mRNA_A-nodosum_M_contig1205.1.1 (mRNA) Ascophyllum nodosum dioecious

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview
NamemRNA_A-nodosum_M_contig1205.1.1
Unique NamemRNA_A-nodosum_M_contig1205.1.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A6H5KI71_9PHAE (Thioredoxin domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KI71_9PHAE)

HSP 1 Score: 134 bits (337), Expect = 1.510e-34
Identity = 64/117 (54.70%), Postives = 86/117 (73.50%), Query Frame = 2 
Query:  116 MMAKPMQLPK---GDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKLPG 457
            MM+ P +LPK    +++  F + V+  +LP LV FHA WC PC M  PV D+IA+EF+ K +VVK+DCD HK +MN+YR RGLP  ++F++G+VIARHEG L YDG VEFL +K+PG
Sbjct:   42 MMSVPFELPKVPQEEAVVAFDDAVVNQELPTLVYFHAKWCGPCIMQGPVFDQIAEEFDGKAKVVKLDCDNHKFLMNKYRVRGLPYTVLFHDGKVIARHEGHLGYDGQVEFL-RKVPG 157
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A6V1RKU1_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1RKU1_HETAK)

HSP 1 Score: 106 bits (264), Expect = 4.580e-24
Identity = 51/111 (45.95%), Postives = 76/111 (68.47%), Query Frame = 2 
Query:  110 TTMMAKPMQLPKGDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEF-EDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFL 439
            T+ +   +++P+GD  ++  E       PVLVDF A+WC PC ++AP+MDK+ +EF ED ++VVKVD  VHKD + +Y+  GLP +IIF +GE +A HEG+L Y  + EF+
Sbjct:   36 TSPLRMVLEVPEGDYEKEVVEA--SKSKPVLVDFWAIWCGPCRLVAPLMDKVQEEFGEDAIKVVKVDTVVHKDTVQRYKLEGLPRLIIFKDGEPVASHEGALPYAKLQEFV 144
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: M2XHT7_GALSU (Thioredoxin 1 n=1 Tax=Galdieria sulphuraria TaxID=130081 RepID=M2XHT7_GALSU)

HSP 1 Score: 104 bits (259), Expect = 4.340e-23
Identity = 44/97 (45.36%), Postives = 69/97 (71.13%), Query Frame = 2 
Query:  164 FKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKLP 454
            F++ VLQ+++PVLVDFHA WC PC ++ P++D +  E+  KL+VVK+D D +   + QY  RGLP +IIF +G ++A  EG+L   G+ ++++K LP
Sbjct:   69 FEQQVLQSQIPVLVDFHADWCGPCKLVTPLLDWLVSEYGGKLKVVKIDTDKNPRYVKQYDVRGLPTLIIFQDGRLVASSEGALGKKGIQQYIEKHLP 165
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A2D7TLG0_9RHOB (Thioredoxin n=1 Tax=Rhodobacteraceae bacterium TaxID=1904441 RepID=A0A2D7TLG0_9RHOB)

HSP 1 Score: 101 bits (251), Expect = 1.090e-22
Identity = 39/98 (39.80%), Postives = 68/98 (69.39%), Query Frame = 2 
Query:  158 EKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKL 451
            E F+  V++++ PVLVD+ A WC PC M+AP++D++A+ + DK+++ KVD D +  +  +Y  RG+P +++F EG++IA H G+L    + +F+D  L
Sbjct:   11 ESFESEVIKSEQPVLVDYWAEWCGPCKMIAPILDEVAESYSDKVKIAKVDVDQNAQISAKYNIRGIPTLMLFREGQIIATHTGALNKTQLTDFIDSNL 108
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A1G0GWY1_9GAMM (Thioredoxin n=1 Tax=Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_40_19 TaxID=1798281 RepID=A0A1G0GWY1_9GAMM)

HSP 1 Score: 100 bits (250), Expect = 1.510e-22
Identity = 46/100 (46.00%), Postives = 72/100 (72.00%), Query Frame = 2 
Query:  146 GDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDK 445
            GD+  +F+  VL ++LPVLVDF A WC PC MLAPV+D++AQ+F D++++VKV+ D H++   +Y  RG+P +++F  GE+IA   G+L    +V FL++
Sbjct:    9 GDA--QFQADVLDSELPVLVDFWAPWCGPCRMLAPVLDEVAQQFADRVKIVKVNVDEHQETPAKYGVRGIPSLMLFKGGEMIANKVGALSKSQLVAFLEE 106
[Close]
BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A3B8RMX6_9BURK (Thioredoxin n=1 Tax=Lautropia sp. TaxID=2053568 RepID=A0A3B8RMX6_9BURK)

HSP 1 Score: 99.4 bits (246), Expect = 5.510e-22
Identity = 42/100 (42.00%), Postives = 68/100 (68.00%), Query Frame = 2 
Query:  152 SMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKL 451
            S   F E V++   PVLVDF A WC PC M+AP++D++A++  DKLQV K++ D H ++  +Y  RG+P +I+FN+GE +A+  G++    +V+F+ K +
Sbjct:    7 SASNFDEEVMKASGPVLVDFWAEWCGPCKMIAPILDELAKDMGDKLQVAKLNVDEHGEIAQRYGIRGIPTLILFNQGEQVAQQVGAVSKSQLVQFVQKNI 106
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BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A7Y4L9R2_9BURK (Thioredoxin n=1 Tax=Pelistega europaea TaxID=106147 RepID=A0A7Y4L9R2_9BURK)

HSP 1 Score: 99.0 bits (245), Expect = 7.890e-22
Identity = 43/103 (41.75%), Postives = 68/103 (66.02%), Query Frame = 2 
Query:  143 KGDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKL 451
            K  + E F   VLQ   PVLVD+ A WC PC M+AP++D +A EF DK+QVVKVD D + D+  ++  RG+P +++FN+G+ +A   G++    +V+F++  +
Sbjct:    6 KHATTESFDADVLQADKPVLVDYWAPWCGPCKMIAPILDDVASEFADKVQVVKVDVDQNPDIATKFGIRGIPTLMLFNKGQSVATKVGAVNKTQLVQFIESNI 108
[Close]
BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A4Q6CZC8_9GAMM (Thioredoxin n=1 Tax=Moraxellaceae bacterium TaxID=1889775 RepID=A0A4Q6CZC8_9GAMM)

HSP 1 Score: 98.6 bits (244), Expect = 1.130e-21
Identity = 43/96 (44.79%), Postives = 64/96 (66.67%), Query Frame = 2 
Query:  164 FKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKL 451
            F + VL + LPVLVDF A WC PC M+AP++D +A ++E KL++ KVD D +K+V  ++  RG+P +IIF  G+  A   G+L    +VEF++  L
Sbjct:   14 FSQDVLSSDLPVLVDFWAAWCGPCKMIAPILDDLADQYEGKLKIAKVDVDANKEVPGKFGIRGIPTLIIFKNGQAAATKVGALSKAQLVEFINNSL 109
[Close]
BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A3N5JTF4_9BACT (Thioredoxin n=1 Tax=Ignavibacteriae bacterium TaxID=2026749 RepID=A0A3N5JTF4_9BACT)

HSP 1 Score: 97.1 bits (240), Expect = 3.980e-21
Identity = 47/109 (43.12%), Postives = 74/109 (67.89%), Query Frame = 2 
Query:  125 KPMQLPKGDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDKKL 451
            KP++L +G+    F++ VL++  PVLVDF AVWC PC M+AP++D++A E+E KL++ KVD D H+ +  QY  R +P ++IF +G+V+ +  G+     +VE L K L
Sbjct:    2 KPVELSEGN----FEQEVLKSSTPVLVDFWAVWCGPCKMIAPIVDELATEYEGKLKIGKVDVDNHQQIAMQYGIRSIPTLLIFKDGKVVEQLIGAAPKKTLVEKLLKHL 106
[Close]
BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Match: A0A2M7ZZW9_9GAMM (Thioredoxin n=1 Tax=Gammaproteobacteria bacterium CG_4_9_14_3_um_filter_38_9 TaxID=1974022 RepID=A0A2M7ZZW9_9GAMM)

HSP 1 Score: 97.1 bits (240), Expect = 4.090e-21
Identity = 42/96 (43.75%), Postives = 67/96 (69.79%), Query Frame = 2 
Query:  158 EKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKIAQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLEYDGVVEFLDK 445
            E+F+  VL + LPVLVDF A WC PC MLAPV+D++A +F D+++ VKV+ D H++   +Y  RG+P +++F  GE++A   G+L    ++ FL++
Sbjct:   11 EQFEADVLNSDLPVLVDFWAPWCGPCRMLAPVLDEVAGQFVDRVKFVKVNVDEHQETPAKYGVRGIPSLMLFKNGEMVANKVGALSKSQLIAFLEE 106
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1205.1.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KI71_9PHAE1.510e-3454.70Thioredoxin domain-containing protein n=2 Tax=Ecto... [more]
A0A6V1RKU1_HETAK4.580e-2445.95Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
M2XHT7_GALSU4.340e-2345.36Thioredoxin 1 n=1 Tax=Galdieria sulphuraria TaxID=... [more]
A0A2D7TLG0_9RHOB1.090e-2239.80Thioredoxin n=1 Tax=Rhodobacteraceae bacterium Tax... [more]
A0A1G0GWY1_9GAMM1.510e-2246.00Thioredoxin n=1 Tax=Gammaproteobacteria bacterium ... [more]
A0A3B8RMX6_9BURK5.510e-2242.00Thioredoxin n=1 Tax=Lautropia sp. TaxID=2053568 Re... [more]
A0A7Y4L9R2_9BURK7.890e-2241.75Thioredoxin n=1 Tax=Pelistega europaea TaxID=10614... [more]
A0A4Q6CZC8_9GAMM1.130e-2144.79Thioredoxin n=1 Tax=Moraxellaceae bacterium TaxID=... [more]
A0A3N5JTF4_9BACT3.980e-2143.12Thioredoxin n=1 Tax=Ignavibacteriae bacterium TaxI... [more]
A0A2M7ZZW9_9GAMM4.090e-2143.75Thioredoxin n=1 Tax=Gammaproteobacteria bacterium ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1205contigA-nodosum_M_contig1205:21887..47354 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FVS1
PFAMsThioredoxin
Model size1133
Max annot lvl2759|Eukaryota
KEGG koko:K03671
KEGG Pathwayko04621,ko05418,map04621,map05418
Hectar predicted targeting categoryother localisation
GOsGO:0003674,GO:0003824,GO:0004791,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006950,GO:0006979,GO:0008047,GO:0008150,GO:0008152,GO:0009507,GO:0009532,GO:0009536,GO:0009570,GO:0009636,GO:0009987,GO:0015035,GO:0015036,GO:0016209,GO:0016491,GO:0016651,GO:0016667,GO:0016668,GO:0016671,GO:0019725,GO:0030234,GO:0033554,GO:0034599,GO:0042221,GO:0042592,GO:0043085,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044093,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0045454,GO:0047134,GO:0050789,GO:0050790,GO:0050794,GO:0050896,GO:0051716,GO:0055114,GO:0065007,GO:0065008,GO:0065009,GO:0070887,GO:0097237,GO:0098754,GO:0098772,GO:0098869,GO:1990748
Exons5
Evalue2.59e-37
EggNOG OGsCOG0526@1|root,KOG0910@2759|Eukaryota
Ec32 ortholog descriptionThioredoxin-like protein
Ec32 orthologEc-03_003300.1
Descriptionglycerol ether metabolic process
Cds size354
COG categoryO
BRITEko00000,ko00001,ko03110
Relationships

The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1205.1.1prot_A-nodosum_M_contig1205.1.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1205 22551..45329 -


The following UTR feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866630.2973328-UTR-A-nodosum_M_contig1205:21886..225501680866630.2973328-UTR-A-nodosum_M_contig1205:21886..22550Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 21887..22550 -
1680866630.3501663-UTR-A-nodosum_M_contig1205:45329..453651680866630.3501663-UTR-A-nodosum_M_contig1205:45329..45365Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 45330..45365 -
1680866630.3642879-UTR-A-nodosum_M_contig1205:47275..473541680866630.3642879-UTR-A-nodosum_M_contig1205:47275..47354Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 47276..47354 -


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866630.3088377-CDS-A-nodosum_M_contig1205:22550..226341680866630.3088377-CDS-A-nodosum_M_contig1205:22550..22634Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 22551..22634 -
1680866630.3183575-CDS-A-nodosum_M_contig1205:22949..230421680866630.3183575-CDS-A-nodosum_M_contig1205:22949..23042Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 22950..23042 -
1680866630.3281474-CDS-A-nodosum_M_contig1205:37345..374181680866630.3281474-CDS-A-nodosum_M_contig1205:37345..37418Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 37346..37418 -
1680866630.3361635-CDS-A-nodosum_M_contig1205:45225..453291680866630.3361635-CDS-A-nodosum_M_contig1205:45225..45329Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 45226..45329 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1205.1.1

>prot_A-nodosum_M_contig1205.1.1 ID=prot_A-nodosum_M_contig1205.1.1|Name=mRNA_A-nodosum_M_contig1205.1.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=118bp
MMAKPMQLPKGDSMEKFKETVLQNKLPVLVDFHAVWCAPCFMLAPVMDKI
AQEFEDKLQVVKVDCDVHKDVMNQYRARGLPLMIIFNEGEVIARHEGSLE
YDGVVEFLDKKLPGGLK*
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mRNA from alignment at A-nodosum_M_contig1205:21887..47354-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1205.1.1 ID=mRNA_A-nodosum_M_contig1205.1.1|Name=mRNA_A-nodosum_M_contig1205.1.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=25468bp|location=Sequence derived from alignment at A-nodosum_M_contig1205:21887..47354- (Ascophyllum nodosum dioecious)
TCGATGTTGCACTGATCCGCCAACTCCAAAACCAAGGCCACGGCAGATCC
AAGCTCCAGCGCGACTGTGTCCTTTTCAGGTCTGCGTGTTATAGCGGTAA
TAAAGGTAGTAATAGTAATAACAGTACAGTATTTAGTAAAACAAAGGAAA
AAGAGAAGTGCACGTGATACGGCAGAGTAAAACATTACAGTACCCCTGTT
ACTTTAGTATGCATGTATGGTCATCACATATAGCAAGGGAAGGATCAACC
GGGCAACGTTGCCAAGCCTGCTCGTGGTCAGCTGTACAGGGAAAATGATT
TTTCCCCTGTCTACGTTCGCGCCTGAGGATTTGGTCTCGCAAGACGGGTT
CGGCAGTCCCGTCCCGCGTCAACCTACTCATCTCCATACTCAGGCTGAAT
ATGGTACTGACGTACGGGATTCCTCCCGAGTTCCGCAGCGGCGTCCATTT
GTATATTTAAACCGTCATACGTCATCGGGTCAGTCGCGAGTTTACCGGGT
AACGCAATTGCATACCGATGGCGTTCACTGCCAAGAGTCCGCCAGCACAG
GGCCAGCTAACCTAAAGGAAGTTCCGAACGAGTTCTGCCTTGGCAGGTCA
CCATCGACCAATTATTTGCGCCTCTCTTCCCGCACACACTATACTATCAT
TGGTATGAAGTGGCCGATGAAGAGGGCATGCTGAAATTACCGGCGGTATG
ATACGTTGAAGTAAAGTATTATGAGTACAAGTATGTTCGTTCATACTTGT
ACCCTGTAAGGGGATAAAATCAGACGGACAACAGATAGTTCTTCTGGATA
CTGCAAATCTGTAGACAGAGTAGGGCTACCGAGATGTCAACCCCATGTAT
GTGCAGTGCAGTATCACTTCAAGGTCGTGTATAGTACTAGGCTAGGATTA
GCACTAGATCACCTGGTGAAGGCTGGAAGTCCTCTGGTGCATTCCGATGC
AGATCTCCTGAAGCAGTCGCACAGCGCTCCGATTCGACCGTTCACCCCTA
ATACCAGATTCCTGGGTTCCAGTTGCCCACATCGCTGCAAGGTTCTATCC
CGGCAAACGTGCCTCTGTCTTGCAGACTCGAAGCACATATTTCGCCACTC
TCCGACTTGTAGGCATGGATGTGCGCCATTTGTTGTGCTGTGATTCTGTT
GCTGCGCTCTTGGTGTACCTGAGCTGCGATCTGTGCTACCATCTGCTTGT
GACATGATTCAAACTGGCTACCTAGACGTTTCTTGTGCAAGCGAGCCGCT
ATAACCTTGTTTCGTTGGGAGTAAGACTTCACCCAGTACGGCATCCAAAA
GCCTCGACGGTGTATAACTCACTAGACCTCGGATTACGAGTAGGGCGTAG
GTCCCGATGCAATTCAAATATTTTTAAGCCCCCTACTGAAAACGTTTCGT
TCTACATTAGCAACACCCGTTTCTGTTTTTGTGCGCACGCGCACGTACCT
CGCTCGATCTTGCCGTTTGACATCGAACCGCTCTCGTCAACGCCGATATG
GCTTGGTCAAAGCTTACTTTTTCTCTCCTCCTTGTCGCTCCATTGAATGC
TATTGCCTTCGTGGGCCGAGCATCCTTGAAGTCTCATTCGGTGAGGCTAT
TTTGTCTGATCTACATACAGGAGATTTATTTACACATGTTCACGACGAGT
ACTAGTTATCTTAAAATGTAGATGTCGTAATACTCCGTACAAGAATATGC
TCTTCAACCTCAAATAGATACACTTCAGTAATCAAACAGAGGCACACAGT
ACTTGCAGTTCAATACTTGTACTGTCCTACAGGAACAACAGGATGGTTGG
TCTCATTTTAAATTCGCCTGTTCATGTTTCTGGCGGTCTGCTGGTAAAGC
AAAGGTTTTAGGGAGGTAAGAGATGGAAGGTAGCTGCAGCATAAAGCTAT
AAAGTAGGGTCAAAGCCGTCAATATAAGGCAGACGCGACTTGTGTATCAG
GTAACACTAACCAATCCGTAAAACCCTTCCTTTCATCAGGCCGTCTCTGT
CTCGCGTCCTCAATGTGAGACGACCATGATGGCGAAGCCCATGCAATTGC
CCAAGGGAGATTCGATGGAAAAGTTCAAGGAGACGGTGTTGCAGAACAAG
CTACCAGTGCTGGTTGACTTCCACGCTGTGTGAGTGAAATCATACCACTA
ATCGTGGACTTGTGGCTTGTGGAAATCGGAAATCGTCAACTGTACCAAAA
ATGTTTACTACGAGTATTGTATGTTGTTGTACGCATCTAAACCTTCTGAG
CATCCAAAAAGAGTGTTTAGGTTTAGGTGGGAACTTGGCTGTAGAGACAA
AACCGGATCAAAAGGTTCCCCAATGTATTACATCGGGTCGACAGTATAAT
AACGGGAGAAGCCCTCCGTTATACTGTACAGTACTCCATGGAGTTCTGGA
CTAAAGTAATATGGTCTTACATGATCTTAGAAAATTAAAGTAAAATTAAA
TTAATATTACTATACAGGTGAGGTTCTTTGTTATTGATATAAATTGATGG
GAGGCACATAAGGAAATTAAATTAGGGTCAGAGAGGAACTATAAAGTACA
TTAATCATTATGTAGTAGTAAAAAGAGAAAAAGAAGAACAGTAAGATTAT
ATTAGTACAGGTGAACATTATATTTGCACTTCCGGATTACAGTAGTCTTC
ACATTAAAAACCGTTCTGACCTCTATCCAGTACCCTTCTCTTTCTTACTC
TTCAAGGCAAAGAAACGAATTTCCGTGGTCACACGCTAACCCAAAATAAG
GTACAGGAAAATAAATAAAATAAAAAAGACCCAGAAAATCTGCTTGTATG
ATACAGGTTCCTAAAAGTAACAGGTTCAGAAAAACAAGAAGCAGTCAAAA
AAGGAAGTAGAGCCCATCGCCCCAAACTCGAAAGTCACAAACAAAATATC
CTGACGTTGGGACGTGTTCATCGTTCGAATCTCAACACCTTGGAGCTGCA
GTCATAAAATAATAATTAACCACGCAATGCAAGATAGTACCCTATGAGAT
TTTTGCCTCTTTACTAAAGAAAAAAAGTCTACCAGAACTCTAAAAATATC
AAAAAATGCTGATACAATTGTGCAAGAACGAAACCTTCTGAACGTTTCGA
ATTCGTGCAGTCACATTTTTACTGCTCAAGTGAAGAACGAATCGACGACG
GAAAGGAACGGCTGAATCCTTCTCGCGAGAAATAAGGCAAGCACCGCAGA
AGGAAGGTGGAGAAATCTTGTGTGACCTTCCTCCTGTGTGACCCCGGCTG
GTACGTCCACAAACCTGACGTCCAGAATAAAGGGGATGACAACACACACA
CATATACACACACTGCTGCACACTCAAGGATATATGGTATGATTTGATTG
ATTGATCGATTTATCACATCATACCATTAGTGGGTGTGGGAAAGAGAGGC
GCATATGAATTGATCCATGGTGACCTACCAAGGCAGCATTCGTTCGGAGC
TACCTTGAGGTTTACTTGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGC
CATCGGTACGCAATTGCGTGACCCGATTAACTCGGGACTGACCCGATGGC
GTATGGCGGTTTACGAATAAATGGGCGCCGCCGCGGAACTCGGGAGGAAT
CCCCTAAGTAAGCACCAGATCCAGCCTGAGAATGGAATGAGTAGGCTGAT
GCGGGACAGGACTGTCGGACCCGTCTCGCGAGACCAAATTCTCAGGCGCG
AACGCGGACTTGGAAATATTCATTGTCCCTGTTCAGCTGACCACGAGCAG
GATTGGCAACCTTACCCGGTTGATCCATACCCCTGCTATATTTATATGTG
TGGCCATACATACGTACATACATATAAGCTAATGTAAACTACCGGTCGCC
CCGGTAGCTCAGAGGTAACCTCGTAACTTTCTGACACGTTGGGACGTGAG
TTCGATCCCTGTAAACGAGATTTTTTTCACTAAAAAATAAAAAAATAAAA
AAATAAAAATGCCCAACGAGTGGAGAACGATTAAATCGTTAGTACACAAA
ATTCGACCTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCG
AGAAAAATTAAGGCACGCACCGCAGAAGGAAGGTGGATGAGAAATCCTGT
GTGACCTTCCTCCTGCGTGACCCCGGCTGGTATGTCCAACGAACTTGATG
TCCAGAATGAATGGGAAGAAAACACACAATGTAAAAAAATCAACCAGTCT
CACAAGGGTAGATAAAGGAGGAAACGTTCGGCTTACAGCCGGTCGCCCCG
GTAGCTCAGAAGTAAACTCGTAACCTTCTGACACGATGGAACGTGAGTTC
GAATCCCGGTATAAAAAAATAAAAAATAAAAATGCCCAACAAGTGGAGAA
CGAATAAATCGTTAGTACACAAAATTCGACTTCACGGTCGAGAGGGCAAG
GAATGGCTGAATCCTTCTCGCGGGAAAAGTTAAGGCACGCACCGCAGAAG
GAAGGTGGGTGAGAAACCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCT
GATACGTCCAACGAACTTGATGTCCAGAATAAATGGGAAGAAAACACACA
CACACAAACACACACTCTCTATACAACGAGAAAACGGTAATGGTGCAAAA
ATACTCGGATAAAGCGACATCATCATCTCCAAAACCAAAAGGGGGTGGGG
GGGGGAGTCGCAAATAATTGTTAGGTAACTGCGTGCGGCTGTGGGGGCAC
ATGATATCGAAAAACTAAGAACGATTAAACAAGGGCCGCGGCTTCAGTGA
AAGCAAAAATACGAAAACGAATCAAAACAAACAAACGTAACACCAGAGAA
TGACGGCATGGCATCTGCAAACCAAACGCTCGGAGGATACAATTTCGCGC
GGCGCTTGTGGCTATTAATAGTCAACTATGGCGAGCGAACCAGCACGAGC
CCGCTTGCTTTGAGCTATCCTCTCCTTGCTCCTTCCCGTCACGTTCGAGC
ATACTACTGCATGCCGTAGCCCACTCCTGGCTTTCCCTGCAGCGATCCAT
TTCGCCACGAAATGTTCTGCCCCTTGTTCCTTCGTCCTGCGCCATTCCCC
CTCGTCCTGGGCTGCAGTCGTTCACTGGTCGGCGTTGATGCCGAAAGCTC
TGAGGTCGTCCAGGAAACACCCCACCCATTTTCTTCTTGCTCCCCCAAGC
AGCCCGCTCCCCCCACCAATTCTCCAAACATCACGCACTTCGGCAGTCTC
GTATCCTCCATGCGCGCCACAAATCCCGCGAACAAGATCCGCCTCCTGCG
TAAAGCGCCTCGATGCTCTCACTTCCCGTCTTGATAAGCGTGTCTAGATA
GGAAATCGAGTGGTCGGTGCGATTGTTCTTTCGTGTACCGATGGAGCGCG
TCAAGAAGCTGTGGTGGGCTCGGCGCAGCGTGTCGTAGTGGCACGCGAGC
GGTACAGCATTGTCTCGAGTACCTTGGCTCTGAGCATCTGGGTTTTGAGC
TCGAGAGGAGCACTCGGTCGGCCGTACAGTTCGAGGGTGTACTTCCGGAA
GCTGCACCATGCGTTACCGTTGCGTATGCGCCAATTGACCTCGATGGAGA
GGTCGGCATTGCGGTTGACGCCCCCTCGGGGTATATGAACTCGTTCGTTT
GGCTGCACACCTGGCCCGCTGCCTCTATGCTAAATGTGGTGGTGGACTCC
GGCATCCCCTTCGTGCGTAAACACATGATCTCAGTCTTGGCCTCCGACAC
GGTAAGGCCAAATGCTGCGCACACGACCTCGATCACCCTCATCATCTTCC
TCAGCTGCCCGGGGGATACAGCAGTACAAAGTGTATCAAAATGTATCAAG
GTGTATCGCGCAGACAGCCCTTCCTTTTGTTCTAGCAAGATAAAAATCAT
TGTCGTTGCTGGCATGTCGTGCGGTGACTTGGTTGATTGGTTGATTGATT
GCAGCCCATGATTACCCGTCCGGAAGGAAAACGTACTCTATACGTACAAA
GAGGAAACGGCAATGGTACAAAATAGTCGGAAAAAGCGATATCTCCCGAA
AAAAGCAAAAAGACGCAAAACAAATTTGTTTTTGCAGACTATGATCCCAC
CTAAACGTTTTGACAATTTTTCCCCGTCCGGGGGATGCTCAGAAGGTTTA
CTACTATAGATCTATGTGTTCAGATTTTTCTTTTAAAAGGGCACAGACAG
TTGTTAGGTAACTACTTATAATTATTATAGTACATAATAGTACATATTTT
ATGGCATTCTTTATCAGTGTAAATATTATTAGTAACAAGTACTGTACCAC
TGCTGTGTCTTCCTACCTAAGGGGATATCTAATACATGTACTTGGCTGGT
ACTACCTATAGGTACAGTACTGTGCTGTACTGAAGTACCCTCAAGATAAG
ATAAGCTCGTCGCCCGAGTATGATGGAGTATGATGGAGTATGATGGAGTA
GTGGATAACCTCGCAGTTTCACTACTGCAGATTAACGAGTTCGATTCTTG
ACAGGATGCTTTCTTTTTAAAGAAAATCTGAACTCTTCTAAACCTCTATG
ATTCTCATCATCCACCCAATCAGAGGGAAAAATTGTCAAAACGTTTATGT
GGGAACTTAACCTGTAAGGACAAAAACTTTTCATGGCTTTTAATCGGGTT
CCCCTATGGTATTAGCATAGGGTCAACATTATGTGATGTCGGGGAGAAAC
CCACCGTTATACTGTACACTTACATTAATCGCCATCATGATGCAGGGACA
CCAGAAAAACAGAGGCAAAGCAGATACATCAAAACAGAGACAGAAGCACA
CGAGGAACCTAGATATAACTCAGCTATGTTATTTAAAGAAAAATCTGAAC
GTATTTTGACCTTCTGAGCATCCCCTTACATTGGGTCTGGGATCGGGTTA
ACGGGATCCAGTCGACAGGGCGAAGAAAAATGGAGACAATATTTTTTAGA
TGAAACCGTCACGCGACTGTAGCTCCTAGCCAATGGGTGGGAGGCCTAAT
GGAGATTCATTAGAGGAAATAGGGAGAAAACCGGAGAGCCCTCTTGGTCC
ACCTCGGATAACGGAGCAACCACGGCGCCATGGCAGCTCGGCAAGGTATA
TACATGATCCTATGACTCAGGGCTATCGGCCTGGGGGGGCCTTGTAGGTC
ATGTGGCACGATGCCAAAGAAGTCGCCTCGAAGCCCAGGACCGTTCCTCG
CTGTTAATCGTTATATCATTTGGACGTAATTTGGATGCACGGTCATAACC
CTCTACACAACCCCTATGCCCCGTGGCCCTCAGGCCAGCTCGGTGCAGGT
ATCGGATATGAAAGCCGCCTGTGCATGTGGATAGCCTATGGTAAACAACG
CATATCCAGCTTCACGACTAGTTGAGATCTCTCTTGTGGCAATAGTTTTT
TTCTGGCGGTCCGAGCCAGGTCTCCGTTTTCTGTACTTCTCCAGCAGTAG
GAACAGCAGCAGGTGCCCTACGCTCTTGAGCCTCACATCACCCCCCGAGA
CCGCGGTTTTGCACAGAAGACCTCCCAAAACCCTTTTACATACTACTAAG
CCGAAGAAAGTCGATTAAAATATAAACTCCGGCCGCGGAACCTCGGTACA
TGACCTTCGAAGCCCAAAACTTCCTTCGGAACAAAGACATGACTATAAAC
TATGTCGTTTGGAAAGCATGCCTTGAAGAACTGCAGAGGTCGCCAGCCTT
ATCTTGTTGATACCAAAACTGTATTTTGAGGCCAAAATGCCCGTATTCAT
GGCTCTCTTGTACCGATCAACCTGTTTTTACTGTAGGCGCCGACTCAGGG
GGTGTGGTGGAGGTTTTGGCACTTTTGTGGACCGTTCCTGGCCAATCAGA
GGCGTACCTGTCGATATGTATGCGCCCCTAATACCCATTTGACGAACCAT
AACAACAACAACAAAAAATGAGTTTTTCTTCCTGTAGCATATGGTATAGT
ATAGTCAAAGGGGCTCCGTTAAGAGTGTATTGCAGGGGACACCATTACAT
TACCATTAGATTACCATTAGATTACCATTAGATTACCATTGGATTACCAT
TACATTACCATTAGATTACATTTAGATTAACATTAGATTAACATTATAAG
CCACCAAACAAGTCACAGATTGACGAGGAAAGACAAAGTTTTGAATTCTG
ATAATTATGTATTCTGCTTAGGAGTATTATTAATAGTAGTTGATAACCCC
GCAGTTTCACTATTAAGTTCGATTCTTAGACTATTAATACTAATAACATC
AGGATAATTTGTTGTACCATACCAGTATTCTGGTTTCCGTAACGGAAAGC
GTTAGAACGTGAGTACAGTAAGAAATTCAACCATTCTTTGATTGATTGAC
GAGGTTTTAAGAGTGCTGAACTTGTATAAAAATCGTATTAATAGGCGAGA
ATCACGTAGAGAGAGAGAGATGGGAAGATGAAGATTCTTTGTGGCCACAA
GCATTAACAGTAACAGGATGATAACGTTGCAGTAGATAGGTAACCTAGCA
CGTTGAGACCCATCAGCCGTAAGTGAGATACATACAAACAAACAAAAAAA
CACTTCAGTACGTAATTCGTGTATTATCGAGATTGCAATGTTGATTACTG
TATACGTTCATGACCTTTGGGCTTGCGGCAACACCAGAAGAAGACGCAAT
AGGATGACTTAGGAGTGACCTTGGCATAGTTTAGTTGTCCCAAGAAGTCT
AGCAGCGAAGTCCGTTCACCCCCAACAAATCAGACATACGAGTACAGATT
CTCGCGCTGGATGTGCGCCATACTCTGTCCCCGCTTTGGAGAGATTGTTA
AATGACGACACAGTGGTGGCCTGCGCACGGAAGTTGTCGTTCTCTTTGTT
GACTTTGTTGACCGAAAGCATTGCTCGCAAGATAACGCGGTCGCCCACTC
TACAGCAGTACCTCACCTGACACCTGACGTGATGGAAGCTATAGTGATAG
CTCTAGATCAACAACAACAACTAGAGCTAGAGCTGCTATACTAGAGCTAT
GGTGAACCCGCGTTGTTATATCAAGTGATCAAGTGATCAAGTGGTGTTTT
GGAGCTCTAGGGCAGAGGGTCGTGTAAACCAGCACTACACTACACTACAC
TACACTACTTCGTACTGGTACTGATACTGATACTGATACTGTAGACTACT
ATTAATATTAATAGATTAATAGATTAATAGCTCTCTAGTGTTGTAAATCA
GTGGCACCAAATAGCCAGCATCCCCGTTATTATTACTACTACTCTGTATA
GTTTATATATACTATATGTATACAGAATAACTGAAGTAGACTAGTACTTG
TATGCTGCTGGAGTTTTTGCTCGTTTTTGAAACAAAACGCTTGGGGGAAA
GGGGGGAAAGGGTCAGATCGATCAGATCGATCAGATCGTTCAGGGGTGTG
AGCGCACCGGTAAGTTGTTATTAGTATTAATAATCGTCGGTGCATTTGAA
CAAGTACAGTACAGTACAATAACTGTACAGTAGAGGGCCTAAACCAACAA
AAATCGCAGGCAGTCGAGTCGAGTCCACTCGTAGCCTGCCGTGGCTACCG
TAGCCCTAGCACTCGCAAGGAGGCTGGAAACTGACGCCGACATACTATTA
AATATTGGTTTACTGACTGTACCTATTAATGGCGGTGGAGAAAGAGATGC
ATTATTAATAGTAGTTTTAGTCGTTAGGCAGTCACTATACGAGTACGTCA
AGTACAAAGCAACATGGTCCATGAGCAGTGAACATCGAAACACCAGACAC
GTGACACTGAGTATGTTTAAGTTTGAGGACGAGGCATAAGAGCAAGTTTG
GCCAGATTCATTCATTTCTAAAATACCACGTGCCGTTGGACAGGTTTCTA
CTGTAAAGAATTGGTTCGGTAGGCTGGTTGACGGAGCGAGCAATACCCCC
ACTAATGTCCTTCCCTATTCTGCTATTGTGTTATGTTGTGTTGTGTTCTC
CTCGACGCTCTTCAATCCACAATGTGCATGATACAGCTGGTGCGCTCCGT
GCTTCATGCTCGCACCGGTTATGGACAAGATAGCCCAAGAATTCGAGGAC
AAGCTTCAGGCAAGATGCTGACGCCTTATTGATTGTCGATGTTCCGAGAT
GTTCCGAGTTGCACAGTCTGAGGTACAGTCTGAGGTACAATCTGTCTGAG
GTACAGTCTGTCTGAGGTACAATCTGTCTGAGGTCAGCGGGCACGTCCGT
GTTACGTTACATTGCATTGCATTTCATTACATTTCATTACATAGCATTAA
ATGCCATGAAGAGTTTTGGTCCTTACAACACAGCCTACTATGTTCCGTGA
TATTAATATACCTGGCACAATTCCCCCCCCTGATTGGGTGGATGCTCTGT
TATACTGGTATTAATATTGATATTAATATTGATATCAATAGAAGGCTTAG
ATGCGTGCAGATTTTTCTTTGAAGTTAAAGTATGTTAAAGTATTAATATT
TCCATGTCCAATAATCTCGAGTTTGGTCACAAGAATTGTATTGGTCATGA
CATGTACAGATAGTTAAGTTGGTTATTATTAGTGGATTAGTGTAGTTGTT
ACTGTAATACTACTATTAGTATTCATTATTGTATTAATACATAAAGAGTC
CCAAGTAAGGGGGCGATGGGACCCTGCGTGCGATCTTGATAAAAAGCGTT
GTCCCGACTCTCCGGCCATTCATTCTCCTTCCTCTCCTAGTACCTGTCTA
CTTACACACGGTGACGAACATTTCATCTTGCCATCTTGTCATGTTCTCCT
CGACCCATTCTACCAAGAATATTCCTCGACATCGACATATCCTCACATCG
GCATATCCTCACATACTGGGAGTTTTTCTCATCATCAAGACATGAAGAGA
ATAGCGATCTGTCTCCAAGCTGATGTGTCGATGAGACCACGCTCTATGAA
CCTATTACTATTAGATTACTATTACTATTACTATTACTATTACTACCTTC
CTCTCGCCATCCAACAACTATTGATATGATATTAATAACGGGCATAACGG
GCAACAATCCCAGCAACTTGGTGTCTTCAAATATCTTCTACTGCTTCTAC
TGTCGTGATAAACCTTGAGCTCGCACTGGGTGGGAAATTACAACAGCCGT
GATAATCCTTGAGTTTTAAAGTGAAAAACTGCGAAAGCCGCCAGGGGTGC
CAGGAGGTGTAGTCTAACTCTAAAGGGGTGCGTGTAACTGAAGAAAGTAC
TTCTAAGCGTTGTTCTATGTCCTACGTATGTCTAAGTGTCCTATTGATAG
GTGCTATGTCCTAGATTCGTGACAGGCACAAGCAACCTCTCTGATTGATT
TCACCGTCAGGGGTGTACGTATCGATACAGTGGTACTTAATATCGGCTAA
GTACTTTTTGTGCAGTACTCGTTACGGTCATGGTGCCAATAGTGTCCCAT
TAATAAAGAGACAGCCGTGATCGGCACACTTCACAGCGTTAAAGGTTACA
TTAGCTGGAATGATAGATAGATATATCGGTCAAAACTGCAGTTTCCCTGG
TGTTTTTGGTGTTTGATGTTGAGGTGTTATGCACTGCAAATTATACCAGA
ACATTGAGTTGATTTTTTCGAGCGCATGTCATGCACGCTTTTGCATATCA
GCAACGACAAAAATGAATAAGGAATAGGGAATCAATTGTGAAAGGTACTG
CACGTCCTTGAAGGCCCATATATAATGTTGCCAATGTTGCGAAACTCCCT
GATTGAGAACTCACCAAACTAGTCTTCCATCTATTAATAGTCTTCCATTA
TAGGCCGCACCGGTGCTATCTCAAGAGAGCGTGCAAAGCCAAGGGGTATT
ACTAGTATTTATTGCACGGTAATGCGGGAAATCTCTATGCCGTAACAAAT
ATCAGACGGGGCATGGCTTAAGTCGGGATTTAGGCGGGCTGGGCCTTATT
TCACTGTACTACATCGGTCAAAACTGCAGTTTCCCTGGTGTTTGGTGTTT
GATGTTGAGGTGTTATGGACTGCAAATTAAACCAGAACATTGAGTTGATT
TTTTCGAGCGCATGTCATGCACGCTTTTGCATATCTGCAACGACAAAAAT
GAATAAGGAATAGGGAATCAATTGTGAAAGGTACTGCACGTCCTTGAAGG
CCCATATATAATGTTGCCAATGTTGCGAAACTCCCTGATTGAGAACTCAC
CAAACTAGTCTTCCATCTATTAATAGTCTTCCATTATAGGCCGCACCGGT
TCTATCTCAAGAGAGCGTGCAAAGCCAAGGGGTATTACTATTATTTATTG
CACGGTAATGCAGGAAATCTCTATGCCGTAACAAATATCAGACGGGGCAT
GGCTTAAGGCGAGATTTAGGCGGGCTGGGCCTTATCTAATATTCTTCTCG
CCACGAGATCTCGAATGAAATGAAGTGGTGTCAGACATCCGCTGTCTGTG
TTTATGATCTTACTCTACTCTACCACACCATAGTATAGTATACCATAGTA
TACTGTTTGACGGGTTAACAAGATTTTCTGCCGGAGCGATCGCCCCCAGA
TTATATCATCCCCGAATACACTTCTATTCTATACTGCACCTCTCCTCTTC
TTCAGATGCCACAAATGGATCACGTTCCGGACAAAGCGCCCATTCTTGAT
ACGAGCAGTACCACGTCAGTGGCATCCTCTCCATTGGCTAAAAGTGTCAA
CATTTCTGCGTCTGAAAAAACAGGATGACACGGTCTGTCCTCCAACGGCC
ATTTAGGCACTCGATATCACCAATACACGGTCTGCCCGACGGTCTCTCGC
CATGCTGGCGTAGTCAACGCCGGCGTTTTGGTTCATTCTTTCACCAATGC
ACCGTTACCTCTTGTATACTGTTCGTGTAGTAGAGTAGAGTACAGTGCAT
GTAATATGTAATACAGTAAAGTCTCAACGCTACCGTCCTACTTCGGGTTG
TGGCATAACGATAACGATAACGACAGCTGTTGGGCACTGCTGTGCATGTA
TCATGCTGCCGTCCACACCGTGTTCACCACAGTACTGTGCTGTACTGCAC
TGCAATGCACTATACGATATCCGTCCTTGTCTGGCCCGCGGTTCACATGA
GGCTCCTGACCACTTGTCGAAACAGTAAGTCAAGCATTCGACGCTCTTGT
CATCTTTTAGTCCCTTCAAATCGATAGACGGAAAGAAGGATATGAAACTG
GTCTGAGACAGGTGAAATCGATCAGTCAAACTCCGAAGAAAGCTCTCGCG
GTCCCTGAGAACCCCCCCCCCCCTCCGCCCCGTGTAGGATGACAGCAACC
ATCAACCATCCACAAGATGCTTTATGGTAGAAACGTCGCTATGGGCGGCA
ACCATCAACGTGGCAACTCGGTGAAAACGAGCCAAGAAGACGCCGTCAAC
GTCAAGGGGATAGCTTACCTCAGTCATAGCTTACCACTTGTCGGCGACGT
CGAAGTCTAGCACGCATGGGTACGGAGAGCACTGCTTATACCCGACGTGT
TTCGGCATCCTCAAGAGCTTGTACCACACCCTGAATGTATGGTCACACAT
ATAGCAAGGGTATGGATTAACCGGGTAAGGTTGCCAGTCCTGCACGTGGT
CAGCTGAACAGGAAAAGTCAATATTTCCCTGTCCGCGTTCGTGCCTGAGA
ATTTGGTCTCGCGAGACGGATTCGGCAGTCCCGTCCCGCGTCAGCCTGCT
CATCTCCATACTCAGGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCG
AGTTCCGCGGCGGCGTCCATTTATTCATTTATAACCGCCATACGCCATCG
CGTCAGTCCCGAGTTTATCGGGTCGCGCAATTGCGTACCGATGGCGTTCA
CTGCCGAGAGTCCGCCGGCACGGGGCCAGTAAACCTCAAGGTAGTTCCAA
GCGAGTGCTGCCTTGGCAGGTCACCATGGACCAACTAGTATTCGCCTCTC
TTTCCCACACCCACTATTGGCATGAAGTGGGCATGTTGAAAGTACCGACG
GACTGAATAACACAACACGATTCTTTAAAGTTAGACCACCTTTATCAGCA
TGGAGCCAGACCCTCTTCTGGGTTTTATGTCAGGCAAAATCACCTGTACA
GGTTAGATTGTACGGGCGCCTGCTCTACGTCGAAACGCCAGAGATCCCAG
TCAAAGAACCTGCAGTGCCGAAATGACACCTTAGTAGGTGATCCAGCTTC
TACTTGTGTTTGCACAGGCTGCTAGTCAGTGGTCGCCGCGCATAACGCAT
GCCCCGCTTTCCTTTGTTATAAGCTTTATTTTCTTCAGCGTCGGAAAGAC
CTTATGACCACAGGTAGTTCGTGCAACACTCTCTTCATGTCACGCCGTTT
TCTCCCATGCGCTGCTGTAAAGGCGATAAAGAAAACATGCTACTCAGCGT
GACTTGTGTAAATTTGCATCCAATCCAAGTTTATTGGCATGTAGTCAGTC
GACATTTGTACACAGAAGAGAGATTTTAATCTCAAACGATATCAATGCTT
CAGTACCATCGGTACCATCATTCGTCGGGTGCGATCGCGAGTCTCCCAAG
AAGCTGGCTGTGGTCTCTCTCAACCGTAACCCTAACCCAACAGTTCTTGG
TATTAATAGTGGTACAGCATTTTCAGCTTCGCCGTCTCCGAGACCTGTCG
CCCTAGTTATAACTAGATCCCTACGATCACCAGACTCCTTCCCCCAAGCA
GCCTCGCTGCTAGTTGTGAGTCCCAATGCCCCGGAGGCTACGAGTACGTT
GTTGCTCCACCTGGCTGGGATGGGACTTGTGGCGTTTTCAATCACGTGTC
GCTGACGGCTTCCGGCAAAAGCAAAATAAATCTCTGCACTCTTAGCGAAC
TTACTGAACATTTTGTTCGATTTTTTTATCTCCGCCCATGGCCGGCTCTC
TCAAACTTCTCGAAACTATAGTAATGAATAACCCCAAGTAAGTCTTGTAT
TATCCGTCCATTCAGAGGAGCTACCGGGATGGGGATAGATCTAATGGAAT
GGGAATGATGGACTGGGAAACGACGTGATGGATTTTGTAGCCTATGCGAG
GGCTCTAGCGAAAAGAAAAACTGAAATACGGACAGTTCATCACACCTCTA
CCAAGAATATCCCCCAAATATCGAAGCATTTGCAAATATTTGAAATCAGC
AAGCAGTCTCCACGATGATGTTGCGATGAGACAGGCTCTATCGTGTCTAT
GGTGTAGGGAATACAACGGTAATGGTGGGGCTCCCTTTCCGTCGGGGTTA
CCCACTGTAATAGTATAATAGTGTAATGGAAAGTCTCTGTAAGAATGAGT
CTAGTCAGAGTTGGTTCTGTGCGAGGGGTCGACGTAAATACATATAACAG
TTGCTTCGGTGTCCCCAAACACATGGCCGCACACAGAAGCCACACAAAAA
AGGAACCAAAATAACACACTCGAGAAACTGAACTTGATGGGGCTCAACAC
TACAGAATTACGGGGATCACTAGATACGTCCCCTGGGAATAAACTTCCTC
ATGAGTGTCATTCACCCGCATCTTACCAATCAGGGAGTAACGGTCTTCTT
TATCCTCTTTTAGTCATTGGTTGGTTGCATCCAATTCATCAAATATTCAG
ACTCTCTACTTTTTAAATGCAAAATCCAAAGCTACCTTCCGTCATTGATC
CTTCAACAAAAATGCTCGTTGATATGCGAGTGAAACAGCTCTTGCAGATT
AAAATCAGAACATTTTGCCTCTGCTTTATCTAATGCTTTAGTCAAGTCCC
TGCGGACCTAAAATAAGATAGGTTAGCTATCGCTATACGCTCGCTAAAGG
ATAGGTGTGTAACTATCGTCAGCTTAACACAGGTGTTGGTGTAATGTGTG
GTTGGTGTTTGGCTTATTGTACTGGCGTCGTCCTCAACGCCGTAGGGGAA
AGTGCCACGCCTGATTCTAAAGAAAACAAGCAGGCGGACGCAGGCAGTTG
TTATTTTCCGAAGGCATTTTCTGTGCGGCGCGTTGTTATGTAATTTTTTT
ATCTACAGAGCATGAAGGTTTATCTACACATACATGTCCAACGGGAATGT
TCAGCAGAACATTTTATGCCCAGGATTGTGTTACTAAGAATCTTCACATC
TCGCCCCGGTTCTCGCCTACGATTGTTTATCAAGATGCAAATTCAGTACT
CCTACTAGCACACTTTTGCACAGCAGTATTTGATTATTAGGCTCTATCCG
CAAAACCCTGTGTTCAAAATTGTTCATGATGAGAACGTGAAAATTGTAAA
ACACTCTAAACAAAAACACACCCAGCATGTATGGCGGTGACTGCGATGCA
GCGATAGCCAAAGCTGCCGCCGCTGTGACTCGTGTACAGAGCCAGAGTCA
GGAGGTTGGTTCTGGTGATGGAAGGGCTGGGCTTCTTGTGTTTTGATTTG
TCATCAGCAGAAACGGACTTTTGGTGGCAGGAGGACGAGCAGTAGAGACT
TCGTCTATTTTCGTGTTTCGTATGACATTTTACGTTCATCGTGGAAGCTG
TCAAGTCCGTGTGCACCCACGACGGTGGTTGTCCTTAAGCAGCCGAGCCA
AAGCACTCAAACTTAAAGGGAGGCATAGACGTTTCGTCGGCGATTCCGCG
GTCCATACGTCTCTTCGAGGAGCTCCTCTCCTTGTTGCTGAACAGAAGAA
GTGGTATGAACATATTCTGCAAAAAGTACAGAATTTGGTGCGACATGACT
ACATAAAATCGTTTACCTGGTACTATATAGTCTATACTGTCTGGTGTACA
GCAGTATGTACTTGTCGATTACTGTTGTTTTCATCTAACTCTTGGTGCAA
GTACAGCAGTAGGTCCCTATATTATTCCCCGAAACAGGAAGGGCTTCTTC
CTGTCACAATGAACGCGTCGAGAAAAGTTTGTTGAGAAAAAGTTCCAGGT
GTTTGATTGTAGTAGGCCCTCTAATCATTCTAGTCCAAGTGAACCTCTCT
TCCCCGGTGGAGCGAGTTTAAAGTCGTGGAATTTTAGAGTCAGTTGTTGT
TCGAAGAAAAATCAAAACGCACCTAGACCTTCTGAGTCAGTTGTTGTTGT
ATTCTTCACAGTAATATACGTGGTTGCCAATCCGGTACGTGGTCACAAAG
AGGTACCAAGGTCAACGGGTCACATCATGGTGACAACCCGCTACTCAGAC
CAACAGGGATCCAAATCGCGACAAAAAGTTGTGCGACTCTACAAGCGATG
GCACCGACCAATAACAAAACGGTTCATCAAACCTACTTTACTCCATATCG
AGAGCAGCCTCGATTGACTCGGATTGTTGTCGCCTACCCACGACCAGCGT
TCTCAGCAACAAATCGGACCAATAAGTTCCAACCGTTTTGATCAACAATT
CCAAGTTTCTCAAGGCTACACATCGTACAAAAATAAGGAAAATTGAAATA
CCGAGGTCCATGGTGGTGGAGGCCTTGAGCTGGTGAAGCCGGCGTGCGAG
CCAGCATCCAGCCGTCCAAAGCCCTGTGCATCCTTGAAAAAGCCCCACGA
ATCTTGCCCGTTCGCCGCTCCATGTGCTCGCGCACAGGGGTTCAGCCCTC
CCCTGGCTCGTCAACGATCGAGCTGCCCTCCGCCTTCGCCGAATCTGGTG
CGTACCCTGCCGGCTTCTAGCCATACGAGCCGACCTAAAACTTTCAGTTT
CCGTGGACCATGTGCCGGCGTTCAAATCCCACGAGCCGAGAGGCATTGGA
GTTGACGAAGCGCTCGTCGTGTGGTCATTAGGAGGTGAATAACCTTTACA
CTCTTCAACTCCACCACCACTTTTCCGCCGAGCCGTAGATTAATGTTGGA
CAAGGTCGCTGTTTCAAGACGTACGCAGCACGTGGACGCCGGAATAGAAC
CTAGGCCGATTCAGCCATTCCTTGTCCGTTCTCCACCCGTTGGTCATTTT
TAGTACTGTGCACACTGACCAATCAGAAGAATATTGGTTTACACCGAGGG
GATACAAAAATGGTATTCTGATTGGTCAATGTGCAAATTTTTTTATACAC
CCGAGCTCAAATTGATGCACCTGCCGGATTAGAAGCTCACTACGCTCGCA
ATAATATTCGACTCCAAGAAACCTACGTGTCCTGACGACCGTATACGGGT
CGTACTTCAGATTCGCGTATAACACAATCCACGGCATCACCATACATACG
CGAAATTCAATACTGAAATTGGTGTGCAATCAGAAACTTATGATATTCCT
CTCTGACATGACATTTTCAGATATGATGGCACGACCAAAAATAAATCACG
ATGTTAGCGTATTCCTGATTGAATAAACGGCCCATGCATCATACGACACG
CCATCAAAGAAGCATTCTACGTCAGATATAACCCTGCCGTAGAAACATGC
TAACACGACCGTCGGCGTGTGTCCATCTTCTTGCCAGCAAAATGTTGATG
CATACTGTAGTGTAGTCCAATTCTGGATAATTGACTACAGTACTGTACCT
CAAAAGTTCGAATAACACTCTCAAAATATTGTATGGGACAGTTCACACTA
CCAGCTTGTACGAGGACTACCTATCATGAACAAACAACGGACAACGCGGT
ACAGTATACCCTTCATTGAAGCAAACCGAGATGGTCCATGGTCAGCTCAG
TCTCACAAAGCTGCTCTTCATCCATCGGGGTCGCACACCGCGTTTGCTCT
CATCTTCGATGAAAGTTCTTGTCTCGTCTCTCGTACCTGACATGATTGAA
GATTGAGACTAACAAGAAAGGGACAAGCAACCGAAATATCTTTCCCCCCA
GCAAAAATAACTGTCTCCCCATCATCCGTCGGTACTTTCAACATGCCCAC
GTCATACCAATAGTGGGTGTGGGAAAGAGAAGCGCATTTTAATTGGTCCA
TGGTGACCTGCCAAGGCAGCACTCGTTCGGAACTACCTTGAGGTTTACTG
GCCCTGTGCCGGCGGACTCTCGGCAGTTGACGCCATCGGTACGCAATTGC
GTGACCCGATAAACCCGGGACTGACCCGATGGCGTATGGCGGTTTAGATA
AATAAATGGACGCCGCCGTGGAACTCGGGAGGAATCCCGTAAGTAAGGAC
CATATTCACCCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGACTG
CCGAACCCGTCTCGTGAGGCCAAATTATCAGGCGCGAACGGGGACAGGGA
AATATAAATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTCA
CCCAGTTTATCCATACTCTTGCTTTATGTGATGACCATACATACATACAG
CCGCCTGAGTCGAATTGCTTGTTTTGTTCGCTGATAGATTCGATCACCCC
TCGCTGTTATCGGCTCATCAGCAATCTCGCGAACGCCTGGTGAGCGGTGA
CTTGTAAAACTGTTTCGTCAGATATTATCCCGACAGCTGCTTGAAAATAG
AAAGCCCCCCCTGCTTCGAGCTTATCTTACCATCGGCAAGCGAAAAGCCG
TCGATAACAGTTTCTTGCATCTCAAGATGCTACTGTCTGAACCCGTCCAG
CCCCTTACCAGCTGATGATGATTCCAAAACCGGATATTCGCGCTTGGGCA
CCACCTTGCCCTCTCCTCCTAAACTTGTGCTCGTACCAGTAGAATCTATC
TTCGCTCCCGATGTTTCCACGTCATGCCGTCGGGCCGTACTACGAGCGGG
ATCTCCCATCGCTTCACTTCCTGGCCATCTGCCAGTGCTTCGAGAGAATC
ACGCTCGATCTGGTCGGCCCCCGACGACAGAGGTAACGGGCTTCATTACT
CTTCCTGGCCATCTGGCAGAGCTTCGAGAGAGTTACTCTCGATGTGGTCG
TCCCCTGACGACTCAGGCTCAGCGCACGGCAGAGGGTAGAGAATCTTCAA
AATCATCTTAATGGTAGGTGGCAAGATGCCCTTCGCTGCCATTTGCGCCG
TCTTTACCTATTTTTCACGCTAGTCTCTGCGAGGAGGGCGCTCCTATTTA
CCACACATGGGTGATTTTGTCGAACCACCACCCAAGCTAAACAGCAAGAC
ACTCGTTCACACGTCGGACAGAACATGAGTTAGCTCATCTGTCGCCGATA
TGACCCATTGGGCAAAAAACACCCAAAGACATATGGCTGACAGATCAGGA
GGGAAAATAAGCATCCAGATCCATATGTCCGGCATATCGCATTTGGGAAA
AGTCATCCAAAGACACATGCCCCACAGATCAGGAGGGAAAAAAGCATCCA
GATCATATGTCCGACATATCGCATTTGGGAAAAGTCGTCCAAAGACATAT
GCCCCACAGATCAGGAGGGAAAAAAAACATCCAGTTCCATATGTCCGACA
GATCGCATTGGCCAAAAGTCATCCAAAGACATATACCCCACAAATCAGGA
GGGAAAAAGCATCCAGATCAACTATGTCCCACAGCTCAGTAGGGACATAA
CCCCGTAAAGAGTTAGTTCGATCTGTAGGGATCTGATCTGTAAGACGTGT
GAACCTTTGTACCACAAGTGGCGTGAACTTGTATCTTCCAAGCGTTTGGT
TTGCAGATGTCATGACGTCTTTATCTGGTGTCACGTTTGTTTTGTGTTGC
TTGTTGTTGTCGTTGTCTTCACATTGAAAACCGTTTCGATCTCTGCTCAG
TACCTTTTAACATCCGTACTGGTCCAACTGACGACGCCGGATAACTACCC
AAAGAATGGTATACATACCTGGTACACATTACCATGGTATAAAAAATAAA
TGAGAAATAAACGGACCCAGAAAAGGTATTACACAACACCTTCACCAGAG
CAGCAGCGAAAACTAGATCGACAACGTCATGACGGTAGTGGTGATGCCAA
AGAGCAAACGGCAAACCGTAACCGTCAAACGGACAATTCCCGTAGTAGTC
TAGAACTTTAACGATTTTCCACAGAAGGAACAAGAACATAGGCGAACACC
ACCAATGGAGAGGAGAGGCACAAGGAAGACACGATCAAGAGAAAAAAAAA
ACATTAGCCAAATCTGCCCTCTACGAAAGTTAAAGTTCAACTTAAAATTC
GGCGTCGTCCATCTCGACTGCGTACTCGTCGAGGTTGTTGTCCTTCTCCT
TGTCCGTTGAAGAAAGGCATTCCGTTTCCGACCTCGGGTCGGAAAGCCGC
TTGGGTACCGCCTGCACCGCTTGCTGGGTTGACAGAGCGGGCACCTCCTG
GGGAATGTGCTCCTGGTTCCCGTTGAGGCACAGCACCATCTCCGTATACG
CCGCGTCGGGTCTGCTACGGGCACCGGTGAGGAGACGCCCAACGGTGCTG
AAGTCCCGCTCGAGGACGGAAGAAGACGCCGGCACGGAGAGCAGAACCCG
AGCAGCGCGTGCCATGTTCGGGTAGATCGACTTCCCCCCCTTCGCCCAGA
AAACGAGCAGGTCCCCCACCGGGTAGTCATCCACACATGCGCCTTCGAAG
CGCTCTTGGAAGTGGTCGAACCTATGCTGGCAAACCTTGTCCTTCGCATA
TATGTCGAGGACACACCGAGCTTTTCGGAACAGCTGCCAACGAGTATCGG
AACATCAATAAGATCAACGAAAGCCCCAAGACCTTGCACGTTAACGTTGT
TTATTATACCAATAAGCTATCGGATGTTCTCATGCGTGGATGACATATTA
TATGCCCAACCGATCACCCTGACATAACATACACAGATCAATATGTCCGA
TGTATCGCATTGGAAAAAAGCATCCAGATCCATATGTCCGACACATCGCA
CTTGGGAAAAGTCATCCAAAGACACGTGCCCCACAGATCAGGAGGGAAAA
AAAGCATCCAGGTCCATATGTCCGACATATCGTATTTGGGAAAAGTCATC
CAAAGACATATGCCCCACAGATCAGGAGGGGGAAAAAGCATCCAGATCCA
TGTGTCCGACATATCGCATTTGGGAAAAGTCATCCAAAGACATATGCCCC
ACAGATCAGGAGGGGGAAAAAGCATCCAGATCCATATGTCCGACATATCG
CATTTGGGAAAAGTCACCCAAAAACATATGCCCCACAGATCAGGAGGGAA
AAAAAGCATCCAGATCAACTATGTCCCACAGCTCAGTAGGGACATAACCC
CAAAAAGAGCTAGCTCGATCTGTAGGGATCTTATCTGTCCGATGTGTGCA
CTCGTTTTCTGTTTTTTTTTCAATTCCGATTGGTCAACCACTATTTCCGG
TTGGCCAACCCGACCAATATCGCTAACGCTAACCCAGACCCCCCTACCCC
AGCTGACCGCGTGGTCCCAATTCATGACTGGAGAACCAAAAAGGACCAAA
AAGGACCAAAAAGGGGACAACAGGACAAAAGGGGAGGGGGGCTGGGTAGT
ATTAGTAGTTTCCCTGTTTTTTGATCGCGTGCGGTGCGTGGGTGGTGGTT
CGACAAAATCACCCATGTGTGGTAAATAGGCGCGGTTCTGCGAGGATGGA
TCTTATACGGGAGAGTTGATTCTGTCCGAGGGGTCGGTGCCGCAGGCTCG
ACGTGAACACATATCACAGATGAATATAGAACCAATATATTATTATTGGT
TCGGTGTTCCTGGACACATGGTCGCAAACAGGAGACGCACAAAAAAGCAA
CCAAAATATCATACTAGAGACAATGAATTTGGTGGGGCTCAACACTACAG
AAATACGGAGATAACTAGATACGTCCCCTGGGAATAAACTTCCTCATAAG
TGCAAGCTCGACGTGAACACATATCACAGACGAATATAGAACCAATATAT
TATTATTGGTTCGGTGTTCCTGGACACATGGTCGCAAACAGGAGACACAC
AAAAAAACAACCAAAATATCATACTAGAGACAATGAATTTGGTGGGGCTC
AACACTACAGAAATACGGGGATAACTAGATACGTCCCCTGGGAATAAACT
TCCTCATAAGTGCAAGCTCGACGTGAACACATATCACAGACGAATATAGA
ACCAATATATTATTATTGGTTCGGTGTTCCTGGACACATGGTCGCAAACA
GGAGACACACAAAAAAGAAAGCAAAATATCACACACAAGACGATGAATTT
GGTGGGGCTCAACTACAGAAATACGGGGATAACTAGATACGTCCCCTGGG
AATAAACTTCCTCGTAAGTGTAATTCACCCGCATGTTACCAATCAGGGAG
TAACGGTCTTCAAAGAAAAATCTGAACGCATGTAGACCTTTTGAGCATCC
CCCAGTCAGGGGGAAAAATATGTCAAAACGTTTAGGTGGGATCACAGGCT
GCAAAGACAAAACCTCTTCATGGCTTTTAACTGGGTTCCCCGATGGTAGT
AACATTGGATCAACAGTATCATGTCGGGACGACACCCACCGTTATACTGT
ACACTTACATTAATCGCCATGTAGGGACATCAAACAGAACAAAGACAAAA
GATACGATGAGCCTGGATTACAGCTCAGTTTGTAACAACATTGATTGGGT
CTAAGATTGGATGGGTGTCGATGAAGGGAATCTACTATTAATATTAATAG
TCATAGATGTAGAAATGATAATGGAAAATTATCCAATAACTATTCCTACG
GTACGTACTTACAAGTAGCAGTTATGGTGTAGACATTAAGGAAACTCGTA
GATAAGATTAGCGAAGAGTGGTTCAACAAATCTAAAGAGGTTTTTTACCG
TGTTATCTATTTGGTCCGTTTGTAATTCACACTAGATCTTATATGTTATA
TAACATTTGTGACAGCAGGAGTGGTAAGGGATAGGACGGCTAGCGGTAGT
GGTATAAATATGTTTTTTTTTAGGGTTAAGCATTAGAACGAGAGGACAGA
GAGGATCACCAACGTAGATGTCTTCAACATAATCCAGAAGTACAAGACAC
CGATGTTCACCTGAAAGTGTTAATAGACTAAGAGCAATGGAGGATCGCAC
GAGGAAGTAAGAGGCAAGCGGGTGGGTATGGACCCCTCGTGCGCTACCTG
TCAGGGCTTCGGCAGAAAGATGCTCGTACATAACACCTAACTTGAGAACT
ACGGTCCCGCGTCGACCGAAGAAACAGAGATAAACGGAGAAGCATCTGAT
AACCAAAGAATGACAAGGTTTGCCTCAAACCACCCCGTAAACGACCCTCC
ATTAAATCTTGAGTTGAGCTCCTCGGTAAAGATTCAGCCAGAAAAATCTT
TAAACGGAATAGTACAAAAGTAAGCCATTAGGTAGGCTCTTCAACAAATG
ATTTTAAAGGTCTATCGGCGAACACTTCGAAGACATTTATGCATCGCTTG
ATGGTGATGATGGTGATGATGACAAACACGCGAAATGGAAGTGTCAAAGT
GTCAAAGTGTGATATTACATATTACCAACTGTTTTCACGTCCTCTACTTT
ATAGATGCACATTTACGGAACTTTGCTGCATCTCCAGTCCTTTTTCTACA
GTCTTGCATACATGATCTGATTGTGTCACTATGTCGTCATGTCGTGGCGG
AATCACGCGCAGGTGGTCAAGGTGGACTGCGACGTCCATAAAGACGTGAT
GAACCAATACCGAGCGAGAGGACTCCCATTGATGATTATCTTCAACGAGG
GGGAGGTATGACCCGAGAACATTCTGGATCAATGTATTCCCCCTCTTCAA
CCACGTTCCTAAGCGTCCTTCCTCCCTTATTATTAATAATCTGAAGCTTG
TCTGTAACGCAACAGGCACGAAATCAAGTACGAGTCGAACTTTAAACTAT
GCTATCAATCGATGGCATGATGAGCCTTGTCGGCGCTTTGGCTCCATCAC
CTTGAGAAACAGGGAGAATTTTTTGCGCAAGTTTCGCTATTTCATTTTTT
TTGCCACTTTGACGAAGGATTTATCATTCATGCATATTCCCGCCCCACTG
ACCCGTCGACTGAACTACAGGTGATTGCGAGGCACGAGGGTTCTCTCGAA
TACGACGGCGTGGTAGAATTTCTGGACAAGAAGTTGCCCGGCGGCCTCAA
GTGACGTACTTATATTAATTTAAGTATGCCGCAGGAGATCGGCGCTATTC
GACCACCGCTTGGAGTTGACGGTTTCTCGATGTCAAGGAAGGACGATCAT
GACACTCGTTGGAACTCCCGCGCCGTTAGCCACGTCCAGACGTCCAGACG
CTTTGTGTGTCGCTGAGTCGAGGCACACTTAGAAGTACTGGTGTAGCAGT
GCACTTAGAGTAGTACCGTCGCAAATGGGACTATAACGTGAACATGATGG
AAGCCTTAACCCGAATGGTGTAGAGGTGTCGGAACATGGTCATTGCCCAC
GATACAGTACAACAGTACAGTTTAGAGCACTCCGGTTTAGAACATTCCTG
GGTGTGTCGTCTTTCTTTTCCTGATTAGTTGAACCGCACGGGCATGTCGT
GTCTACAGCGCCAGGCTCACCCTTTATGTTGTACGGTGATAGAGATACGT
ATTTCGTACCTGGTGCTTGAGTGGAGGACGGCGCCACCAATATATGTCGA
TATTTGTCAGACAGCAAGGTCCTGGTCGGTACGTACAAACAAACATGATG
GACTTGATGTCCATTGAGCGCCACGGAGCTGGATTTGTCATGTACTCAGC
ACGAACACCCAACGTTATCCGGCGAATTCCTGATCAAGTACAGTGCTTCA
ATAGTACAAATATGTGCA
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1205:21887..47354-

>mRNA_A-nodosum_M_contig1205.1.1 ID=mRNA_A-nodosum_M_contig1205.1.1|Name=mRNA_A-nodosum_M_contig1205.1.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=354bp|location=Sequence derived from alignment at A-nodosum_M_contig1205:21887..47354- (Ascophyllum nodosum dioecious)
ATGATGGCGAAGCCCATGCAATTGCCCAAGGGAGATTCGATGGAAAAGTT
CAAGGAGACGGTGTTGCAGAACAAGCTACCAGTGCTGGTTGACTTCCACG
CTGTCTGGTGCGCTCCGTGCTTCATGCTCGCACCGGTTATGGACAAGATA
GCCCAAGAATTCGAGGACAAGCTTCAGGTGGTCAAGGTGGACTGCGACGT
CCATAAAGACGTGATGAACCAATACCGAGCGAGAGGACTCCCATTGATGA
TTATCTTCAACGAGGGGGAGGTGATTGCGAGGCACGAGGGTTCTCTCGAA
TACGACGGCGTGGTAGAATTTCTGGACAAGAAGTTGCCCGGCGGCCTCAA
GTGA
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