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(-) [+]
line wrap: on
line diff
--- /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@unpublished{galaxyTools,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+			@unpublished{galaxyTools,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+			@unpublished{galaxyTools,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;