATTGAGTGGTTGAAAGGAATCGATAT +CGCAGAAGATACCAAAGGCGCAAGCATTAGCCTACTCACTGATACTCTGAAATCTTTACG +TGGGATCTCTGACTGGAACACTGTTAAGAGCGCTTTAGATCAAATGAATTCTAACTTCAA +GGCGGGTAAATTCTCCGCACCTCATGTGAAGAAGGAAGCAGAGCAAAAAGCACCGAAACA +GAAAGACGAAATCGGCGCACAGCCTACCAAACCACAGGCGGCTAAGAAAGATACGCCGGA +AGTGGAAAAATCACAGGCTGTTCATGCAGCACGTGAGAAAGCGAATATGAACAACACTAT +TCGTAAAATGATGACTATGTTAGTCAAAGCACAGCGCAAAGACACTCCGGAAGATATCAA +GAAGGAAGTTGATGCAGCAATTCAATTGTGGCGCTTGACTTACTAATCAAATGAACTATA +ATGGGAACTGTTAACGCAGTTCCCTTTTTATTTGAGGAAAATATTATGAGTTGTCCAACA +TGGTTACGTTTGGAAAATCTGAAAGAAGGTACACAAAAACGGATTTATATTAATCTTGGT +TGGGTTCCTCCTACCGATTTTCAAATGGCTGAGATTTTAATCAATGCTGTTAAAGAAGTA +AGCGACACTTACGAATGGGAAAGGCTCTATTTTCCCTTGATTGGTTTGTATATGACGCGA +AATAAATTTGAAGAAATGAAACTTGCTGTTATTCGCGCTACGATTATTAATTCCCAACAA +AGATTTACTTTGAAAAATGCATGGAGTTCTGAATGATTATTCAAGTATCTGTACAGGGCG +ACACTCTGACTGTCACCGAATCCATCAATACCGCTCTTGCTGTATGTCGTGACCATATCT +CACAAAATCCTCCAGTGACTGAGATCCTGGAAATTGATGTTTGGGATCAGATTGGGATGA +TCGACGCATCATATGGATTTACCCCGCGAGATGAAGAACTATCTCGTATCGAATCATGGC +TGAATGAACAGGAAACGGAATGAAACTCCCTAAGAACACAACACTACTAACCCGCGAAAA +ACTTCACTCTGTTGATTGGTGTCCTCTGGATATCATGATTTTTGATATTGAATCTCGCGT +GATCAATGCAAAATATCAGGGGTGTAGTATTTTCTCTGTTGAATTCGAGAAGATTCGCGG +ATATGATGAGAAGTACAAAGAAAAACTGAAAGTTATGATTGAAGCATTAGGCTATATTGT +AACTGTTGAAGACAACAAAATGTGGATCGCAATATGAGCATAGTAAAAGCGGTGTTTGCG +CTGGGGCATGATATCTACCACGATGATTTCGCTTTTGGATATCAGCAAGGCTTGCCGTGG +GGCCACTGTAAAGAAGATTTACAGAACTTCAAAGAAGAAACCGCCGATAGCGTTCTGATT +ATGGGTGCAAATACGTTTACCTCTCTTCCGGGTAAATTGCCTGGTAGAATTCATTGCGTT +CTGTCTGGTTCCGGTAGTTTTTTGAAAACCAAAAAAGGCGAGGTTGCTGATTACGTGATC +CACGGTGGCGGGTTGTCTGCTGCTATTGGTACAATGCAAGCAACACACCCAGATAAAAAT +GTGTGTGTCATTGGTGGTAAGGGGTTGCTTTTAGATTCAATCAATAATAAAATGGTTGAT +GAAGTAGTTTTGACACACATTTACGGACATGATGTATATAATGCCCCCGCATTTAAACGC +GATGTTTCGTTTACTGCTTCTGAATTGGGTGATGCATTGTTAAAATATGAATTTTCTGAT +TTCGAAACTCAGTACATCAAAGAACATGAACGCATTGAAAAAATCATAGTCGATCGATAT +AAAAAGGTATAAAATGAAACAGTATCTGGATATTATTAAACTTGTACTTGATAACGGTGT +TGAATCAACCGATCGCACTGGTGTAGGTACTATTCGTATTTTCGGCGCACAAGCCCGATG +GGATCTAAACAGAGGTTTCCCCGCAACTACCTGTAAAAAACTATTCTTCAAACCGTGCAA +GCATGAATTGCAATGGTTCCTGTCCGGTTCAACCAACGTTGAAGAACTTCGCCGGATGAC +CTGGGGTGAAAATAGCGATAAGCGCACAATCTGGGATGATAACTATGAAAAACAAGCTAT +TGATTTAGGATATGATTCTGGTTATCTGGGGCCAATCTACGGTCATCAATGGCGTTCGTT +TGGTTCTCTTTATGGGGATGATGATAGTTATTATGGCGGTAGTGGTGTTGACCAGATAGC +AAAAGTCATTGAACAACTGAAATCAACCCCAGACGATCGTGGGATCATCGTTTCGGCATG +GAACCCCGTTGATCTTGATGATATGGCATTGCGTCCGTGTCACTGTTTCTTTCAGTTCGT +TGTAATCAACGGTAAACTGTCTCTACAGTGGTATCAGCGTTCAGTTGATGTCTTCTTAGG +GTTGCCGTTCAATATCGCCTCCTATGCTCTCCTGACGCATATTATCGCTGATATTTGCGG +GTACGAAGTGGGCGATCTGGTTTGGACTGGTGGTGATGTCCATATCTATAAAAATGCGGT +TGAACAAGCAAAAGAACTTTTACAGCCTAACCGTTCACCAATGCCATTACCGATTCTAAA +AATGCCGAAGGTAAATAGCTTACTTGATTTAGATCAAGAATTCTTTGACTCGATAACCTT +AGAAGGGTATCATAATCACGGCTCTCTAAAAGCTGAAATGGCAGTATGAAAAATGGGGCT +TCGGCCCCTTTCTTAACAAGGTAAGAGAATGAATGACATTAAAGTAGTAGTAAAATCCTC +TGGTGTACGCCAGCCGTTTGACAAAGAAAAAATATACAAAGTGCTCAAGTGGGCCTGTGA +TGGTCATAATATCGATGTTCGTGCATTCCTTGAAAATGTATTAGAACTGATCCGCGATGG +TATGACTACCAAACAAATTCAACGTATCGCTATCAAGTATGCAGCAGATCATATTTCTGT +TAAAGAACCGGATTGGCAATACGTAGCATCGAATCTTGAAATGTTTGCATTGCGTAAAGA +CGTTTACGGTCAGTTCGATCCTATCCCGTTCTACGATCACATCGTTAAAATGGTTGAAGC +GGGGAAATACGATAAAGAGATCCTGGAAAAATACAGCAAGCAAGATATTCAAGTTTTCGA +ACGTGCAATTGATCATGATAAGGATTTTGAATTTTCGTATGCTGGTTCCCAACAGTTAAT +CGGGAAATATCTGGTTCAGGATCGCGATACTGGCGAAATCTTTGAAACCCCTCAGTATGC +GTTTATGCTTATTGCGATGTGTCTGCATCAGGAAGAAACTGGGTTAGCACAGGTTACGCA +TATCGTTGATTTTTATAACGCAATTTCCGATCGCAAACTGTCTCTACCGACTCCAATTAT +GGCGGGTGTACGTACTCCTACGCGCCAGTTCTCCAGTTGTGTAGTAATTGAATCGGGTGA +TTCTCTTGGTTCTCTTAACGCTGTAACCTCTGCGATCGTGAAGTATATTTCACAACGTGC +TGGTATTGGGGTTAACGCGGGACATATTCGCGCAATGGGTTCTAAAATCCGTGGTGGTGA +AGCTGTTCATACTGGTGTGATTCCTTTCTGGAAACATATTCAAACCGCTGTTAAATCCTG +TTCACAGGGTGGCGTTCGTGGTGGTGCTGCAACACTGTATTATCCTTTCTGGCATCTGGA +AGTTGAAAACCTTCTGGTGTTGAAGAACAACAAAGGCGTAGAAGAAAACCGCGTTCGTCA +TCTTGATTATGGTGTACAGCTTAACCAGTTGATGTATAAACGCTTAATGAATCGTGATTA +CATTACGCTGTTTAGTCCGGATGTTGCTAACGATCGTCTGTATGATCTGTTCTATGAAGC +TGATCAGACTGCATTTGAAGAACTGTATGAAAGCCTGGAAAAAGATCCAACTGTTCGTAA +GAAACGCATCAAAGCGGTTGACCTGTTCCAACTTTTAGCACAGGAACGCGCACAGACAGG +ACGCAAATACATTTTCAACACTCATCACGTCAACCAACAGGGTAGTTTTACGGTTCCTGT +TCGTATGTCTAACCTGTGTTGTGAGATTGCGATCCCAACGTCGCCGCTGGATGACGATGA +TAAAATGGCTGGTGAAATCGGATTGTGTACGCTAATGGCTATCGTTCTGGATAACGCTGA +TATCAGCGAATTCCCGAAACTCACGCGTATTGCAGTACGTGCGCTTGATAACCTGTTGGA +TTACCAGAACTACCCTGTAAAAGCCGCTCTGAAAGCTAAACAGCGCCGTTCTCTGGGTGT +TGGTATCACCAACTATGCATCATGGTTAGCGAGCAACTATTGCGACTACTCAGAAGCGTA +TACAGACAAAGTTCATGAGTTAATGGAAGCGTTTCAGTTTAACCTTCTCGTTGCTTCTAT +GGAACTGGCGAAAGAACGTGGTGCATGTGGATTGTACAACGATACCAAATACGCTCGCGG +GTTACTGCCTATCGATTGGTATTGCAAAACCGTTGATGAACTGGTAGCACCTGTTTATAA +TTGCGATTGGGAATGGTTACGTAGTCAGATTAAGAAATACGGCTTGCGCAACTCTACTCT +TTCTGCTTTAATGCCTTGTGAAAGTAGTTCACAGGTTAGTAACTCTACCAACGGGATCGA +ACCTCCGCGCGGTTTAGTGAGTATCAAATCTTCGAAAGAAGGACACTATAACCAGGTTGT +GCCTAACCAGAATAACCAGATTGATTTCTATGATCTGCTCTGGGATATGGCTAAACGCGG +TAACAAAGGGTATCTGTCTCATGTAGCAGTTATGCAGAAGTTTGTCGATCAGTCTATTTC +TGCAAACACCAACTATGACCCGGCAAACTATGAAGACGGGAAAGTTAAAACAGAAGACAT +CATTGATGATCTGCTGTATGCTAACTACTACGGTGTTAAAACTCTGTACTATCATAATAC +GCGTGATGGTGCTGGTGATGAAGAAGAAGCCGCAGAAGATTGCGCGGGTTGTAAGATTTG +ATTAATGCCCCTTCGGGGGCTTTTTAAAGGTAAAGACATGTTAACAGTAATGAATACAAA +CCCAGATCATAACCACTTAGAACAACCTATGTTTTTTGGTGAAGATACTGGTGTTGCACG +TTATGAATCGCAGAAACACAAAGTTTTCGAAAGCCTGACGCAAAAACAGCTTTCTTTCTT +CTGGCGTCCGGAAGAAGTCGATCTGTCTACTGACCGTATGCAGTATGCAAAACTTCCTGA +ACATGAAAAAATCATTTTCGATTCTAACCTACAGTATCAAACCCTGTTAGATACCATTCA +GGGACGTGGGCCTAACCTCGCATTTTTGCCAATTGCATCCGATGTGAGCATGGAAACCTG +GATCGAAACGTGGGCGTTTAGTGAAACCATCCACAGCCGTAGTTACACGCATATTCAACG +TAACTTGCACATTGATCCTTCTGTACAGTTCGACCAAATCCTTCGCAATGAAGCGATTAT +GAAACGTTCTGCATCAATGACACGGTATTATGATACTCTGATTGATGAATGTCATAAGCT +GAAAACCATCATGATGCTACAGGAACAGGTTAGCGGCTATAAACCAAATGATCCGGCTGT +CGTGTATTATAACGAGCAATACACTAAACAGGCCACTAAGTGCAAAGAAGCTCTGTACCT +GTGTATGCACGCTGTGAACGCTCTGGAAGCGATCCGTTTCTATGTGTCGTTTAGTTTCAC +CTTTAACTTTGCTGAACAAGGCAAGATGGAAGGCAACGCGAAAATTATGCGCCTGATTGC +GCGTGATGAAGCATTGCATCAGAAAGGTACTCAGAGTAAAATCCGTTTGTGGCAAATGGG +TAAAGATGATCCAGAAATGGTTGAAATCTCCCGTAGGCTGAAAAAAGAAGCAACGGCTAT +CTTCCTGGAAGTATATGAACAGGAAAAAGAATGGGCTGAACATTTATTCTCTGTTGGTGA +TGTAGAAGGTGTATCGCTGAAAAGCACTATCGCTTATATTGAACACCTTACAGATCAGCG +TATGCGAGCGGTAGGGCTTGATTCACCATTCACCCCGATCCCTAACCCGTATCCGTGGAT +GAATAAATGGCTCAAAAGTGATAACGTACAGGTTGCCCCGCAAGAGGTTGAAGTAAGTTC +TTACCTCGTCGGAAACTTGAATACTGAAATCAGTGATGAAGCGTATGCAAAATGGGCCAG +CAAATACGCGTGATTGTCGGGTAGTAAACAAGTACAAAACTGATTGGGATGTCGATATTC +AAAGAGGTACGAAGTTCGGCAACCCTTATAACACAGGAACCAGGGGAGAAAACATTTTAG +CGTTTATCCCCTGGTTCCAGAATCAGGTTCGTACTGGGGCGATCACGATTGAAGAATTGA +AAGAACTTGATGGAAAGAGGCTTGGTTGTACCTGTGCGCCTCTTCCCTGTCACGGTGATT +ACATCGCGCATGTGGTTAATGTTTTGTGTGGTAAGAAAAGATCACTTGACTTTTTGGATA +TATAATGTATGAAATCTGAATTCAACTTAACCCTTGATAAATGTGGTCGCATCGATCGAA +GTTTTGTTAAGTGTGGTGAACTTAGGCATTGTGTTTATTTTATTGCAATTAACGATGAAA +TAGTATATGTTGGTAAATGTCGGGATATGTGGAAGCGTTTAGATACATATCGCAATGCAA +AGTATTGGAGAGAAGCCAACCCCAGCAACATCTTAAAAACGTGTCGATTGGAAATGGCTA +TCAAAAAACGAAAAACTGTGAAACTTATCGTGACTACTCACGATGAAAATACATATCATG +ATTATGAAATCAACATGATACGAAAATACAACCCTGAATGGAATAAACAGCACTATGACA +AAGGCACAAACTAAAATTATCAATACCCTTTACAAACAACTCATGCAGTTGTGTGGTGAA +TCCGAAACATTTTTCTTCGTTGATCAAGTAACCGTGATGGGTACACCTGTTCGAATCTTT +AACTATCGCATGGCCTCATATACAGACTGGCTAAAGCCTGGTGCTCTGGAATGTCGCGGT +ATCATGTTTGAAATGGATGGAGATACCCCCGTATCAATCATCAGCCGCCCTATGGAGAAG +TTTTTTAACTATGCCGAGGTAAAGGCATGGGAAGCGCTTAACGAGTCTCCTATTGAATTA +GGCGAAGTTTTAGACGTGATGATTAAAGAAGATGGTTCCTTGATCTCAACTTTCCTTGAC +GGTGGATTTCTGGCGGTCAAGTCTAAAGGTTCGGTTAAATCAGAACAAGCTATGGATGCG +CACAGCGTGTTAATGGCAAATCGTGAATTGCTGACCCGCTTAACTGAGATCGCTAAAGAA +AACTATACGGTGAATATGGAATACGTTTCCCCGAAAAACCGTATCGTTGTTGGTTATGAT +TCTCCGGATCTGCGTATCCTGAACGTTCGTCATAACATCACGGGTGAATACATCCCTTAT +GATGATCTGTTTGCTGACGCGCTGTTACGTGCGTATCTGGTTAAGCGCGAGAATATCGAA +GTACTGGATCTGGATGCATTCGCAAAAGAAGCATATCAGAATGAAGGATTCGAAGGCTAT +GTTGTTCTGACAACGAAAGGGTTTGTAAAAATCAAAACAAACTGGTATGTCAATCTGCAT +CGCACAAAAGATAGCATTACCAACAATAAGGATCTTTTCCTAAATATTGTTGAGAATACG +GTCGATGACCTGAAACAGCTATTCAGTTCGGATCTGGTCTCTCTGAAAAAGATTGACGAT +TTCGAAAAACTTTTCCTTGATAGTCTCAATCGTTTGAGTGCAAAAGCATTCAAAGCTATT +GAAGATAATAAAGGGAAATCGCGTAAAGATTTTGCTATCAGTCTAAGCGCGGATTTGTCA +AACGACGGTCGGATCATCTTCGGGCCTCTTATGAAGTACTTCGAAGAAACCGATCCACAA +AAACTGGTCGATCGCATCATTGAAATGATGGTTAAAAATTACGACCAGTTCATTCCTGGA +GAGTACAAGTGAAATCATTTGGCGCATATAGCCGAACGATAGAACAAGAAAAAGCAGGGA +TTGATTCCCTGCTTTCTTTCGTTGATGTTTTCCCCGAAACTGGAAAAATTTACTGGAATG +ATAAAGCATATCATAAAAGTAAGAGAGGAAAAGAAGCGGGTTCTATTGTTTGTGAAGAAT +ACCCTTATACGAAAATAAAGTATGCTGGGAAAAATTACATGAGGCATAGAATAATATTTT +ACTATGTTCATGGTTACTTACCAATCATAGTTGATCATAAAAATGGTCTTGATTTTGGTG +ATTGTATTGATAATCTTCAAGAATCCGATCCCGTTCATAATATATTGAAGAAAAACAAAA +CCAGAAAATCTAAAACTACCACATCAAAAGGGGTTGACTATCGTTCTTCTCGTGGAAAAT +ATAGAGCACAAATACGGATTAATGGTAAAACGAAACATATAGGATATTATGATACAGAAG +AACAGGCGTCTATCGCATATGAGGAAACTTTGAATGAATATCAAAAGCATCTTGGGTATG +ATTAATATAAAATCGTGGATATGGCCTATTATTGTTGCTTGCTCCCTAATAGCCCTTTTT +TACATTGCAGTTGATACCAAAATAGAAAACAGGCAATTGTCTAAGGATATCAAAGCGTTA +CAAGCTGATATCAAGAAAGTAAAAGAGACAAACAACAGTAATACAGTGATATACGTCGAA +CAGAAAGGCAAGGATCAGCAGTTAGTGAAAGATGCCGGACGTAAAGATCTGTTGTTCAAA +AAACCAGGACTGATCGAAATCAAGATCAACAAGTCCTTTGAAGAGTATATGAAGGATTAC +GAAAAATGAAAATCGCTACACTAGCGCTCGTTCTGGGCGTTCTGTTGGTCGGGTGTGCTG +AGAAGCCACCAGAAAAGATTTTGCCTACGCTACCCGCTAAGGTGAATCCGGTCAATGTGA +AATGGAAAGTGGTTGCAGAAGTAAGGGAAATCGACGGGAAGAAATATCTGGTCATGCCTT +ATGATGGTAATCCATACGTTGCCCTTTCATACCCAGATTCGTTAATCTTCCGTAGCTGGA +TGAATGACGTTAAGCGTCAGAAAGACCAGACGGATAACATTCTATGCACCGTGGGATACC +CCGAAAAATGCAAGTCAAAATAATTGATACATTCTTTGATGACTTGACGGTCGGAAAGGT +GTATGATGCTGTAGAATCCAAAAATGAACTATGGATTGATAGCGATTGGGGGATTGCAGT +CAATCTGCATACCGAAGCCAGTCAAGAACTAATTGAATATGAGATAGTGAAATGAATCTG +TTTATGACTATTGGCGTTCCGGGTAGTGGAAAAACTACCTGGGCGCATGAGAAAGCCCGT +GAATTGGGTAATACTGTTACGATCTCTCGCGATGATCTGCGTAGCTCTTTGTATAATGCG +GGTAAAGGTGCTGGCGGATACAAATACACCAAAGCGAAAGAAGACATGATTGCAGAAATG +CAGGATCACGTTGTTATCTCCACTCTGAAAGATGGTAAAAACGTGATCATACACAACACA +CATCTGAAAGAAAGTGATAAAAATCACTGGCGTGAAATTGCGTTGGAACACAAAGCTGAT +TTTCATATTGAATATTTTGATGTGTCTATTGTTGAACTGCTTCGCCGTAACCACAAACGC +GGTCGTGATGCATTACCCGTTTCGCGTGTTTGGGAAATGTTTAACCAGTATCGTAAGATC +CGTGGGTTCGTACCAGCAATGGAAATTGTCAATCCCCACAATCAGAAATGCGTGATCTTT +GATGTTGATGGTACGCTAACAAAAGTAGGGCAACGTAGCCCGTATGACTTTACCAAAGTG +ATCAATGATCCGCCAAACATCCCGATCCATCAACTGTTTCACCTGTACAAAAATGCAGGG +TATAAGTGTGTTGTTGTGTCTGGGCGTGAAGGTAATCCGCAATGCGCACATGATACATGG +GTTAGCCTGTTGAGTTATGGCGTTGAACCGGATGAAATTTTTATGCGTCAAGAAGGTGAT +ACCAGGACAGATTTTGAAGTAAAAGAAGAAATTTTGTTTGACAAGATTTTAGATAAGTAT +TATCCTGTTATTGCAGTGGACGATAGAGACACTCCGGTCGGAATGTGGCGAGCAAACGGG +ATTCCGTGCTTACAAGTCGATTATGGTGATTTCTGATTGACATATAATGTGGGTATGTTA +AAGTACCCACACAAAAGAGGATTATATTATGAACGTTATTCGTGAAGATAAACACATCAT +GGTTGAACTTGGCGATCGCATTCGCGTAGAAAATCTGGGCGATTTTAACCAAAAAGTTCG +TTTGTTGTGCCAAAAAATTGCTAACAAAATTCAGGAACAGGGTAAAGCTCCGGGCGGGTT +TGAAGTTAGCGCCACTCCGGTTTCTCAGTACTCCTATATTGTGTATATTCATGACGTGGA +TACTAACAGCACCCAATCTTTCGGGCTGGTGTTAAATCCTATTACTGGCTACGTTACATG +GGCGGCTGTATTATGAAAGTAAAAGTAATTGATAGAGCGATGATCACGGATGAATCTGTA +TACCCAGATCCTCGTTATTATGGCGGTGTTTTCGGATACATCAAAGGAACTGATATTGAT +GTAGTAACAAGTCCGATCGCCGAATACGATATCAACAAAGATCAGACAGAAGTTCGCGTT +ACTACAATCAACGGTTCAGAATATATCGTTGAAGCGACTCCTGATTTTATCAAACAGTTA +CTAAAGGTGATGAAAGATGCTTGATCATCCTGGCTCTATGAGCATGGTGCTTCTGGAAGC +ATTGAAAGCATATGATATCCCCTGTCATTTCGGTGAAGTAACTGTTAATACTATCGTTGA +CGAAATCGACAATCCAAATACTTTCATTGCTTGTCTTGTTCGAAAATTCACAAGTTGTTT +TCGACCGAGTCCAGAAAAAGTAGTAATCAGTTCTGTTTCTGCACATCATCGAGTGTTAGA +TGATGGAAAGATTCAACTTTACTGGAAAGTTCTTTATCACGTGGTGTATCATGAAGATTG +ATGATATTATGTTTATGCTTAGAGCAATAAGCGCTTCTAAGTTCTCTCAATGTGTCTCCG +TTAATGTTGGTGCTGCATTGAGAAATGGTAACGGGCGTGTGTTTGTAGGCGCAAATAATA +CGGTTGATCCTAGTCATCGTTGTACAGATCAGTGCAATCACTTATTAGATGATAACGGGA +AACTGAGTGAAGAAAAGCGCCCTGAACATTCACAATGGTCAGATCGCAACGAAGTACACG +CAGAAATGCGCGTTATTATGCTGGCGGCGTCTCATGAACAAATCAAAGACGCAACTTTGT +ATACAACTCATTCCCCTTGCTCACAATGTGCGAAAAATATCGAATTTTGTGTTGCAACAG +GTATGATTAAGCGTGTAGTATATCTACATAAATACGATCGTGGTGGCATCGAGTGGATAT +GGCGTCTACAGCAATACGGTGCCGAAGTAGTACAACTTGATCCCGAAGAATTGAATAAAC +ATTTTCGGATCAAATAACCAATGAGTAAATATATGTCTGAACTGAGTGTAAAAGCATCCT +TTGAATATGTTCTGATTGAAACCAACGCTAAAGCGGCTGGAACTGAAATTGTATCACCTT +CTGGTATTGTGACTGGTGTTCGTCAACACGGCGAGGAACCGATCTACGGCACAGTGTTAT +CATGTGGGCCGGATGTACCGGAAGAATATAAAACCCTGCTTATGGGTAAGCGCGTACCGC +TTCCTCATGCACAAATGGCAAACGTGCCGGATCCTGAACTGATTGCAGGAAAGGCAACAA +AAGAAGAAGCTCGCAAGTATCCGGTTAAATATGTAACCGCACACTATAAAGCGATTCAAG +CAATTTACGAATAAGAGATCCAACATGGCTAAACAAATTCAAGCAATCATCGCCGATACC +GTCGCAAAATCTAAAAAACTTTTCGACAAAGGCGACATCCTCGAAGCACCGACCCGCATC +GATGTAATGACTTCAATGATCATTGATGCTCACCAGGGAAAACTAAATTCCCGTGCTTCG +GAAGTAATGGAATACATCGTACAGTTCGAGGATGTATGCAAATACGCCAAAGCTGTTGAT +CCGGCTGTTCGCGAAATCTACCGCAAACAGTTCTAAAAATATCGGCCCCTTAGCTCAATA +GGTAGAGCTAATCACTCATAATGGTTAGGTTCCCGGTTCAAGTCACGGGAGGGGCCACCA +AACAAGGCAAGGCACTTAGAGAAGCGGGAGGAACAGAATCAGATTCTGTTGGTTGTAGGT +GCAAATCCTACCCTTGCCACCAAATTAGGGTGCGTAGCGCAATGCCGTTAAATGGTTCGG +AATATGCAACCTTTCTCACGGAGAAGGCTCTGTTGGTATCCGGTAATAGGTTCCCCGGAA +TGCGGGGTGAAGTAAAGAAACTCCCAGCCCACTAATTTTAATGAGGTTTATATGAAATTT +CGTGAAACTGTGAAATACCATAACGCGGTCGAATATACACAGATTTTTGTTGATATGTCT +CCCGCAAAATTCAAAGAACGTTATGGCATGACATTTAATGAATGGAAAGATGGATTGCCC +GATGGGGATTACCGAAAAAACTTCAAATTCAGTGAATGTTATGTGGATGATGACCCTTAC +GATCTGGATGTTTGTAGTAAAACAACACCTCTCATTGAGAATTCACCAGAACAGCTTTAC +GAATCTTGTATTGATTCTGCATACGAAATTTAAAGAGATAACATGAAAAATTTACAAAAA +CTGTTTAAAATGTCTCCGGCAATTAGAAAAATCATCGGAGAAAGCAATCCAACGAATCGC +AATAAAAAATTGATGGAACTTTTTGTAAAAGAGTTCGATGATTTTGATTCTGAACTTCAT +AAAGCGCTTGAGGCATATTCCAAACAAGGGTTCTTTGCATCGCCGCAAGTGAATAGTAAG +AAAGAGTATAGCGAACGATTCTTTGATTGGGAGATTGTCAATCTCGTTCGTAGAACAAAT +ATATCTCCGAGCAATCATCAATTGATTTCTCTTGATACTTCGGTATTCTTTATCCAGTAT +CTTATCAGTGGTGGTTTCAAAAATCCTGAAATTCCGTTTACAAATGAAGCGGTTAGCAGT +GAATTTGATGAATCATTTGTATACATCAACACAAACAAATAATCAAATGGCTATCTTCGG +ATAGCCTTATTTTTGGGGTGTCTATGCGCTTTTTAAAGTATGCAAGTTGGATCGTACTCG +TCCCTCTTGACATTATTACTGGAGTATTAGCAATTCTGTTTGCCCCGTTTGTTGTACCAT +TCTACAACGAGAAAACAGGGCATCTTCCTAAAGGCTTCCGGTGGATGGAAACCTTCGATA +ACCCTATTGATGGTGATGGTGGACATATCCGCCGTTGGGCGTCCATACGCTATCATCTGG +GGGCTTTTGGGGTGTACATGCAACGTGTTGGCTGGTTGTGGAGAAACAAGGCTTATAACT +TCGCATATCACGTTTTAGGACGTGAAGCGACAAGCAAATTCAACTGGAAAGGCAACCCAA +AAACAGAAGGTGGGCCGAACCCTGTAAATCATGGGTATCTGCTCATGTGGAACGAATCAG +CATGGGGTTTGTACGTTTACAAACCGTGGCTACGGATCCACAAAGTGCAATTCTGTTTGC +GCGTTTATGCTGGATGGAAGCTGAAACAAGAAGTTAGCGACCCAGTTAACCTGGATCGTG +CAATGCTGGCGTTTCATTTCAACCCGTTCAGGTATTATGTAATCAAGTAAAGGTAATACA +ATGAAAGCATTTCAAATTTTAGAAGGTTTGCATACTGGTACGATCTATCTGGAAGAAGGT +AACGATGTTCGGATCGTAGTATCAAAAACATTAACTATGGATTCTGTGATCGGCAAAGCT +CGCGTTACTCCGTTTGCAAAGCGTGAGATCGAGATCGAATATCAGCCAACTGTTAAGGTG +GAAGGTGGACAACATTTAAACGTTAACGTGTTGCGCCGAGAAACTCTCCTGGATGCGGTT +GAACATCCTGAAAAATACCCACAGTTAACGATCCGTGTTTCTGGTTATGCAGTGCGTTTT +AACTCACTGACCCCTGAACAGCAACGCGACGTTATCGCCCGAACCTTTACAGAGAGTCTA +TAATGGCAATTGATGATATCAAGGGTTATAAACCCCATACTGATAAAAAAGTAGAAACGG +TAAACCGTATCAAAGATGCTGAAAATGCATTAGGTGCAATCCTGGAAGATATCGAACAGC +GACTATCAAATTCAGATATTGATTCACTGATAGAGGAAGAATTAGATGAGGTGCTTGAAC +GTATCCATCAAATTCAACTAGCGAAAGACCGACTGAAAGAAGCCTCTATGTGGGCGTGTC +GTGCGGTGTTTCAGCCTGACGAAAAATATTAAAAATCAAGCCGTTGCCGAAAGGTAGCGG +CTTTTTCTTTTTTGGTGTAAAAAGTTGTTGACTCCCTTCTCACATTCCCTTATAGTTAAT +CCCGTAGACAAGAAAACACTTTTATGAGGATGACATTATGAAACGCTCTTACAACATGAA +TGAACTGGTTTTCTTCAAAACTCGTCGTGAAGCACGTGCTTACGTTCTGGCGGCTGGTAA +AAATACTTCTGCTGCTATCGATATGGGTACTGATAAAGCTGTTGGTGCTCGTTGGGCCGC +TGTTATCGTTATCGCTGCTCCGGTTACTCCGGTTAAAACTCTGGTACTTGGTGCGCGTCA +CGCCGAAACTCTTAACACTGCTGCAAGCGGTAGGGGCCACGAAGTTAAAGTGTTCAAGAA +GCGTTCTTATCTTTCATGTGCAAGGGGTTAACTATGGCACGATTCATATATAAAGTGGAA +TACGAAAATACTGAGTTATCTGATACCTTTTTGAAGATGATTCGTGATCACGGGCAACGT +CTGGAAAGAGTAACGATTGATACTGCGTTTGATTGTCCTGTTGGGTTGGTTCTAACATTA +TCTTGCAGCCCCGCAAAAGAATCAGCCCGTGTTGAAATGTTACATAAACTAAATGCATTT +TATGAAGGTGGTAGTGTATGGCGAGTATTGTAAAATTTTTCACCGACTCAGTGAAAGAAA +TTAAAAGCGCTCTGGAACAATGGAACACTCGTTGTGATGTATCCATTAAATCAGAGTACG +AAACAACTTATGATCGTTATGATCCGGCCCGTGGTTTGCACAATAACCCCCATGAGGTGG +AAGTGTGAAATACTACGGATTCAAAACGAGTCATTTTGGTAAAGCGTATCGTACAGAAAA +CATCGATCGCAAACGTCCGTACTATGATTCTTTAGTACGCGCGGGACGCAAACGCGCTCG +CCAGGAAGGGAAGAAAGAAGGTGAAGATCGTGGATAATTGGAAAACATGGGTATCAATTA +TCGTTGGTGTTATCATCGGTCGCGGTTTGTATGATTTAATATTTTCGGCGGGGGTTCATT +ATGGACATTGGTTCGGGTAGTCAGTACCCATCATGCGCGTTAAGCAACTTCGCTCCGCAT +CCATTCACGTTTGACGGGGTAGAATGTGCATCAATGGAGGGCTTTTTACAAAGCCTTAAA +TTCAGCAACCCAGATATGCAAGCCCATGTATGTACTCTGGTAGGCAAGGCCGCAAAGTTC +AAAGGCAAAAAGAAAAAATGGTGGACTAACCAGACCTTATACTGGAAAGGTATCCCTATT +CATCGTTCCTCTGAGGCGTATCAAATCCTGATTGAAAACGCATATAATGCATTATTCCTT +AATGAAGGGTTTCGCCGTGCGTTGGCAGCAACCGGAAAAAGTACCTTGACACATTCAATG +GGAAAGAATAAAATAAACGAAACTGTACTGACTGAAAGAGAGTTTGTACGCAACTTAACC +CGATTGAGAGATCTGTTATGAGTGAAAAAGAAAGAGTAGAATGCGTGTTTCTGTTCAAAG +GCGCGATTAATCCATTAGCGTTACTGTATGCGCAACATGCATTACGTTCAACGTTGATTC +AGAGTGTTATCTATAAAGCAGGTGTGTATTATGTTACCATCGGCGCAAATAACATGGTTG +TTATTGAATCCTACGTTAAGGAATGTGCATTAAACGGCGTTGTCTTTGATAAAGTCGATT +TTGATGCTGGGGTAGATGCTGTTTATATGTATAAGGGTTGATATGAGTTACGTAGTTTAT +TTCGATTGTTCGGATCTCGATCCGTTCGTGCTTCAACAGGCAAAGAAATATCATCAAGAT +GTCGTTGGCATTGGTGTAACAAATGATGATATGTTGTGCATCGAATTTGAATATTATCGG +ACATTTGAGCGTGAACAATTCCTGGGTGAATTGAATGCATTCAAAAGTACCCTTTTCTTT +GATCGTTATGAGGTTATATCTTGAAACCTGTTATTCTTACCGATATTGACGGGATCGCCG +TAAAATGGCAAAGCGGCCTCCCGTTCTTTTTGTCTAAGCACAACATGCCTACTGATATTG +CATTAGAAATGGTTACAGATGAAAAATTTCGTGATATGACCGAAATCTTCGGATGTGATC +AGCAGTTGGCTAAAATCCTTATGGAAGAATACAATAACAGTTCTTTCATTCGTTATCTGA +ATGCGTATGATGATGCATTGATTGTGATCAACCGTCTGAAAACGCAGTATGATTTCGTTG +CCGTTACCGCTCTGGGAACAACACCAACGGCAAGCCTTAACCGAATTGCTAACCTGAATA +CTCTTTTCCCGTCTGCGTTTAAAGAGGTGATGGTCGTGGGCCACGGTGAAACAAAAACTC +ATCGTTACCTGGAAGCAAAAGCAAAGTATGGTAATCGTCTGGTTTGCTTTGTTGATGATC +TCGCGATAAACTTAAACGAATGTCATAACGTCATTAGTCAGTTGCCGTTATTCCATATGT +TACGTGGTGAACGTGAAGAAACAAATGCACCTCACCAGTTAGTAAAATCGTGGTTTGAAA +TTGAAGAGAAACTAAATGATCTTGTCAATCCTTAATGAACTTGCGTCTACTCTGAAAACC +AAAGAGAAAGAAGCAATTTTAAAACGTAATGCCGATAATGAATTATTGAAAGAAGTTTTC +CGCATTACGTATACAAAACAGATTATGTTTTATGTGCGTCAATTTCCTCTGGTAGAAGGG +AAACCAGGCACAACACCGCTTTCCGATGCAATCAAAGCATTACTGGAAGATTTAGCAAGC +CGGAAATATACAGGCAATGCAGCGCGTGATCGTTTACTGGATATTGTATCATCAGTGAAC +ATTAACGATCGTGAAGTGCTACGCCGTATCATTAACCGCGATCTGGAATGTGGTGCTGGC +ACAACCTTACCAAACAGGGTATGGAAGAAACTCATTCCTGAACAGCCTCAATGCCTCGCT +ACGCCGTTTAGTGAAAAGGCTTTACGTCGCATCATTTTCCCTGCTTACTCGCAGCTTAAA +GCCGATGGTGCGCGTTGCATGGCTGATTTGCTGGAAGCATTAAACCGTAAGGTATCGAGA +GCGGGTAACGAGTACGAAGGGTTAACTCAGCTTGATATCGATCTGAAAAAGATTCGCGAT +TATCTGGGATATGATGTAGTTCTGGATGGAGAATTGATTTATGTTCCTTCCGGAACCGTA +CCAACATTACCTGAACCTGAAACAGACATGCCTTTTTCTTTATCTGCTTTCATGGACGAT +GATGATAACGACATTGCGTTATTTGCGGAAGAAGTTCGCAAAGTATCGTCCCCAGAAGAA +GAACAGGCCGAAGCAAAACGCGAAGAAGGGAACGGGATCGTAAACAAATCTCTGAAAGGG +ACGATCACCGAAGAAGAACAGCGAAACATTGTTTATGTTGTTTGGGATATTATTCCATAT +GAGGTGTATTACGGCGAAGCTGAAAGTGTTCAGACTTATGATGAGCGGTTTAGCCTGTTG +CGTGATATCCTCCTGGATCTTTCTCTGCCTTCTGTTCGTTTGATTCAGTCTAAGCTGGTT +AATAACATTGCAGAAGCGAAGCAGGACTATAACAATTACCGCAATGACGGTAAAGAAGGT +TCTATTCTCAAAAACAGAAACTTCAAATGGAAAGATTCGCGAGTAGCCGATCAGGTTAAG +CTGAAAAACAAAACCCCGATTGAACTACGGATCATTGATATCTACGCGCACACTAAAGAA +GACCATAAGGTCGGCGGGTTTGTGGTGGAAGATTTATCCGGAATGGCTCGAACGAATACC +GGATCTGGGTTAACTGATACCGATTATCGTTACGATGATGATGGTATTACCCGTGTATAC +ATTCCATTAGATGAACGTGGTGAACTGGATCGCGAATACATCATGGCGCATAAAGATGAA +TACATTGGGGCCATTGTAGAAATGGAAGTTGACGGCCTCCAGAAGTCGAAAACGCGTAAG +AAAGGGGAACCGGAATACAGTTTCTTCCTTCCTATTATCAAGAAGATAAGACGCGATAAG +ACCGAACCCGACGATATTCATGTTGTCTTTGCAGATCTATTTTAATAAAAAGCCCTTGAC +TCCGGTCGGGGGCTTTGTTATATTGGGCCTATCGAAACGTAAATCACTAAGAGAATATAT +TATGACTAGTAGTTATCAGAAACACAAAACCCTTATGGCAAACCTGTCCGGTAAACATAT +CGACGAAGTAAAATCTCTGCTGACAGTGACCGAAGGTTCCCGATTCGAAACAAATCACAT +TATCAAACCTTCTGTGAAGAAAGTACTGAAAGTGATTTACCGACATCCGGTGTATCAGTG +CGTTCATATCATGAACAGCAACGCATTTATTTTCGTATATAACGAATCCGATGATAAGTG +TGTTGGTATTTTCCGAAAACCTAACTTTGAATGCATGAGCGAAGCGGCTGTTGCAACCCC +GATCGTTGAAGAATATCCGGATTATGTTCAACGCAACATGCGTTATGTGCAATCCCGACT +TGATTATGCATACGATTTCAATTCTGACGCGGTAGAAGCGCTGGCGGATATCCTTTGCAA +AAACCAGAAAGATCGTCAAATGACAAAATATCTGACTGATCCAACACCGCCAACAATTCG +AATTTCTGTTGAAGTTCCGTTTGAAAATCATTTCATGGCAGTTGAAGCGCTTGCTAAACT +TGGTTTAGAAGTGAAAACAGAAGCCGTTTAATAGCACTTTTTGTTAAAGAAGCCTCTTGC +AATGCAGGGGGCTTTTTTGTATAGTGTGTTCATTGAAACGAAACACGGAGATAAACAAAA +TGGCTCACATGATGAAGAAAGCAGAATTCCTTAACCTGGTTAAAGATTGCGGATTCGCTC +ACTTGAAAACTTTTCGTGGTAGTGTTTACCTCTATGACCGCGAAATCCAGGTTGCCGAAG +TCTATTGCGCTTCTAACATGCAAGAATCTGGCATTATCTCTGCAATGAACCAATCAATCA +AATACCGTAAATGGATGGGCTGATTATGAAAGTTAACGTTTCTTATGAATCTCGCGTTAA +TGGCGCACAGTGGCGGAAGCTGGATAACGGACAAGTGGAAAGGCGCTTACCTGGTTCCGA +TGAGTGGACACTTGCGGCAGTGTTGGAAACCGAAATCGATCTGGCAACAAAAGACGGTAT +TTTGTTTGAGGTGAAGAAATGATCACACTCAGTGATTATCTTCTGTTTACTGCTCTTTGG +GCGGCTTCGATATTCATAACTGCTTTGATTTACAATAAACGTGATGATTTTGGGTTGTGG +GTATTCATTCACGGGTTTCCTCTGTCTATGTGGATCGTGATGACTGCTGAAATTCTCCAT +TAATAGCACTTTTTGCTAAAACTATCTTGTTCTTGTTTGGTATATTGTGTTCATCGAAAC +GAAACAGACAAAAGGAACATCACATGAACTTCATCGATATCAACAAAGATTTAGAAGGTA +AAAACATCAAACTCGTTAACCGTGAAATGTTAGAGAGTCTTGGTAATGGCGGCGAAAAAT +TCAGTGAAGAATTCTATAACAATTTATCGTTGATGACTGTTAAACGCGTTGATGTTCAGG +GTGGTTCTGGTTGGGTTTCTGCAATTCCGGTTTCCCTGGTAGATCAAGCAACATATGACC +CAGTTGCCGATTCATGGGATCTAGAAATGCCGTTGGTATTCGAAGAAGTCATGAAGTGCT +ACGAAATCGCATAAGGGTATTATTATGAATAGCGGAAAATTACAAATGAAAGTTAGCGAA +GAAGAAGTTAAAGAGCGGTTATCGGTAGCAAGAAGATTCCTTGAATCTATCGACCCTGAT +AAACTTGGAAAATGCCCTGATACGATTTGCCTTAATTGTGGGCGTTCTGTTCTTGTTGGT +AAGTGTTGCGATAATCCAAATATAGTTGTGATGGAAAAGGAACAAGTATCCCCCGAAACA +TGGGATCAGATCCAGGAAATCATTAAAAACCCTCCAGCGCCAACCAAGAAATTACGTGAA +TTGATGACAAGGAAAATGAAATATGAGCAAATTTAAATTGAGTGCAACCGTTCGCCTTAT +TCGTTGGAATGGTGAAGAGATCCGTTATGATGACCCTGAATTCGCCCATGAAATTCTTTC +ACATCGTCTGGGATTGAAAAACGCGTCATTGGTTCAGACTGTTAAAACATCAGCAGATCC +GGAAATTTGGCGTTGTGTTATCCTGGATCTCGATAACAACATTGACTATGATGATCCTAA +GAACTATCCGCTTCTGGAAGCACAAGTTGAGAATGCTCCAGAAGACAGACAGTGTTTTTT +GGTTGAGTTACCACGCGAACATTACGAAAACATCATAAAGGCCCGTAAAAAGGTCAATAA +CAATGTTTTCGATCTCCACCTCGGATTGTTTGAGGATTAAGTACTGCTAGTTGTGTTCGT +AGTAGCGGCGCTGGTAGGTTCCCCCACCTGTATACATTCAAGTGTTTGCAGGTGGAAATC +TTTTGATACGTCTCGAACACATTCAACAATCAGATATTTTCCTGCATACTCTTCCCCAAA +TACCTCAATGATTGTCCCTACCTTAACATCTAAACGACCCTGCTTTATATCGAATCGGAT +CCGGCGTTCATAGCTGGATAGCAATTGCATTTTAGAAGCCTGGAACGGTTTACCTTCTGA +ATCTGGGTTCTGAAAGTTGGTATCATAGATTGCATTACGGTTTGTGAAGATCCATGTATT +CTCTGTGTCTGTATCAGCCAGTATATCACCGTACATCTTTTTATCAGTCAATGACAGACT +AAAGAAACTGGCGTCTTTAAACAGCGTTGTGTTATCCTTATGGGTAATGTACTGGGCTTC +TGTGAATATGACAGTATCCCCAACAAACACGTTATCAACGTTAAATTTGTATGCTGGGAT +CGGTGTCTGGGCCAGAATGTCAGTTGAACTTTTAAGGAAAATACCGGAACCATCTTCCCA +CAGATAACAGAAGTCAGAAGAAACTACACTTTGCCCGTTGTCCCTGATATAATCAAATAT +ATCCTGATATGTACCATTTAGACATCCAGGAGGGATACGTATGTTACCGCCGACAACTTC +GGGGGTAAGTAGTTTCATTTTGCTATACAGTGCCGTCATACACTCTGTAATCGTCTGTAC +GGCGTTGTTACTAAATGAACGGGCAAACTTACGTCTGAACGTTTTATGCAGCGGAGAGAG +GTTCATACGCAGCACAGAACGGTTCTTATCGTCAGTATCTACGTTAGAGTAAAGCAATCC +GTAATAATGTTGTTCCTGTGTACCGTTATACTGGAAAGATACCTGTATGATCGGCTGGAT +AAGTTGCTGATAGATTAACTGTGCGTCGTATATCTGCATCAGCGTTTCCGATGAGCCGTT +AATCATCGTCTTTTCACTAAACGAGACAAGAGCGGGTAGCAATTCAGTATATGCGTTATC +AATGTATTTTTCGTATGATGTATATAATTTAATCGATGTGACTCGATTGACGATTTTTTC +AGCCATAAAAATCCCTCCTAATATATCCTATTTACTAAATAGTAAATAATGACCCAGGTT +CAATTTGAGGCAATAATGAAAAATAAAACTCTTGATAAATTTATGACTACACGGCTTGAA +ATCAAGAAGACTAACGTTAAAACCGTTCATCTTCCGGATGGAACAGCCATTGAGATCCCT +AAGATGTCGTATCGTCATTTTGTAAAGATTAAGACTCTGAAAGATGACCCAGTTGCGATC +ATGCGATTCATCATTGATGACATCAAACCGCGTGAACTGACAGCAGCGGAAATTGAATTT +GTGTTGATCCATATGTATGCACACAATAACGCTGATTATGCCAATACGCTTAAAGAAATT +GGGCTAAATCTTGATGACCTCAAAATCTCCGAACCTTGCTATGATTTTACGTTTGACAAC +GTGCGGTTAGTCTTTGACAAACCCAGCCTGTTAAATGCTCACCTTCCGTTCCTCATCAAA +GAGGCATATGTTGACGGTAAGCCAGTAGAATTAACTGAGGATAAACGAGACGAATTAATT +AATTGCCTGTACCGATTCGAATATGATCAGGTATCGCGTGGTGTCCTCCAGGAAGTATAC +ATTATCCATGAGGGGAAAACCATCAAAGGGCTTAACATCATTGGTGAATGATAATGGCTA +ACTCTTATTTCAACGAAGAACAAAAGAAAAAGTTTCTGAACAGAAACAGCAACAAACAAC +CAGCGGTCACCAAAGTAACAGCCTCCCTTGATGCTGAAAGCGCCCGTGACCTAAAGGAAA +TCAACGATAACACCCTTGAAAGTGCAATCAATACTCTTGATATCAAAGAAGGGTTGAAAT +CGTTCGAAGAAAAATTCCGTGACAAATTCGCGGGGTTCAAAGAACAATACGAAGAGGATA +AAAAGGAATCATTAGCCGAACAACTACCTGATTTCGTCGGCCCGATCCGTCCTATATCCT +TAACCGATGATAACTCAAAAACTGTTGACAATACAGTAAACGTTAACCAAAATGGTCAGT +TCGGTAAACTGGAAGAAAACACCGAATCTATTTTTCATGCTATTAACAAACTTGTTGATT +TATATGAAAATACTGATAAGCATAAGCCGCTTCCTGAACCAGTGGAAGAACCTGATCCGT +ATGTAGACACTAAGAAAAAACGCATCAATGATGATGACAAAAGAAGCAAAACTCTGGATA +GTATTGCTAAAAGTCTGGTTTCTATTAAAGGTTTTACATCGCAGATCCTTAGCCGTTTCA +TTGGTTACTCTCTGGAAGCAATGGCAAAGTTTGCTAAATGGACGCTCCTTATTGGTTCGT +TAATCTTTACATTCGATGTGTTGCGCGTCACAATACGCAAATGGTTCGAAGATATCCTGA +AAGAAGGGGAATCCTCAAAGAAACTATTTGGTACATATCTGGGTAACGTAAAGGCTATCG +TAACAAAGATCGAAGAAGGTTTGAACAACTTCAATATGAACAACTTAGGCGAATCACTTC +GTGATTTGTTCGTTGAGCCTATGAAGTTGTTGGGGCAAACTGTACAAACGGCAATCACTG +AGGGTATCGGTCGTCTTATTCAATCATTGGGTGAATCAACTGGCATAGACAGCATTACCA +ATGCCGGACGCGGAATGCAGATCACCGCTTTACGTGATAAACAGAAATTTGGTCTTGAAT +TGACTAAAGAAGATATTCTTATGATCAAGAAACAGGAACTAGAAGACCAAAAAGCGGCAT +TAGAAAAAGAAGATAAAGCTATTGCAGCACGTCATGCATTAACAATAACTCCTTCTCAAA +TTCCTAATGGTTCTATCTATAAAGTTGCTCCTACTGATTATCAAGAAAGAAATCAGAAAA +CCGTAGATGCTGATAAAGAACGGCTTGATAATATGAAGAAAGCAACGGAAGAAATGCAGA +AACAATACGATTTAGCTAAAAGCAGCGAAGAGGAAGCACAAAAATTAGCCGATGAGGAAA +ACAAACGCAACCGCGCACGTATAGAAGAAGCAAAAAGGTTAGAACAAGCGAGGAAGGAAG +GAAAACAGCCGCCAGAAGGTGAAGAGAAAAAGGGTGATGATCTGTTGGGTAAAGCAACCA +ACTATGCTAACTCTGAAAATCTGGATGCAGCCGATATCAAATACATTAACGATGAACTGT +TGGATCAGCTTGAAAAACGTCGTAATGAAGGCAATCTGGACGATGTACAGAAGGATAGAA +TCTCTGACCTTATCGAGCAATTGCAAAACAAGATTGCAGCCCGTACAGAATCCAGCGCCC +CGATCGACGCACAGCCACCGTTAGCAGCAAATAAACCGGATGCTGATAAAGCAAGCAACA +TTCAGGTTAACAACAAAACTGTTAACAACAACGTAACTCATTCAGTACAACGCACAGAGC +ATAAACCGCTCGTAGCGCTGGCATAAGGAACATATAATGAAGTTTTCTATTATTGATGAC +AGTATAAACACTCTCAAAAATATTAAAAATCGCGGTATCCCCTCTGGGGGTGCCGCAATC +ACAGAATCAGTATTAAAGCAAACTATCGTTACCGCCGAATTTCCGGCCCAACGTGCAGCA +GGTATCGATAACGCTTATAATGCTTCGAGTCTGTATAATAACGGCCTTCTGTTCACTGCA +TATGATTTTAATGGTGTTGGTAGTAAAGACAACTATCGTTCATTACGTCAGGCAGCACAG +AACCCAAAACAAATACTATCATCTGCGACTGGTAATGTTAAGTACAAACAAGTGTTGAAT +AGTTCTATTGGTACTATGGAACCTGTTTGCCAGATCCTGCTACCGCGAAGCCTGAACGAT +AACGAAGTAAACAGCCACCGCTATCAAGATGCAAACGATAGTTTCTTAACCAAAGGGTTG +AGCCGTGTTGTTTCAAACATGGTATGGGGCGCTGTAGAATCCGTTTCAGGCGGTATTATG +GCAGACCGAAGAGAAGCCCTTGATGTTGGTACTAAAGCCGCTTTCCAGGGTTCTGACAAG +CGAACAAAGATGTATTACAATACATTCGTGATCGAAAGCCGTAATGATTTGCTGGAACTG +ATTAAAATCTACTATCTGTTTACTGTTCTGGGATATGGTACAACTTCTGGCGGTACTGCT +AAAGAGGTTGCTGCATTGGTTAAACAGTATTACGGTGTTCTGGGTGCTAAAACCGCTAAC +GCAATTAGCCCTTCCAGTAACCCAGTAACAGCGTCAGATTTTGATAATAGTCTGGGTAAT +GACGTGGTTGATTTCATTTCAAACGTAGAGGTTATTAAATCGCCTCCTGTCTGGTTTATT +CGTGATTTCCAGTCTGGGGATTCCTTGCGTTTACCTCATTCAACCTTTGGGCCAGCAGGT +ATTACCAGTGTTCGCTTTGGTCGTTCTATTGATAATATTGTAAATACATTAAGAGAATCA +CCAAATACCCCGATCTCACTTGAGGTCGAAATTCAATTTATGGAACTGATCGATATGCGT +CAGGATTCTATTTTTGATACAAATTACTAAGGAGATATGATGTTTTACAACGTAGATGAA +TTTTTATCAGGTATGGCTAATCGCGATTTTCAGCGTAGCAACCTGTTTAGCGTTGTATTT +GCAACCAGCCCTGCATCACGTATCCTTGACAACACGATCGGTAGTATTCGAGATACTTTG +ATTGATGGATCTATTAGTTCTATCAACGCAAACAACCCGAACGAATTCATTAATGCTATC +ACTGGCGGTGTGAGTAAATTGTTTAGTTACACCGTCGATAAGGCGATTATGTCGCTGAAC +AAAACAGGATTTAGCAAAATCATCGGGGCAATTAGCCCCCGCTTGATTACTTCCCTGTTT +GGTGATAGCATGTATGGACAGTTGTTAGCTGAATTCCGTGATAAAATGATGTATAATATG +GGTTTAAGCATCATGGGAGTTAACCTCCCCGGTAAATCCATTGGGTACGAATACGTTTAT +AATGGTGGCGTACCTCAAATCAGATTCACTCGCCCTGAGAATGGGGAATTGTCGCTGACG +TTCCGCACCGATTCAGAAGCCCGTAACCTGAAAATCTTTAACGAATGGATTTCCGCTATT +CGCGATGATGTAACAGGACAATACGCCTTCATTGATGAAGTGACAAGTACTATTCAGGTT +AACTTACACGATCGTGATGGTTCACCGCATACAACATACGTATTTCAGAAGTGCTTGCCC +GTCAAAATCAGTAACAGTGAATTGAGCTATGAGAACAACAACGAAATCTGGACATTTACT +GTTGATTTTGCCTATAAAACATCATGGGTTGTTGAGGCTGATAAAGAAGGCTGGGAAGGG +TTCAAACAATCCGTAGAGGAAGGTTTAGCCATTGCAGCACGTACCGCAATTACAGGACAA +TAAAGGGGCTACGGCCCCTTTTGAGGATCTTATGTTTGATATTATTCGAGTAACATTACC +ATCAGGGATCAAACGATTCCCTATGTTTACAGTTAAAGACCAGTTTAAATTAATGCTGAC +CCGTATTGATATGGAAGGTCGGCCCCTTAAAGAGCAACAGGAAATACTGGATGAAGTGCT +GGATCTGCTTTATCCTGGGTATTCCAAAACAGAACAGGAATACATTTTCAGCCGGGTGTA +TTGTGGTTCGTTCGGTAAAAACGTTATCAAGGTTGTGATAGGCGGTAAAGGTGGGGGCCA +CTCCGAAGCCTTCATGGTGATTAATGATATTCAACTAGAAAATGAATACAAGTTGAATGA +TGAAATCACATTAGGGTTTAACTTCCCCCGTACACGCAATACAAGCGAAGAGTTGTTTCT +TGAATGTATCAGTTATGTAATATACAACGAACAGCGCTATGAATGGACATCACTAACCGA +AGAAACGAAAGAGAATATTCTTGATATAGTCGAACTTGATGATGTCGAAAAAATAGTTAC +TATGCTAACGAAATCGGTTGATGTGTCTATGCGCGGTAAATCATTTAGTGGTATGTTAAC +CCTGTTCAAGATCCTGTTTAGTCGCGGGGATCTGGATGAATTTGTGAAGACCAACTATCT +GCTAAATAAAAACGGCCTGAACCTGGAACCTATCATGAATAGTAGCCCGATGGAAAGGCA +AATTTATACTGCATTGCTTGCAGAAGACTTGAAAAAACAAGGTGCTGTTAAATGAGAAAG +CATGAATATAAACACGTTGAGAAATATAATGTTGATTATCGTCCTCTGACACATACAGAG +TTTACCCCCGATGCAGATTTTATCAAAGGGGATGTTTACCTGTATCAAAGAGAATATCTT +TTCATTCTGGCACTTCTGGAAAGTAAAAATATTGATACCCGTCAACTGTTCATCAACTGT +GAAGAATGTCAGGAAAGAATTGAATTCCAGCTTAAACGCAATCAAATAATGGTTGAAGAT +TTCGACGATAAGCTATACGGCAATGACGGGATCGCGTTATCTGTTCACCCTCGTAAGACT +GGTGATGAAGAGATCCCCGATCTTATCGATTACGTAATGATAGACGGCGAACAGATCATG +TGGAGTGATTGCAGCGACAAAGATAAAGAAATGGTGTTGGATGCAATCGACTATGCAACC +TATAAATCGATTTCTACCGCCCTGGATAAGCCAGCAGTGGTCGCAAACATTCCGGTAAGG +TGTTCGTGTGGACATAGCCATATCGTCTCTCTGAGAGGCTTACAGCAATTTTTAAAGGTG +GTCTAAATGGGTGTAAATCTGAGGTTGCTATATAGCGATATAGAACCTAACATGCAACGA +GATTGGAATAATGACGTAGCGGCCTCAAAAGGGGCCGCAGCAGTGAGAAATAGTTTGATT +GGTATCGTAACCACGATCAAGGGTACACGTCCATTTGATAGTAACTTTGGTTGTGCTATT +AGTGATATGCTGTTTGAGAACATGAACCCTCTGACAGCGGAATCAATTAGAACTTCTATC +GTATCTGCGATCCGGACATATGAGCCTAGAGTATATAATCTTTCTGTTGAAGTTATTCCA +CAGTATGATGATAACTCAGTAACAGTAACCATCTATTACAGCATCATTGATGACCCGGAT +GACGTAGAGCAAATCAAACTACAGCTTTCCGCATCATAACAAAAAGCCCCTTCCTTTCGG +TTGGGGCTTTCTTTTAGAATTCAATGAATCCCATTAGTGTTTGATATCGCAATTCAAACG +GGGAGATATAACTTTGCATCTGGTTTTGATCGGATACGATGTAATAATACACCTCATCAT +TATCATCATATAGCGCTTCTTTGATGATGCAATAACGATCGGTTTCCACGTTCACATAAA +GAGTATCCATGTACTTTGTAACTTTGGAACCCTGTGAACTGATTTCACGAATAGCGTTAT +CTATGAAAAGCGACAATGCTTGCATGAAGTTATCAAACTCACCATATTCACAGCCCATAA +TAGAAATTGCAGTGTATTGGTGCCAGCCTTTGATTGTGTCTCCACGGCGGATCCATCCAA +TTTGTCTACCCCCGATAGATACACACCACACTTTACCAACGGGACTATAGAACCGCACAA +CTTCTTTTAATAACAGGGACATGATCCCACATTTTGTATAAGGATTCATTTCAACCTCAT +TTCATATCAAGTAGCCAGGAAGGGCTAGTTTCAAGCGAAATTGCAGTATATTCGTATTTT +ACAGTATAACCTTTGAAACCGAAAGGAATGACTGCATTTTCATTGAGATATTTTACTTTA +TGCTTTGCTTCTTCTTCATTCAGAGCAGCACAGACTGTTGTTTGTTCAACGTTACCAGCA +GGAGAAGTAAATTTTTCAATGATAATGTATACGCAGTTCATCCTATTGCCCTCTTTCCAT +TTTTTCAAGTTTCAGTGTATCCACTTGTAGTTGAAGTTTAAGAATACAACCTTTCGATAT +GTTATACAAGTAGTCACTAACGATTTTTGACTTTACCTGATCGTAATCAGAAGATAACGT +AATCCAATCATACATCGTTTGGTATGATGGAAGATACGTACATTGTTCTTCTTTTGATAA +CGCTTTAAATGATTGGTAATCGGTTGGAGGTTCCGAAGCAATTGCGGTTGTGGTCATAAG +ACTAAGTGCAAGTAGTAGATATTTCATAATGTATTCCTCATTGTTTTCGATAGAACCAAT +ATAGCAAAAAGCCCCGACCGAAGTCAAGGGCTTTTTCATCAATGCAAGAAAGATTTCACG +TACTGTTCGATCTTTTCACGACATGTATCAACTGAGGTGCTTTCCGCAATTACGGCATGA +CATAACGCCTCGCCTCCGACCCAGAAACTCATCATGTACTGAATATCACGACCTTCCATT +TCTTTTTGATGCGCTTTGATTCGATCGAAAGCGTTTTCGATTGTTTCAGTAGCAGTAAGC +ATTTCGGATTCCCCGTCAACCTCCGCCAGTTCCCCATCGATCATTTCGCTTTCGACTTCT +TCCCAGTATACTATCGTTATCATGCATTACCCCAGTGGTTAACCGTCGTAATCCCCGCCA +CAATTCACATCGCCTTCAATGAACAGTTCGCGGTTATCACGTAATAAATTATACTTTCTT +TCGAGTTCAGGCCCGAACGCGTCGGCGTCTTCATACCAGCTATAATTGTATCTTCCGCAT +TCATCATCATATTCTGGTTCATCACCGCGCTCGTTGAAGTGAACAATTTTAATATCGTCC +ATCCCCAGTTCTTTCAGCTTATCCCAGATATACGAAATCTCAACGCTATGGGAACCGAAC +GCTTCCAGTGAGATCGTACCGTCGCTATCGACTTGAGGAACACCCCACTTCGAACGAGTA +TCATCGGTGATCATATCTATTAATGACTCAATATTATTCTCACCGTAGATATCAGCAACT +TCCTTTTCTTTACCAGGGCGAACAAGTCCGATCCCGATAATAAAGCTACTGCTTGAGCTA +TTGCTCACAAACCCAGAACGAATTTTCATCGCATCACCATATTACCAATCATGAATAGAG +GGATTAGCGCGAAGACGATACCCCATAGAATGACCTTATCTTCACGACGGTCACACCCAT +AATAGATAACACCTCCAGCGAAAATCAATACAACAACTGAAACGAACGCGAATAAATAAA +TCATTTGCAGGTATCCATTCTCATAGAAACTTCTTTCAGGATCTTATTCAGATCGTGAAG +CGCATCTTTTACGTTACCTTCGTTATAGGTAAGCATATCCTGGTACAGCCCTTTCAAGCA +ACGATTGATTACATATGCTTTTTCAGAAGGTAACATTGTACCAGAGCGATTATAATCTCT +GAAAATGTCCATCATCGTGCCGTTGTTACCAGGTAATGACGGGTTGAAGTTAACCATACC +GGACATCAAACTATCAACATACACAACTGTTGTGTTATCAGAACGATACGCGCCACCAAC +TTTAAACCAGTTGCTGAACACATACGGAGATTCCCGCACTTCGCTCAAATCGGTTCCGAT +TTCATCGATGTTTACACGAATGTTGTTAAAATACACCGATTCATCAATAGAACCATGACG +CCATAAGATAGCACCATTGTTATTTTTGAATCCGACTACATCAACCTGCCAGCCGTTATC +TGTTAACCGGACATCATCAACGACGATGAAATCAGGTAGCTGTGAATGAAAGCCGATGTT +TTCAGGACGGGAATTACGAAACCCATCACGATTGGAGAAATAAAGGATGTCGCCTTGATT +CAGTTCGCATATATTCATAAGATTTTTAAAGTCCAATTCAAGTAATTCCACAAGTCACCT +CAAAGCCCCCTTTCGGGGGCGAGATCTCATTAGAGTTTAACTTCTTTTTCTTCCAGAACG +ATTGTGCAATCAAATTTCACATCTTTCCAGAATTCCGCTGCAACGATATCTGTTGCGGTA +ACGCTTACGCTGGTTTCTTCGAAATCCAGATCCGCAAACCATGCGTGTCCGACGACAATA +CCGTACATTACACGACTCAGGCGATTATTAAGGGCGCGAACCTCTTTAATAGTTTCCTTT +GTCTGCTTATCAAGATACTCGATCAGGTCATTCTTGTCAAGCGCTTCGATCTCTTTAGAT +ACGGTATCGTAAGCCCACAGAATGATCAGGTCGCCATTGTTGAGTTTCTTCTTACCTTCG +GCGCGTTTTGCAACGGTAGCCGCAACAGCCGGAAGTGATGAAACGCCTTTGATTTTCACG +TTCAGTTCTTTCGACATGTAAACATCAGTCGATTCTGTGCGCTCAACCTTCGGAGAGAAG +CCGTAATCACGGATCCCTTGCTCAGACAACCATTCACCAGCCGCCTCACCAAAGCGCTGT +TTAAGCCCTTCTGCGTTGCGTAAACCAATCGCGTTATCACGGAAGAACTTCATTACCTTC +TGACGGCCTTTCAGGATTTCCAGACGGACGTTATCAGCAACAAATTCCTTACCAGAAATA +CCGCGAGTCATCGAACGGTTAACCAGAGGCAGAGAAGTAAAGTCAACCAGTACAGACATA +CGGTCTTCACCAATTTTAGCCAGCGGTTTGATAGTCAGACCAGAAGCACGTAAGTTTTTC +AGAGTCGGAATATCGGTTTCCAGCGGAAGTACCTTAACGTTCACGATACCATCTTTAACA +ATGGTAAAGTTACGCACTTGTTTGGTTTCTACTTTTTCCGGCAATCCAAACTCTTTTTGT +TTGCTTTCCGGAATGGTTACATAACCTTGCAGATCCGTATTGATGGAAATGTTCGGACGG +GAACTGTTACCCACCAGGTGTTTCACTGCAACTTTCGTTGTGGTTTGGGTAAATTCCGGT +TTCCATACTTCATGCGCTACCAGTTGCGCCGCCAGTGCTTTACGTTCTTCCGGAGTAGAA +GCGTTTGCAATCTGTTCTGACAGTTTATCCAGAGTATCATCATCTTTCTGGACAGTCTGA +CGGCCTGTACGATTGTACGCCCAGTGTTCAGAAGACAGGTCGATCACGGTGTCGGTTTCT +GCCAACAGTTCGAGAGCATCAACCAAAGTAAACGCGTTTTCATCAGGAACCATGTTGTAA +TCAACACCATCCATCAGACGTTTAGCCGGATCAACAACCGCTTCGGAGATCATATCTTTA +GCGTTGGAATAATCCTGTTTGGTAAAGCAGTTATCGTATGCTTTAATCAGGCGCACATCA +CCCAGTTTTTTCAGAACTTTCCATGCCAGATCTGGATTCATGGTATGAAGCGCATGATAC +AGAACCACATACAGAACCTGTTCGCCTTCTGCTGTTGCCGGATCGAAGCCGTCAACGTCA +TTGATCGCGTTTTCACCCAGCGCCCAAATGTTTTTGATATGTTCCGGAACCAGAACAACA +CCATTTGCAGCATTCAGGACATACACACGGCCTTCATCCAGGTAGATCGCATGAGTTGCA +TCGCCAACTTTGACTTCAACACGTGCGGAGGTTTGCGCGGTAATGATTTCATCAAATGCA +GGTACATACGCATCAAACCCTTCAACGAATTTGTGTAATGCGTTGGTTGCTTCCGCCATT +TTTTCCAGCAGAGGACGGTTTACATAATAACCATATTCCAGGAAAGCAATGTTGTTAAAC +GTCAACGGCAGAGTAGAACACGCTTTCAGGATATCATCAGTACGCCAGCAGTTATCATAA +CCATCAGTCAGGAAGATCAGACTGTTCAGATTGCCATTATCCGCTTGCAGATCGGTAGCG +ACTTCAACCGCCAGTTGCAGAGGTTCAACGAAGCCAGTACATCCGGTCGGACGCAGATAA +CGATCGATAGCATCATTGATTTTGCTCAGGTCGGATACAGAGCTAACCTTTTCGCCCACG +AATACAGAACCGAACTGACCACGGCTGGAGAAATACAGAATAGATACGGTATCATCCTGC +TTAACCAGCGTTGCCAGGTTGTTTTTCAGGTGCTGACGAATGCGCGGGAGTTCGTTATAC +ATCGATCCGGATACGTCACAAACAAAAACGTGGTTAGTCGGGGTTGGTTTGGCTACGGCG +TTTTTGAATTCAATGTTAGTGATCATAATTTTCTCATTTATAGGTAAATTTGATTAAAAT +TTCGTTTACTTTTTTGCTAATAATATCTAATGCATCATCGCATCCAAACTTACTACTCAA +CAATGAAACAAAATCATCCATCGTTGTTGTTTGAGACTCGCCAACGTCAAAAGACAGAGC +GTAGGCAACAGGATTTTTAATCCTTACGATTTGAATAGTATACTCATTCAGGTCAAACCG +TTCAAGATATTTTCGCAAAGAAAATAAATCAATCGGTACTGGTAGAGTTTGACTAAACGT +TATTTCTTCCCCCAGTTGATAGGGGGGCATTTTTACACAGATTTCGTATTCCATCAGTGA +TGACTCGTCATAGTGTGTTCCAGGTTACGGAAAATTTGCCCGTGTTCAAGCTGGGATTGA +AATTCTCCGCATTCATCAGAGTAAGTAAATTCATAAATGAATACACCGTTCTGATTGCCA +AATTTAGCGTTGTACTCTTCATACAGCCACATTTTGATCAGAGCGTCTTTCTCTTCTGTT +TCCAGATCATACCAGTCACGCCCATCATAAGCAAGCGCAATTTGCGGATTAGACCGATAT +CGAGTTTCGGCGCTATCTTCGGTTTCCCATTCATAACGCTTATCATCATAGTATGATTCG +AAGCTATTTCCCATATGACCGCCCAGGTCGCGGTGTACCTGCTGTACAACTTCTTCCGCT +GTCGGGCAAGTCATCCAGCTATAACCACAGTTAGGAACACAATCACCCATCATTTCGCGG +AGATTGTTGATATCAGTCGGATCCTTCGGGAACCGGACGATGAAACTACTTGATGAACTA +TTGCTCACAAAACCAGATCGGATTTTCATTATAATTTCTCCCAACGTTCAGCATTTTTAA +CCTTCATCTTTCACTTCCTTCATGTTTTTCATAACTTCTTCAAAAGTTACAGGGATCTCG +TTGTACTGTTGCGATTCTTCATCCCATACATCGCGATGCCCGAATGTCGAACTTTTTGCA +ATGAGTTTTTCATTTTCCCATACATCAATAGTAACATGATCGCCAAGATAAGGGAAATTA +GGAACTTTGTTCAGCGCATCAACACAGTTTTGCAATGATTCAGAAACATGAACAATTTCA +GTGAATTCATAATCAGCACTATAATAAGCTACGTAAATCATCACCACCCCCTAACGATGC +TAATCAACAGTAACCCCAGGATCCAGAACACAGCAACCGCACAAATACGGGCCATTACTA +CATTTCCGCGACTAGTCCACTCCGCACTAAGGAACAAGAGAACAAACGTTAACGCGTATA +AAACCATTTCAATAACTTCGGTAATCATATAAACCTCACGAAAAAGCCCCTTTCGGGGCT +TGATTAATCAATGTCCGAACACACCACGAATAGACTCTGCGAATGCATACAGTTCAGGGT +TTTTAGCTTTCACTGTTTCGATTTGCTCCAGAATATAATCTGGTTTATATTTCGCACCGA +ACCAGCAGTAAGAGAAAGAACGATCCCACATGAACACGTTATAGTATTCACCGTTGCGAA +CTTCAACCATCACATAACCAGGATTAGAACCCAGCGGATAATCTTTCAGAAGATTGAATT +TCGCGCCAGCACCAGTACATCCGTTAAACAGGTCATTAAAAGTCATGGTATGTTCCTTTT +GTCAGTTTCGTTTCAACAAGGACACTATACTATTCTTCTTTAGCCTGTGCAAGCGCTTTT +TTGATTTGTTTTGCTATGGCTTCAATCACTGGGATGGAAACTGAATTCCCAGCCTGTTTG +TAAGCCTGTATTTTGCTTTCAGGGATGATAAACGAATCCGGAAATCCTTGTAACCTAAAA +CATTCTCGCGGGCTTAATCTTCTAGGGTTCTTACCTTCCTGCAATACCAGACATTGAACA +CCATCCTTTCCATATTGGGCTGTTATCGTCCCAGTACACACAGAATCAACTGTAACGGCC +TGATAGCCAAACCCCTTACCGTTTGCCTTGTTTCGTTCTTTACGCTCTCTAAAGCCCTTC +CAGGCACGATCTGATATGGTGTATTGATCATTATCCGGTTCGAGAATGTCACCGACCCTT +GTTGGGGTACGTGGAGGAACAGGAAAACTAAAGAACACCGGATCGCGAAAGCAGACAATA +AACACGCGCTCTCTTCGTTGAGGCAATCCAAAATCTTTTGTATTCATTACCTGATAATGG +ATATCGTACCCTTCGTCCTGTAACAGCCTGTAGATGGTTTTAAACGTGTTTCCCTTGTCA +TGTGTTAATAGCTGGGGAACATTCTCAAAGAACAGCACAGAGGGCTTTTTAGCCCGTATA +ATGCGGAGTATTTCAAAGATGATAGTACCGCGAGGATCTAACATGCCCTGTTTTAACCCT +GCTTTACTGAACGCCTGACAAGGAAACCCCGCCAACAGGATATCGTGATCAGGTACGTCG +TTTTCATCAATGGCGAATATATCACCCTGAATATTTTCATCACCCCAGTTATCAGCATAT +GTTTGTTGTGCATGTTTATCGATTTCAGACGTTAAAAGGCATTCGACCCCGCCGAATGCC +TTATCGAAACCGAGCCTCACGCCACCAACACCAGCGCAAAGGTCAATTATTTTCATACGT +CGAAATCAACCTCATCGATTTTGTATGATTCTTCGCCAATATCAGCCCATAGCTGAATAT +TCACACTTTTTGCATCACGATAAAGAGATTGACCACAAAGCCCACCTGTATAACAAGTTT +CTGTAATCTCGTTAACTTCCAGGCGGAGGCTATTGCGCATAATTTTAACAACAGCCTTTT +CCATTGCCGAATCTAGGGTTTTAGTATCACCCAATACTACATCTTTAACGTTCAAAATAA +CATCACCCATTATCGCCACTCCGTTTCAATTCCGTGTTTGTATGCGTCAACGCCCAGAGG +GGTGATCACTAAACACATATCAGTATTTTTCGTTGGTGAACTAAACGCCATTGATGCGTA +ACCTTTTTGAATCAGGGAATCACGCCCTGATTTACTGGGAACATCGTTGAAATCTAAATC +CAACATTTTCGACGAGTATCCGTAAAGTTTACACAGAACATCAATTTCAGCGCCGGACAA +TTTCGGATATGTCATTTGTAGTACCTCACAACATGTTCAGAATACACACGTTCAATGAAA +TCATTCCAGAAATCGCGATCAACTTCTTTCGGATAACAAGATACAGCCGCCAGCTTTTCA +ACTTCACACATCGTTGATTCTAGCGCCTCTTGTACGGTTGCGAAAGGAACACCGCCAGCT +TTAACCATTTTCAAAAATGCGCTATCCGGAAGAGGATATACAATATCACCTTCTTTGAAA +ATCTGGATCAATTGCATACCACCGCGCAACGCATGAGAAAGAGCTTTCCAGTCGATCCCG +TTGTTGGCTTCTGCTTGCCGTGCTCGTTCCCCGTATTCATCCCAGAGTTTATACACGGAT +TTTTTCATTTCCGCTACGGTGATCGTAGACTGGAATTTACGCCCCAGAACTTCATAAAAT +TCCTGACAACCTGATTTCAGTGTTTTGTCTGTAACGAATCGACAAAACTCGTTGGTCGGG +AATCGGTTAGAAATCTCACCAACTTTGATGCGCTTGCCGTAATTAGATTCATCCACGTTA +CCCAGCAATGATGTACCATACCAGTAATCGGGAATCATTTGTAACACATCAACAACTTCA +CGCAGTGCCGCCAGGCGAGAACCTTTAACACCATACTTCGCCGCTTGCTTACGAACATAA +CCAAACAGGCCAGTTAATTCCGTAGTGTAGAAGCGCGAACGGTTAGCGCGGAGATATTGC +CAGATATCAGAGTTAGCGATCAGCTTGCTATCATCTGCATGAAGCATATCAATCGCCACG +GTGTCACCATCACATGCGAGGCTAATAAACTTTTGCAGACTGTAAATCTGACGATCTACG +TCATTAACATCGTTCTTTGAGTTTTTATCGCCAGTTGATGTATCGATAGACTTCTTCGCA +GTGCCTAACAGGATTTCGCGAGGATGAGGGAGATAGATCCCTTTGTAGTCTTTATCGCTT +GTTGGTGTTTCCAGTCCGTACAGGTGAGAACCGAATACGGTTTCCATAATCATTTTCATC +AGAATTCAACCTTTAATGTTTTTGCGATCCCGCGCAATTCAGCGGTAGTAATATCCGGAA +CGTTTGTTCCGTAGCTATTCCCAAATACTTTTTTAATCTTATCACACAAATCGCGGCGAT +ACACCATTTCTTTGTATTCTTCTTCGCTACGATACAGTTGATAACCCATCCACCCCTCAG +TCCATCCGGAATTGCGCTTGATTTTAATATTAGTACAACAATCAGACCCATCTTCCGGTC +GGAAAGATGCATACAGGTACTGACGCGCAACTTTTTGTACATAAAGAGTTTTGGGGCTGC +GATTTTGTCGCTGATCGCTACGGATCCCAGCATCATACAATGTATCGCCAACTTTCACAT +CACTTAAATCAATCATTTACGTCTCCAACAATTAGTTTTTTCACAGTAGTGAACGGGAAC +AGACACGCCCAACGTTTCTTTACTGCTTCTGTTGTATGTTATCACAATGAATCGATTTTC +GCCACCCCTAACACACTCCAGATCCAAAATCTCGCGGGTTCCCTTAGTGTTCATGTCTGC +AACATAGTATTCTTCGTTGTTGACAATCACTATATCCGACATAATCAAGCGAGGTTTCAT +GCAGCATACACCTCTGATTCATCAAGCCATTCCAGATTCTGATTGAGTGATTCAATCAGC +TTTTTATCGCGTCTGGAAATAACAACGGTAGAACCTTTTTCTGCCTTCGCGATGATATCA +CCAGAAGAAGTGATGTATTCAACCTCATAATCACGGCGAGGGCTTCCGAGTTTATCACCA +GGGACTACATTCCGTTTAACAGATTCATGGGATTTTTCGGTGAATACCAATTCATTCTCT +ACATGGGTAACAATACCATCAACAGCAGAACGAGAATTAATATAAATTTTGCTAATTTCC +GCCATGAAAACACTATCTCTCAGATATCGAGCAGTCACTTTATCTAAACACTGAGAAGAC +ACTTTATCTCCGCCAGGATATACCGAGATAATCATTACATGACCCTGAACACGGGCGGTT +CCTACTTTATGCAGAATGTAAACCGTTGAACCATCAGAATCTTTAGATATCAAGATCACA +CTGAATGATTCTTTCTTTTCCTTCCGAGTTTCACCACAGGTAAAACTCACATCCAGAAAA +TCACCAACTTTAACGGCACGGGGTTTTGCTACTTGTTCACGAACACTAATAACAGGGATC +ATAATCATTTCCTCACAGTTTCAAATTCTTCATCAGATTTCCAATATACGTTAAAATTAC +GACAATCATGATCGGATGTCAACGTGTATTTTTCATTTGTTTTTTCGTCAGTGATAACCA +TAGTTTCATTCTCGATCGAGTTAACACCGTAAACGAAAACATTCTCACCACGTTTGTTTA +AAAACGCATCACCCTTTTCAATCAACTGCCAACAGGTAACAGGCAAACCACCCGGACTAA +CCGGGCGGGTAACAAGACAATAGGGATGTTTAATCATTTAAATTCTTCCATTGCATAGGA +AGTAAGATCTTTGAAATACCTTGCGGTGTTGCCTTCTGGGTTGTTTGTAATCTCCATCAG +GATAACAGCACTATCAACTCCTGCTTTCTTAGCCATGAATGAAAGGGCTTCGGTAGCAAT +AATCGTTGCTTTCATAACATCAGCTTTAGAAACGTTGATTGTATTCATTTTTCTTCCTTT +TCATTAATCACTTGGTATGTGTGTATAATACAAAAGCCCTCACGAGAACGCAAGGGCTTT +TTATTAAATTTCGTATAAATCTGGATTCACAATAACCGCACATAAAAGATCATCTATATG +TGCGGCTTCTTGTTCTAAGGTTTGCTTAGATGAATGTGCTTTCAAGCAACCCCCGTAAAG +GCGTTTACTATCTGGAAATGATCATCAAAGAATTCCCCTTGTCGTTGCACGACCTCATGC +ATCGGTAGCCAGAACGCGTCTGCTGCATCATCAGAGCCGCCCATAATACGAGGTAATGAA +CCATCGTTATTAGGTTCGAGCTTGATATATTGTGCTACAGTCGGTTTTGAGAAGTACACC +GAACGTTTCGGATGATCGAACAGCATCGAATTACGGATAGAACCACGAATAACCTTTTCT +GGTACTTTAATTCGTACTTCTTCCAGCAATTCACGGATCGCACAATCAAGGAACGTTTCG +TTACCGTTTTTGTGTCCACCCGGAAGCGCTAACGCATCTTTACCAGGCGCAAACTTACGA +CGGATTACTAACACGTGGTTATTACATACGACCACTGAATCAGCCGTGCAACAGTTCAGA +GAATCCGGATACGGATATTTTTTGAACTTGTCAATCTCTCGTTGCCAGTGTGCATCTTCA +TGGGACAAACGCTGGAATTCTTTTGTTTGTGTCCATTCATCGATAAAGGAAACCGTAGTG +CTAGGCGCATATTTTAACAAATCTTCGTCCCAGCCTTCATGGTGTTCCCAGATAATTTTG +CGTAAATTGGTCGAGGACAGATCCTGGTCTCCAACCTTCACAGATTCAACCGGAATATGA +TTCCATCCGAATGCTTTAAGCCAGTAAGAATCTTTGTCTTTTTCGTACCCGACGATCGCA +ATTCGGTCATTTCGAGTTTCATCGATTGCCATACGAACACAGGATTTCCATTTTTCCTCG +TTATAGAGATAATCCGGAATGTGAGCGAATTTGATTCTGGCTGCATCTTCAACATCAAGT +TTGCAGATAGACCAGCGAGTGATCATTGCTTGACGCTGTTTAGCGGTCAATGGGTTTAAT +GTGTTCGGATATGCATAAGCAGAACCGATCAGAATGTAAACCGTATCAGCAACAGCAAGG +GCTTCCCTTACCATTTTCTCATGACCATAGTGAAAAGGTTGAAAACGTCCAATTACTACA +GCTTTATCATATTTGTGTTTCATAACGTGCTCCACGTTTAAAGGTTAATCATAAAACAGA +CGCAATTATTAAAACACCAAACAATCCACCAATGAAACCAAAGAATAGTGAAATGAGTAT +TGTCAATACGATCTGTTTTATGTTCATTATAGTATTCTCGTTTTAGATGTCAAGCCCCCA +AAGAGGGGGCTTTAAAACATTATTTACGAGAATCGAAAATCACTTTACCCGCATAATCCG +AACCCATTACAGTTTGAGGTACGCCACCTTTATAGCGGGTAGAGTAGTTCATCTGTACAT +CCAGTTCTTTCCAGCGGATCATTTCCGGTGTAATGGTGCGTTGCAGGGCGGCGTTGGCTT +CTGCTTCTTTCTTCGCTGCATACAGACGGGCATCAGCATCACGTTCGTTAGCGATTGCAG +CGTTTTCACGCGCCTGGCGATCGGCTTCCGCTTGTTTTACTGCTTGTAATGAAGTCTGTT +CTACTTTTTGCAGTTCAGCTTTAGCAGCGTTAACCTGTTCTTCGCGGATCTTCGTGTTAG +TTACCTGTTCCATGATAACTTCCGGCAGGGTGATATCCTGCAAGAATACCTGTTTCACAG +TGTAACCGTAAGGCCGTGCATAATCTTCTACTTCCTGCTGAATTGCGATTTGCAGTTGGT +TTTGGATCTTCGCATCAAACAGGTCTTGCGCTTTTGGTACGGATTTACCAAATTCGCGAA +CAGTAGAAAGCAGTTTTTCAGTTACATACTTATCCAGTGCCTGATCCTGATTACCCGCGT +TGATACGGTTGATCGGTGCTTTGCTACCGTCGAATTGCAGCATTACGGTCATATCCACAG +TGGATTTAAATTTATCCTGGGACGGAACCTGTAATTTGTCGAACTTCATCGCGATGTCTT +TGGTGCTGAACGTATCAAACGTTGCCAGCGGGTTTACAATGTGGAAACCAGGCAGTACGG +GTTTCGGTGATACTTTACCCATGAAGGTTTCAGTTTTAACCGTACCGTCTTGCACAATGG +TATACATGTTAGGCACTAACCACAGTGCTGCGACTACGCCCAGAGCGATCAGAGAGGTTT +TCTTCGGGTTGTTCACGATAGTGTTTAAGTTCATCATAATTTCCATAAGTTGTTGTTCAA +TTCGATAGTTATTCTATCATCACATTTCACGCTGTCAAACTATTTTTAAGAAAGTTTTGT +CAGCTTGTAGATTGTTTGATAGCACAAGCCCTTAATCTCGTCCAGGATGTTCTTCAAAGA +ACTATCTACTGATTCGTAGATCTCGTTTGCTTCGTTGGCTATTTTACGGAGATACGCCAC +CGTGTCAAGCACATTTTCGGTTTTTAGCACAGGTTTGTATCTTCCCGTGATTCCTATGTG +GATTTCGGTGAATTTATCAACCAAATCCTGCATATCTTCGTAAAAACCCTCATATGCTTT +ATGTTGTGAGTATGAACCTGTTGCAAAATGTGCGCTATGCATATAGGTAACGGACATAAG +GCACATGCCAATAAAGGCATCTATCTTGCTTGAGTTCTCAGATTCTGTAATTTGTTTAAA +TGATTGCATGATGATCCCTTTATGAACGATGGATACTTGCAAACTCATACGCGACCCTAA +TCCCTAGCTTTGCGCATTCGGATTCAGATCGGCATTGTTTTTGGCGCCATTTTCGTTCCA +TGTAGTTGTAGAATAGTTCGCTTGTATTTACGCTGGGAGGGATCGTTGTGATGTATACTT +GAAGGGCCGCATTGATATAATCGTCAAATTCTTTCTGAACCGGACGGTCGGCGGCGTGTG +TTGTGGGTGTCATCATCAACAATCCGAACAGCACAGCCATTGATATGCGTTTAATGTTCA +TAACAATTACTCTTTTACTCATAGACCCACTATAGGTCTACTCCTGTATATATTTATAGC +AAAAACGAGGCCGAAGCCTCGTTATAATATTTTTGCTGTAAAGTCAATCAAGTAATGTCA +TACCAACACAAACTTCTTTCGAAAGCGCGTATTTTGTTCACGTTTTCTACGTTTTCATCC +CAACCGATCACACCAGCTTTCATACGTTTCAGTTCCTGACGTAAACGGGTACGTACTTTT +GAATCAATTTTCTTTACTGCAATAGAAAGCATTGCGTTCAGATCGCCATGAGCTTTGTTA +CCGTCGCGACACAAATTATTATCAAATCGAATGTATGCACATCCTGATTTGTGTTTCCAG +TTGGTTGAGTACCAACGTAACCCATCCGGATCAATACCATGTTGAGCATAATAACGAGAA +TACTCTTTTACTTCTTCGATCTTTTCGTTAGATGAACGGTCACGAAGAGGATTGTATTTC +TTACGGTAAGTGCGACTCATAATGATCTCCTTTTGTTTATGCTTCCACTGTATCAGGGTT +GTTCTTTAGTTGCAAGTAGTGTTTTCGACAAAGTGAAACATATTTGTCTTCTGCCCCGAT +CTCAATCTGGTCGCCATTAGCAACAAATTTGCCATTTGCATCAATACGGGCAACGGTAGT +TGCTTTCTTTCCACAATAACAAACCCCTCGCAACTCCCTGATCTCATCAGCCAGCGCCAG +CAACATATAAGAACCTTCGAACAAGTTCAACTGAAAATCGGTTCTTAGTCCATAAGTCAT +TACGGGTATATCTAATTCGTCAACAACCCGACACAGATCCATGACATTTTTCCTGGAAAG +GAATTGCGCTTCATCCACAAACACGCAAGAAACCAGATTCGGGCTGTCTCTATAAAAATG +ATTGTTGTGAACATCATAATACAAGTCCATATCAGGCGTGATCATAGTGCATGTTGCTTC +CAACCCAATGCGCGAAGAGATACTCTGTTTACCTTCTCGCGTATCAATTGCTGGTTTGTA +CATCAGGATCCGCATACCGCGTTCCTGGTAGTTGTATGCATCAGTGAGTAAACGAGCACT +CTTGCCAGCATTCATTGATGCATAATGAAAATACAGTTTAGCCATTTATCCTCTCAACAA +AATCTGGGGTATTCTGGAATTTTCCTTCCCCTTCATGGTTTTTGCATGTTTTGTTTGAAC +AGTAGATCCACCAATCCCACTCATCATAAGGGGGTTTGGTAATGTTCATTACGCAAATTA +AAGGGAAATGACAATCCCGACAACGAACTTTTTCTATAATGTGTGCGTTAGCCAATTGAA +AACCATCCTTTACCCATGAGTTTTTCATTATGTCGCGCAAGATACTCTTTGATTTCTGGC +ATCCGGATCGCAGTGTCATACTCTTCTTTCGTCATGGTATGATTTGCGCAACCCATACAC +CCGCACACCTGCGCGTTACACCAACGGAGTGTTCCATATGTCGCAATCACCTTCATTGCT +TTAGCTTTGATTTTGTCAGTCATGATTATAACCACTCATTTCGTTATCTTGTGCTTGATG +TATATCAAGATACCACATATTGATTTTACTTTTCAGTTCGTCCATTTCCTTACTCAGACA +ATTGTCAACGATACATAGAACATTAACAGTTTCTTTACGCTGCATAATGTTGATGTTATT +CGCTTTCATCGCTTGCGCCAATGCATTACAGGTTTTAACCAGTGCGGCGCGTTGTCCTTT +GATTACGGTGATCCGTTTGTTCGCTTTCTTAATCTCCCGACCTGCTTTGATAGGATCCAT +CATGATTAATTCGCCTTACGAGGATCGAAATGAACGACAATGATCGGGTAATCACCAGTC +ACCTCATTAATAATGCGCTTAATGAGTTCCCAGTCGCCCCCAGCGAGGCCAGCACCGATT +AAAGGTGTGATGATAGGCTTTCCAGTCTTAACGGCGTCAGCAAGCCCTACAGCCTGTTTA +AAAGCATTGCCGATTGCGTCATAATCGACACGCGGCCCAGGTGTCCAGAAATCATATTGA +GTATATGCATTGAAAACAATGTTGCCTTTTTCGCCAATGTAAACAGAACAAGTTCCGAGC +TTATCACGGGAACCTTTTAACGTATTGGCATCAACTTGAAATGCACCAGGAATACGATCG +CGGATTTCGCGAGCAATACCAGCGCCCATATTGCAATAGCAGTTGCATCCGTGGATCAAA +TGGCCTTCACCGTTCAGATACATATTGACAGCATTACCTTTCACTTCTTTAATGATCATT +TTTATTTTTCCGATATAGTAGGGCCACAACAAGGCCCATCAAAATCACAAGGATCCACAA +TACAGTGAATTGAACCCCTACGCTCATTTTCTCGCTTTCCGTTCACGGCGGCGATCTTCT +TGATGACACATATATAAAACACCACCAAAAATTATAAAACCGATAACAACGCCTATAAAG +TATCCAGCACTAAACATAGTCATCATCCCCGCAATAGTAACAAGGCCCAGTGCTCTCATG +CTTACCAGCATTGTACGCCAAGAACACCACAACCGCCGCCATAATAATAAAAATCCAGAT +AGCCATTAGTAAAGTCCTATGCCAGCATTGAATTCGTCAACCAAATAAGTACGGAACTTT +TCGCACCGTTCCTTATTTGGCGCTTGTTTGCATAGATTCATCATTGGTTCAGACTGCAAA +AACTCTTTTTGTTTCAGCAACTTACCGCGTTTATACAGGTGAGCATTTTCCTCTCCCCAC +ATATAAGCAACATCTAACTGTTCTGCGATCACTTGCTTACATACTGCGACATCTTTGATA +TCACGATTGTTGCATAACTCATCCAGGCGAGCATCACCCGCGTGAGCAAATCCAGCAACC +AGAGTTAAAAGCAGTGCTAACTTTTTCATGATGATTCCTTATTCATCCTCTTCGATAGGG +GTATAATAATGCGCATTGCAGATATACGCAAGAACTTTTTTCAGAGACATATCCGAGAAC +GTCGGATCCTGATTTCGTCTCATCCCACTACCAGTTTCAACAGCCCAACGTTTGTTAGCT +GGATTGTATGTCAGCCAGTAACAATCCCATTCAGACAGAGTATGTTCGAACAGATCGAAA +CGCTTACGCCCATTTGCTTGCGGCCTGACAAAAGGTTCAACCATTTCTAAAGCGGTTAAA +ACTCGATTAAGGTTTGAACCGTCTTCATCCATCGCGATCCGCAAACAGTATTGGTTAATG +TCCGGATCCATACCATCGATACCCAGACCGATAGATTCGAAAAATTTTGTTGCCGCGTGA +TAAGACACACTGGAAGAACGATATTCCAACATCACGGGGATCTTTTCCCCGTCCTTGACG +TTGTTAATGATATCCTGATCGATGAGTTCAATCAGGTCTCTTTTCTCTTTAATCAACGTG +GAAATTTCTTCTTGCAGTGGGGCTATCTGTGCATGAAGTTCTTTTATCCGTTGATCAATT +ACGGTCACTTCGAACGCTAAGTTTCTCATTGTACCCATTCCCCGTTTTTGTCAATGTACA +TGATCCAATCAGCAACCGCCCAATGGGAAGTATTGCCTTTCGGAGTCGCCACGATGTAGG +AACCAGCTTTAAACAGTACGCGTTTAGTTTCGTTCAGGATCAGGTCGCTCATAATGTATT +CCTCATTTAACCAAAGTGAATCGTGATTCATAAGCATCGTTCGGGCGCTCATACACAGTA +TCCGAACTTGTAATGACAGTGTACACGGTTTCTTTCACAAGATCCATGATTTTCTGTGAT +TCTCCCCAGACATTGATACTAAAATACATCCCATTTTTAGGAATAGGATTGTATTCCATA +TCATAATACATATCCATGAGTTCACAAATGAACAGGCGGCGCTGTTCGTTATCATATGTG +AAATAAATGTTAAAACAATCGAGAGATTTACTCAAAGTAATCTCTTTGATAACGATGTTG +TCTTGTTTGCTAAAATGTTCGCGGATTGCTTGCACACAACGCAGCAGGTTAGGGTAATCA +TATTTTTGTGAAACAATGACTTGATGTGAAACGCTCATAATGTATTCCTCTCAATTAGAT +GCATCCATAATAAAAAAGCCCCTGACCGAAGTCAAGGGCTTTTTGTCAAATGATTTGTTT +TTCTTCTAACAGCTTCGCGGTTGTATTAACCATACGAGCATAATCACGGGCTTCTTTCTT +TGTATACTTGAAACCAGCGTTATAGCTCGCCAGCGCCTTTTTCAAGTCGCCTTTGTGGTA +ATCAAGCCAGTACTCCAGTTCATAGATCGCATACTTCGATCCACCTTGAAGAGTTTCGAG +CTTTTTGATTACTACGCGTTTAGGATATGACTTATCCATTCGTGCGCTGGCGCTCCTTGC +GGTAACTTGCCAGCATCCATAAGCGTGATGGCCTTTTTTACCTTTACCGACATTCTCACA +TGCGCGAGACTCGATCCAGACAATAGCCGCTAAATGATAACCTAAACGTTTAGCCTTATC +TTTTTCTACAGGTTTTGCAGTCTTCAAATCATAGTTGTGTCCAACTCGATAAGCATACTC +CAGAACCTCTTTCTGCTTCGGTGTGATATTATCCAAATCCTTGATGTAGGATGGAGAATT +TTTGTTTGCCGGAGGCTTCACAGTAGCCTTTTGTAAAGGCAATTGATGAGTAGGCAAATC +CGCAATGAAATCCCCTAGCGGATCCGTCGCAGCGTTGCCAGAAAAAGAGCACAAGAAAAT +GCTGGCAGCAATTATAATTTTCTTCATTTTAATACCTATGTTGCAAAAAGAAGGGCAATA +ATACACCCTATTTTATATTTATGCAACTATTTTAGATAGTTTTCGCGTCACGTAGTTTAT +CAGCGATAAACTCAGCAATGTTATAATTTGAAATAGCCTTGTTAGGATCGTATAGCGCAA +TGATTTCATCTAACGATACCATAACGGCATGTTTAAAGTAGACGCTCCAGCTAGTAGTAA +GGATCTCACTGTTGTCAAATCCACAATCAGGGCTGAACAATGCGCGGTATTTGTACCCAC +TGTATTTCGTCAGCCGATTCGTGCTGTGCGCATCACTGGTGATCAGAAAAGTCCCCTGGT +GAGTTTCAACAACGAAAAAGTATCCGAGGCGTTCTTTGTTGTCCAGCATCTTTTCAAACT +TGCGATCGGTTTCTTCGCGAACAATACGAGAAGTCAGCATTTCCAACACTTTATCGTATT +CGGGCCAATCATTCTCGATCACGATTGCATCAAACGGTTTCTTACCATTAATCCCGCGCC +CGATTTCGATTTTCGTGCAAATTTCGTTGAACGTTTTCAAATCTTCTGGCGTCAGTTCTT +TAAGATCGCTCAATTTTGCTACATAATAACGTTTTTCTAGTTTCATTTATGGAAACCTCA +ATTCAAAAATAATTTCACAGAGTTACCACATTTGGGACATGTGATAAATTTTTTCACGAC +ATAATCAGCAGCAGAGAAAAATCCATTGTAAATCGCTTCTCTCTTTTGCTGTATATCAGA +TAGTTCATATTCTAACCCACTTTTACAGCAACTGCAAACAGTAATTAGTTTTGGGCTATA +GATGACAGTAATCATATACACCTCACAAAAAAGGGGGCTTTCGCCCCCATCATTAGAAAT +TGTCTTCGACAAACGCCGCGAGACGGGAACGATACACTGTATCAAGAATGATATGGCTTG +AGTGTTCGTATTCTTTCAGCTTTTCAACAGCCCATACAAACCCGTTGTTAACGGCAGTGT +TTCTAGGGTTGTCGATCTGCTTAATGTTCCCGCATAGTATCAGAAGTGTGTTCTCTCCGC +AACGAGAAATAATAGATTTAATTTCGTGGTTGCTAAGGTTTTGACATTCATCAACAATCA +GCACAGAACCTTTGCCCGGATCCGGATGTCCGATACTGCGACCACGGAAGTAATACAGGC +TAGGGAATTGCACCACCCCTTTTTCAATCAAACCTTCAATGTATTTTTCAGATTCCGGAT +TATCCTTAAACAGAATGTTCAGGCTAGTAATACAAGGTTCGATAGAAGGCCGGAGTTTTT +CGCCCAATGTACCAGGAAGGAAGCCAATTTCACTTGATAACGGGCTATCTGACTTCACAT +ACATCAAGTTAGCGTAATGTCCACTATTAACCAGGTGCATAGCACCGGAAACAGCAAGCA +TTGTTTTACCAGAACCAGCGCCGCCCATAATGGTAGCAACATCGATTTCATTGCTCATAA +TGGATTCAACGAAAGCCGCTTGCAGAGAATCACGGGGCTGGATAGCTTTCATGAGTTTGC +GTTTCATAGCCTGTTCGTGCTTAACAGGTAAGACATTCAAGCAAATCTCATCAGCAGTCA +CCACACGCCCGACTAACTCACCATTTGAGGTAATGTACTGGTTAGGATAAAAATCTTCGT +CAGGAAGCGAACTGTAAGTGATTTGGGCTACATTATCCGTATATCCCAACACTTCCACGG +TATCCCAGAAATCAGGGATCTCTACGTAACCGGAATACAATACATCGCTATCTTTTAACG +TATCGTCGCCAGTATACTGTTCTACCTTACACCCACGGGACATTGCGATCAGCAACATCA +TAATATCGCGAGTAACTAAGGTTGCATCCTGTTGCATACAAGTTTCAATGATTCTTTCGT +CTTGCTTGTCAAGAGCAAACGTTTTGTTTCCGACATAATCAACCACTTTAAGGGTGATAG +TGTCAGACAGTGCTGGGGTTGTCAGGTTTAAAGGAATACCTGATTTCGTAATCGCATCAT +ATGACTGACCGAAAATAACTTTTGACAGAAGCCGGATCGCCAATCGTGCTTCGTGCGCTG +TTCGTTCTTTCGTTTTCAGGTGATCTAATTCACCCATAGTAGCAGAGGTAATAATGATTT +CTGTACCAGGTTGAGTGAATGAATAGATTGAATAGGGGTTACTAATCAAAACATTGGTGT +CTAATACGTATTTTGACATACATTAACCTTATGTGGTTTCGTTAAAAAATGCACCGAAAA +CCTCTTTTGCTTTCCGGTTATAAACGGATTTTGCTTCTTCTGGAGTGTTATAGTACCCCA +AAAATTTTCTTTTTCCATCTATGTTTATCTGCGCTTTGTACTTCCCATTGGCTTTATGAT +AAGAAACACCTTTCAACCCTGTACTACTGTTTGAGTTACATTTCTTTTTCATCGCATTTT +GCTGGTTCGTCGCTTTCTGTAAATTTCTTGCTGTATCTCCATTCTCAACACCATATACAT +GATCTACGATAGGAGGAAGATAACCATTCTCAACGTAAAACACTATTCGGTGTCGCAAAT +ACATAGAACCTTTAAAATGAATTTGGGAATACTCGTTTTTGCTTCCGGCTTCACTTCCAG +GAGACATAGGGCCGCGCTGAACTTTCCAATACACTTTACCTGTAGATGTATCAACATCTA +CAAAATTCAGAAGAGATTCGATCCCTTGAATCTCTTCATGTATGGTTCTTGATGAATAGC +CATGACTTTTCATTACATACCCAGCGAAATTACGTGAATATATGCTAATGGATGTTTCTT +TTGTACACAATGCATGAGTGTATTATACACAATGTCCATGCGTTCATTGCGCGTAAGATC +ACACTCATCAAAAATAAGGTTTATTGCCTGGTGCTCTATTCGACGTCCACGGAAATGATT +AAGAATTGCCCCTTTACTGGTCAATACATCACATCCGGTAGCACCATTTAGCTGTTTGGC +GTCTTGTGCTGCATTTAACGTATGCGCTACGTAAATGTTAAGGGAACTATGGGAACGTTT +CATAAAATCAAACGCGCCTTTAGTCTTTTGCGTTTCTCTGCCCAGATCCAGCCTGGTTTC +GAATACCATAAAATCGTTAGGGCCGTAATTATGCGTTGGTTCTTCCAACTCTCGCATAAG +ATGCATCTTACGACATTCTTCAATTGTCTTTACATAAAATTCACTATTCATGTTTTACCT +TTAAGGGGCCAAAGCCCCTTTGTTACGCTAATTCCACATGCGGGGCATCAATGAATTTTG +TTTCGATCGGAAGGTTCGGATCATTTTTCCAGTTGATACCAAAACGCAGTTTAACACCCA +GTTCATCACCTGCTTGTTTAACAGCATTCAGGACAGGCAACCACACTTTAGGGTTTGTTT +GCCAGCCTTGAGGCAACACGCTAGGATACAGATCCACAGCATCACCCGTGATGTGTTTTG +AGTTCATTGTTTGAGATACACCCTTACGGACGTTCTCGCGCTGTTGTTCTACAGTACGCA +GACCTTCACGTACACCAAAATCAACAGGAGACAGTTGCAGAGCACGTTCTACGACTTTCA +CCAGTTGAGGTTTAACACCTTTAAGGTTGTTAAGGCTTTTTTGACTGAATTTAAACATAA +ATCACCTCTTGTAAAAATACCCTGTTTGGGTACACAGGGTATTTATGGTTTAAGAGGTTC +GATAATTAATAATCGTAAAGATCACCGAAGCATTCTTCAAATTCACGTTTACGTTTCATC +TGTTCTTCTTTTCGCTCTTTCATATCAGGAGGAAGACGGTCTTCATTGACTTCATCAATG +TAAGCCTGTGCATCCTCTTTGGTCAGGAAGAAAGCATGGAAGTTATATCCGTTGCGCCCA +TTCATACTACGATCGTCAAGAGAGAATTCTGTGTGACATTCCCAGTCTTTGTACAGGGTG +ATGCATTTAGCAAACAGCCCAATACTGCGATGCATATAAGGGAAGCCAGTAACAATCATT +TTGCTACCCATTTCCGCCTTTTCGCCATTCACACAAAATACTTCATACATGATCGCGCCT +GGTTTAACATCTTTCTTAACAGCACGTTTTTCAAAAGCACTTTTCATAATATATTCCTCT +CAATTGGTGTAACTACAGACTACTGGTTTATTTTCTGGATGTCAACAAGGTTTATCGTTT +TTTGACGGAAAAGTTAGAGTGAACAAACGATCGTGAAGGTTGTCTATCCGTTCACAAGCC +TGTTTCAGTATGATTTTATCACCATCATTTGTTGTTTCAATGCATCCAAGTTCATCGGCG +TCAATGTTCACTACATCGCTCATCAATGAAGCAAACACGTTAGCATCAGGATGTAACAGT +TCTTCTATTTCGGCCTTCATGCCGTCGTGTTCAGAAAGGATATCAATAATATCGCGGGTT +AAATCTCCCTGGTACGGGAACCCTGTTTCTAAATGGTTAATGATCCTTTGTGCTTTCGTA +ATCATAATTTTACCTACAAAAAAGCCCCTTTCGGGGCTAGTTAATTAGAGTTCACAGCAA +CGGCACACACCGTATTTTGTAAATGGAGCATCACCGCTAACGTAGGCCCAGAAATCACAT +GCTTCTTCGGCAGTATCGAAGATTGCAGCATCATAGAACCCGTGGGCTTCGTTACCGTTC +TCATCGATGAAAACCGGAGTCCAGATATTAGGATTGAAGCAATCGTCAACAACAACCCAA +CCTTCTTTAGCTTTCATTGCTTCTTTGTTGGCTTCGATGTGAGCTAAGATTTCGTTCATG +ATGTCCATTTTTCTCTCCTAAAGTGCGTTTCGTTTCGACATGGCTATAGTCTCATAACCC +CGTATCTACGTCAACACTTATTTGAAGCGAATTGTGCTATTTTTGAAAAATAGTCCAGAG +CACACAGCACCTTCAATTTTCACCCCTGTAGGGCTTTTAGCAACGAACCCTGTTGCGTAG +GTGTCTTTCTCATCACATGCGAACCAGGCGTGGCCTGTGTACGTGATATCGCTAAACCCG +TTAGCAGTCAGAATACGTTCGGCTTCTTTCTCATCGGTGCATCCGGATTGTGCTAAAACG +ACAATAACTACTAACACCAAAGCAATAATATATTTCATGTTAAACTCTTTTTAAGTTGGT +TTTACTGGCTTCAATCCAGTACACGGGATCAGAATAGTTACCGCACATACCCAGTAACAC +AGTTGTACATCCTAAATGATCGGAAGGTCTCAATCCATCAGGATGAAAAGGCAATTCGTT +AACACCAATACTGGTAGCAAAAAGAGCACCTCCAGTACTGTAAAATGTTTTGATATGATC +GTATGCATCATCAGGCCACTGAAAACGATAAGTTTTATTGTCAATGGTTACTGTATACAT +ATCATATTCCGTAAACAACGGATCTTTTCCTTGTGTTGCCCCATACAGAGCGCCGCGCCA +TTCAACCAGATTTGCTTCAATGTCGCTTACACAAATTTCGTTACCCATACGCAAATCATG +AAGGATCCCTTCAATGGTACGAATGGCCCCACTAAGTTCATTAGTTAACATAGAGTTTCC +CTTAAATCGGTTTAATGGTTTTCAGGTGTAGTTTAGCATAAAAAGAACCAAATGAGTTAC +CATTATGATCAAATTTATAGTTTTCACTCTTCCAGTATTTCCCCGATTTCATCAGGGGAA +CACGCTTCTTACCTGCTGTTATCGTTTCAACCATTCCGGTATGAGTAAATGTCATGATAT +ACCCTCTTCTTTCAGCACTTCCCAGATCAGTTTATCAAGGTGCATCAGGTTCCACATAAC +CGAATCATAAGAACCCAGTGAGCGGGAGTAAATCACTCCCCATGAACGATAACTTTTCTG +GAATGCTTCTGCACTATCTACATCATACGGCATATCATCACCGGATGCAATCAAAAGTTT +AAGGATCATCAGACTGTTCAGAAGTTTTGAACTAGCGTCTTGTGCTTGTACTTTTGCACA +ATAATTTTCAATAATCGCTTTTGCCTTTGGTTCGGTGATGCGTCCATTTTTGCATCGCTC +TTTGTACACATACATAAGTTCATCGATTATTTCTTGCATATAACGCCTCCCGTTCTACTG +CTGATAACCCGCGAATGTAGTTCTGTGATTCTCTATGCGCATCTGCTACAGCGCGTCCTG +CTACAGCGCGTCCTGCTCGTTCCGACGCCAGTATATAAGTAACAACTTCATTACGAATGT +GCCATAGGTAATCCATCATTACAAGATCTTCTTCTGTATGAAAACCTTTAATGTCACACT +CGCAGCAAATAGCGTCTCTTTCCGATAGTGCCAGTTGCGCGGATTGCGCGTTGATTGGCA +TCATACTGTACTTGTCGATCAAACTATCCAACGTTCGCGGTTTCACAATACCAACTGTTA +CAGGAACAGGACGAAGAGTAGGTTTATCCGAATAAATCATAGTATTCCTCTTCATCAAGT +CTAGATGTCAGTTTAGCGATAAAGTCGAAAATGTGTTGTGAACCATCTTCAACATAATGA +CGGTATGCAAGCAAAGTTGATACGTGACACATATCGACCGATTCAACTTTGATGCTTGAT +GCGATCATTGTATCATCATTTCCATATCCGTCAATATCACGGAGTACCATTTCTTCAGTA +GGGAAACGCTGAAGGAGTGACGCTTCCCGATCTGATACCAGAGCAACTAAGCGATTATGT +CGCGTGTTGTACGATAATATTTTCATTTCAATTCCACCGCGTAAACATCAGGTTCAGGGG +CTTTGTGTACGCGCATATCTTTACCGCATACCGCATAAGCCGGACAGTTACGACAACCGT +TATGATCCTTATTACCGATCAGTTCATTACGGAACTGTTTGGTTTTCGGATGTTCCCAGA +TATCCTTAATGAAATCGTTCGCTTCCAGGACATTCAAACCTTCTTCCCAACCACCTTCAA +CCCAGCGTTCGGTAAACGAGCAAGGGAAGAACTGACCACGTTCGTTGATGTAAGAGCTAA +ACATCGTCGCTTCACAGTCTTCGGCGTATTGCTTGTACTGTTCGAAGTTCGGGTGTCCCT +CCATCGCTTCAACGAAAGCGGGGGCTGAACAGCTATCGAATCCAAATCCTACACCAGAAT +CGAGGCAATATTCAACAAGTTTTTTATACTGTTCGCGGGTAACGGTGTCCCAGTTCTTAC +CGCGTCCCTTTTGTTTCAGTCCCAGGAACACGATCGCGTTTACTTGTTTCAGGCGCGGAT +CATTCTTCACGGCATCAACCACGTTAAACGCGTCATCATAGGTTTTCGAGCTAACCATGA +AATGCAGGTTGATTTGCTGTTGTCCGGCTTCTGTCAGGTTCGCTACGGAGTCGAAAGCGA +CATCAAAGCCAGCGTGTTTATAAACAGATACCGCAACAGCCCCAGCAACCGCCGCTAAAC +GCGCTGCAACGTCTTTTGATACATCAGCAATGGTAAGGTTCGGTACAATGCCTTTAGAAC +GCGCATAGGCCATCATATCGAACATATCAGGGTTTGTTTGCCCCTGTGCATCAGCACCGA +GTGCGCATTGAGTCAGCCAGGGCATTTTGTCGATGATTTTTTTGAAGTTGGCAAGATCCA +TGTTGAACCCGTTCGGGTTATTGGACTTGTAGCAGAACCCGCAGAGTTTACCCGCTGGCC +CGTTGCATTTAGTTGTGATCTCGATATCGAGAATAAAAGGAAAATGACTATAAATAGGAT +CGTCAGCAGGAGTTTTTCCCCAAGTCATCATATGACCTGTTTTCATATCAAAATTAAAAT +TAACCTCTTCGGAACGATAGATTTTCTTTCCTTTCGCTTCCAGTAGAAGTCCAACAGGCG +TTTTGATATGTTTGGCGTTTACTTTAACGTGTCTCATAGGAACCTCATAATGTATTACGT +TTACAGAATCACAAATGTTATAGAGAACAAGCACTATTATGGATCAAGAAAACCTAAAAA +GTCAATGCTTGCTTCCGACGATTTAGGGAAACACTATTTCAGTAGTTCCCGTGATAGTCA +TTTCATCCAAGATCAGAAGGAAAATCCAGGACACTACAAATATAAAGTAATCGTATCTGG +GTTGTCAAGGGAAAAGGCGATGAAACTTGAGAAAAGGTTACACGAAATCTATAAGGTGGA +CAAGAACCCACATTTTTATAACAAACACATACACAACAGTGTTGATTTTTCATGTACACC +AGAAACAGGAAAGAAGATTTCGCAAACACACCAGAAATATGCAGCAAAGAAAATTTCAGA +ATCACATAAAAGGCGATTCAAGGAAGGTATAGCATCACATAAAGGAGAGAACAACCCACG +ATACAACGATCATCGGTCTTATAAAGAGATACACGGAGAAGAAAAAGCGGATACTATACG +CAAAGCACAATCTGAATCAAGAAGAGGAAAAGGTAATTCCCGCGCGGTTACGTGGAAATT +TACTTCCCCTAATGGAGAAGAATTTTTAGTTGAAGGAGAATGTAAAAAGTTTTGCAAAGA +CAGAAATATTTCCATGCGTAAACTGAAAACCTATCTGGGTGAAGTCATCACAACATGCGA +TAAACCCTACGATATCTCTAAGAATACCGTAGGATGGAAATTAGAAAAGATTAGTTGAAT +CTTCTTTTACGTTCGTCAGCCAGTTCTTTTTTGTACAGTTTAATGTACTTCCCGTTAAGG +GTGCGAAGCTGTTGGAAAACCTTGTTACACAAAGCACGTTTCGCTTTGTATTCCGGCGTA +TTACGGATTGATTCGACCGTCATACCCATTTCGTTTTTAGGGTACGCGCTCAACTCCCTG +CCGATCTCTCTGTGCCAGTTGCTTAACTGATCACGCTGTGCTTTGTACTCTTCAAAAGTT +AACATAACAATCTCCGGTTTCGTTTCTATGTGTGTAAGGTATCATTACCCTACACACAAC +GCAAGCGATTTTTATTTTCCGTAAAGAACACAATATTCTTTATATTTTTCACGGGCTTTT +TCTTCATTACTAAAGGAAACTCCCATTCCAAAATCAGAACCTTCGAACGTAACATCCCAC +GATTCATACCCATCTTCCGAATAATAGGAAAGTGTTATTTTACGATCTTCAAGAACAAGT +TGTTCAACAACAATATCAATTTCAGTAGTCATAGTTCATTTCCATAATCTTTTGCTGCAT +CTTCGGGGGTTGCGTCCAGTCGGTAAAGCTCAACGGCTAACGGACTGGGTTTGATTTCGC +GGTTCAGGATCTCACTGATACCGCGAAGGAATTCGATATAAGGACGGAATCTCATTTGAT +ACGTACCGCGTTAAAAGCCTGGTTGCGCAGTTCATAAGCCTGTTCAAGCTGTTCTGTAGT +GAACAGAGGACTATCGGTGTTAGTGGTGAAACTGCAAATGGTTTTGTTGTCGGCGTTAAC +TTCTTCAACAACGATTTCATAACCCCAGATCCCGCTGTACTCACATTTCACGTTACGGTA +CTTGATGTAAACCGCAGCAACATCTTCTTTTTTGTAGTTCCGGCTTTTGTAGATGATTTC +CATGATTTCCTCCTTCGTTTCGATGTGTGTACAATAACAGATCAGGGTTATCGAGTTTTA +GCAATTTGTGCTAATTATGCCATTTTCTTAGCGATTTTCCAGGAGGCTTTGAACGCCGGA +ACGTCTTCAATATCAATCCAGAAACCAGATCCGAAACCATCACTATAGCAAGGGCAACCG +TCGCAGTAGTTTTCCCAGGTCATCACTTCACCACCAACAGAAGCACCAGTTTCCATAGCA +CGTAATGCATCTTCAACTTTTTCCAGTTTTTCGGCGTTGTCGTCGTAAATGACAAAGTAC +CATTTACCGTTGTATTCGTTACCCAGTTTGATTGATTCGCGAACAAGTTTCATGATAATT +TCCTTTTGTCTGTTTCGTTTCTATGTGTGTAATATAACAAAACCCCTCACCATAGGCAAG +GGGTTTTGCAAAAAATTATCGTTTGATTGGGGTATTATCTATAACCCTTTGAATTTCCGA +ACGCATCGTAGAATACTGACACAATTCGGTAAGCGCCCGATCCAGGTGCATCATAGCATA +AGAAAACTCTTTTCCGCATTTGTCACATCGAGCGTATAAATGTAAATGGATGCGCCCGAT +CCCATCTACCTGACTATATTTCTGGAATATGTAAGGATCTGCACCTCGATAGCCAGTTGC +TTGATGCTTACACTCTCGTTTGAACCATGACATTAATAATATCCTTGTACGTTGAAGCGA +TCACATAACAATTTTCTTGTTTGGTTAGTATCGCTTTGGATAGAATGCAACATAGCGCTG +AACATGTTTAGGTTATTTTGCATCATTTCCGCGCTCATGAGAACTTCCATACGCGCACGT +AAGCGTTTATTTTCTTCTTCCAACTCAACCATACGGTCATATGCTTTTATGCGCTCTAAG +GGCATATCAGGGCGCTCTTTGAGTACGCGAGCACGTTCAACCTCACAAGCATGATTTGCT +TTCCAGTGGTTCGATTCCGCTTCAAATTTATTAAGGCGGCGGATCTCTTCAACCAGCTTT +TTGATCATGTGTGGATCCATCATGTCGATGAATTTCATCAAGCAATTGGATTTTGTTTGG +TTGTCAGCAACAGACCAAGACGAATTATACGTAACCGTAAACGTGCGGCCCATTTCATCA +ACAACCCCGATCTTGTTATCATCGGTGATTGTAGCCGCCCATTTCTCCCTCATGGCTGTA +CAGGTTCCGCTGGCGACACTATGCAACTTGTTTAATGTTGCGTCATCAAACACAATTTCA +TCACTCATGTATGCCTCACATAGATTTCAAAATACGCAGAAGTGCGTTAGTAAAGATATC +AGGAACACAACCACCAAACAACTTATGATTCATCAGCGCTAATTTCATGCTGTGATTTTC +AGTATATCGCCCGTTATGGATCCCCCAGGCAACGACATTACCAGGTTCATGAATAACTAA +GTTAGTGAGAGTAACGGTCATGCGCTCTTTATCATTGATAGAGAATGAATAGCGATAACC +GGATCCGATGTCGCCGTAAAGGTTAAGGTCTTTCAATTTCCCTTGCTCATGCAAGCGTTT +CATATGAACTGCACATGCATGATTAATAGTCATTTCGTCATCCCTAGCCCAGTCATCAAT +ACCAGAGGTATAACGAATATTGAAGTAGTTAGTCAGTTCATTTGATACGCTCATTAGAAA +CCTCACTTTTATAAAATTCTTTACCAGACCCATTACAGCTACTGCATTTGGGGGAACGGT +TGTTATCATACCGCCCCGAACCGTTACATGCAACACATTTCCTTAATTTCCAGCCATACA +CGAACCTCATGTAATAATCGGTTCGTGCGGCCTTGCGTTCATGGAAATTCATGCTTTGTA +AACCTGAACCAACCACATTTCGATGTTAGGCGCGTAAGTAACGTTTACCTTATGCATAGT +GCGGTATTTGTAAGCGGCTTTGTACGCATCGAGTTCAGTCGGAACACAGAAAGAGAAACC +GTTATCATAGCGTTCTGCGTTAGAAACTTCACAACCAACTACAGCGGCAATGTTTTTATT +CATGTTCATGATATTTTCCTTTCTCTGTTTCGTTTCGATGTGTGTAATATAACAAAGCCC +CTGCACTAATGCAAGGGCTTTTTGATTATTTTGGTAATTTTTCGATTGTTGCTTTCAACT +CATTGATTTTATTAAAGAGTTCATCGCTATATTTCATCAACTCACTACGGCGTTTTTCGG +CCCACTTGATCAGGAATTCATGAGAATCTACACCATACGTGTAACCTTCTGCACTCAGTT +GAATACGAGCACGGGAACCATAATCAACAGAACTTTGTTCAATGAGAAACTTAACCGCAT +CAAGCAGGGCTAAATCTTCATGACTTACCATGATTCCTTCTGCCTTTGGAAGATCCACAA +CTTCATCCTGAATGAGTTCACGACGGGTTGTTTCTTCCAGTGTTTCATGATTCTGGATCA +TCGTTTCGACCGGATCCTTTGCCACGGCTGGTTTGTTTTCACCTACTTCTTCCAAAAACA +TCAACATCCATCCAGGAATTTTAGTCCAGAAATAACTTTGTACTTCACTGGTGCATGAAT +TTCCCAGAATGTGGATCGCGTTACCATGCATATCAACTTTATTGATATAGATAACGTTCT +GCTGTTCCTGTCGGTTGCTACCATAAGAAAGGAAGCGGCGTAACGATGTGTTATGACCAT +ACTTCCCTAAATCGATTTCAGCCAGGCAATCAATGATCCCACGGTTAGAAACCTTGTAAC +GCTTACCCTGTTTGAAAAATAACGATTCTTCCAGGTGAGTAGGGGTAAACTCTTCATAAA +GAACATAGAATTCTTTAGGAATTTTGCGCTGAACCAGGCTCAGTTTACAATTATTAGAAG +GAACAATAACAGCGTGAATGTTTCCTTCTGCGTCACACATAGCTTGCATTACTTGCGGAT +AGTAAAGATGGTCTTTCTTGCAAGTATAGCTATGGATACGACTCTGCCGTTTTTTGAAGT +ACCATTTACCAGTTTCAAAAGGCGCTGTTGTAAAATTCATTTTGCATTCTCATACATAGT +TAAAATTGCTTGCATATGTTCCGGTGATTGTGGAACCCCTGCAAAGTTCACTTTCAAAAA +GAAATTCAACCGATCTTTTATGTTGCACTCATCGAGTCCAAGCGCTGGTAATGAAATGTT +TTCAAAAGCACGTTGTTCATGTCTTTCCATTTCACCCCAAAACAAACGGGAACCGTTAGG +CATCGGTATTCCAATTTCATTGTTCCAGAATTTCATGATAGTTGTCAAGCGTTGTTTTCC +GTCGATGACTTCTACCCATCGAGATTCGTTGAATTCACTATCAACCGCGATCGCGATGAT +ACCGCAAGGAAACCCAGTAATCAAAGTCTTCATGAAAGCATCTTGCTCTTTCTGCTTCCA +CACGTAGGGCCGCTGATAGGACGGATTCAGATCCAGATCGTTGTTCTTGAACCAGTGAAT +GTAACTACCAACCATGATCGCATGATCGCGACTTTGGAAAGTTTTTAACTCACGAATACG +GTTTCTTACAATTTCGTCTGTCATTATAAAATCACCATCCAGTATATAATCGTAATCATA +ACCGCTACAGTGAAACACATTGCAGCGTACACCCGCGCATTATGAACCTGTGTTTTCAAT +TCTGCGATCTCTTGATCCTTTTCGCTTTCAAACTCTTCGCGAGTACCATAATACCCAGGA +TCGTTAGCAGTTGCCAATCTAACCGCATCTTTTTCAACCAGCGTTGCATAACCGCTTTTT +ATTTGTGTCGCCCCGTACCATCCACCCCGATCATTGTTAATGATCAGATGGTCGCCTTTT +TCGTTATGCTTTGATTCACCAACGACAATAACCCGCTTACCATTCATAATATGATCCTCA +AAGGGGCCGAAGCCCCTATTTTGCGTTCTTCTGTAGATAATCTAACAGATTTCCGCTTTG +ATGTAAATCCAAAACTTTAGAAAACTTCTCTGCGTTTCTTTCGTTTGTGAGTTCGTCGAA +ATGCCATACACCATCATCAGCTATTAACGCGCCAGGTGATGAACCTGTTTCTACATCACG +GGAAAGCGCAAGCCCCAGAGGGTGTAAGATTTCGCGGTTAATGCGCCAAACAAGGCCCAT +TTCAGATAGAGTATTAAAATCGACGTATTTCATATTATGCCTTTGGTTTCACACCGTAGG +CCAACATACCAAAACGATGATCATTATCTGCATCTTTAAACAGAACTTCGTTACCATCAA +TGCAGATGACCTTTGCTTCCGGATCGATGTATGGAAGCAACCACAAAGGGATCAGGCGTA +GGCCGCTATGTTCATCCCAGCGACTGAAATTGAGTTCTTCCAGTTCATCAAGGGAAAGCT +CATTAGGATCGATATAACGGAACCATTTGGTATTTTTGAGGCGGTCGGGGAAGTTTACAA +TTTCTTCATAGCCGAATTCAGCACTCCATGAAGAGTAAATAGTGACTTCGGATGCTTTGG +TTAAAACAGCATCGCGAATTGATTTGCAGATATCGATTAAAGTCAGTTGATTTTCCATGA +TATATTTCTCATCTTGCTAAAATTTTAGGCAGTAGTTGCCCCATCGTTTTACGTGCATGT +GACGGAATCTGTGAGATCGGGACATATTTAAAATCATCCATTTCACGTATAGTCCGTCCG +TTCTTAACGAAAGTTGATGCACAATAGCATTCTTCCGCTACTGGGTAATCTTGCCCTACA +TAGAGGAATAAAGCAAGGTTTTTTGTTTTCGTGTAATCGAGAACACCCAGGCTAACCAAT +TCCTCCGCGAACACTTCAAATCCTGTTTCTTCGAAGCATTCGCGGATCGCCGCGTCAATA +TGAGTTTCGCCCTTTTCAACATGCCCCTTCGGAATATCCCAATGGGGCGTTTCAGTGGCA +TGGCCCATCAACACGGCACCATCTTTAACAAAGATAATACCCGCTGATAGTTCCATTTAT +TCACCCGCAAAAGCGTTATCAAATGCTTCAAGTGCGTTGTTAGCGCGAGCACTGGCTTTT +GTCACACCAGCCTGGAGATTTTCAAAGAAAGTATGTTTCCACACTTCGCGGCGACTGGAT +TCATGTTCCAGACTGTTTTTGTGATCACCGCGAATCTGTTCTTCCATGTCATAACGGTAC +AGATCGAGTTCTGCGTTTAATTTCTGCTCTAATGCCTGTGCAAATACATGTTCAATATTC +ATTTTGTATAGCCTATTTCAGATTTAAGGTTTTCGAGGGTGGAGTGATAAACAACATTCC +CTTCGTGTCGAGTATACCATACTTTTCCGTTCTGGTTACACTCATTCATTACATTTTCAT +CTAAACCAGGGATCGGCTTCATGCTGGGAGAAAACGTGATAGACATCATTTGTTCTGCAC +TATCAGCAAACCCACAAGGGAAAACAGATCCAGTTGGTTTATCAAGATACATCAACTCTA +CTTTAGCCATAGATTTCTTCGAAATCCTCACAATCAGGCAAATACGTTTCACAGAAGGTG +CAAAGCGTAAAGAATGCAGGTTGACGAATACCAGGATTATCCGGTAGATACATCCAGAAG +GTGTTAGCAAACACGATGAATGTTTTCAGGTTTTCGGTGGTGATTTCGCTAACACCATCA +TACCCGGATTGATTGATCGCGCGTTGCAGTGGCACCTCATACTGTTCGCAATAGTCGGCA +TAATGATCGCTTGTTACAAGGCCATTAGCCATTTTAATCAAATCGACGATTTTCATGATT +TTACATATTCCACTTTAACAGGTTTTGCAACAAATTTATCTTTGGTGCGCCCATGACCAT +TACACAGGTCACATTCTTTGTTGAAATCTTTCATATCTTCGACCCATCCAGAATCTGGCA +ACCCAGACGGATATGCGTTATAACGAATGGTTTCATAACCTTTTCCGTTGCATTTCGGGC +AAACATGAGGACGTTCTTTTTTAGCAGACTCTGCCAGTTCGCGAAGGGTGGTAGAACTAC +CATAAGCCCGACACATGTTTTCAAAGTCTTTTAAAGTCATTCTATAAACATCAATGACGT +TATATTTTTTGCCGGATGGTTTAGCCATAATATATTTCTCACTTAAAGAATTTTTTGATG +AAAGAGATAGCAAGGCCGATACCAAAGAAAATTAAGTAACCTTTTCCGTCACCGTGCGCC +AAAACATAGAGTGAGCTGCCGTATGCGATGAGTTCTGCGATGTTCATTAAGTTTCTCATG +ATATCCTCCTTTTTCTATATTAAGTATCTTACCATAATATAAACCAAAGTCAACAACAAA +GTTTTATCAACCCACTTATCACCAGTCATTAGTAATCCCCTACAGGTTGAGACGCCGCAA +CACTCAGGATCTTGAAAGTGCAATTGTTCCATTCACAATAAGTTTTTGCGCAATGAACAC +TTCCTTTCATAACAAACCCGTTTGAGAAAATTAACCAGTAAAGTTTCATGATAGCCTCCT +TTGTTTCGACAAGGCCAATATAACAAAGCCCCTGCACGAATGCAAGGGCTTTTTTCAGTT +TTTCAACATCCAAAGTTGCGGAGGACAATCTTTAGAAGCGATTAGACGATCCAGGCGGGA +CATAACCCGACGATAACCGTCGTATTCAAAATTAATTTTTGGTGGAACGTAGTTGACCTG +GATTGTTTTTCTGTTAGCTAAAGAAACATACTCAGGGATCACCGTTCGCAACCGTATAGC +GATCACTGGCTTCTCTTCGCCTTCGTTAAAGAACATTTGAACAGTTATAGGACAAGCAAA +GATTTTACCATTTACCCGACGATAAACAATAACTTCCTGTGTCCCTTCTGTTTTGGCCTT +CACAGCGTAGGTTAGAACATAACACGAATAATGATTTGCTAGACTCATCATGATATCGCG +ATAAGTTTCAATATCTTTTTTAATCGATACTGAACGGTCTTTAAAGCGATCTGCAATGTG +GTCAGCAGTAGCCGCTACCTTGATTGTATACCAGTCACCTAACGCGCTAGTAAACGCCTC +GCTAACTTCTTTTCGTACACTGTTAACAAGATACATTAAACGTGTTCTGTTCATATAATC +CTCACTGATTTTTGAAGTATTCGATCTGACGCAAACGCTTTTCAGCGGCGGCTTTCGAAT +CGTATTCACCAAGTTCTTTTGTGCGATCGTGATTCAAAACAACCCACTTATCGCCACGCT +GTTCAATGTGTTCTGTAATATCTTTTAACGACTTATCCAGATCCAGTGATTCAGCCTCTT +CACAGATAATAGTCAAATCCACGGGCAGTGTCAACAACCTTTTTACTCCGCTGATATCAT +CAAGCATCGAATCGTATGCAAGGGTTACGTGCGGTTTGTAATCCGGATAATCGTATGTTG +CGCCAGCATCAATAGAATCTTTGAAACGGCTATGCAGGTATTCAGATTCCAGGATCCCTA +CGATAGTGCTACCGTATTTTGTGTCCCACTTTTCAACATCAACCAGTTTAGCAGGTTCTG +TGATGTCCTGTTGCGGGAACAAATCAACCGTTTTCCGGCTGTATACGATCGTTGTATGCA +TCTTTTCGGCTGAAACAGCATTCTTTGTGATACCTAATGTCTTTTGAACATTTTTCAAAG +CCTCACATGAAGCCTGATCGAATTTAGCACACATGTAGATACCAGGATCTACAACAGGTT +TTGTGATTTCAAGAAATGATTTCATAAAACACCCCAATAAAAAAGGGGCCGAAGCCCCTT +TGTAATAAATTTGTTTTTACGCTTCTTCGCCAAAGGCGGCTTCATCTTCCGCGCCTTTTT +CGACTTCAACGGAAGGGATCAGAGCGGATACCGCGCCAATCACTGCTTCTGGGGTTACTG +GCTGGCTTGCGTCAATACCCAGTACCGAACACAGGTCGGACAGAAGTTGACGATGAACAG +AGAGTTCACTTTCTTTTTGCGCGATAACTTCGTTCAGATCGAATGCGCGGCCTTTCAGTA +CCAGTACTTCATTTTGCAGTTTTTGAATATCAGACATTTTATTACCCATTGTTAAAATTT +AAAAGTATCGAGCACTTTGCTCTTTAGTTGTTTCAAAGTACCTTCGTTAGTGATGATACT +ATCTCCAGGTTGAGGTGTCAAACCTTTTTCCGTGGAATGTTCATCAACAATTCCGGTATC +CTTTACAATAAACACAAACTTAGCACCTAAGCGTTTTAGGTATTTGTATTCGTGTTCTTG +ACGACAGTCAGTGACCAGAAGATGGTTGTATTCGTCACCAGTATATTTATTGACGAATCT +TTCCAACGTGTAACGAACCCAAACCGTGTTATCATACTTGCATACGATATCAGTTCCAAA +CACTTGCATCAAGCGTCTGATACTCCAGGGAGTATCGTTACTCATAATCAGGTTATCAAT +ATCATCAGGACTATAAACAATATTGTATCCACGTTCTTTGAGGATTTCAAGCCCGATTTT +GAAAATATTTAGAACATCTTCATTAGACATCACAAGAGGTTTCTCTCGATCGCCTTTGTA +AAAAATAGCATCCGGATCAGAATATTGTCCTTCAATCATATTGCGAATGTATGGTTTATC +GTAACCATATCGCTGCATTGCTATTCTTAGCGTTCTTTTGATACCAAATGCCAGTGCTTC +ACACTGAACATCATTGTACGCCTCTTGAATAAATTTAGCAACCGTATCTTTACCAGTTCG +CTTTTTTCCACTAATCACATAAATCATTAGCTCATTCTCTTTTGAGAAGTGACTACTTTT +CCGTCAATTTCAACTTCCATATGAAGGAAGCCAAAAGTTGCCATACACGTAACCGCTTCA +TCACTATCGTTAGTATAACCCAATTCAACCTCACCCAAGTTTGTTGGGAAGGCACCATAA +AATCTAAATGTGGCGATCGTTTTCATCTGGGAGTTATCCAGGATATGCACAGCGAATGAT +TGCTTAGGATCATCCCACGCAACAGAGTTAAACTCATTGTAATCGTTTGTGCTCAACATC +CATATGTAAATCCCAAGATACGATCTCATTTCCTCATCGACTACAAAGCGGATCATCAAA +GGATCAAACTCAAAAGCCGAACCAGGTACTTTACCTCGAACCATCATATTTGCAGGAATA +TCAACTGCTGGGAGGTTCATTGATGGTAGTGTAACCCCTTGAACTTGTAAAGTCAAACCT +TTCATGTAACTGTTATCAGGAATATCAACCCGAAAGTTTGTAGGTGAGATTTGGTTTAAA +ATCATTTCTGTAGACATAGGATCTCCTTTCCTCTATTTAGCGGGGAACGGGATCAAAGCG +GCCTGACGGGGTAATATAAAAATTTGAAGAAAATGCTTGACCTTTTAAAATCTTTGATCT +ATAATAATTATTAATTAAAATTTTATCAAAAAGATCTAACAAGATCAAGTAAAATTTAAT +AAATAATTTATCAAAAATTTTTAGATCTGATCTTGAATTCATAAATTTTATGATCTATAA +TATATTAATATTTTATTTTATCATAAATTTTTATGAAGATCAATACTTAGATCTAATAAA +TTTTATGCTTTTTCTGAAAACTTTTCCTTTACCCCGTCACTAAATACTGGTACTATGTTC +CCATATTGGAAATCAGGAAAAACAAAATGACTCACTTGAAAAAATTCAAAGAATTTCTGA +CCGAAGGTAAAACCCTCGCTCGTACCGTAGCACGTGGTCAACGCGCTAAAACTTCCGATA +AACATTCAATCGGTTTTCTTCACTTCAAACATGGTTCTGATTTCGAAGTTTTAGCACCGG +ATTCTCACGATCTGGCATACTTCGGTAAAAACATTGTACGTTTGAAAGGTATGACTACTG +GTAAAGTTCAAGCGGCTTATGTCGATTGGGCTAAAGGTACTGTTTCTTTCTACAGTGGCA +ATCCGGATGATGATCTGGATTTCGACAAACCAGAAAAATTCAAAGCTGCTACTCTGTATG +AAGAGGCGGAAGAAAATCTGGATCTGTATAACCAGTTAGCAGAAGATTTCGAAATCGAGA +TCCCTATGGATGAAGCTCTGGTGAAAGGTAAAGTTTACAAACTCCCAAGCAACGATATGC +GTCTTCTGTACACTGGGCGTTCTAAAACTAAAGCAAGCGGTGAATATGCAGTGTTTACCG +TAGTTGATGCTTCCGGCAAACCTCGCCTAGTATCTGGTAAAAAATTCACCCAAGAATATA +AAGGCGATATGGTTTCTAAACTGGTTCTGGCTGAATCCGAAGATCTGAATGAAGCGTCTA +AAGGCATTCGCGAAAAAGTTATTGCTGTGATGGTGAAACGCGGGTTTAACGAAAAAGATG +CAGAAAAGATGGTTGACAAAAACCTGAAAGATGCTATGAAAGTTAGACCTGGTGCGACCC +CTGGCAAACTTGCAGAAATAGTTAGCACCCTGTAAAAATAAAGCCCCTTCCTTTCGGTTG +GGGCTTCTGTATATGGCACCTGTATGAAAAAATATGGCAATGATGGAAGCATCAATGATG +AAATTGCTGGAATCGTTGATTTGCTAAAACATGTAAGAGTTGAACCCAAAGAGGGTAAAA +TCTATTGGACTAATCCTATAGGAAAGAAAATGAAACCTGGACAAGAAGCGGGTTCATACA +AAGGCGACTATTGGATTATATGCTTCAAGTATGCAAAATATAGGAGACATCGAATAATTT +TCTATTATCAACACGGCTACTTACCTCAGATAGTAGATCATAAAGATGGAATTGACGCAG +GGGATTCTATAGATAATCTTCGTGCTGCTGATGCAAAAGGAAACCAGCGAAACCGATTAG +GGGCGCAAAAGAATAGTAAAAGTGGTGTAAAGGGAGTGCGAGAAAAAAGAGGTAAATGGG +AAGCAAACATTAGATATGAAGGCAAAACGATTTATATTGGTACATATGAAAATATAGAAG +ATGCGAAACTAGCATATGATACCAAAGCAGTTGAATTGTTTGGAGAATTTGCAAAATAAA +AGCCCCGAAAGGGGCTTTTTAGTATCTGTTCCAGACTTTCTTCGCGCTGTAAGGCTTGCC +CTTTGAAACAAACGCTTGTGTAGGCAACCAAACTGATTTAGCCCAGTCTTTTGGGGCAAT +CTCTGCTAATGGTGATTTGAGGTGTGATGGTAGATATGCTTTGATCATTTCTGTTGCGCC +TCGCATACCTTTCACGTTACCCCAGTTAATTTTAAGCACGGTCTTGTTAGAGAGGCGTTT +AGTGGATCCGTACCCTCGCTTCAATAACTCTTCTAAAAACTCCTGTCGTGCTCTGGGTGG +CGCATAGTGCAAGTTCAAACCATAGAACACTAAGTTACCCGCTTTCGATCTTCCGGATCC +TAAGAAAATGATCAGTGGAAATCTATCCCAATACGGCAGGGTGTCTTTATATTTTGCATC +ATATGCAAACGTGTACAGGCGACCCGTTGCTGGTTTTGCCACACGGTGTGTTTTGATACT +GGTTTTGATGAAATTACCAAACCATTCTGTTGAATCTTTCTGTCGCTTTGCCGCCGATAC +ACCAACAGTGATCTTTTTCAGACTATTACGGAAATCGTTGATGATCTCGATCCCGTGTTT +TTTACGGTAGTCATTACGTTTTTTACGGGCTTCTGTCTCTGCGGAACGTCGTTCAATCTC +ATCATCAATCTGTTTTTTGTAACGATGCATTGACTTTGTGAACGTTGCGTAGTTTAATCC +CTCAGAATCGGCAAAACGTTTAGCAGAAACACCTTTCGTTTTTGCCTTACGGAATTTGAT +CCCCAGTTCAACCCAATCACTCAATTTGCGTTTGGGTGGTGCTTTGGGTTTATCCTCTTC +CGCGATGATCTCAAACTCAAAAATAAAACTCATGTTTCCCTCCAGGGATTACTGACCTCG +CCACCCAAAAACTTTTTTGAGTGATTCTTCTGTTACGATTTTGAACTGCCAGCCTTTTTG +ACGGCATAGCTCATTTGCGGCTTTCCACTTATCAATATTAACTGTATAGGTGTAAAGAGC +ATCAATAAATTTCTTTTTATTGTGTACGTTGTTGTTTACTGGCTTCGGTGGAGGCATGGT +TTCTTTAAGGGGCTTAACCTCCCAAAGATATGTAGTACCATTTTCCATTTCCACATAGAA +ATCCATGTAATAGCGTCTTCTCTTACCGTCTGCATTGCAGAAATACGGGATCACTATACA +TTCAGAATTCCAACGTTTTACGTGTGGGTTTTTATCCAGCCACTTCATAACGTAGCGCTC +CCACGATGACCTATACGTAATCTTTCGCGGATCGCCTTTATACTTCTGTATGTTTTCGGG +TACAAACGACCCTTTATACGTCTGTCTTCCAGCCATTGCGTAAATCCTAAATAGAATAAT +ATAACGTTTAGATAGGGGAACTTATCGTGCTATTTTCATACTTCCCGCCTGTTGATTACA +AAGGCACCCAGACAACTGATATTTTCCGAGACTATCGATTTTATTTTAATCGTGTGATTG +GAAAATATAAAACCCGTAGTTACCAGATAACAGGCACACTACGACCTGAACAACTTGCAG +AATCATTATATGGAAACCAGCAATACTACTGGATCCTGTTGATGCTTAACTCTGTTTATG +ACCCTTTCTATGGTTGGATCTCCGATCAGGAAGCCGCGTATCAGTGCGCTATACAGCGTT +ATTCTGAGGTTGGCGGTGAACAGGTTCTGTATCATGTAGATGAAAACAACAACAAGTATT +ATAACCTTGTCGAAGACCCCAATAACCCTGGTCATTGGTATGACAAAGGCGACAAACCAA +TGCTGTATTTACAGTATCAAGGTGTATTAGCTCCTGTAGATATTTATGAAGATGCAGTGT +TGCAAAATGAAGCAAAACGAACAATAAAAATCATTAGTCCGTCTGACATCCAGGCGTTTC +TGAATGATTTTATTAAAGAAATGGAAAAGGCTAACTCATGAAATTAGGCGGAAATTTACA +CTCCCCTTTCTTTGATGGGGTGGTTGAAAACGTTGATGATCCTCGCGGGTTGGGCCGTGT +TCAAGTCCGTGTATTTGGACAACACCCAGCCCAAAAACAAAAATCCGATGCGATCGGTGT +TCCTGTTGAAGATTTACCCTGGATGATGCCTATTCAGGATATTAGAAGCGCTGCGATCTC +TGGTGTGGGCTTCTCTCCAACTGGTATCACTCGCGGATCCTTTGTTGTTGGTTATTGGCG +TGACAAATGGCACCAAGATGGTATGATAATCGGTACTGTCGCTGGTGAATATGTCGAACA +ACCAGACACACAGAAAGGTTTTTGCGATCCTATGGGTGAATACCCTCGCTATGTTGGTAA +CGATGTTAACTCCCTTGCTTTAGGTGGTTTGAAAGGCAAAGGATCATCAAGTGTCATCAT +TCGTGATTCAAACACAAGCATAGCAGTAAACCCAGACGATCGCCCACTGGATGAGATACC +AGAAGATAACCGCCCTGATACGGGTGGATTTACTATCGAAAAGATGCTCAAGCAGGATGA +GGGGATCCGCACACGCTGGTATACAGACAGTGAAGGATATCCGACAATTGGGATCGGGCA +TTTGCTTATCCGCGAAAAGACTCGCGACACTGCAAAAATTAACGCTGCGATCAGTAAAGC +GGTAGGTCGAGAAGTAACAAACGGGACAATCACGGCAGAAGAGGTTTCAACCTTATTTGC +TCAAGATTTAGCCAAAGTAAGATCTGATATTCAGAGAACCGCTAACGTCCGTGAAGTGTA +TGTGAACCTAAACCGTCCTCGTCAAATGGCGATCGAAAACATGTCGTTTCAAATGGGCGT +CGGTGGTGTTGCTAAATTCACCAATACCCTAAAAGCGATGAAAAATGAAGATTGGCAAGC +GGCTTATAATGGTCTTCGCAATTCACTGTGGGCTAGTCAAACTCCAGGCCGTTCTTCTCG +CGTGTCTAAAATCGTCCTCACGGGCAACCTTGAATCATATGGGGTGCAAGTACCAGATCC +GGAAGGGCGCTCTCTGAGTGCTGCTTACGCTGCGTATAACGGTGCTACATTGTCGGCTAC +TAGTCCGGAAGATCCGTTTACTCCTGGTGATACCCGTGTGATGTTTGAAGAACCAGCATC +ATCTTATAATGCGGAATATCCGTATAACATGGTGTTTGAATCGAGATCCGGACACATTCA +GGAATTCGATGATACCCCAGGATACGAACGATATAACCGTGTTCACCCAGCAGGGAGTTA +CGAAGAAATTCGCCCGGATGGAACCCGCGTTGTTAAAATCGTAGGGGATGATTATCAAAT +TGTGATGCAGGGCCGGAAACTCAATGTTAAAGGCAACTTGCAGGTAGTTATTGAAGGCGA +CGCATTCATTTACAACATGGGTAACGTTCAACAAACGGTTGATGGTAACGTAACTGAGTT +TGTTCGTGGCAACGTTCAACAAACTGTTGAAGGTGAGTACGTTGGCCTGATTAAAGGTAA +CGCTGAACTAACTGTAAACAAAGATGCAACAGTTAACGTTGATCAGAATCTTACCGCAAA +TGTGAAACAGAATGCAACCGTAGCTGTAACAGAAGACGCAACGATCACTGCAAAAAATGC +GAAAATGGAGATTGAAGAAACGATGGATATCGGTGCTAAAGATATCAATATCAAAGCAAC +GAATAACACGTTTATTGATTCTGGCGCATTAACAAAAATCACTGGCGGCACCGTCCAAGT +GGGGTAATTAAATGATTATGGATTATGAATCAATAATTGATGGAATTATGCAAAATTATC +AGCATCCTTGTGATGCTGAGATCCCCGCTGGCTATTATCGGCGGGTTATCTGGCAAGGGC +ATACAGAAAATTATCCGGCTGTTGGGGTTGAGTGGGATACCGAGATAATCAAAATCGGTA +CTCATCTTTATACTCAAGAACCGTTCGGACATAGAAGCACGGATCTACCTGTTGTCAATT +CACCGGGAACAGATCCAAATACCGGACAACCAACAGGGATCCTTGTTCCGAAGATTGGCT +ATTATTTCAACACTCAAGCAGAGATTGATGCTTACATTACATCCATCGGTGCAACTAAAA +TCAATGGTGGTAATGATTGGTACGGCGCGGATCTGTCAAAATCAAACCTATACAAAAACC +CTGGCGAACTGGCTATGTATAAGGTTGAAAACAGTGGCGGGTATCTTTCCGGAACAAACC +CTGTATGTGATGCTCGCATACGTCAGGCGTATAATCAGGACACTGGCGCATTCACCAATA +TTGATTATTATTGGAATGGTAATCGTATAGCATATATGAAGCATGACGAAACAGGGGCGC +ACCAGTGCAAATATACGGGTATGCAGGTTAACACCAACGCAGATACAAGCATTCCTCCTG +TTCCTCCTGCAATGCCTTCCACTTATGGGGCATTACCGAGTGAATTAAGCCGTGCTGATA +TTTCGTGCATTCCGGCAACTGTTGGTTTCGCATATACAAATATCAGTGATGCTATGTTAC +AGGCATGGAACGAAACCCGTAATACGTTCAAGCTACAGTTTAACATGTTAACGGGTGCTG +TACAGAATGGATTCGGGATCGCGACGATGTTTGATGGTTTATCCGTATCGATGGAAGAAG +TAATGGCGGGGGCGCTCGCATTGTCACAGCAAGCATGGCAAACTGCTATGAAAGTTTTCA +GACAAGTGATTAGCGCTGCATTTAACATTATCGGTGGTGCGTGGGGATTGATTAATCAGT +TCTTGCCTCAAGTAACCATCTTAGGTGTTGCGATCAACATTTACGATCTGGTGTTTGGTG +ATAATTCTGTTCAGACTTTGAAAGATGCATTTAATGCAATCATCAAATCCGGACAACAAA +CATATGAAACCGTCATAAACGCAATATACGGGGCCATAGGAAGCGCATACAATTACTCTG +TGGAATATGTCAAAGCTGGCGCTCGCGACCTTGTGGATGCGTGTAGCGCGTTATTTGATT +GGTGTTTAACGATGTTCCAAAACGGTTGCGTTGCATTAATCGACTTATACGGTCGGATCA +TGCAAACATGGGCTATCCCTCCGGAAGTTCCAAACCCGTTATGGTCTGCGGTGCTGGCTA +TCCGTAACATCATGATGCAAATCAAACCACTTGATATAATTCTGGGCGGTAACTTCCCTG +GATTTACTGCAATGGATTTATATCAACAAGCACAGGAAAAAGTCAAGGCTTTTGTTGATG +AGTCATACGAACAGATCCGAGGGCTTTATGAACAAGGGCAGGAACTTTACAAAACGTTAA +AAAATCAGATTTTCGAACGTGATTCAATTCAGAGAAAATTCAACCAGTACTTAAACTGGA +TGTGGGGCGCTGTAACAGACGAAGCAACAGCGGCTTATCAATCTGCATTGGATGCTGCAA +ACGCTGCTGTAGCTGCAACACAGGCCGCGTATGACGCTATACAGGAACAGATTGGATCTC +TACAAGATGCAATGAAAGATACATACAGCATGGCGATGGAAGAATTAAAGAAATTGCCTT +TGATGAGTACAATAAACGAGTTTTTAGGATTCTGTGGTGTCGCATTTGACGATCTTCTCA +AGTCATATGAAAATGCGATTACTGGTGCTCAGTCTCTGTACAAAAATTTCATTGATAGTT +CTCGCTCGTTTAAAGATCACTGCAAAGTAATCTATAACCAAATTTGTACGTTGGCGTTGA +GTAAAGTCACACAATATGTGAATAAATTGCTGTCTCTCATAGGATTAGCAATCAACTTTG +GTTCGATTAGTGTATGTGTTCCAGTACTGAAATACTAAATAGTCGAATGATCAAGAGGAA +TTTATAATAATGGCTACTGCTAAGACTAAGACTGTCAAAAAACAGATTAACCAAATCCCC +GATATCTTTATCGGGGGTACTTTCGAAGAAATTAAAACAGATCTGATTGATTGGCTGGGT +GGACAAGAAGAGTTTAAGGATTACGATTTTTCCGGCTCGCGAATGAACGTACTGATCGAC +CTTCTGTCGTATGCTACTCTTTATATTCAGCAGATGGGTAACACGGCTCTATTTGAATCG +TTTATTCGCACGGCTGCATTGCGTAGTTCTGTTGTACAGTCTGCTCAAGAACTGGGATAT +ATGCCAGATTCGCGCACGGCTGCAAGCACAGCAGTAATGATTACGGCTGCTAACCCACTG +ACCCCAACATCGATCCGTATCCCGCGCGGTACAAAATTCATCGGTACTGTAAAGAATACA +GACAGTTATTCTTTTGTTGTATCAGATGACGTTGTTATCGTTCGTGATAGTAATAACAAC +TATACATCAATGCTGAACCTGGTGCAAGGCCGTTTAGTTCGTACTGAACTAATTTATGAC +GGTTCAAGTATCCTGATCCGAGATCCAAACATTGACCGTAGTCAGGTACGTTTAACTGTA +AACGGCGCACAATGGGAAGACTGGACAAACGAAAGCATTGTAAACGCAACAGGCGCAAGC +ACGATTTACTACATGCGTGAAACTGTTGATGGACATACCGAAGTTTATTTCGGTGAAGGT +GAAGCAAGTCAACAAGTGGCGGGTGGTGCATTAACCGCTGAATATATCGGGGGCTTGAAA +CCTGCTAATGGATCGACTATCGTTATTGAATACCTGTCAACCGATGGGGAAGCGGCTAAC +GGTGCAAAAGATTTTATCTATGTCGATACATTAACCAATATTAGCATCACTAACATCGAA +GAAAACCCGACTAAATCCCCTGATTATGTCGGTGCTGATGGTGGTGGTGATCCAGAAGAT +ATCGAGCGTATTCGAGAACTGGCCCCTGTTATGCGTGAAACACAACGCCGTTGTGTAACT +GCATCGGATTATGAATCTTTCCTGTCTCACAGATTTGGTTCTATCATCCAGGCGGTACAG +TGCTTTACTGATAACGAAAAACCTGGTTATGCTTTCATTTCTGTTAAACCAAAGTCAGGT +TTGCGCCTAACATCGGTACAGAAAGAAGATATGCAAACGTATCTTTCGAAATATAACCTC +GCGACGATCACCCCATCGATTATGGATCCTAACTATCTGTATATTGTGCAATCTGTCAAA +GTAACGTATGATATCAGTAAGTTGACGGAATCAGAGGAATGGTTACGCGGTCAGGTTATT +TCGTCGATCGACTCTTACTATACTAACAACGTTGAAATTTTCAACAAATCTTTCAGTGTA +TCTAAGATGTTGACTTATGTCGATCAGTCTGATACTTCTATTATCGGTTCGGAAGCAGAT +ATTAAATTGCTCCGTGAAATTGACAACTATTACAGCGCCCCTATGTCTGGGATCCATTTC +TTGAACCAGGTGGAATCTAAATCAATCATTTCCAGTACGTTCAAGTTCACCAACGAAGAA +GACGAAAGTTATGATGTTCGTTATGCTTCTACGGAAATGGATCAGGATGGTAACGCAAAA +ATTGTAATAGGCCCGTTCAAGGATGGGGATATTTCGATCGCTGCTTATACAGGCGATGAC +TTTGAAAAATTAACAGATGCAGGAACCCGTAATAAATATTACGAAGTTGGATCGGTTTCT +CATTACACCGATTTCATTAGCTTTGACCTGGGCGTTCTGAACGTATCCGCCGATAGTTTC +AGCGCTGCTTATATCGAGCTAACTGCAAAACCTCTCGAAGAAACCATTTTTACTCGCGAT +GGTTCGTTGATCGTGTTTGAAAATGACCTGCGTCCTCAATATACCACATTGACTATGAAT +CCTATCAGTCAATAATCTTTAACCCCTGTCTTCGGATAGGGGTTTTTCTTTTTATAAATA +CGTGATATACATAACCGCAAATTTGGAGAAATATAATGATTAAAGCGCCTTCGATTACGA +GTTTGCGCGTTGATAAACTGGCTGCTAACTTCGTTTACCTTAAATGGGATGATGTTGGCA +TGGATTTCTATTATGTGGTTGAATTGGCCCGTAGCCGTGATATGGACGGAACTATTATTC +CAGACGAAGAGTTAATCTGGACGCAGTTGGGTTATAGCTACGAAAACGAATGGTTTAGCG +ATCAGGTTGCCCCAAATACACGTTATAAATTCCGTATTCAAACAACTCATGAAGGGTTTG +AACCTTCTGATTGGGTGATCAGCGATGAATTATGGACGTTTGATGAGAACGCCTACGCAT +ATACAACCATGCGTGAATTCACCCCTGCTGATTCGTTTATCAATGAAAAATTCGCCAAAA +ACAATCGTGATTACGTCGATTTTAACGATGATGTTATTATGGCTTCTCTGATGGTTGAGG +ATTTTGTATACTCTCCCCTGTATTCTGATGTAAGCCAGATCAGCGATAAGATCCTGAAAC +AAGAAAGCTACCATGAAATTCAAGATCACATCGAACACGTTTGTAATGATATAGATCGCA +CGTTCCTGGTATACTCAAACGGATTGCTTTACCTGTTTGAACGTTTTCAGAATATGGCTA +AAGTGTCAAATGACAAAGGCCAAACGTGGTATTACTACAAAGCATTAAACGATCGTGTAG +GCAATCCGGTTTCCCGTACCATTGCTTATCAGAGCACTAACACTACGTATGTGTTAGGAT +ACGATCGCATATTTTACGGGCGCACGTCAACAGATATTCGTTGGTCTTCTGATGAAGTTC +GTTTTTCTTCTGATGATGTAACTTTTGCGAAGCTGGGGAACCAGTCAGGGTTAGATTTTG +ATGTTGACTCATACAACACGTATGCGCGTCTACCGGGCGGAGTGTCGAAGTATGCCGAAG +CTATGGCTTGTTCTAGTGATTGGCTCTATGTGGCTGCTAAGAACGTTATGCGCCGTATTG +CGTTACGTAACACACCAATTGATACTGATCCTGGTTCGCCGACCTTTGGTGAACGTATTT +TTGATGAAGTTTCATATACTATCGTACCAGGAAATGATAAAATTGTTGTTAAAAAAATGG +ATGTGCTGAATGATCGTCTGTACGTTCTGGTAACTGGTGAAGTTAAAACGGCGATGATGG +ATCCAACTGTCAAAGCTAACGTGATCCCATCAAACGATGCTGGCGTTTATCTGTGGGATG +AGAATGCAAAGACGTTTACCCGTGTTTATGGTAAAACCGAAGATGAACGTTTTTATATCA +CTCATGAATATACCAATATGTCAACCAATGGCGATGAAGTTTACATTTCTGTTGGTAACT +ACAAATATCCAGGCACTTTGCCAGATCCAGATCTGGTTGAAAAGTATCCGGAAGATGTGC +ATTCAGCGGTGAAATACGATCTTGTTCCTGGTTATACTGCGAGCATTTCGATTAACTTTG +CTACAGTTCGAGCAAATCAGAACGATCCTACTGTTTGGAACTTTGGGCCGCAAGAGTACT +ACAATGAAGCAAACTTTAGCTGGCATTTCCGCGATAAGGTTAGCACATGGATCACCAATG +ATAACCGTCCTCTGGTGGTTTATCCGGAAACCCTGTATACTCTGGTTACTGATAGCGCGT +CTCCTGCGTCAACGATTCGTGTAAACCATGAAGTTTGGGACAAAGGAACAGTTACTATCT +ACTTGAATAATATCAAATTTACTGGTTTTACGAAGTACACAAACGGTGTTCTGTTGTATC +GCTCAGGTGGTAGGATAATTGGATTCTATGAACTGTCATACCGCGCAAGGGATGAACTTA +CTATTTTCTGGAAACCTGATAACACTTTAATGGTGGCAAGTCTGGTTAATCAGGAACGTG +AAAACCCATACACGCCGGATATTGAACCTGGACTAATAGATCCTGATCTGAGTCACATGA +TTACTCGTTTTGCTCCGCAAAGCTATCTGGACAACCAACAGTTCGAAAAATTTGGTGAAT +ACTATCTGCAATATATTTCGTTGGGTAGCAACAGTTACTATAACAAATTGCTGAACCTCA +TCCGGAACAAATATCCGAGAGAGAAAAACAACGTTGAATATTTGTGGTCTGAAATTAACC +GCCGTAACATTTACCTGGATAAAACCAAACGTGAGGCAGTGGTTAGATTTTTTGAATCAC +GTGCAAGCGATTTCTATTCAACAAAAGGGATTGAGGCAAGTTATACGTTCCTGTTTAAAT +TGCTGTATAACGAAGATGTTTCCGTTGAGATCGAAAGCTCCAACAGTCTCGAATATGATA +TTTTGGTTAGTTCAACAAATATCAGTCAGGATATCGTAGGCCGGACGATCTATACACCAA +CTGGACGCGCTAACGTTACATACATCGAACGTGAATATGAAAATGGTCAATTGCGTTGGT +CAATGACTCTGCATAATGCTCAAGGTAACTTTATCGAAGGGCAGGTTGTCAAGTCAGAAA +AAACCAATTTCACCGGAATGGTAATTCGTGGTGTTCGTGGTAAACAAATGGCTAACAACT +CGATCGACTATATAAACCGTGGACGTTCTTACTACGTGATGAAAATTCGTTCAAATCTAC +CGACTTCCCGTTATAAGGATGACGTATTGAGGTTTGTTCATCCGGTAGGATTCGGCTTTA +TGGGTATCACGATGTTAACAGTATTCATCAACTCTGGTTTGTCAATGACTCATAACGAGA +CAATCATTGATATTCTGAGAAACTACCGTTTCGATAGTGGTTATCCTAAGTTCTGGCCTG +ATCGCATTGCGAGCATGGACGGTAACGGAAACCAACAATTCGACCTGGTTACTGGTGAAC +CTCTGTACACCGCACACCCGCGAGCGGGGGAACCTTTTGATGTACCTCCGGAATATGACG +TTGAAGAAAAACCGCTTAACGGTGTTCTTCCTTCTGCGCGACGGTTCGATCAAAGTCCGT +TGTTCGATTGCTCAGGCGTTAAATATTCACAGTTCCGTAATTTGGTGGATAGACGACTGA +AAGATGATGCAGGAAACCCACGTGATCCAAATCCTCCATCACAGATTAAGGTAGGAAATT +AAATGGCACAACAAAACTTGTATCGGTCGGTAATTACTGCAAAATTCCGAACCGAAAACT +TGATGAACTTCAAAGATATGATCGGCGATGCCGCCGATCTAAACACGATTTATATGTCTA +TTGGGCGAACTGAATCATGGGCGGATAACGAATCCGACCCTAACTTTGCCCCGCCATATC +CAAATGATAGCACCGATGGTGTTAGTGATATGTGGACGCATATGATCGGGGCTACTAAAG +TTCCTGGTGATATGATAGATGCAATTTTACCACGTAAAGACTGGGGTGATACTCGCTATC +CAAACCCGAAAATCTTTTACTTTAACGATATTGTTGTTGTAAACACCGCGCCTTATAACC +GTACTGATCCGGGTAAAGGTTGGATGGTTTATCGTGTAGTTGATGTTCCTGATATCGGTT +CTTGCTCCATTTCGAGCATTACCGGAAAACTTGAATGTATCAGGATCGGCGGTATCTGGA +GTCCGTCTCATGAATCGAGTGAACCTCCACGCGGAGAAGCTAACGGGATCGACATGGGCG +ACGGCTATAAATGGGAATACCTCTACACAATCCCGCCAGATGTCGTGATCAACCGCTGTA +CGAACGAACATATCGTAGTTCCTTTCCCTGGCGAACTGGAAGAGGATCCGGTACGTTGGG +GTTATGATAACGTGATTCAATGGTATCCAGGACAATACGATCTAGTGTATCGGTTAAAGG +TGAATTCAATGCGTTTTCGTGCGTACATGGATTCTCTTTTCTTCCCGCAATCTACGCTCC +CTGGTAACAAAGGGTTCCGTCAGATAAGTATTATTGTAAACCCGTTGATTAAAAAGGCAA +GCCCGACCGAACCTGAAAAGAAAGCAACTGGTGATTACTATAATGCTAACGCGCTTGAAC +CTGATTCCGGACGTATGATTTACATGGAAAACAGACAACCTATTATTCGCTCCCTTGATC +AGACTGAGGAAGTGAGTATTGTATTCGAATTCTAAGGAAAAACAATGGCTTACCAAACAG +CAAAAAAACTAATTGATGTCGGTGAAATCGGCAACCCATCAACAGGCGACCCGCTTTATG +ATGGTGGTGTTAAACTGAACGAAATGATCACCAACGTTTATAATGCGTTTGGTGATGTGC +GTATGCTGTCTGCAAACGAAGGTGTCGGTAACATGGTGATCCATGCTACCGGATACTATC +AGAAACTACCACGCACTTACTATTCAAGCACACCGATCGAACTGGGTTCCCTGCATGACA +TAGATACTTCAACAGGTTCGATTACCGTTGTTCTTCCTTCTGGTAAGGTTGGCGAAGGTT +GCTACTTCATAAATAGTACGGGTAGTGTCTCTGTTGATCGTCCTATCGCGTTTCGTCCTC +AAGTTGGGGATACTATCGCGGGGGTTGCAGACCAGTTGTATATCACGTCACCTTACACCT +TTGTAAAAATCTGGTGTACCAAAAAAGAAGGTGCGGTAACAAAATGGGATTATTCTGTAG +AATCTATGTTCGGTTCTAAAACGATGCCTGTTGACACTACGGCGCTTGTACTGAAAGCAA +ACCCGACTGCTATTCCTATGTTCGGATATAGCGAATTTAGCGGGGCTAAGGTGCTTGTAT +ACGCAGAAAACTTAGCTGGTACAGTTACCAAAATGGCAGAAGTTTTAATGACCGTGGATC +GTGTACACAAAACGATTTATTCAACGGAATATGCTATTTTGAAAAACAGTGAAGATGAAA +TGTTTACATTAAACTTTACTGTCGGTGCTGGTGATGTTGTATACGCTAACGTGCAAGCGA +TCAAAGAAGATCGAATTAAATTCACGATTAAAGCAATAGATACGATTAAATCAGGGATCG +CGTCATGAAACAAGAAATTTTAATAGGTCAGATTGTAGACGATGGTACAGGCGATTACCT +GCGTCGAGGTGGTCAAAAGACTAACAACAACTTTACAGAATTGTATAACATGCTGGGGGA +TGGTGAGATCCCCCATCCAGCAGGTGCCTGGAAAACTTTTGCGGGTACGACGCTATCACC +AAAATTTGGTGAATCATGGGCGTTGAATACCAGTGCAAACAAAATCACCGTAAACCTCCC +GAAAGGCGGCGTAGGCGATTATAACAAGGTTATTCGTCTGCGTGATGTGTGGTCGCGTTG +GGCTACCAACAACGTTAGACTGATCCCCGCAACTGGTGATACTATCAAAGGTTCCCCAAC +TCCTAAAGATCTGTTTAAAGATTTTATGGATGTGGAATTGGTGTATTGTTCTCCGGGCCG +TTGGGAATACGTCGAAAACAAACAGATTGACAAAATCACAACTTCGGATCTGGCAACAGT +AGCAAAAGAAACGTATATTGCTACTCAGGGACAAACTGACTTCCCTAACGTATTCGGTGT +TGGTAATGAATACAACCTGCAATCGTTCGAAGTTTACTATCGCGGTAACTTGCTGTTCAT +CGATGAGAAAGACGGATTCAATGCTGATAACTCAGACTATGGATCGATTGGCTCTGCTCC +TGGTGAACTGGTTGCACTTGATGGTAATTCAGTACGTCTTAAAAACCCGTGTAACGCTGG +TGACACGCTTCAATTTGTTACCTATCTAGATGGGTTAGCAACATGGCGTTCGAGCTATGA +AGCGTATGTGATGCGCATGTATCAGACTGGTGATACTTCTCTGGAAACCGTTCCTGGTGA +ACAGTGGGTAGGTGATCTGGCAACCAAAAAAGAGTTTACACCTGCTGAATTTGGTGTTAA +CCCTCGCGTGTTGATTAACCCTAACTCGTTTGAACTGCTTCTCAACGGTAAACAACTGGT +TAAAGGCGGTGACGCTGACTATCCGGCGTTTTCCTGTGAAGGTGCGGAAGGTGTTGATGA +AAGTACGTGTGTTGGTAACTCTGGTGTATGGGTTCCGTCAGGACAGGATTATAGTTTAGT +ATTCACTGATTCTGTAGTGACTTCAATCAAGTTTGCTCAGAAACTGGAATCCGGCGACGT +TGTAACGATCCGTTGGTTTAACAATGATATTGGTACTCTGATGGATTGGGAAGGAACTGG +CGGTATTAAAGAAAAAGCTGATAAGGTTTATCTCAATAACGAAGAAGAAGTTATATTGAC +GAACCGTATCGAATATACCGATTATAATAACCCTTCTCAGAAAACAATGCGTAATACAGG +GGAAACCTATCAGGGGCGTATTCTGGATATTCAGGCTATGTTTGATATTATCCACCCGAT +CGGAACCATCTATGAAAACGCACACAACCCGGCAAACCCTGCTGATTATATGGGATTTGG +TGGTTGGAAACGTTACGCAGAAGGTTATTTCCTGGCTGGCTGGACATCAAATGCAACGGA +TCCTGATTTCGCATTAAACAATAATGATTTAGATAGTGGTGGTCAACCGAGTCATACGGC +AGGTGGTACTGGTGGCGATCGTGGTACAGAAATCAAAATCATCAACGTTCCTGAACTTGT +ATCAAAAGATAAAGTTCTTATTGCTGATGAAAATGGTGCTGTGATCATTGGTGGTTGTCA +GTTAGATCCTGATGCTTCTGGCCCTGGATACACTAAATACCGTGAGGATACATTGAAAGT +GAATCATGGTAACACATTACCTGATAAAATCAAAACTATTCCACCGTATATGACTGCACA +TCGCTGGATAAGGGTTGCATAATGGCTTACAAAAATATTTCAAAAACAAGGGAGGGCGCT +CGCGTCCTCTCTAAAGAAGCAGATTACTTACAGTATGATACTTATGGTAAGTTGCCTCTG +ATCGGCGGTAAACGTTCGATCGGCGAACCAAACATTGACCAAACAAAACGCGGTGTTCTG +TATGGAAACGTACAATCCGCAATTGATGACCTGTATACGCTTATCGAGCAAATCCCGATT +AACGGCGTTGTTACCATGACTGAGGATGCCCCTCCAATCGCTGTACAGCAGGTTGAGAGT +GTTTCTTTTGATGGTATTGTACAGAACATCGATTCAGACCAAGAACAGGCTGTAGTTCAC +GTGTACGGATTTCCTTTCATCTTTGATAATGGGACTAACGCCGCAACTGTTTGTGAAACG +GCATACAACAAATTTACTGAATTTGTTGCAGCGGAAAAATATTTCGCAGAAGTTAACCGT +AAAGGTGTTGATGGTACGATCCTAGAATGTCGATTTATTGATAGTGTTCCGCACCCGGCA +ACAAATATCTCAGAAAACGGTATTCGTCAAATCGGAACTATCGACGTAGCCGCAAAAAGT +GGCTATGGTTCATGGGTTAAGTTGGGTTCTGGTTTCTTACCTGATGTTACTCCGCAAGTA +ACCGTGTATTACTTCAAACGAATTGCATAAGGATAACACATGAGTAACAATACAATCAAC +CACGTAAGTGATAAATCCATTTACGTGACATTTGACCCAACAGGTACTGATTGGCCTGAT +ACCATAACCAACGTACAAGATGCGTTGGAAAAAATAGGTAGTTGGGCGCGTACTGATACT +GGGCTTCCTATCGCAACAACTTCTGTTCGTGGTATTGCTCAGATCGCAACCGAAGCTGAT +ATTGACGCTGGCACGGATAACAATAAGATTGTTACTCCGAAACTGTTAGCGTATCGTATG +CAGAACCCTAAAGCATCACAAACTGTATGGGGTTATACGAAGTATTCGACTGATGCGGAA +TCTACAACCTTAACTAACGATGCATCGTCTATTACTCCGCGATCTCTGAACTATGTGTTC +AATAACCGTAAAGGTACAGAATCGGTTTGGGGTTCTTCTAAAATTGCCACCACTGCACAG +GCGGTTGCTGGTACAGATAACACTGTAACTATGACTCCGCTTAAAGTCAAGCAAGCGATC +GCGTCCCTGGTTCCGGTTCAGTCAAGCGCGACCGAAAGCTCGCAAGGTTTGGTACAACTG +GCAACAGTTGCACAGGTTCAGGCTGGTACGATCCGTGAAGGGTATGCAATTTCACCTTAT +ACGTTTATTCGTTTAACTGCAACTGAAAGCAACCTGGGCGTTATTCGTATCGCATCACAG +GCAGAAGCAAACGCGGGTACTGATGACACCAAAGCGATTACTGCGAAAAAATTAATCAAT +ACCCGTGCAACTGGATCTCAGTTCGGTGTTGTCAAATTAGCAACAACTGTTGGTTATGTG +GCAAACACTGCACTTTCTTCAAACGCTGCTGTATTACCTAGTGATCGAAATGCGGTAATT +AACGGTTCTCTTTATGAGAATAGCGCAATATATAACAACAAATATCAGACGTGGACAGAT +CTTGATTGGCATTTCCCAGTAGGTGCTATTGTCATGACTGGTTTTCAGACTGACCACGGT +AGTTTGTATATTTGTGATGGTCGCTCACTGAATAAAAATAACTATCCGTTACTTTTTGAG +CGTATAGGTTATACATTTGGTGGTGGCGGTGATTGGTTTAACCTTCCAGATTGTCGAGGC +GTTGCAGTACGTGGTCATGACCGTGGGCGTGGACTAAACCCTAATCGTGGGTATGGTACA +TATGAAGGCGATATGTTGGGCTGGCATGAACACCCATTACAGCTTATCTACCAGAACGGC +GGTAATATTCCTAAATGGCAAGCAGTTTACGAACTGAAAAGCGCCGAAAAGAATGACCAA +AGCGCTCGCGTATTTGATGCTTCTATAACTAAAGCCACTGGTGTGGGTGGGGAAGAAACC +CGCATGAAAAACATCGCATTAAACTACGTAATTCGTACTCAATAGAGGTTATTAAATGAT +CATCGACAAATTAAACCCGTTGCCGAAGATCCCGTTTGTTGATGGCGTCCCAGATGACGC +CACGACTCAAACGAAGATTATTTGGATCAAAAACGGTGAAACTCTGGACGGTTCGCCAGA +TAAAGTGTCAAACACTGGTAGTCTTAACCGAACTGGTGTAAACATCCAGCAGAACGCGGT +TCAGTTAGAACAAAATACCATCACCCATAATGATAAAATCAACGAAGTAATCGATCAGGT +TAACTTGATTACTGAAAACATTGATGCTATTGGTGATGAGAGCGTAATCAAAAAAGTTAA +CCAGTTGGATCAGGATGTTCGGGCATTAACTTTATCTAACACCCAAACACAGAACAAGGT +AGCACAGTTAACCCTTTCTGTAAATGCTCAAAACGATGAAATTGGTGAATACGATCCAGA +AAAAGATCCTAAACACCGCACAATTCGTAATGATATCATTTACATTAAGAAAGAAGTTGG +TTCATATCCTGGATTTAACGTTGATGGTGATGTTGACCCCTCTTCTACTGGTACTGGCCT +TAAATACCGCGTACTGAGTAACCAACGTGCTATTTCTATGCAGGAAACTCGCATAACCAA +ACTGGAAGATGATTGGGCGCTTTCCGAAGTAGGACAACTGACAGAAGAGGTAAAAGAACT +TCGTGCTGAAATGGGTGATTCTGGTCTTGCCACAACCCGATCAATCTATGCGCGAATCAA +GATCCTTGAGGATGGTTCTATTGTAATGCAAAATGAACTTGATGCGATTAATAGTTATAT +CGGTCGCACGTCAGGTTCAACCAGTTCCATTAACGATCGTGTGAACAGTCTGGAAAACTC +CGTTAGTTCTCTGGCTACACAAATCAATGATCCGGTAACTGGTATCACTGCACAAATTGC +AACCATTAACGGTCAAATCGGTACGGCTTCTGCTCAGGGTAGTATCCGTTATGATATTGC +GGAAACTAAACGCAGATTGATGGATATGGAAATGATTCTGGGTGAATCCGGCGATGATGG +ATTGCAGGGACAAGTTGCGATCTTAACTGGTGACGTTGGTGAAGATTCAGATCCTACCAG +TATCAAAGGCCGTTTGAGTGTTGTTGAGGGTGAATTGCGCACCAACACTAGCGCACTCTG +GGAACTGCAAGGCATTGTAGGTAACTCTTCTAGTGGCCTCGTTGCAACTAGCCAGCAGAT +TAACAAAGAAATCTATGGTGATGGTGTTAGTTCCGATCCTGTTACTCGCGCTGGTTTGAA +AAAGACAACCCGCAACCTGTTCACTCAGGTAGGCGATAACGCAGAAGGTAACGAAACTGG +CATTTATGCACTGATTGCCGACCTTAATAAACGTGTTGAGGATTTAGAAGCGTTGAACAT +TGCACAGGCACTTGCAGATCGCGTAACTATCGAAGATCTGAATGCTAAACTGGCTCTGTA +CATCAAAGAAGCTGACGCTGATCTCCGTTATGAGAGCAAAAACCCGCCTCTGTCATTCGG +TACTAACCTAACTGGTGATACTGAATACACTACTGGCGATCCATTGTCTCTAAGCGTAAC +TATGACTGGTGGCGTTTCTCCGCTGTCTTATCAGTGGACGAAGAACGGCGTAAATGTTGG +TACTAATGCTAACACATTTACCATTGATTCGCTACAGCCTTCTGATTCCGGAACCTACAA +AGTAACGGTAACTGATGCAAGCCATAAAGTCATCGTTTCTGATGAACTGGCGATCACTGT +CGCTTAACGATTAACAAGGGGCTTCGGCCCCTTTTGAGGATCTTTATGATTACGAACAAC +CCAGCACAATTAAAAGATGAAATTCTGCGCCGCTTAGGTGCTCCGATCGTCAAAATCGAA +GTGACAACAGATCAGGTTTATGACTGCATTCAACGAGCATTAGACCTATATGCAGAATAT +CATTACAATGGATCTAACAAAGGGTATATCATTCTTACCCTGGGGCCGGATAACCCGAAA +AATATTTTCGATCTGAGTAAAGAACACATTTTCGCAATTACTAAAGTATTGCGTACTAAC +ATGGGTTCCCTTGTATCGATGGATGGTACTGCGGTTTATCCGTGGTTTACTGATTTCCTG +ATGGGCCTTACTGGTGGTTCTCTGGGCGGTGGTGGTTGTGCATCACGTACCTACGGAATG +AACGCATACGGCGCGGATATGGGCTATTTTACCCAGATGATGAGCTATCAGCGGTCAATG +CAAGATCTCCTGTCTCCGCTTCCGGATTACTGGTATAACGACGACACAGGACAGTTTGCA +GTATACGGAACCGTTAAAGATGGTGATATTGTTGTTATCGAAGCAATGATCAGATCCTTT +GTTGATGTACCCAGTATGGTCGGTAACGTCTCTGGATACGCTACAGCGGGTTCTGATGGC +GAAGATAAGCCAACTATAGCAGATATATACAATAACCCCTACAAAGCTGTCTCAGGCGGT +GTGAAGGCTGGTCAAGGTACAAGCGTTCAGGGTTCATCCTCTGCGTATAACAACCGTTGG +GTGAAAGATTACGCAACTGCTCTTGTTAAAGAGGTAAACGGTCAGGTGCTGGCTAAGTTT +CAGGGTATGCAATTACCTGGTGGTGTTGCTCCGGATGGAACCCGACTGATTCAGGAAGCT +ATGCAAGAAAAAGAAAACCTCCGTCAAGAACTTCTGTTACTGTCTGATGCACTTCCAGTG +TTGATGATGTAAGGAGGAAAAATGCAAAATTGGGATGAAAGTCTGTTTGCACAGTTAGAA +GATGGTTCCGGCGTCGATCGGAACCTAAGACAAGAAGTAACAAACCCGTATGTTAACTGG +TACAAGTATAACCCTACTCAACAGTTGCATGATTCACTAACAGCCGAAGCAATTCAAATG +AAATCTCCGGATATGTATTACGTCCGTCGAGAATTTGTTAATATTGATAAAATTTTGGGC +GAAGACCGTGAATCGAAGTTTACAAAATCGTGGAAAATTGCAGCATACATCGATTCGTAT +GCAAACTACGAAGGGCAGAGAGACTTTTACAGTAAATTCGGTATGATGTCAAACGACGAA +ATGACACTTGTGATCAATCCTCGTTTATTTGCACATCAAACTGATGGCGGGATCCCTGTT +CTGGGAGATTTGATTTATTTCCCTATGGATAACAGCCTGTTTGAAATTACATGGATTGAG +TTTGACCCGTTCTTCCAGTTCGGCGATCGTCCTCAACGTAAAATCAACCTCGTTAAATTT +ATCTATACTGGTGAAGAATTGGATCCTAAACTGCAACGAAATGAAGGGATTAACCTTGCC +CCCGATGCCGATCTGGATCTCGAACCTATTCGAAATCTTGATGGGTTGGCGGATACCAAT +ATTGAACAATACGAAGAAGATCAAGCCTTTGAAGATGAAGGCGATGAATTCATTGAATCG +TTTGATGTTGTTAACGGGCGCGGATCACCGTTCGCACAGTTCCCATAAATATAACCAGGG +GAAACCCTATACATGTAGGGTATAGGAGAAATCTTATACCCGCTTTAACCCATACAGGAA +AAATAAAATGTTTGGATTTTGGTATAATAGTTCGCTGCGAAATTATATTGTCTTGATGGG +TTGTCTTTTCAATCACGTGCAAGTTAAACGCGTTCGCGGCGAACAAGAAAAATTTATCAA +GGTTCCGATTACCTACGCATCAAAAGAAAAATTCCTGGCATCCATGAACAAGCTGAACTA +TGCATACAGTCAGGAAAATGTTGCTAAAACGGAAACAATTTTACCACGTATGAATCTATC +CCTCGTTGATTTGCAGTATAACGCAATTCGTAAAACGGGGATCGCGGTAAACCAAAAAAT +GACGCAGTTACGCGCACCTGGAAAAACAGTAACGCAGTTTAATCCTGCTCCGTATCGTCT +CATGTTCGAACTGGGAGTGTATACCCGTTACGAAGATGATGTGTTTCAAATTATCGAACA +AATACTGCCATACTTCCAGCCGCATTTCAACTGTCGTATTACAGAATTACATAAAAACGA +CATTAAAATAGACCGAGATATTAAAATATCTCTGCAATCTGTTTCCCCTGATACCACGTT +TGAAGGTGATACAACGACACGGCGACACATTGAATGGTCTTTAATGTTTGAATTACAGGG +CTACCTGTATCCGCCTGTTAACGAGATTAAAGGCGAGATCAGAACAGTATACACGGATTT +CTTTTCCAATATGAACCCGTTGGACAAAGACAATTTTGAATCCGTTGATGCTCAGGTGGA +TCCGGTTGATATGCCTATACAGGATTACACGGGAGAAGAATACGTTCAAACGTATGCTAA +TGATATCCCAATTCCTAGCGGTGATCAACCTCCTAAACCGAGGGGCCAATAATGGAAGAA +TTTAGCGTAAAACAATTACTTGATCTTGAAAATCTCCCTGGTGCTGAAACTGGGGAAGAA +ATGGTTGTATATGAAAAACTCGAACTCGTTGATGTCGAGTCACACCCAGCAGATCGAAAA +CCTGATTTAGAGGAAGACTATGCACTTGCGCGTAAAACCGCGCATTACATGAATCAGATG +ATCATGGATATGGCACAAATTGCCTTGCATAACGCTAAAAACTCTGAATCTCCGAGACAC +GTTGAAGTTTTTACAACCCTGATGAATCAGTTAAACAATTCTAACCAGGGATTGATGAAA +ATTCATAAAGAAATGCGAGAAATTACCGAAGAAAAAACCACAACTACCCCGCTTCCTGAA +CAAAAGGATAAAGGGGTTAATATCGAAAACGCAACTGTTTTTGTTGGTTCTCCTACAGAG +TTGATGGCTATGAAAGGTAGTTCTTACGACGCAAAAGATGCGATTGCCGGGGAATGTGAG +GAAGTATGACCGAACCAGTAATGAATCCAGAAAAAGAATCAGATCATCCTTTGAATATGA +TGCACCCTAAATACCTGAAACGAAAAATCGAAGACGGGATGGAATGGGTACAAAGTAACC +ATGATGGGAAATGGTATCCAAAGACGTTTAAAGATTACCTTAAAATTAACGGTATCGAAA +AAGTAACGTTACAGGCAAAGGATAAGAAAAATTTCGCCACCTTTAAAGACAAAGGGAATA +AGCGAAGCCGTTACATGGGGATCCCAAACCTTAAACGTGCGTATGTCCAAACTCAATGGA +CAAATGAAATGGTTACAGAGTGGGTTAAATGTCGTGACGATATTATCTACTTTGCGGAAA +CATATTGCGCAATCACCCACATTGACTATGGTACTATAAAGGTTAAACTGCGTGATTACC +AGCGAGATATGCTAAAAGAAATGGTATCAAACCGTTTCTTTATTGCAAAACTTAGCCGTC +AGTTAGGTAAATCTACTTGTACGGCGATCTTCTTTGCACATTTCGTTTGCTTTAACAACG +ATAAAGACGTTGGTATTTTGGCGCATAAATTGTCGATGGCTAGTGAAGTTTTGGATCGTG +TGAAACAGGCTATTGAACTGCTCCCCGATTTCTTACAACCTGGTATCGTAGAATGGAACA +AAGGTTCTATCGAACTTGATAACGGCTGCTCCATTGGGGCATTTGCAAGTTCTCCAGACT +CCGTTCGTGGTAACTCCTTTGCATTGGTTTATCTTGATGAAGCCGCGTTTATTCAACAGT +GGGAAGATGTCTGGTTAGCGTTAAAACCAATTATTTCTTCTGGTAGGAAATCAAAAATAT +TTTTGACAACTACTCCTAACGGAATGAACTATTTCTACGATCTGTGGAACGCTTCTCTGG +AAGGAAAATCCGGTTTCACTACATACGAATCCAATTGGACTTCGGTCAAAGAACGTTTAT +ATAACGATAAAACCGATGAATTCGATGATGGTTATTCGTGGTCTGCTAATGATATTGGGG +CAGGTAGTCGAGAGGCATTTGCACAGGAACACGAAGGCGCATTTAACGGAAGTAACGGAA +CTCTTATTTCCGGCTGGAAACTTTCTAAAATGTCATGGATTGATATTGAAGAAACCGAAA +GTAATTTTTATCAGTATAAAGCACCAGAAGAGGGGCATAAATATATTGCGGTACTTGATC +CAGCCGAAGGGCGTGGTCAGGACTATCACGCGATGCATATTATAGATATTACATCTATGC +CGTTTGAACAGGTTGCTGTATACCATTCAAACAAAACATCGCACCTTATTTTGCCTGATG +TCCTGTTACGTTATCTTATGATGTACAACGAAGCATGGGTTTATATCGAGCTAAATAGCA +CAGGTCACTCAGTGGCTAAATCTTTGTTTTCTGAGTTGGATTACGATAACGTTATTTGTG +ATAGCTATAGCGATTTGGGGATGAAACAGAGTAAACGATCGAAAGCGATTGGCTGCTCAA +CCCTAAAAGACTTGATAGAGAAAGATAAACTCATCATAAATAACAAAAAGACAATACTTG +AATTTCGTACTTTCTCAGAAAAAGGTGTTTCGTGGGCTGCGGAAGAAGGTTTCCATGACG +ATCTCGTTATGGCGCTGGTTTGCTTTGCATGGCTAACAACACAAATGAAATTCGCAGAAT +TTTGCGAGAAAGACGATTTGCGGTTGGCAAATGAGGTATTCGCACGTGAGCGCGAACTGC +TTTATGAAGATATGTTATGTCCTGTTATCGTAACGAGTGGCGACGAAACAATATCTGTCG +GCCAACACGGTATTTCGTTTATATAAATTTAGAGGAAACTTAATAATGGCTTTAATCTCT +CCAGGCATTGAAACTAAAGAAACATCGGTACAATCTACCGTTGTTCGAAATTCAACTGGT +CGTGCTGCTATTGTTGGTAAATTTTCATGGGGGCCAGCTTACCAGATCCGTCAGATTTCT +AACGAAGTCGAACTGGTAAACTATTTTGGCTCCCCAGACAATGACACCGCTGATTATTTC +ATGAACGCTGTAAACTTTTTACAGTTCGGTCAGGATCTGCGTGTTGTTCGTGTCGTCGAT +AAAGAAGCCGCAAAAAACGCAACCGCGATCTATAATCAGATCAAAACCACGATCACCGCT +GCTGGTTCTAACTATGCAGTAGACGATCAAATCAAAGTTAAACACAATAACGTTGTTATT +GAAGAAGATGGCGTTGTTACCAGTGTTGATGATCAGGGTAAAATCCTGTCTGTGTTCATT +CCGAGCACTAAGATCATCGCACACGCTAAACAGGTTGGTGTATATCCGGATCTGTCTAGT +GGCTGGACTACAGAAATCGTTTCCAGTTCTTCTGGTGTTTCTGCTACGATTACAATCGAC +GGCGTAGAAGTTGATCCGGGTATTACTCTGCTCAACCTTGACACCGCAAAAGAAACTATT +CAGGCAACTGCTTTCCAGGAACTTTGCACCAAATACCAGCTACCGTCTGTTATTGCAATT +TATCCTGGCGAAATGGGTAGCACCGTAACGGTTGAAATTCTGTCTAAAGCTGCATACGAT +TCTTCGGCTGTCATTAAGTCTTATCCTTCTGGTAAGTCTGGTAAAAACAGCGGTCGCAGT +TCGATGAACTTTGGCCCTCAGAATGATAACCAATACGCGTTTATCGTTCGCCGTGGTGGT +ATTATCCAAGAAACGTTTATCGTGTCAACCGCTAAGGGTGATAAAGATATCTACGGTTCA +ACGATCTACATGGATGATTTCTTTGCAAACGGTGGTTCGCAGTATCTGTATGGTACGTCC +CTAAACTGGCCTGTCGGATTCTCCGGCGTTCTGGAACTGGGCGGCGGTACTTCTGCAAAC +TCCACTGTAGGCGCTGATGAACTCATGGCTGGTTGGGATATGTTCGCAGATCGTGAATCT +CTGCATGTTCCTCTGCTGATTGCTGGTGCTTGTGCTGGCGAAACTGCCGAAATTTCGTCT +ACTGTACAGAAACACGCTGTGTCTATCGGTGAAACCCGTTCAGATTGCGTTGTATTCGTT +TCTCCGCCGCGTTCTGCTCTGGTTAATATCCCACTGGCTCAGGCCGTTGATAACCTCGTA +GAATGGCGTACAGGCTACAAAATCGGTAATACTACCCCAGTTGATAACAACATGAACGTA +AGTTCAAGTTATGCGTTCATCGACGGTAACTATAAGTTCCAGTATGATAAATACAACGAT +GTTAACCGTTGGATCCCGCTCGCGGGTGATATGGCTGGCCTCTGTGTTTATACCGATCAG +GTATCGCAACCGTGGATGTCTCCGGCTGGCTACAACCGTGGTCAACTGCGTAACTGCATC +AAACTGGCTATCGAACCGACTAACGCGCATCGCGATTCTATGTACCAGGTACAGATTAAC +GCGGTTACTGGTTTCTCTGGTGGTGCTGGATACATTCTGTACGGTGATAAAACCGCAACG +ACTGTTCCAAGCCCGTTTGACCGTATCAACGTTCGTCGCTTGTTCAACATGATCAAGAAA +GACATTGGCGATAACGCAAAATATAAACTGTTTGAGAATAACGATGATTTCACTCGTTCT +TCCTTCCGTATGGATGCAGGACAGTATATGTCTAACGTTCGCGCTCTGGGCGGTGTATAC +GATTACCGTGTGGTTTGTGACACTACGAACAACACGCCGGATGTTATTGATCGCAATGAG +TTTATTGCATCAATCTACGTCAAACCAGCACGTTCTATCAACTACATCACACTGAACTTC +GTAGCAACCTCAACTGGTGCGGATTTCGATGAGTTGATTGGTTCAACGTCAGTATAACAT +GTAAGGGGCTGAAAAGCCCCTATAAATACACATAGAGGTTAGAAAATGCTTACTGATATT +GTACGCGCCTTTGAATCCGGTGATTTCGCACGTCCGAACCTGTTCGAAGTAGAGATCCCG +TACCTGGGCAAAAACTTTAAATTAAAATGTAAAGCCGCTACTATGCCAGCGTCTACCGTT +GAAAAAGTTCCGGTAGGTTACATGAACCGCAAAATTAACGTTGCTGGTGACCGTACCTAT +GATGACTGGACAATCACGGTATATAACGACGATGCACACACAACCCGTGATGCAATCGTA +GCATGGTCAAACATGCTGCATGGTATGGGTGAAGACATTACAGGGGATATCCCTGCAAAC +TACAAAAAAACCGCTACGGTTAAACAGAAAAACCGTAACGACGAAGTAACCGCCGAACAT +ACCATTTATGGCCTGTTCCCGACCAACGTTGGTGAGGTTACTTTAGACTGGGATAGCAAC +AACGAAGTGAGCACTTTTGAGTGTACTTTCGCGCTAGACTGGTGGGTTTAAACGCTATAA +ATACAGGGGTAGCAATACCCCTTATCATTATTTTTCGGAGTTGTAAATGAACTTTTTTGG +ATTAGACAATGTGTTAGGGTTTTTCAAAAATTTCGCCAAACAGGATGAAATGGAATTTGA +AGCCCAATTAAAAGATGATACAGGTTCGATTGCGCCTCCGAAAAATAACGATGGGGCGCA +CGAAATCGAAACGGACTTATCAAACCAGCGTTATTCTTCTGTGTTCCAACAGTTCTATTC +CGGACAGGATCCGCGAATTCAGAACAAAACACAGCTAATAAATACATACCGTGGTATCAT +GACATACCCGGAAGTGGAAAACGCTGTTTCTGAAATCATTAACGAAGCGATTGTTAATGA +ACAAGGGAAAGATATTGTTACGATGGATCTTACTAAAACGAATTTTAGTAAAAATATCCA +AGATAAGATCATGGAAGAACTCGATACCGTAATGAATATTCACGATTTCGATAACCGAGG +CTCTCGTTTATTCCGTGATTGGTATGTTGATTCGCGTATCTATTTCCATAAAATCATGCA +CAAAAATGAAGCTGACGGCATCAAAGAATTGCGCCAGTTAGATCCCCGTTGCATGGAACT +GATCCGAGAATCGGTTACAGAAACCCTACCCGGTGGGGTTAAAATTTTCCGTGGCTATCG +TGAATACTTCGTATACACTGCACCGAAAAACGGTTATAGCTACAACGGACAGATTTATAG +TCACAATGACAAGGTAAAAATTCCTCGCTCTGCGATTGTTTACGCTCATAGCGGCCTTGA +AGATTGCGACAACAACATTATAGGCTACCTGCACCGCGCGGTCAAGCCAGCTAACCAGTT +GCGTTTGCTGGAAGATGCTATGGTGATTTACCGTATTACCCGTGCGCCCGAACGTCGTGT +GTTCTATATCGACGTAGGTCAGATGGGTGGCCCTAAAGCTACACAGTACGTAAATAACAT +TGCACAGGGCTTAAAAAACCGTGTTGTATATGACGCGAGCACTGGTAAAGTTAAGAATCA +GCAAAATAACCTGTCAATGACAGAGGACTATTGGCTGATGCGTCGTGATGGTAAAGCAGT +TACCGAAGTTTCAACGCTTCCTGGTGGCACTGCCTTCTCTGATATCGACGATGTTAAGTG +GTTTAACCGTAAGCTGTATGAAGCGTTACGTATTCCGTTAAGCCGTATGCCTCGCGATGA +TGGCGGTATCCAGTTGGGTAACGATGGCGGTATTACCCGCGACGAATTGAACTTTAGCAA +ATTTATTCGCGAATTGCAAATTCAATTCAACCCTGTTCTTGCGGATCCGTTAAAAACTAA +CTTGATCGCGAAGAAAATCATTACAGAAGATGAATGGGATGAAAACGTAAGTAAGATTGC +TTTTGTATATCAGCAAGATTCTTACTATTCCGAAATCAAAGATATTGAGATTTTGGAACG +CCGTTTAAACCTGATGGGCCAACTTGAAGGGGTGGTCGGCAAATATATCTCCCATAAATA +CGTAATGAAAGAAGTTCTCCGGATGTCTGATGAGGAAATTCAAAGCGAAGCCAAACAGAT +AGAAGAAGAATCAAAAGAAGAACGTTTTAAAAATCCAGAAGCGGAAGAGGAAAACTTTTG +ATGAAAGAATTTATCGAAGCAATCAAAAGCGGTAATCTGGTGGAAGCTAAAAAAACTTTT +TACTCCATCATGGAAGACCGCACAGAAGCGCTTCGTCACGAATTGCGCGTTGAACTTGCC +GAAGCTGTACGCATCGAAGGCGAAGAAGACAAAGAAAAAGACGACGAAGGCGCTGATAAA +GATGACGAAAAGGGCGATAAAAAGCCAGCCGAGGATGATAAATCCGATAAAGATGATGAG +TGAGGTGTGTAATGCAACTTGACATCGAAATCACCGCCGAAGATCTCCATGAACATTTAG +ACGAAGCGAAAGCTCGTGTAGATATTCTGGGTATCGATGAAGGCACGGTTAAAATCATCG +AAAATTTGGCGGTCACCGAACCAAATTTAGCCCTTGCTATGATGGCGGTTGTTGAAGGTT +TAACACTTGATGAGGTAATTGTCAAGCATGTTGATTCCCGTGGCAACGTAGAACGCCTCA +AAGACAGGAAAACCCGTGAGCGTAATGCGTATCAGACGACCGGATTAACTAAATCCCAAC +GTCGCCAGATCGCGCGTCGTGCTCTCAAAACAAAACGTGCTAACCCGTCAATTGCTACTC +GCGCACAACGTAAGCGCAAGAAAGCATTGCGTAAACGTGCTGCACTGGGGCTATAAATAT +GAATGAATCCCAAATCAACGAAAACGGCGATATGCTTTTAATCGAAGAATGGGGTTTACC +TTGCGGTGACGTTTCAGAATCTATTTTAGAATCTGTTGGGGAATCAAAAGACGGTAAATT +ACGGATCGAAGGTATTTTCCTTCAAGCCGAAAAGGTTAACCGTAACCGTCGTTTGTATCC +TAAAAACGTACTTGAAGAAGCAGTTAACGATTATATTAGAACTCAAGTTAACACCCGTCA +AGCATTAGGTGAAATGAATCACCCTCCGCGTCCGAATGTGGATCCGCGAAATGCTTGCAT +CCTGATTGAAAAATTGTGGTGGAAGGGTAACGATGTTTGGGGCCGCGCTGTTGTTGTTGA +AGGCGACGGTGGTGATGGTGACAAACTGGCGGCGTTGATTCGTGCTGGTTGGGTTCCTGG +TGTTTCTTCCCGTGGATTAGGTAAGCTCTCCGATTCCGGCAAAGGCTACGGCGTTGTACA +AAAGGGCTTTAAATTAGCTGTAGGCGTTGATGTCGTCTGGGGGCCAAGCGCACCTGATGC +ATATGTTAAGCCTATAGTGGAAAATCAGCAAAGCAAACCGCTTGTTGAGAATAATAATGC +TGATGACGCTTTTCGGGAATTGTCCGAGCGTTTGAAAGGTCTATAAATACATTAAACAAA +ACAACAGGAAAATCAAAAATGCTTAAAGAACAACTGCTGGCGGAAGCCCAGAACCTGGAT +ACTCCGGTCGAGTTAGACAGCATTTTCGAATCAGTTGAACTTTCTGATGACGTGAAAGCG +ACATTCACCACTGTATTCGAACAAGCTGTAAAAGCTGGCGCTGCAAAACTCGCTGAATCC +CACATTACCCAGATCGCGGAACGTTCCGACGAACTGGTCGAAGCTCAGGTAACTGAACGT +GCCGCTGAAATCGAAACTAAGCTGTACGAAGATGCTGATAAATATTTTGCGCACATTTCC +GAAGAATGGCTGAAAGAAAACAAAGAAGCCGTTTCCCGTGACATCAAAGCCGATCTGTTT +GAATCCCTGATCATGGGCCTCAAAGAAGTTCTGGTTGAACATAACGTTGTCATTCCGGAA +GAACAGGTTGATGTAGTCGCCGAACTGGAAGACGAACTGACTGAGAATCAGCAGGAAGTT +AAAACCCTGTTTGAAGCGAATCAGGAACTGACCAAAGAAATTTCAGAAATGAAACGCAAT +GCAGTAGTTTCAGAGAAAACTAAAGGTTTGACCGAATCTCAGGTCGAAAAAGTAGAATCT +CTGATTGAAGGGCTGGAATATTCCGCAACCTTCGAAAATAAACTCAGCGCAATTGTTGAA +ATGGTAGCAACCAAAGCTGAAAAACCCGTTGACGAGTCTGTAAATACTCCGCAAACGAAA +GATAACTTTGTTCCGGTAGTAGAAAGTGTTCCGGCAGAGAAATCCAAGATCAATAAATAT +GTACAAGCGGCAAAAGCCCTTTCTTAATTTCAAAAGGTAAGAAACAATGTCTAAGAAAAA +CGAATTGATGGAAAAATGGAACGATCTTCTGGAGTCTCAGGAAGGCTTACCGGATATCGC +TACCAAATCCAAAAAACAACTGATTGCTGCCATTATGGAAGCACAGGAAAAAGACGCAGA +AGTTGATCCGGTTTACCGCGACGAGAAAATCGTTGAATCCTTCGGTGGTTTCCTGGCGGA +AGCTGAAATTGCTGGTGACCACGGTTACGACGCAACCAAAATCGCTTCTGGTAACTCAAG +CGGTGCTATCACCAACATCGGCCCTGCTGTAATCGGTATGGTTCGCCGTGCGATTCCTAA +CCTGATCGCGTTCGATATCTGCGGTGTTCAGCCTATGACTGGCCCTACTGGTCAGGTGTT +CGCTCTCCGCGCAGTGTACGGCAAAGATCCGCTGGCTTCCGGTGCTAAAGAAGCATTCCA +TCCGATGTTCTCTCCGGATAGCATGTACTCCGGTCAGGGCGCGGCTCCGAGCAACGGCTT +TACCGAACTGGCTTCCGGTACTGCGATCGCTGACGGTGCTATCGTGTTCCACGATTTCGG +TGAAACTGGTCGTGTGTTCCTCCAGAACGTTTCTGGCTCTCCGGTTACTGTAACTGGTTC +TACCGACGATGCTCTGGATGCTGCTGTTATCGCCGAACAGGAAAAAGGTACTCTGGCTGA +AATTTCTTACGGTATGGCTACCAGTGTAGCAGAACTGCAAGAACAGTTCAACGGTTCTAC +TGGCAACCCGTGGAACGAAATGGGCTTCCGTATCGATAAGCAGGTTATCGAAGCACGTAG +CCGCCAACTGAAAGCACAGTACTCTGTAGAACTGGCTCAGGATCTCCGCGCTGTTCACGG +TATGGACGCTGACGCCGAACTGTCTGCTATTCTGGCAACCGAAATCATGCTGGAAATCAA +CCGCGAAATCGTTGATATGATCAACTATACCGCACAGGTTGGTAAAACTGGTTTCACTCA +GACCGTTGGCTCTAAAGCTGGTGCGTTTGACTTCCAGGATCCGATTGATGTTCGTGGCGC +TCGTTGGGCTGGTGAAAGCTACAAAGCTCTGCTGATTCAGATCGACAAAGAAGCAAACGA +AATCGCACGTCAAACTGGTCGTGGTGCTGGTAACTTCATCATCGCTTCCCGTAACGTGGT +TTCCGCTCTGGCTCGTATCGATAGCGGTATCACTCCGGCAGGTCAAGGTCTCCAGAAGAC +TCTGAACGTTGACACCACTAAAGCAGTATTCGCTGGTGTTCTGGGTGGCGTGTATAAAGT +ATACATCGACCAGTATGCACGTGGTGATTACTTCACCGTGGGTTACAAAGGCGATAACGA +AATGGATGCTGGTATCTACTACGCTCCGTATGTTGCGCTGACCCCGCTGCGTGGTTCTGA +TCCGAAGAACTTCCAGCCAGTAATGGGCTTCAAAACTCGTTACGGTGTAGGTATCAACCC +GTTTGCGAACTCTCGCTCTCAGGCTCCGTCCGACCGTATCACTTCTGGTATGATTACCAA +AGAAATGTTCGGTAAAAACGCATACTTCCGTCGCGTGTATGTGAAGGGACTTTGATCCTA +ATTCGTTGAAAAACAACGACTTTTTAAAGGGAACCTTCGGGTTCCCTTTTTGTTTATATA +AATATTGAAAACATTCGAGGCTATATTATGAAACATATCATTTATAAGATAACAAACACA +ATCAATAACAAAATATATGTTGGTGCTCACTCAACCGAAGATATCAACGATTCATACATG +GGTTCCGGTATTGCAATCAAAAAAGCGCAAAAGAAATACGGTATGAAACATTTCATAAAA +GAAATACTTCATGTATTTGATACCCGTGAAGAAATGTATGAGAAGGAGAGGGAAATAGTT +GATATTGAATTCATAAATCGACCAGATACGTATAATGCTGGTATTGGCGGTAAAGGTGCT +CCAATGGCGTTGATTGGATGGAGTGATGAACAACGCAAGCTGATTTCTGAAAATACTTCG +AAAGTTATGCAATCTCCAGAAATGCGCGAACGTCTTTCAAAAATCAAAAAGGGAAGAAAG +CAATCCCAAGAATCCAACAGGAAGCGCTCAGAGACGTTAAAAGCTAAATATATGAATGGA +CGTATAGACAGAGAGTATAAACCTCTCACAGAAGCGCACAAGGCGAAATTAGGCCGTTCT +GTATCGATAGATGGAGTTGTATACTCATCCGGATCGGAGGCGGCAAAATCCCTTAGTATG +TCCCACTCTGGTTTAAAATATCGGATTAATAGCGACAAATACCCTACCTGGAAATTTGTT +GCATAAATACCATTATACACTTTACGCAGGAACATAAAATGAGTGAAAAATTTTACACAA +TTAACAAGCTGGTGCGTCAGTCACAGCTACCGCCTGGCCTGTCTAAAAAGGTTCTTGATG +AGGCAACCGGAACAGAAACAATTAACGTAGCTAATACCCGTCCGGATCTGGTATCTCTTA +CCCGTGCGGTAAACAACCTGATCTACGGTGAACTTGTAGCAATTCAGGAAACTAATTTGC +CTACCGCAACCCTGTTCGGTGTGCGTTATCGTAACCCTAAAGGCGATATGACGTTTTCCA +GCGCTGCTACCTATTCCGGTAAGTATGCAAGCCGTGATAACATTCCAGTTGGTGCGGTTG +GTACTGCCTATACCAAAGGCCAAGTTTTTAAACACCCGACAAGCGATGTCGTATACGAAG +CAACTGATAGCGTAACTCTCGCAGGTGCTGATATTGATGAAGCAATTATGGTCGCAGTAT +TCAGCAATAAATTACGCCTGGCAAGCGAAGCCGCGCCAACAAGTCAGTATGAAACCAGCG +AAGATATTAGCACAACTTCTTTCGAAATGGATCGTTGGAATATCAACGTTCGTTCCCGTA +AATTCAAAACTGAAATGACCGTGGAACTTATGCAGGATCTGGAAGCAAACCAATTCAACG +CAGAAAATGTGATTGAAGATGTTCTGGGTACTGTTGCCAGCGAAGAAGTAAACAAAGATA +TCATCCAGACTCTGATCAACGTATCACATCGTTACAACGTTGATGGTGTGGTAACAAATG +GCATTTTCGATGCTACAACCGCATACACTGCAAAGGATGCTCCGGCTTTAGGTCGTTTCC +TGTATCAATTAGTGTGTGAAATGGGGCAGGAAATGAATAGAACGACTTCATTTGAAGCTA +CCTATGTCCTGGCCTCTTCTCGCGTTGTAAGCGTTCTGTCTGCGTCTGGTTGGATGCATG +AAACTGATGAAACCCACCCGTTAGCAACAGGTCGACTTAAAAACGGTTACTATGTCTATA +CTGACACCAATACACCGTTTGATTACCTGCTGACTGGTTGCAAGTACGATCTGGGTGAAA +TGGATCATGTTGGCTCTCTGTTCTATACGCCATACACAGAAGCTGATCAGGCAGGTTCGA +TCAAGATTTCTGTTGATCCTCAATCCTTACAGCCTAAAGTTGCTATTCTGATGCGCTACG +GTTTATCGGTTAACCCGTATACCACTGCTGCTAATGAAAGACTTGTGAAAGGTGATGACT +GGGTAAACCTCTCAGGCAAATCTAAAATGAGTCAGATTGTTGGTATCAAACTTCCTAAAC +TGGGTTGATAGTATAACCCAACTGGGATAATATTCAATAGGTGGAGTAGGGAAACTTACT +CCACCTTTTAATAATTGTTATAATTAATATTAAATTAGATCTTGAATTTATAAATGATTT +ATGATAAAATTTATTAATTATAATTATTATAGATCAAATAATTTTTGAAATCAAGTAAAA +ATAAATTTGATTTTATTAATTAGATCATGTATAATTATTCTTTTAATAATATATTATATT +AGATCAAATAAAATTTGACTACAAATTAATATAGTATATTATAGATCAACTGGGTAAATT +GGTGAGTATGTTATGAGTTTGAAATTAGAAGATCTGCAAAATGAACTTGAGAAGGATATG +CTGATAGATCCCCTCAAGTTGCAATCAGAATCAGCGGATATCCCGAAGATTTGGGCTAAA +TGGCTTCGATACCATTCAAACGCTAAGAAAAAATTGATCCAACTTCATGCGAAAAAAGAA +GCTGATGTGAAGGATCGTATGTTGTACTACACCGGAAGGCATGACAAAGAAATGTGCGAA +GTGGTGTATACTGGGACTACTGAAATTAAAATCGCGATCGCTGGGGATCCGAAAATTGTA +GAAACCAACAAGCTGATCCAGTATTATGACATGGTGGTAGATTTCACCAGCAAAGCACTG +GATATCGTCAAAAACAAAGGATACTCTATCAAAAACATGTTAGAGATCCGTAAATTAGAA +AGTGGTGCATAATGTCTACTGAAAATGAAAAATGTGTAGTGTGCAAGTGTCCGGTTCCTT +CTACTGGTTTTGTGACTGAATCTGGGCGCGTGTGTAGTACTATCTGTGCTGACTACATCG +CAGAAAAAACAAAAAACGGCGAGATCAACGAATCCGATGATCTGAATGAAGTTCAAATGT +TGCTGTAGGAGGATCTTATGATTGGATACGGTGAAGGAATTACAGATCGTGATGAACATC +CTGATTTTTAGTGCATAAATACTAGCGTACCCGAAAGGGGCTTGATAAAAGAATGCTGGA +TGATAGGCGTACTCTTTTGCGCCGTCCGATGGAGTTTACCTTCGGCGGGGTGATTGATAA +TATACCTTCGATCAAGGGCATGTGAATAGAATAGCCAGAATAGTACAGCACTGGCGTTAA +GCAAATGTACAAAAGCCCCTTCCTTTCGGTTGGGGCTTCTTTTTAGAACTTTTCTTCTTC +TCCGCTTTCGAGTTCGGCCTTTAATTCTTCGGCTCGACCTTTCAGCGCATCGCGCATAGA +AATATCGTCTGACGGCGCAACATCAACTTCTTTTACACGATTTTTGTAATATTTTTCAAG +CTCTTTAAGGCCGTCCATAGTACGGCAAGAGGCGACCTTGCTCATGAAATCATCAATAGC +CGCCTCATAAAGTCGAAAATCGTTGAAACTCTTCATTTTGACCTCTAAATTTCGATTTGT +TTGATCACGTAGTCAAACTTTTCTTCATTGTAAATGCGTACTCGTTCGATTGCGTGTTTC +ATACCATAGTTTTTGTATGAATATTTATTTTTAGCATTTTTGGACTTTGCCAGCGTTGCT +AAGTTATCAACCAAATCCCAAACAGTAGCAAGAGATTTAGAATCATGTTTACGCAGTACG +CGCCCAATTGACTGTTTGACTATAACAGCAGATTTGCAAGGATGTCCGAAGATGATGTGA +TGCAGGTTCTTGACAGAAATACCTGTACTCAGTACACCAATAGAACCGATTACGATCAGC +CCCTTCGTTGATTCCGCGATCCGTTTCATTTCGTTTCGCTCATCAATCCCCGTTTCCCCA +GAAATGTATACAACGTTGTCATATACCTTTTTGAGTTGCTCATACAGCCATTTACCATGT +TTGATCTGATTGAACATCACAAACACGTTTTCATCTTTTTCCCTTGCCAGTTTCAACGCC +AGCTTACAGATCCATGCGTTACGCCTGGTATGCGATGTTATATACTTGATTTCGCTTTGG +TAATCGGCCCCCTTCATTTTCTTAATCTCATCCTCTTTGTATCTCATGAAGATGGTATTA +ATTCGAAGGTTGGTAACTTGACCTTCCTGCATCAATCGATTTGTATCAACTGGCTTGAAG +ATTTGACCAAAAGCGCCAATGTATTGCATCATGTTTGCTTTGCCTTCTTTCAGAGAACCA +GAAAGGCCAAACTTGAAAATACACTGATCCATTGTGTTGATGATCTTCTGTATGCTTTGT +CCTGTTGATTTGTGGCATTCATCCACCATCAAACACATGAACTGTTGAAACCACTCAGGA +GGCATTTTAACAGCCGATTGCCACGTAGACACGTAGATCAATGCATTACTGTTTTTAGCA +GTTCCTGAACGTATTCCAAGCATTGCCTCGCGAGGTAAAAGGCGATAGTTGACAATATCA +CCGATCATCTGATCAACAAGGGCGGTTGTTGGGACAATGATTAGTACTTTGCCTGTGTAA +TTTTCCAGACACCAACGAGATATCAACCCCTGGATAAGAGATTTACCCGCTGACGTTGGG +AGGTTAAGCACAGCACGGCGGTTTTTAATCGCATGGAACACCGATTGTTTTTGATACCAA +TACGGATCAATCTGCTTGTTTCCGTCGTATACTGGGTGTTCTTCTAACCACTTGTCAAAA +TCTGGCTGGGTAATTTCTTCTGTTTCGTGGATCTTAGGATCCATCCAGATAGAATACCCG +CGAGACTCCGCGAATTTTGTTACAAGATAGGCTAAACCGTAGGGCAGTTTCCCGTTATAG +TCCATCAAGTATATGTAGCCGTTCCATCCACCATATTTGTATTTTGCCTGGTACTGATAA +CCTGGCGGCTGGAAGCTGAAATAGTCGCGCAATTCATAGACTATGTTAGCCTCTGCCTGA +ATCTGCACATGACTAGTGTTAAGGAATTTGACTTCGATATCCACTATGTGTATCCTATAT +ACGGTTTATATGAATATTTATAGGCTAAATAATGATAAACATTGGAGAACTACAATGAGT +ATTGATTACGAAAAGGTTGAAGGTTTCAAAGCCTTAGAACAAAAAGAAGCCAAATTACAG +CTTGCTGCCTACGCGCAAGAAACGTTTGATGTCAAACTGAACCGCCAGAAGTCATTCGAA +AATATGCTTGCTGATCTGGAATCTGCCGTACCAGCAGAAAAGCCGGAACTGTTGATCGAC +TCCCCCGATCCTGAAATTGTTACATACGAAGGTGAACAATCCGTTCCTGATGTTGTTATT +GATGTGACTAACGATTTCATGGATTACGTTAAAGAGGTTGCTCCGGAAATCGCAGACCAG +ATTGAAATTGTTCCTGACGCTCTACAAGCTCCTACAAGCGATTCTGAGACGGTTTCTGAT +GAACTGGCATGGATGGAAGGGTTTACCCCGTCTATCATCATGATGGGCCGCTCTGTTTCG +AATACTGGCTTTTATACGTGTCCGTATTGGATCTATGATTGGATGAAACAAAATCCGGAT +TGGTACAAGCACCCTGACAGTTGTCCTCATTATTCAGCGCGTCAAACCCTCAAGTCGCTG +GCATGGTACATGCATCGTGATGGGATGGTTACTGTAAGGGAAACCCGAAACAGCCAGTTC +TACACGTTCAAAAAATAATTTTAAAAAGTAGTTGACCTTGCCCTGCTATTCGAGTATATT +TGTATTCGAAGGCGGGGGAATGGCTCTCGCAGTGAAGAAGGAAATACAAAATGAACATGA +TGAAAAATGCTTACTACCCAGTTCTGTTTGTTTGGACTAATGGTGAAGTTAAGAAAATCG +TCAATTCTAAAGCTCCTTATTACACTGTAGGTGAAGCACTTCGCCACGCTGCGGAAGCAA +ATTATCCTGTTCATGCCGAACCTGGTTATGCTCGTTGGAACGGTTCTAAATGGGTTGCTG +ATACCTGGGACAACTACGAAGAAGAAAGAATGGAGTGTGATCCTGATTACGTATCTCGTC +AAATGGAAGCTCATATGATTGCAGATCGTAGACTGGATAATGAAGCTCGCGGATTTTATT +GATTAACAAGGGGCTACGGCCCCTTTTCTTTTAGGTGAAATATGAACTTAAATCACGAAT +GTTTAAAAGATTTGAGCGATGGTAACGAGATTGGTAACGTTATTTTTCTTGATATCGATG +GCGTTCTAAATAATATGCGGTGCATGAAATTTGGTGAACATATGGACATCGAATGCGCAC +GACACTTACGCCGGATAGTGAATCACGCTAATTGTGATATCGTCATTTCCTCTACGTGGA +GAATCGGCAACAGTACCCATAATCTACGTGAAATATTTTATCCGTGGGGATTGTATCGGA +TCATTGGTAAAACTTGCACTAACTTCCCTCATAGCACTGGAATGCGTGGTGATGAAATCA +AGGCATGGATCGATACTTTCGGATGTAAAAACTATCTCATTCTTGATGATGACACCGATA +TGCTTTCTTCACAAAAAGATCATTTTATTAACACTGATGGGTTTGTTGGGTTGACCGAAG +AACAATCCACTTATGCGATCCGTAACATTTTCGGGGTTACTACTCCGTTTTGTCCTGAAT +GCAATGGGTATGGACGTGTTAACGGCTACGACAAATGCGGAACGTGTAACGGTAAAATAC +TCCGGCTATAAATACCAATAAACATAAGAGGTTAAATTTATGGCAATTCCTTCTGTAACA +ATTAGCGCCAACAAAAACGAACTTTTGATTGGCGAAACTTTGACCTTAGAGGTTGAAACT +ACTGAACTAGATCCGGGTGATGTGTTTCTGGCCTATCGTTGGCAAAAAGATGGTGTAGAT +ATTCCAGGCGCAACCGCCGATACTTACACAACTACGGTTGACGGTACAACTGCTGGTGAT +TATACCCTGATCTTAAAACACGGTGCTGATGAAGAATCAGCAACAGAAACCACGTCAGAT +ACAATCACCGTGACAACTTATTCTGATGATCTCGTTTCTAAATGGACGGTTCACCCGATT +CCGTGGCGTGATACCAGCTTTACCCCGATCGGTTATTGGGTACTTGATGAAATTCTGTAT +CAGAAAGCACAGGGTAAAGATTGGAAAACTGATTATGCTGATTACAAGTATAGTGAGGAA +GTACAAACGATCCTGAAAGCGTTCATGGAAAACGGTGAATGTGAGATCCAGGATTCACGA +AACGGCTATATTCATAAAATGAGTGAAATCTAAGAGGCTTTAAATGGCAACTGAAAAATG +GACTACGGTTCATCCTATTCCGTGGAGAAATACCAGTTTTACATATCTTCCATACTGGCT +ATACGATATTATCGTTGATGCTTTTGAGAAAGGCGACGACTGGCGCGATTATGCGGAAGA +AAAATATAAATTAGAGTTTGATACTCTGAAAGAGGCGTTTGAAGATTATGGTGATATTCA +TGTAATCGAATCTCGTAATGGTAAACTGGTTAGTCTGTTGTCATTGACTCCTGCTCCTGA +ACCAGATCCTGACCAATAAAATAAGGCAAACAATGAATACACTTCTTTTTGATTTCGACG +ACACTTTAGCAGAATTTTCTCAGACTTTTTATGATAAGTTCGGTGTACGTCCGGAAGGAA +CGCCAAAAGAACGATATGACGAAATGGCAGCTTCTTTGGTGCGTACTGATTTTTATAAAA +ACCTTCCCCGTATTCAGGCTGGGATTGACCTCCTTCAATGGAGTTTCCAACGCCGAATCG +GTGATCCTGCTACTTTGCTGCTTCGCGCGGAAGCGGTCAGCCCTCTTTGGGTTATGAAAG +AAAAACTGAACTATACTGATAAGATTTGCGCTGAACTGGGGATCTCTCGTCTCGATTTTA +GTCGCATTGACTATCCGAAACAGTTCGCAGAACATGCCTATCGTGGTGTTCTGATTTCCC +GCAACCAGAAACATCTTGAAATCTGGAACAATTCTCATCTAGCTAATAAAGTTCCAGGTA +TTTTCCTTGCGGAAACCCTGGAAGAAAATATTCAGCTAGTCACGGAAGCGCTTGCAAAGG +CTAATCAATAACAAAAAAGGGAACCGCAATGGTTCCCTTTTTTTACAATCTTTTTAATTC +ATCAAGCGCTGTTTTCTTATCACCAACAAAGAGGATTGCTTTACCTCCTGCTTTTCTGAA +AGGCAACACCGCTTTTGCCCGATCGTCAAACAGAATTCCTTTACCAGCGAATGCTGCTTT +TTCATGGCTACTTTTAACGTAGTGGAATTCTGGAACGTAACCCAATACTTTTTGTAATGC +TTTACGTTTTTGTTCGGCAACACCGTCAGAATTGAATTTACCGACACTGGTTAGTATTGC +TACATCGCCAAGTGTTCTTAAATGATGGAATAATTCAAATCCTTCTTTGATTGGTTCCAG +ATTTTCGTAGAAATCAGTTTTGGCAATTTTTGCTTTGCACTTTTTCAACTCATCTTCTGT +CATCATCGAGGGTTCGCCATACATTGGCACAAATGAACCTTCCCAGTCGAACAATACACC +ATCCATATCAAAGAAAAACTTATTCATATCAATTCCTCAGTTTGTGTATGCATACTATAA +TGTTTAATCATTAATGTCAACCCCAAGTGTCAGTTTTCGGTGCGTATGCTGCAACTTTAG +CCACAATTTCCTTATCCAGTTCAGCTACAGATTTCTGAGGCTTACCACGGGCTTTAACTT +TGATGTAGTTTGACTTAACAACAAACATCCCTTTGTTACCTGATTTCTTGATCTCGCTAT +CAACACCAACTTTGTTAAAGCTGATCCAAATGTCGCCGTCCATATACTGTTTAAGAGAAT +CACCCATGTTCAGGATCTTCGCCATAGTAAGGGCCGCGCCTTCGTGGGTATCCATGAGAA +TTTCTTTAGGAACTACACGATCGCGTTTCTGGTTCTGCTGCATAGCAATATGCACATCGT +TCATAACCCATACGATATGTACGTTTTCTTTTTTGTATCCCAGCGTTTCGACATCACGCG +CGATGCTTGCCAGCTTGCTCATGCCTTTTAACGTTACGTCAAAGATGAGGTTAGGTTTAC +GATCTTCTGGTGCTGCCATAATACCAGAATAAACACGGTTTTGGTTTTTGTTGGAAATGT +TGAAAACGTCGGCGATCACATGATGGAGGGTAGATACGTTTTCTGGGTTTTTGAGGTTCA +TTGTTTTGACATCATGACCCGTTTGTTTCTTGATCTCTGCTGCGAGTTTATCGCTACCCA +TTACAAGTTTTTTCAGGGCGTCAACGTCCAGTGTAATACCTTCGATGCCTAGCAGTTTTT +CCAGTGTGAATCCTTTACCGGAACCAGCACCGCCAGCCAGAATAACAACCTGACCAAACT +TAGGATAAGCACGGCCCCCGAAGGTGATCAGCGCTTCGGTTAAGGTGCTTTCTGTGAATT +GTTTAAATGACTTCATGTAAAATTCTCCAGTTTATTTTCTATTATTTATTGACATGCTTT +CTGACAGTGGTGTATGGTTATGGTGTTCGACGGATAGGCCGGAAGAACTTTAAACCATAA +GGTATATGATATGAAAATTGATTTACATCGCTTCATTGCAGAATTTTCCCGCGACCGCGA +CATGGACTCTTTCAACTACTACTCCCGTGAAATTGAAGATCGTTTTGCGGCTCATGTTGG +GTTCCGTCGCCACCATACTCCTAAAATGCGCCCTGACCACGATCCGAAGTATAGCCCTAT +CACATGGCAAGCCCCGATCAATGGTTACGTTGAAGGGATCCGGATCATGACTTTTAACGC +GATGTATGGAAACGCTTTGATCCATATTGCACGTGAGAAAAAGGCAGAATTCCCTAACGG +CTGGCGTATTGATGAAGTGATTCAAACCCTTATGCAGTTACGACGTGAATACAAAGCTGG +TATGTGTCTGCGTAATGAACAGTATCCGATGTATAAAACGTATGCCTATATCTCTAAGCA +TCTAATTAATTCCATGTTTTACATCGTTGGTAATCATGGTTCCGCTATAGATATCGGTTC +TTATGAAATCGTGGCTTATGCTCGCGAACAAGGAAAGGCCGCTGCACTGAAAATCATTGA +ATCTGGTGCTATCATTCTTAACCATCGCATTGATACTATTGCTTACTATGGCGATCAGGT +TGAGGTTGAAGGCGTACACCATGAACGATTCAACAAAGCCGTATTTGCTAAAAATGGTTA +TGCTTATGGTAATGACATTATAACTTCTGCTATTCCTTTCGTTCGTCTAACTGTTGAAGG +ATTTGGAGAAAGGTTGCCTTATAAACTGTCAGAAGCTCAAATGTGTGCGGCTGCTGAAAG +AATCGCCAAAAAGCGGAAAATGTATACCGATGAATACCTGGCGTATGTCAACAAGACAAA +AGAAGATGTAGATCGAGAAATTTCTTGCATGGATTTGTGCCTTTGATATAATGTAAGCAT +CTTTTAAAGGGAGGATGCATGAAAACGATACATTGCAGAAATGAAAACGTTGTTTACTAT +CACGGTTCGTGTACTGCTGCTGGTATTGAAAGCATGTTATTGCCTCCCTGTGATTCTGAT +ACTCTGTCTGAAAAAGGCAGGAAGAAAAATTTAGACCGTGTTTTCTTTACCGCTGATATC +GGGTTAGCTCGTATATACGCTGGAAGGGCCGCGCGTTCTATAGGTGGGGATCCTGTTCTG +TACAGGGTTGTGTGTCCGGTTGATGTTGTATGCATGAACGAAGACAAAGGCGCGAGCGTT +TACCATGCAGCATGGGCTTTTTGTGAGGAATTATGAATGATAAAGTGTTGGCGTATCTCG +TTTTCTTGCTGGGATATCGCTTAGAAGTGATGGGCGCGTATTCATCAATTTATGGTGATT +TAACGGCTATCTGGATGGTCGGGTTAGGGGTTGCTTTTACATTCCTTTCCTTTGCAATTG +TTAATGAATCGGAAAAGGATATTGTATGAAACTATATCATGTGATCTACTCTGGTGTTTT +AGGCATTGACAAACAAATGTTAGTTGATGTAATGTGTAAAAAACTCGATGAACGAATTGG +AACTCGATACAAAAATCATGTATCGGAAAGTATTTTCATCAACGTTGACCATCCAAATGA +CATGGAAGAAATGGTTAATACTCTTGATGATCAGCAGATCCCGTTTGTTGACAATTTCAA +CATGAGCGCTGGAGTGTATACGGTAGTAACTTTTGTTCTAAAAAATGTTGACAGCCGAAA +CGATAGCGTGTTGAATGTAGTTGCAAAAATCGATTCTACCAAAGGAAAATAATATGAAAA +TTGTACACCGTAGCATTTCCGAACTGTCTCAAGCTGAAAAAGTGCAAATTCATTTCAAAT +TCAATGATTTGCGTAAAGGTTATGCCGAAATTGCCCGTGAACATGGGTTAGATAACGGCG +ATATTTACCAGGTAGTACAGGAAATTGAACGTATCCGCGCGTTCCGTTCTGCAAATCTCC +CTGTTAAAAATGCAATGCGCCGTGAAGCGATCGAAATCCATCGTAAGCGTGTGTACAATT +TAGAACGTGCTAAACGTCCGATGAAGAAAGAAAAGAAACCTCGTCCGTTTAAACGTGAAC +ATCTTAACACCTCTATGGCGCTGGCGTTTCAAGATGCGGGGATTATCTAATGCGTAAATC +TGCGATGGATCGTTGGGCTAGTATTGCTACTTCAAACGTAAAACCAAATCAAGCCGCACC +TGATGTAGAAGCGGTTCGTAAAGCAAAAGAACCTGAGATCGTGGCCCTTAGCCCTGAACT +CATCGAGCATCGCCGTCGTGCGTCTGCTATTGAACTGGATCTGCGTATTGCGCGTTCATA +TAATCTCAAGCATGAACACGCCGCAAAGAACAACCATTCTTTTGACCTTACTCTGGAAGA +TTGGAAAGTGTTGATGACAACTGAACGTTGTCAGTATTCCGGCAAGATGTTTAGCAATAA +ACCAGGTAGCCCATATGCCCGTACAATGGAACGTATTAATCCACGTCTGGGATATACACA +AGAAAATACAATAGCGGTTATCAACGCCGCTAATGCCGAAAAATCACAGCTTGATGCATT +CGTTAAGGGTGATGTCATTCTGGATGAAGTAAAAGTGAAGTTGCTGCGTAAAGCACTTTA +TCAAGTTGAAAAACGTGTGAAAATGAAAGGTTAAATTATGTTTAAGAAATATTCTTCTCT +GACTAACCATTATGAAGGTAAGTTCATCAATGGTGTAATTATGAACGGGCTTACTGGCGG +TGTGTGGGTTGCACGTGAAAAGATCCACGGTGCTAACTTTAGCTTTATCACCGATGACGG +TAATATCGTTACCCCCGCAAAGCGTACTGATGTTGTTAAGCCAGCCGAAGATTTTTATGG +CTGTTCAGCAGTAGTTGCAAAGTATTCCCCAGGGATCCGTAAGATGTGGGAAACCCTCAA +AAAGACCGGAACTTATGATGATTTGGTTATTCAAGTCTACGGTGAATTTGCGGGGCGTGG +TGTACAGAAAGATGTTGATTACGGCGAAAAAGATTTCTACGTATTCGATATCCGCGTAAA +TGGTGAATTCCTTCCGGATAACCTGTGCTCGCTGATCTCTCGATCTCATGGCCTGAAAAT +GGCCCCGCTGTTGGGATACGGTACTTTTGAAGAGATCAAAGAACTGCCGATCACGTTTGA +ATCTGTTGTGAATAAAGCAAATAGCGGCATTGGTAGCGATAATACAGTATATGGTGAATT +CGTATATCCTATCATGGAAGTTGAAGAGGGCAACATTGCAGAAGGTTTTGTAATGAAACC +TGTTTCACCTGCTTTTATGCCAAACGGTGAACGCGTTGCAATCAAATGCAAAACAACCAA +ATTCACTGAGAAGAAAGCGAAGAAAGCAACCCGCTTTAATGCTCCGGTTTCACTGTCAGA +AAAAGACAAAAACCAACTCGATGAGTTTGTTTGTTACCTTACAGAGAACCGTGTGAAAAA +CGTTCTTTCGAAACTGGATCTGGCTTCGATCACTGCGAAAGATTTCGGTCGCATTATGGG +CTTAACGGTTCAGGATGCTATTGAAGAAATCAGCCGTAATCATGGGCCTTTCCTCGAACA +GTTCGAAGACCCAGCAATGGCTAAAAAGTTGTTTGTAACCGAAGCCCAAAATATGATTCG +CCCTGTATGGGGCAAAATCCTGAACCATGAATTTTAATCAGATTCTGGTTGATGCAAAAG +CGGCTTCCCTGATCGGTAGCCGTAAACCTCCTGAACGTATCGCAAACATTGCTGTTAAAA +TCGGACGTGCTTTGAACGAACGCGGGATCAGGGCTTATTCTGGCGGCGCTCCTGGTATGG +ATAGTCACTTTCTGTTTGACTATAGTCCGGATAACAGATGTATAATCCTTCCTGAGAACG +GGTTTAACGGCCTTTTCTCAAACGGAAAGGATATCATCGACTTTCGAGATTTAAACACAC +AGAAAGCCGCTGACGAAGCCAGAAAGGTAGCAGGTAACTTCGATACACAGAATGAATACG +TTCAAAGAAGGTATGCGCGAAACACGATTCAAGTTCTTCGTGAAAATCTTGACAATCCAA +CTGATTTTGTTTTATTTTGGGCGGAAGAACGTGAAGGATGTGTTAAAGGTGGAACCGCGA +TCGCTGTAAGATTGGCTAGGTTGTACAAGGTTCCATGTTTCAATCTCTTCAAAGAAAGTG +TATTGAACGATGTGTGTGATACGTTAGGGATCAATATCAAACCCCCAACGTTGGATTTTT +TATGGTAATTGAACATGCGCCCTTACTTCGTGAAACATACGAAAGATGGGCTGTTAATAA +CGCAATAGGTGAAAATATGATTCATGTACGTAGTATCGGTGCTGACGGCGAAACTCCGGT +TCCAGTAGAAGGCCGATCCCCCACTCTCGCAGAACGAGCAAGAGAAATTATAAACGATCA +GAATGCTAAGATGATCGAACATGCGCGGGATACAATCACAAAAGGTGTTCTGAAACACGC +GACTCAACAAAACCTTATCTATGATATGAAGCACGATATCGGCTCTTGTCTGGGTATTGA +ATGTACTCGCTATGCATTCCAACGCGTTTCTGAATGGTTGGAAGAAGAAGGGCTAAAATT +CGATACAGAAGAAAAACGCAACGCCGCTAAGATCACAAATTCTCTGGCTAGTAAGTACAA +TCAAACGTATCGAAACCAGGAAGAACGCGAAGTGTTCGGTTTCAAAATTCCTGAAAGGAA +AACAGATCGCCGTGTAAGTGAATTCACTTTTTACATTAGTTGGTAAAAAGGTGTTGACGG +GGGTTGGTTATAGTAGTATTCTAACTCCCGTAGACAAGACACTAACTCAGAAGGATAAAC +ATCATGGAAATCGTAATGAAAGCAACTTATGCTGGATATTGCCTGGAAGCAAAAGGTGTT +GCTAACAATGGCAAAGGCTTACGGGCCAATGTTGAAGCAATGCTGGATGAATTACATGCA +ATGTACGAATACGACAACGTAGCGGGTAGCGTTCTTATCCAGGCGTTGGAAGTTGATGGT +GTTGATTGTGTTGGTTGGTGGGATGCTTACATTGACTACAACGATAACCGGGTTTACCTG +TTGAGCAACAAAGATTATTTCTAAGGAACCACTATGAGCGATGAAGCTGAGGCTTTAGAA +GATTGGGCTGATTTTGATGACGAAGAAGACGGGGAATATTTCTGCGTTAACAGTGGTGCT +TACAAAGACCGTTTAGAACTTCGTGAACTTTTATCCGGTTCCTCTCAAATATCAGGATCC +AAACGAAAAAGTAGTAAACAAAAAGTTCAATATAGTGATGGTTCTGTACGTGATGAAACT +GTTGTTGCTGAATTTCGTGGTCGGGTTATCACAAAAGAACGACAAATTGATGTAAAGAAC +TTGTATGAAGTGGCTAAGGCTGCTAAAATAGGTTCTGTGATTGTTTGCCCTGTGTGCAAA +GAAAAACACACAAAGACAACGTATCACAAAGTTTTCTGTTCGAATGGCAGAAAAACCAGT +AAGGATTGTAAGTCTAAATATCACAATACAATCCATCCCGAACGACTGGATCGGGTATTT +TAAAATAAACTTAAAACGTGGAGTACGTTTATGAACAACAAAACTTTCGAAGAACTGAAC +AGCATTATCACTTCCGTAGATTCCTATAAGGTTTCTCACTGGTCGCAATATCCAACTGGC +TCCGAAGAGGCGCTGTTTTATATTGAATCTCGTGGTGGTAAATTTGATCAAGTAGTTACG +GCTGGCTGTAACCGCCTTGCGCAAATCCTATCACGTCCGGTGACTATGGAAAACGTGGAT +TTTGCTAATCGGTTGTACAAAATGCACTTTGGGCGCGAAATCTTCAACTACAAAGGTTGG +AAAGAAATTGCAGAACTGGGTTACATCCCTCTTGAATTCAGAGCGATTCCGGAAGGAACC +CCAGTAGCGGTTAAAAATCCGGTTGCAACTTTCCATGCTGGGAAAAATGCGCTGTGGTTA +GCAGGACACGTAGAAACCCTGGCGATCAGGGGAGTATGGTTCCCTTCAACCGTAGCAACT +CTATCCCGTGAATGTAAAAAAGTGTTGAAGAAATATCTCAAGAAAACCTCCGATCTCGAA +GGTGAAGCATTTGATATGGTGTTACGTACCCGTTTGCATGACTTCGGCGCACGTGGAACC +TCTTCTGCTGAATCTGCTGGTATTGGTGGCCTCGCGCACCTGTATAACTTCCTCGGTACT +GATACCGTAGAAGCGCTGATTATGGCTATCTCTCTGTTTGAAGATTGTCAGAAAGCGTTT +GATGATGGTGAAATGGCGGCTGGTATTTCAATTCCTGCTCGCGAACATTCCACTACCGTT +TCTTACGGCAAAGAAAACGAAGACCTTGCGTACAAAAACAGTATTGAGATCTTCGGAGAA +GGGATGTATGCATGTGTGTATGATTCCTGGGATTTTAAAGCGGCGGTTCGCCGTATCGCA +GAATATAAAGATTCTATTCTTTCTAAGGGCGGTACTCTGGTAGTTCGTCCGGATTCTGGT +GATATGGTAGACAATATCATGTACGCTCTTGAAGAACTGGGCCGTATCTTTGGCTATACA +GTGAACTCAAAAGGGTATAAAGTACTACACCCAGCAGTAAGGATCATTCAAGGCGATGAA +ATTCATGGCCCTGAAACAATCAATCGGGTGTTGAACTGGATGGAGTCTAACCGTTGGGCG +TCTGAAAACATCGCGTTTGGTATGGGCGGAGGATTGCTTCAAGAAGTTACCCGCGACACT +CAAAAATATGCGATGAAAATGTGCGCAATCAAAATTAACGGTGTGTGGACTGGTGTGTAT +AAATGTCCAAAAGGCGCTGAATGGAAAAAGAGTAAAAAAGGGTTGTTGATGACTATCACT +GATGGCGTTAACTTTAAAACCATTGATACTCTGGAACAGAAAGTGCCGGAAGGCTGGAAA +GATGCTATGATCACATACTATGTCAACGGAAAGATTACTTCCCGTGACACTTTAGAGGAA +ATTAGGAACCGTGCCGGGATTTAGTATCCGCAAAAACAACAAAGGAACCGTGATTTTCTA +TGACAACATTCCCCTTGTAGCTCGCAAGGGGCTTTTTGCTAAAATCGCTGGGTATTCCTT +TAAACTGGAAGAAGTCAACGACGAAACACTAAAAGAGATCGTAAGAATTGCCTTACAATT +AAGAGGTAAGAAAGACGAACAGAAAGCTATTGACATGATCAATAAATTGGGTGAAACTCA +ATGCTTTATAGTGAATCGTGGTTACAAGTACGATACCATTGCAAAATTTGAAAAAGGGCT +TTGTGAATTATGAGTTATTATGGTGTGATCCCATACACAGGAAACAAGCAATCGCTATTA +CCTGAACTATTCAAGCTGTTCCCCGAAAGAAGTTCATACATGCGTTTCATTGATTGTTTT +TGCGGTGGCCTTAGTGTGTCGCTAAACGTCCCTAAACCCGTTCTAAGCAACGATTATGAT +AAGACGCTGATTGATATGTATGAGCGTCTTAAAACGCTTCCTGACCTGTCTCCGGTGCGA +GAATTGATTGCATCGAAGGGGCTGGGGAAAGACAATAAAGAAGAGTATCTGAAATTCCGT +GATGAATACAACCAGAACAAAGATCCTTTATGGCTCTATGTCCTGATCCTGCATTCATTC +AGCAACGTTAACCGGACAAACGACAAAGGCGATTTTAACGCTGCTGTAGGAAAACGAACC +CTCAACTTTATGACAGAAAAACGTTTCGAACATTTCAAAAAGAATGTGACAGGAATTGAA +TTTCGTTCTGGTTCATACTCTGATATTGAAATCAACGATAACGATTTTGTTTATTGCGAT +CCTCCGTATCTGATCACTGATGCGGTGTATAACAAATTCTGGAACGCAGATCACGAACGC +GAGTTATATGCTTTCCTTGACTCCCTGCATGAGCGGGGTATCAAGTTTGGTTTATCAAAC +GTGACACATCATGCAGGAAAGCAAAATGATATCCTGATCGAGTGGATGCAAAAATATAAT +GTGCATAACCTCGATAAAAAGTATCTGTTAGGCCAGCATACTGATTCTTACGAACAAAAT +AAAACGCAAGAAGTCTACGTGTGTAACTACCAGAAACGCGACGTAAATACATACCCTGAA +ACACTGGATGACTTAATGTAAGGTAACATATGTTTAAGATTTTTGGTTATATCCCTTCTG +TTTATAATTGCGCTCCATGCCTGAATTCAAAGCGTTTGCTGGATGCGAAAAAACACCCAT +ACGAATTCGTATCTGTTGCGGATTCCGTGGAAGACGGTAAGCCTGTGCTGAACGAAGCGG +TGATCGATGAACTCGAAGCCCTGGTTGGTACGCGCCGGATGACTATGCCTCAGATTTTCC +ATGACGGTAAACATGTAGGCGGGTTTGACCAACTTCGTGAGTATGTCCGCACCCTGTAAT +AAATAATGACACCTTACTGAATGGTGTTATTATGCTGACGAAACGAATTACCAAAAAAGA +CTACCCCACGATCAAACAAGCTCTCTTTGAAAAACAAGGGGGCTGTTGTGCTCTGTGCAA +GCGCCCTTTAGAGGGTGAGATCGAAAAACATCACCTCGACCATGACCATGCTTTAGACGG +CGAAAACGCCGGACGTGTGCGCGGCCTACTGTGTAACCTATGTAACGGTACAGAAGGTAT +TGTGAAGCACAAATTCAACCGATCCGGTCTTGTGTCCCGTGATGTTGACTACATCCACTG +GTTAGAAAACCTGCTTGCATATCTGAAACAAGATTATTCCGAAAACCGTATTCATGACAA +ATTCATACCAGATAAGGTAAAATGGTTTTCAAGACTTACCAAACCTGATATGATTGCCGA +AATGGTTTCTATGGGCTTCGAGTACGCCGACAAAGACGAACGCAAAGCCTTAACCGCAAA +ATATAGAAAGCAATTAATGAAGGCAACGAAATGAAATATCTAAACGCTCGATTATCAACG +CAACAGAAGAAAAAGCTGATGATGTTGATATCCTCCACTGACAAAAAGATCATATCTCTA +CATGATTGGATGCTTGGAAGGGGTGACTCTGATTTGTGTTATGTCAAACCGAAAGACCGA +ACGATGTTTGATGATCGCGGTCGCACATTGACTAATTTTTCTCCTATCACCGTTATTGAT +ATGTGGGAACTCCTTGAGATTGTAGGACGGGATATACCTGTTGACGGGGTTGAACTGATC +AAATATCTTAACGAGATTGGACACAATTTAGATATTATCCATAAGGCAACGAAATGAAAG +TAGAAAAACGCGACGGCAAAACCGTCGATTTCGATCAAGAAAAAATTCGCAATGCTGTGT +ATAAAGCTGGCGGGACTATGACGGATGCTGACTCCGCGATCATGCTTGTGTTGCGTAGTC +AGATCCGCAACGGTAAAGCAATGAAGATTTCACAAATTCAAGAACTTGTTGAAGAATCTT +TAATGAAGACAAATCCGACTGTTGCCCGTGCATATATCGAATATCGTCATGATCGTGATA +TCGCCCGTGAACAAAACGGAAAATTATTCCGTGATATCAAGGGTTTGATGACTCTTAGTA +ACAAAGAATTAACCAACGAAAACGCAAACAAAGATTCTCGCGTATTCCCGACTAAACGCG +ATCTTCTGGCTGGTATCGTTTCTAAACATATGGCGCGTAACCATATTCTACCGAAACATA +TTGTTGCGGCGCATGATTCCGGTGATATTCATTATCACGATCTGGATTACAGCCCGTTCA +CGCCATACACAAACTGCTGTCTGGTGGATTTGAAAGGTATGCTGGCTAATGGCTTCAAGA +TGGGTAACGCAGACATCGAACCCCCGAAATCAATCGGTGTTGCGACGGCTCTCATGGCAC +AGATCACCGCACAGATTGCTTCTCACCAGTACGGCGGAACTACCTTTGCTAACGTCGATT +TAGTATTGGCTCCTTATGTGGAGAAGACATTCGCTAAACATGTACGTGATGCTCGCAAAT +ATCAAGTAGCATTAGTAAAAGATTATGCTATTTCAAAAACAGAAAAAGACGTATTTGATG +CTTTCCAATCGTATGAATACGAAGTTAACACGCTGCATACTGCCAACGGACAAACACCTT +TCGTTACTATTACTTTCGGTACTGGTACGGGAATGTTTGAACGCATGATCCAGAAAGCGA +TTCTGAAAAACCGTATTCGTGGACTGGGTAAAAAGGGCATTACCCCTGTATTCCCGAAAC +TGGTTATGTTTATGGAAAAAGGAATTAACCTTGATCCAGAGGATCAAAACTATGACATCA +AACAACTTGCCCTGGAATGTTCTTCAAAGCGTATGTATCCGGATATTATTAGCGCGGCTA +ATAACCGTCGTATTACTGGTTCTAGCGTTCCTGTATCTCCTATGGGTTGTCGTAGTTTCC +TTAGCGTGTGGAATGATGAGCACGGTAATGAAATTCTTGATGGACGTAATAACCTGGGCG +TTGTGACGATCAACCTTCCTCGTATTGCGATTGAAGCCGAAGCACAGGAAGATGAAGACG +CGCATGATGCATTTTGGCGTATCCTTGATGAACGTCTGGAACTGTGTTTTGAAGCCCTGA +TGACTCGTATTGATAGTCTCAGAGGTGTTAAAGCCAGTGTAGCCCCGATCCTTTATACAG +AAGGTGCGTTTGGTGTACGGTTGAAACCCGATGATGAAATTCTGGAACTGTTCAAAAATG +GGCGTAGTTCTATCAGTCTGGGATACATCGGATTGCATGAAACTCTGATGCTTTTCGGAT +CTGGACAACACCCATTCGACCGGATCGGTTCTCAGAACATGGGTAGACTGATTCTGGAAT +ATCTACGCGCTGCGACCGAAGCATGGAAAAAGAAAACCGGATTTGGGTTTAGTCTGTATT +CAACCCCTGCTGAATCTCTATGTCATCGTTTCTGCAAACTGGACTATGAGAAATTCGGAA +GTATCAAAGGGATCACAGATAAAGGCTGGTACACTAACAGTTTTCATCTGGACGTTGACC +GCAAGGTAACACCGTTCGAGAAAATCGACTATGAAGCCGATTATCATTACATTGCAACTG +CTGGACATATCAGCTATGTAGAATTCCCTGATATGAAAAACAACCTGGAAGCCCTTGAAA +AAGTCTGGGATTATGCAATGGATAAACTGGACTACTTCGGAACTAACCTTCCGGTTGATA +AATGCTTTGAGTGTGGCTCTGATGATGAATTTAAACCAACAGAAGACGGTTTTCATTGTA +CCCATTGTGGGAACCATGATCCGGAAAAAATGAGCGTCACGCGCCGTACATGCGGCTATT +TGGGTGCTCCCGCTGTCCGTGGGTTCAACGAAGGTAAGAACAAAGAAATGATGCATCGCA +CTAAGCATCAAAATTAATCAAAAAGCCCTTGACTTCGGTTGAGGGCTTTTGTTATATTAG +GCCTATCGAAAAAGGAGACAGATTATGAAACTGACTAAGAAAATGACCGATGTAGTAGCA +TGTGCGTTTGCATTAGGCTACAAAGTTGAAAATCATCCAACTCGCGTTGAAGTCATCAAC +CCTATCAAGGGCCGTCCTGGTTTGGTTCTGTGTGAAGACGGCACAGCATATCGTAATGAT +GTCTCTTTAGAACTGGCAACTACTATCCGCACCGCAAAACAAATGAAAGATGTTCTCATT +AGCGGCGCAAAATTGAGGGATTTATGATGTATTGGACAAAAGATAAATTTGTTTTTCGTG +ATGATACGTGCTTTGGGACTGCATACCGAAACTTAGCTATTCGTGGCGGTTCGTTTTCGG +CTAATGATTTGTCTAAGGTAGTATTCCCTATTAAAGTTACTGAGTATGACGTATTCGGTG +TTAAAGGGTTTACTGATTACTTTGGTACAAAGTTTGAATCAGAATCTTACATTTTCACTA +ATAGCGATCGTGAATTATTCAAAAAACACGTTGTTGTTAAAGAGAAACCGTTATTACCAA +AAGAAGATGAAGCAAAGGAAATCTATGATCTCCTGAACATGCTTGATAATCTTGGTACTT +GTCATCTGTTCGGGAAACGCGCCCGTAAAGCGAAAGATGTTCTCAATCTGTTACGCTCTC +GCCGGAATTACCTGATCCGGGAAGCAGAACGTAATCTGAAAAATTCAGAAAAACAGGTCG +ATGTTCATAAATCCACTCTTGCGAAATTAAAGTCTTTGTGATGTTTCCGTTATACGCTAA +AGTGCGTCGAAATGTCGGTGATTCGTATCAGGAATGGAGTGAATGGCTACGCGAAACAAA +GTCATTCTACATTTCAAAAGCAACTGATATGAAAGGCCGTAACATTCGCTATCGTAAACC +CAGTGGTAAGCGAGTGAATGGGATAGATTACATTGTTCTTGATTCGATTCGGGATGATAT +ACGATAATTTAACTTTGAGGCAATATTATGATTTTCAACAAAACAAATTCACGTAATTTG +AACTATCTACGCTGTGAACTGGAAGCTAACGAAATTGAACTGTTTTTCTGTGGGGCTACA +GATCCGGAACACAAATTGCATTGGGTATCAGGTGAGATTGTAAGCCTAACCGATCAGATT +GTCGAAGAGGCTACCCGCCGCAATGCAATCGTTAAAATTGGTGCTATTGATGTGAACTAC +GAAGGACATCCTTCATTTTTCATTCAATATTATCCATAAAAGTATTGACCTGTATATCTG +AATGTAGTAACATCCTTCTTGTCAACTAAGGAGGATGTTATGAAAATCAAAAACACTGCT +ACTGAAACTCTTTGCAACGAAATTGCAGAAATGTACTGGAGTAAAGGTCACTTAGAGGCT +ATGAAAGAGTTTCAAAAGTGGTGTGATACCCAAAAGTTAGCTAAATGGGAATACATCGTT +ATTGTTGAACGGATCAAAGAACTGATCCTCGTGAAGAAAGGTAATAAATAACCATGTAAA +TCAACATGGAACCCAATATGAACTATCAAAAAATATACGATTCTCTCATATCGAAATATA +GGGGAGAACCTCCAATATCTTACAGACACAAGAAATCAGGTTACGAGATTCATCACATAT +ACCCAAAATCAATGGGTGGATCTGATGAACCAGATAACTTAGTATATCTTACACCAAAAC +AGCATTATACTGCACATCATCTTCTGTCTAAAATATATGGCGGTACTATGCATAACGCAT +TTTGGATTATGTCATTTTCTCGTGGGTTTCCCATCACAGCAAGGCAGTATAAAACTGCAA +AAGAGAATAAAATTCTCAATCAAACTGGAAGAAAGCATTCTCCTGAAACTATAGAAAAAA +TGATAAAATCCAGACAAGGAAGAACGTATTCTATTGAATCGCGTAGAAAAATGAGTGAAT +CACATAAAGGATATTCTCATAGTGAAGAAACAAAAGAGAAAACACGAAAAAGTTGTTTAG +TTTCTAAAGCTAGATTTGTGAAAGTTGCTATCGGGACGAATATCAAAGATCCGTCAATTG +TTATCCGGCTGTGCGGAAAAACTGATATACGCAATCACGGATTCAGTCAAGGTAAGGTTC +ATTCTTGCTGTCGCGGTGAAATAAAAAGTTATAAAGGCTATACATGGAGATTTGAATGAA +TTATATTAGAATTTATAACATGGATGTGGTCAACGGAAAAGGGATCCGTGTTGTTTTGTT +TGTGGCCGGATGCAATCATAAGTGTGATGGGTGCTATAATCGCAGTTCATGGAATCCTTG +CAACGGAACACCGTACACGGAAGAGACAGAAAACCATCTGATTTCTCTGTTGAGTAATCC +GCATGTTGATGGACTTACATTAACTGGCGGCGATCCGCTTTACCGTGACAACTATCCTAC +TATCCTAAAACTGCTTGAGCGCGTTTCTAAGGAACTTCCAAAGAAAAACGTATGGTTATG +GACAGGATATACCCTGGAGGCTTTACAGGCCGACCCAGAACGTTCTAAGCTACTTCCTTA +CATTGATGTTCTGATTGATGGTAAGTATGAAAAAGATTTACCAACTAAAAAGCCGTTTCG +CGGTTCAGATAATCAACGTATGATCGAATTCGCTAAAAAATCGATAGAAATTAAAAATAT +TTCTTGACCTAATGTGTAACTATGGTAATCTTACCACATCGTAAATGACGATTAACTTTA +ATTGAGAGATAATATCATGATCCTGAATTTCAAAACCCGTAAAGAAGCGCGTAACTACTG +CTGGAAGTGGAACATTCCCCTGAAAACCATCCGTAATACAGGGCGCGGTTCTTGCCCGTG +GACAGTTCAAGCAAATGAACTGAAAACGTTCGTAGTTGGTAAAACTTACAAACTGGTTGA +CCGTGAAGGGTTTACTACCAATTCACACGGCGGATCTAACACCGCAAACACTATCCAGGC +GACACAGATCGAAAAATTCCTGAATAACGAGGTAAAAATTATCTCGAAAACCAATTCAGA +TACTTTCAAAATCGATCATACTCCGGAAATGACTTTTAGCTCTCTGCGTTCGTGGGAAGC +TCGTTATTTCGTCGAAGTTGGCGCGGCTCCAGCTAAGAAAAAGAAAGCCAACCCGAAAAA +AGCCAACGTTACGGCTCCGGTTGCGCCTGTTGCACCAGCAACCGCAGATCTTGATCAAAT +GCTTGATGGTGGTTCGGCAATGTCGGTTGAACTGGATCCTACTAAATTTGTTGAAGGCCG +TTCGTATGTTCTGGTTAAACCGCAGCAATTTAAAAATCGTTGTGGCGCTAACCACGGGAT +CAAATCATATACCGATGAACACAGTAATGGTGTATACACCGTTTACCATACGACTTCGCT +CGGTCATCATCAATTGAGCAAAACGGTAGAAACCATTGATTCCCAGACCGGAAACGGAAA +CGTTGGTTACTATCTGCTTGATTCTGAACGTTCGTTCTTCCGTGAACTGGCGACCGGAAC +TGTTGATGAACCTGTTAGCGTTTCCGGTAATAGCGCTATCGCTATCAATGTAGACGAAGC +GGCTAAGAAAGAAGAAATCGCAAAAGCAATGACACAGCTTGAAGAAGCGGTTAAAGCCCA +TGATGACGCGCTTCAAAATCTGCGTACTGCTTCCGACCTGGTTCGCAAAGCTGCTCGAAA +AGTAGCAGAAGTAAGCAAGTAAATTAAACTGGGTGCTCCGGCACCCTTTTTTATGAGGTG +ACACATGGAATTATTAGAAGGTAAATCTTATACCCTGAACATCGACGCTAAAGAATTTGC +AGAAAAAACCTGGCGAAATGCTTTAGCTGAATTGATCAAAAACAACGGCTATATTACAAT +CGATCGTATTGCGATTGGGGATACTGAGGACATTGCTTATGTTCTGCAAGATGATTTCGA +ATATGAGATCCCTAGCCATATCTGGAAATACTTCAAACCATATGATTTACCGGAAGAAGA +ACCGAAGATTGCTACTAAAGAAGAAATCGCCGCGCCTGATTTAAATTTCGTATCTTCCGA +TCCTAAAATGTGGATGACTGTAAAACCTGTTCAACAAGATATCAATGATCTGCGATTTGA +TTATCCTTTTGTCAAGCGGATCACTTCGATTTCTGTACTACCAGCGCCGACTGATTCACA +GGCACTTGAATTTGCATTACAGCATGTTTTCGGTGATAATAAGCTGTACGCGATTGACAA +GGAAGCTGCTATTGATGAACAGAAAAAGGAAATCATCAACCTTCTTTCTCTGCATCAACA +ACTTGAAGCGGTGGAATTGATTGAGCGTATGCTTTCTGATACAAAGAAAGATATCATTAG +CAAAATCACTCCGGCACGAAGGAAAGCAATTGATGAAAATCGAGATTTACGGTATTCCCG +AATCGCTTCATAAATGTTACGGCTGTATTGAAGCTCGGAAATTACTTGATGAGCATGGAT +TAGAATACGAATTTTATTCTGTTCTAAAGCCAGCAAATAACAGTGTGGGGTTTGATTACG +ATCGACCCCGCATTGAAGAGTTAGCGAAACGTGTTCGTAGTCGAAGCATGGCATTTACTT +ACCCTCGGATCTTTGTAGATGGTAATTTTATTGGCGGTTATATGCAATTGAAAGAGTATT +TGGGTGAAGCATGAATAAAGAATACATTCGCAAAGTAGCAAACGCTATTCACGCAACAAC +GATTGATTTTCTGGAAGGGTTTGATCATATTATCCACCCTGAAACGCTGGATAGTTGGGA +AGCCAAACTGTTTAAAAGTATCAATGAACAGTTTCCGGAAAAGGTTAAGCGCTGGTTTAT +CAGACAGGAAATCGTAGCAACGATCCTTAATGAACGTGGTGTTGAGGCGTTCGGTGTAAC +CCCTCTATATAAACGAAACCAGATTACAGACGAAACAATCAAGAAATATAAAAAGATGGT +TCGGAAGTAATAAATAATCAGTTAAATGGCCTTCGGGCCATTTTTTGTATATAAATATTG +GTATTGAATACAATATAGGAAAAAAGATAATGGTAGCTAAATCATTCCGCGCACGAAGTG +GCCTTGATGCTGCTGGTGAAAAAGTTATCAACGTTGGGAAGGCTGATCGTAATACGCTGA +GTGACGGCGTTAACGTTGACTTTTTCAATGAATTTAACGGAATCCAGCAGTATGACCCGA +CTCGTGGTTATTCTCAAGACATGGCGATCATTTATGCGCGTCGTATCTGGTACGCAAAAC +AGAATATTGCTTCCCCTGCTGGGGCTTTCGACGAATCCAAATGGATCGCAACTCGTAATG +ACCCGAAATGGGTTTATAGTAACGTAACCACTCCAGACGGTAGCATTATTGAATCTGGTA +GTTACATTATGGCTGATGGACGCTTTACTGAACTTCTGTACCTGCTGCCGGACAACCCGA +CAGAGGGCGACGTAATCACGTTTAAAGATTGTGGTGGTTTAGTAGGTGTGAACAGTATCC +TTGTTAAGTCTAACACCCGTCAGATCCGTTTACGTACTGTACAATCGGCACAGTATCGAC +TGACCCACCCGTACATGATCGCAACGTTTATCTATAACGGTAACGTATGGCGTGTTGCTG +AAACTCTGGATAACCGCGATTCTGAGATCGTGAACGCAACCGGAACAGGTTCATTCCAGT +TACAATCTGGTATGACAGTTTTCCGTAACAGTGCTACGGGTAAAATCACTCTCCAGTTGC +CGAAATATGCAAATGATGGTGATGTGATCACAACCTATGACGCTGATAAAATGAACTCTA +TCAACGTAGCCGTTTTGCAGATTTATCCAGGTAGTGGACACACTATTTCTGACGGTGCAA +TTACTGGTGTTACTTCGGTAACTAGCCAGAAATCTGGCTTTGGTATGTTCATCTTTGATG +CACAGAATAGCCAATGGAAAGTATATGATGCTGATAATCGTGTTCGTCTGCGTCGTATCT +ATAGTGATTTAAACACAGTTCCTAACGATTACGTTTTTGTTACTGCAAACCCTTCTGGGA +CTATACCAAACGTTACAGTTACCCTTCCAACTGATGTTGCTGATGGTGATCGCGTTTACG +TATCCCTTTATATGATGGGTAAAAACCAGAACTGTACAATCAAAGTTAAAGATGGTACAA +CGGACAAGATCCGCACCAACAAAAATATGATGCAGTTCCCGCAGCGCAAAGACTATCCGC +CTGATGATTGGTTTAGTGTAACTTCATTAGCATTTAATGCTGCTAGTGATTACCTCCCGT +ATATCGAGTTTTCTTACATGAAAGCTACGAAAGAATGGGTTGTTGCTAATTATCGTCCGA +TCGTTGAACGTGTTGACGCAACTAACAGATCGCGTACTGGTGTTATTGCTCTGGCTGCAC +AGGCAGAAGTAAACAAAAACTTGGAAGACAACCCGAACGACGAAACTGCTATTACTCCGA +TGACGTTAGCAAATAAAACTGCTACAGAAACCCGTCGTGGTATTGCACGGTTAGCAACAA +CTGCTGAGGTTAACAAACTTTCAACCGATACCTATCTGGATGATGTGATTGTTACCCCTA +AGAAGCTGAACGAAAGAACAGCAACTGAAACCCGTCGTGGACTGGCAGAAATCGCAACTC +AGGCAGAAACCAACGGAAGCACCGATGATATTACTATTGTAACCCCGAAAAAGTTGCATA +ACCGTATTGCATCGCCGACCTTGACTGGTATCCTTGCCCTTGTTGCTACTGGTGGTGATC +CTAACACCAACACGGATCGTTCTCAGGCTGGTACTGGGGTTTATGACCATTCAGATTATC +AGAAAGCGGTAACGCCTAAAACTCTTCGTGAGTATAAAGCGACTCAGTTACAATCTGGTG +TTGTATGGCTGGCTTCTGAAACCGAAGTTATTAACGGTACTGTTGCAAGTTCAAACGTTC +CGACCGTTGTTACTCCGGAAATGCTGCACAAGAAAACCTCTACTGATGGTCGTATTGGTT +TGATCGAGATTGCTACCCAGACAGAAACCAACGCAGGGACTGATTACACGCGAGCGGTAA +CGCCTAAAACGCTTAATGATCGTGCTGCAACGGAAACGCTGACAGGTATCATTGCAATTG +CAACCACTGCCGAAGTATCAGCAGGTACTGTAACGAATAAAGCGATCGTACCGTCTAAAC +TGAAAGGTTATCTGGACGATACAAGCCATATTACTGTTGCTACTGCTGATGGGTTAACTC +AATCTGGTACTATTTGGACTACGGTTAACATCGGTATTCAATCAGCAACTGAAACTCAAC +GTGGTACTTTACGCGTTGCTACGCAGTCTGAGACGAACGCAGGGACATTAGATACAGTAT +TTGTCACCCCTAAGAAGTTACACGCTAAGAAAGCGACTGAGAGCGCAGAAGGTATCATTC +AGGTGGCTACGGCTGCTGAAACTACCGCTGGCACCGTTGCAAACAAGGCTGTTTCTCCTA +AGAACTTGAAAAATACAATTCAGGTTGATACTTCATGGCAAGCTACCGATCTGGTACGTG +GTACTGTGAAGCTGTCTAAGGGGCTTGGTACTTGGTCTGGTAATGATGTGGCTGGTTCTA +CTCTTCCGGATGATGGTTATGCCGCTGTAGGTGTTGCTGTTTCTCCGTATGAACTGAACT +TAACACTGAAACACTATCTACCGATCGGTGCTAAAGCGGTTGATGCTGATAAGCTGGATA +ATCTGGATTCTTCCCAGTTCATTCGTCGTGATATTGATCAGACGGTTAACGGGGCATTGA +CTCTAACGAAAGAAACCACTGTACAGGCTAACATTAACTCAACCGCCGACGCGAGTTTCC +GGGTAATGAATGTTAGTGGAGATCTGAACGTTGGTGATGGCTCATCGATGGGTAAACTTC +GTTTGAATGGCGGTTCATCTAACGACTGGTCAATTCAAGCAAGTTCATCCTCTGGGCGTA +TTGCAATGATCTCAACGGGTAACACTGGCACAGTTCATCTTTCTGTGTATAATGATACTC +GCGGCGTTGTAGCTAACGTTAAATTCCAGGCTCCTGAAATTCAGGCGATTGGCAAAGTGA +CTCTGGGTAATGATACAGTGATCACGGCTGCTGGTTCTGTTCTCTCTATGGGTACGAACA +ACAAGACAACTAAGATCCTAACTTCGGACGCTGGTAACATTTTGGCAGAAGAATCAGGGA +ACTCTTATAAAGTCTTTACTGAGAAGAACGCGCAAACCTTGCTGAATCCTACGTATGTAC +GTAAAGCAGGTGATACGATGTCTGGGCGCTTGACGGTAAGCAACAGTTCAATTATCATTG +CAGGTCAAGCGGCTTGGTCAACGCTGGATGCAGTAACAGAAGCATCCAGGGGCAACTGGA +CGGCTGAGATCACAGCATCGGCACAGTACAACTTGCTTCCTGGTTATGCGGTTCCGGTTC +TTGAACCAGATCCTATTAATCCAGAAATCATGATTGTGACCCGTTATACCTATGTTAAAG +CACCGGGTACTTTAACGCAGTTTGGTAACGGAACTGCATTCACTTATCAGATTTGGGCAC +CTCGTCCGACCTCTGGTACTGGTGTTAATGCGCTGGCGCAATCCTTCTGGATCCGTCAAA +TGAACCCGATCACGGGTAAATTTGATGAGTGGGGCCGCATGTATACCAGCAACAACCCGC +CTACTGCTGGTGAGATTGGTGCAACGTCTGCTGTTGGTACTACGGTTAAAAACATGACTG +TTACCGATTGGATCAAAGTTGGTAATGTTAAGATTTACCCAGATCCGGTTACTCAGACAG +TTAAATTTGAGTGGGTGGCATAATGTCAAACTTAATGGCGGGGTTCGGCCCCGATTTTGT +AGAAACGCAAATTCTATCGGAAACAAACAGCGTAACTTACAGAATAACCGCAAAGGCAAC +ACATCCCAATGCGGTTCCTAATCAGTATGAGTTTACACTAAATCAAAAGGCGGTAGGGAC +ACCGCCTAGTGTTGGGATCAACGTATGGAGAATTAACAATGCTGTAGTTGATCCAATTAA +AACCTTCACATTATCGAATGATAATTCAGCAACTGCAAACAAAGCGTTTGTTGAATATAT +GGATGCTCAACCTTCTGGGCTGTATTTGATAATGACTAACGGTGAATACAAAACAAGCCA +AATCGTTGATGATTGGTTTGCTAAAAACAGATCCGTTATGTGGCAAGGCGCTGATTTCGC +TCAGAGATTCCCAAATTCTGCATATGTTGCATTGTATGGGGCTTCAAAATCTCGTATACT +GATTGAATCGTTTTACGCGAACGATGGAGTTTTAAAAGAAGATTCACGCGCATCAATCGA +TCTTGTCTATAATAACGTTGGTGATGTTGGGCGAACTGGTGTACCTTTCCGATCTGTTGA +AGATACGGAAGAATACAATTCAACCAATGGGTCTGAATATAAAGTATATCCTGTTGCAAA +CCCAGTGATCTCTAAACTGGCTGATTATGGTATGGCTCCTGGATTAGCTATGATGATTGC +TGGTGATTTTTACGCCAGCAAAGCATTATTGGATGCTGGATCAACAACAAGGGTTACTGT +TCGATGGTTTACGGGTACTGCTCAAACTTCATCATCGGTGATTGAAGTTCCTGCAAATAA +ACCTGATGAGTGGTTACGATTTGAACAGTTCTATACGATCCCTAGTGGTTGTGATGGATT +TAACGTTGCTGTATCTCGTTATCCTAAACCCGCTACGGATAGTTTATCTGCGATCCGTAA +CTTTGTGATGGTTCAGGTATCTGCTGCCGAAGCTGATCAAAACTTTGCTGCACAGTTTGG +GGTTAACGGTATCAGAATGAACAACATGATCGATGGTGGAACACCGTATATATTTGAATT +GCCGAATACTAAGGTTTATCCTGGTGGCGATTATTCTGCTTCCGAATTCCGTGAAGTTGA +TGCATAAACAAAGGCCCGGATCATCGGGCCTTATAAATATGTAAAAAGGGGTTATTATGG +CAGATTTAAAAGCTGGTTCTACAGTCGGGGGTTTACCTATTTGGCACTCCGGCACATTTC +CGCTGGTTCCGGTTGGTAATACTCTAACCTATCGCGGATATAAGGTTTATACTGAAAACG +ATAAACCGCAAGCATCAAATAACGACTTCGTTTCTAAAGCAAGCGGTGGTCAATATTTGG +GTGTAGTTGCCTTTAAACAGGGGCTACAAATTAAAGCTACTTTCACAGGCGGAAGTGACC +AGAACGGTTTATATTCTGGTGATGGTGATGGCGCGACATTATCAAAAGCCAACATTGATC +TTGTATCATGGTATGGTATTGGTATTCGTTCATCTTCCGGTACTAATGGTCGCGTATTAG +TCATCAACGCTCGAAATGGTGATTTAAACACTCAGGGTAATATTACGGTTGAAAAGCAAA +TCAGTATTACAACCGCTAACCCTACTGACGCAAGTCATGCAACACGAAAAAGTTATGTTG +ATGGACAGATAAATAATGTCACAACAAATGCTAATAGCAGGGTATTACGCGCTGGCGATA +CAATGACAGGGCTGTTAACTGCCCCGCAATTCGCGAGCACAGGCGCGGCTTCCCGTCCCG +AACACGTACCACGGCTCGACCAGGTAATTACTAAAGGGACTATCATAGATTTTGGATCTT +ATTAAGGTGAAACATGGCTGATTTAGAAAAAATTCAATTCCTACGTAGCACAGTTGCGGG +GAAAACACCTACTACAAGTCAGCTTGCAGATGGTGAACTGGCGATCAACATGGCTGATTA +TGCCATTTACACGAAAAATGGTTCTTCGATCGTTCAGTTAGCGGGTAAAGGTATCCCAGA +AACAAATACCAAAAAATTAACAGTTGATGGGCCTAGTGCTCTTAATGATACCGTTACCGT +AGCGGAAGGTAAAACTATTACTTTCACCAACGAGAATTTAAGTGGTGAAATAACTCGTCA +TATCGTCGGTAAATGTGCCAGCAATGATGGATGGTACATCGGCTCCGGTGGTACAAGCAA +TAACGGCATTCTTGAAATCGGTACTATTGACGATGGTACTGAAACAATCCAGTTTGTACA +ACGCGGTGCAGGTAACGTAGAAGCCAGAAAATTAGTCTTACTTGATAGCTCTGGTAATAC +TACTCTTCCTGGGGATTTAAGATTATCCACTAATAAAACCGTTAAAATTAGTAATGGAAG +CACTCTTACGTTAGAAATGGGCGTAGGTGCTAATGATGTATACATTAAAAACCTGAGAGG +TGCAGGGGTTCTTCAATTAACTAATGATAGTAACCTGACGTTCAGAAATTCCCAGGTTTA +TTATGCTATGAGTGGAAGAGGCCCTGGTAAAGATGGTACTCTTCTGACTAATGTAGAAAA +CGAGCGCCAACTTAAGCAAGATAATTTCCCTATATCTACAGGCACCGAAGCTCGGTGGAC +TAAAGTTGCTCTTTTAAAAGATCCTGGATCAAACCAGAGTCGCCTGCAACTGATGGTGAC +TAACGGCGGTAACTATGGTTCTACGCGTGGATCTATCGACTTTATCGATTGTAGCGCTAG +AAACTTTCCATCCACTTTAACAAGCGCTAATATTCGTAATCATCTACAGGTTCGTCGAAT +CGGTGATCCTGGAATTGATAACACTAACCAAATGCGTTATAGTCTGGTTCGTACCTCTGA +GGGTTTAGAACTGTGGTTTACTCAACGCGCATTCATTAGTAGTGTTAAAGTTGCTCTGCT +GTCTATTGCTGGTGATACTGAGTATTATCTGCCTACTGGTTACACAACTTCTGCAACTGC +TCCGGAAGGTTTAGTTGAGAGTGTGGCTATTCGTATCTATGACGAAATTAATAAACCTAA +CCTTGACAATGGTACTGATGGTATTCTGTCTATTGCTAAAGGTGGTACAGGCGCAAGTAC +AGCGGATGCTGCTCGTACAAACTTAGGGTTGGGTACTGCTGCAACCCGCGATGTCGGCGA +AGGTGCTGGTAATGTTTTAGAAAATGGCGCTTATGGCTTAGGCGGTAATGGTGGTAAATC +CATCAACGACATTATCTCTAATGCGGATATGTTGACCCGCTTAAAATCATACGGCGGTAC +TTTCTGGCGTGGTGTTGCTAAATCTGGTGTTAGCGTTCAAAATGGTCTTTATAGTCATGG +CTCTGGTATTTTTATGAATGCTGGTGATACCATGTCAGCCATTAATATCGACTATGCTAG +TGCTAAAGTTCGTGTATACGCGGCTAACAACGCGGCTCTTGCCGCAGGAGATGTCAAATA +CAACGAACTTTACGGTACAGCAAATAAACCGTCTAAGGCCGACGTAGGGCTTGGTAATCT +GACAAACGACATTCAGGTTAAAAAAGCTGGCGACACCATGACTGGTGATTTAGCTGCACC +TAACCTCCATGCTTCTGGGCCGGGAACCGCATCGGTGTATGTTAATGCAGGAAGCGGAAA +TGCTCATGTATGGTTTAGAACAAACGCCAATGAACGCGGTGTAATTTGGGCAACTCCAAA +TACTACGGACTTAGGACAAATTAACATTCGTGCAAAAACTACTGAAGGTGTTTCTGCTGG +TGATTTTAGCTTCCGTTCTGATGGCCGCCTTGATGTTCCTGTAGCAGTTAAAGTTGGTGG +AGCAGCAATACTAACCAAAGACGGGAATATTACCTCTGGCTCGATGTTTGGTGGCAACCT +TAATAACTATCTGAACACCATTAAAAATGATATCACTGCTGGCGATAATAAGCAAGTAAG +CAAGACTGGCGACACCATGACCGGTAACTTGACTATTAACGCTAACTTAAAAGTTGAAAA +TCCTAGTGGGACGTTTGTTGATTTAGGTTCAGAGAACTCGGACAAGTACAGTAGATTAAC +CCTTGCTCGTAAAGTTGGTAGCGGTGCTACCGTAGCAATGCTTAAAATTACTCCTGAAGG +ATACGTGCAATTTGGTTATCAAACTGCGGTTTCTAATCCAGCTCCTAGTAAATATATTCT +AGTTAAATCTAGCGGCCTTGAGGTAGAAGGGGACTTGGTTTTTAACCAGACATATCGTGG +TGCTGAAGACGCAGTTGATATTACTGATAAGACTAATGACCTTAACAACATGGTTATTAA +AGGCAGTGATTTAGGTACTCGTCTATTATACAAGTGTACTTCTACTGGTGGTGGTTCTAA +TATATCGAACAAACCTACCTCTGACGGCAACTTTGTTCTTGAAGTTCTATCTTTGCGTAA +AATTTCTGATACCGATTGGACATGTAAGCAGACCTTTACTACAAAGAACGGTGATGTTGA +AGGCACATATGTTCGATACTGCCAAAACGGTACATGGTCTGCATGGAAAGAGGTTGTTGC +TGGTGTTCAACCAATTAATTTAGGTGGTACTGGAGCAACTTCTGTAGCTGCTGCTCGTAA +TAACCTCGGTGTTGGTGAAGGACAGAGCGTTAAGTTCGGCGGATTAGTTGTTGATGGAAA +CATCAACGTTGCTTCTGGTAATTTTGTTATTGCAGGCCAAGCTCCTACTGATAACTCGCA +TCTGACCAACAAGAAATATGTTGATGATAAGGTTGCTTCTGCTATTAGTAATGCTGGCGA +CACGTATCTTCCGTTAGCAGGTGGTACTGTAACTGGGCGGTTAACAATTACAGGCGATCA +GTTAAAGACTACATCGCTCTGGGTTACTGGAGATGCTGCTGTTAACGGTGTTTTAACTGT +TGATGGAAGGGCTAGATTTAATCAAGAGTTCATTGTATCAACTTCGGTTAACGTCCAGAA +CACTGGTAACAGTCATTTGGTCTTCCGTAAAGCTGATGGTACAGAAAAAGGACTTATTTG +GGCTGATGACCCTGGTAACGTTAGTATAAGAGCAGGTGGTGGAAGTGGCCCTACTTGGAA +CTTTTGGGAATCAGGATCTTGTCAATTCCCAGGTGCTATTAGTAACTTTAATGGTGTTAA +TAGTACTACTAATTACCCTGGCGGCGGTATTGGCGCGTATTTAAATACAGCGGGCCTAAC +AAGTAGATTTAGTAATGGTGCTTATGTTTCCTTATACTTCCAAGAATATGTAGGAAGCTA +TCACCAAGCTATTCTTAATGTTAACGGCTATGGGCAAGATAACAGCTTTTATTTCCGGGC +TGGTGGTGATTTCATATGTACCCGTAATGGTTCATTCGATAACGTCGAGATTCGTTCTGA +CCGTAGAGCCAAATCGGATATCAAAGTTATTGAAAATGCTTTGGAAAAAGTAGAAAAACT +AACCGGTAATACTTATGAGCTTCACAACACATCCGGTGGTACTACTCGTTCTGCGGGTTT +AATCGCGCAGGAAGTTCAAGAAGTTCTTCCGGAAGCAGTTACTCAGGATATTGAAGCAGA +CGGGGGTTTATTGCGTCTGAATTACAACTCAGTAATTGCACTTCTCGTTGAATCTGTTAA +AGAGCTTTCTGCTGAGGTTAAAGAGCTTAAATCTCAACTGAAATAATGTAAGGGGCTTCG +GCCCCTTTTAGGAGAAATAACTATGGCAGTAACAGGGCCGTGGGTCGGAAGTTCGGCAAA +GGCTGAAACTGGCGAAGCATGGATGGTGCAAGCTGGGGCCAAATTAAGAATAGGGACACC +GTTTTGGATGTCTAATATGATTGGACAAAGCGTATTCCATTTAATTTTCAGAATTAACTA +TGCACAAGGTTCTTCTGGCGATCCATCTAGATATAGAGGATTCTTTAAAAGAGGGTTATC +AGTAAATATAGGAGACTCAGCAAACCAGCCAACATTAAATGCATTTCCTGGTGGTGAAGT +AGGGTCTTTAGTAGCCATTACAAATATTAAAGGGGATCCTTATTGTTTGTCTATTTTAAA +TGGGGCTGATCGACGAGTTAAAGTGTCTATATTTAATGCATCTGGCGGAGACCAGTATGA +TGTTTATTTCAGTAGAACTACTATGAGTGACGGTTGGAGAAGATATAGATGCGAAAACGC +TGGTGGCCTCAATGGGTATTTTGAAGCTAGAATGGATAATCAGTTCGGTGCTTTATTAGA +ATATGTTTGATAGATAAACCAACAAACTCACCTCATACTATTAAATATATTAAAAGGCTA +CCATATAGGTAGCCTTTTTGTTGCATCCTAAATATACCTATAGTAACCTAAGAAGAGTCT +TATAAAATGGCTGAGAGAAATCCCGTAGATAAACTAGCCTTATTTGATCGGGTAATATCG +TTTGTGATGGGTGTGAAAACATGGAAACAATTGCTGATAAAAATAATTCTAATAATGGTT +ATGTTTCTTATGGTAGTAACTTGGTACAAATGGACTGATATATTCCCGATGATAAAAGGT +GCCCTTGTAGTCGATACAAGGGCTATCGAAATGGAAAGAACAGAAAAGTTTAATCAATCC +GCGTTGGAACAGTTGAGCATAGTTCATCTTACTTCCAACGCGGATTTTTCGGCGGTACTG +GCATTCAGACCAAAGAACATAAACTATTTTGTTGACATTGTAGAATATCAGGGAAAATTA +CCATCCCAAATCGATCCTAAAAACCTCGGTGGTTATCCGATCGATAAAACATCCGAAGAA +TACACGAATCATATAAATGGCTTGTACTATTCATCAACTACAGCAAGTTCCTACCTACCG +ACACGTGATTTTGTGCCAGTAGCTTATACTTTTAGTTGCCCTTATTTCAATCTTGATAAC +TACTATTCTGGATCGGTTTTGATGGAATGGTATGCAAAGCGGCCTGATATACCAGATATG +AAGATAAACATCATATGTGGACAGGCCGCGCGCATTTTAGGTCGAGCGAGGTGATTAACG +TAATGCTGGTGTTAAATTGTGTGATCTTCCAATAGCCCGTTTGATTGCTTTAAAGAAGTT +CATCACCGGGCTATTTTTCTCGTAAATATCCCAAACTTTCAATTTGTCCCACGGATCCGG +AACATAATCTTCATTCCTTGCCGAAACCCCCAACGTAACCCTCCTGTATCCAGCGCTGTC +GTGATAATACACGAAGAATGGCCTACCTATTGGCGCAACCTTACAACCTCTCTTAGCGGC +TCTCATAGCCTCATCGAACGTCATGGATTCCCCCAAAAATTTCTATGCATGAATGGTCGA +ATTCCGATAGTTTCACTCAAAATGAATATCGGATGATCTAGCTCATCGTGGTTTTCTTCG +TCAATGACGATATCCCAATCAGTAGCCTTTTGTTCTTCTACCGTGGCAATGAATACCTGG +TTTACTTCACACTTGCGGTGTGTACGTCTGATGATTGTATCCCCCTCACGAAACACAATC +ATATCAGGATTGGTAGTGCGGTACGCGGTTTTACCCGCGCACACTTCATTAAGCATATCT +TCGTATGTCATTATAAAACCTTTACACGTTGAACGATGGTTTGTTTAACGTCTTTGTATT +CTCCGTGCTCTTTAACGGTTGCTTTGAAAGTGATTTCATCACCTTCGTTTGCAATGTTAT +TACCGAAGTAAACAACAACATTACCATCAACATTAATTTTGGTCATGAATCTTTCTACAG +AAGTGTAGTAAGAAACTTGAGTATATCCCAGTGAAATCACTTTCTCAACGGTTCCGGTCA +TTTCCAGACGTTGTTTGATTTCACCGATGTGGTTAGCTTTAGAAATGCGTTCCTGGCGCT +CTTGTTCCCACTGTTCGCGGATTTCTTCGCGTTTGGCGATATAATCCTTTTCCAGTGCAA +CACCCATGCAGTAAGCGCACACAGCATCGAATACAGGGCTGTTTTTGTTGTCTTCTTTAG +ACTGGTCAGCCCACCAAAGAACAGTAAACATTGGCATTTCTGCAATTACTTCGCCTTTAC +GCTTGCCAATCGGCATGATCCCTTTTTCCAGCAGTTCCAGTTTTTCAGTATCGAACACTG +ACAGTTTACCGCGACGTTCGAACAGATCGAAATCTGCAAAGCCCTGGAATATCATTTTGA +AAGTATCAGTTTCAGTTAAACGGGCTGAAACACGGTCGAAATACTCACGCGCTTTCGCTT +CCGCTTTCTCCGGATCGGTAGATAAGTTGCAGATATAGTTATCAGAAGTATAACCGCCGC +CTCTACGCTCAACACGCAAGGTATACATTGCATTTTTACGACCAGAAGAAATGAAGTAAG +TGGTAGTAACTACGGTTGCGTTAGTCATGGTATTTCTCCTTAAAGGGTATCTCGTTTCGA +TATGGCTAATATAGCAAAAGCCCCTGACCGAAGTCAAGGGCTTTTTCATCATTCATTCGA +ATCTTTCATTGTTTTATGAAGATGAATATCAAAAATTTTCCAGTACGCCTTTCCGCGAGG +ATAAATTTTTGCTTTGTCAATATCGTTGTTGCTTCCCCATGTGTTGTTTGGGCCACGACA +TCGATTTTTTATATAATCTGTATGCCAGAATAAGCGCTGAACCGATGATTCCGTACCTAA +TGGATCTTCTTTACTGAACAGAATTTGTATACTCATAAGAAGAACCCAGTGCGAACAATC +AGATCGATTTTCTTTTCTGGTTCAAACGGTGATTTGCTATCGATGTTACACTGATAGAAC +ATACCAACATACTTTTCAGGAATGTTGGATTCACGCGCCCATTTCAGGTTATCATCGGTA +TTCGGCCCCAGCATGAGGTTAACAACATCAACAGCATAATCCTGTTCTTTGGTGTTGCCG +GAACCGTTTACATAATGCCCGTGGGCGGTTTTGAGGATCTCAATTACTTCGCTATCGTCA +GTTTCGACTTTGTAAAGCGTTGTATTTTCAGGAATTTCTTCAAGAATGATCAAAGCGGTT +TTCATCACACTTACCTTTGTGTTTCTGTTTACGTTTTGCTTCTTTAAATGCTCGCTTGCG +ATCGCGGTGAGTAGAAGCGCGGTTGAAATCATGTTTCGCTACCAAATTATTCATATAAGC +CCCTTAAAGAAAAATATTTAGGGGCTTTCGCCCCTGTATTAATCCAGCAATTTGCGGATC +TTGTCTGCGATACGTCCGGCGCGGGTTGCACTTGCAGTATGATCGCTTTCTTTTGAAGCC +AGTTCCGCCAGCTTACGCTGATGTTCTTCTTCTGCTGCTTGACGATCTGCTGCAACCTGT +GCAACCTGCTCATTATCGTGAGCAATACGCGCTTCCAGTTCAGACAGGGTTTTGTCGAAA +GTTGCTACGATTTCATCTACAGAACGAATTTTATTAAACAGTTTCATAATTTATCTCAAT +TGGTTAGTTTTAATCAGTATACATCAATATGGTTGAAATTCAAAATCATAAATGTCATTC +AGTGCGCGGTTCCACTCGGTGTAGTTTTCACCAGCACCATAACGCATTTGAATAGCACTT +TCGAACGTTGATCCGTTGAGGTTCGGGAAACCGAACAGGTTTTTGATTTTGTCATGTGCT +ACATAATACAGAGAAGCACTTTCCAGCATCGCAACCATCGCAGACGGTTCGTGTTCGCGG +CGCTTGATACGTAACAGAGTACGACTAGCACCAGTTTTACGGCGTTGATTTGGTGCTACG +TAGAAACGGAATACTACGCGCCCTGTTTTATCATCAACTACCAGGTAAAACCCGTTTTCT +TTCAGATCCACGCCTTCGAATTTCTTGAAGGTTCCGCGTTTCATGTCACCAATTTTAATT +GCATATTTGTGAATGTCAAGTCTTGTCAGAATTCTTTTCATATTTTTTAGATACCAGTTT +GCCTAATTTTGTAATTTCGCCTGTTTTTACGTTAACAAACAAGGCGATGCTCAGAAATGG +GATGCTAATCACTACGCTGATCAATGTAAACAGAAAACGTATCACAAAAAGAACAGCACG +TTCAAGATATCGTTGCATCCACGCGATTCCTAAACAACTATACCCTACTATAAAGGTGGT +TGCAACATAAAATGCACCAAATCCTTTACGAAATACGTAACCTTTCCCGGATTCTATCCG +GTCGTCGGCCCACATTTCACGGGCAGTTTTCAGAATAGATTCACCACTAGCGCGAGTTTC +GTTAGCCGAAGGCATGTTTTTAAATTTCATGATAGTCTCCTATGCGCCCAGAACTCTCCA +GGCGCGGTTGTTTAG
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/Miro_ShineFindIn.gff3 Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,827 @@ +##gff-version 3 +##sequence-region Miro 1 176055 +Miro feature gene 7454 7906 . - . ID=Miro_8 +Miro GenBank CDS 7454 7894 . - 1 ID=Miro_8.CDS;Name=Miro_8;Parent=Miro_8;obsolete_name=Miro_156;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 7903 7906 . - 1 Alias=Miro_8;ID=Miro_8.RBS;Name=Miro_8;Parent=Miro_8 +Miro feature gene 7917 8512 . - . ID=Miro_9 +Miro GenBank CDS 7917 8501 . - 1 ID=Miro_9.CDS;Name=Miro_9;Parent=Miro_9;obsolete_name=Miro_155;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 8509 8512 . - 1 Alias=Miro_9;ID=Miro_9.RBS;Name=Miro_9;Parent=Miro_9 +Miro feature gene 123276 124212 . + . ID=Miro_206 +Miro GenBank CDS 123286 124212 . + 1 Alias=Miro_206;ID=Miro_206.CDS;Name=Miro_206;Parent=Miro_206;obsolete_name=Miro_234;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 123276 123279 . + 1 ID=Miro_206.rbs;Name=Miro_206;Parent=Miro_206 +Miro feature gene 68490 70715 . - . ID=Miro_117 +Miro GenBank CDS 68490 70706 . - 1 ID=Miro_117.CDS;Name=Miro_117;Note=contains von Willebrand factor%2C type A;Parent=Miro_117;obsolete_name=Miro_047;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 70713 70715 . - 1 Alias=Miro_117;ID=Miro_117.RBS;Name=Miro_117;Parent=Miro_117 +Miro feature gene 115729 116735 . + . ID=Miro_200 +Miro GenBank CDS 115743 116735 . + 1 Alias=Miro_200;ID=Miro_200.CDS;Name=Miro_200;Note=T4 gp6-like;Parent=Miro_200;obsolete_name=Miro_240;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 115729 115732 . + 1 ID=Miro_200.RBS;Name=Miro_200;Parent=Miro_200 +Miro feature gene 116735 117608 . + . ID=Miro_201 +Miro GenBank CDS 116745 117608 . + 1 Alias=Miro_201;ID=Miro_201.CDS;Name=Miro_201;Note=T4 gp9/gp10-like;Parent=Miro_201;obsolete_name=Miro_239;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 116735 116738 . + 1 ID=Miro_201.RBS;Name=Miro_201;Parent=Miro_201 +Miro feature gene 117595 119422 . + . ID=Miro_202 +Miro GenBank CDS 117605 119422 . + 1 Alias=Miro_202;ID=Miro_202.CDS;Name=Miro_202;Note=T4 gp9/gp10-like;Parent=Miro_202;obsolete_name=Miro_238;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 117595 117597 . + 1 ID=Miro_202.RBS;Name=Miro_202;Parent=Miro_202 +Miro feature gene 119412 120090 . + . ID=Miro_203 +Miro GenBank CDS 119422 120090 . + 1 Alias=Miro_203;ID=Miro_203.CDS;Name=Miro_203;Note=T4 gp11-like;Parent=Miro_203;obsolete_name=Miro_237;product=baseplate to short tail fiber connector protein +Miro GenBank Shine_Dalgarno_sequence 119412 119415 . + 1 ID=Miro_203.RBS;Name=Miro_203;Parent=Miro_203 +Miro feature gene 81829 81940 . - . ID=Miro_142 +Miro GenBank CDS 81829 81927 . - 1 ID=Miro_142.CDS;Name=Miro_142;Parent=Miro_142;obsolete_name=Miro_022;product=hypothetical conserved;tmhelix=1 TMD %284-26%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 81938 81940 . - 1 Alias=Miro_142;ID=Miro_142.RBS;Name=Miro_142;Parent=Miro_142 +Miro feature gene 1 910 . - . ID=Miro_1 +Miro GenBank CDS 1 900 . - 1 ID=Miro_1.CDS;Name=Miro_1;Parent=Miro_1;obsolete_name=Miro_163;product=rIIb +Miro GenBank Shine_Dalgarno_sequence 908 910 . - 1 Alias=Miro_1;ID=Miro_1.RBS;Name=Miro_1;Parent=Miro_1 +Miro feature gene 900 3173 . - . ID=Miro_2 +Miro GenBank CDS 900 3161 . - 1 ID=Miro_2.CDS;Name=Miro_2;Parent=Miro_2;obsolete_name=Miro_162;product=rIIa +Miro GenBank Shine_Dalgarno_sequence 3171 3173 . - 1 Alias=Miro_2;ID=Miro_2.RBS;Name=Miro_2;Parent=Miro_2 +Miro feature gene 3172 3417 . - . ID=Miro_3 +Miro GenBank CDS 3172 3408 . - 1 ID=Miro_3.CDS;Name=Miro_3;Parent=Miro_3;obsolete_name=Miro_161;product=hypothetical conserved;tmhelix=1 TMD %2812-34%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 3414 3417 . - 1 Alias=Miro_3;ID=Miro_3.RBS;Name=Miro_3;Parent=Miro_3 +Miro feature gene 3412 3979 . - . ID=Miro_4 +Miro GenBank CDS 3412 3966 . - 1 ID=Miro_4.CDS;Name=Miro_4;Note=contains SprT domain;Parent=Miro_4;obsolete_name=Miro_160;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 3975 3979 . - 1 Alias=Miro_4;ID=Miro_4.RBS;Name=Miro_4;Parent=Miro_4 +Miro feature gene 4038 5334 . - . ID=Miro_5 +Miro GenBank CDS 4038 5324 . - 1 ID=Miro_5.CDS;Name=Miro_5;Note=T4 gp52-like;Parent=Miro_5;obsolete_name=Miro_159;product=DNA topoisomerase II medium subunit +Miro GenBank Shine_Dalgarno_sequence 5331 5334 . - 1 Alias=Miro_5;ID=Miro_5.RBS;Name=Miro_5;Parent=Miro_5 +Miro feature gene 5324 7231 . - . ID=Miro_6 +Miro GenBank CDS 5324 7222 . - 1 ID=Miro_6.CDS;Name=Miro_6;Note=T4 gp39-like;Parent=Miro_6;obsolete_name=Miro_158;product=DNA topoisomerase II%2C large subunit +Miro GenBank Shine_Dalgarno_sequence 7228 7231 . - 1 Alias=Miro_6;ID=Miro_6.RBS;Name=Miro_6;Parent=Miro_6 +Miro feature gene 7290 7465 . - . ID=Miro_7 +Miro GenBank CDS 7290 7454 . - 1 ID=Miro_7.CDS;Name=Miro_7;Note=contains zinc ribbon domain;Parent=Miro_7;obsolete_name=Miro_157;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 7463 7465 . - 1 Alias=Miro_7;ID=Miro_7.RBS;Name=Miro_7;Parent=Miro_7 +Miro feature gene 124212 124968 . + . ID=Miro_207 +Miro GenBank CDS 124222 124968 . + 1 Alias=Miro_207;ID=Miro_207.CDS;Name=Miro_207;Note=T4 gp14-like;Parent=Miro_207;obsolete_name=Miro_233;product=neck protein +Miro GenBank Shine_Dalgarno_sequence 124212 124216 . + 1 ID=Miro_207.RBS;Name=Miro_207;Parent=Miro_207 +Miro feature gene 173061 173361 . - . ID=Miro_269 +Miro GenBank CDS 173061 173351 . - 1 ID=Miro_269.CDS;Name=Miro_269;Parent=Miro_269;obsolete_name=Miro_171;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 173358 173361 . - 1 Alias=Miro_269;ID=Miro_269.RBS;Name=Miro_269;Parent=Miro_269 +Miro feature gene 66523 66819 . - . ID=Miro_112 +Miro GenBank CDS 66523 66807 . - 1 ID=Miro_112.CDS;Name=Miro_112;Parent=Miro_112;obsolete_name=Miro_052;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18 +Miro GenBank Shine_Dalgarno_sequence 66816 66819 . - 1 Alias=Miro_112;ID=Miro_112.RBS;Name=Miro_112;Parent=Miro_112 +Miro feature gene 66879 67172 . - . ID=Miro_113 +Miro GenBank CDS 66879 67163 . - 1 ID=Miro_113.CDS;Name=Miro_113;Parent=Miro_113;obsolete_name=Miro_051;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 67169 67172 . - 1 Alias=Miro_113;ID=Miro_113.RBS;Name=Miro_113;Parent=Miro_113 +Miro feature gene 44560 45732 . + . ID=Miro_69 +Miro GenBank CDS 44575 45732 . + 1 Alias=Miro_69;ID=Miro_69.CDS;Name=Miro_69;Note=T4 RNA ligase 1-like;Parent=Miro_69;obsolete_name=Miro_095;product=RNA ligase +Miro GenBank Shine_Dalgarno_sequence 44560 44562 . + 1 ID=Miro_69.RBS;Name=Miro_69;Parent=Miro_69 +Miro feature gene 44216 44594 . + . ID=Miro_68 +Miro GenBank CDS 44229 44594 . + 1 Alias=Miro_68;ID=Miro_68.CDS;Name=Miro_68;Note=contains GIY-YIG domain;Parent=Miro_68;obsolete_name=Miro_096;product=homing endonuclease +Miro GenBank Shine_Dalgarno_sequence 44216 44218 . + 1 ID=Miro_68.RBS;Name=Miro_68;Parent=Miro_68 +Miro GenBank CDS 43905 44225 . + 1 ID=Miro_67;Name=Miro_67;obsolete_name=Miro_097;product=hypothetical conserved +Miro feature gene 42748 43933 . + . ID=Miro_66 +Miro GenBank CDS 42758 43933 . + 1 Alias=Miro_66;ID=Miro_66.CDS;Name=Miro_66;Note=T4 NrdB-like;Parent=Miro_66;obsolete_name=Miro_098;product=ribonucleotide reductase%2C small subunit +Miro GenBank Shine_Dalgarno_sequence 42748 42751 . + 1 ID=Miro_66.RBS;Name=Miro_66;Parent=Miro_66 +Miro feature gene 40459 42721 . + . ID=Miro_65 +Miro GenBank CDS 40469 42721 . + 1 Alias=Miro_65;ID=Miro_65.CDS;Name=Miro_65;Note=T4 NrdA-like%3B E-val 0;Parent=Miro_65;obsolete_name=Miro_099;product=ribonucleotide reductase%2C large subunit +Miro GenBank Shine_Dalgarno_sequence 40459 40462 . + 1 ID=Miro_65.RBS;Name=Miro_65;Parent=Miro_65 +Miro feature gene 39545 40429 . + . ID=Miro_64 +Miro GenBank CDS 39554 40429 . + 1 Alias=Miro_64;ID=Miro_64.CDS;Name=Miro_64;Note=T4-like;Parent=Miro_64;obsolete_name=Miro_100;product=thymidylate synthase +Miro GenBank Shine_Dalgarno_sequence 39545 39548 . + 1 ID=Miro_64.RBS;Name=Miro_64;Parent=Miro_64 +Miro feature gene 38964 39552 . + . ID=Miro_63 +Miro GenBank CDS 38974 39552 . + 1 Alias=Miro_63;ID=Miro_63.CDS;Name=Miro_63;Note=T4-like;Parent=Miro_63;obsolete_name=Miro_101;product=dihydrofolate reductase +Miro GenBank Shine_Dalgarno_sequence 38964 38966 . + 1 ID=Miro_63.RBS;Name=Miro_63;Parent=Miro_63 +Miro feature gene 38710 38977 . + . ID=Miro_62 +Miro GenBank CDS 38720 38977 . + 1 Alias=Miro_62;ID=Miro_62.CDS;Name=Miro_62;Parent=Miro_62;obsolete_name=Miro_102;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 38710 38713 . + 1 ID=Miro_62.RBS;Name=Miro_62;Parent=Miro_62 +Miro feature gene 38483 38723 . + . ID=Miro_61 +Miro GenBank CDS 38493 38723 . + 1 Alias=Miro_61;ID=Miro_61.CDS;Name=Miro_61;Parent=Miro_61;obsolete_name=Miro_103;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 38483 38486 . + 1 ID=Miro_61.RBS;Name=Miro_61;Parent=Miro_61 +Miro feature gene 38194 38496 . + . ID=Miro_60 +Miro GenBank CDS 38206 38496 . + 1 Alias=Miro_60;ID=Miro_60.CDS;Name=Miro_60;Parent=Miro_60;obsolete_name=Miro_104;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 38194 38197 . + 1 ID=Miro_60.RBS;Name=Miro_60;Parent=Miro_60 +Miro feature gene 97404 97739 . - . ID=Miro_176 +Miro GenBank CDS 97404 97727 . - 1 ID=Miro_176.CDS;Name=Miro_176;Parent=Miro_176;obsolete_name=Miro_264;product=hypothetical conserved;tmhelix=1 TMD %2884-106%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 97736 97739 . - 1 Alias=Miro_176;ID=Miro_176.RBS;Name=Miro_176;Parent=Miro_176 +Miro feature gene 97756 98022 . - . ID=Miro_177 +Miro GenBank CDS 97756 98013 . - 1 ID=Miro_177.CDS;Name=Miro_177;Parent=Miro_177;obsolete_name=Miro_263;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 98020 98022 . - 1 Alias=Miro_177;ID=Miro_177.RBS;Name=Miro_177;Parent=Miro_177 +Miro feature gene 95966 96891 . - . ID=Miro_174 +Miro GenBank CDS 95966 96880 . - 1 ID=Miro_174.CDS;Name=Miro_174;Parent=Miro_174;obsolete_name=Miro_266;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 96889 96891 . - 1 Alias=Miro_174;ID=Miro_174.RBS;Name=Miro_174;Parent=Miro_174 +Miro feature gene 96877 97416 . - . ID=Miro_175 +Miro GenBank CDS 96877 97404 . - 1 ID=Miro_175.CDS;Name=Miro_175;Parent=Miro_175;obsolete_name=Miro_265;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 97414 97416 . - 1 Alias=Miro_175;ID=Miro_175.RBS;Name=Miro_175;Parent=Miro_175 +Miro feature gene 95498 95705 . - . ID=Miro_172 +Miro GenBank CDS 95498 95692 . - 1 ID=Miro_172.CDS;Name=Miro_172;Note=heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_172;obsolete_name=Miro_268;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 95702 95705 . - 1 Alias=Miro_172;ID=Miro_172.RBS;Name=Miro_172;Parent=Miro_172 +Miro feature gene 95689 95900 . - . ID=Miro_173 +Miro GenBank CDS 95689 95889 . - 1 ID=Miro_173.CDS;Name=Miro_173;Parent=Miro_173;obsolete_name=Miro_267;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 95897 95900 . - 1 Alias=Miro_173;ID=Miro_173.RBS;Name=Miro_173;Parent=Miro_173 +Miro feature gene 94533 95117 . - . ID=Miro_170 +Miro GenBank CDS 94533 95108 . - 1 ID=Miro_170.CDS;Name=Miro_170;Parent=Miro_170;obsolete_name=Miro_270;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 95114 95117 . - 1 Alias=Miro_170;ID=Miro_170.RBS;Name=Miro_170;Parent=Miro_170 +Miro feature gene 95116 95524 . - . ID=Miro_171 +Miro GenBank CDS 95116 95514 . - 1 ID=Miro_171.CDS;Name=Miro_171;Parent=Miro_171;obsolete_name=Miro_269;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 95520 95524 . - 1 Alias=Miro_171;ID=Miro_171.RBS;Name=Miro_171;Parent=Miro_171 +Miro feature gene 98015 98410 . - . ID=Miro_178 +Miro GenBank CDS 98015 98398 . - 1 ID=Miro_178.CDS;Name=Miro_178;Parent=Miro_178;obsolete_name=Miro_262;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 98408 98410 . - 1 Alias=Miro_178;ID=Miro_178.RBS;Name=Miro_178;Parent=Miro_178 +Miro feature gene 98409 98826 . - . ID=Miro_179 +Miro GenBank CDS 98409 98816 . - 1 ID=Miro_179.CDS;Name=Miro_179;Parent=Miro_179;obsolete_name=Miro_261;product=NUDIX hydrolase +Miro GenBank Shine_Dalgarno_sequence 98823 98826 . - 1 Alias=Miro_179;ID=Miro_179.RBS;Name=Miro_179;Parent=Miro_179 +Miro feature gene 105709 106188 . - . ID=Miro_194 +Miro GenBank CDS 105709 106176 . - 1 ID=Miro_194.CDS;Name=Miro_194;Parent=Miro_194;obsolete_name=Miro_246;product=restriction endonuclease +Miro GenBank Shine_Dalgarno_sequence 106185 106188 . - 1 Alias=Miro_194;ID=Miro_194.RBS;Name=Miro_194;Parent=Miro_194 +Miro feature gene 106215 106781 . + . ID=Miro_195 +Miro GenBank CDS 106227 106781 . + 1 Alias=Miro_195;ID=Miro_195.CDS;Name=Miro_195;Note=T4 gp53-like;Parent=Miro_195;obsolete_name=Miro_245;product=baseplate wedge protein +Miro GenBank Shine_Dalgarno_sequence 106215 106218 . + 1 ID=Miro_195.RBS;Name=Miro_195;Parent=Miro_195 +Miro feature gene 106763 108547 . + . ID=Miro_196 +Miro GenBank CDS 106778 108547 . + 1 Alias=Miro_196;ID=Miro_196.CDS;Name=Miro_196;Note=T4 gp5-like;Parent=Miro_196;obsolete_name=Miro_244;product=baseplate hub structural protein and tail lysozyme +Miro GenBank Shine_Dalgarno_sequence 106763 106765 . + 1 ID=Miro_196.RBS;Name=Miro_196;Parent=Miro_196 +Miro feature gene 108542 110618 . + . ID=Miro_197 +Miro GenBank CDS 108552 110618 . + 1 Alias=Miro_197;ID=Miro_197.CDS;Name=Miro_197;Parent=Miro_197;obsolete_name=Miro_243;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 108542 108545 . + 1 ID=Miro_197.RBS;Name=Miro_197;Parent=Miro_197 +Miro feature gene 102567 103107 . - . ID=Miro_190 +Miro GenBank CDS 102567 103097 . - 1 ID=Miro_190.CDS;Name=Miro_190;Note=T4 gp19-like;Parent=Miro_190;obsolete_name=Miro_250;product=tail tube protein +Miro GenBank Shine_Dalgarno_sequence 103103 103107 . - 1 Alias=Miro_190;ID=Miro_190.RBS;Name=Miro_190;Parent=Miro_190 +Miro feature gene 103455 104255 . + . ID=Miro_191 +Miro GenBank CDS 103467 104255 . + 1 Alias=Miro_191;ID=Miro_191.CDS;Name=Miro_191;Parent=Miro_191;obsolete_name=Miro_249;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 103455 103458 . + 1 ID=Miro_191.RBS;Name=Miro_191;Parent=Miro_191 +Miro feature gene 104349 104819 . + . ID=Miro_192 +Miro GenBank CDS 104361 104819 . + 1 Alias=Miro_192;ID=Miro_192.CDS;Name=Miro_192;Note=contains AP2/ERF domain;Parent=Miro_192;obsolete_name=Miro_248;product=homing endonuclease +Miro GenBank Shine_Dalgarno_sequence 104349 104351 . + 1 ID=Miro_192.RBS;Name=Miro_192;Parent=Miro_192 +Miro feature gene 73313 73582 . - . ID=Miro_124 +Miro GenBank CDS 73313 73570 . - 1 ID=Miro_124.CDS;Name=Miro_124;Parent=Miro_124;obsolete_name=Miro_040;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 73579 73582 . - 1 Alias=Miro_124;ID=Miro_124.RBS;Name=Miro_124;Parent=Miro_124 +Miro feature gene 125036 125872 . + . ID=Miro_208 +Miro GenBank CDS 125048 125872 . + 1 Alias=Miro_208;ID=Miro_208.CDS;Name=Miro_208;Parent=Miro_208;obsolete_name=Miro_232;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 125036 125039 . + 1 ID=Miro_208.RBS;Name=Miro_208;Parent=Miro_208 +Miro feature gene 110635 112575 . + . ID=Miro_198 +Miro GenBank CDS 110650 112575 . + 1 Alias=Miro_198;ID=Miro_198.CDS;Name=Miro_198;Parent=Miro_198;obsolete_name=Miro_242;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 110635 110638 . + 1 ID=Miro_198.RBS;Name=Miro_198;Parent=Miro_198 +Miro feature gene 112645 115742 . + . ID=Miro_199 +Miro GenBank CDS 112656 115742 . + 1 Alias=Miro_199;ID=Miro_199.CDS;Name=Miro_199;Parent=Miro_199;obsolete_name=Miro_241;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 112645 112648 . + 1 ID=Miro_199.RBS;Name=Miro_199;Parent=Miro_199 +Miro feature gene 136157 136806 . + . ID=Miro_219 +Miro GenBank CDS 136168 136806 . + 1 Alias=Miro_219;ID=Miro_219.CDS;Name=Miro_219;Note=contains GIY-YIG domain;Parent=Miro_219;obsolete_name=Miro_221;product=homing endonuclease +Miro GenBank Shine_Dalgarno_sequence 136157 136160 . + 1 ID=Miro_219.RBS;Name=Miro_219;Parent=Miro_219 +Miro feature gene 125860 126369 . + . ID=Miro_209 +Miro GenBank CDS 125872 126369 . + 1 Alias=Miro_209;ID=Miro_209.CDS;Name=Miro_209;Note=T4 gp16-like;Parent=Miro_209;obsolete_name=Miro_231;product=terminase%2C small subunit +Miro GenBank Shine_Dalgarno_sequence 125860 125863 . + 1 ID=Miro_209.RBS;Name=Miro_209;Parent=Miro_209 +Miro feature gene 93915 94204 . - . ID=Miro_169 +Miro GenBank CDS 93915 94193 . - 1 ID=Miro_169.CDS;Name=Miro_169;Parent=Miro_169;obsolete_name=Miro_271;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 94201 94204 . - 1 Alias=Miro_169;ID=Miro_169.RBS;Name=Miro_169;Parent=Miro_169 +Miro feature gene 93592 93854 . - . ID=Miro_168 +Miro GenBank CDS 93592 93843 . - 1 ID=Miro_168.CDS;Name=Miro_168;Parent=Miro_168;obsolete_name=Miro_272;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 93849 93854 . - 1 Alias=Miro_168;ID=Miro_168.RBS;Name=Miro_168;Parent=Miro_168 +Miro feature gene 48763 49277 . + . ID=Miro_78 +Miro GenBank CDS 48771 49277 . + 1 Alias=Miro_78;ID=Miro_78.CDS;Name=Miro_78;Note=T4-like;Parent=Miro_78;obsolete_name=Miro_086;product=dCMP deaminase +Miro GenBank Shine_Dalgarno_sequence 48763 48765 . + 1 ID=Miro_78.RBS;Name=Miro_78;Parent=Miro_78 +Miro feature gene 49267 49634 . + . ID=Miro_79 +Miro GenBank CDS 49281 49634 . + 1 Alias=Miro_79;ID=Miro_79.CDS;Name=Miro_79;Note=T4 gp31-like;Parent=Miro_79;obsolete_name=Miro_085;product=chaperonin-GroEL +Miro GenBank Shine_Dalgarno_sequence 49267 49269 . + 1 ID=Miro_79.RBS;Name=Miro_79;Parent=Miro_79 +Miro feature gene 120090 121485 . + . ID=Miro_204 +Miro GenBank CDS 120100 121485 . + 1 Alias=Miro_204;ID=Miro_204.CDS;Name=Miro_204;Note=T4 gp12-like;Parent=Miro_204;obsolete_name=Miro_236;product=short tail fiber protein +Miro GenBank Shine_Dalgarno_sequence 120090 120093 . + 1 ID=Miro_204.RBS;Name=Miro_204;Parent=Miro_204 +Miro feature gene 47021 47916 . + . ID=Miro_74 +Miro GenBank CDS 47032 47916 . + 1 Alias=Miro_74;ID=Miro_74.CDS;Name=Miro_74;Note=contains HAD-like domain;Parent=Miro_74;obsolete_name=Miro_090;product=nucleoside triphosphate hydrolase +Miro GenBank Shine_Dalgarno_sequence 47021 47023 . + 1 ID=Miro_74.RBS;Name=Miro_74;Parent=Miro_74 +Miro feature gene 47957 48256 . + . ID=Miro_75 +Miro GenBank CDS 47969 48256 . + 1 Alias=Miro_75;ID=Miro_75.CDS;Name=Miro_75;Parent=Miro_75;obsolete_name=Miro_089;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 47957 47960 . + 1 ID=Miro_75.RBS;Name=Miro_75;Parent=Miro_75 +Miro feature gene 48240 48504 . + . ID=Miro_76 +Miro GenBank CDS 48253 48504 . + 1 Alias=Miro_76;ID=Miro_76.CDS;Name=Miro_76;Parent=Miro_76;obsolete_name=Miro_088;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 48240 48242 . + 1 ID=Miro_76.RBS;Name=Miro_76;Parent=Miro_76 +Miro feature gene 48485 48781 . + . ID=Miro_77 +Miro GenBank CDS 48497 48781 . + 1 Alias=Miro_77;ID=Miro_77.CDS;Name=Miro_77;Parent=Miro_77;obsolete_name=Miro_087;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 48485 48488 . + 1 ID=Miro_77.RBS;Name=Miro_77;Parent=Miro_77 +Miro feature gene 45718 46265 . + . ID=Miro_70 +Miro GenBank CDS 45729 46265 . + 1 Alias=Miro_70;ID=Miro_70.CDS;Name=Miro_70;Note=contains AP2/ERF domain;Parent=Miro_70;obsolete_name=Miro_094;product=homing endonuclease +Miro GenBank Shine_Dalgarno_sequence 45718 45721 . + 1 ID=Miro_70.RBS;Name=Miro_70;Parent=Miro_70 +Miro feature gene 46221 46569 . + . ID=Miro_71 +Miro GenBank CDS 46234 46569 . + 1 Alias=Miro_71;ID=Miro_71.CDS;Name=Miro_71;Note=T4 PseT.3-like;Parent=Miro_71;obsolete_name=Miro_093;product=i-spanin;tmhelix=1 TMD %2815-33%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 46221 46224 . + 1 ID=Miro_71.RBS;Name=Miro_71;Parent=Miro_71 +Miro feature gene 46553 46883 . + . ID=Miro_72 +Miro GenBank CDS 46566 46883 . + 1 Alias=Miro_72;ID=Miro_72.CDS;Name=Miro_72;Note=T4 PseT.2-like;Parent=Miro_72;obsolete_name=Miro_092;product=o-spanin;signal=signal peptidase II cleavage site 16-17 +Miro GenBank Shine_Dalgarno_sequence 46553 46556 . + 1 ID=Miro_72.RBS;Name=Miro_72;Parent=Miro_72 +Miro feature gene 46854 47035 . + . ID=Miro_73 +Miro GenBank CDS 46868 47035 . + 1 Alias=Miro_73;ID=Miro_73.CDS;Name=Miro_73;Parent=Miro_73;obsolete_name=Miro_091;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 46854 46856 . + 1 ID=Miro_73.RBS;Name=Miro_73;Parent=Miro_73 +Miro feature gene 90380 90770 . - . ID=Miro_161 +Miro GenBank CDS 90380 90760 . - 1 ID=Miro_161.CDS;Name=Miro_161;Parent=Miro_161;obsolete_name=Miro_003;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 90767 90770 . - 1 Alias=Miro_161;ID=Miro_161.RBS;Name=Miro_161;Parent=Miro_161 +Miro feature gene 90052 90410 . - . ID=Miro_160 +Miro GenBank CDS 90052 90399 . - 1 ID=Miro_160.CDS;Name=Miro_160;Parent=Miro_160;obsolete_name=Miro_004;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 90406 90410 . - 1 Alias=Miro_160;ID=Miro_160.RBS;Name=Miro_160;Parent=Miro_160 +Miro feature gene 91043 92201 . - . ID=Miro_163 +Miro GenBank CDS 91043 92197 . - 1 ID=Miro_163.CDS;Name=Miro_163;Note=contains 4Fe4S-binding SPASM domain;Parent=Miro_163;obsolete_name=Miro_001;product=radical SAM superfamily protein +Miro GenBank Shine_Dalgarno_sequence 92198 92201 . + 1 Alias=Miro_163;ID=Miro_163.RBS;Name=Miro_163;Parent=Miro_163 +Miro feature gene 100922 101554 . - . ID=Miro_187 +Miro GenBank CDS 100922 101545 . - 1 ID=Miro_187.CDS;Name=Miro_187;Parent=Miro_187;obsolete_name=Miro_253;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 101551 101554 . - 1 Alias=Miro_187;ID=Miro_187.RBS;Name=Miro_187;Parent=Miro_187 +Miro feature gene 100375 100923 . - . ID=Miro_186 +Miro GenBank CDS 100375 100914 . - 1 ID=Miro_186.CDS;Name=Miro_186;Parent=Miro_186;obsolete_name=Miro_254;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 100920 100923 . - 1 Alias=Miro_186;ID=Miro_186.RBS;Name=Miro_186;Parent=Miro_186 +Miro feature gene 100169 100320 . - . ID=Miro_185 +Miro GenBank CDS 100169 100309 . - 1 ID=Miro_185.CDS;Name=Miro_185;Parent=Miro_185;obsolete_name=Miro_255;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 100315 100320 . - 1 Alias=Miro_185;ID=Miro_185.RBS;Name=Miro_185;Parent=Miro_185 +Miro feature gene 90744 91055 . - . ID=Miro_162 +Miro GenBank CDS 90744 91046 . - 1 ID=Miro_162.CDS;Name=Miro_162;Parent=Miro_162;obsolete_name=Miro_002;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 91053 91055 . - 1 Alias=Miro_162;ID=Miro_162.RBS;Name=Miro_162;Parent=Miro_162 +Miro feature gene 99593 99940 . - . ID=Miro_183 +Miro GenBank CDS 99593 99928 . - 1 ID=Miro_183.CDS;Name=Miro_183;Note=contains heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_183;obsolete_name=Miro_257;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 99938 99940 . - 1 Alias=Miro_183;ID=Miro_183.RBS;Name=Miro_183;Parent=Miro_183 +Miro feature gene 99303 99611 . - . ID=Miro_182 +Miro GenBank CDS 99303 99596 . - 1 ID=Miro_182.CDS;Name=Miro_182;Parent=Miro_182;obsolete_name=Miro_258;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 99609 99611 . - 1 Alias=Miro_182;ID=Miro_182.RBS;Name=Miro_182;Parent=Miro_182 +Miro feature gene 99059 99328 . - . ID=Miro_181 +Miro GenBank CDS 99059 99310 . - 1 ID=Miro_181.CDS;Name=Miro_181;Parent=Miro_181;obsolete_name=Miro_259;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 99325 99328 . - 1 Alias=Miro_181;ID=Miro_181.RBS;Name=Miro_181;Parent=Miro_181 +Miro feature gene 98817 99074 . - . ID=Miro_180 +Miro GenBank CDS 98817 99062 . - 1 ID=Miro_180.CDS;Name=Miro_180;Parent=Miro_180;obsolete_name=Miro_260;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 99072 99074 . - 1 Alias=Miro_180;ID=Miro_180.RBS;Name=Miro_180;Parent=Miro_180 +Miro feature gene 92931 93195 . - . ID=Miro_165 +Miro GenBank CDS 92931 93185 . - 1 ID=Miro_165.CDS;Name=Miro_165;Parent=Miro_165;obsolete_name=Miro_275;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 93192 93195 . - 1 Alias=Miro_165;ID=Miro_165.RBS;Name=Miro_165;Parent=Miro_165 +Miro feature gene 101872 102579 . - . ID=Miro_189 +Miro GenBank CDS 101872 102567 . - 1 ID=Miro_189.CDS;Name=Miro_189;Note=contains P-loop NTPase domain;Parent=Miro_189;obsolete_name=Miro_251;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 102577 102579 . - 1 Alias=Miro_189;ID=Miro_189.RBS;Name=Miro_189;Parent=Miro_189 +Miro feature gene 92203 92938 . + . ID=Miro_164 +Miro GenBank CDS 92210 92938 . + 1 Alias=Miro_164;ID=Miro_164.CDS;Name=Miro_164;Parent=Miro_164;obsolete_name=Miro_276;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 92203 92206 . - 1 ID=Miro_164.RBS;Name=Miro_164;Parent=Miro_164 +Miro feature gene 93449 93607 . - . ID=Miro_167 +Miro GenBank CDS 93449 93595 . - 1 ID=Miro_167.CDS;Name=Miro_167;Parent=Miro_167;obsolete_name=Miro_273;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 93605 93607 . - 1 Alias=Miro_167;ID=Miro_167.RBS;Name=Miro_167;Parent=Miro_167 +Miro feature gene 121485 123247 . + . ID=Miro_205 +Miro GenBank CDS 121496 123247 . + 1 Alias=Miro_205;ID=Miro_205.CDS;Name=Miro_205;Note=T4 fibritin-like;Parent=Miro_205;obsolete_name=Miro_235;product=neck whisker protein +Miro GenBank Shine_Dalgarno_sequence 121485 121489 . + 1 ID=Miro_205.RBS;Name=Miro_205;Parent=Miro_205 +Miro feature gene 93252 93463 . - . ID=Miro_166 +Miro GenBank CDS 93252 93452 . - 1 ID=Miro_166.CDS;Name=Miro_166;Parent=Miro_166;obsolete_name=Miro_274;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 93461 93463 . - 1 Alias=Miro_166;ID=Miro_166.RBS;Name=Miro_166;Parent=Miro_166 +Miro feature gene 30315 30571 . - . ID=Miro_49 +Miro GenBank CDS 30315 30560 . - 1 ID=Miro_49.CDS;Name=Miro_49;Parent=Miro_49;obsolete_name=Miro_115;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 30569 30571 . - 1 Alias=Miro_49;ID=Miro_49.RBS;Name=Miro_49;Parent=Miro_49 +Miro feature gene 29659 30330 . - . ID=Miro_48 +Miro GenBank CDS 29659 30318 . - 1 ID=Miro_48.CDS;Name=Miro_48;Note=T4 gp59-like;Parent=Miro_48;obsolete_name=Miro_116;product=helicase assembly protein +Miro GenBank Shine_Dalgarno_sequence 30328 30330 . - 1 Alias=Miro_48;ID=Miro_48.RBS;Name=Miro_48;Parent=Miro_48 +Miro GenBank DNA 1 176055 . . 1 Alias=Miro;ID=Miro;Name=Miro;date=01-JAN-1980 +Miro feature gene 70714 71046 . - . ID=Miro_118 +Miro GenBank CDS 70714 71034 . - 1 ID=Miro_118.CDS;Name=Miro_118;Parent=Miro_118;obsolete_name=Miro_046;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 71044 71046 . - 1 Alias=Miro_118;ID=Miro_118.RBS;Name=Miro_118;Parent=Miro_118 +Miro feature gene 71034 71561 . - . ID=Miro_119 +Miro GenBank CDS 71034 71549 . - 1 ID=Miro_119.CDS;Name=Miro_119;Parent=Miro_119;obsolete_name=Miro_045;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 71558 71561 . - 1 Alias=Miro_119;ID=Miro_119.RBS;Name=Miro_119;Parent=Miro_119 +Miro feature gene 25310 25609 . - . ID=Miro_41 +Miro GenBank CDS 25310 25597 . - 1 ID=Miro_41.CDS;Name=Miro_41;Parent=Miro_41;obsolete_name=Miro_123;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 25606 25609 . - 1 Alias=Miro_41;ID=Miro_41.RBS;Name=Miro_41;Parent=Miro_41 +Miro feature gene 24984 25325 . - . ID=Miro_40 +Miro GenBank CDS 24984 25313 . - 1 ID=Miro_40.CDS;Name=Miro_40;Parent=Miro_40;obsolete_name=Miro_124;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 25321 25325 . - 1 Alias=Miro_40;ID=Miro_40.RBS;Name=Miro_40;Parent=Miro_40 +Miro feature gene 26032 26607 . - . ID=Miro_43 +Miro GenBank CDS 26032 26595 . - 1 ID=Miro_43.CDS;Name=Miro_43;Parent=Miro_43;obsolete_name=Miro_121;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 26603 26607 . - 1 Alias=Miro_43;ID=Miro_43.RBS;Name=Miro_43;Parent=Miro_43 +Miro feature gene 25666 26036 . - . ID=Miro_42 +Miro GenBank CDS 25666 26028 . - 1 ID=Miro_42.CDS;Name=Miro_42;Note=T4 RegA-like;Parent=Miro_42;obsolete_name=Miro_122;product=translational repressor protein +Miro GenBank Shine_Dalgarno_sequence 26034 26036 . - 1 Alias=Miro_42;ID=Miro_42.RBS;Name=Miro_42;Parent=Miro_42 +Miro feature gene 27655 28329 . - . ID=Miro_45 +Miro GenBank CDS 27655 28320 . - 1 ID=Miro_45.CDS;Name=Miro_45;Note=T4-like;Parent=Miro_45;obsolete_name=Miro_119;product=DNA polymerase processivity component +Miro GenBank Shine_Dalgarno_sequence 28327 28329 . - 1 Alias=Miro_45;ID=Miro_45.RBS;Name=Miro_45;Parent=Miro_45 +Miro feature gene 26598 27605 . - . ID=Miro_44 +Miro GenBank CDS 26598 27596 . - 1 ID=Miro_44.CDS;Name=Miro_44;Note=T4 gp44-like;Parent=Miro_44;obsolete_name=Miro_120;product=sliding-clamp-loader subunit +Miro GenBank Shine_Dalgarno_sequence 27602 27605 . - 1 Alias=Miro_44;ID=Miro_44.RBS;Name=Miro_44;Parent=Miro_44 +Miro feature gene 28672 29656 . - . ID=Miro_47 +Miro GenBank CDS 28672 29643 . - 1 ID=Miro_47.CDS;Name=Miro_47;Note=T4 gp32-like;Parent=Miro_47;obsolete_name=Miro_117;product=ssDNA-binding protein +Miro GenBank Shine_Dalgarno_sequence 29654 29656 . - 1 Alias=Miro_47;ID=Miro_47.RBS;Name=Miro_47;Parent=Miro_47 +Miro feature gene 28347 28628 . - . ID=Miro_46 +Miro GenBank CDS 28347 28616 . - 1 ID=Miro_46.CDS;Name=Miro_46;Note=T4-like;Parent=Miro_46;obsolete_name=Miro_118;product=RNA polymerase binding protein +Miro GenBank Shine_Dalgarno_sequence 28626 28628 . - 1 Alias=Miro_46;ID=Miro_46.RBS;Name=Miro_46;Parent=Miro_46 +Miro feature gene 159724 160702 . + . ID=Miro_258 +Miro GenBank CDS 159737 160702 . + 1 Alias=Miro_258;ID=Miro_258.CDS;Name=Miro_258;Parent=Miro_258;obsolete_name=Miro_182;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 159724 159726 . + 1 ID=Miro_258.RBS;Name=Miro_258;Parent=Miro_258 +Miro feature gene 165793 166927 . + . ID=Miro_263 +Miro GenBank CDS 165803 166927 . + 1 Alias=Miro_263;ID=Miro_263.CDS;Name=Miro_263;Parent=Miro_263;obsolete_name=Miro_177;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 165793 165796 . + 1 ID=Miro_263.RBS;Name=Miro_263;Parent=Miro_263 +Miro feature gene 126351 128186 . + . ID=Miro_210 +Miro GenBank CDS 126366 128186 . + 1 Alias=Miro_210;ID=Miro_210.CDS;Name=Miro_210;Note=T4 gp17-like;Parent=Miro_210;obsolete_name=Miro_230;product=terminase%2C large subunit +Miro GenBank Shine_Dalgarno_sequence 126351 126353 . + 1 ID=Miro_210.RBS;Name=Miro_210;Parent=Miro_210 +Miro feature gene 34191 34491 . + . ID=Miro_56 +Miro GenBank CDS 34204 34491 . + 1 Alias=Miro_56;ID=Miro_56.CDS;Name=Miro_56;Parent=Miro_56;obsolete_name=Miro_108;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 34191 34195 . + 1 ID=Miro_56.RBS;Name=Miro_56;Parent=Miro_56 +Miro feature gene 34465 36172 . + . ID=Miro_57 +Miro GenBank CDS 34475 36172 . + 1 Alias=Miro_57;ID=Miro_57.CDS;Name=Miro_57;Parent=Miro_57;obsolete_name=Miro_107;product=methyl methanesulphonate-sensitivity protein +Miro GenBank Shine_Dalgarno_sequence 34465 34468 . + 1 ID=Miro_57.RBS;Name=Miro_57;Parent=Miro_57 +Miro feature gene 32797 33134 . + . ID=Miro_54 +Miro GenBank CDS 32808 33134 . + 1 Alias=Miro_54;ID=Miro_54.CDS;Name=Miro_54;Parent=Miro_54;obsolete_name=Miro_110;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 32797 32800 . + 1 ID=Miro_54.RBS;Name=Miro_54;Parent=Miro_54 +Miro feature gene 33173 34217 . + . ID=Miro_55 +Miro GenBank CDS 33186 34217 . + 1 Alias=Miro_55;ID=Miro_55.CDS;Name=Miro_55;Note=T4 exonuclease subunit 1-like;Parent=Miro_55;obsolete_name=Miro_109;product=exonuclease +Miro GenBank Shine_Dalgarno_sequence 33173 33175 . + 1 ID=Miro_55.RBS;Name=Miro_55;Parent=Miro_55 +Miro feature gene 32068 32603 . + . ID=Miro_52 +Miro GenBank CDS 32076 32603 . + 1 Alias=Miro_52;ID=Miro_52.CDS;Name=Miro_52;Parent=Miro_52;obsolete_name=Miro_112;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 32068 32070 . + 1 ID=Miro_52.RBS;Name=Miro_52;Parent=Miro_52 +Miro feature gene 32588 32815 . + . ID=Miro_53 +Miro GenBank CDS 32600 32815 . + 1 Alias=Miro_53;ID=Miro_53.CDS;Name=Miro_53;Parent=Miro_53;obsolete_name=Miro_111;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 32588 32590 . + 1 ID=Miro_53.RBS;Name=Miro_53;Parent=Miro_53 +Miro feature gene 30564 30838 . - . ID=Miro_50 +Miro GenBank CDS 30564 30827 . - 1 ID=Miro_50.CDS;Name=Miro_50;Note=T4-like;Parent=Miro_50;obsolete_name=Miro_114;product=dsDNA-binding protein +Miro GenBank Shine_Dalgarno_sequence 30834 30838 . - 1 Alias=Miro_50;ID=Miro_50.RBS;Name=Miro_50;Parent=Miro_50 +Miro feature gene 30837 31781 . - . ID=Miro_51 +Miro GenBank CDS 30837 31772 . - 1 ID=Miro_51.CDS;Name=Miro_51;Note=T4 RNase H-like;Parent=Miro_51;obsolete_name=Miro_113;product=5%27-3%27 exonuclease +Miro GenBank Shine_Dalgarno_sequence 31778 31781 . - 1 Alias=Miro_51;ID=Miro_51.RBS;Name=Miro_51;Parent=Miro_51 +Miro feature gene 36162 36363 . + . ID=Miro_58 +Miro GenBank CDS 36172 36363 . + 1 Alias=Miro_58;ID=Miro_58.CDS;Name=Miro_58;Parent=Miro_58;obsolete_name=Miro_106;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 36162 36166 . + 1 ID=Miro_58.RBS;Name=Miro_58;Parent=Miro_58 +Miro feature gene 36425 38146 . + . ID=Miro_59 +Miro GenBank CDS 36437 38146 . + 1 Alias=Miro_59;ID=Miro_59.CDS;Name=Miro_59;Note=contains DNAJ domain;Parent=Miro_59;obsolete_name=Miro_105;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 36425 36428 . + 1 ID=Miro_59.RBS;Name=Miro_59;Parent=Miro_59 +Miro feature gene 65396 65799 . + . ID=Miro_109 +Miro GenBank CDS 65407 65799 . + 1 Alias=Miro_109;ID=Miro_109.CDS;Name=Miro_109;Note=T4-like;Parent=Miro_109;obsolete_name=Miro_055;product=tail lysozyme +Miro GenBank Shine_Dalgarno_sequence 65396 65399 . + 1 ID=Miro_109.RBS;Name=Miro_109;Parent=Miro_109 +Miro feature gene 64840 65406 . + . ID=Miro_108 +Miro GenBank CDS 64852 65406 . + 1 Alias=Miro_108;ID=Miro_108.CDS;Name=Miro_108;Note=T4 gp26/gp51-like;Parent=Miro_108;obsolete_name=Miro_056;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 64840 64843 . + 1 ID=Miro_108.RBS;Name=Miro_108;Parent=Miro_108 +Miro feature gene 64103 64855 . + . ID=Miro_107 +Miro GenBank CDS 64112 64855 . + 1 Alias=Miro_107;ID=Miro_107.CDS;Name=Miro_107;Note=T4 gp26/gp51-like;Parent=Miro_107;obsolete_name=Miro_057;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 64103 64106 . + 1 ID=Miro_107.RBS;Name=Miro_107;Parent=Miro_107 +Miro feature gene 63210 64083 . + . ID=Miro_106 +Miro GenBank CDS 63220 64083 . + 1 Alias=Miro_106;ID=Miro_106.CDS;Name=Miro_106;Note=T4 gp19-like;Parent=Miro_106;obsolete_name=Miro_058;product=tail tube protein +Miro GenBank Shine_Dalgarno_sequence 63210 63214 . + 1 ID=Miro_106.RBS;Name=Miro_106;Parent=Miro_106 +Miro feature gene 62126 63210 . + . ID=Miro_105 +Miro GenBank CDS 62137 63210 . + 1 Alias=Miro_105;ID=Miro_105.CDS;Name=Miro_105;Note=T4 gp48-like;Parent=Miro_105;obsolete_name=Miro_059;product=tail tube assembly protein +Miro GenBank Shine_Dalgarno_sequence 62126 62129 . + 1 ID=Miro_105.RBS;Name=Miro_105;Parent=Miro_105 +Miro feature gene 60343 62126 . + . ID=Miro_104 +Miro GenBank CDS 60354 62126 . + 1 Alias=Miro_104;ID=Miro_104.CDS;Name=Miro_104;Parent=Miro_104;obsolete_name=Miro_060;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 60343 60345 . + 1 ID=Miro_104.RBS;Name=Miro_104;Parent=Miro_104 +Miro feature gene 59767 60351 . + . ID=Miro_103 +Miro GenBank CDS 59776 60351 . + 1 Alias=Miro_103;ID=Miro_103.CDS;Name=Miro_103;Note=T4 gp28-like;Parent=Miro_103;obsolete_name=Miro_061;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 59767 59770 . + 1 ID=Miro_103.RBS;Name=Miro_103;Parent=Miro_103 +Miro feature gene 58597 59719 . - . ID=Miro_102 +Miro GenBank CDS 58597 59706 . - 1 ID=Miro_102.CDS;Name=Miro_102;Note=T4 gp27-like;Parent=Miro_102;obsolete_name=Miro_062;product=baseplate structural protein +Miro GenBank Shine_Dalgarno_sequence 59714 59719 . - 1 Alias=Miro_102;ID=Miro_102.RBS;Name=Miro_102;Parent=Miro_102 +Miro feature gene 58210 58600 . + . ID=Miro_101 +Miro GenBank CDS 58223 58600 . + 1 Alias=Miro_101;ID=Miro_101.CDS;Name=Miro_101;Parent=Miro_101;obsolete_name=Miro_063;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 58210 58213 . + 1 ID=Miro_101.RBS;Name=Miro_101;Parent=Miro_101 +Miro feature gene 57934 58236 . + . ID=Miro_100 +Miro GenBank CDS 57946 58236 . + 1 Alias=Miro_100;ID=Miro_100.CDS;Name=Miro_100;Parent=Miro_100;obsolete_name=Miro_064;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 57934 57936 . + 1 ID=Miro_100.RBS;Name=Miro_100;Parent=Miro_100 +Miro feature gene 142768 143313 . + . ID=Miro_228 +Miro GenBank CDS 142780 143313 . + 1 Alias=Miro_228;ID=Miro_228.CDS;Name=Miro_228;Note=contains Ig-like fold;Parent=Miro_228;obsolete_name=Miro_212;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 142768 142772 . + 1 ID=Miro_228.RBS;Name=Miro_228;Parent=Miro_228 +Miro feature gene 143314 143599 . + . ID=Miro_229 +Miro GenBank CDS 143324 143599 . + 1 Alias=Miro_229;ID=Miro_229.CDS;Name=Miro_229;Parent=Miro_229;obsolete_name=Miro_211;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 143314 143317 . + 1 ID=Miro_229.RBS;Name=Miro_229;Parent=Miro_229 +Miro feature gene 138844 139028 . + . ID=Miro_222 +Miro GenBank CDS 138852 139028 . + 1 Alias=Miro_222;ID=Miro_222.CDS;Name=Miro_222;Parent=Miro_222;obsolete_name=Miro_218;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 138844 138846 . + 1 ID=Miro_222.RBS;Name=Miro_222;Parent=Miro_222 +Miro feature gene 139303 139545 . - . ID=Miro_223 +Miro GenBank CDS 139303 139536 . - 1 ID=Miro_223.CDS;Name=Miro_223;Note=T4 UvsW-like;Parent=Miro_223;obsolete_name=Miro_217;product=ATP-dependent DNA helicase +Miro GenBank Shine_Dalgarno_sequence 139542 139545 . - 1 Alias=Miro_223;ID=Miro_223.RBS;Name=Miro_223;Parent=Miro_223 +Miro feature gene 136828 138128 . + . ID=Miro_220 +Miro GenBank CDS 136839 138128 . + 1 Alias=Miro_220;ID=Miro_220.CDS;Name=Miro_220;Note=T4 gp23/gp24-like;Parent=Miro_220;obsolete_name=Miro_220;product=major capsid protein +Miro GenBank Shine_Dalgarno_sequence 136828 136831 . + 1 ID=Miro_220.RBS;Name=Miro_220;Parent=Miro_220 +Miro feature gene 138424 138852 . + . ID=Miro_221 +Miro GenBank CDS 138433 138852 . + 1 Alias=Miro_221;ID=Miro_221.CDS;Name=Miro_221;Parent=Miro_221;obsolete_name=Miro_219;product=UvsY recombination protein +Miro GenBank Shine_Dalgarno_sequence 138424 138426 . + 1 ID=Miro_221.RBS;Name=Miro_221;Parent=Miro_221 +Miro feature gene 141819 142142 . + . ID=Miro_226 +Miro GenBank CDS 141831 142142 . + 1 Alias=Miro_226;ID=Miro_226.CDS;Name=Miro_226;Parent=Miro_226;obsolete_name=Miro_214;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 141819 141822 . + 1 ID=Miro_226.RBS;Name=Miro_226;Parent=Miro_226 +Miro feature gene 142173 142751 . + . ID=Miro_227 +Miro GenBank CDS 142182 142751 . + 1 Alias=Miro_227;ID=Miro_227.CDS;Name=Miro_227;Note=contains heat shock protein DNAJ domain;Parent=Miro_227;obsolete_name=Miro_213;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 142173 142176 . + 1 ID=Miro_227.RBS;Name=Miro_227;Parent=Miro_227 +Miro feature gene 139545 141056 . - . ID=Miro_224 +Miro GenBank CDS 139545 141044 . - 1 ID=Miro_224.CDS;Name=Miro_224;Note=contains helicase superfamily and ATP-binding domains;Parent=Miro_224;obsolete_name=Miro_216;product=DNA helicase +Miro GenBank Shine_Dalgarno_sequence 141053 141056 . - 1 Alias=Miro_224;ID=Miro_224.RBS;Name=Miro_224;Parent=Miro_224 +Miro feature gene 141104 141738 . + . ID=Miro_225 +Miro GenBank CDS 141115 141738 . + 1 Alias=Miro_225;ID=Miro_225.CDS;Name=Miro_225;Parent=Miro_225;obsolete_name=Miro_215;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 141104 141107 . + 1 ID=Miro_225.RBS;Name=Miro_225;Parent=Miro_225 +Miro feature gene 154043 154534 . + . ID=Miro_248 +Miro GenBank CDS 154052 154534 . + 1 Alias=Miro_248;ID=Miro_248.CDS;Name=Miro_248;Note=T4 gp49-like;Parent=Miro_248;obsolete_name=Miro_192;product=recombination endonuclease +Miro GenBank Shine_Dalgarno_sequence 154043 154045 . + 1 ID=Miro_248.RBS;Name=Miro_248;Parent=Miro_248 +Miro feature gene 154521 154857 . + . ID=Miro_249 +Miro GenBank CDS 154531 154857 . + 1 Alias=Miro_249;ID=Miro_249.CDS;Name=Miro_249;Parent=Miro_249;obsolete_name=Miro_191;product=hypothetical novel +Miro GenBank Shine_Dalgarno_sequence 154521 154523 . + 1 ID=Miro_249.RBS;Name=Miro_249;Parent=Miro_249 +Miro feature gene 149229 149828 . + . ID=Miro_240 +Miro GenBank CDS 149247 149828 . + 1 Alias=Miro_240;ID=Miro_240.CDS;Name=Miro_240;Parent=Miro_240;obsolete_name=Miro_200;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 149229 149232 . + 1 ID=Miro_240.RBS;Name=Miro_240;Parent=Miro_240 +Miro feature gene 149813 150346 . + . ID=Miro_241 +Miro GenBank CDS 149822 150346 . + 1 Alias=Miro_241;ID=Miro_241.CDS;Name=Miro_241;Parent=Miro_241;obsolete_name=Miro_199;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 149813 149815 . + 1 ID=Miro_241.RBS;Name=Miro_241;Parent=Miro_241 +Miro feature gene 150412 150684 . + . ID=Miro_242 +Miro GenBank CDS 150424 150684 . + 1 Alias=Miro_242;ID=Miro_242.CDS;Name=Miro_242;Parent=Miro_242;obsolete_name=Miro_198;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 150412 150415 . + 1 ID=Miro_242.RBS;Name=Miro_242;Parent=Miro_242 +Miro feature gene 150684 151143 . + . ID=Miro_243 +Miro GenBank CDS 150694 151143 . + 1 Alias=Miro_243;ID=Miro_243.CDS;Name=Miro_243;Parent=Miro_243;obsolete_name=Miro_197;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 150684 150687 . + 1 ID=Miro_243.RBS;Name=Miro_243;Parent=Miro_243 +Miro feature gene 151160 152604 . + . ID=Miro_244 +Miro GenBank CDS 151171 152604 . + 1 Alias=Miro_244;ID=Miro_244.CDS;Name=Miro_244;Note=contains quinolinate phosphoribosyl transferase domain;Parent=Miro_244;obsolete_name=Miro_196;product=nicotinamide phosphoribosyl transferase +Miro GenBank Shine_Dalgarno_sequence 151160 151163 . + 1 ID=Miro_244.RBS;Name=Miro_244;Parent=Miro_244 +Miro feature gene 152576 152893 . + . ID=Miro_245 +Miro GenBank CDS 152591 152893 . + 1 Alias=Miro_245;ID=Miro_245.CDS;Name=Miro_245;Parent=Miro_245;obsolete_name=Miro_195;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 152576 152579 . + 1 ID=Miro_245.RBS;Name=Miro_245;Parent=Miro_245 +Miro feature gene 153004 153741 . + . ID=Miro_246 +Miro GenBank CDS 153016 153741 . + 1 Alias=Miro_246;ID=Miro_246.CDS;Name=Miro_246;Note=T4-like;Parent=Miro_246;obsolete_name=Miro_194;product=DNA adenine methylase +Miro GenBank Shine_Dalgarno_sequence 153004 153006 . + 1 ID=Miro_246.RBS;Name=Miro_246;Parent=Miro_246 +Miro feature gene 153741 154019 . + . ID=Miro_247 +Miro GenBank CDS 153750 154019 . + 1 Alias=Miro_247;ID=Miro_247.CDS;Name=Miro_247;Note=T4 NrdC-like;Parent=Miro_247;obsolete_name=Miro_193;product=glutaredoxin +Miro GenBank Shine_Dalgarno_sequence 153741 153744 . + 1 ID=Miro_247.RBS;Name=Miro_247;Parent=Miro_247 + +Miro feature gene 12732 14075 . - . ID=Miro_23 +Miro GenBank CDS 12732 14060 . - 1 ID=Miro_23.CDS;Name=Miro_23;Note=contains P-loop containing nucleoside triphosphate hydrolase domain;Parent=Miro_23;obsolete_name=Miro_141;product=DNA helicase +Miro GenBank Shine_Dalgarno_sequence 14073 14075 . - 1 Alias=Miro_23;ID=Miro_23.RBS;Name=Miro_23;Parent=Miro_23 + +Miro feature gene 12399 12716 . - . ID=Miro_22 +Miro GenBank CDS 12399 12707 . - 1 ID=Miro_22.CDS;Name=Miro_22;Parent=Miro_22;obsolete_name=Miro_142;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 12713 12716 . - 1 Alias=Miro_22;ID=Miro_22.RBS;Name=Miro_22;Parent=Miro_22 +Miro feature gene 12114 12410 . - . ID=Miro_21 +Miro GenBank CDS 12114 12398 . - 1 ID=Miro_21.CDS;Name=Miro_21;Parent=Miro_21;obsolete_name=Miro_143;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 12407 12410 . - 1 Alias=Miro_21;ID=Miro_21.RBS;Name=Miro_21;Parent=Miro_21 +Miro feature gene 11728 12126 . - . ID=Miro_20 +Miro GenBank CDS 11728 12117 . - 1 ID=Miro_20.CDS;Name=Miro_20;Parent=Miro_20;obsolete_name=Miro_144;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 12123 12126 . - 1 Alias=Miro_20;ID=Miro_20.RBS;Name=Miro_20;Parent=Miro_20 +Miro feature gene 15073 16108 . - . ID=Miro_27 +Miro GenBank CDS 15073 16098 . - 1 ID=Miro_27.CDS;Name=Miro_27;Note=T4-like;Parent=Miro_27;obsolete_name=Miro_137;product=DNA primase +Miro GenBank Shine_Dalgarno_sequence 16104 16108 . - 1 Alias=Miro_27;ID=Miro_27.RBS;Name=Miro_27;Parent=Miro_27 +Miro feature gene 14529 15074 . - . ID=Miro_26 +Miro GenBank CDS 14529 15065 . - 1 ID=Miro_26.CDS;Name=Miro_26;Parent=Miro_26;obsolete_name=Miro_138;product=dCTP pyrophosphatase +Miro GenBank Shine_Dalgarno_sequence 15072 15074 . - 1 Alias=Miro_26;ID=Miro_26.RBS;Name=Miro_26;Parent=Miro_26 +Miro feature gene 14344 14545 . - . ID=Miro_25 +Miro GenBank CDS 14344 14529 . - 1 ID=Miro_25.CDS;Name=Miro_25;Parent=Miro_25;obsolete_name=Miro_139;product=hypothetical conserved;tmhelix=2TMDs %287-29%2C 39-57%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 14543 14545 . - 1 Alias=Miro_25;ID=Miro_25.RBS;Name=Miro_25;Parent=Miro_25 +Miro feature gene 14057 14358 . - . ID=Miro_24 +Miro GenBank CDS 14057 14347 . - 1 ID=Miro_24.CDS;Name=Miro_24;Parent=Miro_24;obsolete_name=Miro_140;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 14355 14358 . - 1 Alias=Miro_24;ID=Miro_24.RBS;Name=Miro_24;Parent=Miro_24 +Miro feature gene 16418 16647 . - . ID=Miro_29 +Miro GenBank CDS 16418 16636 . - 1 ID=Miro_29.CDS;Name=Miro_29;Parent=Miro_29;obsolete_name=Miro_135;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 16644 16647 . - 1 Alias=Miro_29;ID=Miro_29.RBS;Name=Miro_29;Parent=Miro_29 +Miro feature gene 16102 16375 . - . ID=Miro_28 +Miro GenBank CDS 16102 16362 . - 1 ID=Miro_28.CDS;Name=Miro_28;Note=contains zinc finger domain;Parent=Miro_28;obsolete_name=Miro_136;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 16370 16375 . - 1 Alias=Miro_28;ID=Miro_28.RBS;Name=Miro_28;Parent=Miro_28 +Miro feature gene 76662 77733 . - . ID=Miro_132 +Miro GenBank CDS 76662 77723 . - 1 ID=Miro_132.CDS;Name=Miro_132;Parent=Miro_132;obsolete_name=Miro_032;product=NUDIX hydrolase +Miro GenBank Shine_Dalgarno_sequence 77730 77733 . - 1 Alias=Miro_132;ID=Miro_132.RBS;Name=Miro_132;Parent=Miro_132 +Miro feature gene 77900 78824 . - . ID=Miro_133 +Miro GenBank CDS 77900 78814 . - 1 ID=Miro_133.CDS;Name=Miro_133;Parent=Miro_133;obsolete_name=Miro_031;product=hypothetical conserved;signal=signal peptidase I cleavage site 34-35 +Miro GenBank Shine_Dalgarno_sequence 78822 78824 . - 1 Alias=Miro_133;ID=Miro_133.RBS;Name=Miro_133;Parent=Miro_133 +Miro feature gene 76025 76309 . - . ID=Miro_130 +Miro GenBank CDS 76025 76297 . - 1 ID=Miro_130.CDS;Name=Miro_130;Parent=Miro_130;obsolete_name=Miro_034;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 76307 76309 . - 1 Alias=Miro_130;ID=Miro_130.RBS;Name=Miro_130;Parent=Miro_130 +Miro feature gene 76294 76498 . - . ID=Miro_131 +Miro GenBank CDS 76294 76488 . - 1 ID=Miro_131.CDS;Name=Miro_131;Parent=Miro_131;obsolete_name=Miro_033;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 76495 76498 . - 1 Alias=Miro_131;ID=Miro_131.RBS;Name=Miro_131;Parent=Miro_131 +Miro feature gene 79668 80071 . - . ID=Miro_136 +Miro GenBank CDS 79668 80060 . - 1 ID=Miro_136.CDS;Name=Miro_136;Parent=Miro_136;obsolete_name=Miro_028;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 80067 80071 . - 1 Alias=Miro_136;ID=Miro_136.RBS;Name=Miro_136;Parent=Miro_136 +Miro feature gene 80077 80695 . - . ID=Miro_137 +Miro GenBank CDS 80077 80685 . - 1 ID=Miro_137.CDS;Name=Miro_137;Note=contains P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_137;obsolete_name=Miro_027;product=thymidine kinase +Miro GenBank Shine_Dalgarno_sequence 80693 80695 . - 1 Alias=Miro_137;ID=Miro_137.RBS;Name=Miro_137;Parent=Miro_137 +Miro feature gene 78886 79317 . - . ID=Miro_134 +Miro GenBank CDS 78886 79308 . - 1 ID=Miro_134.CDS;Name=Miro_134;Parent=Miro_134;obsolete_name=Miro_030;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 79314 79317 . - 1 Alias=Miro_134;ID=Miro_134.RBS;Name=Miro_134;Parent=Miro_134 +Miro feature gene 79280 79572 . - . ID=Miro_135 +Miro GenBank CDS 79280 79561 . - 1 ID=Miro_135.CDS;Name=Miro_135;Parent=Miro_135;obsolete_name=Miro_029;product=hypothetical conserved;tmhelix=2TMDs %287-24%2C 39-61%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 79570 79572 . - 1 Alias=Miro_135;ID=Miro_135.RBS;Name=Miro_135;Parent=Miro_135 +Miro feature gene 80678 80889 . - . ID=Miro_138 +Miro GenBank CDS 80678 80875 . - 1 ID=Miro_138.CDS;Name=Miro_138;Parent=Miro_138;obsolete_name=Miro_026;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 80886 80889 . - 1 Alias=Miro_138;ID=Miro_138.RBS;Name=Miro_138;Parent=Miro_138 +Miro feature gene 80868 81097 . - . ID=Miro_139 +Miro GenBank CDS 80868 81083 . - 1 ID=Miro_139.CDS;Name=Miro_139;Parent=Miro_139;obsolete_name=Miro_025;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 81095 81097 . - 1 Alias=Miro_139;ID=Miro_139.RBS;Name=Miro_139;Parent=Miro_139 +Miro feature gene 128192 130197 . + . ID=Miro_211 +Miro GenBank CDS 128206 130197 . + 1 Alias=Miro_211;ID=Miro_211.CDS;Name=Miro_211;Note=T4 gp18-like;Parent=Miro_211;obsolete_name=Miro_229;product=tail sheath protein +Miro GenBank Shine_Dalgarno_sequence 128192 128195 . + 1 ID=Miro_211.RBS;Name=Miro_211;Parent=Miro_211 +Miro feature gene 148228 149257 . + . ID=Miro_239 +Miro GenBank CDS 148238 149257 . + 1 Alias=Miro_239;ID=Miro_239.CDS;Name=Miro_239;Note=T4 Rnl2-like;Parent=Miro_239;obsolete_name=Miro_201;product=RNA ligase +Miro GenBank Shine_Dalgarno_sequence 148228 148231 . + 1 ID=Miro_239.RBS;Name=Miro_239;Parent=Miro_239 +Miro feature gene 99939 100090 . - . ID=Miro_184 +Miro GenBank CDS 99939 100079 . - 1 ID=Miro_184.CDS;Name=Miro_184;Parent=Miro_184;obsolete_name=Miro_256;product=hypothetical conserved;tmhelix=1 TMD %2819-41%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 100085 100090 . - 1 Alias=Miro_184;ID=Miro_184.RBS;Name=Miro_184;Parent=Miro_184 +Miro feature gene 146845 147029 . + . ID=Miro_235 +Miro GenBank CDS 146853 147029 . + 1 Alias=Miro_235;ID=Miro_235.CDS;Name=Miro_235;Parent=Miro_235;obsolete_name=Miro_205;product=hypothetical conserved;tmhelix=2TMDs %285-27%2C 31-50%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 146845 146847 . + 1 ID=Miro_235.RBS;Name=Miro_235;Parent=Miro_235 +Miro feature gene 146530 146856 . + . ID=Miro_234 +Miro GenBank CDS 146539 146856 . + 1 Alias=Miro_234;ID=Miro_234.CDS;Name=Miro_234;Parent=Miro_234;obsolete_name=Miro_206;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 146530 146533 . + 1 ID=Miro_234.RBS;Name=Miro_234;Parent=Miro_234 +Miro feature gene 147343 147710 . + . ID=Miro_237 +Miro GenBank CDS 147354 147710 . + 1 Alias=Miro_237;ID=Miro_237.CDS;Name=Miro_237;Parent=Miro_237;obsolete_name=Miro_203;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 147343 147346 . + 1 ID=Miro_237.RBS;Name=Miro_237;Parent=Miro_237 +Miro feature gene 147016 147352 . + . ID=Miro_236 +Miro GenBank CDS 147026 147352 . + 1 Alias=Miro_236;ID=Miro_236.CDS;Name=Miro_236;Parent=Miro_236;obsolete_name=Miro_204;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 147016 147019 . + 1 ID=Miro_236.RBS;Name=Miro_236;Parent=Miro_236 +Miro feature gene 144163 144638 . - . ID=Miro_231 +Miro GenBank CDS 144163 144627 . - 1 ID=Miro_231.CDS;Name=Miro_231;Note=contains HAD-like domain;Parent=Miro_231;obsolete_name=Miro_209;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 144635 144638 . - 1 Alias=Miro_231;ID=Miro_231.RBS;Name=Miro_231;Parent=Miro_231 +Miro feature gene 143604 144131 . + . ID=Miro_230 +Miro GenBank CDS 143613 144131 . + 1 Alias=Miro_230;ID=Miro_230.CDS;Name=Miro_230;Parent=Miro_230;obsolete_name=Miro_210;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 143604 143606 . + 1 ID=Miro_230.RBS;Name=Miro_230;Parent=Miro_230 +Miro feature gene 145620 146506 . + . ID=Miro_233 +Miro GenBank CDS 145631 146506 . + 1 Alias=Miro_233;ID=Miro_233.CDS;Name=Miro_233;Parent=Miro_233;obsolete_name=Miro_207;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 145620 145623 . + 1 ID=Miro_233.RBS;Name=Miro_233;Parent=Miro_233 +Miro feature gene 144677 145528 . - . ID=Miro_232 +Miro GenBank CDS 144677 145516 . - 1 ID=Miro_232.CDS;Name=Miro_232;Note=contains P-loop NTPase and zeta toxin domains;Parent=Miro_232;obsolete_name=Miro_208;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 145525 145528 . - 1 Alias=Miro_232;ID=Miro_232.RBS;Name=Miro_232;Parent=Miro_232 +Miro feature gene 160735 161413 . + . ID=Miro_259 +Miro GenBank CDS 160745 161413 . + 1 Alias=Miro_259;ID=Miro_259.CDS;Name=Miro_259;Parent=Miro_259;obsolete_name=Miro_181;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 160735 160739 . + 1 ID=Miro_259.RBS;Name=Miro_259;Parent=Miro_259 +Miro feature gene 65834 66298 . - . ID=Miro_110 +Miro GenBank CDS 65834 66289 . - 1 ID=Miro_110.CDS;Name=Miro_110;Parent=Miro_110;obsolete_name=Miro_054;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 66295 66298 . - 1 Alias=Miro_110;ID=Miro_110.RBS;Name=Miro_110;Parent=Miro_110 +Miro GenBank CDS 157781 157987 . + 1 ID=Miro_253;Name=Miro_253;obsolete_name=Miro_187;product=hypothetical conserved +Miro feature gene 157275 157781 . + . ID=Miro_252 +Miro GenBank CDS 157287 157781 . + 1 Alias=Miro_252;ID=Miro_252.CDS;Name=Miro_252;Parent=Miro_252;obsolete_name=Miro_188;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 157275 157278 . + 1 ID=Miro_252.RBS;Name=Miro_252;Parent=Miro_252 +Miro feature gene 157033 157287 . + . ID=Miro_251 +Miro GenBank CDS 157045 157287 . + 1 Alias=Miro_251;ID=Miro_251.CDS;Name=Miro_251;Parent=Miro_251;obsolete_name=Miro_189;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 157033 157037 . + 1 ID=Miro_251.RBS;Name=Miro_251;Parent=Miro_251 +Miro feature gene 154844 156977 . + . ID=Miro_250 +Miro GenBank CDS 154854 156977 . + 1 Alias=Miro_250;ID=Miro_250.CDS;Name=Miro_250;Note=T4-like%3B contains glycine radical domain;Parent=Miro_250;obsolete_name=Miro_190;product=anaerobic ribonucleoside-triphosphate reductase +Miro GenBank Shine_Dalgarno_sequence 154844 154846 . + 1 ID=Miro_250.RBS;Name=Miro_250;Parent=Miro_250 +Miro feature gene 159166 159667 . + . ID=Miro_257 +Miro GenBank CDS 159176 159667 . + 1 Alias=Miro_257;ID=Miro_257.CDS;Name=Miro_257;Note=T4 NrdG-like;Parent=Miro_257;obsolete_name=Miro_183;product=ribonucleoside-triphosphate reductase activating protein +Miro GenBank Shine_Dalgarno_sequence 159166 159169 . + 1 ID=Miro_257.RBS;Name=Miro_257;Parent=Miro_257 +Miro feature gene 158528 159179 . + . ID=Miro_256 +Miro GenBank CDS 158538 159179 . + 1 Alias=Miro_256;ID=Miro_256.CDS;Name=Miro_256;Note=contains nuclease associated modular 3 and winged helix-turn-helix DNA-binding domains;Parent=Miro_256;obsolete_name=Miro_184;product=homing endonuclease +Miro GenBank Shine_Dalgarno_sequence 158528 158530 . + 1 ID=Miro_256.RBS;Name=Miro_256;Parent=Miro_256 +Miro feature gene 158309 158511 . + . ID=Miro_255 +Miro GenBank CDS 158320 158511 . + 1 Alias=Miro_255;ID=Miro_255.CDS;Name=Miro_255;Parent=Miro_255;obsolete_name=Miro_185;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 158309 158314 . + 1 ID=Miro_255.RBS;Name=Miro_255;Parent=Miro_255 +Miro feature gene 157997 158259 . + . ID=Miro_254 +Miro GenBank CDS 158008 158259 . + 1 Alias=Miro_254;ID=Miro_254.CDS;Name=Miro_254;Parent=Miro_254;obsolete_name=Miro_186;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 157997 158000 . + 1 ID=Miro_254.RBS;Name=Miro_254;Parent=Miro_254 +Miro feature gene 16633 17132 . - . ID=Miro_30 +Miro GenBank CDS 16633 17121 . - 1 ID=Miro_30.CDS;Name=Miro_30;Note=T4 gp23/gp24-like;Parent=Miro_30;obsolete_name=Miro_134;product=major capsid protein +Miro GenBank Shine_Dalgarno_sequence 17130 17132 . - 1 Alias=Miro_30;ID=Miro_30.RBS;Name=Miro_30;Parent=Miro_30 +Miro feature gene 17127 17819 . - . ID=Miro_31 +Miro GenBank CDS 17127 17813 . - 1 ID=Miro_31.CDS;Name=Miro_31;Note=contains N-6 adenine-specific DNA methylase conserved site;Parent=Miro_31;obsolete_name=Miro_133;product=radical SAM protein +Miro GenBank Shine_Dalgarno_sequence 17817 17819 . - 1 Alias=Miro_31;ID=Miro_31.RBS;Name=Miro_31;Parent=Miro_31 +Miro feature gene 17839 18240 . - . ID=Miro_32 +Miro GenBank CDS 17839 18231 . - 1 ID=Miro_32.CDS;Name=Miro_32;Parent=Miro_32;obsolete_name=Miro_132;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 18237 18240 . - 1 Alias=Miro_32;ID=Miro_32.RBS;Name=Miro_32;Parent=Miro_32 +Miro feature gene 18228 18475 . - . ID=Miro_33 +Miro GenBank CDS 18228 18464 . - 1 ID=Miro_33.CDS;Name=Miro_33;Parent=Miro_33;obsolete_name=Miro_131;product=hypothetical conserved;tmhelix=2TMDs %285-27%2C 38-60%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 18470 18475 . - 1 Alias=Miro_33;ID=Miro_33.RBS;Name=Miro_33;Parent=Miro_33 +Miro feature gene 18556 18822 . - . ID=Miro_34 +Miro GenBank CDS 18556 18810 . - 1 ID=Miro_34.CDS;Name=Miro_34;Parent=Miro_34;obsolete_name=Miro_130;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 18818 18822 . - 1 Alias=Miro_34;ID=Miro_34.RBS;Name=Miro_34;Parent=Miro_34 +Miro feature gene 18889 19168 . - . ID=Miro_35 +Miro GenBank CDS 18889 19158 . - 1 ID=Miro_35.CDS;Name=Miro_35;Parent=Miro_35;obsolete_name=Miro_129;product=hypothetical conserved;tmhelix=2TMDs %287-29%2C 44-66%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 19165 19168 . - 1 Alias=Miro_35;ID=Miro_35.RBS;Name=Miro_35;Parent=Miro_35 +Miro feature gene 19202 20648 . - . ID=Miro_36 +Miro GenBank CDS 19202 20638 . - 1 ID=Miro_36.CDS;Name=Miro_36;Note=T4 gp41-like;Parent=Miro_36;obsolete_name=Miro_128;product=DNA helicase +Miro GenBank Shine_Dalgarno_sequence 20646 20648 . - 1 Alias=Miro_36;ID=Miro_36.RBS;Name=Miro_36;Parent=Miro_36 +Miro feature gene 20648 20978 . - . ID=Miro_37 +Miro GenBank CDS 20648 20968 . - 1 ID=Miro_37.CDS;Name=Miro_37;Note=T4 gp40-like;Parent=Miro_37;obsolete_name=Miro_127;product=head formation protein +Miro GenBank Shine_Dalgarno_sequence 20975 20978 . - 1 Alias=Miro_37;ID=Miro_37.RBS;Name=Miro_37;Parent=Miro_37 +Miro feature gene 21006 22174 . - . ID=Miro_38 +Miro GenBank CDS 21006 22163 . - 1 ID=Miro_38.CDS;Name=Miro_38;Note=T4 RecA-like;Parent=Miro_38;obsolete_name=Miro_126;product=DNA recombination and repair protein;tmhelix=1 TMD %2840-62%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 22172 22174 . - 1 Alias=Miro_38;ID=Miro_38.RBS;Name=Miro_38;Parent=Miro_38 +Miro feature gene 22238 24954 . - . ID=Miro_39 +Miro GenBank CDS 22238 24937 . - 1 ID=Miro_39.CDS;Name=Miro_39;Note=T4 gp43-like;Parent=Miro_39;obsolete_name=Miro_125;product=DNA polymerase +Miro GenBank Shine_Dalgarno_sequence 24951 24954 . - 1 Alias=Miro_39;ID=Miro_39.RBS;Name=Miro_39;Parent=Miro_39 +Miro feature gene 101597 101867 . - . ID=Miro_188 +Miro GenBank CDS 101597 101857 . - 1 ID=Miro_188.CDS;Name=Miro_188;Parent=Miro_188;obsolete_name=Miro_252;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 101864 101867 . - 1 Alias=Miro_188;ID=Miro_188.RBS;Name=Miro_188;Parent=Miro_188 +Miro feature gene 73570 73827 . - . ID=Miro_125 +Miro GenBank CDS 73570 73815 . - 1 ID=Miro_125.CDS;Name=Miro_125;Parent=Miro_125;obsolete_name=Miro_039;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 73823 73827 . - 1 Alias=Miro_125;ID=Miro_125.RBS;Name=Miro_125;Parent=Miro_125 +Miro feature gene 66297 66533 . - . ID=Miro_111 +Miro GenBank CDS 66297 66521 . - 1 ID=Miro_111.CDS;Name=Miro_111;Parent=Miro_111;obsolete_name=Miro_053;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 66530 66533 . - 1 Alias=Miro_111;ID=Miro_111.RBS;Name=Miro_111;Parent=Miro_111 +Miro feature gene 74819 75206 . - . ID=Miro_127 +Miro GenBank CDS 74819 75196 . - 1 ID=Miro_127.CDS;Name=Miro_127;Parent=Miro_127;obsolete_name=Miro_037;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 75203 75206 . - 1 Alias=Miro_127;ID=Miro_127.RBS;Name=Miro_127;Parent=Miro_127 +Miro feature gene 73812 74832 . - . ID=Miro_126 +Miro GenBank CDS 73812 74819 . - 1 ID=Miro_126.CDS;Name=Miro_126;Note=T4 nrdC.11-like;Parent=Miro_126;obsolete_name=Miro_038;product=nucleotidyltransferase +Miro GenBank Shine_Dalgarno_sequence 74829 74832 . - 1 Alias=Miro_126;ID=Miro_126.RBS;Name=Miro_126;Parent=Miro_126 +Miro feature gene 71861 72037 . - . ID=Miro_121 +Miro GenBank CDS 71861 72028 . - 1 ID=Miro_121.CDS;Name=Miro_121;Parent=Miro_121;obsolete_name=Miro_043;product=hypothetical conserved;tmhelix=2TMDs %289-26%2C 30-52%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 72034 72037 . - 1 Alias=Miro_121;ID=Miro_121.RBS;Name=Miro_121;Parent=Miro_121 +Miro feature gene 71577 71871 . - . ID=Miro_120 +Miro GenBank CDS 71577 71861 . - 1 ID=Miro_120.CDS;Name=Miro_120;Parent=Miro_120;obsolete_name=Miro_044;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 71868 71871 . - 1 Alias=Miro_120;ID=Miro_120.RBS;Name=Miro_120;Parent=Miro_120 +Miro feature gene 72390 73331 . - . ID=Miro_123 +Miro GenBank CDS 72390 73316 . - 1 ID=Miro_123.CDS;Name=Miro_123;Note=C-5 cytosine-specific active site;Parent=Miro_123;obsolete_name=Miro_041;product=cytosine-specific methyltransferase +Miro GenBank Shine_Dalgarno_sequence 73329 73331 . - 1 Alias=Miro_123;ID=Miro_123.RBS;Name=Miro_123;Parent=Miro_123 +Miro feature gene 72068 72357 . - . ID=Miro_122 +Miro GenBank CDS 72068 72346 . - 1 ID=Miro_122.CDS;Name=Miro_122;Parent=Miro_122;obsolete_name=Miro_042;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 72354 72357 . - 1 Alias=Miro_122;ID=Miro_122.RBS;Name=Miro_122;Parent=Miro_122 +Miro feature gene 75417 76034 . - . ID=Miro_129 +Miro GenBank CDS 75417 76022 . - 1 ID=Miro_129.CDS;Name=Miro_129;Parent=Miro_129;obsolete_name=Miro_035;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 76031 76034 . - 1 Alias=Miro_129;ID=Miro_129.RBS;Name=Miro_129;Parent=Miro_129 +Miro feature gene 75193 75434 . - . ID=Miro_128 +Miro GenBank CDS 75193 75420 . - 1 ID=Miro_128.CDS;Name=Miro_128;Parent=Miro_128;obsolete_name=Miro_036;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 75430 75434 . - 1 Alias=Miro_128;ID=Miro_128.RBS;Name=Miro_128;Parent=Miro_128 +Miro feature gene 133686 134487 . + . ID=Miro_217 +Miro GenBank CDS 133699 134487 . + 1 Alias=Miro_217;ID=Miro_217.CDS;Name=Miro_217;Parent=Miro_217;obsolete_name=Miro_223;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 133686 133689 . + 1 ID=Miro_217.RBS;Name=Miro_217;Parent=Miro_217 +Miro feature gene 172795 173074 . - . ID=Miro_268 +Miro GenBank CDS 172795 173064 . - 1 ID=Miro_268.CDS;Name=Miro_268;Parent=Miro_268;obsolete_name=Miro_172;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 173071 173074 . - 1 Alias=Miro_268;ID=Miro_268.RBS;Name=Miro_268;Parent=Miro_268 +Miro feature gene 133007 133666 . + . ID=Miro_216 +Miro GenBank CDS 133019 133666 . + 1 Alias=Miro_216;ID=Miro_216.CDS;Name=Miro_216;Note=T4 gp21-like;Parent=Miro_216;obsolete_name=Miro_224;product=prohead core protein protease +Miro GenBank Shine_Dalgarno_sequence 133007 133010 . + 1 ID=Miro_216.RBS;Name=Miro_216;Parent=Miro_216 +Miro feature gene 171490 172030 . + . ID=Miro_266 +Miro GenBank CDS 171503 172030 . + 1 Alias=Miro_266;ID=Miro_266.CDS;Name=Miro_266;Note=T2 gp38-like;Parent=Miro_266;obsolete_name=Miro_174;product=receptor-recognizing protein +Miro GenBank Shine_Dalgarno_sequence 171490 171494 . + 1 ID=Miro_266.RBS;Name=Miro_266;Parent=Miro_266 +Miro feature gene 172135 172794 . + . ID=Miro_267 +Miro GenBank CDS 172147 172794 . + 1 Alias=Miro_267;ID=Miro_267.CDS;Name=Miro_267;Note=T4 gpT-like;Parent=Miro_267;obsolete_name=Miro_173;product=holin;tmhelix=1 TMD %2829-47%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 172135 172137 . + 1 ID=Miro_267.RBS;Name=Miro_267;Parent=Miro_267 +Miro feature gene 166968 167645 . + . ID=Miro_264 +Miro GenBank CDS 166977 167645 . + 1 Alias=Miro_264;ID=Miro_264.CDS;Name=Miro_264;Note=T4 gp36-like;Parent=Miro_264;obsolete_name=Miro_176;product=tail fiber +Miro GenBank Shine_Dalgarno_sequence 166968 166971 . + 1 ID=Miro_264.RBS;Name=Miro_264;Parent=Miro_264 +Miro feature gene 167645 171466 . + . ID=Miro_265 +Miro GenBank CDS 167654 171466 . + 1 Alias=Miro_265;ID=Miro_265.CDS;Name=Miro_265;Parent=Miro_265;obsolete_name=Miro_175;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 167645 167648 . + 1 ID=Miro_265.RBS;Name=Miro_265;Parent=Miro_265 +Miro feature gene 162017 165803 . + . ID=Miro_262 +Miro GenBank CDS 162030 165803 . + 1 Alias=Miro_262;ID=Miro_262.CDS;Name=Miro_262;Parent=Miro_262;obsolete_name=Miro_178;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 162017 162020 . + 1 ID=Miro_262.RBS;Name=Miro_262;Parent=Miro_262 +Miro feature gene 132602 133016 . + . ID=Miro_215 +Miro GenBank CDS 132612 133016 . + 1 Alias=Miro_215;ID=Miro_215.CDS;Name=Miro_215;Note=T4 gp68-like;Parent=Miro_215;obsolete_name=Miro_225;product=prohead core protein +Miro GenBank Shine_Dalgarno_sequence 132602 132606 . + 1 ID=Miro_215.RBS;Name=Miro_215;Parent=Miro_215 +Miro feature gene 161360 161654 . + . ID=Miro_260 +Miro GenBank CDS 161373 161654 . + 1 Alias=Miro_260;ID=Miro_260.CDS;Name=Miro_260;Note=T4 NrdC-like;Parent=Miro_260;obsolete_name=Miro_180;product=glutaredoxin +Miro GenBank Shine_Dalgarno_sequence 161360 161363 . + 1 ID=Miro_260.RBS;Name=Miro_260;Parent=Miro_260 +Miro feature gene 161642 161950 . + . ID=Miro_261 +Miro GenBank CDS 161651 161950 . + 1 Alias=Miro_261;ID=Miro_261.CDS;Name=Miro_261;Note=T4 gp55.2-like;Parent=Miro_261;obsolete_name=Miro_179;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 161642 161645 . + 1 ID=Miro_261.RBS;Name=Miro_261;Parent=Miro_261 +Miro feature gene 132347 132603 . + . ID=Miro_214 +Miro GenBank CDS 132361 132603 . + 1 Alias=Miro_214;ID=Miro_214.CDS;Name=Miro_214;Parent=Miro_214;obsolete_name=Miro_226;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 132347 132350 . + 1 ID=Miro_214.RBS;Name=Miro_214;Parent=Miro_214 +Miro feature gene 130777 132361 . + . ID=Miro_213 +Miro GenBank CDS 130787 132361 . + 1 Alias=Miro_213;ID=Miro_213.CDS;Name=Miro_213;Note=T4 gp20-like;Parent=Miro_213;obsolete_name=Miro_227;product=portal protein +Miro GenBank Shine_Dalgarno_sequence 130777 130780 . + 1 ID=Miro_213.RBS;Name=Miro_213;Parent=Miro_213 +Miro feature gene 147698 148234 . + . ID=Miro_238 +Miro GenBank CDS 147710 148234 . + 1 Alias=Miro_238;ID=Miro_238.CDS;Name=Miro_238;Parent=Miro_238;obsolete_name=Miro_202;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 147698 147701 . + 1 ID=Miro_238.RBS;Name=Miro_238;Parent=Miro_238 +Miro feature gene 130235 130731 . + . ID=Miro_212 +Miro GenBank CDS 130246 130731 . + 1 Alias=Miro_212;ID=Miro_212.CDS;Name=Miro_212;Note=T4 gp19-like;Parent=Miro_212;obsolete_name=Miro_228;product=tail tube protein +Miro GenBank Shine_Dalgarno_sequence 130235 130239 . + 1 ID=Miro_212.RBS;Name=Miro_212;Parent=Miro_212 +Miro feature gene 51892 52172 . + . ID=Miro_85 +Miro GenBank CDS 51903 52172 . + 1 Alias=Miro_85;ID=Miro_85.CDS;Name=Miro_85;Parent=Miro_85;obsolete_name=Miro_079;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 51892 51894 . + 1 ID=Miro_85.RBS;Name=Miro_85;Parent=Miro_85 +Miro feature gene 51531 51903 . + . ID=Miro_84 +Miro GenBank CDS 51541 51903 . + 1 Alias=Miro_84;ID=Miro_84.CDS;Name=Miro_84;Note=T4-like%3B contains glycine radical domain;Parent=Miro_84;obsolete_name=Miro_080;product=autonomous glycyl radical cofactor +Miro GenBank Shine_Dalgarno_sequence 51531 51534 . + 1 ID=Miro_84.RBS;Name=Miro_84;Parent=Miro_84 +Miro feature gene 52585 52833 . + . ID=Miro_87 +Miro GenBank CDS 52594 52833 . + 1 Alias=Miro_87;ID=Miro_87.CDS;Name=Miro_87;Parent=Miro_87;obsolete_name=Miro_077;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 52585 52588 . + 1 ID=Miro_87.RBS;Name=Miro_87;Parent=Miro_87 +Miro feature gene 52286 52591 . + . ID=Miro_86 +Miro GenBank CDS 52298 52591 . + 1 Alias=Miro_86;ID=Miro_86.CDS;Name=Miro_86;Parent=Miro_86;obsolete_name=Miro_078;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 52286 52289 . + 1 ID=Miro_86.RBS;Name=Miro_86;Parent=Miro_86 +Miro feature gene 50203 50493 . + . ID=Miro_81 +Miro GenBank CDS 50212 50493 . + 1 Alias=Miro_81;ID=Miro_81.CDS;Name=Miro_81;Parent=Miro_81;obsolete_name=Miro_083;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 50203 50206 . + 1 ID=Miro_81.RBS;Name=Miro_81;Parent=Miro_81 +Miro feature gene 49635 49896 . + . ID=Miro_80 +Miro GenBank CDS 49645 49896 . + 1 Alias=Miro_80;ID=Miro_80.CDS;Name=Miro_80;Parent=Miro_80;obsolete_name=Miro_084;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 49635 49637 . + 1 ID=Miro_80.RBS;Name=Miro_80;Parent=Miro_80 +Miro feature gene 50955 51530 . + . ID=Miro_83 +Miro GenBank CDS 50964 51530 . + 1 Alias=Miro_83;ID=Miro_83.CDS;Name=Miro_83;Parent=Miro_83;obsolete_name=Miro_081;product=hypothetical conserved;tmhelix=1 TMD %289-31%29 N in%2C C out +Miro GenBank Shine_Dalgarno_sequence 50955 50958 . + 1 ID=Miro_83.RBS;Name=Miro_83;Parent=Miro_83 +Miro feature gene 50495 50922 . + . ID=Miro_82 +Miro GenBank CDS 50503 50922 . + 1 Alias=Miro_82;ID=Miro_82.CDS;Name=Miro_82;Parent=Miro_82;obsolete_name=Miro_082;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 50495 50497 . + 1 ID=Miro_82.RBS;Name=Miro_82;Parent=Miro_82 +Miro feature gene 104839 105703 . - . ID=Miro_193 +Miro GenBank CDS 104839 105693 . - 1 ID=Miro_193.CDS;Name=Miro_193;Parent=Miro_193;obsolete_name=Miro_247;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 105699 105703 . - 1 Alias=Miro_193;ID=Miro_193.RBS;Name=Miro_193;Parent=Miro_193 +Miro feature gene 52974 53137 . + . ID=Miro_89 +Miro GenBank CDS 52985 53137 . + 1 Alias=Miro_89;ID=Miro_89.CDS;Name=Miro_89;Parent=Miro_89;obsolete_name=Miro_075;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 52974 52978 . + 1 ID=Miro_89.RBS;Name=Miro_89;Parent=Miro_89 +Miro feature gene 52806 52988 . + . ID=Miro_88 +Miro GenBank CDS 52818 52988 . + 1 Alias=Miro_88;ID=Miro_88.CDS;Name=Miro_88;Parent=Miro_88;obsolete_name=Miro_076;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 52806 52809 . + 1 ID=Miro_88.RBS;Name=Miro_88;Parent=Miro_88 +Miro feature gene 85193 86549 . - . ID=Miro_150 +Miro GenBank CDS 85193 86539 . - 1 ID=Miro_150.CDS;Name=Miro_150;Note=contains PIN domain and P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_150;obsolete_name=Miro_014;product=PhoH-like protein +Miro GenBank Shine_Dalgarno_sequence 86546 86549 . - 1 Alias=Miro_150;ID=Miro_150.RBS;Name=Miro_150;Parent=Miro_150 +Miro feature gene 86549 87082 . - . ID=Miro_151 +Miro GenBank CDS 86549 87073 . - 1 ID=Miro_151.CDS;Name=Miro_151;Note=contains AP2/ERF domain;Parent=Miro_151;obsolete_name=Miro_013;product=HNH endonuclease +Miro GenBank Shine_Dalgarno_sequence 87079 87082 . - 1 Alias=Miro_151;ID=Miro_151.RBS;Name=Miro_151;Parent=Miro_151 +Miro feature gene 87073 87540 . - . ID=Miro_152 +Miro GenBank CDS 87073 87531 . - 1 ID=Miro_152.CDS;Name=Miro_152;Parent=Miro_152;obsolete_name=Miro_012;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 87537 87540 . - 1 Alias=Miro_152;ID=Miro_152.RBS;Name=Miro_152;Parent=Miro_152 +Miro feature gene 87563 87968 . - . ID=Miro_153 +Miro GenBank CDS 87563 87958 . - 1 ID=Miro_153.CDS;Name=Miro_153;Note=D-alanyl-D-alanine carboxypeptidase;Parent=Miro_153;obsolete_name=Miro_011;product=endolysin +Miro GenBank Shine_Dalgarno_sequence 87964 87968 . - 1 Alias=Miro_153;ID=Miro_153.RBS;Name=Miro_153;Parent=Miro_153 +Miro feature gene 88026 88439 . - . ID=Miro_154 +Miro GenBank CDS 88026 88427 . - 1 ID=Miro_154.CDS;Name=Miro_154;Parent=Miro_154;obsolete_name=Miro_010;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 88436 88439 . - 1 Alias=Miro_154;ID=Miro_154.RBS;Name=Miro_154;Parent=Miro_154 +Miro feature gene 88482 88815 . - . ID=Miro_155 +Miro GenBank CDS 88482 88805 . - 1 ID=Miro_155.CDS;Name=Miro_155;Parent=Miro_155;obsolete_name=Miro_009;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 88812 88815 . - 1 Alias=Miro_155;ID=Miro_155.RBS;Name=Miro_155;Parent=Miro_155 +Miro feature gene 88845 89119 . - . ID=Miro_156 +Miro GenBank CDS 88845 89108 . - 1 ID=Miro_156.CDS;Name=Miro_156;Parent=Miro_156;obsolete_name=Miro_008;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 89115 89119 . - 1 Alias=Miro_156;ID=Miro_156.RBS;Name=Miro_156;Parent=Miro_156 +Miro feature gene 89178 89447 . - . ID=Miro_157 +Miro GenBank CDS 89178 89438 . - 1 ID=Miro_157.CDS;Name=Miro_157;Parent=Miro_157;obsolete_name=Miro_007;product=hypothetical conserved;signal=signal peptidase II cleavage site 19-20 +Miro GenBank Shine_Dalgarno_sequence 89445 89447 . - 1 Alias=Miro_157;ID=Miro_157.RBS;Name=Miro_157;Parent=Miro_157 +Miro feature gene 89440 89880 . - . ID=Miro_158 +Miro GenBank CDS 89440 89871 . - 1 ID=Miro_158.CDS;Name=Miro_158;Parent=Miro_158;obsolete_name=Miro_006;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 89878 89880 . - 1 Alias=Miro_158;ID=Miro_158.RBS;Name=Miro_158;Parent=Miro_158 +Miro feature gene 89882 90064 . - . ID=Miro_159 +Miro GenBank CDS 89882 90055 . - 1 ID=Miro_159.CDS;Name=Miro_159;Parent=Miro_159;obsolete_name=Miro_005;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 90061 90064 . - 1 Alias=Miro_159;ID=Miro_159.RBS;Name=Miro_159;Parent=Miro_159 +Miro feature gene 134495 136075 . + . ID=Miro_218 +Miro GenBank CDS 134507 136075 . + 1 Alias=Miro_218;ID=Miro_218.CDS;Name=Miro_218;Note=T4 gp23/gp24-like;Parent=Miro_218;obsolete_name=Miro_222;product=major capsid protein +Miro GenBank Shine_Dalgarno_sequence 134495 134498 . + 1 ID=Miro_218.RBS;Name=Miro_218;Parent=Miro_218 +Miro feature gene 174229 174467 . - . ID=Miro_271 +Miro GenBank CDS 174229 174456 . - 1 ID=Miro_271.CDS;Name=Miro_271;Parent=Miro_271;obsolete_name=Miro_169;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 174464 174467 . - 1 Alias=Miro_271;ID=Miro_271.RBS;Name=Miro_271;Parent=Miro_271 +Miro feature gene 173351 174160 . - . ID=Miro_270 +Miro GenBank CDS 173351 174148 . - 1 ID=Miro_270.CDS;Name=Miro_270;Parent=Miro_270;obsolete_name=Miro_170;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 174156 174160 . - 1 Alias=Miro_270;ID=Miro_270.RBS;Name=Miro_270;Parent=Miro_270 +Miro feature gene 174760 174903 . - . ID=Miro_273 +Miro GenBank CDS 174760 174894 . - 1 ID=Miro_273.CDS;Name=Miro_273;Parent=Miro_273;obsolete_name=Miro_167;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 174900 174903 . - 1 Alias=Miro_273;ID=Miro_273.RBS;Name=Miro_273;Parent=Miro_273 +Miro feature gene 174453 174796 . - . ID=Miro_272 +Miro GenBank CDS 174453 174785 . - 1 ID=Miro_272.CDS;Name=Miro_272;Parent=Miro_272;obsolete_name=Miro_168;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 174793 174796 . - 1 Alias=Miro_272;ID=Miro_272.RBS;Name=Miro_272;Parent=Miro_272 +Miro feature gene 175224 175675 . - . ID=Miro_275 +Miro GenBank CDS 175224 175661 . - 1 ID=Miro_275.CDS;Name=Miro_275;Parent=Miro_275;obsolete_name=Miro_165;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 175673 175675 . - 1 Alias=Miro_275;ID=Miro_275.RBS;Name=Miro_275;Parent=Miro_275 +Miro feature gene 174939 175197 . - . ID=Miro_274 +Miro GenBank CDS 174939 175187 . - 1 ID=Miro_274.CDS;Name=Miro_274;Note=contains FCH and colicin domains;Parent=Miro_274;obsolete_name=Miro_166;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 175195 175197 . - 1 Alias=Miro_274;ID=Miro_274.RBS;Name=Miro_274;Parent=Miro_274 +Miro feature gene 175636 176021 . - . ID=Miro_276 +Miro GenBank CDS 175636 176010 . - 1 ID=Miro_276.CDS;Name=Miro_276;Parent=Miro_276;obsolete_name=Miro_164;product=hypothetical conserved;tmhelix=2TMDs %2844-66%2C 76-98%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 176017 176021 . - 1 Alias=Miro_276;ID=Miro_276.RBS;Name=Miro_276;Parent=Miro_276 +Miro feature gene 82146 82479 . - . ID=Miro_144 +Miro GenBank CDS 82146 82469 . - 1 ID=Miro_144.CDS;Name=Miro_144;Parent=Miro_144;obsolete_name=Miro_020;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18 +Miro GenBank Shine_Dalgarno_sequence 82476 82479 . - 1 Alias=Miro_144;ID=Miro_144.RBS;Name=Miro_144;Parent=Miro_144 +Miro feature gene 11178 11471 . - . ID=Miro_18 +Miro GenBank CDS 11178 11459 . - 1 ID=Miro_18.CDS;Name=Miro_18;Note=contains LysM domain;Parent=Miro_18;obsolete_name=Miro_146;product=peptidoglycan-binding protein +Miro GenBank Shine_Dalgarno_sequence 11468 11471 . - 1 Alias=Miro_18;ID=Miro_18.RBS;Name=Miro_18;Parent=Miro_18 +Miro GenBank CDS 11456 11731 . - 1 ID=Miro_19;Name=Miro_19;obsolete_name=Miro_145;product=hypothetical conserved +Miro feature gene 9399 9740 . - . ID=Miro_12 +Miro GenBank CDS 9399 9728 . - 1 ID=Miro_12.CDS;Name=Miro_12;Parent=Miro_12;obsolete_name=Miro_152;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 9736 9740 . - 1 Alias=Miro_12;ID=Miro_12.RBS;Name=Miro_12;Parent=Miro_12 +Miro feature gene 9788 10025 . - . ID=Miro_13 +Miro GenBank CDS 9788 10012 . - 1 ID=Miro_13.CDS;Name=Miro_13;Parent=Miro_13;obsolete_name=Miro_151;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 10021 10025 . - 1 Alias=Miro_13;ID=Miro_13.RBS;Name=Miro_13;Parent=Miro_13 +Miro feature gene 8488 8779 . - . ID=Miro_10 +Miro GenBank CDS 8488 8766 . - 1 ID=Miro_10.CDS;Name=Miro_10;Parent=Miro_10;obsolete_name=Miro_154;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 8776 8779 . - 1 Alias=Miro_10;ID=Miro_10.RBS;Name=Miro_10;Parent=Miro_10 +Miro feature gene 8763 9370 . - . ID=Miro_11 +Miro GenBank CDS 8763 9359 . - 1 ID=Miro_11.CDS;Name=Miro_11;Parent=Miro_11;obsolete_name=Miro_153;product=hypothetical conserved;tmhelix=1 TMD %2810-29%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 9367 9370 . - 1 Alias=Miro_11;ID=Miro_11.RBS;Name=Miro_11;Parent=Miro_11 +Miro feature gene 10737 10970 . - . ID=Miro_16 +Miro GenBank CDS 10737 10961 . - 1 ID=Miro_16.CDS;Name=Miro_16;Parent=Miro_16;obsolete_name=Miro_148;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 10967 10970 . - 1 Alias=Miro_16;ID=Miro_16.RBS;Name=Miro_16;Parent=Miro_16 +Miro feature gene 10965 11125 . - . ID=Miro_17 +Miro GenBank CDS 10965 11114 . - 1 ID=Miro_17.CDS;Name=Miro_17;Parent=Miro_17;obsolete_name=Miro_147;product=hypothetical conserved;tmhelix=1 TMD %2810-32%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 11121 11125 . - 1 Alias=Miro_17;ID=Miro_17.RBS;Name=Miro_17;Parent=Miro_17 +Miro feature gene 10086 10361 . - . ID=Miro_14 +Miro GenBank CDS 10086 10349 . - 1 ID=Miro_14.CDS;Name=Miro_14;Parent=Miro_14;obsolete_name=Miro_150;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 10358 10361 . - 1 Alias=Miro_14;ID=Miro_14.RBS;Name=Miro_14;Parent=Miro_14 +Miro feature gene 10438 10746 . - . ID=Miro_15 +Miro GenBank CDS 10438 10737 . - 1 ID=Miro_15.CDS;Name=Miro_15;Parent=Miro_15;obsolete_name=Miro_149;product=hypothetical conserved;tmhelix=1 TMD %284-21%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 10743 10746 . - 1 Alias=Miro_15;ID=Miro_15.RBS;Name=Miro_15;Parent=Miro_15 +Miro feature gene 53914 54144 . + . ID=Miro_92 +Miro GenBank CDS 53923 54144 . + 1 Alias=Miro_92;ID=Miro_92.CDS;Name=Miro_92;Parent=Miro_92;obsolete_name=Miro_072;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 53914 53916 . + 1 ID=Miro_92.RBS;Name=Miro_92;Parent=Miro_92 +Miro feature gene 54130 54755 . + . ID=Miro_93 +Miro GenBank CDS 54141 54755 . + 1 Alias=Miro_93;ID=Miro_93.CDS;Name=Miro_93;Note=contains haloacid dehydrogenase %28HAD%29-like domain;Parent=Miro_93;obsolete_name=Miro_071;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 54130 54134 . + 1 ID=Miro_93.RBS;Name=Miro_93;Parent=Miro_93 +Miro feature gene 53212 53661 . + . ID=Miro_90 +Miro GenBank CDS 53221 53661 . + 1 Alias=Miro_90;ID=Miro_90.CDS;Name=Miro_90;Note=T4 Y12G-like;Parent=Miro_90;obsolete_name=Miro_074;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 53212 53215 . + 1 ID=Miro_90.RBS;Name=Miro_90;Parent=Miro_90 +Miro feature gene 53646 53921 . + . ID=Miro_91 +Miro GenBank CDS 53658 53921 . + 1 Alias=Miro_91;ID=Miro_91.CDS;Name=Miro_91;Parent=Miro_91;obsolete_name=Miro_073;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 53646 53648 . + 1 ID=Miro_91.RBS;Name=Miro_91;Parent=Miro_91 +Miro feature gene 56987 57203 . + . ID=Miro_96 +Miro GenBank CDS 57000 57203 . + 1 Alias=Miro_96;ID=Miro_96.CDS;Name=Miro_96;Parent=Miro_96;obsolete_name=Miro_068;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 56987 56990 . + 1 ID=Miro_96.RBS;Name=Miro_96;Parent=Miro_96 +Miro feature gene 57193 57382 . + . ID=Miro_97 +Miro GenBank CDS 57206 57382 . + 1 Alias=Miro_97;ID=Miro_97.CDS;Name=Miro_97;Parent=Miro_97;obsolete_name=Miro_067;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 57193 57195 . + 1 ID=Miro_97.RBS;Name=Miro_97;Parent=Miro_97 +Miro feature gene 54726 56265 . + . ID=Miro_94 +Miro GenBank CDS 54736 56265 . + 1 Alias=Miro_94;ID=Miro_94.CDS;Name=Miro_94;Note=T4-like;Parent=Miro_94;obsolete_name=Miro_070;product=DNA ligase +Miro GenBank Shine_Dalgarno_sequence 54726 54728 . + 1 ID=Miro_94.RBS;Name=Miro_94;Parent=Miro_94 +Miro feature gene 56331 56911 . + . ID=Miro_95 +Miro GenBank CDS 56342 56911 . + 1 Alias=Miro_95;ID=Miro_95.CDS;Name=Miro_95;Parent=Miro_95;obsolete_name=Miro_069;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 56331 56333 . + 1 ID=Miro_95.RBS;Name=Miro_95;Parent=Miro_95 +Miro feature gene 57368 57543 . + . ID=Miro_98 +Miro GenBank CDS 57379 57543 . + 1 Alias=Miro_98;ID=Miro_98.CDS;Name=Miro_98;Parent=Miro_98;obsolete_name=Miro_066;product=hypothetical conserved;tmhelix=2TMDs %287-26%2C 31-53%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 57368 57372 . + 1 ID=Miro_98.RBS;Name=Miro_98;Parent=Miro_98 +Miro feature gene 57613 57914 . + . ID=Miro_99 +Miro GenBank CDS 57624 57914 . + 1 Alias=Miro_99;ID=Miro_99.CDS;Name=Miro_99;Parent=Miro_99;obsolete_name=Miro_065;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 57613 57616 . + 1 ID=Miro_99.RBS;Name=Miro_99;Parent=Miro_99 +Miro feature gene 81924 82086 . - . ID=Miro_143 +Miro GenBank CDS 81924 82079 . - 1 ID=Miro_143.CDS;Name=Miro_143;Parent=Miro_143;obsolete_name=Miro_021;product=hypothetical conserved;tmhelix=1 TMD %2815-37%29 N out%2C C in +Miro GenBank Shine_Dalgarno_sequence 82084 82086 . - 1 Alias=Miro_143;ID=Miro_143.RBS;Name=Miro_143;Parent=Miro_143 +Miro feature gene 67179 67658 . - . ID=Miro_114 +Miro GenBank CDS 67179 67649 . - 1 ID=Miro_114.CDS;Name=Miro_114;Parent=Miro_114;obsolete_name=Miro_050;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 67656 67658 . - 1 Alias=Miro_114;ID=Miro_114.RBS;Name=Miro_114;Parent=Miro_114 +Miro feature gene 81366 81851 . - . ID=Miro_141 +Miro GenBank CDS 81366 81839 . - 1 ID=Miro_141.CDS;Name=Miro_141;Note=contains macro domain;Parent=Miro_141;obsolete_name=Miro_023;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 81849 81851 . - 1 Alias=Miro_141;ID=Miro_141.RBS;Name=Miro_141;Parent=Miro_141 +Miro feature gene 81076 81376 . - . ID=Miro_140 +Miro GenBank CDS 81076 81363 . - 1 ID=Miro_140.CDS;Name=Miro_140;Parent=Miro_140;obsolete_name=Miro_024;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 81374 81376 . - 1 Alias=Miro_140;ID=Miro_140.RBS;Name=Miro_140;Parent=Miro_140 +Miro feature gene 83223 83630 . - . ID=Miro_147 +Miro GenBank CDS 83223 83618 . - 1 ID=Miro_147.CDS;Name=Miro_147;Parent=Miro_147;obsolete_name=Miro_017;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 83627 83630 . - 1 Alias=Miro_147;ID=Miro_147.RBS;Name=Miro_147;Parent=Miro_147 +Miro feature gene 83066 83224 . - . ID=Miro_146 +Miro GenBank CDS 83066 83212 . - 1 ID=Miro_146.CDS;Name=Miro_146;Parent=Miro_146;obsolete_name=Miro_018;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 83221 83224 . - 1 Alias=Miro_146;ID=Miro_146.RBS;Name=Miro_146;Parent=Miro_146 +Miro feature gene 82479 83083 . - . ID=Miro_145 +Miro GenBank CDS 82479 83069 . - 1 ID=Miro_145.CDS;Name=Miro_145;Parent=Miro_145;obsolete_name=Miro_019;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 83080 83083 . - 1 Alias=Miro_145;ID=Miro_145.RBS;Name=Miro_145;Parent=Miro_145 +Miro feature gene 67646 67816 . - . ID=Miro_115 +Miro GenBank CDS 67646 67804 . - 1 ID=Miro_115.CDS;Name=Miro_115;Parent=Miro_115;obsolete_name=Miro_049;product=hypothetical conserved;tmhelix=2TMDs %282-21%2C 31-50%29 N in%2C C in +Miro GenBank Shine_Dalgarno_sequence 67814 67816 . - 1 Alias=Miro_115;ID=Miro_115.RBS;Name=Miro_115;Parent=Miro_115 +Miro feature gene 84392 84959 . - . ID=Miro_149 +Miro GenBank CDS 84392 84946 . - 1 ID=Miro_149.CDS;Name=Miro_149;Parent=Miro_149;obsolete_name=Miro_015;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 84955 84959 . - 1 Alias=Miro_149;ID=Miro_149.RBS;Name=Miro_149;Parent=Miro_149 +Miro feature gene 83686 84337 . - . ID=Miro_148 +Miro GenBank CDS 83686 84327 . - 1 ID=Miro_148.CDS;Name=Miro_148;Note=T4 RegB-like;Parent=Miro_148;obsolete_name=Miro_016;product=endoribonuclease;signal=signal peptidase II cleavage site 12-13 +Miro GenBank Shine_Dalgarno_sequence 84334 84337 . - 1 Alias=Miro_148;ID=Miro_148.RBS;Name=Miro_148;Parent=Miro_148 +Miro feature gene 67801 68461 . - . ID=Miro_116 +Miro GenBank CDS 67801 68451 . - 1 ID=Miro_116.CDS;Name=Miro_116;Parent=Miro_116;obsolete_name=Miro_048;product=hypothetical conserved +Miro GenBank Shine_Dalgarno_sequence 68457 68461 . - 1 Alias=Miro_116;ID=Miro_116.RBS;Name=Miro_116;Parent=Miro_116
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/Miro_ShineFindOut.tbl Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,1 @@ +ID Name Terminus Terminus Strand Upstream Sequence SD Spacing
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/Miro_ShineFindOut1.gff3 Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,1 @@ +##gff-version 3
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/Miro_ShineFindOut2.gff3 Mon Jun 05 02:53:31 2023 +0000 @@ -0,0 +1,824 @@ +##gff-version 3 +Miro feature gene 7454 7906 . - . ID=Miro_8; +Miro GenBank CDS 7454 7894 . - 1 ID=Miro_8.CDS;Name=Miro_8;Parent=Miro_8;obsolete_name=Miro_156;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 7903 7906 . - 1 Alias=Miro_8;ID=Miro_8.RBS;Name=Miro_8;Parent=Miro_8; +Miro feature gene 7917 8512 . - . ID=Miro_9; +Miro GenBank CDS 7917 8501 . - 1 ID=Miro_9.CDS;Name=Miro_9;Parent=Miro_9;obsolete_name=Miro_155;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 8509 8512 . - 1 Alias=Miro_9;ID=Miro_9.RBS;Name=Miro_9;Parent=Miro_9; +Miro feature gene 123276 124212 . + . ID=Miro_206; +Miro GenBank CDS 123286 124212 . + 1 Alias=Miro_206;ID=Miro_206.CDS;Name=Miro_206;Parent=Miro_206;obsolete_name=Miro_234;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 123276 123279 . + 1 ID=Miro_206.rbs;Name=Miro_206;Parent=Miro_206; +Miro feature gene 68490 70715 . - . ID=Miro_117; +Miro GenBank CDS 68490 70706 . - 1 ID=Miro_117.CDS;Name=Miro_117;Note=contains von Willebrand factor%2C type A;Parent=Miro_117;obsolete_name=Miro_047;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 70713 70715 . - 1 Alias=Miro_117;ID=Miro_117.RBS;Name=Miro_117;Parent=Miro_117; +Miro feature gene 115729 116735 . + . ID=Miro_200; +Miro GenBank CDS 115743 116735 . + 1 Alias=Miro_200;ID=Miro_200.CDS;Name=Miro_200;Note=T4 gp6-like;Parent=Miro_200;obsolete_name=Miro_240;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 115729 115732 . + 1 ID=Miro_200.RBS;Name=Miro_200;Parent=Miro_200; +Miro feature gene 116735 117608 . + . ID=Miro_201; +Miro GenBank CDS 116745 117608 . + 1 Alias=Miro_201;ID=Miro_201.CDS;Name=Miro_201;Note=T4 gp9/gp10-like;Parent=Miro_201;obsolete_name=Miro_239;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 116735 116738 . + 1 ID=Miro_201.RBS;Name=Miro_201;Parent=Miro_201; +Miro feature gene 117595 119422 . + . ID=Miro_202; +Miro GenBank CDS 117605 119422 . + 1 Alias=Miro_202;ID=Miro_202.CDS;Name=Miro_202;Note=T4 gp9/gp10-like;Parent=Miro_202;obsolete_name=Miro_238;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 117595 117597 . + 1 ID=Miro_202.RBS;Name=Miro_202;Parent=Miro_202; +Miro feature gene 119412 120090 . + . ID=Miro_203; +Miro GenBank CDS 119422 120090 . + 1 Alias=Miro_203;ID=Miro_203.CDS;Name=Miro_203;Note=T4 gp11-like;Parent=Miro_203;obsolete_name=Miro_237;product=baseplate to short tail fiber connector protein; +Miro GenBank Shine_Dalgarno_sequence 119412 119415 . + 1 ID=Miro_203.RBS;Name=Miro_203;Parent=Miro_203; +Miro feature gene 81829 81940 . - . ID=Miro_142; +Miro GenBank CDS 81829 81927 . - 1 ID=Miro_142.CDS;Name=Miro_142;Parent=Miro_142;obsolete_name=Miro_022;product=hypothetical conserved;tmhelix=1 TMD (4-26) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 81938 81940 . - 1 Alias=Miro_142;ID=Miro_142.RBS;Name=Miro_142;Parent=Miro_142; +Miro feature gene 1 910 . - . ID=Miro_1; +Miro GenBank CDS 1 900 . - 1 ID=Miro_1.CDS;Name=Miro_1;Parent=Miro_1;obsolete_name=Miro_163;product=rIIb; +Miro GenBank Shine_Dalgarno_sequence 908 910 . - 1 Alias=Miro_1;ID=Miro_1.RBS;Name=Miro_1;Parent=Miro_1; +Miro feature gene 900 3173 . - . ID=Miro_2; +Miro GenBank CDS 900 3161 . - 1 ID=Miro_2.CDS;Name=Miro_2;Parent=Miro_2;obsolete_name=Miro_162;product=rIIa; +Miro GenBank Shine_Dalgarno_sequence 3171 3173 . - 1 Alias=Miro_2;ID=Miro_2.RBS;Name=Miro_2;Parent=Miro_2; +Miro feature gene 3172 3417 . - . ID=Miro_3; +Miro GenBank CDS 3172 3408 . - 1 ID=Miro_3.CDS;Name=Miro_3;Parent=Miro_3;obsolete_name=Miro_161;product=hypothetical conserved;tmhelix=1 TMD (12-34) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 3414 3417 . - 1 Alias=Miro_3;ID=Miro_3.RBS;Name=Miro_3;Parent=Miro_3; +Miro feature gene 3412 3979 . - . ID=Miro_4; +Miro GenBank CDS 3412 3966 . - 1 ID=Miro_4.CDS;Name=Miro_4;Note=contains SprT domain;Parent=Miro_4;obsolete_name=Miro_160;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 3975 3979 . - 1 Alias=Miro_4;ID=Miro_4.RBS;Name=Miro_4;Parent=Miro_4; +Miro feature gene 4038 5334 . - . ID=Miro_5; +Miro GenBank CDS 4038 5324 . - 1 ID=Miro_5.CDS;Name=Miro_5;Note=T4 gp52-like;Parent=Miro_5;obsolete_name=Miro_159;product=DNA topoisomerase II medium subunit; +Miro GenBank Shine_Dalgarno_sequence 5331 5334 . - 1 Alias=Miro_5;ID=Miro_5.RBS;Name=Miro_5;Parent=Miro_5; +Miro feature gene 5324 7231 . - . ID=Miro_6; +Miro GenBank CDS 5324 7222 . - 1 ID=Miro_6.CDS;Name=Miro_6;Note=T4 gp39-like;Parent=Miro_6;obsolete_name=Miro_158;product=DNA topoisomerase II%2C large subunit; +Miro GenBank Shine_Dalgarno_sequence 7228 7231 . - 1 Alias=Miro_6;ID=Miro_6.RBS;Name=Miro_6;Parent=Miro_6; +Miro feature gene 7290 7465 . - . ID=Miro_7; +Miro GenBank CDS 7290 7454 . - 1 ID=Miro_7.CDS;Name=Miro_7;Note=contains zinc ribbon domain;Parent=Miro_7;obsolete_name=Miro_157;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 7463 7465 . - 1 Alias=Miro_7;ID=Miro_7.RBS;Name=Miro_7;Parent=Miro_7; +Miro feature gene 124212 124968 . + . ID=Miro_207; +Miro GenBank CDS 124222 124968 . + 1 Alias=Miro_207;ID=Miro_207.CDS;Name=Miro_207;Note=T4 gp14-like;Parent=Miro_207;obsolete_name=Miro_233;product=neck protein; +Miro GenBank Shine_Dalgarno_sequence 124212 124216 . + 1 ID=Miro_207.RBS;Name=Miro_207;Parent=Miro_207; +Miro feature gene 173061 173361 . - . ID=Miro_269; +Miro GenBank CDS 173061 173351 . - 1 ID=Miro_269.CDS;Name=Miro_269;Parent=Miro_269;obsolete_name=Miro_171;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 173358 173361 . - 1 Alias=Miro_269;ID=Miro_269.RBS;Name=Miro_269;Parent=Miro_269; +Miro feature gene 66523 66819 . - . ID=Miro_112; +Miro GenBank CDS 66523 66807 . - 1 ID=Miro_112.CDS;Name=Miro_112;Parent=Miro_112;obsolete_name=Miro_052;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18; +Miro GenBank Shine_Dalgarno_sequence 66816 66819 . - 1 Alias=Miro_112;ID=Miro_112.RBS;Name=Miro_112;Parent=Miro_112; +Miro feature gene 66879 67172 . - . ID=Miro_113; +Miro GenBank CDS 66879 67163 . - 1 ID=Miro_113.CDS;Name=Miro_113;Parent=Miro_113;obsolete_name=Miro_051;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 67169 67172 . - 1 Alias=Miro_113;ID=Miro_113.RBS;Name=Miro_113;Parent=Miro_113; +Miro feature gene 44560 45732 . + . ID=Miro_69; +Miro GenBank CDS 44575 45732 . + 1 Alias=Miro_69;ID=Miro_69.CDS;Name=Miro_69;Note=T4 RNA ligase 1-like;Parent=Miro_69;obsolete_name=Miro_095;product=RNA ligase; +Miro GenBank Shine_Dalgarno_sequence 44560 44562 . + 1 ID=Miro_69.RBS;Name=Miro_69;Parent=Miro_69; +Miro feature gene 44216 44594 . + . ID=Miro_68; +Miro GenBank CDS 44229 44594 . + 1 Alias=Miro_68;ID=Miro_68.CDS;Name=Miro_68;Note=contains GIY-YIG domain;Parent=Miro_68;obsolete_name=Miro_096;product=homing endonuclease; +Miro GenBank Shine_Dalgarno_sequence 44216 44218 . + 1 ID=Miro_68.RBS;Name=Miro_68;Parent=Miro_68; +Miro GenBank CDS 43905 44225 . + 1 ID=Miro_67;Name=Miro_67;obsolete_name=Miro_097;product=hypothetical conserved; +Miro feature gene 42748 43933 . + . ID=Miro_66; +Miro GenBank CDS 42758 43933 . + 1 Alias=Miro_66;ID=Miro_66.CDS;Name=Miro_66;Note=T4 NrdB-like;Parent=Miro_66;obsolete_name=Miro_098;product=ribonucleotide reductase%2C small subunit; +Miro GenBank Shine_Dalgarno_sequence 42748 42751 . + 1 ID=Miro_66.RBS;Name=Miro_66;Parent=Miro_66; +Miro feature gene 40459 42721 . + . ID=Miro_65; +Miro GenBank CDS 40469 42721 . + 1 Alias=Miro_65;ID=Miro_65.CDS;Name=Miro_65;Note=T4 NrdA-like%3B E-val 0;Parent=Miro_65;obsolete_name=Miro_099;product=ribonucleotide reductase%2C large subunit; +Miro GenBank Shine_Dalgarno_sequence 40459 40462 . + 1 ID=Miro_65.RBS;Name=Miro_65;Parent=Miro_65; +Miro feature gene 39545 40429 . + . ID=Miro_64; +Miro GenBank CDS 39554 40429 . + 1 Alias=Miro_64;ID=Miro_64.CDS;Name=Miro_64;Note=T4-like;Parent=Miro_64;obsolete_name=Miro_100;product=thymidylate synthase; +Miro GenBank Shine_Dalgarno_sequence 39545 39548 . + 1 ID=Miro_64.RBS;Name=Miro_64;Parent=Miro_64; +Miro feature gene 38964 39552 . + . ID=Miro_63; +Miro GenBank CDS 38974 39552 . + 1 Alias=Miro_63;ID=Miro_63.CDS;Name=Miro_63;Note=T4-like;Parent=Miro_63;obsolete_name=Miro_101;product=dihydrofolate reductase; +Miro GenBank Shine_Dalgarno_sequence 38964 38966 . + 1 ID=Miro_63.RBS;Name=Miro_63;Parent=Miro_63; +Miro feature gene 38710 38977 . + . ID=Miro_62; +Miro GenBank CDS 38720 38977 . + 1 Alias=Miro_62;ID=Miro_62.CDS;Name=Miro_62;Parent=Miro_62;obsolete_name=Miro_102;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 38710 38713 . + 1 ID=Miro_62.RBS;Name=Miro_62;Parent=Miro_62; +Miro feature gene 38483 38723 . + . ID=Miro_61; +Miro GenBank CDS 38493 38723 . + 1 Alias=Miro_61;ID=Miro_61.CDS;Name=Miro_61;Parent=Miro_61;obsolete_name=Miro_103;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 38483 38486 . + 1 ID=Miro_61.RBS;Name=Miro_61;Parent=Miro_61; +Miro feature gene 38194 38496 . + . ID=Miro_60; +Miro GenBank CDS 38206 38496 . + 1 Alias=Miro_60;ID=Miro_60.CDS;Name=Miro_60;Parent=Miro_60;obsolete_name=Miro_104;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 38194 38197 . + 1 ID=Miro_60.RBS;Name=Miro_60;Parent=Miro_60; +Miro feature gene 97404 97739 . - . ID=Miro_176; +Miro GenBank CDS 97404 97727 . - 1 ID=Miro_176.CDS;Name=Miro_176;Parent=Miro_176;obsolete_name=Miro_264;product=hypothetical conserved;tmhelix=1 TMD (84-106) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 97736 97739 . - 1 Alias=Miro_176;ID=Miro_176.RBS;Name=Miro_176;Parent=Miro_176; +Miro feature gene 97756 98022 . - . ID=Miro_177; +Miro GenBank CDS 97756 98013 . - 1 ID=Miro_177.CDS;Name=Miro_177;Parent=Miro_177;obsolete_name=Miro_263;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 98020 98022 . - 1 Alias=Miro_177;ID=Miro_177.RBS;Name=Miro_177;Parent=Miro_177; +Miro feature gene 95966 96891 . - . ID=Miro_174; +Miro GenBank CDS 95966 96880 . - 1 ID=Miro_174.CDS;Name=Miro_174;Parent=Miro_174;obsolete_name=Miro_266;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 96889 96891 . - 1 Alias=Miro_174;ID=Miro_174.RBS;Name=Miro_174;Parent=Miro_174; +Miro feature gene 96877 97416 . - . ID=Miro_175; +Miro GenBank CDS 96877 97404 . - 1 ID=Miro_175.CDS;Name=Miro_175;Parent=Miro_175;obsolete_name=Miro_265;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 97414 97416 . - 1 Alias=Miro_175;ID=Miro_175.RBS;Name=Miro_175;Parent=Miro_175; +Miro feature gene 95498 95705 . - . ID=Miro_172; +Miro GenBank CDS 95498 95692 . - 1 ID=Miro_172.CDS;Name=Miro_172;Note=heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_172;obsolete_name=Miro_268;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 95702 95705 . - 1 Alias=Miro_172;ID=Miro_172.RBS;Name=Miro_172;Parent=Miro_172; +Miro feature gene 95689 95900 . - . ID=Miro_173; +Miro GenBank CDS 95689 95889 . - 1 ID=Miro_173.CDS;Name=Miro_173;Parent=Miro_173;obsolete_name=Miro_267;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 95897 95900 . - 1 Alias=Miro_173;ID=Miro_173.RBS;Name=Miro_173;Parent=Miro_173; +Miro feature gene 94533 95117 . - . ID=Miro_170; +Miro GenBank CDS 94533 95108 . - 1 ID=Miro_170.CDS;Name=Miro_170;Parent=Miro_170;obsolete_name=Miro_270;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 95114 95117 . - 1 Alias=Miro_170;ID=Miro_170.RBS;Name=Miro_170;Parent=Miro_170; +Miro feature gene 95116 95524 . - . ID=Miro_171; +Miro GenBank CDS 95116 95514 . - 1 ID=Miro_171.CDS;Name=Miro_171;Parent=Miro_171;obsolete_name=Miro_269;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 95520 95524 . - 1 Alias=Miro_171;ID=Miro_171.RBS;Name=Miro_171;Parent=Miro_171; +Miro feature gene 98015 98410 . - . ID=Miro_178; +Miro GenBank CDS 98015 98398 . - 1 ID=Miro_178.CDS;Name=Miro_178;Parent=Miro_178;obsolete_name=Miro_262;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 98408 98410 . - 1 Alias=Miro_178;ID=Miro_178.RBS;Name=Miro_178;Parent=Miro_178; +Miro feature gene 98409 98826 . - . ID=Miro_179; +Miro GenBank CDS 98409 98816 . - 1 ID=Miro_179.CDS;Name=Miro_179;Parent=Miro_179;obsolete_name=Miro_261;product=NUDIX hydrolase; +Miro GenBank Shine_Dalgarno_sequence 98823 98826 . - 1 Alias=Miro_179;ID=Miro_179.RBS;Name=Miro_179;Parent=Miro_179; +Miro feature gene 105709 106188 . - . ID=Miro_194; +Miro GenBank CDS 105709 106176 . - 1 ID=Miro_194.CDS;Name=Miro_194;Parent=Miro_194;obsolete_name=Miro_246;product=restriction endonuclease; +Miro GenBank Shine_Dalgarno_sequence 106185 106188 . - 1 Alias=Miro_194;ID=Miro_194.RBS;Name=Miro_194;Parent=Miro_194; +Miro feature gene 106215 106781 . + . ID=Miro_195; +Miro GenBank CDS 106227 106781 . + 1 Alias=Miro_195;ID=Miro_195.CDS;Name=Miro_195;Note=T4 gp53-like;Parent=Miro_195;obsolete_name=Miro_245;product=baseplate wedge protein; +Miro GenBank Shine_Dalgarno_sequence 106215 106218 . + 1 ID=Miro_195.RBS;Name=Miro_195;Parent=Miro_195; +Miro feature gene 106763 108547 . + . ID=Miro_196; +Miro GenBank CDS 106778 108547 . + 1 Alias=Miro_196;ID=Miro_196.CDS;Name=Miro_196;Note=T4 gp5-like;Parent=Miro_196;obsolete_name=Miro_244;product=baseplate hub structural protein and tail lysozyme; +Miro GenBank Shine_Dalgarno_sequence 106763 106765 . + 1 ID=Miro_196.RBS;Name=Miro_196;Parent=Miro_196; +Miro feature gene 108542 110618 . + . ID=Miro_197; +Miro GenBank CDS 108552 110618 . + 1 Alias=Miro_197;ID=Miro_197.CDS;Name=Miro_197;Parent=Miro_197;obsolete_name=Miro_243;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 108542 108545 . + 1 ID=Miro_197.RBS;Name=Miro_197;Parent=Miro_197; +Miro feature gene 102567 103107 . - . ID=Miro_190; +Miro GenBank CDS 102567 103097 . - 1 ID=Miro_190.CDS;Name=Miro_190;Note=T4 gp19-like;Parent=Miro_190;obsolete_name=Miro_250;product=tail tube protein; +Miro GenBank Shine_Dalgarno_sequence 103103 103107 . - 1 Alias=Miro_190;ID=Miro_190.RBS;Name=Miro_190;Parent=Miro_190; +Miro feature gene 103455 104255 . + . ID=Miro_191; +Miro GenBank CDS 103467 104255 . + 1 Alias=Miro_191;ID=Miro_191.CDS;Name=Miro_191;Parent=Miro_191;obsolete_name=Miro_249;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 103455 103458 . + 1 ID=Miro_191.RBS;Name=Miro_191;Parent=Miro_191; +Miro feature gene 104349 104819 . + . ID=Miro_192; +Miro GenBank CDS 104361 104819 . + 1 Alias=Miro_192;ID=Miro_192.CDS;Name=Miro_192;Note=contains AP2/ERF domain;Parent=Miro_192;obsolete_name=Miro_248;product=homing endonuclease; +Miro GenBank Shine_Dalgarno_sequence 104349 104351 . + 1 ID=Miro_192.RBS;Name=Miro_192;Parent=Miro_192; +Miro feature gene 73313 73582 . - . ID=Miro_124; +Miro GenBank CDS 73313 73570 . - 1 ID=Miro_124.CDS;Name=Miro_124;Parent=Miro_124;obsolete_name=Miro_040;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 73579 73582 . - 1 Alias=Miro_124;ID=Miro_124.RBS;Name=Miro_124;Parent=Miro_124; +Miro feature gene 125036 125872 . + . ID=Miro_208; +Miro GenBank CDS 125048 125872 . + 1 Alias=Miro_208;ID=Miro_208.CDS;Name=Miro_208;Parent=Miro_208;obsolete_name=Miro_232;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 125036 125039 . + 1 ID=Miro_208.RBS;Name=Miro_208;Parent=Miro_208; +Miro feature gene 110635 112575 . + . ID=Miro_198; +Miro GenBank CDS 110650 112575 . + 1 Alias=Miro_198;ID=Miro_198.CDS;Name=Miro_198;Parent=Miro_198;obsolete_name=Miro_242;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 110635 110638 . + 1 ID=Miro_198.RBS;Name=Miro_198;Parent=Miro_198; +Miro feature gene 112645 115742 . + . ID=Miro_199; +Miro GenBank CDS 112656 115742 . + 1 Alias=Miro_199;ID=Miro_199.CDS;Name=Miro_199;Parent=Miro_199;obsolete_name=Miro_241;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 112645 112648 . + 1 ID=Miro_199.RBS;Name=Miro_199;Parent=Miro_199; +Miro feature gene 136157 136806 . + . ID=Miro_219; +Miro GenBank CDS 136168 136806 . + 1 Alias=Miro_219;ID=Miro_219.CDS;Name=Miro_219;Note=contains GIY-YIG domain;Parent=Miro_219;obsolete_name=Miro_221;product=homing endonuclease; +Miro GenBank Shine_Dalgarno_sequence 136157 136160 . + 1 ID=Miro_219.RBS;Name=Miro_219;Parent=Miro_219; +Miro feature gene 125860 126369 . + . ID=Miro_209; +Miro GenBank CDS 125872 126369 . + 1 Alias=Miro_209;ID=Miro_209.CDS;Name=Miro_209;Note=T4 gp16-like;Parent=Miro_209;obsolete_name=Miro_231;product=terminase%2C small subunit; +Miro GenBank Shine_Dalgarno_sequence 125860 125863 . + 1 ID=Miro_209.RBS;Name=Miro_209;Parent=Miro_209; +Miro feature gene 93915 94204 . - . ID=Miro_169; +Miro GenBank CDS 93915 94193 . - 1 ID=Miro_169.CDS;Name=Miro_169;Parent=Miro_169;obsolete_name=Miro_271;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 94201 94204 . - 1 Alias=Miro_169;ID=Miro_169.RBS;Name=Miro_169;Parent=Miro_169; +Miro feature gene 93592 93854 . - . ID=Miro_168; +Miro GenBank CDS 93592 93843 . - 1 ID=Miro_168.CDS;Name=Miro_168;Parent=Miro_168;obsolete_name=Miro_272;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 93849 93854 . - 1 Alias=Miro_168;ID=Miro_168.RBS;Name=Miro_168;Parent=Miro_168; +Miro feature gene 48763 49277 . + . ID=Miro_78; +Miro GenBank CDS 48771 49277 . + 1 Alias=Miro_78;ID=Miro_78.CDS;Name=Miro_78;Note=T4-like;Parent=Miro_78;obsolete_name=Miro_086;product=dCMP deaminase; +Miro GenBank Shine_Dalgarno_sequence 48763 48765 . + 1 ID=Miro_78.RBS;Name=Miro_78;Parent=Miro_78; +Miro feature gene 49267 49634 . + . ID=Miro_79; +Miro GenBank CDS 49281 49634 . + 1 Alias=Miro_79;ID=Miro_79.CDS;Name=Miro_79;Note=T4 gp31-like;Parent=Miro_79;obsolete_name=Miro_085;product=chaperonin-GroEL; +Miro GenBank Shine_Dalgarno_sequence 49267 49269 . + 1 ID=Miro_79.RBS;Name=Miro_79;Parent=Miro_79; +Miro feature gene 120090 121485 . + . ID=Miro_204; +Miro GenBank CDS 120100 121485 . + 1 Alias=Miro_204;ID=Miro_204.CDS;Name=Miro_204;Note=T4 gp12-like;Parent=Miro_204;obsolete_name=Miro_236;product=short tail fiber protein; +Miro GenBank Shine_Dalgarno_sequence 120090 120093 . + 1 ID=Miro_204.RBS;Name=Miro_204;Parent=Miro_204; +Miro feature gene 47021 47916 . + . ID=Miro_74; +Miro GenBank CDS 47032 47916 . + 1 Alias=Miro_74;ID=Miro_74.CDS;Name=Miro_74;Note=contains HAD-like domain;Parent=Miro_74;obsolete_name=Miro_090;product=nucleoside triphosphate hydrolase; +Miro GenBank Shine_Dalgarno_sequence 47021 47023 . + 1 ID=Miro_74.RBS;Name=Miro_74;Parent=Miro_74; +Miro feature gene 47957 48256 . + . ID=Miro_75; +Miro GenBank CDS 47969 48256 . + 1 Alias=Miro_75;ID=Miro_75.CDS;Name=Miro_75;Parent=Miro_75;obsolete_name=Miro_089;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 47957 47960 . + 1 ID=Miro_75.RBS;Name=Miro_75;Parent=Miro_75; +Miro feature gene 48240 48504 . + . ID=Miro_76; +Miro GenBank CDS 48253 48504 . + 1 Alias=Miro_76;ID=Miro_76.CDS;Name=Miro_76;Parent=Miro_76;obsolete_name=Miro_088;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 48240 48242 . + 1 ID=Miro_76.RBS;Name=Miro_76;Parent=Miro_76; +Miro feature gene 48485 48781 . + . ID=Miro_77; +Miro GenBank CDS 48497 48781 . + 1 Alias=Miro_77;ID=Miro_77.CDS;Name=Miro_77;Parent=Miro_77;obsolete_name=Miro_087;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 48485 48488 . + 1 ID=Miro_77.RBS;Name=Miro_77;Parent=Miro_77; +Miro feature gene 45718 46265 . + . ID=Miro_70; +Miro GenBank CDS 45729 46265 . + 1 Alias=Miro_70;ID=Miro_70.CDS;Name=Miro_70;Note=contains AP2/ERF domain;Parent=Miro_70;obsolete_name=Miro_094;product=homing endonuclease; +Miro GenBank Shine_Dalgarno_sequence 45718 45721 . + 1 ID=Miro_70.RBS;Name=Miro_70;Parent=Miro_70; +Miro feature gene 46221 46569 . + . ID=Miro_71; +Miro GenBank CDS 46234 46569 . + 1 Alias=Miro_71;ID=Miro_71.CDS;Name=Miro_71;Note=T4 PseT.3-like;Parent=Miro_71;obsolete_name=Miro_093;product=i-spanin;tmhelix=1 TMD (15-33) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 46221 46224 . + 1 ID=Miro_71.RBS;Name=Miro_71;Parent=Miro_71; +Miro feature gene 46553 46883 . + . ID=Miro_72; +Miro GenBank CDS 46566 46883 . + 1 Alias=Miro_72;ID=Miro_72.CDS;Name=Miro_72;Note=T4 PseT.2-like;Parent=Miro_72;obsolete_name=Miro_092;product=o-spanin;signal=signal peptidase II cleavage site 16-17; +Miro GenBank Shine_Dalgarno_sequence 46553 46556 . + 1 ID=Miro_72.RBS;Name=Miro_72;Parent=Miro_72; +Miro feature gene 46854 47035 . + . ID=Miro_73; +Miro GenBank CDS 46868 47035 . + 1 Alias=Miro_73;ID=Miro_73.CDS;Name=Miro_73;Parent=Miro_73;obsolete_name=Miro_091;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 46854 46856 . + 1 ID=Miro_73.RBS;Name=Miro_73;Parent=Miro_73; +Miro feature gene 90380 90770 . - . ID=Miro_161; +Miro GenBank CDS 90380 90760 . - 1 ID=Miro_161.CDS;Name=Miro_161;Parent=Miro_161;obsolete_name=Miro_003;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 90767 90770 . - 1 Alias=Miro_161;ID=Miro_161.RBS;Name=Miro_161;Parent=Miro_161; +Miro feature gene 90052 90410 . - . ID=Miro_160; +Miro GenBank CDS 90052 90399 . - 1 ID=Miro_160.CDS;Name=Miro_160;Parent=Miro_160;obsolete_name=Miro_004;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 90406 90410 . - 1 Alias=Miro_160;ID=Miro_160.RBS;Name=Miro_160;Parent=Miro_160; +Miro feature gene 91043 92201 . - . ID=Miro_163; +Miro GenBank CDS 91043 92197 . - 1 ID=Miro_163.CDS;Name=Miro_163;Note=contains 4Fe4S-binding SPASM domain;Parent=Miro_163;obsolete_name=Miro_001;product=radical SAM superfamily protein; +Miro GenBank Shine_Dalgarno_sequence 92198 92201 . + 1 Alias=Miro_163;ID=Miro_163.RBS;Name=Miro_163;Parent=Miro_163; +Miro feature gene 100922 101554 . - . ID=Miro_187; +Miro GenBank CDS 100922 101545 . - 1 ID=Miro_187.CDS;Name=Miro_187;Parent=Miro_187;obsolete_name=Miro_253;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 101551 101554 . - 1 Alias=Miro_187;ID=Miro_187.RBS;Name=Miro_187;Parent=Miro_187; +Miro feature gene 100375 100923 . - . ID=Miro_186; +Miro GenBank CDS 100375 100914 . - 1 ID=Miro_186.CDS;Name=Miro_186;Parent=Miro_186;obsolete_name=Miro_254;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 100920 100923 . - 1 Alias=Miro_186;ID=Miro_186.RBS;Name=Miro_186;Parent=Miro_186; +Miro feature gene 100169 100320 . - . ID=Miro_185; +Miro GenBank CDS 100169 100309 . - 1 ID=Miro_185.CDS;Name=Miro_185;Parent=Miro_185;obsolete_name=Miro_255;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 100315 100320 . - 1 Alias=Miro_185;ID=Miro_185.RBS;Name=Miro_185;Parent=Miro_185; +Miro feature gene 90744 91055 . - . ID=Miro_162; +Miro GenBank CDS 90744 91046 . - 1 ID=Miro_162.CDS;Name=Miro_162;Parent=Miro_162;obsolete_name=Miro_002;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 91053 91055 . - 1 Alias=Miro_162;ID=Miro_162.RBS;Name=Miro_162;Parent=Miro_162; +Miro feature gene 99593 99940 . - . ID=Miro_183; +Miro GenBank CDS 99593 99928 . - 1 ID=Miro_183.CDS;Name=Miro_183;Note=contains heat shock protein DnaJ%2C cysteine-rich domain;Parent=Miro_183;obsolete_name=Miro_257;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 99938 99940 . - 1 Alias=Miro_183;ID=Miro_183.RBS;Name=Miro_183;Parent=Miro_183; +Miro feature gene 99303 99611 . - . ID=Miro_182; +Miro GenBank CDS 99303 99596 . - 1 ID=Miro_182.CDS;Name=Miro_182;Parent=Miro_182;obsolete_name=Miro_258;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 99609 99611 . - 1 Alias=Miro_182;ID=Miro_182.RBS;Name=Miro_182;Parent=Miro_182; +Miro feature gene 99059 99328 . - . ID=Miro_181; +Miro GenBank CDS 99059 99310 . - 1 ID=Miro_181.CDS;Name=Miro_181;Parent=Miro_181;obsolete_name=Miro_259;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 99325 99328 . - 1 Alias=Miro_181;ID=Miro_181.RBS;Name=Miro_181;Parent=Miro_181; +Miro feature gene 98817 99074 . - . ID=Miro_180; +Miro GenBank CDS 98817 99062 . - 1 ID=Miro_180.CDS;Name=Miro_180;Parent=Miro_180;obsolete_name=Miro_260;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 99072 99074 . - 1 Alias=Miro_180;ID=Miro_180.RBS;Name=Miro_180;Parent=Miro_180; +Miro feature gene 92931 93195 . - . ID=Miro_165; +Miro GenBank CDS 92931 93185 . - 1 ID=Miro_165.CDS;Name=Miro_165;Parent=Miro_165;obsolete_name=Miro_275;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 93192 93195 . - 1 Alias=Miro_165;ID=Miro_165.RBS;Name=Miro_165;Parent=Miro_165; +Miro feature gene 101872 102579 . - . ID=Miro_189; +Miro GenBank CDS 101872 102567 . - 1 ID=Miro_189.CDS;Name=Miro_189;Note=contains P-loop NTPase domain;Parent=Miro_189;obsolete_name=Miro_251;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 102577 102579 . - 1 Alias=Miro_189;ID=Miro_189.RBS;Name=Miro_189;Parent=Miro_189; +Miro feature gene 92203 92938 . + . ID=Miro_164; +Miro GenBank CDS 92210 92938 . + 1 Alias=Miro_164;ID=Miro_164.CDS;Name=Miro_164;Parent=Miro_164;obsolete_name=Miro_276;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 92203 92206 . - 1 ID=Miro_164.RBS;Name=Miro_164;Parent=Miro_164; +Miro feature gene 93449 93607 . - . ID=Miro_167; +Miro GenBank CDS 93449 93595 . - 1 ID=Miro_167.CDS;Name=Miro_167;Parent=Miro_167;obsolete_name=Miro_273;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 93605 93607 . - 1 Alias=Miro_167;ID=Miro_167.RBS;Name=Miro_167;Parent=Miro_167; +Miro feature gene 121485 123247 . + . ID=Miro_205; +Miro GenBank CDS 121496 123247 . + 1 Alias=Miro_205;ID=Miro_205.CDS;Name=Miro_205;Note=T4 fibritin-like;Parent=Miro_205;obsolete_name=Miro_235;product=neck whisker protein; +Miro GenBank Shine_Dalgarno_sequence 121485 121489 . + 1 ID=Miro_205.RBS;Name=Miro_205;Parent=Miro_205; +Miro feature gene 93252 93463 . - . ID=Miro_166; +Miro GenBank CDS 93252 93452 . - 1 ID=Miro_166.CDS;Name=Miro_166;Parent=Miro_166;obsolete_name=Miro_274;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 93461 93463 . - 1 Alias=Miro_166;ID=Miro_166.RBS;Name=Miro_166;Parent=Miro_166; +Miro feature gene 30315 30571 . - . ID=Miro_49; +Miro GenBank CDS 30315 30560 . - 1 ID=Miro_49.CDS;Name=Miro_49;Parent=Miro_49;obsolete_name=Miro_115;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 30569 30571 . - 1 Alias=Miro_49;ID=Miro_49.RBS;Name=Miro_49;Parent=Miro_49; +Miro feature gene 29659 30330 . - . ID=Miro_48; +Miro GenBank CDS 29659 30318 . - 1 ID=Miro_48.CDS;Name=Miro_48;Note=T4 gp59-like;Parent=Miro_48;obsolete_name=Miro_116;product=helicase assembly protein; +Miro GenBank Shine_Dalgarno_sequence 30328 30330 . - 1 Alias=Miro_48;ID=Miro_48.RBS;Name=Miro_48;Parent=Miro_48; +Miro GenBank DNA 1 176055 . . 1 Alias=Miro;ID=Miro;Name=Miro;date=01-JAN-1980; +Miro feature gene 70714 71046 . - . ID=Miro_118; +Miro GenBank CDS 70714 71034 . - 1 ID=Miro_118.CDS;Name=Miro_118;Parent=Miro_118;obsolete_name=Miro_046;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 71044 71046 . - 1 Alias=Miro_118;ID=Miro_118.RBS;Name=Miro_118;Parent=Miro_118; +Miro feature gene 71034 71561 . - . ID=Miro_119; +Miro GenBank CDS 71034 71549 . - 1 ID=Miro_119.CDS;Name=Miro_119;Parent=Miro_119;obsolete_name=Miro_045;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 71558 71561 . - 1 Alias=Miro_119;ID=Miro_119.RBS;Name=Miro_119;Parent=Miro_119; +Miro feature gene 25310 25609 . - . ID=Miro_41; +Miro GenBank CDS 25310 25597 . - 1 ID=Miro_41.CDS;Name=Miro_41;Parent=Miro_41;obsolete_name=Miro_123;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 25606 25609 . - 1 Alias=Miro_41;ID=Miro_41.RBS;Name=Miro_41;Parent=Miro_41; +Miro feature gene 24984 25325 . - . ID=Miro_40; +Miro GenBank CDS 24984 25313 . - 1 ID=Miro_40.CDS;Name=Miro_40;Parent=Miro_40;obsolete_name=Miro_124;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 25321 25325 . - 1 Alias=Miro_40;ID=Miro_40.RBS;Name=Miro_40;Parent=Miro_40; +Miro feature gene 26032 26607 . - . ID=Miro_43; +Miro GenBank CDS 26032 26595 . - 1 ID=Miro_43.CDS;Name=Miro_43;Parent=Miro_43;obsolete_name=Miro_121;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 26603 26607 . - 1 Alias=Miro_43;ID=Miro_43.RBS;Name=Miro_43;Parent=Miro_43; +Miro feature gene 25666 26036 . - . ID=Miro_42; +Miro GenBank CDS 25666 26028 . - 1 ID=Miro_42.CDS;Name=Miro_42;Note=T4 RegA-like;Parent=Miro_42;obsolete_name=Miro_122;product=translational repressor protein; +Miro GenBank Shine_Dalgarno_sequence 26034 26036 . - 1 Alias=Miro_42;ID=Miro_42.RBS;Name=Miro_42;Parent=Miro_42; +Miro feature gene 27655 28329 . - . ID=Miro_45; +Miro GenBank CDS 27655 28320 . - 1 ID=Miro_45.CDS;Name=Miro_45;Note=T4-like;Parent=Miro_45;obsolete_name=Miro_119;product=DNA polymerase processivity component; +Miro GenBank Shine_Dalgarno_sequence 28327 28329 . - 1 Alias=Miro_45;ID=Miro_45.RBS;Name=Miro_45;Parent=Miro_45; +Miro feature gene 26598 27605 . - . ID=Miro_44; +Miro GenBank CDS 26598 27596 . - 1 ID=Miro_44.CDS;Name=Miro_44;Note=T4 gp44-like;Parent=Miro_44;obsolete_name=Miro_120;product=sliding-clamp-loader subunit; +Miro GenBank Shine_Dalgarno_sequence 27602 27605 . - 1 Alias=Miro_44;ID=Miro_44.RBS;Name=Miro_44;Parent=Miro_44; +Miro feature gene 28672 29656 . - . ID=Miro_47; +Miro GenBank CDS 28672 29643 . - 1 ID=Miro_47.CDS;Name=Miro_47;Note=T4 gp32-like;Parent=Miro_47;obsolete_name=Miro_117;product=ssDNA-binding protein; +Miro GenBank Shine_Dalgarno_sequence 29654 29656 . - 1 Alias=Miro_47;ID=Miro_47.RBS;Name=Miro_47;Parent=Miro_47; +Miro feature gene 28347 28628 . - . ID=Miro_46; +Miro GenBank CDS 28347 28616 . - 1 ID=Miro_46.CDS;Name=Miro_46;Note=T4-like;Parent=Miro_46;obsolete_name=Miro_118;product=RNA polymerase binding protein; +Miro GenBank Shine_Dalgarno_sequence 28626 28628 . - 1 Alias=Miro_46;ID=Miro_46.RBS;Name=Miro_46;Parent=Miro_46; +Miro feature gene 159724 160702 . + . ID=Miro_258; +Miro GenBank CDS 159737 160702 . + 1 Alias=Miro_258;ID=Miro_258.CDS;Name=Miro_258;Parent=Miro_258;obsolete_name=Miro_182;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 159724 159726 . + 1 ID=Miro_258.RBS;Name=Miro_258;Parent=Miro_258; +Miro feature gene 165793 166927 . + . ID=Miro_263; +Miro GenBank CDS 165803 166927 . + 1 Alias=Miro_263;ID=Miro_263.CDS;Name=Miro_263;Parent=Miro_263;obsolete_name=Miro_177;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 165793 165796 . + 1 ID=Miro_263.RBS;Name=Miro_263;Parent=Miro_263; +Miro feature gene 126351 128186 . + . ID=Miro_210; +Miro GenBank CDS 126366 128186 . + 1 Alias=Miro_210;ID=Miro_210.CDS;Name=Miro_210;Note=T4 gp17-like;Parent=Miro_210;obsolete_name=Miro_230;product=terminase%2C large subunit; +Miro GenBank Shine_Dalgarno_sequence 126351 126353 . + 1 ID=Miro_210.RBS;Name=Miro_210;Parent=Miro_210; +Miro feature gene 34191 34491 . + . ID=Miro_56; +Miro GenBank CDS 34204 34491 . + 1 Alias=Miro_56;ID=Miro_56.CDS;Name=Miro_56;Parent=Miro_56;obsolete_name=Miro_108;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 34191 34195 . + 1 ID=Miro_56.RBS;Name=Miro_56;Parent=Miro_56; +Miro feature gene 34465 36172 . + . ID=Miro_57; +Miro GenBank CDS 34475 36172 . + 1 Alias=Miro_57;ID=Miro_57.CDS;Name=Miro_57;Parent=Miro_57;obsolete_name=Miro_107;product=methyl methanesulphonate-sensitivity protein; +Miro GenBank Shine_Dalgarno_sequence 34465 34468 . + 1 ID=Miro_57.RBS;Name=Miro_57;Parent=Miro_57; +Miro feature gene 32797 33134 . + . ID=Miro_54; +Miro GenBank CDS 32808 33134 . + 1 Alias=Miro_54;ID=Miro_54.CDS;Name=Miro_54;Parent=Miro_54;obsolete_name=Miro_110;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 32797 32800 . + 1 ID=Miro_54.RBS;Name=Miro_54;Parent=Miro_54; +Miro feature gene 33173 34217 . + . ID=Miro_55; +Miro GenBank CDS 33186 34217 . + 1 Alias=Miro_55;ID=Miro_55.CDS;Name=Miro_55;Note=T4 exonuclease subunit 1-like;Parent=Miro_55;obsolete_name=Miro_109;product=exonuclease; +Miro GenBank Shine_Dalgarno_sequence 33173 33175 . + 1 ID=Miro_55.RBS;Name=Miro_55;Parent=Miro_55; +Miro feature gene 32068 32603 . + . ID=Miro_52; +Miro GenBank CDS 32076 32603 . + 1 Alias=Miro_52;ID=Miro_52.CDS;Name=Miro_52;Parent=Miro_52;obsolete_name=Miro_112;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 32068 32070 . + 1 ID=Miro_52.RBS;Name=Miro_52;Parent=Miro_52; +Miro feature gene 32588 32815 . + . ID=Miro_53; +Miro GenBank CDS 32600 32815 . + 1 Alias=Miro_53;ID=Miro_53.CDS;Name=Miro_53;Parent=Miro_53;obsolete_name=Miro_111;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 32588 32590 . + 1 ID=Miro_53.RBS;Name=Miro_53;Parent=Miro_53; +Miro feature gene 30564 30838 . - . ID=Miro_50; +Miro GenBank CDS 30564 30827 . - 1 ID=Miro_50.CDS;Name=Miro_50;Note=T4-like;Parent=Miro_50;obsolete_name=Miro_114;product=dsDNA-binding protein; +Miro GenBank Shine_Dalgarno_sequence 30834 30838 . - 1 Alias=Miro_50;ID=Miro_50.RBS;Name=Miro_50;Parent=Miro_50; +Miro feature gene 30837 31781 . - . ID=Miro_51; +Miro GenBank CDS 30837 31772 . - 1 ID=Miro_51.CDS;Name=Miro_51;Note=T4 RNase H-like;Parent=Miro_51;obsolete_name=Miro_113;product=5'-3' exonuclease; +Miro GenBank Shine_Dalgarno_sequence 31778 31781 . - 1 Alias=Miro_51;ID=Miro_51.RBS;Name=Miro_51;Parent=Miro_51; +Miro feature gene 36162 36363 . + . ID=Miro_58; +Miro GenBank CDS 36172 36363 . + 1 Alias=Miro_58;ID=Miro_58.CDS;Name=Miro_58;Parent=Miro_58;obsolete_name=Miro_106;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 36162 36166 . + 1 ID=Miro_58.RBS;Name=Miro_58;Parent=Miro_58; +Miro feature gene 36425 38146 . + . ID=Miro_59; +Miro GenBank CDS 36437 38146 . + 1 Alias=Miro_59;ID=Miro_59.CDS;Name=Miro_59;Note=contains DNAJ domain;Parent=Miro_59;obsolete_name=Miro_105;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 36425 36428 . + 1 ID=Miro_59.RBS;Name=Miro_59;Parent=Miro_59; +Miro feature gene 65396 65799 . + . ID=Miro_109; +Miro GenBank CDS 65407 65799 . + 1 Alias=Miro_109;ID=Miro_109.CDS;Name=Miro_109;Note=T4-like;Parent=Miro_109;obsolete_name=Miro_055;product=tail lysozyme; +Miro GenBank Shine_Dalgarno_sequence 65396 65399 . + 1 ID=Miro_109.RBS;Name=Miro_109;Parent=Miro_109; +Miro feature gene 64840 65406 . + . ID=Miro_108; +Miro GenBank CDS 64852 65406 . + 1 Alias=Miro_108;ID=Miro_108.CDS;Name=Miro_108;Note=T4 gp26/gp51-like;Parent=Miro_108;obsolete_name=Miro_056;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 64840 64843 . + 1 ID=Miro_108.RBS;Name=Miro_108;Parent=Miro_108; +Miro feature gene 64103 64855 . + . ID=Miro_107; +Miro GenBank CDS 64112 64855 . + 1 Alias=Miro_107;ID=Miro_107.CDS;Name=Miro_107;Note=T4 gp26/gp51-like;Parent=Miro_107;obsolete_name=Miro_057;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 64103 64106 . + 1 ID=Miro_107.RBS;Name=Miro_107;Parent=Miro_107; +Miro feature gene 63210 64083 . + . ID=Miro_106; +Miro GenBank CDS 63220 64083 . + 1 Alias=Miro_106;ID=Miro_106.CDS;Name=Miro_106;Note=T4 gp19-like;Parent=Miro_106;obsolete_name=Miro_058;product=tail tube protein; +Miro GenBank Shine_Dalgarno_sequence 63210 63214 . + 1 ID=Miro_106.RBS;Name=Miro_106;Parent=Miro_106; +Miro feature gene 62126 63210 . + . ID=Miro_105; +Miro GenBank CDS 62137 63210 . + 1 Alias=Miro_105;ID=Miro_105.CDS;Name=Miro_105;Note=T4 gp48-like;Parent=Miro_105;obsolete_name=Miro_059;product=tail tube assembly protein; +Miro GenBank Shine_Dalgarno_sequence 62126 62129 . + 1 ID=Miro_105.RBS;Name=Miro_105;Parent=Miro_105; +Miro feature gene 60343 62126 . + . ID=Miro_104; +Miro GenBank CDS 60354 62126 . + 1 Alias=Miro_104;ID=Miro_104.CDS;Name=Miro_104;Parent=Miro_104;obsolete_name=Miro_060;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 60343 60345 . + 1 ID=Miro_104.RBS;Name=Miro_104;Parent=Miro_104; +Miro feature gene 59767 60351 . + . ID=Miro_103; +Miro GenBank CDS 59776 60351 . + 1 Alias=Miro_103;ID=Miro_103.CDS;Name=Miro_103;Note=T4 gp28-like;Parent=Miro_103;obsolete_name=Miro_061;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 59767 59770 . + 1 ID=Miro_103.RBS;Name=Miro_103;Parent=Miro_103; +Miro feature gene 58597 59719 . - . ID=Miro_102; +Miro GenBank CDS 58597 59706 . - 1 ID=Miro_102.CDS;Name=Miro_102;Note=T4 gp27-like;Parent=Miro_102;obsolete_name=Miro_062;product=baseplate structural protein; +Miro GenBank Shine_Dalgarno_sequence 59714 59719 . - 1 Alias=Miro_102;ID=Miro_102.RBS;Name=Miro_102;Parent=Miro_102; +Miro feature gene 58210 58600 . + . ID=Miro_101; +Miro GenBank CDS 58223 58600 . + 1 Alias=Miro_101;ID=Miro_101.CDS;Name=Miro_101;Parent=Miro_101;obsolete_name=Miro_063;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 58210 58213 . + 1 ID=Miro_101.RBS;Name=Miro_101;Parent=Miro_101; +Miro feature gene 57934 58236 . + . ID=Miro_100; +Miro GenBank CDS 57946 58236 . + 1 Alias=Miro_100;ID=Miro_100.CDS;Name=Miro_100;Parent=Miro_100;obsolete_name=Miro_064;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 57934 57936 . + 1 ID=Miro_100.RBS;Name=Miro_100;Parent=Miro_100; +Miro feature gene 142768 143313 . + . ID=Miro_228; +Miro GenBank CDS 142780 143313 . + 1 Alias=Miro_228;ID=Miro_228.CDS;Name=Miro_228;Note=contains Ig-like fold;Parent=Miro_228;obsolete_name=Miro_212;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 142768 142772 . + 1 ID=Miro_228.RBS;Name=Miro_228;Parent=Miro_228; +Miro feature gene 143314 143599 . + . ID=Miro_229; +Miro GenBank CDS 143324 143599 . + 1 Alias=Miro_229;ID=Miro_229.CDS;Name=Miro_229;Parent=Miro_229;obsolete_name=Miro_211;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 143314 143317 . + 1 ID=Miro_229.RBS;Name=Miro_229;Parent=Miro_229; +Miro feature gene 138844 139028 . + . ID=Miro_222; +Miro GenBank CDS 138852 139028 . + 1 Alias=Miro_222;ID=Miro_222.CDS;Name=Miro_222;Parent=Miro_222;obsolete_name=Miro_218;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 138844 138846 . + 1 ID=Miro_222.RBS;Name=Miro_222;Parent=Miro_222; +Miro feature gene 139303 139545 . - . ID=Miro_223; +Miro GenBank CDS 139303 139536 . - 1 ID=Miro_223.CDS;Name=Miro_223;Note=T4 UvsW-like;Parent=Miro_223;obsolete_name=Miro_217;product=ATP-dependent DNA helicase; +Miro GenBank Shine_Dalgarno_sequence 139542 139545 . - 1 Alias=Miro_223;ID=Miro_223.RBS;Name=Miro_223;Parent=Miro_223; +Miro feature gene 136828 138128 . + . ID=Miro_220; +Miro GenBank CDS 136839 138128 . + 1 Alias=Miro_220;ID=Miro_220.CDS;Name=Miro_220;Note=T4 gp23/gp24-like;Parent=Miro_220;obsolete_name=Miro_220;product=major capsid protein; +Miro GenBank Shine_Dalgarno_sequence 136828 136831 . + 1 ID=Miro_220.RBS;Name=Miro_220;Parent=Miro_220; +Miro feature gene 138424 138852 . + . ID=Miro_221; +Miro GenBank CDS 138433 138852 . + 1 Alias=Miro_221;ID=Miro_221.CDS;Name=Miro_221;Parent=Miro_221;obsolete_name=Miro_219;product=UvsY recombination protein; +Miro GenBank Shine_Dalgarno_sequence 138424 138426 . + 1 ID=Miro_221.RBS;Name=Miro_221;Parent=Miro_221; +Miro feature gene 141819 142142 . + . ID=Miro_226; +Miro GenBank CDS 141831 142142 . + 1 Alias=Miro_226;ID=Miro_226.CDS;Name=Miro_226;Parent=Miro_226;obsolete_name=Miro_214;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 141819 141822 . + 1 ID=Miro_226.RBS;Name=Miro_226;Parent=Miro_226; +Miro feature gene 142173 142751 . + . ID=Miro_227; +Miro GenBank CDS 142182 142751 . + 1 Alias=Miro_227;ID=Miro_227.CDS;Name=Miro_227;Note=contains heat shock protein DNAJ domain;Parent=Miro_227;obsolete_name=Miro_213;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 142173 142176 . + 1 ID=Miro_227.RBS;Name=Miro_227;Parent=Miro_227; +Miro feature gene 139545 141056 . - . ID=Miro_224; +Miro GenBank CDS 139545 141044 . - 1 ID=Miro_224.CDS;Name=Miro_224;Note=contains helicase superfamily and ATP-binding domains;Parent=Miro_224;obsolete_name=Miro_216;product=DNA helicase; +Miro GenBank Shine_Dalgarno_sequence 141053 141056 . - 1 Alias=Miro_224;ID=Miro_224.RBS;Name=Miro_224;Parent=Miro_224; +Miro feature gene 141104 141738 . + . ID=Miro_225; +Miro GenBank CDS 141115 141738 . + 1 Alias=Miro_225;ID=Miro_225.CDS;Name=Miro_225;Parent=Miro_225;obsolete_name=Miro_215;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 141104 141107 . + 1 ID=Miro_225.RBS;Name=Miro_225;Parent=Miro_225; +Miro feature gene 154043 154534 . + . ID=Miro_248; +Miro GenBank CDS 154052 154534 . + 1 Alias=Miro_248;ID=Miro_248.CDS;Name=Miro_248;Note=T4 gp49-like;Parent=Miro_248;obsolete_name=Miro_192;product=recombination endonuclease; +Miro GenBank Shine_Dalgarno_sequence 154043 154045 . + 1 ID=Miro_248.RBS;Name=Miro_248;Parent=Miro_248; +Miro feature gene 154521 154857 . + . ID=Miro_249; +Miro GenBank CDS 154531 154857 . + 1 Alias=Miro_249;ID=Miro_249.CDS;Name=Miro_249;Parent=Miro_249;obsolete_name=Miro_191;product=hypothetical novel; +Miro GenBank Shine_Dalgarno_sequence 154521 154523 . + 1 ID=Miro_249.RBS;Name=Miro_249;Parent=Miro_249; +Miro feature gene 149229 149828 . + . ID=Miro_240; +Miro GenBank CDS 149247 149828 . + 1 Alias=Miro_240;ID=Miro_240.CDS;Name=Miro_240;Parent=Miro_240;obsolete_name=Miro_200;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 149229 149232 . + 1 ID=Miro_240.RBS;Name=Miro_240;Parent=Miro_240; +Miro feature gene 149813 150346 . + . ID=Miro_241; +Miro GenBank CDS 149822 150346 . + 1 Alias=Miro_241;ID=Miro_241.CDS;Name=Miro_241;Parent=Miro_241;obsolete_name=Miro_199;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 149813 149815 . + 1 ID=Miro_241.RBS;Name=Miro_241;Parent=Miro_241; +Miro feature gene 150412 150684 . + . ID=Miro_242; +Miro GenBank CDS 150424 150684 . + 1 Alias=Miro_242;ID=Miro_242.CDS;Name=Miro_242;Parent=Miro_242;obsolete_name=Miro_198;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 150412 150415 . + 1 ID=Miro_242.RBS;Name=Miro_242;Parent=Miro_242; +Miro feature gene 150684 151143 . + . ID=Miro_243; +Miro GenBank CDS 150694 151143 . + 1 Alias=Miro_243;ID=Miro_243.CDS;Name=Miro_243;Parent=Miro_243;obsolete_name=Miro_197;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 150684 150687 . + 1 ID=Miro_243.RBS;Name=Miro_243;Parent=Miro_243; +Miro feature gene 151160 152604 . + . ID=Miro_244; +Miro GenBank CDS 151171 152604 . + 1 Alias=Miro_244;ID=Miro_244.CDS;Name=Miro_244;Note=contains quinolinate phosphoribosyl transferase domain;Parent=Miro_244;obsolete_name=Miro_196;product=nicotinamide phosphoribosyl transferase; +Miro GenBank Shine_Dalgarno_sequence 151160 151163 . + 1 ID=Miro_244.RBS;Name=Miro_244;Parent=Miro_244; +Miro feature gene 152576 152893 . + . ID=Miro_245; +Miro GenBank CDS 152591 152893 . + 1 Alias=Miro_245;ID=Miro_245.CDS;Name=Miro_245;Parent=Miro_245;obsolete_name=Miro_195;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 152576 152579 . + 1 ID=Miro_245.RBS;Name=Miro_245;Parent=Miro_245; +Miro feature gene 153004 153741 . + . ID=Miro_246; +Miro GenBank CDS 153016 153741 . + 1 Alias=Miro_246;ID=Miro_246.CDS;Name=Miro_246;Note=T4-like;Parent=Miro_246;obsolete_name=Miro_194;product=DNA adenine methylase; +Miro GenBank Shine_Dalgarno_sequence 153004 153006 . + 1 ID=Miro_246.RBS;Name=Miro_246;Parent=Miro_246; +Miro feature gene 153741 154019 . + . ID=Miro_247; +Miro GenBank CDS 153750 154019 . + 1 Alias=Miro_247;ID=Miro_247.CDS;Name=Miro_247;Note=T4 NrdC-like;Parent=Miro_247;obsolete_name=Miro_193;product=glutaredoxin; +Miro GenBank Shine_Dalgarno_sequence 153741 153744 . + 1 ID=Miro_247.RBS;Name=Miro_247;Parent=Miro_247; +Miro feature gene 12732 14075 . - . ID=Miro_23; +Miro GenBank CDS 12732 14060 . - 1 ID=Miro_23.CDS;Name=Miro_23;Note=contains P-loop containing nucleoside triphosphate hydrolase domain;Parent=Miro_23;obsolete_name=Miro_141;product=DNA helicase; +Miro GenBank Shine_Dalgarno_sequence 14073 14075 . - 1 Alias=Miro_23;ID=Miro_23.RBS;Name=Miro_23;Parent=Miro_23; +Miro feature gene 12399 12716 . - . ID=Miro_22; +Miro GenBank CDS 12399 12707 . - 1 ID=Miro_22.CDS;Name=Miro_22;Parent=Miro_22;obsolete_name=Miro_142;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 12713 12716 . - 1 Alias=Miro_22;ID=Miro_22.RBS;Name=Miro_22;Parent=Miro_22; +Miro feature gene 12114 12410 . - . ID=Miro_21; +Miro GenBank CDS 12114 12398 . - 1 ID=Miro_21.CDS;Name=Miro_21;Parent=Miro_21;obsolete_name=Miro_143;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 12407 12410 . - 1 Alias=Miro_21;ID=Miro_21.RBS;Name=Miro_21;Parent=Miro_21; +Miro feature gene 11728 12126 . - . ID=Miro_20; +Miro GenBank CDS 11728 12117 . - 1 ID=Miro_20.CDS;Name=Miro_20;Parent=Miro_20;obsolete_name=Miro_144;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 12123 12126 . - 1 Alias=Miro_20;ID=Miro_20.RBS;Name=Miro_20;Parent=Miro_20; +Miro feature gene 15073 16108 . - . ID=Miro_27; +Miro GenBank CDS 15073 16098 . - 1 ID=Miro_27.CDS;Name=Miro_27;Note=T4-like;Parent=Miro_27;obsolete_name=Miro_137;product=DNA primase; +Miro GenBank Shine_Dalgarno_sequence 16104 16108 . - 1 Alias=Miro_27;ID=Miro_27.RBS;Name=Miro_27;Parent=Miro_27; +Miro feature gene 14529 15074 . - . ID=Miro_26; +Miro GenBank CDS 14529 15065 . - 1 ID=Miro_26.CDS;Name=Miro_26;Parent=Miro_26;obsolete_name=Miro_138;product=dCTP pyrophosphatase; +Miro GenBank Shine_Dalgarno_sequence 15072 15074 . - 1 Alias=Miro_26;ID=Miro_26.RBS;Name=Miro_26;Parent=Miro_26; +Miro feature gene 14344 14545 . - . ID=Miro_25; +Miro GenBank CDS 14344 14529 . - 1 ID=Miro_25.CDS;Name=Miro_25;Parent=Miro_25;obsolete_name=Miro_139;product=hypothetical conserved;tmhelix=2TMDs (7-29%2C 39-57) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 14543 14545 . - 1 Alias=Miro_25;ID=Miro_25.RBS;Name=Miro_25;Parent=Miro_25; +Miro feature gene 14057 14358 . - . ID=Miro_24; +Miro GenBank CDS 14057 14347 . - 1 ID=Miro_24.CDS;Name=Miro_24;Parent=Miro_24;obsolete_name=Miro_140;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 14355 14358 . - 1 Alias=Miro_24;ID=Miro_24.RBS;Name=Miro_24;Parent=Miro_24; +Miro feature gene 16418 16647 . - . ID=Miro_29; +Miro GenBank CDS 16418 16636 . - 1 ID=Miro_29.CDS;Name=Miro_29;Parent=Miro_29;obsolete_name=Miro_135;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 16644 16647 . - 1 Alias=Miro_29;ID=Miro_29.RBS;Name=Miro_29;Parent=Miro_29; +Miro feature gene 16102 16375 . - . ID=Miro_28; +Miro GenBank CDS 16102 16362 . - 1 ID=Miro_28.CDS;Name=Miro_28;Note=contains zinc finger domain;Parent=Miro_28;obsolete_name=Miro_136;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 16370 16375 . - 1 Alias=Miro_28;ID=Miro_28.RBS;Name=Miro_28;Parent=Miro_28; +Miro feature gene 76662 77733 . - . ID=Miro_132; +Miro GenBank CDS 76662 77723 . - 1 ID=Miro_132.CDS;Name=Miro_132;Parent=Miro_132;obsolete_name=Miro_032;product=NUDIX hydrolase; +Miro GenBank Shine_Dalgarno_sequence 77730 77733 . - 1 Alias=Miro_132;ID=Miro_132.RBS;Name=Miro_132;Parent=Miro_132; +Miro feature gene 77900 78824 . - . ID=Miro_133; +Miro GenBank CDS 77900 78814 . - 1 ID=Miro_133.CDS;Name=Miro_133;Parent=Miro_133;obsolete_name=Miro_031;product=hypothetical conserved;signal=signal peptidase I cleavage site 34-35; +Miro GenBank Shine_Dalgarno_sequence 78822 78824 . - 1 Alias=Miro_133;ID=Miro_133.RBS;Name=Miro_133;Parent=Miro_133; +Miro feature gene 76025 76309 . - . ID=Miro_130; +Miro GenBank CDS 76025 76297 . - 1 ID=Miro_130.CDS;Name=Miro_130;Parent=Miro_130;obsolete_name=Miro_034;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 76307 76309 . - 1 Alias=Miro_130;ID=Miro_130.RBS;Name=Miro_130;Parent=Miro_130; +Miro feature gene 76294 76498 . - . ID=Miro_131; +Miro GenBank CDS 76294 76488 . - 1 ID=Miro_131.CDS;Name=Miro_131;Parent=Miro_131;obsolete_name=Miro_033;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 76495 76498 . - 1 Alias=Miro_131;ID=Miro_131.RBS;Name=Miro_131;Parent=Miro_131; +Miro feature gene 79668 80071 . - . ID=Miro_136; +Miro GenBank CDS 79668 80060 . - 1 ID=Miro_136.CDS;Name=Miro_136;Parent=Miro_136;obsolete_name=Miro_028;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 80067 80071 . - 1 Alias=Miro_136;ID=Miro_136.RBS;Name=Miro_136;Parent=Miro_136; +Miro feature gene 80077 80695 . - . ID=Miro_137; +Miro GenBank CDS 80077 80685 . - 1 ID=Miro_137.CDS;Name=Miro_137;Note=contains P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_137;obsolete_name=Miro_027;product=thymidine kinase; +Miro GenBank Shine_Dalgarno_sequence 80693 80695 . - 1 Alias=Miro_137;ID=Miro_137.RBS;Name=Miro_137;Parent=Miro_137; +Miro feature gene 78886 79317 . - . ID=Miro_134; +Miro GenBank CDS 78886 79308 . - 1 ID=Miro_134.CDS;Name=Miro_134;Parent=Miro_134;obsolete_name=Miro_030;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 79314 79317 . - 1 Alias=Miro_134;ID=Miro_134.RBS;Name=Miro_134;Parent=Miro_134; +Miro feature gene 79280 79572 . - . ID=Miro_135; +Miro GenBank CDS 79280 79561 . - 1 ID=Miro_135.CDS;Name=Miro_135;Parent=Miro_135;obsolete_name=Miro_029;product=hypothetical conserved;tmhelix=2TMDs (7-24%2C 39-61) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 79570 79572 . - 1 Alias=Miro_135;ID=Miro_135.RBS;Name=Miro_135;Parent=Miro_135; +Miro feature gene 80678 80889 . - . ID=Miro_138; +Miro GenBank CDS 80678 80875 . - 1 ID=Miro_138.CDS;Name=Miro_138;Parent=Miro_138;obsolete_name=Miro_026;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 80886 80889 . - 1 Alias=Miro_138;ID=Miro_138.RBS;Name=Miro_138;Parent=Miro_138; +Miro feature gene 80868 81097 . - . ID=Miro_139; +Miro GenBank CDS 80868 81083 . - 1 ID=Miro_139.CDS;Name=Miro_139;Parent=Miro_139;obsolete_name=Miro_025;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 81095 81097 . - 1 Alias=Miro_139;ID=Miro_139.RBS;Name=Miro_139;Parent=Miro_139; +Miro feature gene 128192 130197 . + . ID=Miro_211; +Miro GenBank CDS 128206 130197 . + 1 Alias=Miro_211;ID=Miro_211.CDS;Name=Miro_211;Note=T4 gp18-like;Parent=Miro_211;obsolete_name=Miro_229;product=tail sheath protein; +Miro GenBank Shine_Dalgarno_sequence 128192 128195 . + 1 ID=Miro_211.RBS;Name=Miro_211;Parent=Miro_211; +Miro feature gene 148228 149257 . + . ID=Miro_239; +Miro GenBank CDS 148238 149257 . + 1 Alias=Miro_239;ID=Miro_239.CDS;Name=Miro_239;Note=T4 Rnl2-like;Parent=Miro_239;obsolete_name=Miro_201;product=RNA ligase; +Miro GenBank Shine_Dalgarno_sequence 148228 148231 . + 1 ID=Miro_239.RBS;Name=Miro_239;Parent=Miro_239; +Miro feature gene 99939 100090 . - . ID=Miro_184; +Miro GenBank CDS 99939 100079 . - 1 ID=Miro_184.CDS;Name=Miro_184;Parent=Miro_184;obsolete_name=Miro_256;product=hypothetical conserved;tmhelix=1 TMD (19-41) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 100085 100090 . - 1 Alias=Miro_184;ID=Miro_184.RBS;Name=Miro_184;Parent=Miro_184; +Miro feature gene 146845 147029 . + . ID=Miro_235; +Miro GenBank CDS 146853 147029 . + 1 Alias=Miro_235;ID=Miro_235.CDS;Name=Miro_235;Parent=Miro_235;obsolete_name=Miro_205;product=hypothetical conserved;tmhelix=2TMDs (5-27%2C 31-50) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 146845 146847 . + 1 ID=Miro_235.RBS;Name=Miro_235;Parent=Miro_235; +Miro feature gene 146530 146856 . + . ID=Miro_234; +Miro GenBank CDS 146539 146856 . + 1 Alias=Miro_234;ID=Miro_234.CDS;Name=Miro_234;Parent=Miro_234;obsolete_name=Miro_206;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 146530 146533 . + 1 ID=Miro_234.RBS;Name=Miro_234;Parent=Miro_234; +Miro feature gene 147343 147710 . + . ID=Miro_237; +Miro GenBank CDS 147354 147710 . + 1 Alias=Miro_237;ID=Miro_237.CDS;Name=Miro_237;Parent=Miro_237;obsolete_name=Miro_203;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 147343 147346 . + 1 ID=Miro_237.RBS;Name=Miro_237;Parent=Miro_237; +Miro feature gene 147016 147352 . + . ID=Miro_236; +Miro GenBank CDS 147026 147352 . + 1 Alias=Miro_236;ID=Miro_236.CDS;Name=Miro_236;Parent=Miro_236;obsolete_name=Miro_204;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 147016 147019 . + 1 ID=Miro_236.RBS;Name=Miro_236;Parent=Miro_236; +Miro feature gene 144163 144638 . - . ID=Miro_231; +Miro GenBank CDS 144163 144627 . - 1 ID=Miro_231.CDS;Name=Miro_231;Note=contains HAD-like domain;Parent=Miro_231;obsolete_name=Miro_209;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 144635 144638 . - 1 Alias=Miro_231;ID=Miro_231.RBS;Name=Miro_231;Parent=Miro_231; +Miro feature gene 143604 144131 . + . ID=Miro_230; +Miro GenBank CDS 143613 144131 . + 1 Alias=Miro_230;ID=Miro_230.CDS;Name=Miro_230;Parent=Miro_230;obsolete_name=Miro_210;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 143604 143606 . + 1 ID=Miro_230.RBS;Name=Miro_230;Parent=Miro_230; +Miro feature gene 145620 146506 . + . ID=Miro_233; +Miro GenBank CDS 145631 146506 . + 1 Alias=Miro_233;ID=Miro_233.CDS;Name=Miro_233;Parent=Miro_233;obsolete_name=Miro_207;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 145620 145623 . + 1 ID=Miro_233.RBS;Name=Miro_233;Parent=Miro_233; +Miro feature gene 144677 145528 . - . ID=Miro_232; +Miro GenBank CDS 144677 145516 . - 1 ID=Miro_232.CDS;Name=Miro_232;Note=contains P-loop NTPase and zeta toxin domains;Parent=Miro_232;obsolete_name=Miro_208;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 145525 145528 . - 1 Alias=Miro_232;ID=Miro_232.RBS;Name=Miro_232;Parent=Miro_232; +Miro feature gene 160735 161413 . + . ID=Miro_259; +Miro GenBank CDS 160745 161413 . + 1 Alias=Miro_259;ID=Miro_259.CDS;Name=Miro_259;Parent=Miro_259;obsolete_name=Miro_181;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 160735 160739 . + 1 ID=Miro_259.RBS;Name=Miro_259;Parent=Miro_259; +Miro feature gene 65834 66298 . - . ID=Miro_110; +Miro GenBank CDS 65834 66289 . - 1 ID=Miro_110.CDS;Name=Miro_110;Parent=Miro_110;obsolete_name=Miro_054;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 66295 66298 . - 1 Alias=Miro_110;ID=Miro_110.RBS;Name=Miro_110;Parent=Miro_110; +Miro GenBank CDS 157781 157987 . + 1 ID=Miro_253;Name=Miro_253;obsolete_name=Miro_187;product=hypothetical conserved; +Miro feature gene 157275 157781 . + . ID=Miro_252; +Miro GenBank CDS 157287 157781 . + 1 Alias=Miro_252;ID=Miro_252.CDS;Name=Miro_252;Parent=Miro_252;obsolete_name=Miro_188;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 157275 157278 . + 1 ID=Miro_252.RBS;Name=Miro_252;Parent=Miro_252; +Miro feature gene 157033 157287 . + . ID=Miro_251; +Miro GenBank CDS 157045 157287 . + 1 Alias=Miro_251;ID=Miro_251.CDS;Name=Miro_251;Parent=Miro_251;obsolete_name=Miro_189;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 157033 157037 . + 1 ID=Miro_251.RBS;Name=Miro_251;Parent=Miro_251; +Miro feature gene 154844 156977 . + . ID=Miro_250; +Miro GenBank CDS 154854 156977 . + 1 Alias=Miro_250;ID=Miro_250.CDS;Name=Miro_250;Note=T4-like%3B contains glycine radical domain;Parent=Miro_250;obsolete_name=Miro_190;product=anaerobic ribonucleoside-triphosphate reductase; +Miro GenBank Shine_Dalgarno_sequence 154844 154846 . + 1 ID=Miro_250.RBS;Name=Miro_250;Parent=Miro_250; +Miro feature gene 159166 159667 . + . ID=Miro_257; +Miro GenBank CDS 159176 159667 . + 1 Alias=Miro_257;ID=Miro_257.CDS;Name=Miro_257;Note=T4 NrdG-like;Parent=Miro_257;obsolete_name=Miro_183;product=ribonucleoside-triphosphate reductase activating protein; +Miro GenBank Shine_Dalgarno_sequence 159166 159169 . + 1 ID=Miro_257.RBS;Name=Miro_257;Parent=Miro_257; +Miro feature gene 158528 159179 . + . ID=Miro_256; +Miro GenBank CDS 158538 159179 . + 1 Alias=Miro_256;ID=Miro_256.CDS;Name=Miro_256;Note=contains nuclease associated modular 3 and winged helix-turn-helix DNA-binding domains;Parent=Miro_256;obsolete_name=Miro_184;product=homing endonuclease; +Miro GenBank Shine_Dalgarno_sequence 158528 158530 . + 1 ID=Miro_256.RBS;Name=Miro_256;Parent=Miro_256; +Miro feature gene 158309 158511 . + . ID=Miro_255; +Miro GenBank CDS 158320 158511 . + 1 Alias=Miro_255;ID=Miro_255.CDS;Name=Miro_255;Parent=Miro_255;obsolete_name=Miro_185;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 158309 158314 . + 1 ID=Miro_255.RBS;Name=Miro_255;Parent=Miro_255; +Miro feature gene 157997 158259 . + . ID=Miro_254; +Miro GenBank CDS 158008 158259 . + 1 Alias=Miro_254;ID=Miro_254.CDS;Name=Miro_254;Parent=Miro_254;obsolete_name=Miro_186;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 157997 158000 . + 1 ID=Miro_254.RBS;Name=Miro_254;Parent=Miro_254; +Miro feature gene 16633 17132 . - . ID=Miro_30; +Miro GenBank CDS 16633 17121 . - 1 ID=Miro_30.CDS;Name=Miro_30;Note=T4 gp23/gp24-like;Parent=Miro_30;obsolete_name=Miro_134;product=major capsid protein; +Miro GenBank Shine_Dalgarno_sequence 17130 17132 . - 1 Alias=Miro_30;ID=Miro_30.RBS;Name=Miro_30;Parent=Miro_30; +Miro feature gene 17127 17819 . - . ID=Miro_31; +Miro GenBank CDS 17127 17813 . - 1 ID=Miro_31.CDS;Name=Miro_31;Note=contains N-6 adenine-specific DNA methylase conserved site;Parent=Miro_31;obsolete_name=Miro_133;product=radical SAM protein; +Miro GenBank Shine_Dalgarno_sequence 17817 17819 . - 1 Alias=Miro_31;ID=Miro_31.RBS;Name=Miro_31;Parent=Miro_31; +Miro feature gene 17839 18240 . - . ID=Miro_32; +Miro GenBank CDS 17839 18231 . - 1 ID=Miro_32.CDS;Name=Miro_32;Parent=Miro_32;obsolete_name=Miro_132;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 18237 18240 . - 1 Alias=Miro_32;ID=Miro_32.RBS;Name=Miro_32;Parent=Miro_32; +Miro feature gene 18228 18475 . - . ID=Miro_33; +Miro GenBank CDS 18228 18464 . - 1 ID=Miro_33.CDS;Name=Miro_33;Parent=Miro_33;obsolete_name=Miro_131;product=hypothetical conserved;tmhelix=2TMDs (5-27%2C 38-60) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 18470 18475 . - 1 Alias=Miro_33;ID=Miro_33.RBS;Name=Miro_33;Parent=Miro_33; +Miro feature gene 18556 18822 . - . ID=Miro_34; +Miro GenBank CDS 18556 18810 . - 1 ID=Miro_34.CDS;Name=Miro_34;Parent=Miro_34;obsolete_name=Miro_130;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 18818 18822 . - 1 Alias=Miro_34;ID=Miro_34.RBS;Name=Miro_34;Parent=Miro_34; +Miro feature gene 18889 19168 . - . ID=Miro_35; +Miro GenBank CDS 18889 19158 . - 1 ID=Miro_35.CDS;Name=Miro_35;Parent=Miro_35;obsolete_name=Miro_129;product=hypothetical conserved;tmhelix=2TMDs (7-29%2C 44-66) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 19165 19168 . - 1 Alias=Miro_35;ID=Miro_35.RBS;Name=Miro_35;Parent=Miro_35; +Miro feature gene 19202 20648 . - . ID=Miro_36; +Miro GenBank CDS 19202 20638 . - 1 ID=Miro_36.CDS;Name=Miro_36;Note=T4 gp41-like;Parent=Miro_36;obsolete_name=Miro_128;product=DNA helicase; +Miro GenBank Shine_Dalgarno_sequence 20646 20648 . - 1 Alias=Miro_36;ID=Miro_36.RBS;Name=Miro_36;Parent=Miro_36; +Miro feature gene 20648 20978 . - . ID=Miro_37; +Miro GenBank CDS 20648 20968 . - 1 ID=Miro_37.CDS;Name=Miro_37;Note=T4 gp40-like;Parent=Miro_37;obsolete_name=Miro_127;product=head formation protein; +Miro GenBank Shine_Dalgarno_sequence 20975 20978 . - 1 Alias=Miro_37;ID=Miro_37.RBS;Name=Miro_37;Parent=Miro_37; +Miro feature gene 21006 22174 . - . ID=Miro_38; +Miro GenBank CDS 21006 22163 . - 1 ID=Miro_38.CDS;Name=Miro_38;Note=T4 RecA-like;Parent=Miro_38;obsolete_name=Miro_126;product=DNA recombination and repair protein;tmhelix=1 TMD (40-62) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 22172 22174 . - 1 Alias=Miro_38;ID=Miro_38.RBS;Name=Miro_38;Parent=Miro_38; +Miro feature gene 22238 24954 . - . ID=Miro_39; +Miro GenBank CDS 22238 24937 . - 1 ID=Miro_39.CDS;Name=Miro_39;Note=T4 gp43-like;Parent=Miro_39;obsolete_name=Miro_125;product=DNA polymerase; +Miro GenBank Shine_Dalgarno_sequence 24951 24954 . - 1 Alias=Miro_39;ID=Miro_39.RBS;Name=Miro_39;Parent=Miro_39; +Miro feature gene 101597 101867 . - . ID=Miro_188; +Miro GenBank CDS 101597 101857 . - 1 ID=Miro_188.CDS;Name=Miro_188;Parent=Miro_188;obsolete_name=Miro_252;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 101864 101867 . - 1 Alias=Miro_188;ID=Miro_188.RBS;Name=Miro_188;Parent=Miro_188; +Miro feature gene 73570 73827 . - . ID=Miro_125; +Miro GenBank CDS 73570 73815 . - 1 ID=Miro_125.CDS;Name=Miro_125;Parent=Miro_125;obsolete_name=Miro_039;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 73823 73827 . - 1 Alias=Miro_125;ID=Miro_125.RBS;Name=Miro_125;Parent=Miro_125; +Miro feature gene 66297 66533 . - . ID=Miro_111; +Miro GenBank CDS 66297 66521 . - 1 ID=Miro_111.CDS;Name=Miro_111;Parent=Miro_111;obsolete_name=Miro_053;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 66530 66533 . - 1 Alias=Miro_111;ID=Miro_111.RBS;Name=Miro_111;Parent=Miro_111; +Miro feature gene 74819 75206 . - . ID=Miro_127; +Miro GenBank CDS 74819 75196 . - 1 ID=Miro_127.CDS;Name=Miro_127;Parent=Miro_127;obsolete_name=Miro_037;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 75203 75206 . - 1 Alias=Miro_127;ID=Miro_127.RBS;Name=Miro_127;Parent=Miro_127; +Miro feature gene 73812 74832 . - . ID=Miro_126; +Miro GenBank CDS 73812 74819 . - 1 ID=Miro_126.CDS;Name=Miro_126;Note=T4 nrdC.11-like;Parent=Miro_126;obsolete_name=Miro_038;product=nucleotidyltransferase; +Miro GenBank Shine_Dalgarno_sequence 74829 74832 . - 1 Alias=Miro_126;ID=Miro_126.RBS;Name=Miro_126;Parent=Miro_126; +Miro feature gene 71861 72037 . - . ID=Miro_121; +Miro GenBank CDS 71861 72028 . - 1 ID=Miro_121.CDS;Name=Miro_121;Parent=Miro_121;obsolete_name=Miro_043;product=hypothetical conserved;tmhelix=2TMDs (9-26%2C 30-52) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 72034 72037 . - 1 Alias=Miro_121;ID=Miro_121.RBS;Name=Miro_121;Parent=Miro_121; +Miro feature gene 71577 71871 . - . ID=Miro_120; +Miro GenBank CDS 71577 71861 . - 1 ID=Miro_120.CDS;Name=Miro_120;Parent=Miro_120;obsolete_name=Miro_044;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 71868 71871 . - 1 Alias=Miro_120;ID=Miro_120.RBS;Name=Miro_120;Parent=Miro_120; +Miro feature gene 72390 73331 . - . ID=Miro_123; +Miro GenBank CDS 72390 73316 . - 1 ID=Miro_123.CDS;Name=Miro_123;Note=C-5 cytosine-specific active site;Parent=Miro_123;obsolete_name=Miro_041;product=cytosine-specific methyltransferase; +Miro GenBank Shine_Dalgarno_sequence 73329 73331 . - 1 Alias=Miro_123;ID=Miro_123.RBS;Name=Miro_123;Parent=Miro_123; +Miro feature gene 72068 72357 . - . ID=Miro_122; +Miro GenBank CDS 72068 72346 . - 1 ID=Miro_122.CDS;Name=Miro_122;Parent=Miro_122;obsolete_name=Miro_042;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 72354 72357 . - 1 Alias=Miro_122;ID=Miro_122.RBS;Name=Miro_122;Parent=Miro_122; +Miro feature gene 75417 76034 . - . ID=Miro_129; +Miro GenBank CDS 75417 76022 . - 1 ID=Miro_129.CDS;Name=Miro_129;Parent=Miro_129;obsolete_name=Miro_035;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 76031 76034 . - 1 Alias=Miro_129;ID=Miro_129.RBS;Name=Miro_129;Parent=Miro_129; +Miro feature gene 75193 75434 . - . ID=Miro_128; +Miro GenBank CDS 75193 75420 . - 1 ID=Miro_128.CDS;Name=Miro_128;Parent=Miro_128;obsolete_name=Miro_036;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 75430 75434 . - 1 Alias=Miro_128;ID=Miro_128.RBS;Name=Miro_128;Parent=Miro_128; +Miro feature gene 133686 134487 . + . ID=Miro_217; +Miro GenBank CDS 133699 134487 . + 1 Alias=Miro_217;ID=Miro_217.CDS;Name=Miro_217;Parent=Miro_217;obsolete_name=Miro_223;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 133686 133689 . + 1 ID=Miro_217.RBS;Name=Miro_217;Parent=Miro_217; +Miro feature gene 172795 173074 . - . ID=Miro_268; +Miro GenBank CDS 172795 173064 . - 1 ID=Miro_268.CDS;Name=Miro_268;Parent=Miro_268;obsolete_name=Miro_172;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 173071 173074 . - 1 Alias=Miro_268;ID=Miro_268.RBS;Name=Miro_268;Parent=Miro_268; +Miro feature gene 133007 133666 . + . ID=Miro_216; +Miro GenBank CDS 133019 133666 . + 1 Alias=Miro_216;ID=Miro_216.CDS;Name=Miro_216;Note=T4 gp21-like;Parent=Miro_216;obsolete_name=Miro_224;product=prohead core protein protease; +Miro GenBank Shine_Dalgarno_sequence 133007 133010 . + 1 ID=Miro_216.RBS;Name=Miro_216;Parent=Miro_216; +Miro feature gene 171490 172030 . + . ID=Miro_266; +Miro GenBank CDS 171503 172030 . + 1 Alias=Miro_266;ID=Miro_266.CDS;Name=Miro_266;Note=T2 gp38-like;Parent=Miro_266;obsolete_name=Miro_174;product=receptor-recognizing protein; +Miro GenBank Shine_Dalgarno_sequence 171490 171494 . + 1 ID=Miro_266.RBS;Name=Miro_266;Parent=Miro_266; +Miro feature gene 172135 172794 . + . ID=Miro_267; +Miro GenBank CDS 172147 172794 . + 1 Alias=Miro_267;ID=Miro_267.CDS;Name=Miro_267;Note=T4 gpT-like;Parent=Miro_267;obsolete_name=Miro_173;product=holin;tmhelix=1 TMD (29-47) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 172135 172137 . + 1 ID=Miro_267.RBS;Name=Miro_267;Parent=Miro_267; +Miro feature gene 166968 167645 . + . ID=Miro_264; +Miro GenBank CDS 166977 167645 . + 1 Alias=Miro_264;ID=Miro_264.CDS;Name=Miro_264;Note=T4 gp36-like;Parent=Miro_264;obsolete_name=Miro_176;product=tail fiber; +Miro GenBank Shine_Dalgarno_sequence 166968 166971 . + 1 ID=Miro_264.RBS;Name=Miro_264;Parent=Miro_264; +Miro feature gene 167645 171466 . + . ID=Miro_265; +Miro GenBank CDS 167654 171466 . + 1 Alias=Miro_265;ID=Miro_265.CDS;Name=Miro_265;Parent=Miro_265;obsolete_name=Miro_175;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 167645 167648 . + 1 ID=Miro_265.RBS;Name=Miro_265;Parent=Miro_265; +Miro feature gene 162017 165803 . + . ID=Miro_262; +Miro GenBank CDS 162030 165803 . + 1 Alias=Miro_262;ID=Miro_262.CDS;Name=Miro_262;Parent=Miro_262;obsolete_name=Miro_178;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 162017 162020 . + 1 ID=Miro_262.RBS;Name=Miro_262;Parent=Miro_262; +Miro feature gene 132602 133016 . + . ID=Miro_215; +Miro GenBank CDS 132612 133016 . + 1 Alias=Miro_215;ID=Miro_215.CDS;Name=Miro_215;Note=T4 gp68-like;Parent=Miro_215;obsolete_name=Miro_225;product=prohead core protein; +Miro GenBank Shine_Dalgarno_sequence 132602 132606 . + 1 ID=Miro_215.RBS;Name=Miro_215;Parent=Miro_215; +Miro feature gene 161360 161654 . + . ID=Miro_260; +Miro GenBank CDS 161373 161654 . + 1 Alias=Miro_260;ID=Miro_260.CDS;Name=Miro_260;Note=T4 NrdC-like;Parent=Miro_260;obsolete_name=Miro_180;product=glutaredoxin; +Miro GenBank Shine_Dalgarno_sequence 161360 161363 . + 1 ID=Miro_260.RBS;Name=Miro_260;Parent=Miro_260; +Miro feature gene 161642 161950 . + . ID=Miro_261; +Miro GenBank CDS 161651 161950 . + 1 Alias=Miro_261;ID=Miro_261.CDS;Name=Miro_261;Note=T4 gp55.2-like;Parent=Miro_261;obsolete_name=Miro_179;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 161642 161645 . + 1 ID=Miro_261.RBS;Name=Miro_261;Parent=Miro_261; +Miro feature gene 132347 132603 . + . ID=Miro_214; +Miro GenBank CDS 132361 132603 . + 1 Alias=Miro_214;ID=Miro_214.CDS;Name=Miro_214;Parent=Miro_214;obsolete_name=Miro_226;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 132347 132350 . + 1 ID=Miro_214.RBS;Name=Miro_214;Parent=Miro_214; +Miro feature gene 130777 132361 . + . ID=Miro_213; +Miro GenBank CDS 130787 132361 . + 1 Alias=Miro_213;ID=Miro_213.CDS;Name=Miro_213;Note=T4 gp20-like;Parent=Miro_213;obsolete_name=Miro_227;product=portal protein; +Miro GenBank Shine_Dalgarno_sequence 130777 130780 . + 1 ID=Miro_213.RBS;Name=Miro_213;Parent=Miro_213; +Miro feature gene 147698 148234 . + . ID=Miro_238; +Miro GenBank CDS 147710 148234 . + 1 Alias=Miro_238;ID=Miro_238.CDS;Name=Miro_238;Parent=Miro_238;obsolete_name=Miro_202;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 147698 147701 . + 1 ID=Miro_238.RBS;Name=Miro_238;Parent=Miro_238; +Miro feature gene 130235 130731 . + . ID=Miro_212; +Miro GenBank CDS 130246 130731 . + 1 Alias=Miro_212;ID=Miro_212.CDS;Name=Miro_212;Note=T4 gp19-like;Parent=Miro_212;obsolete_name=Miro_228;product=tail tube protein; +Miro GenBank Shine_Dalgarno_sequence 130235 130239 . + 1 ID=Miro_212.RBS;Name=Miro_212;Parent=Miro_212; +Miro feature gene 51892 52172 . + . ID=Miro_85; +Miro GenBank CDS 51903 52172 . + 1 Alias=Miro_85;ID=Miro_85.CDS;Name=Miro_85;Parent=Miro_85;obsolete_name=Miro_079;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 51892 51894 . + 1 ID=Miro_85.RBS;Name=Miro_85;Parent=Miro_85; +Miro feature gene 51531 51903 . + . ID=Miro_84; +Miro GenBank CDS 51541 51903 . + 1 Alias=Miro_84;ID=Miro_84.CDS;Name=Miro_84;Note=T4-like%3B contains glycine radical domain;Parent=Miro_84;obsolete_name=Miro_080;product=autonomous glycyl radical cofactor; +Miro GenBank Shine_Dalgarno_sequence 51531 51534 . + 1 ID=Miro_84.RBS;Name=Miro_84;Parent=Miro_84; +Miro feature gene 52585 52833 . + . ID=Miro_87; +Miro GenBank CDS 52594 52833 . + 1 Alias=Miro_87;ID=Miro_87.CDS;Name=Miro_87;Parent=Miro_87;obsolete_name=Miro_077;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 52585 52588 . + 1 ID=Miro_87.RBS;Name=Miro_87;Parent=Miro_87; +Miro feature gene 52286 52591 . + . ID=Miro_86; +Miro GenBank CDS 52298 52591 . + 1 Alias=Miro_86;ID=Miro_86.CDS;Name=Miro_86;Parent=Miro_86;obsolete_name=Miro_078;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 52286 52289 . + 1 ID=Miro_86.RBS;Name=Miro_86;Parent=Miro_86; +Miro feature gene 50203 50493 . + . ID=Miro_81; +Miro GenBank CDS 50212 50493 . + 1 Alias=Miro_81;ID=Miro_81.CDS;Name=Miro_81;Parent=Miro_81;obsolete_name=Miro_083;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 50203 50206 . + 1 ID=Miro_81.RBS;Name=Miro_81;Parent=Miro_81; +Miro feature gene 49635 49896 . + . ID=Miro_80; +Miro GenBank CDS 49645 49896 . + 1 Alias=Miro_80;ID=Miro_80.CDS;Name=Miro_80;Parent=Miro_80;obsolete_name=Miro_084;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 49635 49637 . + 1 ID=Miro_80.RBS;Name=Miro_80;Parent=Miro_80; +Miro feature gene 50955 51530 . + . ID=Miro_83; +Miro GenBank CDS 50964 51530 . + 1 Alias=Miro_83;ID=Miro_83.CDS;Name=Miro_83;Parent=Miro_83;obsolete_name=Miro_081;product=hypothetical conserved;tmhelix=1 TMD (9-31) N in%2C C out; +Miro GenBank Shine_Dalgarno_sequence 50955 50958 . + 1 ID=Miro_83.RBS;Name=Miro_83;Parent=Miro_83; +Miro feature gene 50495 50922 . + . ID=Miro_82; +Miro GenBank CDS 50503 50922 . + 1 Alias=Miro_82;ID=Miro_82.CDS;Name=Miro_82;Parent=Miro_82;obsolete_name=Miro_082;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 50495 50497 . + 1 ID=Miro_82.RBS;Name=Miro_82;Parent=Miro_82; +Miro feature gene 104839 105703 . - . ID=Miro_193; +Miro GenBank CDS 104839 105693 . - 1 ID=Miro_193.CDS;Name=Miro_193;Parent=Miro_193;obsolete_name=Miro_247;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 105699 105703 . - 1 Alias=Miro_193;ID=Miro_193.RBS;Name=Miro_193;Parent=Miro_193; +Miro feature gene 52974 53137 . + . ID=Miro_89; +Miro GenBank CDS 52985 53137 . + 1 Alias=Miro_89;ID=Miro_89.CDS;Name=Miro_89;Parent=Miro_89;obsolete_name=Miro_075;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 52974 52978 . + 1 ID=Miro_89.RBS;Name=Miro_89;Parent=Miro_89; +Miro feature gene 52806 52988 . + . ID=Miro_88; +Miro GenBank CDS 52818 52988 . + 1 Alias=Miro_88;ID=Miro_88.CDS;Name=Miro_88;Parent=Miro_88;obsolete_name=Miro_076;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 52806 52809 . + 1 ID=Miro_88.RBS;Name=Miro_88;Parent=Miro_88; +Miro feature gene 85193 86549 . - . ID=Miro_150; +Miro GenBank CDS 85193 86539 . - 1 ID=Miro_150.CDS;Name=Miro_150;Note=contains PIN domain and P-loop containing nucleoside triphosphate hydrolase;Parent=Miro_150;obsolete_name=Miro_014;product=PhoH-like protein; +Miro GenBank Shine_Dalgarno_sequence 86546 86549 . - 1 Alias=Miro_150;ID=Miro_150.RBS;Name=Miro_150;Parent=Miro_150; +Miro feature gene 86549 87082 . - . ID=Miro_151; +Miro GenBank CDS 86549 87073 . - 1 ID=Miro_151.CDS;Name=Miro_151;Note=contains AP2/ERF domain;Parent=Miro_151;obsolete_name=Miro_013;product=HNH endonuclease; +Miro GenBank Shine_Dalgarno_sequence 87079 87082 . - 1 Alias=Miro_151;ID=Miro_151.RBS;Name=Miro_151;Parent=Miro_151; +Miro feature gene 87073 87540 . - . ID=Miro_152; +Miro GenBank CDS 87073 87531 . - 1 ID=Miro_152.CDS;Name=Miro_152;Parent=Miro_152;obsolete_name=Miro_012;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 87537 87540 . - 1 Alias=Miro_152;ID=Miro_152.RBS;Name=Miro_152;Parent=Miro_152; +Miro feature gene 87563 87968 . - . ID=Miro_153; +Miro GenBank CDS 87563 87958 . - 1 ID=Miro_153.CDS;Name=Miro_153;Note=D-alanyl-D-alanine carboxypeptidase;Parent=Miro_153;obsolete_name=Miro_011;product=endolysin; +Miro GenBank Shine_Dalgarno_sequence 87964 87968 . - 1 Alias=Miro_153;ID=Miro_153.RBS;Name=Miro_153;Parent=Miro_153; +Miro feature gene 88026 88439 . - . ID=Miro_154; +Miro GenBank CDS 88026 88427 . - 1 ID=Miro_154.CDS;Name=Miro_154;Parent=Miro_154;obsolete_name=Miro_010;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 88436 88439 . - 1 Alias=Miro_154;ID=Miro_154.RBS;Name=Miro_154;Parent=Miro_154; +Miro feature gene 88482 88815 . - . ID=Miro_155; +Miro GenBank CDS 88482 88805 . - 1 ID=Miro_155.CDS;Name=Miro_155;Parent=Miro_155;obsolete_name=Miro_009;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 88812 88815 . - 1 Alias=Miro_155;ID=Miro_155.RBS;Name=Miro_155;Parent=Miro_155; +Miro feature gene 88845 89119 . - . ID=Miro_156; +Miro GenBank CDS 88845 89108 . - 1 ID=Miro_156.CDS;Name=Miro_156;Parent=Miro_156;obsolete_name=Miro_008;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 89115 89119 . - 1 Alias=Miro_156;ID=Miro_156.RBS;Name=Miro_156;Parent=Miro_156; +Miro feature gene 89178 89447 . - . ID=Miro_157; +Miro GenBank CDS 89178 89438 . - 1 ID=Miro_157.CDS;Name=Miro_157;Parent=Miro_157;obsolete_name=Miro_007;product=hypothetical conserved;signal=signal peptidase II cleavage site 19-20; +Miro GenBank Shine_Dalgarno_sequence 89445 89447 . - 1 Alias=Miro_157;ID=Miro_157.RBS;Name=Miro_157;Parent=Miro_157; +Miro feature gene 89440 89880 . - . ID=Miro_158; +Miro GenBank CDS 89440 89871 . - 1 ID=Miro_158.CDS;Name=Miro_158;Parent=Miro_158;obsolete_name=Miro_006;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 89878 89880 . - 1 Alias=Miro_158;ID=Miro_158.RBS;Name=Miro_158;Parent=Miro_158; +Miro feature gene 89882 90064 . - . ID=Miro_159; +Miro GenBank CDS 89882 90055 . - 1 ID=Miro_159.CDS;Name=Miro_159;Parent=Miro_159;obsolete_name=Miro_005;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 90061 90064 . - 1 Alias=Miro_159;ID=Miro_159.RBS;Name=Miro_159;Parent=Miro_159; +Miro feature gene 134495 136075 . + . ID=Miro_218; +Miro GenBank CDS 134507 136075 . + 1 Alias=Miro_218;ID=Miro_218.CDS;Name=Miro_218;Note=T4 gp23/gp24-like;Parent=Miro_218;obsolete_name=Miro_222;product=major capsid protein; +Miro GenBank Shine_Dalgarno_sequence 134495 134498 . + 1 ID=Miro_218.RBS;Name=Miro_218;Parent=Miro_218; +Miro feature gene 174229 174467 . - . ID=Miro_271; +Miro GenBank CDS 174229 174456 . - 1 ID=Miro_271.CDS;Name=Miro_271;Parent=Miro_271;obsolete_name=Miro_169;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 174464 174467 . - 1 Alias=Miro_271;ID=Miro_271.RBS;Name=Miro_271;Parent=Miro_271; +Miro feature gene 173351 174160 . - . ID=Miro_270; +Miro GenBank CDS 173351 174148 . - 1 ID=Miro_270.CDS;Name=Miro_270;Parent=Miro_270;obsolete_name=Miro_170;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 174156 174160 . - 1 Alias=Miro_270;ID=Miro_270.RBS;Name=Miro_270;Parent=Miro_270; +Miro feature gene 174760 174903 . - . ID=Miro_273; +Miro GenBank CDS 174760 174894 . - 1 ID=Miro_273.CDS;Name=Miro_273;Parent=Miro_273;obsolete_name=Miro_167;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 174900 174903 . - 1 Alias=Miro_273;ID=Miro_273.RBS;Name=Miro_273;Parent=Miro_273; +Miro feature gene 174453 174796 . - . ID=Miro_272; +Miro GenBank CDS 174453 174785 . - 1 ID=Miro_272.CDS;Name=Miro_272;Parent=Miro_272;obsolete_name=Miro_168;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 174793 174796 . - 1 Alias=Miro_272;ID=Miro_272.RBS;Name=Miro_272;Parent=Miro_272; +Miro feature gene 175224 175675 . - . ID=Miro_275; +Miro GenBank CDS 175224 175661 . - 1 ID=Miro_275.CDS;Name=Miro_275;Parent=Miro_275;obsolete_name=Miro_165;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 175673 175675 . - 1 Alias=Miro_275;ID=Miro_275.RBS;Name=Miro_275;Parent=Miro_275; +Miro feature gene 174939 175197 . - . ID=Miro_274; +Miro GenBank CDS 174939 175187 . - 1 ID=Miro_274.CDS;Name=Miro_274;Note=contains FCH and colicin domains;Parent=Miro_274;obsolete_name=Miro_166;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 175195 175197 . - 1 Alias=Miro_274;ID=Miro_274.RBS;Name=Miro_274;Parent=Miro_274; +Miro feature gene 175636 176021 . - . ID=Miro_276; +Miro GenBank CDS 175636 176010 . - 1 ID=Miro_276.CDS;Name=Miro_276;Parent=Miro_276;obsolete_name=Miro_164;product=hypothetical conserved;tmhelix=2TMDs (44-66%2C 76-98) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 176017 176021 . - 1 Alias=Miro_276;ID=Miro_276.RBS;Name=Miro_276;Parent=Miro_276; +Miro feature gene 82146 82479 . - . ID=Miro_144; +Miro GenBank CDS 82146 82469 . - 1 ID=Miro_144.CDS;Name=Miro_144;Parent=Miro_144;obsolete_name=Miro_020;product=hypothetical conserved;signal=signal peptidase I cleavage site 17-18; +Miro GenBank Shine_Dalgarno_sequence 82476 82479 . - 1 Alias=Miro_144;ID=Miro_144.RBS;Name=Miro_144;Parent=Miro_144; +Miro feature gene 11178 11471 . - . ID=Miro_18; +Miro GenBank CDS 11178 11459 . - 1 ID=Miro_18.CDS;Name=Miro_18;Note=contains LysM domain;Parent=Miro_18;obsolete_name=Miro_146;product=peptidoglycan-binding protein; +Miro GenBank Shine_Dalgarno_sequence 11468 11471 . - 1 Alias=Miro_18;ID=Miro_18.RBS;Name=Miro_18;Parent=Miro_18; +Miro GenBank CDS 11456 11731 . - 1 ID=Miro_19;Name=Miro_19;obsolete_name=Miro_145;product=hypothetical conserved; +Miro feature gene 9399 9740 . - . ID=Miro_12; +Miro GenBank CDS 9399 9728 . - 1 ID=Miro_12.CDS;Name=Miro_12;Parent=Miro_12;obsolete_name=Miro_152;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 9736 9740 . - 1 Alias=Miro_12;ID=Miro_12.RBS;Name=Miro_12;Parent=Miro_12; +Miro feature gene 9788 10025 . - . ID=Miro_13; +Miro GenBank CDS 9788 10012 . - 1 ID=Miro_13.CDS;Name=Miro_13;Parent=Miro_13;obsolete_name=Miro_151;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 10021 10025 . - 1 Alias=Miro_13;ID=Miro_13.RBS;Name=Miro_13;Parent=Miro_13; +Miro feature gene 8488 8779 . - . ID=Miro_10; +Miro GenBank CDS 8488 8766 . - 1 ID=Miro_10.CDS;Name=Miro_10;Parent=Miro_10;obsolete_name=Miro_154;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 8776 8779 . - 1 Alias=Miro_10;ID=Miro_10.RBS;Name=Miro_10;Parent=Miro_10; +Miro feature gene 8763 9370 . - . ID=Miro_11; +Miro GenBank CDS 8763 9359 . - 1 ID=Miro_11.CDS;Name=Miro_11;Parent=Miro_11;obsolete_name=Miro_153;product=hypothetical conserved;tmhelix=1 TMD (10-29) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 9367 9370 . - 1 Alias=Miro_11;ID=Miro_11.RBS;Name=Miro_11;Parent=Miro_11; +Miro feature gene 10737 10970 . - . ID=Miro_16; +Miro GenBank CDS 10737 10961 . - 1 ID=Miro_16.CDS;Name=Miro_16;Parent=Miro_16;obsolete_name=Miro_148;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 10967 10970 . - 1 Alias=Miro_16;ID=Miro_16.RBS;Name=Miro_16;Parent=Miro_16; +Miro feature gene 10965 11125 . - . ID=Miro_17; +Miro GenBank CDS 10965 11114 . - 1 ID=Miro_17.CDS;Name=Miro_17;Parent=Miro_17;obsolete_name=Miro_147;product=hypothetical conserved;tmhelix=1 TMD (10-32) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 11121 11125 . - 1 Alias=Miro_17;ID=Miro_17.RBS;Name=Miro_17;Parent=Miro_17; +Miro feature gene 10086 10361 . - . ID=Miro_14; +Miro GenBank CDS 10086 10349 . - 1 ID=Miro_14.CDS;Name=Miro_14;Parent=Miro_14;obsolete_name=Miro_150;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 10358 10361 . - 1 Alias=Miro_14;ID=Miro_14.RBS;Name=Miro_14;Parent=Miro_14; +Miro feature gene 10438 10746 . - . ID=Miro_15; +Miro GenBank CDS 10438 10737 . - 1 ID=Miro_15.CDS;Name=Miro_15;Parent=Miro_15;obsolete_name=Miro_149;product=hypothetical conserved;tmhelix=1 TMD (4-21) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 10743 10746 . - 1 Alias=Miro_15;ID=Miro_15.RBS;Name=Miro_15;Parent=Miro_15; +Miro feature gene 53914 54144 . + . ID=Miro_92; +Miro GenBank CDS 53923 54144 . + 1 Alias=Miro_92;ID=Miro_92.CDS;Name=Miro_92;Parent=Miro_92;obsolete_name=Miro_072;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 53914 53916 . + 1 ID=Miro_92.RBS;Name=Miro_92;Parent=Miro_92; +Miro feature gene 54130 54755 . + . ID=Miro_93; +Miro GenBank CDS 54141 54755 . + 1 Alias=Miro_93;ID=Miro_93.CDS;Name=Miro_93;Note=contains haloacid dehydrogenase (HAD)-like domain;Parent=Miro_93;obsolete_name=Miro_071;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 54130 54134 . + 1 ID=Miro_93.RBS;Name=Miro_93;Parent=Miro_93; +Miro feature gene 53212 53661 . + . ID=Miro_90; +Miro GenBank CDS 53221 53661 . + 1 Alias=Miro_90;ID=Miro_90.CDS;Name=Miro_90;Note=T4 Y12G-like;Parent=Miro_90;obsolete_name=Miro_074;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 53212 53215 . + 1 ID=Miro_90.RBS;Name=Miro_90;Parent=Miro_90; +Miro feature gene 53646 53921 . + . ID=Miro_91; +Miro GenBank CDS 53658 53921 . + 1 Alias=Miro_91;ID=Miro_91.CDS;Name=Miro_91;Parent=Miro_91;obsolete_name=Miro_073;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 53646 53648 . + 1 ID=Miro_91.RBS;Name=Miro_91;Parent=Miro_91; +Miro feature gene 56987 57203 . + . ID=Miro_96; +Miro GenBank CDS 57000 57203 . + 1 Alias=Miro_96;ID=Miro_96.CDS;Name=Miro_96;Parent=Miro_96;obsolete_name=Miro_068;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 56987 56990 . + 1 ID=Miro_96.RBS;Name=Miro_96;Parent=Miro_96; +Miro feature gene 57193 57382 . + . ID=Miro_97; +Miro GenBank CDS 57206 57382 . + 1 Alias=Miro_97;ID=Miro_97.CDS;Name=Miro_97;Parent=Miro_97;obsolete_name=Miro_067;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 57193 57195 . + 1 ID=Miro_97.RBS;Name=Miro_97;Parent=Miro_97; +Miro feature gene 54726 56265 . + . ID=Miro_94; +Miro GenBank CDS 54736 56265 . + 1 Alias=Miro_94;ID=Miro_94.CDS;Name=Miro_94;Note=T4-like;Parent=Miro_94;obsolete_name=Miro_070;product=DNA ligase; +Miro GenBank Shine_Dalgarno_sequence 54726 54728 . + 1 ID=Miro_94.RBS;Name=Miro_94;Parent=Miro_94; +Miro feature gene 56331 56911 . + . ID=Miro_95; +Miro GenBank CDS 56342 56911 . + 1 Alias=Miro_95;ID=Miro_95.CDS;Name=Miro_95;Parent=Miro_95;obsolete_name=Miro_069;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 56331 56333 . + 1 ID=Miro_95.RBS;Name=Miro_95;Parent=Miro_95; +Miro feature gene 57368 57543 . + . ID=Miro_98; +Miro GenBank CDS 57379 57543 . + 1 Alias=Miro_98;ID=Miro_98.CDS;Name=Miro_98;Parent=Miro_98;obsolete_name=Miro_066;product=hypothetical conserved;tmhelix=2TMDs (7-26%2C 31-53) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 57368 57372 . + 1 ID=Miro_98.RBS;Name=Miro_98;Parent=Miro_98; +Miro feature gene 57613 57914 . + . ID=Miro_99; +Miro GenBank CDS 57624 57914 . + 1 Alias=Miro_99;ID=Miro_99.CDS;Name=Miro_99;Parent=Miro_99;obsolete_name=Miro_065;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 57613 57616 . + 1 ID=Miro_99.RBS;Name=Miro_99;Parent=Miro_99; +Miro feature gene 81924 82086 . - . ID=Miro_143; +Miro GenBank CDS 81924 82079 . - 1 ID=Miro_143.CDS;Name=Miro_143;Parent=Miro_143;obsolete_name=Miro_021;product=hypothetical conserved;tmhelix=1 TMD (15-37) N out%2C C in; +Miro GenBank Shine_Dalgarno_sequence 82084 82086 . - 1 Alias=Miro_143;ID=Miro_143.RBS;Name=Miro_143;Parent=Miro_143; +Miro feature gene 67179 67658 . - . ID=Miro_114; +Miro GenBank CDS 67179 67649 . - 1 ID=Miro_114.CDS;Name=Miro_114;Parent=Miro_114;obsolete_name=Miro_050;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 67656 67658 . - 1 Alias=Miro_114;ID=Miro_114.RBS;Name=Miro_114;Parent=Miro_114; +Miro feature gene 81366 81851 . - . ID=Miro_141; +Miro GenBank CDS 81366 81839 . - 1 ID=Miro_141.CDS;Name=Miro_141;Note=contains macro domain;Parent=Miro_141;obsolete_name=Miro_023;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 81849 81851 . - 1 Alias=Miro_141;ID=Miro_141.RBS;Name=Miro_141;Parent=Miro_141; +Miro feature gene 81076 81376 . - . ID=Miro_140; +Miro GenBank CDS 81076 81363 . - 1 ID=Miro_140.CDS;Name=Miro_140;Parent=Miro_140;obsolete_name=Miro_024;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 81374 81376 . - 1 Alias=Miro_140;ID=Miro_140.RBS;Name=Miro_140;Parent=Miro_140; +Miro feature gene 83223 83630 . - . ID=Miro_147; +Miro GenBank CDS 83223 83618 . - 1 ID=Miro_147.CDS;Name=Miro_147;Parent=Miro_147;obsolete_name=Miro_017;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 83627 83630 . - 1 Alias=Miro_147;ID=Miro_147.RBS;Name=Miro_147;Parent=Miro_147; +Miro feature gene 83066 83224 . - . ID=Miro_146; +Miro GenBank CDS 83066 83212 . - 1 ID=Miro_146.CDS;Name=Miro_146;Parent=Miro_146;obsolete_name=Miro_018;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 83221 83224 . - 1 Alias=Miro_146;ID=Miro_146.RBS;Name=Miro_146;Parent=Miro_146; +Miro feature gene 82479 83083 . - . ID=Miro_145; +Miro GenBank CDS 82479 83069 . - 1 ID=Miro_145.CDS;Name=Miro_145;Parent=Miro_145;obsolete_name=Miro_019;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 83080 83083 . - 1 Alias=Miro_145;ID=Miro_145.RBS;Name=Miro_145;Parent=Miro_145; +Miro feature gene 67646 67816 . - . ID=Miro_115; +Miro GenBank CDS 67646 67804 . - 1 ID=Miro_115.CDS;Name=Miro_115;Parent=Miro_115;obsolete_name=Miro_049;product=hypothetical conserved;tmhelix=2TMDs (2-21%2C 31-50) N in%2C C in; +Miro GenBank Shine_Dalgarno_sequence 67814 67816 . - 1 Alias=Miro_115;ID=Miro_115.RBS;Name=Miro_115;Parent=Miro_115; +Miro feature gene 84392 84959 . - . ID=Miro_149; +Miro GenBank CDS 84392 84946 . - 1 ID=Miro_149.CDS;Name=Miro_149;Parent=Miro_149;obsolete_name=Miro_015;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 84955 84959 . - 1 Alias=Miro_149;ID=Miro_149.RBS;Name=Miro_149;Parent=Miro_149; +Miro feature gene 83686 84337 . - . ID=Miro_148; +Miro GenBank CDS 83686 84327 . - 1 ID=Miro_148.CDS;Name=Miro_148;Note=T4 RegB-like;Parent=Miro_148;obsolete_name=Miro_016;product=endoribonuclease;signal=signal peptidase II cleavage site 12-13; +Miro GenBank Shine_Dalgarno_sequence 84334 84337 . - 1 Alias=Miro_148;ID=Miro_148.RBS;Name=Miro_148;Parent=Miro_148; +Miro feature gene 67801 68461 . - . ID=Miro_116; +Miro GenBank CDS 67801 68451 . - 1 ID=Miro_116.CDS;Name=Miro_116;Parent=Miro_116;obsolete_name=Miro_048;product=hypothetical conserved; +Miro GenBank Shine_Dalgarno_sequence 68457 68461 . - 1 Alias=Miro_116;ID=Miro_116.RBS;Name=Miro_116;Parent=Miro_116;