|
Homology
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A6H5KF19_9PHAE (Mitochondrial import inner membrane translocase subunit TIM22 n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KF19_9PHAE) HSP 1 Score: 270 bits (690), Expect = 9.360e-87 Identity = 130/163 (79.75%), Postives = 144/163 (88.34%), Query Frame = 1
Query: 1 SGLPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQPINLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
S LPFF W+PRP A AAD +P+PP L ESC FKL+MGTVGGAGMG VFG+FLG MGDMQP+ ++NGREVPQ P +EQARLAYKQTA+RS+ M RNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGP AA GCVGMATFSA++DK+MGH
Sbjct: 30 SRLPFFLPWVPRPAAGAADAMPTPPVLTESCGFKLIMGTVGGAGMGFVFGLFLGAMGDMQPLQMINGREVPQAPFREQARLAYKQTADRSLSMGRNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPQAACFGCVGMATFSALMDKLMGH 192
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A836C710_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C710_9STRA) HSP 1 Score: 214 bits (546), Expect = 5.880e-65 Identity = 110/161 (68.32%), Postives = 122/161 (75.78%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQPINLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
LP K W R + M P PP+L ESC +L+MGT GG GMGL+FGMFLG MGDMQPI ++NGREVPQ PL EQAR AY T RS+GMA+NFASFSAIFM SECVIEKMRGK DMMNSVY GC TG AFG+K GP A GC+GMA FSA+ID VMGH
Sbjct: 42 LPTVKAWDMR---TGGTMPPQPPALGESCGARLIMGTAGGFGMGLLFGMFLGAMGDMQPIQVINGREVPQAPLGEQARAAYLGTKSRSLGMAKNFASFSAIFMASECVIEKMRGKHDMMNSVYGGCITGMAFGIKAGPKEAVGGCLGMAAFSAVIDAVMGH 199
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A7S2P255_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2P255_9STRA) HSP 1 Score: 157 bits (398), Expect = 1.290e-42 Identity = 82/162 (50.62%), Postives = 104/162 (64.20%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
LP+ W+P A + P + ESC K +G GGA MGL+ G+FLG M DM P + ++NG+EVPQ PLKEQAR + T E+ + +RNFA + +F GSEC++EK RGK D+ N V +GC TGAA KQGP AA LGC G A FS +ID VMGH
Sbjct: 60 LPYLIPWMPTF-NGAQEPPPDFSFMTESCGIKSAIGLFGGAAMGLLMGVFLGAMSDMTPPVTVINGKEVPQAPLKEQARTVMRATGEKCVYWSRNFAFITGVFAGSECLVEKARGKHDVWNQVLSGCVTGAAIQAKQGPQAAALGCGGFAAFSLVIDAVMGH 220
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A7S1TYW7_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1TYW7_9STRA) HSP 1 Score: 152 bits (383), Expect = 8.970e-41 Identity = 83/162 (51.23%), Postives = 101/162 (62.35%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
+P F P P + P AESC + V+G+ G MGLV G+FLG MGD+ P I V G+E PQPPL EQAR AY+ TAERSIG AR+F + +A+F G+ECVIEK RG+ D N V +GCA GA GP AA +GC G A FSA + VMGH
Sbjct: 37 VPIFTPATPHPGVN-------PGWAAESCVGRAVLGSFAGGAMGLVLGVFLGAMGDLNPPIYFVKGKEAPQPPLAEQARTAYRTTAERSIGFARSFFALTALFSGTECVIEKFRGRHDGWNPVLSGCAAGAMMSASGGPTAACMGCAGFAAFSAAAEAVMGH 191
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: K0TBX0_THAOC (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0TBX0_THAOC) HSP 1 Score: 153 bits (386), Expect = 1.570e-40 Identity = 80/162 (49.38%), Postives = 106/162 (65.43%), Query Frame = 1
Query: 4 GLPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMG 486
GLP+ + W R AS A++ P+ L+ESC K +G +GG MGLV G+FLG + DM P + ++ G+EVPQ PLKEQ R + TA++S+ R FA + +F GSEC++EK RGK D+ NSV +GC TGAA KQGP A+ GC G A FS +ID MG
Sbjct: 83 GLPYPQPWA-RANASPAELPPNFDWLSESCGSKAAIGVIGGGAMGLVMGVFLGALTDMTPPVTIIEGKEVPQAPLKEQMRTTLRATADKSLYWCRQFAFITGVFGGSECLVEKYRGKHDVWNSVVSGCITGAAMQAKQGPQASAAGCGGFAVFSLVIDSFMG 243
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A6U3RYY1_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6U3RYY1_9STRA) HSP 1 Score: 152 bits (385), Expect = 3.800e-40 Identity = 79/161 (49.07%), Postives = 103/161 (63.98%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMG 486
LP+F+ W +P + + P L+ESC K +G GG MGL+ G+FLG M DM P + ++ G+EVPQ PLKEQ R + TAE+S+ R FA + +F GSEC++EK RGKTD+ NSV +GC TGAA K GP +A GC G A FS +ID VMG
Sbjct: 105 LPYFQPW--KPTSGPEQLPPDFTFLSESCGGKAAIGVFGGGVMGLLMGVFLGAMSDMTPPVTVIGGKEVPQAPLKEQMRTTMRATAEKSMYWCRQFAFITGVFSGSECLVEKYRGKTDVWNSVLSGCVTGAAMQAKAGPSSAAFGCGGFAAFSLVIDSVMG 263
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A7S2AAN4_TRICV (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2AAN4_TRICV) HSP 1 Score: 151 bits (382), Expect = 8.910e-40 Identity = 82/164 (50.00%), Postives = 101/164 (61.59%), Query Frame = 1
Query: 7 LPFFKTW--IPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
LP+ W IP P ASA P L+ESC K +G GGA GL G+FLG M DM P + ++NG+EVPQ PLKEQ R + T E+ I +RNFA + +F G+EC++EK RGK D+ NS GC TGAA KQGP AA +GC G A FS +ID V H
Sbjct: 97 LPYLTPWYPIPGPNASAEGPPPDFSWLSESCGGKAAIGVFGGAVCGLFMGVFLGAMSDMTPPVTVINGKEVPQAPLKEQMRTTVRATGEKCIYWSRNFAFITGVFGGTECLVEKYRGKHDVWNSALGGCVTGAALQAKQGPQAAAIGCGGFAVFSLVIDSVFPH 260
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A7S3VGZ9_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3VGZ9_9STRA) HSP 1 Score: 148 bits (373), Expect = 9.940e-39 Identity = 74/137 (54.01%), Postives = 97/137 (70.80%), Query Frame = 1
Query: 79 LAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMG 486
L+ESCA K +G +GG+ GLV G+FLG M DM P + ++NG+EVPQ PL+EQ R + T E+S+ ARNFA + +F G++C++EK RG D+ NSV +GC TGAA KQGP AA +GC G A FS +IDKVMG
Sbjct: 99 LSESCAGKTAIGVLGGSVCGLVMGVFLGAMSDMTPPVTIINGKEVPQAPLREQMRTTLRATGEKSLYWARNFAFITGVFGGTDCLVEKYRGTHDVWNSVISGCVTGAAMQAKQGPQAAAIGCGGFAAFSLVIDKVMG 235
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A1Z5K7I7_FISSO (Mitochondrial import inner membrane translocase subunit TIM22 n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5K7I7_FISSO) HSP 1 Score: 147 bits (371), Expect = 3.930e-38 Identity = 78/162 (48.15%), Postives = 103/162 (63.58%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
LP+ W +P AS + P L SCA K+ +G +GGAGMG + G+FLG + D P + ++ GR+VPQ PL+EQ R+ + TAE+S A NFA + +F GSEC++EK RGK D+ NSV +GC TGAA K GP +A LGC G A FS +ID M H
Sbjct: 104 LPYPLPW--KPVASPTEPPPDFSWLTGSCAGKVAIGVIGGAGMGALMGLFLGALSDTTPPVQVIGGRDVPQAPLREQMRVVMRATAEKSRYWAGNFAFITGVFAGSECLVEKYRGKNDLWNSVASGCITGAAMQAKAGPQSAALGCGGFAAFSLVIDSFMHH 263
BLAST of mRNA_F-serratus_M_contig95.20828.1 vs. uniprot
Match: A0A448Z601_9STRA (Mitochondrial import inner membrane translocase subunit TIM22 n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448Z601_9STRA) HSP 1 Score: 145 bits (366), Expect = 2.670e-37 Identity = 76/162 (46.91%), Postives = 101/162 (62.35%), Query Frame = 1
Query: 7 LPFFKTWIPRPPASAADMVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQP-INLVNGREVPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTDMMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH 489
LP+F W + ++ P+ L + CA K +G GG MGL+ G+FLG + D QP I + G++VPQ P KEQAR + TAE+S+ RNFA + +F GSEC++EK RGK DM N V +GC TGAA GP AA +GC G A FS +IDK+MG+
Sbjct: 111 LPYFMPW--KTSGGPTEIPPNYAWLMDGCAGKAAIGVFGGGVMGLLMGVFLGALSDSQPPIQVAGGKDVPQAPFKEQARYTMRATAEKSMYWCRNFAFITGVFGGSECLVEKFRGKHDMWNPVVSGCITGAALQAHAGPQAAAVGCGGFAAFSIVIDKIMGN 270
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
Property Name | Value |
Taxonomic scope | Eukaryota |
Seed ortholog score | 247.3 |
Seed ortholog evalue | 4.4e-63 |
Seed eggNOG ortholog | 2880.D7G569 |
Preferred name | TIMM22 |
KEGG rclass | RC00017 |
KEGG ko | ko:K01094,ko:K17790 |
KEGG TC | 3.A.8.1 |
KEGG Reaction | R02029 |
KEGG Pathway | ko00564,ko01100,map00564,map01100 |
Hectar predicted targeting category | signal anchor |
GOs | GO:0003674,GO:0005048,GO:0005215,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0005740,GO:0005743,GO:0005744,GO:0005886,GO:0006605,GO:0006626,GO:0006810,GO:0006839,GO:0006886,GO:0006996,GO:0007005,GO:0007006,GO:0007007,GO:0008104,GO:0008150,GO:0008320,GO:0008565,GO:0009987,GO:0015031,GO:0015399,GO:0015405,GO:0015450,GO:0015833,GO:0016020,GO:0016021,GO:0016043,GO:0017038,GO:0019866,GO:0022804,GO:0022857,GO:0022884,GO:0030943,GO:0031090,GO:0031224,GO:0031966,GO:0031967,GO:0031975,GO:0032991,GO:0033036,GO:0033218,GO:0033365,GO:0034613,GO:0042277,GO:0042721,GO:0042886,GO:0042887,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044425,GO:0044429,GO:0044444,GO:0044446,GO:0044455,GO:0044464,GO:0044743,GO:0045039,GO:0045184,GO:0046907,GO:0051179,GO:0051234,GO:0051641,GO:0051649,GO:0055085,GO:0061024,GO:0065002,GO:0070585,GO:0070727,GO:0071702,GO:0071705,GO:0071806,GO:0071840,GO:0071944,GO:0072594,GO:0072655,GO:0072657,GO:0090150,GO:0090151,GO:0098796,GO:0098798,GO:0098800,GO:1904680,GO:1990542 |
EggNOG free text desc. | Mitochondrial import inner membrane translocase subunit |
EggNOG OGs | COG5596@1,KOG3225@2759 |
Ec32 ortholog description | Mitochondrial import inner membrane translocase subunit TIM22 homolog |
Ec32 ortholog | Ec-14_006420.1 |
EC | 3.1.3.27 |
COG Functional cat. | O |
Best tax level | Eukaryota |
Best eggNOG OG | NA|NA|NA |
BRITE | ko00000,ko00001,ko01000,ko02000,ko03029 |
Exons | 4 |
Model size | 1175 |
Cds size | 435 |
Stop | 1 |
Start | 1 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1622932709.3490462-UTR-F-serratus_M_contig95:192791..192848 | 1622932709.3490462-UTR-F-serratus_M_contig95:192791..192848 | Fucus serratus male | UTR | F-serratus_M_contig95 192792..192848 + |
1690964434.129637-UTR-F-serratus_M_contig95:192791..192848 | 1690964434.129637-UTR-F-serratus_M_contig95:192791..192848 | Fucus serratus male | UTR | F-serratus_M_contig95 192792..192848 + |
1622932709.4280586-UTR-F-serratus_M_contig95:210295..210978 | 1622932709.4280586-UTR-F-serratus_M_contig95:210295..210978 | Fucus serratus male | UTR | F-serratus_M_contig95 210296..210978 + |
1690964434.2069395-UTR-F-serratus_M_contig95:210295..210978 | 1690964434.2069395-UTR-F-serratus_M_contig95:210295..210978 | Fucus serratus male | UTR | F-serratus_M_contig95 210296..210978 + |
The following CDS feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1622932709.36618-CDS-F-serratus_M_contig95:192848..192915 | 1622932709.36618-CDS-F-serratus_M_contig95:192848..192915 | Fucus serratus male | CDS | F-serratus_M_contig95 192849..192915 + |
1690964434.1586502-CDS-F-serratus_M_contig95:192848..192915 | 1690964434.1586502-CDS-F-serratus_M_contig95:192848..192915 | Fucus serratus male | CDS | F-serratus_M_contig95 192849..192915 + |
1622932709.3845239-CDS-F-serratus_M_contig95:208984..209094 | 1622932709.3845239-CDS-F-serratus_M_contig95:208984..209094 | Fucus serratus male | CDS | F-serratus_M_contig95 208985..209094 + |
1690964434.1741447-CDS-F-serratus_M_contig95:208984..209094 | 1690964434.1741447-CDS-F-serratus_M_contig95:208984..209094 | Fucus serratus male | CDS | F-serratus_M_contig95 208985..209094 + |
1622932709.3986118-CDS-F-serratus_M_contig95:209585..209655 | 1622932709.3986118-CDS-F-serratus_M_contig95:209585..209655 | Fucus serratus male | CDS | F-serratus_M_contig95 209586..209655 + |
1690964434.1853855-CDS-F-serratus_M_contig95:209585..209655 | 1690964434.1853855-CDS-F-serratus_M_contig95:209585..209655 | Fucus serratus male | CDS | F-serratus_M_contig95 209586..209655 + |
1622932709.4139652-CDS-F-serratus_M_contig95:210107..210295 | 1622932709.4139652-CDS-F-serratus_M_contig95:210107..210295 | Fucus serratus male | CDS | F-serratus_M_contig95 210108..210295 + |
1690964434.196282-CDS-F-serratus_M_contig95:210107..210295 | 1690964434.196282-CDS-F-serratus_M_contig95:210107..210295 | Fucus serratus male | CDS | F-serratus_M_contig95 210108..210295 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig95.20828.1 >prot_F-serratus_M_contig95.20828.1 ID=prot_F-serratus_M_contig95.20828.1|Name=mRNA_F-serratus_M_contig95.20828.1|organism=Fucus serratus male|type=polypeptide|length=145bp
MVPSPPSLAESCAFKLVMGTVGGAGMGLVFGMFLGLMGDMQPINLVNGRE VPQPPLKEQARLAYKQTAERSIGMARNFASFSAIFMGSECVIEKMRGKTD MMNSVYAGCATGAAFGMKQGPYAAGLGCVGMATFSAIIDKVMGH* back to topmRNA from alignment at F-serratus_M_contig95:192792..210978+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_F-serratus_M_contig95.20828.1 ID=mRNA_F-serratus_M_contig95.20828.1|Name=mRNA_F-serratus_M_contig95.20828.1|organism=Fucus serratus male|type=mRNA|length=18187bp|location=Sequence derived from alignment at F-serratus_M_contig95:192792..210978+ (Fucus serratus male) TCGGGCCTGCCTTTTTTCAAGACATGGATACCCAGGCCCCCCGCCAGCGC
CGCGGACATGGTGCCCAGCCCACCTTCCTTGGCAGAATCATGCGCATTTA
AACTCGTGATGGGAACAGTTGGGGGTAAGTTATGAGTACCGGATTTTTAT
TCCGACATCATGTGTGATGGATCAATCAGTCTACTTGTCTTGGAAATGCT
GCAAATGTGTTCAGGCCGAGTTTCATACACCTCTCACAAACCCCTCGTCC
AGCTCAAACCGACGGCTGTCTGGGCAGCACGAAGGTCATCGTTTATCCTA
GGGGCCAGTCTTGCTATTAACAGTCCACACGTATGTTTCGGCACAGACAA
AAAAGTGTTGGGAGTATTTACTATGTATGATACTGATGTTGCAGCTGGTT
ATGAAAAAGTCGTGACATGTGCAAAAAATGTAACTCGTCTCTATCGTACG
ATGTACTACATCAGAACAGCACCTAGACCTTTTGAGCATCCCCCGGTTAG
TACTACAGTTAGTTGTTGAGCATGTAGTCGTCAACGTCAGTACGACTTTA
TTTTCCTTCAGATTTTCTGCCGTACGTACGATTGCAGGTTGATTCACATT
TTCAGCGTATGGTCCCTTGCAACTGAAGAAACTGGTCAGCCATAGACCTG
TGTCAATCCCGCTTGTGGTCACAAAGGGGTACAAAGGTCAACCGATTACA
TAATCGTCGTGACAATCCGCTACTCTAACCACCCGAGAAAACTTATCCGC
ATCAAGACGATGTCTTTGGGTACGAACTACAGCGTCTATTGTCTGGGGTG
CTGCAAGTTTTCAAGTTTCTCAAGGCTACGCACGTCGTGCAGAAATAAGG
AGAACTGTAGCACCGATGTCCATGGCGCCGGAGGCCTTGAGCCGATGAAG
CTGGCGCACGACCCAGCATTCAGCGGCCCAAAGCCCTGTGCATCCCTGAA
AAACGCCCTTAGAATATTGTCCGTTCGCCATTCCTTGTGGGCGTTCTCGT
AGGAAGAAAACAGACCGTGGTCAGAGATCAGCTTTCCTCCCAGGAACCCC
CTGGTTCGCGCCTGATATTTGCGCACAACGGTTCAGCACTCCCCTAACCC
GTGAACGATCGAGCTGCCCTCCGCTCTCGCCGAATCTGGTGCTTACTCGC
CTGATAAAGTGCGCCACGGTACGCTTGCGCGTGCTGCGGCGCCCTACCAG
GCTTCCCGCGACAGCGCCACCTGTCTCTCGCGTGCCACCTCCTCCCGAAA
GGCACGAAATTGGTGCTCGGAAGAGGCGTATCAGATGGACACCATTCTCA
ATCAACCATAATACCGCCGCCGCGTCTCAACCGACCGACTGAATCGCATA
GACAGCCAGTTGACTGCATTTCTTGAGCGTGAGTCCGACCCTATAACCGC
TAGAAAGACCCTCCCACACTCATACCCGAAACCATACTCGAAACCAGGTT
TCAGAGGGAGAGGACACAAGATACGTTGTTCTAGTCGCCCGAGGGGTCTA
GTAGGTAATCTGCACACCTGTTCGTGCGGAAGTCGTGAGTTCGATTCTTG
TCGAGCGTGATCTTTATTCTGGCGTCCGTAGCGGAAAACGTGAAAACTTG
AGTAGGTAAAATGCAACCATTGGTTGACGAGTTGTAAGTGTAAAAGTGCT
GAACTTGCTTCGCGATAAAAAGTCGTTAGACTTGAACCGGGGAGAGATGG
GAAGATCCTTAGTGACCACAGGCAGGATGGCAACATTGAAGGTGGTAGCG
TCAAGAGACGTGATTCGCAAATCGATCGCCCCTCTCAAGGCCATCCTTTG
TCTGCACCACCTTCACCAGGTCTCCAAGGCCACACCAGTGGAGTGGCCAT
GTATTCGTCCAATCGCTGTTTCTCTTGTTTTCCAGTACTGTGTAAGCACT
AGAGCTATCTGCCTGTGTACAGCACTACGGGACTAGTATAGGAGCTGGTA
CGAGAACAAAAACCGACTGAGACAGAACCCCGGTGCTCTGCGCGTCCCTG
GCAGCAAGTACTCATGCCCTTCGTAGGTAGTAAGGCAGCAGCAGCTCCCG
GTGCGCGGCGGAGCAGCACCAATCATCTGCTGAAGGCAAGACCACTGGAT
AGCTTGCCGTTGCGGATAACCACAAAGCGTATTGTCGCTTACAGTAGTAG
GTATTGAAGTATTGAAGAAGGCAGCTACTGATGCTGATACGTACTGGTGT
TGTATTGTAATTGCACTCCAAGAGGTCCAGCAGTACAGTCAGTAGTTGCA
GCAATCGCATGACCGTATTCGTAGCTAGATATATTTCTATCAGCGGGCGT
CTATCTTCGCTGCACCATCTCGCACCATCTCTACGTAAACAATCAGTAGC
ATTTTGTACGAAAGGAAAGGAAAGGAAAGGATTACGAGGAGTAGGGGAGG
AGAGGGGGGGAGGGGGAGAGGGACTTAATGGCAGGAGGAGAGGAGTCTGC
AGCTTTTTGTTTTGTGCTGGGGTTCTTCGCCGTCGACGTAATCCAACTTC
CAAAAATCCTCATGATACTGCTTCGTTGAACCCCCCTCCCCCGGCCCCGA
ATGGAGCTGACACTTGTGGAGACTTTTGAAACAACTTGTAATTTGGGTAA
AACGATAACAGCGTGCCCAACGCCCTCAAGAGTACTGTTTTTGTATTAAT
AGTGCAAAATAAGCGGCGGAAGGATGCCCTACCAAAAACAAACATTCACT
TGTATAGAGGTAGGTGCTGTCCTACGACACAGCAGGATGTATGCCTGTAT
GCCTTCTTCACACCTGAAGGACGCGTTTTAATGCTGAAAAATGAATCATT
GCTTCTCATTTTTCACCGTTATTTTGTTGCCTTCCAAGGAGCTCTTTTTT
TGCAGGTTCGAAAGCTTGGAGCCTAGCTCTATCCTAACTCTTTGGGAGGC
TCGTCGCTCCGGGGATTGGTGGCACGTTTTCCTCCATGTATGTACGTATG
TATGGTCATACATATAAGGTAGCAGAGTATGGATCAACCGGGTAAGGTTG
CCAGTCCTACTCGTGGTCAGCTGAACAGGGAAACTTAATATTCCCCTGTC
CCCGTGCGTGCCTGAGAATTGTTGGCGACCGGTGACCTGCCACGTGCGGA
CAAACTGCGGTGTTCGTGGTAAAGGGGATGTGAGGAGTGTAGTGAAAAAC
AAACGAAATAATAGGTACTGTACTGTAGATATGGAAAATATGGTTACACA
TATAGCAAGGGTAAGGATCAACCGAGTAAGGTTGCCAATAATCCCGCTCG
TGGTCAGCGGGCCCCTGTCCCCGTTCGTGCCTGGGAATTTAATCTCGCGA
GACGGGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCA
GGCTGAATCTGGTGCTTACTTACGAGATTCCTCCCGATTTCCGCGGCGGC
GTCCATTTATTTATTTAAACCGCCATACGCCATCTGGCGAGTTCCGAGTT
TATCAGGTCACGCATTTGCGTACCGATGGCGTTCGCTGCCGAGAGTCCGC
CGGCACAGGGTCAGTAAACCTCAAGGCAGTTCCAAACGAGTGATGCCTTG
GCGGGTCACCGTGGACCAATTAATATGCGCCTCCTCGCTTTCCCACACCC
ACTATTGGTATGTAGTGGGCATGGTGAAAGAACCGGTCGTTAGTGTATCT
ATGTATCATCACATATGTTATATATCAGCAGATTATAGGGCATCAACCCT
GTATGGTTGCCAAACGTGCTTGTGGTCAGCTCAATCTTGTGGTCAGAACT
TGTCACTGTCCCTGTCCGCGCCTGAAAATCTGGTCTCGTGAGACAGGTCG
GGCCGTCCCGACCCGTGCCAGCCCGCTCAATCTCCACACCCAGGCTGAAT
CGGGTGCTTACTCGCGAGCTCCTATCCTTTCTCCCGCTTTCCGCGATAGA
TAACGGTCTCTATCTCTACCGTAAACCGCCATCGGCGCAGTCCCGACTTA
TCGGGTCACGCAATCGCATACCGATAGGGTTTACCGTGGAGACGAAGAGT
CCCTCTGGCACAAAACCGAGTAGTCTTCATGGTATCAATAACTCGAGTAA
CGGGTGCTGCCTCTTGAGGGTTTCCCCATGGATCAATTTATGTGCGCCTC
TTTTTTCCCACACCGACTAATGGTGCAATAGACATGTGCGATGCAGACAC
TTTCGAAGGCAGAGTGTAGCTGCCGTTCAAGTCAAACTATATTAATAGAT
GTAGTAATAGTACAATAATCATCAGTACTTTGGGCGATCCGGAAGACAAC
GGAGGGAATTCCGGGGACAGAGTGCTGAGACAACTCAGGTCGCACTCGCT
GAACTCCAAACCTTCGATAGCAGGTCTCAACCGTCAACACAGCTGTTGCA
CCATACTCATCATACTTGAGAAGAAAAATACGGTAATACGGTTCGGTAGT
CATTGACCACACGTGCTTGAAAGTGCTTGAGCCATGGCACCAGGAGTTCG
GCAACGTATGTTACACAGTCCCTGGAGATCCCCATGCCTGCAGCGACCTC
GGGCATGACGGTCGCGGTAACGTATCAACGTTTCGTGCGATCGATAAAGC
CGTGTGCGCTATATAGCGCCACATGCGAGTGCATAGCAGCAGTACAGTGA
ATACAAGAGCAATAGGAGATACCTCGTCATTACAGAGTGTTCAAAGAAAA
ATCTGAACGCATTAAGACCGTCTTCCAGTCGTAAGCGCCACCGAGCTTTA
CCGCGCGGTTAAGAGCATTTTTCTTAAATTTTCTCTATCGCAGATATTAA
TAAATGCAGATGTTCGAACGCAGCGGTGTAAATGTTTTTTCTCTTACAGA
AGAAAGTAGTTTAAGACACCGTTTTAAATGAGGTGCGTTTTAAATGGGGC
TGGGTCAGGGGGGGGAGGTATTCCCAGTCAGCTGACCACGCCAACGCCAA
CTGGTTCGTTGTCACGTGTTCCAGCAGTTTGATTGGCCCGATGCTGACAG
TCCTTTTTTTTCGAGTCCCAGCAAGTCGGAAGATCGGAAGAACCAGGAGG
GCACGAGGGCAGTTGGGACATCGTGCAAGCCATCCATTGGAACCCGCAGT
TCAGATTGGGGTTCGGATTAGGGTTGGATCGGTTCAAAGGGAGCCAATTT
TTTTTTTTTTTTTAAACGTCGAACCTCCGCCATATAAATGGAGACGGGCT
TCGAGGCTCGAACCCACTAAAACAAAACCTGTCAGATCTGGTTGATATAA
GACCAATGAAACCGCCGAAACAAGCGACCACGAACCAATTTGCGTAGTCA
GCTGAGTACGAATTAGGGCTTCCCGGCGGGGTCCACGGTGTCACACCTCG
GGCCTTTCACAAAAATGTCGCCGCCAATCAGATCAGATCAGATTTGATTT
CAAGCCAAAAAGAAACAAAAGTATTAATAGAAGCAGCCTCGTTAACTATT
TCGCTAAATTTCCGGCTTCGCTTGTCCGGTGCCACAAGGTACTACTTAAT
AGTATTAGTAGTATAATAGTTGTAGAAGCATTCTTCCTCGTCTGTTATTA
ATATAAAGCAATTGTTTACATTGGGTTGCGATTATACCACACGCTGGCAA
CTGTTGTTATTTGGTTTAAGGATAAAATACTTGACGCACGCCAAGCGATG
CCCAGCCGGGAAAACGAGGAAACGGCGCACAGAGGGCAGCATAAGTCACA
GCAATGCGATTGTCCTCGAGGAGAGAAGACCTGGAACAGCAATGCGATTG
AAATCACCCCGGGATGTTGAGTGTCAAGAGATGGAGAGACCCATGGGCAT
TTCTTTGAGTCCAGTCCCGGAAATACAGCAATCACGAGGCGTGGTATCTA
AAATATCTAAGCTCCCCCGTAGTGTTTTAGCTGAGGTAAGGGTCACTTGG
GCCGGCTGTGATGGTGCTGTGATGGTGCTGTGATGCAATCACACGAGGTG
GTAATGAGGGAGTTGGATAGTCGGTGAATCAGGACAGGAACCGAGTGCCT
GACGATAGCCTCCCCTCGTCAATCGTTCCATTATTATGACAAAGTACATT
TTGTATACAGTACCGGCCCGCTAGTAAGAAACTGAAAATCGGTCTGAGGC
TGAGTTTCTTGCGTGTTATATCGGTTTTAGTGTGGCACTCGACTCTGAGG
CTCCACGCTTTCTTGTTGTCTACGAAAATCTGAGCCTGGCTTTCTAACTA
ATGTGTTTCTTACTATTAATAGCGGGCCGGTACTGTAGTACAATGATTAT
AGATGGATGTGTACGTGTGTGCGTATGTTCATTAAATTGCACGTAACCGC
GCAATCCGCCCTTGTCATATTAATATTAATAGTCATTCTAGGCCACTCAC
ATCGTTCCTCTCAAGTGGTATTAAGGCTGCCCTATAAACAGTATGGATTT
TTATCTGTATTTGCATGTCTCTGAGGGTGTTCCGGTTCGCAAAAAACATG
AAAATCTTGACTAAGGGCGGGATTCATTGTATTTGTAGATCTTTCCTTGG
CACTTTTATTTTATGCGCGGGCACTCATTGATCGAACTGATGGAGTATGA
TGACAGTGCTGCAGATATCATTGTTTTTTCTTGTACAGATGGGACTGCCC
CATCAAACTTTTATACAGTACGGTAGTTATGTCGATTTTGTAATGATTTG
TACAGAATATCGAGTGTGCTCTCTCCACGCAGATTTCTGCTGTGGCACGC
ACTCGTTGACTAGTGCCTGACCTGACACCATCTACAGAAGTGTAAAACGC
TCAGGTATCTTTATGTGATAACCATAATTGGTTCGCGAGTGTGCGCATCA
AGCACGGTGTCTTCCACTCGAGGCGTTCGACGAGGGTAACCACTTGGGTT
GCACAGGCTTTCAACTTCAACAAAAGAGACGATTATTTCATCGTAGCTCG
GTTTCGTGTGCTATTTCCAGCGGTCATGTCTACCTAACTCCCACATACTA
CGATGCTGCTTGCGGTTTCGTGAGCGCGGGGGCTATGTGTACCGTGAGTG
GAATGTATTTGGTCGGCTGAGACAGGCTTTGGTTCAGACCTGACCACATA
GGCTCTCGGCCGCCGTCCTCGACCGTACTCGACGTACTCTCAACCGTTTC
GGCCCGTGTGAGAAACAAAAGCGTCCGTGTGAGCTGGTATGTACGATTTA
CAAGAGAGCGGTCACCTAACACGAGCACTCAGCTCGGGAGAACGCGAACC
TCAAGCACAGTGTCTCCCCCGGTGCCTACCACTGCAGCGGACCCCAAACG
ATCGGCAGATTCGGAGAAAATACGAGTGGCGACGATTGTACTCCACACAG
AGGAGGAAGAGACGCGAAATCTTCAGGAAGAGTACGTCTATCTACGGCGA
ACACTTTCATTCCTTGCGGGTTAGCCTTCTCCTCTTGTGGCTGACCTCCG
TTTCTGCCATAACTGCTATAACCCTTGAGAAGAGCTGCAAATGAGCTAAA
TGGCGTCTCTCTAGAGCCTACGTGCTGTGACTTCCTGTTACTTCTAGCTC
CTGCTGCAACTGGGCACTGCGGTATGGCAGTGGGCGTACTCCTACCACCT
ACGGTAGTTACTGACCCAAAACGACCGGAGACGGATCGCCCTGGGCTCCG
TCACGAGTCTGTCCCGATTTTTCCTGCCAATTTCGCAAATAAGCAACCAA
CCGTTTGATGTGTGGTTGGGCGCATACAGTGTTCGTATTTGCAGGTAATC
GATCGTGTTCCACCCAAGGTGGATTTTCCTTTGCTCGCGCTACGCTCCCG
TCTGGACGTTTTATTGTCCTGACGACCTGGCGTGGCTCGCCGATCCGTTT
TGGAGCGACCGCGTTTGGGCTGCCTAGATGCAGGCGCGTCTACCAACGAT
GCGATGGTGGCTTGAACGTTGTCGAGCCGCGTTTCCAGCATTGACACCCT
CGCGGTCAAAGCTTCCGGGTCCGCGGATCCTTGCTCCACAGCAATAATGT
CCAACGCCGCCTGGGTGAGGGCCTCTGATGGGTCGTCCCCTTTGTTGATG
CAGTGGCGTAGTTGGGAGGCTCGGATGCGAGCCAGCGGGATCAGTGCGGG
TGGGAGGTGATTTCCCGTCCGCTTCTCTTGCAGGGCGTCCCTGCTTTCCG
GGATATCCACATCTGTCAAAGTGACTTCGCCCTCCTCCGCGTCTGGGGCT
GAAGTCATGTCTTGGCTGCCTGGTTCGGCAGACCCAACCTGATCGGTGGG
GTCTTGGTCATTTTTATCATTGGCCTCCTGAGATACGATGGGAGGTCCAA
CGGTTTCCTCCGCGAGAGCCGAGAAGTGGTTCGGTGTGGCAGATGCCGGC
GGCTTCCCAGCATTGGCTGGTTGGGCGGTGCCGCGGCTGCCGTCCTTCGC
GGAGGGTCCTCGTGCGAATTTTACTTTCTTCTTTTTCGCTGAGGGGGGTG
ATGCCCACTCTCGTGCTGCTAAGGCATTTTTTCTAGGCTGGAGCTAGTCT
TGAATATCGTTCCGATGAGTCGACGCCATCTAATATGCTTACACGAAGTG
CGATCATGCTTCAATCGTACGATTTTACGGTTGAGCACAAGCCAGGGAAA
TTGAATATTATCCCTGACCCGCTATCGCGTTTATCCAACTTTGAACATAG
CGAGATCACCACAATTGGCGCCCATCTGTCGGAATGTATCCGACAAGCCA
GCCTTACATGGAACAAATAGTGATTACGGCTTTATCAAGTGAATTCACAT
AATCTCGACGAAATTCAACCCGTTGAGAGCGACCGAGTTTTGTCACTAGT
GCAACAGACGTATTTATGTCAATAGATCCAGAGAAGCTCAAACTAGCCCA
GCAGGCTGAATCTGGGCCATACTTTGAATATCTATGTGACCCGAATAAAA
GACCATCAAACGAGTCAAGAACGTCTATGTCATACTATAGTGAAAATCAC
GGCCTTTTATATAGGTCATATCTCCCCGGACATCTTCGTAAAAGAAGCAC
GTTCCGCGACCAACTTGTGATTCCGAGCGCCTGTATACCTATGGTGCTGC
ACGCATGCCACGATCACGCCATGACTGGTGGGCACCTCGCTTACAAACAT
ACGTTTGACAAAGTCCGCGATAGATTCTGGTGGCCGACGTTACATCGCGA
CGTCAAAACTTGAGGCCAGAACCGCGAGTGTCGTCGGACCTTACCGCCTG
AGCAACCTCGCGTGGTAATACCCCTTATTACATTACTAATATTACTATCA
CTAATATTCCTATTACTTTTACTACCGTACCTTTATTACGTCCTCCGGTA
CTTTCTGTATCGCACATATCCGTTCTCCTGTGTACCAATAGGAGCTGTGG
GAAAAGAGAAGCCCACATTCATTGGCCCATGGCGATACCTAAAAAGGCAG
CACCCGCTATTGAAACTACCTTGAGGACGTAATTGCGTGACCTGATATAA
ACTATAATATAATATAATATAATAGGGACTGTCCCGATGGCGGTTGGCGG
TATAAATAAATGGACCAATGGACGCCGCCGCGGAAAGCGGGAGGAAACCC
GTGAGTGTGGAGAATGAGCAGGCTGCCGCAGGACGCGACGGGTGAACCTG
TTTCGCCAGACCAAATTCTCAGGCGCGAACGGGGACAAGGAAATATTAAT
TTTCCCTGTTCAGCCGACCACGAGCAGGATTGGCAACCTTACTCGGTTAA
TCCATACTCTATGTGATGACCATACACTGCCAGCACTTGGTAGGTTCCTA
GCCCCTCTCTCTATCAATAGGAGTATTAGCAAGCTATTTAGTATATTTAG
GGGCCGGCACTACAGCCGTGGGACCTGTTGCCATCCTTCCTGTGGTCACT
AAGGATATTTCCATCTCTCTCCGGTTCACGCCTTACGAGTTTTTATCGCG
ATGCAAGTTCAGCACTCTACAACTCGTCAACCAATGGTTGAATTTTTCTT
ACCTGCGTACGAACGCGTTCCGGTACTATCAAGGACGCCAGAATACAAAC
CTACTTGACAAGAATCGAACTCACGACTTCCGCACTGGCAGGTGTGCAGG
TTACCTACTAGACCACTCGGGCTTATATTTATACTGTATTGAATACAGTA
ATAATAGGCAGAGACGAGTCAACGATACTTCGTAACTGTAAACAGTGTCG
TATGATATCGTTGGAGGGATGAGAAGAAATAGAGTGAACCGAAACCTCGT
TTGCAATAAATACTCAGCGCGAGATTTGTGAATTTGTACAGTTATTGCGT
GTGCGATTTTGTTTTTGTTTTGCCTTGTTGCTGTTGTTTCTGTGATTTTC
TTCCTGCGATATACCGTAGGGGAGTTCGATATGGGGCAGCCTGCTCCTTT
TATTTGATTTGGTTTCTGTCCCCCCTTTCCCTCCTTCTTCATTTTTATTT
CGCCGTGTGCGCACTGGTTGTCCTTGTCCTTGTCCTTGCCTTCATGTCTG
GGTTGTCTTGCACTGCTTATATGGTTGCCTTTCTTGCCCTTATATATGGT
TGGTTTATTTCGCTTTTGTTTCTTGGCTTCCCTCCTGAATCCCTTCCTGG
CGATGATGTCCTTTGCAGGCTACTTTCCAgGCCCGCTTCCTTCTGTTTGC
TTTCTTCCCTGTTTGTCTGTCTTGCTTTTTGTTTTTTTTCTTCCGACCGT
ATTCGTTCTCGATATGTTTTGGTGTAATTTCCTCTATCTTGTGACCGCAG
CTGGATTCGTAGCAGACCAGTTAATAATGTGATATAAACAACAACGTGTG
CGATTTTGTGTTATTTTAGTGTTTTGTTTTTCATTTGTCTTCTTCGTGCG
ATATAGGTGAGCCCGGTATGGGTTCTGCTCCGCTTTCATTTTTGGGCAGT
TGACCAATCACACCACATCGCGATGCTTCTTGTGTCTGTATACCTCATTA
TTTTATTTCATTTGATTGCTGTCTGCTTTTACTCCATCTTTGTTTTTATT
TCGCTGCGTGTAGCATCTATTGCCCTTGCTACTTTCTTGTCAGTTCTCTT
CTGTCTGCTTTCCGTGCTTATCTTCGAACGTATTACCGGTTTGATCTGGT
TTGGCTCCGTCTATCTTGTGACCACGGCTGGATTCGTAGCGGATCAGTTA
ATGTGAGATACAAAACAACAACAACTGGAGTGTCTCGGAGCGCTGATCAC
CTGGCTTGTCTTTTGAAAGTAGCGGCCTTCTTAGCAGCCTTCGTGTGCTG
ACAGATTGAATTACCTGTAGATTATATTATGTTCATTATATTGTATAGAT
TAGATTGTATTCAAGGGGAAGGGAAGTAGCATTTTCAAGTGCTTGGCGGG
GATAGTGTGCGCGCGAAAAACGGTACAGTCTGGAAAATATCAGAATCACA
AGGGTTTCCAAGATCCTGCACCGCCGTGCCAGAACCTTGAAACCTCCTGA
ACAGGATGCTTGAGGGGGATGTACTATATTTTCCACTGAGTTCACGGTAT
GTAAACTCGACCACCATATAAAGACGGTTCCAATCTGGGCGCCGTATACG
ATCCAAAAGATTTCGGGGACAAACGGTGCGGTGTTTGATGTTGAACAAAT
ACAGGAACCAAAACGGTGCGGTGTTTGATGGAACAAATCTCCGGTTATGG
AGAGTCAGTGATTTGCACCGCCACTGTTCCGGAACGGTACATGTACGGAT
TTGTATAAAAAACGGTTCTTAGGACAGTGCGGATACGGGACGCAGATAGA
TGGCTTGTGACTATTGAGCTGCAATACGTTGGAGCACAATCAACAATCAG
CTACCGTCTCCTCTTTCCGCCCTGGCTACTATTAATACTAAAAAGTAGTA
CTATTAATAATACTCTCCGTCGCTCTTTGCTGCCCTGCCTACGGACAAAT
CTTCGACGCGTTCGTGGTCACACTGTGGACTATTATAGCTGTACGCCATA
GATGCAGCTCCTGCTTTCCCTCCTTTCGGTGCAATTTTGGCTCTCTTGAT
TCTCCTGCACTGCTTGACATACTCCCTGCATGGTGAGGTGAAGTCCTGCG
TAAGCCGCGAGCGCATGATCGGCTTGATCCTAACGGCGATGTGGTAGGGA
ACGGTAGAGCCGAAACGCTGCGCTCAGACTGCCAGCGAGGGGCCTCAAAC
CCCCTGGAAAAGGTGAGGCGTGCATCGAGTGCAAGATGAGGTATATTCGC
TGCCTACACCACTTTGCCCGAGCCCTATGCGCCGCCTGGGGTAGGACTCT
CGCTCACCCAAACTCGGGGCAAGCTTAAGTCTGTGACTTGAGGTAGTCCA
GCTTCACCCCCCTTCTAAGGTAGTCAGCGAGTTCCCTTTTGAAAAGGACC
TAGGGGGAGGGAGCGTTCTGCGTTCCGCTCTCCACTCTCTCACGGCTGTC
CTTAGCCCCTCAGCTGTAGCCAATTTATTGGCGCAGCGCAAGGAAAATGA
GGACGTCGCCTTGACGAGTATCTCGTATGAATGTTCACAAGGGCAGGCGC
AGGTGTTCTCTCTGTCCTTTTGATGCCGCAGCTTCCATTGCCTCGAAGCG
CGCCACCGCGCCTGATGTATTCCTCCGAGTCATGATTATATTTTCTCACC
TCTAGTCCGGGGACAGTGCCGATGCGATCAAAGTCACTGGTTAGAACGCT
CATCTCGTTCTCGTTCATTGAACTCAGCGTACACCTCTAGCGCTAACCCT
TCAGATCTCTGGGGAAAGTAAGCTCCACTGCTATTTCGGCGTCGCACGGA
ACCGTGTCCCGGCTATTAATAGCATTATCGAGCATTATCGAGCTTGCGGA
TGCTGCTCTTGAAGTGCACCCCCTTGTATGATGTCGACTCGACCCTCCCC
TTCACTATTATAGTAATGTGATGTAGCCTTGGTGATGCGATGGGCTTTCT
CTCCGCCCACTAGATCTTGACGGTCACCTAGGCGATGGGATCGAAGATGC
TGCAACGTTTGGCGGTAGCCATCCAATCACGAGTTTCGTCAACTTCCTCT
TGCCGGTGGTGTTGCTCCTCAAAGTACACCCCACGACGGCTCCGTCGTGT
TCTCCTGCGCCGTCCACCTGTCGGTTGAAACGCTTCCCGTCCAAAGGTTT
ATCAGAGGTTGTAAGGTTCGAGCCCACAGTGAATACTACCAGGTACTTAC
TGTACGTGGTCAGGAATCAGCCTGGCCTATAGGGGATCATCAACGGTCGA
AATTACCATCAGAAAATGTCGCAGAACTTACTCACCCGGCGTTGAATACT
AATGACAGCTCTATTACTGATATAGTAGACTATAGTAGATCGCTCTTGTC
CAACATATGCCGCCACCCTCTTGCACCAGAGTGCTAGGGGTTTCAATCTC
CCTTTGTTGCAGGGCTCTGAGGGTTGGCGGTGTCGGACGTGACATTGATC
CACTCGAGGACAACACAGAGTTGAAGCGGTCGATGGAACATGTCACTACG
GGAACATGAAACAAGTTGGTGGCGTTGACGACGTCAAAACAACATTTATA
TGTTAATATATTATGTATAATATATTATGTATATTATACTGGTATATAAA
TTGCGCGCACGGGGGGGGGGGAAGGGGGGATTTCGAGTGAAATATGGTTT
CGTCTGAGAAAGGGCAATTCCGAGTGAAATATTTTTTCGGTCTGAGAAAG
GGCAATTTCGAGTGAAACATGTTTTCGATCTGAGAAAGGGCAATTCCGAG
TGAAATATGTTTTCGGTCTGAGAAAGATCAACCAAGTTTCAGACCGCTCT
CTTATTAAGCACCAATTATAATTTCCGGAAAGATACCGAACCAATCCCTA
ATCTGTCTAAGAAAACGAAAGTTGCTTTCCCAAGGAGCACAGATGTTTTT
GCTGTTTCCACTCGATCGACCGATCGTAACTTGAGCCGCGGTTGCAAGGT
TCCTATGAAATTCCAAGTATGGCCTCAAGTCTTTTATGTTAAACTGGGAG
GACCCATGGGCAGCAATCGGCACCGAGAACCCTAGATCACCCAGCCCTCC
AACTGACGTAACTCGCCACGTCGCCAACCGCTGTCACAAGGTATATGATC
ATAGACGTGTTGCCAAAGCATGACATCGATGTGGTGCCCAGAGAAGAGTA
TTTCGGTCAAGCTTCTGTACAATCCCCAACTCTCCAAAATGGTGAGCAAA
AATGACCAACCGCGTAACGCCCTCTGAAAATAGGGTAATAGAGTTAAGGA
ACGCCCCTAAAATATATATATATATAATATATATATATTAGCGTTCAACA
TGTTTGCAACTGGCTTTTTCACACAAGTATATATATATATATATGCAAGG
CGTGGAAGGCGTTGCTTCGGAAGGGTGTAAGGTGACGGGGAAAAGAAAGG
CGGAGGTGGCTATTTATTTGCGACCGACCTGAAGAGCCCGACAAACTCAC
CGGTAGCCACGATCATGAAAACCATGTTCGAAATACTCGCGCAAACGTCG
TGGATGCTGGTCAACCCTGCTCGATTCGGTATCCAACGCCATCTGCCGTG
GAGATGTGAGAGCCAGGGAACGGCCCGCCTAGCAAGTCCAGAGTGCATCA
TACTCACATCTACCAGGAGAAATGTACACGACGCGGCAAACACGATGTAC
TACTCGACCGCCACAGTAGCTAGGTCCATCTGCCCTGTCAGGAGAGAGCC
TGTGAGCCAAGGATCTTGTGCTCCCCGATCCCCAGCTTGCACTCTCCCTC
GAACCCCCATATTGTTCACGGTTACCTGGTATGTCAGCGCGGTACAGCAC
CTCCCTGTAATGCCCCTATATTGTTCACTGTTTTGGTAGAGCGGGTCGGG
ATCGCGAAGATTCCCGCGATTCTCACACCTTTCCGTGTATTTTTTCGTGC
ATTTTCCTCGTTCCGGCACAATAATCGCGCGAACATGTTGAACATGTTGA
CAATGTTGTCATCCAAAACACATCACGGGCACAGCCTGGAGAGCAAGTCT
GTCTGTTGGCCCAAGAATCTTTATGTTTTCTGGGATGAAGAGGACCGATG
ATTTCGAAAAGTAAAAAGTCAAGTCCCTTTTCGCGTGGATCTTGATGGTT
TAGGTGTCGTTGCCCTGGGCATCCGTCCGCGGCAGAAGGCGTAGAAGCGT
GGTGGTCGAAGCAAGTTCCCTGTTAGTTGGTTGGGTTTGCCAGAGGTTGG
GCGGTGTCGAGGATGTAGACTCGACAAGGAGCGTGGGATGGCTAAGGAGA
AGTGGTGAAAAGCATCTCTCTTGGAGAGGATGACTTCCTTGAGGTAGATT
GTTGAAGGGGAAACGATGGGAACGAGCAGAGACAGCGAGGAACCAAAACG
CCTCCTGGGGTATCTCGACTATCCCTCTTGTCGCCATTTATTAATAGAAA
ACTGAACCATCACTTCACGTATGTCCCTGTATCTACTAGGGAGAAGACTC
TGCACGCGTGCAAGAGAGCTTGTGTGTGTGCGCGCGCTGCGTGTGTATGT
TTATTCAATTGCATATAACCGCGCAATCATTCCCTGTCATTCGTGTGTGT
GTGTGTATTTATTAAATTGCACATAACCACGCAATCCGGCCCTGTCATCC
TAGTCATTCTATGCCACTCGCATTGATCCTCCCGAGGGGGGATCAATGAT
ACTTATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTGATTAAATTCCC
ATATAACTGCACAATCTTGCCCTGTTATCCTATTAATAGTCATTTTATGC
TATCATAATCATATTAACACTCGCCTTGGCCCTCCCAAGGGGGGACCAGC
GATACTTGTTGCAAAAGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAA
TGTTCAGCAGATTAGGCACCAACTGGATATGACAGTCCTGCTTGTGGTCA
GCTGCAGTTATAGTCCCATTGCTATGCTTTACTGAAGTTATCTTGCCGGA
AGGGTCCTCCAGTTGTTTTTCATTAGTGTTTAACTTAAGAACGGTATTTG
TGCTATTTGAGAAAAATCTTAATTTCATAAATTTGCCAGAAAATCGCTGC
CGCCGTGGGTAATTAGTGGTAAAATCACTTGAGCGAATCCATACGATTGT
ACTCCAACTATCAATAGTAGTTCAGTTCGACTATTATTACTGATCACATG
TCTGAGGTAAAGGGATATCAAGACGATCAACTATTCATATAACATTATCA
TAGTAACTACAACTAGTTCCCCTAAATTCCAGTTGTCCAACCAGAATGCG
TTGTCAGTGGCGAATACTACTGTTGTTGCCAGCCTAATCAATCAAGCGGT
GGCATCATTCCAACGCTAGCGGTACACTGTACACCGTACGCTACATACTG
TACACTAGACACTATACTACCCTCCACGCCTTCCCGAATTCAGGTGCTGG
GATGGGATTGGTGTTTGGCATGTTCCTGGGATTGATGGGCGACATGCAGC
CTATAAACCTGGTCAACGGCAGAGAGGTTCCTCAACCGCCGCTGAAAGAG
CAGGTGAGTGCTGAACGCCTCCGACCGAAAGCAGAGTCGTCCCTTAGACG
CAGCTGCAGCTTCCGACGGGGGCAGCGTGTCCGACTTCGTGGTCGCATCT
TCTCTTGTTTGTTGCTGGCTGGAATTGGAATCGAAGTCATTAAAAAGCTT
GATCTCTATGTTAAAAGAAGATCGGTGTTTTGCTTGGCTGGAATCAGGTG
ATAACAGTGCTGCAGTACAGTACAGTAATCTCCGGATGTTCACCTTATTC
CTTTGAAGCTTGGAGAGGTTCTCGAGCGACAGGTGGAGGCACCAGAAGTT
GCGACGATACTATCTGCTGGGGGGGGGGGGGGGCTATAGGAGGAGCGCGG
GGCGCGAAATGCCCTCGCGCCTTCGAGAGATCTATTAAGAGAAGTAACTG
CCGTACCAGTTTGTGCTATTTTGTCTCGGTGAGTTTAAAAGGGGGGTTGG
TTCTAAGTGCTGACGCTGCCTATCATTCTACTACTGTCTCCCAGGCGCGC
TTAGCATACAAGCAGACGGCGGAGCGGTCGATTGGCATGGCAAGGAATTT
CGCGTCGTTTTCTGGTGAGAAAGACGAAATATCCTCTGCTCCGCGGCTTG
GTATCTTCTTAGAGTACACGACCGTGCCCATAAGTTGTTTATCTGGGTTT
TTAAGCGAGAAGGTCTAAATAAAGAAAATACGTCGTCGCGGAAAGCGGGA
GGAATCCCGTGAGTAAGCACCAGATTCAACCTGAGTGTGGAGAATGAGCA
GGATTGACGCGGCACGGGACGGCACGAACCTGTCGTGCGAGACCAAATTC
TCAGGCGCGAACGGGGACAGGGAAATATTTATTTTCCCTGTTCAGCTGAC
CACGAGCAGGATTGGCAAACCTTACCCGGTTGATCCATACTCTGCTACGA
TTGATGACCATACATAGATACATACATAATCATGTACCTTGGTATAACGA
AGTATGACGGCAGAAGCTTCTCCGTACTGACGTTATTTGTCTCCCGCATG
ATCGAATGATGAACAGCGATCTTCATGGGGTCGGAATGCGTGATCGAGAA
GATGCGAGGCAAAACGGACATGATGAATTCGGTTTACGCGGGGTGCGCCA
CTGGGGCGGCGTTCGGCATGAAGCAGGGGCCGTACGCTGCAGGCTTGGGC
TGCGTGGGCATGGCGACGTTCTCGGCCATCATCGACAAGGTTATGGGACA
CTAGGGCCCAAAAGGCATTCCTGAGTTTCATGTGTTTTTGGTGATCGATG
TGATGACGAGGAATGTGGCAGGGATAGGGAGAGCTCCTTTGTTTCATACC
ATTAATAGTACTGTACATTTGTACGTTCAAATACGTGTGTGGTGCCGTGG
ACAAGCTATGTCTCAGGAGGCGCATACTTGTAGCGGGCGACGCATCGTAT
CCTCCGTAGTAACTGATGTCCTTACATGTTATTAGTGTAATTTATCTCTT
TATTTATCGTTGGAGACTATACCGGGAGGGGCTACACTTTAATTTCCGAA
TAATATAGATGGCATCGAGTGTCAATCTCGTACCTCGATTTTTCTATCTA
GCGAGACGTAGCGCAACGCAAAATACGCCGCGTCTACGGCCGCGGCGCTG
TACAGGCAGATGAAATCCCTCGTGTAACTTTAGGACAGTACACGTATGCT
GCACAAACATCTTGTTTTCATTTGGACAAAAGATGGAGATTCTCGCATGG
CATGCAGAGGTGTCGCGATAGTCTCGGGTTTTAGCGGACGCGGGAAAATT
ATGTACAGATGAAGAAATTTCCAGGTTGACAAGGTTTTGAAACGAGTGGG
AGTCACACGCCGTAGATATCTTTGCTGGGTTTTGAAGATACAGATAATTG
ACAATGTTTTGAACCGAGTGGGAGTCAGTCACACGCC back to topCoding sequence (CDS) from alignment at F-serratus_M_contig95:192792..210978+ >mRNA_F-serratus_M_contig95.20828.1 ID=mRNA_F-serratus_M_contig95.20828.1|Name=mRNA_F-serratus_M_contig95.20828.1|organism=Fucus serratus male|type=CDS|length=870bp|location=Sequence derived from alignment at F-serratus_M_contig95:192792..210978+ (Fucus serratus male) ATGGTGCCCAGCCCACCTTCCTTGGCAGAATCATGCGCATTTAAACTCGT GATGGGAACAGTTGGGGATGGTGCCCAGCCCACCTTCCTTGGCAGAATCA TGCGCATTTAAACTCGTGATGGGAACAGTTGGGGGTGCTGGGATGGGATT GGTGTTTGGCATGTTCCTGGGATTGATGGGCGACATGCAGCCTATAAACC TGGTCAACGGCAGAGAGGTTCCTCAACCGCCGCTGAAAGAGCAGGTGCTG GGATGGGATTGGTGTTTGGCATGTTCCTGGGATTGATGGGCGACATGCAG CCTATAAACCTGGTCAACGGCAGAGAGGTTCCTCAACCGCCGCTGAAAGA GCAGGCGCGCTTAGCATACAAGCAGACGGCGGAGCGGTCGATTGGCATGG CAAGGAATTTCGCGTCGTTTTCTGGCGCGCTTAGCATACAAGCAGACGGC GGAGCGGTCGATTGGCATGGCAAGGAATTTCGCGTCGTTTTCTGCGATCT TCATGGGGTCGGAATGCGTGATCGAGAAGATGCGAGGCAAAACGGACATG ATGAATTCGGTTTACGCGGGGTGCGCCACTGGGGCGGCGTTCGGCATGAA GCAGGGGCCGTACGCTGCAGGCTTGGGCTGCGTGGGCATGGCGACGTTCT CGGCCATCATCGACAAGGTTATGGGACACTAGCGATCTTCATGGGGTCGG AATGCGTGATCGAGAAGATGCGAGGCAAAACGGACATGATGAATTCGGTT TACGCGGGGTGCGCCACTGGGGCGGCGTTCGGCATGAAGCAGGGGCCGTA CGCTGCAGGCTTGGGCTGCGTGGGCATGGCGACGTTCTCGGCCATCATCG ACAAGGTTATGGGACACTAG back to top
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