mRNA_P-littoralis_Contig159.69.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig159.69.2
Unique NamemRNA_P-littoralis_Contig159.69.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A6H5KI71_9PHAE (Thioredoxin domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KI71_9PHAE)

HSP 1 Score: 234 bits (596), Expect = 1.020e-71
Identity = 117/175 (66.86%), Postives = 138/175 (78.86%), Query Frame = 2 
Query:   80 MTSSRLFLALLYLAPLYVSAFVGCPAASLARQRVISVPKQWRTYALPRHSSASLGVSMMGAPFELPQGSKEEAVAAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFLRKVPDFD 604
            M   R+FLALL++APLYVSAFVG   ASLA              +L R +S+S    MM  PFELP+  +EEAV AFD+AV+ QE+PTLVYFHAKWCGPCIMQGPVF++IAE++D + KVVKLDCDNH+FLMNKYRVRGLP+T LF +GKVIARHEGHLGY+GQVEFLRKVP F+
Sbjct:    1 MAPPRVFLALLFIAPLYVSAFVGVLPASLA--------------SLQRGASSS--ARMMSVPFELPKVPQEEAVVAFDDAVVNQELPTLVYFHAKWCGPCIMQGPVFDQIAEEFDGKAKVVKLDCDNHKFLMNKYRVRGLPYTVLFHDGKVIARHEGHLGYDGQVEFLRKVPGFE 159
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: UPI0017492CF7 (thioredoxin TrxA n=1 Tax=Marinomonas algicola TaxID=2773454 RepID=UPI0017492CF7)

HSP 1 Score: 92.4 bits (228), Expect = 5.420e-19
Identity = 46/94 (48.94%), Postives = 57/94 (60.64%), Query Frame = 2 
Query:  302 AAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            A F E VL  +VP LV F A WCGPC M  PV E +AEDY +R+KVVKL+ D +Q    KY VRG+P   +   G+VIA   G +     VEF+
Sbjct:   11 AQFSEEVLNSDVPVLVDFWAPWCGPCKMIAPVLEDVAEDYSDRLKVVKLNVDENQETAPKYNVRGIPTLLIVKGGEVIATKVGAVSKSQLVEFV 104
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A1Y4D2V2_9DELT (Thioredoxin n=1 Tax=Desulfovibrio sp. An276 TaxID=1965618 RepID=A0A1Y4D2V2_9DELT)

HSP 1 Score: 91.7 bits (226), Expect = 9.100e-19
Identity = 41/97 (42.27%), Postives = 62/97 (63.92%), Query Frame = 2 
Query:  302 AAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFLRKV 592
            AAFDE+VLK ++P LV F A WCGPC   GP+ ++I++DY +R++V K++ D +     KY +R +P   +F NG+V A+H G +  E   + L  V
Sbjct:    8 AAFDESVLKSDLPVLVDFWAPWCGPCRAVGPIVDEISKDYADRLRVFKMNVDENSITPAKYGIRAIPTLIIFKNGQVAAQHTGSMPKEEICKILETV 104
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A1H1MRQ4_9FLAO (Thioredoxin n=2 Tax=Gramella echinicola TaxID=279359 RepID=A0A1H1MRQ4_9FLAO)

HSP 1 Score: 90.5 bits (223), Expect = 1.920e-18
Identity = 38/82 (46.34%), Postives = 55/82 (67.07%), Query Frame = 2 
Query:  320 VLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYE 565
            ++K E P L+ FHA WCGPC M GP+ +++ E+  ++VK+VK+D D +Q L  KY+VRG+P   LF NG+ + R  G L  E
Sbjct:    8 IIKSETPVLIDFHADWCGPCKMLGPILKEVKEELGDKVKIVKIDVDRNQPLATKYQVRGVPTMILFKNGEQLWRQSGVLSKE 89
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A382X9Q3_9ZZZZ (Thioredoxin domain-containing protein n=1 Tax=marine metagenome TaxID=408172 RepID=A0A382X9Q3_9ZZZZ)

HSP 1 Score: 89.7 bits (221), Expect = 4.520e-18
Identity = 41/92 (44.57%), Postives = 58/92 (63.04%), Query Frame = 2 
Query:  308 FDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            FDE V   E P LV + A+WCGPC M GP+ E+I ++Y++R+KV KLD D +Q   +K  V  +P   +F NG+V+A+H G L      EF+
Sbjct:   11 FDEEVNVSEKPVLVDYWAEWCGPCKMVGPLVEEIEQEYNDRIKVGKLDVDENQLSASKQNVMSIPTLIIFKNGEVVAQHVGALNKSQLTEFI 102
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A3M1WDA5_9GAMM (Thioredoxin n=1 Tax=Gammaproteobacteria bacterium TaxID=1913989 RepID=A0A3M1WDA5_9GAMM)

HSP 1 Score: 89.7 bits (221), Expect = 4.780e-18
Identity = 42/94 (44.68%), Postives = 59/94 (62.77%), Query Frame = 2 
Query:  302 AAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            A+F++ VLK +VP LV + A+WCGPC M  P+ ++IAE+YD R+K+ KL+ D +     KY +RG+P   LF NG+V A   G L       FL
Sbjct:   11 ASFEDEVLKSDVPVLVDYWAEWCGPCKMIAPILDEIAEEYDGRIKIAKLNIDENPNTPPKYGIRGIPTLMLFKNGEVEATKVGALSKSQLAAFL 104
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A520VYC9_9BACT (Thioredoxin n=2 Tax=unclassified Bacteria TaxID=49928 RepID=A0A520VYC9_9BACT)

HSP 1 Score: 89.7 bits (221), Expect = 4.780e-18
Identity = 43/96 (44.79%), Postives = 59/96 (61.46%), Query Frame = 2 
Query:  305 AFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFLRKV 592
            +FD  VL+ +VP LV F A WCGPC    P+ E+IA DYD +VKV K+D DN+  +  KY +R +P   LF  G+V+ +  G++G E     L KV
Sbjct:   12 SFDSGVLESDVPVLVDFWAVWCGPCKAIAPIVEEIANDYDGKVKVGKIDVDNNNQVAMKYGIRSIPTLLLFKGGEVVDQVIGNVGKESIESMLNKV 107
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: UPI0019F22BD8 (Thioredoxin n=1 Tax=Synechococcales cyanobacterium T60_A2020_003 TaxID=2774349 RepID=UPI0019F22BD8)

HSP 1 Score: 89.4 bits (220), Expect = 7.130e-18
Identity = 40/94 (42.55%), Postives = 59/94 (62.77%), Query Frame = 2 
Query:  302 AAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            A F+  VL+ E P L YF A WCGPC +  PV EK+A++Y +R+KVVKL+ D +   +  Y+V G+P   LF NG ++ + EG +  +   +FL
Sbjct:   11 AQFEAEVLRSESPVLAYFWASWCGPCRLMSPVMEKVAQEYGDRLKVVKLEVDPNPETVATYKVEGVPSMLLFRNGALVEQVEGAISKQKLEDFL 104
[Close]
BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A7C5C6W2_9GAMM (Thioredoxin n=1 Tax=Chromatiales bacterium TaxID=2026725 RepID=A0A7C5C6W2_9GAMM)

HSP 1 Score: 89.0 bits (219), Expect = 8.980e-18
Identity = 43/93 (46.24%), Postives = 58/93 (62.37%), Query Frame = 2 
Query:  305 AFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            +F++ VLK + P LV F A+WCGPC M  P+ ++IAE+YD R+KV KLD D++     KY +RG+P   LF NG+V A   G L       FL
Sbjct:   12 SFEQEVLKSDKPVLVDFWAEWCGPCKMIAPILDEIAEEYDGRLKVAKLDIDDNPQTPPKYGIRGIPTLMLFKNGEVEATKVGALSKSQLTAFL 104
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BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Match: A0A497A586_9CHLR (Thioredoxin n=2 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A497A586_9CHLR)

HSP 1 Score: 88.6 bits (218), Expect = 1.230e-17
Identity = 46/110 (41.82%), Postives = 64/110 (58.18%), Query Frame = 2 
Query:  254 MGAPFELPQGSKEEAVAAFDEAVLKQEVPTLVYFHAKWCGPCIMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGKVIARHEGHLGYEGQVEFL 583
            M  PFE+         A FDE VL+   PTLV F A+WCGPCIM  P  E IAE+Y+ +++V +++ D ++    +Y +RG+P   LF NGK + R  G+   E  VE L
Sbjct:    1 MAEPFEVTD-------ATFDEEVLQATEPTLVDFWAEWCGPCIMIAPAVEAIAEEYEGKLRVARMNVDGNRRTPIRYGIRGIPTLILFKNGKEVTRIVGYRPKEALVEEL 103
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig159.69.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KI71_9PHAE1.020e-7166.86Thioredoxin domain-containing protein n=2 Tax=Ecto... [more]
UPI0017492CF75.420e-1948.94thioredoxin TrxA n=1 Tax=Marinomonas algicola TaxI... [more]
A0A1Y4D2V2_9DELT9.100e-1942.27Thioredoxin n=1 Tax=Desulfovibrio sp. An276 TaxID=... [more]
A0A1H1MRQ4_9FLAO1.920e-1846.34Thioredoxin n=2 Tax=Gramella echinicola TaxID=2793... [more]
A0A382X9Q3_9ZZZZ4.520e-1844.57Thioredoxin domain-containing protein n=1 Tax=mari... [more]
A0A3M1WDA5_9GAMM4.780e-1844.68Thioredoxin n=1 Tax=Gammaproteobacteria bacterium ... [more]
A0A520VYC9_9BACT4.780e-1844.79Thioredoxin n=2 Tax=unclassified Bacteria TaxID=49... [more]
UPI0019F22BD87.130e-1842.55Thioredoxin n=1 Tax=Synechococcales cyanobacterium... [more]
A0A7C5C6W2_9GAMM8.980e-1846.24Thioredoxin n=1 Tax=Chromatiales bacterium TaxID=2... [more]
A0A497A586_9CHLR1.230e-1741.82Thioredoxin n=2 Tax=Chloroflexi bacterium TaxID=20... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig159contigP-littoralis_Contig159:319057..337809 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FVS1
PFAMsThioredoxin
Model size1500
Max annot lvl2759|Eukaryota
KEGG koko:K03671
KEGG Pathwayko04621,ko05418,map04621,map05418
Hectar predicted targeting categorysignal peptide
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
Evalue5.59e-78
EggNOG OGsCOG0526@1|root,KOG0910@2759|Eukaryota
Ec32 ortholog descriptionThioredoxin-like protein
Ec32 orthologEc-03_003300.1
Descriptionglycerol ether metabolic process
Cds size531
COG categoryO
BRITEko00000,ko00001,ko03110
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig159.69.2prot_P-littoralis_Contig159.69.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig159 319947..337730 -


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

Feature NameUnique NameSpeciesTypePosition
1680789761.9205315-UTR-P-littoralis_Contig159:319056..3199461680789761.9205315-UTR-P-littoralis_Contig159:319056..319946Pylaiella littoralis U1_48UTRP-littoralis_Contig159 319057..319946 -
1680789761.9906178-UTR-P-littoralis_Contig159:337730..3378091680789761.9906178-UTR-P-littoralis_Contig159:337730..337809Pylaiella littoralis U1_48UTRP-littoralis_Contig159 337731..337809 -


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

Feature NameUnique NameSpeciesTypePosition
1680789761.931683-CDS-P-littoralis_Contig159:319946..3200271680789761.931683-CDS-P-littoralis_Contig159:319946..320027Pylaiella littoralis U1_48CDSP-littoralis_Contig159 319947..320027 -
1680789761.940869-CDS-P-littoralis_Contig159:320707..3208001680789761.940869-CDS-P-littoralis_Contig159:320707..320800Pylaiella littoralis U1_48CDSP-littoralis_Contig159 320708..320800 -
1680789761.9543343-CDS-P-littoralis_Contig159:321673..3217461680789761.9543343-CDS-P-littoralis_Contig159:321673..321746Pylaiella littoralis U1_48CDSP-littoralis_Contig159 321674..321746 -
1680789761.9694042-CDS-P-littoralis_Contig159:337196..3373841680789761.9694042-CDS-P-littoralis_Contig159:337196..337384Pylaiella littoralis U1_48CDSP-littoralis_Contig159 337197..337384 -
1680789761.978636-CDS-P-littoralis_Contig159:337634..3377301680789761.978636-CDS-P-littoralis_Contig159:337634..337730Pylaiella littoralis U1_48CDSP-littoralis_Contig159 337635..337730 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig159.69.2

>prot_P-littoralis_Contig159.69.2 ID=prot_P-littoralis_Contig159.69.2|Name=mRNA_P-littoralis_Contig159.69.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=177bp
MTSSRLFLALLYLAPLYVSAFVGCPAASLARQRVISVPKQWRTYALPRHS
SASLGVSMMGAPFELPQGSKEEAVAAFDEAVLKQEVPTLVYFHAKWCGPC
IMQGPVFEKIAEDYDERVKVVKLDCDNHQFLMNKYRVRGLPFTCLFDNGK
VIARHEGHLGYEGQVEFLRKVPDFDV*
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mRNA from alignment at P-littoralis_Contig159:319057..337809-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig159.69.2 ID=mRNA_P-littoralis_Contig159.69.2|Name=mRNA_P-littoralis_Contig159.69.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=18753bp|location=Sequence derived from alignment at P-littoralis_Contig159:319057..337809- (Pylaiella littoralis U1_48)
CAGCCAGGGACGCGCATGTGCTGTGCAAGAATCCTACGATCCCATAGTCA
CTCATCTCACGTTTACCGGTACCTAGAGTATGACTTCTTCAAGACTCTTC
CTGGCTCTTCTATACCTTGCGCCGCTCTATGTTTCAGCCTTCGTCGGTTG
CCCGGCGGCATCCTTGGCGCGGCAGGTGTGGAAAACCAGTGCTAGATTGA
TTGTGTACATATCATCACACGTAGTTGACTGTTGAGACACGCATGTCTCA
TTGCGGCATGATGCCTAAGCTCTTGGTTGCGTCCCGGTGACGCATTTCGC
CTCTCCTTGATTTGCTGGTGGGCATTGCCATCTACACCTCTCAGTGTGGT
TGAAGAAAGACAGACAAATGCAATCCTCACGGGTATCGTGGCGTCCCTCT
CTCCGGTGTTCCGCGTTCGCATCAGCGGGTGATTTCTGTTCCCAAGCAAT
GGCGAACATACGCACTTCCGCGCCATTCCTCAGCCAGTCTTGGCGTGAGC
ATGATGGGTGCGCCGTTTGAGCTGCCTCAGGGCTCTAAGGAAGAGGCAGT
GGCTGCTTTCGACGAGGCTGTGTTGAAGCAGGAGGTGCCCACATTGGTCT
ACTTTCACGCCAAGTGAGAAAAAAGTTTGGTCGATGTGCTCTTTCCCTCT
TAAACACGGAGTACCTTTTATAATACTCGGAGTATGATACTGCCGCTGTA
TCATATCGTATACGAAGTAGCAAGTACAAGGTTCATGATACGCTCTGTCA
CATCTTTAATTTTGTCGAACTGCTCGGTCTCACAGACTCCCTGCTGTTGC
GATTTGTTCGATTATCCTGATTAATCACAACTCAACAGCACCCGGGAAGA
TTAGAACCTACTTCGAAGTCCGAATTGTTAGAGTAACTCTGATGGTTGGG
CATTTAATATTATAACTTGGCTGAATAACAGTGGGATATTTTTAGATCCT
ACGAGTACGATCCGTCCCGTCGTGCTAATGGCGTTCTTCGTACGTGGGTG
CAATTGGTATGTGCACGTGTAATAAATGAACTGAGTAATGTGTTGTAGAC
TATGCAAACGCCCCTCACACTTGAAACCTATGGATAATGTCTACAAAGAG
TGAGCTTGGAGGGCAACTCATTTCTTTTTTCGTTCATTTTCCCTATATTT
AGCCAGTAGCTGGCAGGCCTTCAAGGGAGGGTTTCAAATTCCGAAGGTTT
TCGTGGCAAGAGGATGTGAGTTTTTGGGGGCTGTTTTGGGTTGTTTTGGT
ACTCCGGCAACCTATTATATGACACCACAACGACTGACTCCTCCCTTTGG
AAACAAGTGACGGACTCACCAAAACTTATCCCGAGGGAGATCTGAGGCAA
ATGCCGCGGCCAATCTCGTCATGTAACACTCGAGAACGCGAGATATTTTC
TGTTGTTGTTGATTCTCACATTAACTCACCACCGCCGCAGTCTAGCCCGT
GGTCACAAACCAGGCACATATCGTGCTAGGAAAAGAAGTAAAATAAATGG
ACTATGATCACCCACAGTCAATTCAGATAGGGTACCGTTGGGGTACCATC
TGTGGTCCCAAAGTACCAAACAAAATACAGAAAAAAAAAAATAACAGGTT
CGAAAGAAAAAACAAAAATTGGAAACAGTGTGTGTTGTCTCCCTTTAGTT
GGACGCCACTCTACACCTTTCGGGTTGGTGGACGCTCCAACTGGGGTCAC
ACAGGGGGAAGTCAACACAGGAGTTTTTTTTTTTTTCTCCACTTCCCTCT
GCGGTGCTTGCCTTTTGGGTTGAGCGTATATCGCGAGAAAGGGGACAGCA
ATCCCTTTCCCTCGTCGATGGTACGATAGAATTTTGTTTACTCACGAATT
GATCGCTTTCCACTTCCACGCGCAATGTGAAACAGTAAACAAAAAAAAAC
AAGACAAACCTCAACCATAACCATATAATTCGAAGTACTTCGTACATCGA
ACCAGGGCCCAGGGCCATGACAGACCAAGGTAAAGGCAAACCAGGGCGCA
TGGCCCAGTAACTACATGATCAACAGACGAAAGACAAAATAAAAAAGAAG
ATACAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTGCACAAACACGA
CAAACAGGCCGCCAAACAAAGAGGAAGCAGGGGAACGAAAAGGGAAAAGA
AAAGAAGAGACAAAGAAGGACAAAATACATACCCTATATGACACAAGATA
ACACACCCCCGGTGATACATTTTTGGCCTTTAAAATATTATCACCGGGTG
TGGTATCCTGTGGGGGGTGTGTTATCTTGTGTACCCCGGGTGATAAAGTT
CAGCTCGCAGGGGCCCCTAAGGGGGTGTGATAAAACAGGGGGTGTGATAG
CGCGTCCGAACACCCACAGCGTGTGTTTGGGGGTGTGATAAATGAGGGGG
GGTGATAAAAGGGGGTGTGATAGCACGTCCGAACAGCCACAGCGTGTGCT
TTGGGGTGTGATAAATAAGGGGGTGTGATAGCACATCCGAACAGCCACCG
CGTGTGCTTTGGGGTGTGATAAATAACGGGGTGTGATAGCACGTCCGAAC
AGCCACAGCGTGTGCTTTTGGGGTGTGATAAATAACGGGGTGTGATAGCC
ATGCCTACACGTACACGTGCAGTGTAGGGACCTACGTAAAGGGGCGTGGA
AAAACAAAGGGGCTCAACCGAGGTGACGAAACTCCTGAGCACATGACCTC
GGCGATAACTCAACCCTCTCATCGCCAAAAAAAGTTTGAAACAAAATACA
GCCTTGAATCGAGCAAGAATAAATTAATAATCGAAGGTATCTCGACCGAT
ACGATGATTGGCGGTGACCACAGACTGCGTGAGCCATCCTTCCTTCCCCC
CTCACAAAAACGTTTGCTGCTGCTTGCCTTGCTTTGGTTAAAACGAAAAG
AGAGCTACGCAAAGACACCACGAACAAGAATCAACGACCACAAACCGCAA
ATCTACACTGAATACGAGACACACCAACGTTGCACTTCACGCGGCGAAGA
AAACAGCCGACAGATTCTTCACACCCCCTCAAAGACGATGGAAGTCTTCA
TGCGGGGTGTTCCCCGCACACAGCTGACGTGGTTGTGTGTGTGATTGCCC
AGGGCAGGTGCTGTCACCCCGGTGATAAGAAGGAGGGGCCCCGTGACTAT
ATGCGGCGTAACTAAAAATATCACCGGGGTGTGTTATCTTATGTACCCCC
GGTGATAAATCGATGGTTTGTCATAAGCGCCCAAAACTACCACCGGGGTG
TCGTATTCTGTGGGGGGTGTGCTTTCTTATGTAGGTGTGTTATCTTGTGT
CATATACGGTACGAAGTACATGGAGAGTGCAGAGGGAAGACCGGAAGTAC
CGGCAGTCGGGGGGGGGGGGTGATAAAAAAATAAAATAAAAGGCATGCAA
TCAATCGCAAACATGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCT
CCTCAGTCGCACTCATGCCTCCTGCTACTGGCACCACCGTACCCAGTTGT
TTCTGCCCTACATCTTTAGCAGCAGCTACACCACCATTCCGCCCTACAGG
TTTTCCACTCCGGCCACCCCGTAGCTTGGCTTTGGGCTGCTTCTTTTGCC
GTGCAACTCCAACCCCACTACCCCGCTGCCCTTGTGCCCCCCCGTACTCC
TTCTCTCGTTTATCCCCGCCATCCGTTCTCCCTCTTTTGGCCAAGGCCTG
CCCCTCAGCCGCGTCCCTCTCCCTTTTCCGTCGACGTGTCTCTGATAAGT
CTCCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCTCGTCG
ATCCTGTCATACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACCCCTC
TTCTTTGTCGATAGCGATGTCGAAAGCTTCGAGGTCCTCCTGCATTCGCC
TCAGCCAGTCAAACTCTTGCCCCCCCAGACACCTCGCTCCCCCCTGCAAT
TCTCCCAAAAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAAC
GAATCCTGCGAAGCACAGTCGCCGCTTGCGCACGGTGGCCTCAATGCTCT
CGTCGCAACCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGCCGGTCT
GTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAGGAGGAAGAAGTGGTG
GGCTGATCGATGCTTGCGGTACTCGGCTGGCTTCAGATTCCATGTGACAC
ACCCGTAGAGCAGGGTCTCCACGACTTCAGCTAGGAGGAGTCGTACTTTT
AGTCGAAGAGGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTGCGCCG
GAAGCAGGCGTGCGCTCGCTGCACTCGGTGGTTAATCTCGCCCTCAGTGC
TACCGTCCTCACAAATCTTACCCCCGAGATACACAAAGTCAGTCTTTTGC
TTGAAGACCATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCCATCCC
TTTCGCGAGCATACACATGGTCTCCGTCTTGGGTTCTGACACCAACAGCC
CAAACCGCCCGGCCACACGTACGATGATCAACATCATCTTCTCAAGGCTC
CCAGGTGATTGAGATACAATACAGGCGTCGACGGCGTAGAGCATACTCCA
GATGGACTTCACTGCCTCCACCAGTCGGGCGTTCCTCCCCTTCCCCTTCG
TCACCTTCCTCTTGACCTTGGCCATGTCCGCCATCACCTCCCCGTCCTTG
CTGATCTCGGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGGTTGAA
CAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTCCCTGTCCCACATCAA
ACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCATTCCG
TCGTGGAATTGGCGAATGACCGCAAGCATCTTGGGGGGCACTCCGAGCCG
CTTGAGCACCGACGACAGTAGTTCCCGGTCTACGGAGTCGTAGGCTTTCG
TGAGATCGATAAAGCAGGCGTACAGTGGGGTTGACTTCTTCCGCGCAAGC
TCGTGTAGGCGTCGAACCACGAACATCATGTCAACCATTGAGCGGTTTGG
TCGGAAACCGCTCTGTTCCTCCGGCAGAATGCCCTCTCTTTCGCAGTAAT
CGCTTAGCCGGGTGGCGACCAGCCTCAGGAGTACCTTGCCAGCGTGTGCC
ACAAGGGAGATGGCGCGGTAATTGCCGCACTCCGTCTTGTCTTTCTTCTT
GTGCAGCACCTTGATCAAAGCATCCTTCCACTGCTGTGGCACCCTCTCCG
ATTGCCAGATGTTGATGATACTGTAGAACTGCCGTAGGAGGACTTGGTCT
CCTTCAAGGAAGAGCTTGATAAGCTCCGCCGGTAGCTCGTGTGATGACAT
GCGACCCGGGGCTGGTTTGTCAAATTTCAGAGTACCCTCCGCGCCACCAG
CGCGTGCTTGCTTTAGAGGCCGGGCAGGTCCATCTTTCTTGAGGATATCG
ATATCTAAATATGTCTGAGAGTGTCTGGCAGCAATCCGCGTGCAAGTTGG
TCCTGTCTATGCAGAATCCCGTCGAATCTTCGGTCTCGAAACACTCCCGG
CTAAAGGGTCTGCGTGTGTGTGTAATGTGTATTGTCTTTTTGCCTCCTGG
ACGAAGGCATAAAATATAAAAACGTTGGGAGAAAGTCAGCACCTGAACAT
AAACATCTCTACTCCGAGGTTTGATATTTTCAAAATATCTGTCAATGCAC
ACCACAGCACGCGACCGAAGATTCAATGGTACGCTGCGTAGACAGGACCA
AATCGAAAACGGGCTGCTGCCAGACACCCAAACATATGCATGTGTAGGTA
TCGATATCCTCAAGGAAGATGGACCTGCCCGGCCTCTGCAGCAAGCACCC
GCTGGTGGCGCGGCGGGTACTCTGAAATTTGACGATCCAGCCCCGGGTCG
CACGTCGTCACAAATCACGCGTTCTGGACTGTTACATGACGAGATTGGCT
GCGGCCTTAACCTCATATCTCCCTCGGGATACGATTTGGTGAGGGAAGAG
CCACGTTGATGTGGTGTCGGGGGTTGCCGCAGTACCAAAACAGCCAAAAA
ACGACTCCAAAAAATCCATCCCCTTTTGCCACGAAAACCTTCCGGGATTT
CAGACCCGTAAGTACCCTCGCTTGCGGCGAAACTTTGAGTTGCCTTCCAA
GGTTTGCTGTGTATAGTCATCATCCATAGCTTGAAATCACCTGGAAATTA
CAAAACACGATATAGAGGATGGAGCGCATACGAAAAGCCGTGGAAAAAAC
TATCTGCGGGACTTTCTCTTTCTGTTTTCGGATGTAGGGGCTCTGCAGCC
AGAACTACTCGTACTCGGATCCTCGCCGCTGGCTGCTGGCCCCGACGCTA
ACTTCCCATTATTTCTACACATTCAGGAAAAACACAAGATTCCGTCAACC
CAGTACTTCGAAGTATTTTTTTTCAAATTTTTTATTTCAAAAAATGCAAC
TTCCATCAGGGATTGGGAATTTCTGTCTCAGGCGGTTTCTTGTAATAAGC
CCGGAAAATCTGTTAAAAAAACAACAGATTCCGATTTTATTCAAACTGGA
CCTTCCTCCCAAGGTTGGAAAATAGAAAATACCTTCTTCCGAAATCGATT
TTAGTTTCCCGAAGAACATTGAAATTTTCCGGTCGGACTTCGATCGTATT
TCTGTCAGAAAACGCCACGATTTCCCAACCCTGGACCGTGTCGGATGAAT
CGATCGGAAAATATTTAAAAATAAATGTGTGATGTTGTCTCTCTGTCTGT
GTGGTTTGTGTCGTGAACAAATAAATAAACAAAAACAAGCCAAGCCACGA
ATCAAAACAAAGCAAACAAGCAGCAGCAGAGGAGGAAAGCTGCTGCTACT
TTCTGTGATGTTGCTGCCGCTGCTACTCCTGCTGCTGTCCATTTATGTGC
CCGCCATCTGTCTGTGTTTGTTCGCCCGTTATCATTAATTCCATCGTTTT
CATCAGCAACCAAAACCAACCGTATTTAGCAGCATCATCAGCACAGCACG
CAGGAGCAGGAGGAGTAGCTCTTTCCATCTGAGACCAGTTTGCATTTCCG
CTCGTTACTCCCCAATGAACGCAGCCGTAGCGGTGACAAACCCATCTCCC
GTGAGCTGCGCGCATGGTCCCCCTCGTGTGGTGATCGTTTGGTTAAGGGT
TATACCGGTATACCGGTATGTTCGCAAAATAAGCTTTCTCTTGGCTATGA
TATGTTGTAAAAAGAGAGCGAGAGCTATCTCATTTGCGTATTACTTATAA
TGTGCGTACTTTATAAATACATACAGCAGTATAGATGCTCCTGTACAGCA
GGCCGGCCGATCTTCCTTGAATTGTTTCGCATGAGTTGGTCATGAGCAAA
CCTATGTTGCGGACGTACCGATGTAACCCTAACCCAAGCAATGGTGATAC
TAGGAGGATTATACACCCAGCTCACGGAAGATGCCTTTGTCATCCCTGTG
GATTCATTCGTTCGAAAGTGGTGAACGAAGGCGCAAATCCATGCCCACCC
AAAGGCGAACAACAGACAAGACATGTCTTCTGTGCGGAGCAAGCAGCAGC
TACAGTACTATTTTTTATTTTGCTTTTTTCGAATGCATGCATCATATGTT
TGACATCAATTTTCTCCGAGCCTGCCGACGCCTTGATGACTCAATCGATC
ACTATGTGAGGAGGCCCATCTACACAGCTGACGGGGGATGGGTTTGTCAC
CGCTGTCTTCATTCGTTGGAAAGACGTGAGCGAGCAAACGGGTCTCAGGG
CAAAAAAATCGCCATGCAGTCCTTCGATGTACACTCTGGAACCGACTCTT
CAACTAAAAACCTAAACGATCACCAAACATCCGATCATCACTTGTAAAAA
CAGCGGATCGACAGTCGTTAGCGGAAATAAGCTCATTCGGAATTCGTTGT
TTTTCGAACGGATTTTCCGGGCGTACGAGAAACAACCTGACCACTATTGG
CTGTTTTGGACCATTCTACGAGAAAAGACTGAAGCCACTCGCACTGGATG
ACCCCACCCAGGTCTTTAGCTCGAAAGCTGTTCAGGGCCATCACGTCACG
GCCCGACGCCAAAGCGCAGGTGTCTTTGTGTGTTTTAAGTATGCTCGACC
TGCCTGGCGATTCTCGTTTAATGGTATGCCGCATATTCGAGAGAGCGCTT
AATAAAAGGTGATCTCGGCCGTCACACATCATCACTCAGCATCACATCGT
ACATGTAGAGAAATGTGCATCTTTATCGATTTCATCTTGATTTACTTGTT
AGGCGGTTTCTTGAAGGCCCGGAAAATCCGTTCATTTTTTGACAGATTCC
GAATGTTTTCAACACCAGGCTTCGTATAGGCTCGAAAAACACCTTTTTCC
GAGCAAAAATTTCCGATAGGACTTTGATCGGATTCCTGCCAGGAAATCGG
ACCTATTCCGAACGCTGGACCAGTGCGGAAAATACGATCTGAAAATATAC
TTTAAAAAAAGGTGTGATGTTGTCTCTCTGTTTATGTCGTTTGTGTCACC
AACAAACAATAAGTGAACAGCAGTGGTAGACCAGCCACCGATCAAAACAA
TGCAAACAGAGCAGCAGCAGAGGAGGAGGGCTGGTGCTACTACTTTCTGT
GGTGTTGCAGCTGCTGCTTGCTGCTGTCCATGTATGTGCCCACCATCTGT
CCGTGTATGCTTGCCGTGTCATCATTAATTCCATCGTGTTCATCAGCAAC
CAATACCAACCGTATGAAGCAGCAGCAGCAGCAGCACAGCAGCAGGAGGG
GTAGCTTCTTTCCTCTGAGTGAGACCAGTTTGCATCTTCGCTCGTAACTC
CCCAATGAATGAAGCCACAGCGATGACAAACCCATCTTCCGTGAGCTGTG
CGTATGGTCCCCCTCGTGTGGTGATCGTTTGGGAGAGGGTCACACTGGCA
TGTTCGCAAAATGAGCTTGATCGTAGCTGTGAGAAGATCACACTGGCATG
TTCGCAAAATGAGCTTGATCGTAGCTGTGACATGTTGTAAAACAGAGAGC
GCGAGCCATCTCATTTGTGTACTACTACTTCTAATGCGCGTCCTTTATAC
ATACATAAAGCAGTATAAGCTGCTGTACAGCAGACCGGCTGATAGATCTT
TCTCCATTTTTTTCGCATTAGTTGGCCATGAGCAAACCTATGTTGCGAAT
GTACTGATGTAACAATATCCCAAGCGATCACGCACGAGGAGGATCATGTA
CACAACAGCTCACGGAAGGTGCCTTTGTCATTGCTGTGGCTTCATTCGGT
CAAAAGTGGTTTTGTTTTATCGAATGCATGCATCATATGTTTGACATCAA
CAACTTTCTCCGAGCGTGCCGATGCCTTGATGGCTCAAACGATCACTGTT
TGAGAAGGCCCATCTACACAGCTGACGGGGGATGGGTTTGTCGTCGCTGT
GTCTTCATTCGTTCGAAAGTTACGAGCGACGATGCAAACGGGTCTCAGCG
CAAAAAATCACCATGCGGTCCTTCGATGCAGATGTATACTCTGGAGCCGA
CTCTTCAACCAACGACTTGAAAAAAGGATCACCGAAAATCCGATCACCCA
TCACCTATAAGAACAGCGGATCGACAGCCGTTGGCGGAAAAAAGTTCGTC
TGGATTCTGTGGAAAAATGAACGGATTTTCCGGGCCTACAAGAAACTGCC
TCACTCCGAAGTACTTCAATCACCCATGTTTATGGAGATAATATATTGCG
AAGATATTTCAAGTGTAGCAACATTTTTAGATGAAGAAATACTTCGCTGT
CTTCGGGTGATTATCTTGTCCGAAATGTTGTCGAAGATTCGCAAATCGGC
CAAAACCGGGCCAAATCGGAAAATGTTGAGCCAAGATTTGATGACGCCAA
AAGTTCCGAACATCCTGTTGGGGGCGACGAGATTACGCTACACCACCACG
CTCCAGTCAACAATACCGACCACTGGGCTATGAATGAAATCTGAGCGTGG
CAAATTTATGGAGGGCTCGGTGCCCTCGAGTCACTGTGCCAACACCTTGG
CCGCTGGTATGTGGCGGAAGCGCACCAAGCATGCAAAAAATGATAATTTG
AGGAGCGACTCTTCAAAGGGTGTCGGCTGACGTGCGTGTGAGACCTCAGG
CACAGCAGTCGAAGGTGACATCACAACACCACAGTCACGTTCTCCCTCCC
TACACCCCCCATCAAGGTGAAACCTTCTCGGCGGTCACTTCCATTCACTG
CTTCCCGTCGGTGAGCCGTTTGATTAGCGGTGGGCTCATTCAAACGACAG
AAAGAGGCATTGCTTTGTATCGAACATCTGCTCTTCTCATTTTTAGGCGA
TACAACACGCATTCTATTTTCAAGTGCAACAAAAAGGCCGTTCGTATGTA
AAGCAAGGCAGGTCAGACCACGAGCGATGCTTCTCTCGGCCGATTGAATG
AGCCCACTGCCAGCCCAACGTCGTTTGTACAGAGAGCAGTGAAAGGAGAT
GACGGGCGAGAAAGCTTCACCTTGATAGATGAGCGGTGTAGTGATCGAGA
TCGTGACTGCTGTGGTCGCCTTCAACTGCTGTGCCTGAAGTTTCTAACAC
GCACGTCAGCAGTAATTTTCAAGGGAAAAAATAAAAAGTAGCCGCTGTCC
AAGTGATGTTTTTGCGCATGCGTGGCGCGCTTTCGCGACATACATACCAG
CGGCCAAGGTGTTGGTACAGTGACTCCAGGCTTGCACTGAGCCCTCTTAG
AGCTCGCGACCTTCAGATTTCATGGCGCTGTGGTTAATTTTGTCTATGAC
GCGGTTGACGTTACCGTAAGCCAATTTTACCGCGTTTCGAAGACCATACA
CAAGAAGATATTTTACCCACAAACAGCTGTGCGAAATCTTCAAAAACTGA
TCACCTGCCTCAAAAATGTCGATGGACATGTGGGCAACCCTTCAAAATAT
ATCGGCAAGATATCGGTCCCAAGACCACAGGTGTAGACAGTTGTAAGATA
TCTTCGAAAAGTGAACATAAGCCTCAAAAATGTTGATCAACATTTCGGCA
AACTTTGCGATATCTCGGTAAAAGATGTTCCCATAAAGATGGGTGTAAGA
CGCGAGGAAAATGTCCATGCGTTCACACCCACACACTCGTCCTCCCACTT
CCTACGAGGAGAAACTACACTCCCTCGCCCACCCAAACTCTGACACCTGT
TTTTACTCCATCACCGATGGCTGTCCCTGCTGAACTACTACTTGCCGCAG
TGCTCCTGTTCTTGCCCCACACACTTTCTGCCATAGTTTCCAACTGTTGT
CGGCACTTCATGGAGTGGTGATTGTGTGTGTGTCGACATCCCATCTATTC
TGGACTCCAGTCTTCACCGTTTGGTCTAAGCTGGGCGAACCAGCCGTGGT
CACTCAAGAGGAAGGTCAGCACAGCAGAAATTGTTTTGGGTAGACTCTAG
AAAGCGGTGTACCGCCATGGATCCAGCCACAAAGCGATACACAAGATCAC
ACCTTGACATTTGACCATATCCTGCGATGCTGATCGGTCAGCTAAGTCTG
CGTCGCTGATTTGTCAACTAGGCATTGTACCGCTTTGTGGCATCAGCCTG
TGGCGGTATACCGCTCCGAGGCTTCTCAGCTCGAGTTGTACCGTGTTGGC
ATGGGGTGTACCGATTTCTGGCGGGGGTCTGGCGGGGGGGTCCGGCCGGG
CCAGAGCATTCCCAGCGAAACATTTCCGAGACCGTTCGTGCCGAAAATAT
TTTTGAACAAATTTCGAGAAGGGACGAAAAATTTCACTCGTCAACCATCG
CAGCTGCGTCATGTCTCCATCATGTCACGAACATATCAACCCGGACCTTC
TCGGTACGCTGTCTGCACAGCGAACAGGTACACCTCTTCGCCCTTTCGGC
CAGTTGGATACAACAATAGATGCGCGTTGCACGCATTGCACGGCTATCGT
GTACAGATGGCACGTCTTTCTTGATCTCTTCATACTGCTTGAAAAGCTGA
CAGTCCCGCCGGTCTAAAGCCTTGACTGTACACACGTACACACCCAACAC
AACACACCTCCCGCGCCCACCACGCCGCAATGGCGACATACCAACCAGTC
AAGTATCGTAGTTCTGGGCTTGCTGGCACCCATTGCTCCCACTTAAGATA
TCCCAAATACCCCGAACACCCCATGGACCAAAACGGCCCATGCGCCCCCT
GTTTCTCACGCAACACATTGTGTACAAGCCTGAAAACAGTAGTATATTGT
GTCGGGCGTGTGCGGGCACAGCTTTGAGGCTGGCGGGACTGTCAGCCTTT
CAAGCAGTATGGAGAGGTCGAGAGAGCCGTGCCATCTGTGCACGATAGCC
GTGCAATGCGTGCAACGTGCATCTATTGTTATATCCAACTGGCCGAAAGG
GCGAAGAGGTAACCTGTCTACGGTTCAGACAGCGTGCCGAGAAGGCCCGA
GTTGATATCTTCGTGACTTGACGTGGCTGCGATGGTAGGGGAGTGAAATT
TCTTGTCCCATGTCGACATTTCTTCCAAATTATTTTCTGCGCGAACGGTC
TAGGAAATGGGTACGCCTCATGCCAAAAAACGGTACAAATCGAGCTGAGA
AGCCTCGGAACGGTACACCGCCAAAGCGGTACAAGGCATAGTTGGCCGAT
CAGCATCGCTGCATCGCTGGAGATGGTCAAATGTCAAGGTGTATCATGTG
TACTGGGTAGCGTTTTGTGGCGCTGAACCGTGGCGGTATACCACTTTCTA
GCGTCTGCCCTTTTTTTTTTCTCCAACTTCTTTTTGCGGTGCTTGCCTTA
ATATGATCGTAAGGAGGGTTCGATCAATCATTACTCTCGTCGACTTTCGA
TCGCATTTTTGGTGCGGTGGTGATATGAGAACAACAGGAGCGAGATCAAA
GTACGCCCGGGGTCCCGCGGTATGCTGCCGTGAGGGATACGTACGTATTT
CGTACCGTACCAGGTATGTATAACTTGCCTTCTATACATGTACTCTCTTG
CGTGCATATGATGTACCAGCTATTTCAGTCGTCCCCATCTTACTTTCACA
CCACACGCCAGGGAAGTATGCAAGTAGGGTTTTTGCGTTGGTGCTTGTGC
ATGTGTCGTCCTCATATTAGCCGGCAGTACAAGTATCACACCCAGCGGTC
TGCTGGCGCTCCGCCGTTGACTGCTGTTCGTAGAAACAAGTATTGTAGGG
ACCATTGGTTGCGGAGCCGGTCCTCCTCCTTCCTCCCCCTACACCCACCC
ACCTAAAAGTACTCTCGGCATACTTGTACGAAGTACAAAACTACTTACGC
CCTGTGCAACAGTTCACGGTTTTTCCTGCCAAACCATGTGTTGCGCCAAA
GTCGTAAGCTCCCTCCCGAACACGCACAACTGTGAACTGCTTGCTGCTGC
GATAAGTCGTTAAGATGTGTCGCAGTGTGAAGGTGGTGTCGGAAGGGTAC
ACGGCACCCACCCACACACATGCTGGTTATTGTGTGGTGGTGGCGGAGGG
CGACCGCACGAGATTGCTGTTAATTAACAACAACCGTCTCGCAGGGATGG
GCAACAGCAGTCATTTGTACTGTTAAGAGTTCGACATTCGGGTCGGGAAA
TGGGCAAAAATGTGTCCTGTGGTACGCGCGCAATTTCAGCAAAAATACTT
TTTTATTTTTATTTTTGAGAACCTATGAGCCAATCGAACCACGAGCATCG
GTTCCTGCACCAACAATAATCCGGCATCAAACGGCTATCCTCGGTCAACG
CTCGCACAGCTGGTCACATTGGCAAAGGTCACGGGGCGCGTCGAGAGAGC
AACGTGGCAATACCCTTTCGAGGCCAGGAGGGAGTCTGAGAGCATGTAGC
TCAGGGAGCTACGACGGAACGATCATGAGTGCAGCGCCGCAGTTGGTTTT
GATGTTTCACATAATACATATGACTGCTTTGGTTTGTGAGCTGTTGATAA
CGAAAAAATCAGCGAGCAGTTGCTCCATTTTTTTCCATGACACGAACCAC
GCAACACAGATTGCTCGTACCCCTGTCTATGGATGTTGCAAAGGTTCGCT
ATGCAAGAAGTCAATCGGCAGCAGCAGCAGCGGCAGCGGTGGCAGCTTGC
ACAAAAACATAACCAAAACAAAGGATGCAAATACTCCGTATGCAAATACA
GAAATACAGAAACACTCAGACCCTGGAAAAATCAGACACGTAGATGCTGG
CCCCTCAGCAACCACGTCCCCTTCCACTACCACCACACGCAGCCGCTGTC
CCATTCCCACTTCCAGCGGCCGCCCCAAGCCCATTCCAACGCCCACATAG
GTAGCCAAAAAGCTTTGGCGTCTCGTCCTTCCTCAGCGTTGCCTTTTGTT
TGTGCACCTCCGATGTGTTGGGGTCCTCGATTCTAGATTTTTGGAGAGAG
AGGAAGGGAAACACGAGAGAAACACATCTGGTCCGGGTTTTGAAATGCGT
ACAAACGAAAGTCACTACTTTCCTGCTGCTGCTGCTCCTCTACCACCGCT
GTCGGGGCTAAAGGCGCGAGCAGCAGTAGCAACAGCAGTGAAGGTCACGT
GCAAGAAGCAGCGGCAGAAAATGCGAGAGGAAAAAAAGGCTTTCAATTAC
AGAAGGAAACAGGAACACGAAAAAATACGTACTGCTGTACGCAAACCTTG
AAGCTTACCTTATTTCTTCTGACCACCACCACAACTCCACCCAACGTAAG
TCATCCTCCTCTTCCCGCCTAGCTCGCCGAGGAAATGTTTCTCTTTGGCC
TACAGCCTAGGCTGGCTCCTAGTCGTTGCCGCGGCTGCTGACGCTGCCGC
TGTGCTTTACTCCTGCGGCGGTTATGAATAAAGCCCGAACTATGCCGACA
CCACAGCGGAGCAAAAATGAGTTCACGAAATTTTTCTCCCTGAAGAAACA
AGAAGATTTTCCTCCCTCGAACCTTCCTGGGCAGGTACTCTTTGTGTTGA
GACAAGCTTGCGCTTCGCAGGGTGCCTTCTTGAGCCGCGAGTTGCACTCG
CGTGACTCTCGCTCCGAGGCAGAACAGTTGTGGTGTTCAAGCGCGTGTTA
GTCATGCGCTTGTTCACCTTCTTTGGAACATGTGTCCTGAACAACCTCCC
GACTCCATCGGACCATGCGCCAGGAGGTGCGTGCATTTGTTTTGCTTGAA
AGCTCTTTTCTTGGAAACTGTTTTTTGGTGCCGGCTGTGGCTGCCCATTT
CTAGGCGACGACTGGACAATTTTCTAGCACGTTTTTCTCGCCAGCCACGT
TGAGGATTGACGAGCGGTCTGTTTCGTAGCGTGCGCGAAAACCAGAGCTG
AAATGCTATCGGAGTGCTTTTTCGGGCCCAACGGGAAAAGTTGGCAGGAG
CCGCTGAGAGAGGGGAAAAAGTGTCCATTTTTTGGCCGTGAAGGGGTCAA
GAAAGTATTATTTACAAAATCACTCCCGACAGCAACGTAGACTAGACCTG
TTCATGAGTGTAAACTGAGAAGAGACCCACCTTGCGCCCTGCATCGAGTA
TTTTGGAATGGGAGTTTTCCTTCTAAAACCCAGTCATTGGTTTCTTCGGG
TTGTTCAAAACTGCCGTTTTTCCTGGTCGTTAGCGACGTAATTTCGATCT
TTAACTGTAGGCGCCTGATGTTGAGTCTAGGATGGCGCATCTGTTTTCGA
CTTTCAAGGGGTTGTCACTCAGCGCACGGTCACCATAAGTACCGCTGTTC
ATGCATCGTTTACCATTTACATGCATCGTTTACCATTTACACAGCACGCC
GCCGTATACTTCTGGCATTGAATCTCTGTACAAGTACATTACACCAGTAG
CAGCTCCGCAAGACCCGGTACCTACGGTACTGTTGTTGTCCAAATCACTA
TCACACCACGCCGGGAAATATAGGGGAAGTGGTGATGTTTGTGTATCGTT
CTCATTGCAGCACTCCTGCTCTGTGCTGGGAATGATTCTAGCGAAGCTCT
GAGCTCTTGGCTGATTGCTGATTACGTGTCGGACACACCAGTTCATACTG
TCAACTACGAAGTAAAAGATAAAATACCGCAAGCTGGGATCCAGAAATTC
TCGATGATGATGCAGCACTGTTGTTACACGTGCGAACACCCATTTTCATA
CATTATTTTGCAGGTGGTGTGGTCCGTGCATCATGCAAGGGCCTGTTTTT
GAGAAAATTGCAGAGGACTACGATGAGAGGGTTAAGGTGAGCAGATGTGT
TCATGCCTCGCAAAGACCGGGTTATACGTCCTTCCCCCCCTCCCCAACGC
AAACGCCCAGTGGAAGGAGAAGGAAGAAAAATTCCCCCTCGCGCATGGTG
AACGCCTTGAGAATATTTCGGTCTCCAAAATGATAGGGTGTACAACGAGA
GCTCAAGATGGCAACTCAAATGAATGAGAAGATTAAATTGGGGAACTGCA
ACATATGTTTTGCACAACAGCGACCACAAGGTCTGCCGCACGAACAAAAA
GATGAAAAACACTGTTGCTCCACAACACGGCACCATTGTTTGTGTTTTTT
TTTTTGTCCATGGGTCTTTGATGGTATCGGATTTTCTTTCAGACTTGGTC
CCGCCCCGGGACTACGGCAAACGCCCCGAGGCTACGGCAAACGCCCTGGG
GCGCTGTTTCTGCTGAGGACAAACGCAGTACCCTAGGGGGCGAGCTCGGT
CTTGTTGTAATTTGCGATCGTTTGTGGCAAATTTCACGCAGCTTCTTAGC
TCAAGTGTCCTACCAACAGGAAATATATGAGTTCCATATCAGGGTAGGGG
ACATCTGGGTATACGGCCGTTGCGCGAACAATCTGTCTTCAACAAAGTTT
GTCCAACTGGTGTTGAGAGTAATATCGGCATGGCAGCCGTGCGCGCGAAC
TTCTTGGTTGAACATCTCGAGCACTCGGACAATGGTTTTTACCATGGTGA
GAGCCTTGTCTCTTGATGGTAGTAACACACTCGCGTCGGGGCTGGGTACT
GTAGATCGACACCTTCCACCGCTGTGGCAACCTGCATCCATGTCCGGGCA
TCCGAAAGGTCACTTGTCTTCTGCGGATGTCTGCGTGCCGATGAAAAATA
ACGTGACAGGTGGTCAAGCTGGATTGCGACAACCACCAATTTCTGATGAA
CAAATACCGAGTTCGGGGCCTGCCATTCACATGTCTCTTCGACAACGGAA
AGGTGTGTACAGAGGAGGCGTACGCTTTTTCCATGGAATTTGAGCCGATT
ACTCTGTCGGTACTGTAAACTTGAAAAGAGAGGATGCAGAGTTAGCTGCC
CCTCGACGTCCTCACGGTGATAAAGACGGGATTCGGCACCAGATTTTCGC
TGCGTATATGGATGCATTGTAGGAGTGTTGACTTGATTTACACAATGTTT
GGAAAACAGGTGCGGGGGAAAAGAGAGTCATGCTGATTACCCTCTGAGGC
AGCTAACGTTAGCCAACGTTGCCACTTCGACTTACATTATTTGGCACCGG
CAAATAACGCATGTTTTAGTTCGATCGCCTGTGCAATCGAGGCTTACATT
GTCCTCACAGTGAAAATTCGATAAGAAAAGCGCAGTTTATTTGTAATCAT
GGTCACAAGACATGCGGGAGAACAAATAAAAGTTGACATGAATTCCGTAG
CATTCAGACAGAATTTCTGTGAAGAGTAGCAACCTGCAGAAAGCGGCGGC
GAAATGATCACCGTTAAACGCGAGCCCACATGAACGAACACCGCTGGTGT
TCACGCCCCAAAACGATTGACCGTGTCCTCCTCGTGTCGAAATTGTTATT
TTGGTGCAAACGTCGCGTACTTGTTTGCGGTGACAAGCTTCTTTCGATTT
TGAATAGTCTCCCAACACTCCGTTGCCAACAGGTGATCGCAAGGCATGAA
GGACATCTGGGTTACGAAGGACAGGTTGAATTTTTGCGAAAGGTTCCAGA
CTTCGACGTGTAGGTTTACTTGAGCTGCGTTACCCGGGGAATATTTTGGA
AGCAGATTGCTCTCGTGCGGGATGACTTGATACTTCTACGCCGTCCGAAC
TCGTTTGAGGTATTGCTTGCGGTAAGTTATACTTGGTCGTTTACGCGAGT
AGGAGAGCGAGGGCGACGTCTGCAAATGAGTCTTGTGTTGAATTATGCAT
TGATAGACAAAACTAAAATAGATATGGTTGTTTTCCAACATACGTATGGC
TACAGGTGTGTATCATTTAGACGGTGCGGATATCGAAACGACCGCCTAAT
CTGTACGTCACGTACAACGGTTTTGTACACTGCATACTGGAGGTGCTATT
ATGTTGGGATTACACGCACTAAATTTCGGTAAACTCTCGAATAGTTATAC
CAAATCCGTTCACAACGCTCACACCTCGTGTTTCCGCATTATTACTCCAT
TGCAGTGAGTCTGGGATTTAGCATCCAATCGGGTGAGCATTCGCAAAACG
AAAGGCTCATCAGTGGTAGCCACAACCCAACGGGCTTTTACTCGCAGTTG
AGCCTGACCATGTGGTGTTGTCGAAAATTCCCAAGCCAAGTGACTATTCT
CGTGGAAAACCCTCGGACTCGACTCCATTTGTAAACACAGAAAAGCTGCA
GATACGGACAAAATTTGTTGGAGGAATGAACTCAAGGTGAGATGAACCCC
ACCTTTGACGTTTTCTCGACGAGCCGTTGAACCTACCTAGACCATATTCT
GCCCCATGTATTCGGAAGTGTTGGCTGCATTCGGAAATTCCAGGGGGTTC
CTCGGTAATTTCACCGCGCGGGGTAATTCCGCGGTATTTGGTACTAAGTA
ATTGGCATTGCTGTGGCTCAATTGGTTCGAGAGTGATGGATGAAAAACCA
AAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig159:319057..337809-

>mRNA_P-littoralis_Contig159.69.2 ID=mRNA_P-littoralis_Contig159.69.2|Name=mRNA_P-littoralis_Contig159.69.2|organism=Pylaiella littoralis U1_48|type=CDS|length=531bp|location=Sequence derived from alignment at P-littoralis_Contig159:319057..337809- (Pylaiella littoralis U1_48)
ATGACTTCTTCAAGACTCTTCCTGGCTCTTCTATACCTTGCGCCGCTCTA
TGTTTCAGCCTTCGTCGGTTGCCCGGCGGCATCCTTGGCGCGGCAGCGGG
TGATTTCTGTTCCCAAGCAATGGCGAACATACGCACTTCCGCGCCATTCC
TCAGCCAGTCTTGGCGTGAGCATGATGGGTGCGCCGTTTGAGCTGCCTCA
GGGCTCTAAGGAAGAGGCAGTGGCTGCTTTCGACGAGGCTGTGTTGAAGC
AGGAGGTGCCCACATTGGTCTACTTTCACGCCAAGTGGTGTGGTCCGTGC
ATCATGCAAGGGCCTGTTTTTGAGAAAATTGCAGAGGACTACGATGAGAG
GGTTAAGGTGGTCAAGCTGGATTGCGACAACCACCAATTTCTGATGAACA
AATACCGAGTTCGGGGCCTGCCATTCACATGTCTCTTCGACAACGGAAAG
GTGATCGCAAGGCATGAAGGACATCTGGGTTACGAAGGACAGGTTGAATT
TTTGCGAAAGGTTCCAGACTTCGACGTGTAG
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