mRNA_P-littoralis_Contig101.4.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig101.4.2
Unique Name	mRNA_P-littoralis_Contig101.4.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: D8LR61_ECTSI (PA domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LR61_ECTSI)

HSP 1 Score: 828 bits (2139), Expect = 4.860e-291
Identity = 412/530 (77.74%), Postives = 453/530 (85.47%), Query Frame = 2

Query:  302 AAAGGGALLLSAIGWRETAAESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKV-TWNLCTNEDAEAVAPLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENRTPAGDGGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDAPGSSARVPFMAPNSGNTYAVSRTKESQLV 1888
            AAA  G LL SAIGWRE AAES  SRLQ  IP+ L + EGY HEEALFGIPKYGGTIAER++HGGV  G+ V TW LC+++D + V P+VP D+PFILMVDRG CTFASKVR+AQH+GAIGVIIADNTCLC DE +  C+++ D  CE+VEPIMADDGSG DITIPSFLMKK DA  +K RL  G +VQAEMTWSLPAPDDRVEW LWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTP+YVVYNG SYGCTGG  +NCG LCTN+GRYCMTDPDFDT+AGVSG DVV+E+LRQKCVWN YGG +AP ADQG+GEKWWSYV+EFFS CSV+GNRFNDE+CVA AM+AA+VDK+ VD CMS SGG E    NTILE EL EKGKKSIVIVPTVFVNN+AERGGI+TAAVL+TICAGYKSGTEPE+CRCAGQ SSE V ACM NRT  G  GGMS  +TLFLL  VVGAMTA GFVHYKRTQ QMRDQVRGILAEYMPLEDIDAPGSSARVPFM P S +TY+V RTKESQLV
Sbjct:    7 AAAAAGPLLFSAIGWREAAAESSGSRLQFTIPSVLYRDEGYAHEEALFGIPKYGGTIAERIVHGGVDPGQSVRTWTLCSDDDVKDV-PMVPTDSPFILMVDRGDCTFASKVRKAQHMGAIGVIIADNTCLCKDEASGICNKSGDTPCEQVEPIMADDGSGGDITIPSFLMKKMDATLIKNRLEGGQSVQAEMTWSLPAPDDRVEWSLWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPYYVVYNGDSYGCTGGGANNCGSLCTNDGRYCMTDPDFDTKAGVSGADVVRESLRQKCVWNTYGGEDAPLADQGVGEKWWSYVNEFFSSCSVSGNRFNDENCVARAMKAAEVDKTVVDRCMSDSGGLEKSGVNTILEAELVEKGKKSIVIVPTVFVNNMAERGGINTAAVLTTICAGYKSGTEPEICRCAGQLSSEQVDACMNNRTIGGGSGGMSAGNTLFLLFAVVGAMTAAGFVHYKRTQAQMRDQVRGILAEYMPLEDIDAPGSSARVPFMDPQSRDTYSVGRTKESQLV 535

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A835YNB1_9STRA (PA domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YNB1_9STRA)

HSP 1 Score: 539 bits (1389), Expect = 2.710e-178
Identity = 282/518 (54.44%), Postives = 360/518 (69.50%), Query Frame = 2

Query:  371 ASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCTNEDAEAVAPLVPEDAPFILMVDRGV--CTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENR-TPAGD---GGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDAPGSSARVPFMAP------NSGNTYAVSRTKESQLV 1888
            +SRLQI IPT L +P GY H+EALFGIP YGG IA+RL++ G        + LC++ +A+     V    PFIL+VDRG   CTF SKVRRAQHLGA GVII D+ C+C D     C  A  VAC+ VEPIMADDGSGADITIPSFLM K D   +K+ L     +QAEMTWSLPAPDDRVEW LWTSA D++A  FK +F++VV  LG  A FTP Y+VY+G  YGC    T++CG LCTN GRYC  DPDFD  +G+SG D++QETLRQKC+W  YGG+ A   +QGIGE+WW+YV  F  +C +   +F D  C++ AM  A +++  ++ CM  SGG +GD  NT+L EEL EK  KSIV++PTV+VNNV ERGGI+ A+VL+TIC+GY  GTEP+VC CAGQ SS  V  C+ N   P G     G  ++  ++F  M+V+GA    GF++Y+++Q  MRDQVRGILAEYMPL+D+DAPGS+ARVPF++       N+GN    +  K+++LV
Sbjct:   24 SSRLQIQIPTELFRPAGYAHQEALFGIPHYGGAIAQRLVYPG---NYTDPYTLCSDSEADK---FVNPAQPFILLVDRGGQDCTFVSKVRRAQHLGAAGVIIVDDRCICGD---GACASA--VACQPVEPIMADDGSGADITIPSFLMTKMDGNIIKSHLQANQFIQAEMTWSLPAPDDRVEWSLWTSAQDSAATAFKAEFRDVVTALGTHAYFTPHYIVYDGEEYGCRDD-TNHCGNLCTNAGRYCNPDPDFDRDSGLSGADIIQETLRQKCIWLHYGGDKASKGEQGIGERWWTYVQTFSKKCGMG--KFVDSSCISRAMSEAKINEKTINKCMDESGGLQGDIDNTLLSEELKEKANKSIVVIPTVYVNNVVERGGITAASVLTTICSGYAGGTEPKVCSCAGQGSSTAVKLCVRNGGKPPGXXXASGASTILGSVFAAMLVMGA---AGFLYYRKSQEAMRDQVRGILAEYMPLDDMDAPGSNARVPFISHHGAGNGNAGNGGGYAAPKDTRLV 524

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A4D9DEA6_9STRA (PA domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9DEA6_9STRA)

HSP 1 Score: 501 bits (1290), Expect = 1.680e-163
Identity = 267/509 (52.46%), Postives = 338/509 (66.40%), Query Frame = 2

Query:  362 ESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCTNEDAEAVAPLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACME-------NRTPAGDGGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDAPGSSARVPFMAPNSGNTYAVSR 1867
            E   SRLQI IP  L KP+GY H+EALFGIP YGG IAE+L +    K       +C+   A+ VA      +P+ILMVDRG CTF +KVR AQH GA GV++ADN C+C D     C    D +C+ +EPIMADDGSGADITIPSFL+ K DA+ +K +L     VQ EMTWSLP PDDRVEW LWTSA D+S+A  K +FKE +  LG+   FTP+Y VY+G +Y C      +CG LCTN+GRYCM DPD D   G SG D+V E LRQKC+WN YGG N    ++G+G  WW YV EF  +CS + +RF D +C+ EAM AA VD   ++ACM  +GG + D  N IL+ EL EK KKSIVIVP+V+VNNV +RGGIS+  VLS+ICAGY  GT+P+VC C G    +++T C++       ++   G GGG+S    L ++ +V+  MTA GFV++KRTQ QMR+QVR ILAEYMPLED  APG S         S ++++ SR
Sbjct:   11 EDETSRLQIQIPRDLFKPDGYNHKEALFGIPVYGGFIAEKLYYANTTK-------MCSAPTADEVAQW---KSPYILMVDRGDCTFVTKVRHAQHAGASGVLVADNLCVCKDLA---CHPDPDTSCQGIEPIMADDGSGADITIPSFLLYKPDADAIKEKLRQESLVQVEMTWSLPTPDDRVEWSLWTSANDSSSAALKEEFKEAMAALGQHQYFTPYYQVYDGAAYNCVN-FPDHCGSLCTNHGRYCMPDPDKDPYHGYSGRDIVIENLRQKCIWNHYGGENTG-KEEGVGLPWWGYVREFTEKCSRS-SRFTDPNCIKEAMGAAGVDHKKIEACMEDAGGVDQDRENLILQAELLEKLKKSIVIVPSVYVNNVVQRGGISSVTVLSSICAGYLEGTQPKVCNCVGVAPDQVMT-CVQGGDYRPVSQKMGGSGGGVSWGGVLGIVTLVILGMTAAGFVYWKRTQEQMREQVRSILAEYMPLED--APGDSNPSTTAGGGSVDSFSGSR 500

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A836CIN2_9STRA (PA domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CIN2_9STRA)

HSP 1 Score: 500 bits (1288), Expect = 1.770e-162
Identity = 268/494 (54.25%), Postives = 331/494 (67.00%), Query Frame = 2

Query:  365 SIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCTNEDAEAVAPLVPEDAPFILMVDRGV--CTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENRTPAGDGGGMSMSSTLFLLMMVVGA----MTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDA-PGSSARVP 1825
            S +SRLQI IPT L +  GY+H+EALFGIP YGG+IA+RL++ G        + LC++ DA       P   PFIL+VDRG   CTF SKVRRAQHLGA G IIAD+ C C  +   +CD +  VACE++EPIMADDGSGADITIPSFLM K D + +K  L     +Q EMTWSLPAPDDRVEW LWT+A+D +AA FK +  +V   LG  A FTP Y +Y+G  YGC    T +CG LCTN GRYC  DPDFD  +G+SG DV++ETLRQKC+W  YGG  AP ADQG+G KWWSYV++F + C+   ++F DE CVA AM    +DK+ +  CM+ SGG EGD  NT+L +EL EK  KSIV+ PTV+VNNV ERGGI+ A+VL+T+C+GY SGTEP  C+CAGQ SS  V  C+ N    G                        M+A G ++Y++ Q  MRDQVRGILAEYMPLED+DA  G +A  P
Sbjct:    4 SQSSRLQIQIPTELFRSAGYEHQEALFGIPHYGGSIAQRLVYPG---DFDQPYQLCSDVDAAKFTNPNPNQ-PFILLVDRGGADCTFVSKVRRAQHLGAAGAIIADDRCKCAGDA--QCDSS--VACEQLEPIMADDGSGADITIPSFLMTKTDGDLIKEHLKLKEFLQVEMTWSLPAPDDRVEWSLWTTAIDAAAAAFKGEMADVAAALGTHAFFTPHYTIYDGEEYGCRDD-THHCGNLCTNAGRYCNPDPDFDRDSGLSGADVIRETLRQKCIWLHYGGAQAPEADQGVGIKWWSYVNKFTTLCNT--DKFTDETCVAAAMSECGIDKTLIGRCMTDSGGLEGDIDNTLLSDELREKSTKSIVVTPTVYVNNVVERGGITAASVLNTVCSGYASGTEPSACKCAGQGSSSAVRLCISNGMRPGXXXXXXXXXXXXXXXXXXXXXXXXMSAVGLLYYRKQQAAMRDQVRGILAEYMPLEDMDAVAGGAAAAP 486

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A6V1XHF6_HETAK (Hypothetical protein n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1XHF6_HETAK)

HSP 1 Score: 475 bits (1222), Expect = 1.260e-153
Identity = 256/508 (50.39%), Postives = 324/508 (63.78%), Query Frame = 2

Query:  323 LLLSAIGWRETAAESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCTNEDAEAVA---PLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENRTPAGDGGG---MSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDI--DAPGSSARV 1822
            LL ++ G     A   +SRLQ+ IP SL +  GY H++ALFG P YGG+I+ +L +            LC   DA+          ++APFILM DRG CTF SKVRRAQH GA GV+IADN CLC D     C   E  ACE +EPIMADDGSGADITIP+FLMKK DA+ VK ++  G  V AEM+W+LP PDDRVEW+LWT+A+D  A  FK+DF+ V   LG  A FTP YVVY+G    CT   +  CG LCTN GRYC+ DPD D   G+SG DVV+E LRQ C+W  YGG+ A  AD G+G KWW YV+ F + C+    +F    C A  M+ A VD S VD CM+ +GG EGD  N +L  E++EK + SIVIVP+V+VN V ERG + +  VLST+CAGY  GTEP +C CA     E + AC+        GGG   +S+   + +++ +V  MTA G  +++RTQ QMRDQVRGILAEYMPLED+  D  G+  ++
Sbjct:   12 LLWASCGLWSCRASEDSSRLQMQIPASLEREGGYAHQQALFGKPSYGGSISLQLFY--------TNSALCEGADADPTKWKRNTDNKEAPFILMADRGDCTFVSKVRRAQHAGAAGVLIADNKCLCGDAA---CTSQE--ACEPLEPIMADDGSGADITIPAFLMKKVDADLVKGQILQGQLVVAEMSWALPNPDDRVEWDLWTTAIDDGAQTFKQDFEVVTSKLGPRAYFTPHYVVYDGNELRCTTA-SDKCGNLCTNQGRYCLPDPDNDRHKGISGADVVEENLRQLCIWRAYGGDAANQADIGVGTKWWRYVNGFQAACNTP-EKFASAACKANVMKQAGVDSSKVDKCMADAGGLEGDVPNALLAAEISEKDRHSIVIVPSVYVNGVVERGAVLSTTVLSTVCAGYAPGTEPSICACASGVGREEMMACVAADGKKATGGGPTGVSVGGVISIILAIVAVMTAAGLFYWRRTQTQMRDQVRGILAEYMPLEDLGTDKAGTDTQI 504

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A1E7F741_9STRA (PA domain-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7F741_9STRA)

HSP 1 Score: 421 bits (1082), Expect = 1.010e-132
Identity = 232/488 (47.54%), Postives = 302/488 (61.89%), Query Frame = 2

Query:  362 ESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGG---VKKGEKVTWNLCTNEDAEAVAPLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKC-DRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSN-CGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVC-RCAGQPSSELVTACMEN-RTPAGDGGGMSMSSTLF--LLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDID 1798
            ++++SRL I IP SL K EGY H EALFGIP YGG+IA+ + +            T      E  +    +   ++P+ILMV+RG CTF  KVR AQ  GA GVIIADNTCLC D E   C + A++  CE  EPIMADDGSG+DI+IPSFLM K DA+ VK RL D   VQ EM+WSLP PDDRVE++LW++  D  +  F  +FK + K LG  A FTP   +Y+G    C G    N C  LCTNNGRYC TDPD D   G+SG DVV+E+LR+ C+W  YG ++      G+GE WW+YV EF +RC+ A + F +EDCV +  + A VD   VD CMS SGG   D  N  L+ E+  + ++ +V++PT FVN  A RG +S+ +V S IC+G+  GT P +C +C+G   S+ VT   +  R PAG      +SS  F   +  +  A    G+ HY +T+  MR+QVRGILAEYMPLED D
Sbjct:   24 DNVSSRLMIHIPHSLFKEEGYDHREALFGIPPYGGSIAQNVYYADDDLCDPNVDTTKGYPRREKDDKTGKMPAWESPYILMVNRGECTFVKKVRNAQRSGAAGVIIADNTCLCSDVE---CIEAADNPTCETSEPIMADDGSGSDISIPSFLMFKHDADKVKERLMDDQPVQLEMSWSLPNPDDRVEYDLWSTPTDVVSKQFLTEFKPISKALGDRAYFTPHMYIYDGVKTHCQGNDGENFCYNLCTNNGRYCATDPDNDLDQGISGADVVKESLRRLCIWKHYGESD------GVGETWWNYVEEFMARCNTA-DYFMNEDCVKDCYKHAKVDGEKVDRCMSDSGGLTRDAPNAFLDSEILAQSERGVVVLPTAFVNTAAMRGQLSSTSVFSAICSGFSDGTRPVICDQCSG--CSDTVTCVSKGGRCPAGSSSSGQVSSNTFGFTIFFMAFAFAGVGYWHYNKTRDDMREQVRGILAEYMPLEDND 499

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A7S2XLY3_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2XLY3_9STRA)

HSP 1 Score: 420 bits (1079), Expect = 2.230e-132
Identity = 232/513 (45.22%), Postives = 307/513 (59.84%), Query Frame = 2

Query:  362 ESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCT-NEDAEAVAPLVPEDA---------PFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSN-CGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVC-RCAGQPSSELVTACMENRTPAGDGGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDAPGSSARVPFMAPNSGNTYAVS 1864
            ++++SRL+I IP SL K EGY H EALFG+P YGG+IA+ + +           +LC  N D     P+  +D+         P+ILMVDRG CTF  KVR AQ  GA GVIIADNTCLC D++    +  EDV C+  EPIMADDGSG DI+IP+FLM K DA+ VK  +     VQ EM W LP+PDDRVE++LWT   D+ +  F+++FKEV   LG  A FTP   VY+G    C G    N C  LCTNNGRYC TDPD D + G SG DVV E+LR+ C+W  YG         GIG +WW YV+EF  RC    + F +EDC+ +A + +++D   VD CM  SGG E D  N  L+ E+  + ++ +V++PT FVN  A RG +S A++   ICAG+  GTEP++C +C   P         +    +G GGG++  +    + ++ G   A GF H+K+T+  MRDQVRGILAEYMPLED +    S      A   G+T  +S
Sbjct:   24 DNVSSRLEIHIPHSLFKEEGYDHREALFGVPPYGGSIAQNVYYADA--------DLCDPNVDTRRGYPIRAKDSSGKMEPWASPYILMVDRGGCTFVQKVRNAQRSGAAGVIIADNTCLCSDQDCVSAN-GEDV-CQTAEPIMADDGSGGDISIPAFLMFKKDADTVKAEVRSNHVVQMEMAWKLPSPDDRVEYDLWTVPSDSVSKEFQKNFKEVAVALGDRAYFTPHMYVYDGIKSHCQGADGKNMCFNLCTNNGRYCATDPDNDLEKGTSGADVVTESLRRICIWKHYG------EADGIGVEWWDYVAEFMHRCDTP-DFFANEDCIKDAYKHSNIDGGMVDRCMRDSGGLEKDVPNAFLDLEINSQTQRGVVVLPTAFVNTAAIRGSLSVASIFDAICAGFLDGTEPDICTKCVSCPDQIGCVRAKKCAHTSGGGGGVAPHTFFLTIFVICGMFGAAGFYHWKKTKDDMRDQVRGILAEYMPLEDNENDAGSPM--DFARRGGSTSLIS 517

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: K0SMA3_THAOC (PA domain-containing protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0SMA3_THAOC)

HSP 1 Score: 419 bits (1076), Expect = 6.160e-132
Identity = 228/504 (45.24%), Postives = 307/504 (60.91%), Query Frame = 2

Query:  323 LLLSAIGW-RETAAESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGG---------VKKGEKVTWNLCTNEDAEAVAPLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSN-CGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCR-CAGQPSSELVTACMENRTPAGDGGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDID 1798
            LLL A+   R  +A++++SRLQ+ +P +L +P+GY H EALFG+P YGG+IA+ + +            +KG  +          ++   + P  +P+ILMVDRG C+F  KVR AQ  GA GV+IADNTCLC D  N      EDV C+  EPIMADDGSG DI+IPSFLM K DA+ +K  +     VQ EM W+LP PDDRVE++LWT+  D  +  F+++FK V + LG  A FTP   VY+G    C G    N C  LCTNNGRYC TDPD D   G+SG DVV+E+LR+ C+W  YG         GIG++WW Y SEF  RC    + F ++DCV +  + + +    VD C+  SGG + DN NT LE E++ + K+ +VI+PT FVN VA RGG+S   V + IC GY  GTEP +C+ C G   S+  T   + +     GGG+SM + +  ++++        F HY++T+  MRDQVRGILAEYMPLE  D
Sbjct:   12 LLLQAVSVVRGDSADAVSSRLQVHVPHTLFRPDGYDHREALFGVPPYGGSIAQSIFYADSDLCDPTVDTRKGYPI-------RSKDSKGKMEPWPSPYILMVDRGGCSFVQKVRNAQRSGAAGVVIADNTCLCSDT-NCVSANGEDV-CQPAEPIMADDGSGGDISIPSFLMFKTDADQIKAEVRANHMVQVEMQWALPQPDDRVEYDLWTTPSDPVSKEFQKNFKSVSQALGDRAYFTPHMYVYDGVKSNCQGLDGENMCFNLCTNNGRYCATDPDNDLDHGISGADVVKESLRRICIWKHYG------EQDGIGKEWWDYTSEFIERCDNP-DYFANDDCVKDVYKHSGIKGDIVDRCIRDSGGLDQDNTNTFLELEMSAQVKRGVVILPTAFVNTVALRGGLSVDTVFTAICNGYLEGTEPSICKQCDG--CSDFETCIQKKKCNGRGGGGVSMHTFMGSILLIAALFGGAAFWHYRKTREDMRDQVRGILAEYMPLEGDD 497

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BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A7S1CYT0_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1CYT0_CYCTE)

HSP 1 Score: 416 bits (1070), Expect = 2.240e-131
Identity = 232/498 (46.59%), Postives = 305/498 (61.24%), Query Frame = 2

Query:  362 ESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKVTWNLCT-NEDAEAVAPLVP---EDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSN-CGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAG---QPSSELVTACMENRTP-AGDGGGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDI---DAPGSSAR 1819
            ++++S+L + IP SL K EGY H EALFG+P YGG+IA+ + +        V  +LC  N D     P       D PFILM +RG CTF  KVR AQH GA GVIIAD TCLC D E  +   ++D  CE  EPIMADDGSGADI+IPSFLM K DA+ VK  L     VQ +M+WSLP PDDRVE++LWT   +  +  F+++FKE+   LGK A FTP   +Y+G    C G   SN C  LCTNNGRYC TDPD D   G+SG DVV+E+LR+ C+W  YG       D GIG  WW YV+EF  RCS     F ++DC+ +A   A +D  +V+ CM  SGG + D  N +L+ E+  + K+ +V++PT FVN  A RG ++   V + ICAGY + T P +C+       P+  + +     + P  G  GG+S  + +F L+++VG  +  GF +YK++Q  MRDQVRGILAEYMPLED    D+P   AR
Sbjct:    5 DNVSSKLMVQIPRSLYKEEGYDHREALFGVPPYGGSIAQNVYY--------VESDLCDPNADISKGFPSGKGKGRDGPFILMANRGDCTFVKKVRTAQHKGAAGVIIADTTCLCQDTECMEAQGSQD--CEPSEPIMADDGSGADISIPSFLMFKHDADKVKQVLKMDKPVQIKMSWSLPTPDDRVEYDLWTVPTEEVSLEFQQNFKELAVALGKHAYFTPHMYIYDGERSNCKGSDGSNMCYTLCTNNGRYCATDPDNDLDKGISGADVVEESLRRLCIWQRYG------KDDGIGVHWWDYVTEFHKRCSKP-EYFTNKDCIEDAYNHAKIDGISVEQCMDDSGGVKEDRRNALLDIEVDVQQKRGVVVLPTAFVNTAAIRGALTVGNVFTAICAGYIADTAPSICKQCSFCLDPAECVRSGGFCKKGPRTGTSGGVSTGTFMFSLLLLVGVFSGAGFWYYKKSQDDMRDQVRGILAEYMPLEDQEGGDSPMDFAR 485

[Close]

BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Match: A0A448Z1Z6_9STRA (PA domain-containing protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448Z1Z6_9STRA)

HSP 1 Score: 417 bits (1071), Expect = 3.350e-131
Identity = 230/514 (44.75%), Postives = 305/514 (59.34%), Query Frame = 2

Query:  326 LLSAIGWRETAAESIASRLQIPIPTSLVKPEGYQHEEALFGIPKYGGTIAERLIHGGVKKGEKV--TWNLCTNEDAEAVAPLVPEDAPFILMVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKC-DRAEDVACEKVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPAPDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSYGCTGGRTSN-CGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWNLYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAADVDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAERGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENRTPAGDGGGMSMSSTL-FLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLEDIDAPGSSARVPFMAPNSGNT 1852
            LLS      T  + ++SRL I +P  L   EGY H EALFGIP YGG+I + + +   +  + V  T       + +A   +    AP+ILMVDRG CTF  KVR AQ  GA GVIIADNTCLC D    +C + +++  CE  EPIMADDGSG+DI+IPS LM K DA+ VK +L +   VQ EM WSLP PDDRVE++LWT+  + ++  F  +FK V K LG SA FTP   +Y+G    C G    N C  LCTNNGRYC TDPD D   G+SG DVV+E+LR+ C+W  YG ++      GIGE WW Y+ +F  RC+   + F +EDCV +  + A VD+  ++ CMS SGG   DN+N + + EL  + ++ +V++PT FVN  A RG ++   V   ICAGY  GT P +C    + S  +  A       +G   G   + T  F ++ +  A    G+ HY++T+  MR+QVRGILAEYMPLED DA G    + F A   GNT
Sbjct:   11 LLSLSTVTATTPDHVSSRLMIHVPHKLFVAEGYDHREALFGIPPYGGSITQNVYYADDQLCDPVVDTTKGYPRREEDANGKMEEWKAPYILMVDRGDCTFVKKVRNAQRAGAAGVIIADNTCLCSDA---RCIELSDNPTCETSEPIMADDGSGSDISIPSMLMFKHDADMVKDQLIEDQPVQLEMAWSLPNPDDRVEYDLWTTPSEKTSKKFLEEFKPVAKALGDSAYFTPHQYIYDGIKTNCRGNDGENFCYNLCTNNGRYCATDPDNDLDHGISGADVVKESLRRLCIWKHYGESD------GIGEVWWDYIIQFMDRCNTP-DYFMNEDCVNDCYKRAKVDRDKIERCMSDSGGLRKDNSNALFDSELELQEQRGVVVLPTTFVNTAAMRGQLTVGTVFGAICAGYAEGTTPAICETCSKCSDVVACATKGKCQDSGSSSGQVSAHTFGFTIVFMAMAFAGAGYWHYQKTRDDMREQVRGILAEYMPLEDNDADGGPGPMEF-AMRGGNT 513

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig101.4.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LR61_ECTSI	4.860e-291	77.74	PA domain-containing protein n=2 Tax=Ectocarpus Ta...	[more]
A0A835YNB1_9STRA	2.710e-178	54.44	PA domain-containing protein n=1 Tax=Tribonema min...	[more]
A0A4D9DEA6_9STRA	1.680e-163	52.46	PA domain-containing protein n=1 Tax=Nannochlorops...	[more]
A0A836CIN2_9STRA	1.770e-162	54.25	PA domain-containing protein n=1 Tax=Tribonema min...	[more]
A0A6V1XHF6_HETAK	1.260e-153	50.39	Hypothetical protein n=2 Tax=Heterosigma akashiwo ...	[more]
A0A1E7F741_9STRA	1.010e-132	47.54	PA domain-containing protein n=1 Tax=Fragilariopsi...	[more]
A0A7S2XLY3_9STRA	2.230e-132	45.22	Hypothetical protein n=1 Tax=Attheya septentrional...	[more]
K0SMA3_THAOC	6.160e-132	45.24	PA domain-containing protein n=1 Tax=Thalassiosira...	[more]
A0A7S1CYT0_CYCTE	2.240e-131	46.59	Hypothetical protein n=1 Tax=Cyclophora tenuis Tax...	[more]
A0A448Z1Z6_9STRA	3.350e-131	44.75	PA domain-containing protein n=1 Tax=Pseudo-nitzsc...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig101	contig	P-littoralis_Contig101:9334..26855 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D8LR61
Preferred name	VSR1
PFAMs	PA,cEGF
Model size	3157
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC00718
KEGG ko	ko:K01859,ko:K17637
KEGG Reaction	R02446,R06556,R07990,R07995
KEGG Pathway	ko00941,ko01100,ko01110,ko04014,map00941,map01100,map01110,map04014
KEGG Module	M00137
Hectar predicted targeting category	signal peptide
GOs	GO:0000139,GO:0003674,GO:0005048,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005768,GO:0005770,GO:0005773,GO:0005783,GO:0005794,GO:0005802,GO:0005886,GO:0006605,GO:0006623,GO:0006810,GO:0006886,GO:0006892,GO:0006896,GO:0007034,GO:0008104,GO:0008150,GO:0009940,GO:0010008,GO:0010209,GO:0012505,GO:0012506,GO:0015031,GO:0015833,GO:0016020,GO:0016192,GO:0030135,GO:0030136,GO:0030659,GO:0030662,GO:0030665,GO:0031090,GO:0031410,GO:0031902,GO:0031982,GO:0031984,GO:0033036,GO:0033218,GO:0033365,GO:0034613,GO:0042277,GO:0042886,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044431,GO:0044433,GO:0044440,GO:0044444,GO:0044446,GO:0044464,GO:0045184,GO:0046907,GO:0048193,GO:0051179,GO:0051234,GO:0051641,GO:0051649,GO:0070727,GO:0071702,GO:0071705,GO:0071944,GO:0072594,GO:0072665,GO:0072666,GO:0097708,GO:0098588,GO:0098791,GO:0098805
Exons	12
Evalue	3.74e-300
EggNOG OGs	28KFV@1\|root,2QSX2@2759\|Eukaryota
EC	5.5.1.6
Description	amino-terminal vacuolar sorting propeptide binding
Cds size	1599
COG category	S
BRITE	ko00000,ko00001,ko00002,ko01000,ko04131

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680789349.0285025-UTR-P-littoralis_Contig101:9333..9625	1680789349.0285025-UTR-P-littoralis_Contig101:9333..9625	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig101 9334..9625 +
1680789349.1827877-UTR-P-littoralis_Contig101:25589..26855	1680789349.1827877-UTR-P-littoralis_Contig101:25589..26855	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig101 25590..26855 +

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


Feature Name	Unique Name	Species	Type	Position
1680789349.0395763-CDS-P-littoralis_Contig101:9625..9697	1680789349.0395763-CDS-P-littoralis_Contig101:9625..9697	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 9626..9697 +
1680789349.0508893-CDS-P-littoralis_Contig101:15509..15623	1680789349.0508893-CDS-P-littoralis_Contig101:15509..15623	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 15510..15623 +
1680789349.062371-CDS-P-littoralis_Contig101:17344..17494	1680789349.062371-CDS-P-littoralis_Contig101:17344..17494	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 17345..17494 +
1680789349.0757475-CDS-P-littoralis_Contig101:18879..19049	1680789349.0757475-CDS-P-littoralis_Contig101:18879..19049	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 18880..19049 +
1680789349.086897-CDS-P-littoralis_Contig101:19596..19747	1680789349.086897-CDS-P-littoralis_Contig101:19596..19747	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 19597..19747 +
1680789349.1001258-CDS-P-littoralis_Contig101:20306..20411	1680789349.1001258-CDS-P-littoralis_Contig101:20306..20411	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 20307..20411 +
1680789349.112811-CDS-P-littoralis_Contig101:21592..21766	1680789349.112811-CDS-P-littoralis_Contig101:21592..21766	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 21593..21766 +
1680789349.1258872-CDS-P-littoralis_Contig101:22417..22529	1680789349.1258872-CDS-P-littoralis_Contig101:22417..22529	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 22418..22529 +
1680789349.1365414-CDS-P-littoralis_Contig101:22744..22842	1680789349.1365414-CDS-P-littoralis_Contig101:22744..22842	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 22745..22842 +
1680789349.1472282-CDS-P-littoralis_Contig101:23817..23943	1680789349.1472282-CDS-P-littoralis_Contig101:23817..23943	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 23818..23943 +
1680789349.1588068-CDS-P-littoralis_Contig101:24332..24521	1680789349.1588068-CDS-P-littoralis_Contig101:24332..24521	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 24333..24521 +
1680789349.1693373-CDS-P-littoralis_Contig101:25451..25589	1680789349.1693373-CDS-P-littoralis_Contig101:25451..25589	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig101 25452..25589 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig101.4.2	prot_P-littoralis_Contig101.4.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig101 9626..25589 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig101:9334..26855+
coding sequence from alignment at P-littoralis_Contig101:9334..26855+

protein sequence of mRNA_P-littoralis_Contig101.4.2

>prot_P-littoralis_Contig101.4.2 ID=prot_P-littoralis_Contig101.4.2|Name=mRNA_P-littoralis_Contig101.4.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=533bp
MKFAAAGGGALLLSAIGWRETAAESIASRLQIPIPTSLVKPEGYQHEEAL
FGIPKYGGTIAERLIHGGVKKGEKVTWNLCTNEDAEAVAPLVPEDAPFIL
MVDRGVCTFASKVRRAQHLGAIGVIIADNTCLCHDEENNKCDRAEDVACE
KVEPIMADDGSGADITIPSFLMKKADAENVKTRLADGITVQAEMTWSLPA
PDDRVEWELWTSAMDTSAAPFKRDFKEVVKTLGKSAQFTPFYVVYNGGSY
GCTGGRTSNCGQLCTNNGRYCMTDPDFDTQAGVSGGDVVQETLRQKCVWN
LYGGNNAPFADQGIGEKWWSYVSEFFSRCSVAGNRFNDEDCVAEAMRAAD
VDKSAVDACMSASGGTEGDNANTILEEELAEKGKKSIVIVPTVFVNNVAE
RGGISTAAVLSTICAGYKSGTEPEVCRCAGQPSSELVTACMENRTPAGDG
GGMSMSSTLFLLMMVVGAMTAGGFVHYKRTQMQMRDQVRGILAEYMPLED
IDAPGSSARVPFMAPNSGNTYAVSRTKESQLV*

mRNA from alignment at P-littoralis_Contig101:9334..26855+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig101.4.2 ID=mRNA_P-littoralis_Contig101.4.2|Name=mRNA_P-littoralis_Contig101.4.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=17522bp|location=Sequence derived from alignment at P-littoralis_Contig101:9334..26855+ (Pylaiella littoralis U1_48)
AAATACTCCTCTAATCTGGAAGAACATTGCTGACCAGGTGGGGAGGTGCA
CAAGTTGCTCTCTCCCTTCTTGTGCTTGTCCATCATTGGGAGTAATCAAT
AAGTTTTGCACGAAATAGGTTGTTAGTGAGCGTTTGAGTTTTCCGGATCG
ACAAAACCGGGCGGAGAACTGGAAAAATTACACGACGAGGAGACCGATAT
TTCTCGGGCCGTGTTTTCTCGGGCCGTGTTCCCCTGAACAAAGCGGCAGT
ATTCAAAAAAGTCAAGCCCCACGCGGTCACTCGTGAGAGAGTATGAAATT
CGCTGCGGCTGGCGGCGGAGCGCTGCTGCTTTCAGCGATTGGATGGAGAG
AAACAGCCGCTGAGGTACGGAATTGCACATACTAAAGGGCACACGCTCGC
CTCCCCCTTCTAGCAACAAGTTCATCGGTCAATCATTTGATCACATAATG
CGCCCCTCTCGATATTTACAAGTTATCCTTGTTTCATTATCTGTCTCTCC
GCTTTTATCTGGATGATACCTGTACCTGTTATCAAATGTAATATACACAG
AGCAGTCGTATGTGTACATAGAATGTGACGCAAACCTCTCAACAGACTTC
GGAGGGAGGCCTCACACAGGAAGGTTGTGTCGTTAAAAGTTAAATCGCCA
CCCACGGCATCCTCTGTGAGACTAGTGCTAGCTTGTGTACGTGGACGAGG
ATGCAGTTGCGTTCGTGCCCCACAAAGATAGCCTTACAAAAACCGAGAAA
TGCAATGGCGTGTACACGTATAAACTGAGAAATATCGCCATTGATGTGTT
GTCATCCCATATTCTCTGGCACTAGTCTGCACCCTGCGGTTCAGACTACA
GGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGGAGGA
GTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTCTCGCGAG
CAGGGGTCCGCGATCCTTACCCTCGTCGGCGAAGCCGAATCTGCTTTTAC
TAACAGCCTAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACTGGGAAT
CGAACCCCCGTTCCTCTGCATCTAGTGGCTAACGAGGGGACCACTAGTCC
ACCGGGGCGACCGGTGTAGTACCCCTTATTGGAACTTGCGGTACGATAAG
ACGACAAAACCACAAAACCACCAGCCCCACCACATCATTTCGCCTACGTT
TCCTGTCTTCTTGGATGAAATGAGCTGAGATTCGGTCATGCAGTGTTCTT
AAAAGTATTGCTCTCGCAATTTTGATTCCGGTGTGGTTGGGGAGGCTTGT
CGAGAGCGCACCAAAGGGGGGCTGTTTCCCAACATTGCATTTGAGACAAC
TCGAAACCTCTCAAGTAATGCCTTTTCGAATCATGCCGGATTTTCGCCGG
GAAACAGAGAACCATTCCCGGGAAACATGAACTGAGTTTCGCTCGCTCTG
TTCTAAACGATTTGGGGAGTATTTTTTTTCAAAATGCCTTTTCTCTGTTT
TTTGTTCTGAAGCCCGAGCTTCTTCCCGCCCACAGCAGTCACGCCGCATC
CGAACTCTAGACGCCAAGCGAACCACAGCAGCAGTTAGTTGTCGTGCGAA
GCCCACACCATGGATGAAGACAACAGCCTTCAAACTAGGAGACCGTGTAG
GACCAAGGCTCTACCTGCAAAGCTGCAGGGCCCAGGTGAGCAAGGTGCTG
CTGCTGGACATGGACAAGCGCAGCTCCGGCAGCCTGCTGCTGCTGTTGTT
GTGTGTATCGGCGCCTGATTCGACTCGAGGTGTGCAGCCGTCCGGAAGGC
TCTTGGCGCTTCCTCCCATCAGCCATGGCCTTAGGGCGACCCTGTGAACT
CACTTTGTGGTTGTGTGGCCTGGGGGTGGCGTGCGTGCGACAGCTCGCGT
GAACTGAGTACCTATACAGGCGTGCCCGAACTTGGAGGCACGTCTGCCCG
AAATGCGGGTTCAAATTTCCCGGGAACCCTGAAATGAGTATTTCGGGATT
TTTTTGGCAGCGCTCATTTCAGGAAAAACGAGAAGAACGCCTTCACATTG
TCGGAGATTTTCGGTTTCCACGAATGGTTCTCTGTTTCCCGGCAAAAATC
CGGAATGATTAAAAAGGGCCTTGAGGATGCCGCTTCGTGGTTCCATTTTT
TCGACCGTTTGTTGGCCTTTAGTCTCTCTTGTACAGCAGTACTTCGTACG
AAGTACTTGGAAGTATATACGAGTGGATCGGGGTTGACAAACAGTGCACG
TTCGAGGGCCGCTTCTCGAATAACTGCGTTAAGCCGTGTGCGTTGCTGTT
TGGTGGCTGGCGTATGTATACCGCTGCTGCAGTGCTGCTCCAGAACAGCC
GGTCTGCGCCAGCACCACGAACGCAACAAATGCCTCTCGTCACTTTTCAC
AAAAAAGGGACACCGATAATTACGCGCCTCCGACAACATCGCTGCGCGCA
CAGGACACGGGCAGCGGTGGACCCAGCAGCAATGGGTAGATGCTGTTTTC
CTCATCAGTTAAAGCCCTTGGTCGTAACGATCTGTGCTGAACTGTTGCCA
AACTGTTGTAAAATGTGTCCATTTTCTCGGACACACACAGACACCATAAA
CCTCGAAAATGAAATAAAGGCACCCCTTGGGTTTTTACTTGTTTTTATTC
GCACACACACATGTTTTTTCTTTTTCTGTCTTCTCCGATTGCCGGGGCTA
CTTGTACTTGCGGGCAGCACTCCAGACAGCAACTAACTGCTGTAGTCTGC
AACCCTACTGACCGCTTGCTTTAAGTGGGGCGGGAGGAGACTGAACACGA
TGTTGTAGTCAAATGAACTACGCTGGATATACGTCTGTTTTGTAGTTTCT
TTCTGTTTTTTTGGATCTTCCTAGGGCCCAGCACTTTTTGTGACCACGGG
CTAGATTTTGGCGATGAGCTAAATGTGGGAATCAACAACCCCACCTACAC
ATTACGACAAGCCGGTATATCGAAGCAGTTCGGCACCGAAGTTACACTTT
GCTGCGCCATTGGCCTGCTTTCTCAATACTAGTGGATAGGGTTGAGAAGC
AGTGTGCGTTGAAGGGCCGCTTCTGAAATAACTCTGCGTTGCACATGTAC
CGTGGCTGCAGCAGCGCTGCTGCAGCAGAACAGCTGTTGTTGTGATGTTC
CGCCAGCACAACGAATACACAATAACGCCTCTCATCATTTTTCACAAAAA
AGGGACACCGAAAACAACGCGCCTCCGACAACAAAACTCAGCGCACAGGA
CACGGGCTGCGGTGAACCCAAGATCAGTGGGTAGATGTTATTTAGCCCAT
CAGTTCAAGCTCTTGTTCGTAACGATCTGTGCTGAACTGGTGCCAAAGTG
TTGCAAAATGTGGCCATTATCTCGGACAGAGACAGACACCATAAACCTCG
AAAATTAAATAAAGGCACCCCTGTCTCCGATTTGTTTTTATGTTTTTATT
CGCACATACACTCATACCTGCACATCACGACAAGTCGGTATGAATTCGAA
GCAGTTCGACAAGAAACTTACACTTCGCTTCGCTCGTGGCCTGCTTCTCA
ATATGATACACACACAGCAATCTCTTGAAGCCCTTGCGAGCGTGTCACTA
CGATATCTATGCTGTGCCGAGCTTTGGTGCAAGGTCGTCTCAAGTTTTTT
TTTTTTTCTGGGGAAAGGCGAACACATTGATGTGTTTGCAAGAAAAAAAA
AAACATCAATGAGTTCGCCTCTCTTTGGACGAGGATTCAGCGAGATTAGC
AACGAACACAGAGAGCGATACATCTACTTGTGTTTATAAAACTCAACAGA
TAACAGACCGTTGCAGTTACCCTAAAGGGTATCAGGCTCAACAAGACAAT
TTGGGAGTCATCTTGTGTGTTTCGAGATGATGAGTTTGTCTCGAAAACGT
TGTGTCTCAATATCACCACTACTGCTGTTGTGCGATAAAATGCATACTCC
GAGTATATACTCGTACTTCTTGTTAGAAGGCATAGGCAGGCGGTTAGACA
GACAGACAGACAGATAGATGCAGACATACACCCATGATATGCGACAGGCC
GGTGCGGATCCAAACCACTCGTTGGAAACGGCGTATGATCTGATATCATA
GCGTGTCTGCACCGACCGTTTGTACTGTACGCTTGTATTGCTTTTATGTG
CGACGGTACCGACCGGTCGCCCCGGTAGTTCAGTTGTTAATCCACGCAAC
CTTCTGGCATTCACGCGTGAGTTCGAATTCCAGTGCAGTAACACGATCTG
GGTTTCCTTCTCACAATGCGCGTGAAAGTGGAAAGCGATTAATTCGTGAG
TAAACAAAATTCGATCGTACCATCGACGAGGGAAAGGGACTGCTGTCCCC
TTTCTCGCGATAAAAGCTCAACCAAAAACAAGGCAAGCACCGCAAGTGGA
GAAATAAAAGAAAACTCCTGTGTTGACTTTCCCCTGTGTGACCCCAGTAG
GAGCGTCTACCTACCCGAAAGGTGCAGAGTGGCGTCCAATTAAAGGAATG
ACAATACACACACAGTATCAAGTGTGCTACCCCCCTGTTAACAAGCATGG
AATAATATTTTTCAACAAAAGCTCTGTAAAAGCAAGTGAACGCGTCGCCA
AAAAAAATGGCGTCGAGTTCACATGCTTATGGAATGCGTTTTGGAATTGA
GCGGTGATGATATCGAGGTAGAGGTTAAGCTCCTGGGAGTCACGTGATAT
TCCAAGTGACGAATGACAAAATAGCGACCCAAAATGGCGACATTTTTAGC
TACCTAGGGGTAAGGGGGTTCACGCGCTTCGGGACAAGCGTCGGGGGACT
CGCCTAAGGAGCCACCAACCCTCGTCGAGCGAGAGGCGTGTGATGAGGGG
ATAATCCTGTACACATTCTGCTGCTGCAGATACCCGTACACCACATACTC
AGCTATGTGGTGTGAAGGGTTATGATAGCCCCTTTCACTAACAAGGCGAA
ATCTTGACGTCTTTTCAAAAAGAAAAAGAAATTCCCGTGTCCAAAACGGA
CTTTTTTCTTTGTTCTTCCCTCAGGCCCCTGGTTCGTCCAGCATTAGTAG
TTCAGGTTTTCAAAAACTATCTGGTAGAAAATGAGGAAGTCTCACTGGAC
GTTGGACTCTGGGGGAATTTCTTTTCGAGAGTTCGAAATTTCGAAATTTC
GAAATTTCCAATTTCCACTTTCCAAAAAAAGAAAATTATGTACTCCTCTC
CAGCAGTCTGCCCCAGCTTGTGACGGGAACTTTCAAAATTTACTTTGTTT
ACTACTGCTGTACTACGAAGTGTACGACTATTCTATCATACCATTGTACG
TACGTAAACTCACCATCGCTTGTACTGCTGTGAGCGAATTGCGAGAAAAA
ACATGAGAAAAAAGACATGAAAGAAGATGGACCATCTCTTGTCGAAAAGT
ATCCATCATACTTGTAAGGCGGAGGGGCGGAACTCAGTGGGCGATGTGTG
GAGTTCTCCTTACGGAAAGGGTTCTTTGTTGCACTGCTGTATGTCGGCCA
GTAGATAGAACTGAGAACATTCACCTCGGGTACAGAGGTACACTCAGTAC
ACACGTGGCCCCCTGCACAGCTCCGCCCGGTCTGATTTTTGTGCTGAAAG
AGTGAAGAAAGCACGCCCCAACCCCCGTCCCGATAAGGCAAACATAATTC
CCATGCTACGGGGGATTGTGAAAATACCCGCGATACCCGTGCTGCCGCAT
CCTGTCATGTTATCCTTCGGACTATTGATAAGGTGGCACAAAAAATTTTG
ACTTTTTTTTTTTGGTTCTGAAATTGTCGTGCGTTGTGCGGGGCCCCTCA
AGCTCATATTCCCACCATGACGTACTGCTGTGCTCCTGCAACGTGTACAA
CGTCAGGTATGACAAAAAAGTACTTGCATGCAGGCAATTTTTGTTACAGC
GCCCGTTGTGTTCTGGTTCCCACCCAAAAATTCATCAACCTGCTAAAACA
TTCGAGGCCCTCTCTTGAGGCGTTCTCCACGTGTTTTATCATCCCGATCC
GATCGCGGTGCGCTTCTTGACCATACAAACAGTATGATAGCTTTGACAAA
GATGTTTCCGTAATCGATCCGGATTGCTAACAAGTAAAAGAAGGCTTCGC
AACTCACCCCTCCTCCTCTCCTCCCCTCCTCCCCTCCCCGCCTTCCATCC
TCCCTCTCTATTGGTTGGCCCTACAGAGCATCGCGTCCCGTCTTCAGATC
CCCATCCCGACGAGTTTGGTCAAGCCCGAAGGCTACCAGCACGAGGAGGC
GCTGTTCGGAATACCCAAGTATGGCGGGACCATCGCCGAGGTAACAAGAA
CAAGAACAAGAAACAACCCACCTATCGTGTGATACGGCATTGGCCCACCT
ATAATTACCCTTCGTATTGTTCCAAGTACAGCAGCAGTACAGCAGTACAA
ATCAGTTCCCGACACGTACACTGATGCCACGATCCGCACGCACCTGTCTG
ATATCATACCTCTTCAAATGTTTCTTGTTGTTGCAATCCGGTACATGTTA
CATCCGTTTACGCACGAAAGTGGAATATCGGGTTTCGGGAGTTGGTTCGG
GTTTGGTTTGGTTTGGTCTGGTTTGGTTTGATCCGGTTCGGTTCACTTCG
GTTCGATGTGGTGTGGTGTGGTTTGGGTGGGTTCGATGTGGCTCGGTTTA
TCCTGGTTATGTTAGGTTTGGTTGGGGGTCGGGGTTAGGTTAGGTTTGGT
TTGGGTTCAACATCTGAGTTTTGTACAATATGCTGCTGCTGTGCGTTGGG
ATTTCGCTGTGATGGAAAGAGGCGACGGTCTGTTGAATGACGGCGGTTGT
TGTTCCCGGCACCCTTGACTTGGTGCGTCAAACCGATAACCCGTTCCGTG
TAGCATACGAGGAAAAAAGAAGGGAAGAGGCTGTTGGTTGGATGGAACAC
GCCTCGGCTGAGTTGTTTGGGGTCACGTTGCGCATGAACGTGTGAAGTCA
AAACAGACACTGGTCCTACAGCGTATGCAGTTGTAGGTCGGGTTCTGCAT
GAAGGTATGTGGCAGAAAAAGGCGAGCGTATTTGTGAGACATGCCTACCG
GTGTGTATGAAACCCTATGCACTGGTGTAAATGCCATCGTTCGTCTCTTT
CCCCAGGTACCGGCCATTTGGCTTCGATTGCGGTACTACGCTACGCTACC
GTGTGCTACCACTTCCCCGTACGTTTTTTTTTCGAGGGGGGGAAGGATGG
AACAAAATATCGGGGTTAGGGTAGTGGAGAGGTGTGTGATACTACCGCCG
TACGAACAGCAGGTAAGACGGCATATATGACGGGACGGATTCATTTATTT
ATTGATGTGGATGGCGTTGTACGCACATACATACAACAAGATTCGTCTCG
GGAACATTGGTCTTGAGATCCGTTGACCTCTCGGAAACATTATTCTTGAG
GTCCGTTGACCTCCTGATGGTTCGACGGATATCTGGTTATTCTTTTTGGT
GGGCGACTGGCCGGACCTCCGGTCGCACCGTTGCCACTCCACCTGTGGAC
CCTCCTTGCTAAATCTACCGACGAAAACCTTGACCCTTCCTCCGGGCGTG
GGCTTAGGCTCACACGACCGCTCCTCGGGACCGACTACAGGCTGCGCCTC
CTGACGGTAGCCTAGGATCAATAGTGGCGTCGACAAACAGTTCACGAAGT
GAAAATTTTGGCATAAAATGCCCCGGGGTTAGGGCGGAAGGGTGCCACCG
CCGTACGGTACGCACGGCAGATAAGAAAAGACGCAATACGGGACGGATTT
GTCTCGTTGTTTTTTGTCGGTGAACGAAATGTCGGGGATAGGGTCTAGGA
AGGGCATGGTACCACCGTCGTACGTACATGCGGCAGATAAGACAACGTAT
CAACCATACATTATGGGACGGTTATATTTCAAGCATTGATGATCCCCCCC
CACCCGCACTTTTTTTTTCCCTCACGCCTCCTTATTCCTTCGTGATCTTG
AGTGCTTGTTCCCTCCTTTCTGCTCTCTCGCTCTCCCTCTCCCTCTCCCT
CTCGCGTGCAGAGGCTCATCCACGGTGGAGTGAAGAAGGGGGAGAAGGTG
ACGTGGAATCTGTGCACCAACGAGGACGCGGAGGCCGTGGCACCGCTCGT
TCCGGAGGATGCGCCGTTCATCCTCATGGTGGATCGGGGGGTCTGCACCT
TTGCAAGCAAGGTGTACTACGTGATGTCAATCATGCATTATCTATCAGAC
ATGCGATACATATCATACAATGTCCATAGATGATTTTGTAAATGTCCAGT
TGAAACCCGCAAATGTACTTGTATATATACGAAGTATATTTTTTTCGTCC
AAAGGTTTTTGACGCCGGATACGTTGATATGTTTTGCTGCGGTACACAAC
TGGAGGTTCACAGGGGCTCATCGATACTGCTGCACGTCGATAAACATATG
CGGGACAAATGCACTTGATAAGTGAGGTTTGGCCGTGTACGGGTCTGTTG
GACTGCTTGTTCGTTTTGTGGTGAACCTCAGATTTTTATATATGATAAAA
ATAAAATACAAGGCAACTGCCGTAATTTCTACCTCAAAGTTTTATGTACC
AGGATTTGTTTATTTTGATATTTTATCATTAATCTTGATTATGATCAACA
CGGCATTTCGTCGATTGCCGCTCGGGTTGCTCTGCCGCTCGGGTTGCTCT
GTCGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTG
CTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTG
CTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTT
GCTTGCTTGCTTGCTTGCTTGCTTTTGCTTGCTGCTTGCTTGCTTTGCTT
GCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGC
TTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTT
GCTTGCTTGCTTGCTTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTG
CTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTG
CTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTGCTTGCCTGCTTGCTTGCTTGCTTTCTCCTGCAGAAGCTGG
TTCATGCCGAATATTTTTCTTCATCTACCGAGATTCTTCATGAAATCAAA
CTCGACGATTGAATACACCGCATCTTGCCGTTGTATCTTGTCGCCTGCCT
CGCTTGCCGCTTTGTCGCTCCTCGCTTCTCGCTTGTCGCTTGTCCCTGTA
TCGCTCCCTTGCTCATTTCTCATTTCTTCATTTTTAATTAAATTAGGTTC
GAAGGGCCCAGCACCTGGGCGCGATCGGCGTGATCATCGCCGACAACACA
TGCCTTTGCCACGACGAGGAAAACAATAAATGTGACAGGGCGGAGGACGT
CGCTTGTGAGAAGGTCGAGCCGATCATGGCCGACGATGGCTCTGGGGCGG
ACATCACCATTCCGAGGTAGGTGGTGGCGGTGGTGGTGGTGGTGGTTGTG
GTGGCGGTGGTGACGATGACGAAGCGTGAGTGTGTCGAGAGAAAAACGAG
TCGTGGCGGGGCATGTATGTGCCTTTGATTTGTGTGTATTGCATGTGTTG
TTTGTTGTTGCTCACTCGCTGCCTTACTCACGACAGAGTCGCGTGTAGCG
TGTGTTGTTGCTGTTGTTGTTGTTGTTGTTGCTGCCCGTCTTTGCGTCGA
CAGACGTCGACGCAATTATCTCTCGCTCGCCTCCTCTCCTTTTCTACGTA
ACGAAGCCGTCGCTGGCGAAGAACCAATCGTCGCACGCAGGCCCGATGGG
ATGAGACTTGAACGCTCTCACTCACTTCTTTCTGCCACTGCTATGATGTG
CCACACAAGCATGCATCACGTATCCTACTAGGCTGCTTACTGCAGTCGGT
TACCGTTGGTTCTGTCTTGAATTGTCATCATTTCTCCCCCGCTACCAGAC
GATTCCCTCACAGCTCCCCCCCCCCCCCAACCCCCAACCCCCAACCCCCC
ACCTCAACTAAAGCTTTCTGATGAAGAAGGCGGATGCGGAAAACGTGAAG
ACTCGCTTGGCGGACGGTATTACCGTGCAGGCTGAGATGACCTGGTCGCT
ACCGGCTCCGGACGATCGGGTGGAGTGGGAGTTGTGGACGAGCGCCATGG
ACACGTCTGCTGCGGTGCGAATGTTTTTTTTTTTTTTGCGTGGTTGCTGT
TGTTGCTGATATTTGTGATGTGAAGGCTGTTCTTGTTCTTGTTCTTGTTG
TTGTTCTTGTTGTTCTTGTTGTGTTCGTTTCGGAGTACTGCCGTAGCACT
GCACTGCTGTTGTGTGGTGCACATTTTCCAGACCTCTCTTTGCACGTGGC
GTCCTCCACAACAGAGTACGGCCGTGAAAACAAAAACAACAAAAGTAATC
ACACCCACCGAAACGTTATTTATGTTTCAAAGCGCACTCTCTGGTAACCG
TTTTCGTCGTTCCACTGGAAAAGTCGGAATACAGTACGTGCAGGTAGTAC
TGCTGTAGAGTACTGCACAGACAGCAGTATTGGTATTGGGGTATCACGAA
CGATGAATGCGTATTTCCGTTTTTTTTTCATTTCTTTTGTTTGGTTGAAC
GCGTTTTTTCTCAGTTCTCTTGATTCTTGTTGTTTGGGTTGTTTGGTCTC
TCATCTGTCCATCCCTCCCCCACCCTTCCCTCAAACAATCGTGGACGATG
CAAACAAACGCACAAAAATATAGCCATTCAAGCGGGACTTCAAGGAGGTA
GTGAAGACGCTTGGAAAGAGCGCGCAGTTCACCCCGTTCTACGTGGTGTA
CAACGGCGGCTCTTATGGCTGCACGGGGGTGAGTGGATGGAGTGGATGGA
GTGGGCGGAGGAGGAAGGGCGGGAGGAGGAGGAAGAGGAGGAGGAGGAAA
AAGAAGAAGAGAAGAGCACGTAAATTGGCGTTGTCGTCTCGCAGGTTCTC
CTCACTTCCTATGTCGTGCAGGAACCGGTACATTATCGTGTAAGACATTT
ATGGGGTTGTGTCCGTTAGTTGTTACCTTGTTTGTTTTTTTTATCTTTTT
TTGGGAGATGGAAATACTGCTGCTTTTTTGTGTGATGCATGTCTTGCTCA
TGTGTTGGTGTGAGACGCGATAAAATGTTTGAGAGTATTTGACTGCTGTA
GCGGGAATGAATTTCGCACGCATACGGGGGGGGGCAACCCGGCAACCCGG
CGGTCGATGACAGACGAAAGCGTTTTCAGTTTTTCTCGACTTCAACCGAC
GAGGCCGATTATTTGGTTGATTGATTCGTGGGTGTATGCATCGTGTGTTC
TTTGGCCAGCCAACCGGCTGGATACTGCTGCAGCGCTTGGTCTTTCCTTT
TGCCGCTGCTGACGAAATCAAAAAGAAAAAAGGGTACTTGTATGAACAAA
CAGCCGTACCAGGTGTTACACAAACAAGGAGAACATCGGACTTATGTGTG
TGTTGTCATCCCTTTAATTGGACGCCACACTACTCCTTTCGGGTATGTAG
ACGCTCCAACCGGGGTCACACAGTAGGAAGTTAACACAGGAGATTTTTTT
TTTTTCTCCACTACCCACTGCGGTGCTTGCCTTAATTTTTCATCGCGAGA
AAGGGTACAGCCATCCCTTTCCCTCGTCGACACTTCGAATTTGATTTACT
CACGAATTGATCGCTTCCACCCCGCATGACATGAGAAAAATCCCAGATCG
TGTTACTGCACCGGGATTCGAACTCAAGCGTGAGTGTCAAAAGATTTGGA
GGCTAATCAACTGAACCACCGGCATTCATTAAATACGTGTAGAATAATGC
AGAGCCCGCAGCGAGTTGACGTCTCGTGTGTAGGCCTGTGACACGGTACC
AAACGCGTCTTTGACGAACGAACTGTGCGTTCTGCACACACACCCACACC
GACCTGTGCCAACCCAACCACACCGGACCCAAACTCATGACCCCCCGACC
CGCGCACCCACCCCCCACCCCCTCACCAACAACGGCGGCGGCGGCGGCGA
CGGCAACAGGGACGAACTTCGAACTGTGGGCAGCTGTGCACCAACAACGG
GCGGTATTGCATGACGGATCCAGACTTCGACACCCAAGCGGGGGTGTCCG
GGGGTGATGTGGTACAGGAAACTTTGAGGCAAAAGTGCGTGTGGAACCTC
TACGGTGGAAATAACGCTCCCTTCGCCGATCAGGTGAAGATAACGGCGGG
AGCGGGGGGGGGCACGGGGGGAAATGGGGGGGGTGGGGTTGTGCTTGAAG
TCATTCGACCACAGACCATGATAGTATCCCTTCCTTCCTTCCTTACGAGT
CATCACAGACATCTGGGCGCTCTCGACGTGGTTGCTAAATCTTATACTGG
GAGGCGGAATGAGGGGAGGGGGGAGGTGTTCGCTTGGTAGTGGTGGCGGT
GGTGGTGGCGGTGGTGGCGGTGGTGGCGGTGGTGGCGTCGGTTGTCGGTT
TGGTGTACTGGTTGGTGGTGCGCAAGAGGAATGTGCTCGTTGCACGTTCA
CACCGGGTATATATATATATATCTGTACTCTGTTTGGTGAGATTTGGGTT
TTACCCGATCGCTTTGCACGTTTGTATGGAATGGTTTGTACGTATACACG
CCTCCCCGCTCCGAGTGGGCGTTAAATATCATCCCATGATCATTTTCTGT
GCTTGGCATTCGGAAAATTCTCCGCTTCCGCCCACCCACCCGCTCACCCA
CCCCACACACCCACCCAACCCATACACACAGACATACAAGCACTTTTGAC
CCGCGGACTTGCTGCTGCTTTTTTCTTGCGTGCGCTCCTGTTGCCGATAC
TTTCGGGTGATAAAACATACGACGTCACACCCAGGGGATCGGAGAGAAGT
GGTGGTCGTACGTGAGCGAGTTTTTCTCTAGGTGTTCGGTCGCGGGCAAC
AGGTTCAACGACGAGGATTGCGTGGCAGAGGCCATGAGAGCCGCAGGTGA
GAATCGTTCGGTATCTCGCTCGTGTGTGTGTGTGTGTGTGCGTGTTTTTT
TTTTTTTCTGCCCTTCTCTCGCTGGGGTATGCTGTTACATCAAGATGCGA
ACTACTGTGTCGTTTGAATGCTACGTGTATTTGCGCGTCGTCGTCGTCGT
TCTGGTACGTACACGTATCATACCATCGTACGAACATCGCAACTTTAAAA
CGCACGACCAGACGTGGACAAGTCTGCGGTGGACGCGTGCATGAGCGCCT
CTGGCGGCACAGAGGGGGACAACGCGAACACAATTCTCGAGGAGGAACTG
GCGGAAAAGGTGAGGTCATCACCAGGCACTTTCTCACGTCGCACGTATCA
TATGATGTAATGCTTCGACGTACTTCGAAGTATTACTTTACAGCGGTTTC
ATTGTCAAACTTCGTACTTCGTATTACCGTACCCGTGCGTCATTACCGTG
CCGTACAGTAACGGTACAGTACAGCACGGTTCAGTACCGCACTGTTACGG
GCCGTACCGTACCGGGCCTTACCGTACCGGGCCTTACCGTACCGGGCCTT
ACCGTACCATACCGTACCGAAAGGCTCTCATTACCGCATGTCATACGCCG
CAGTTGGTAAGAAAGATATTATTTGACGAAGGCAGGCTCAATTTGTCAGC
AAACAAGAACAGAAAAATGTGAAATCTTGGACTTTGTGAAATTTTGAAAT
TTTGGCTTTGAATGATCGGGCACGATATGACATGGTATGGTGGGGTATGG
CATGGCGTGGTACGGTATGGTATGGCATGGCGTGGTATGGTATGGCATGA
TATGGTATGGTGTGGTATGGCATTGTCTGGTATGGTATGGCATGGTATGG
CATGGCATGGTATGGAATGGTATGGCATGGTATGGTAAGGTATAGTATGG
CATGGCATGGTTGCCCTAAAGTTGACGTGCGGGATACTCTACTTGCGAAG
CCGAGAGACGTGGGCAGACTCGGCCGAAATACGAAACTGCATCAGCAAGG
CTCTCGTTGCTGGGTGTCCGGTACTCCGGATTATTTTTTCTGTCTTTGCT
AGAGCTTTCTGTTTGCTCATGCATTCCGGTAGGTTTCTGAGATTTGTTGT
GTGCGCACGGCTTGCTGTAATTCTTTGTTTTTTTAGAAGGAGCATTCATT
TTTCTTTTCTTTGTTGCACGTGTGTTTCCCTCACGCTGCCGTTTTGATAT
AAACCGAACAAAAATGATACATCGTGCGCATTTTCACGTATGGTATGTGT
GTATACCTGGCACACTAACGTTTGAAAAATAAAGGGAAAGAAGTCGATCG
TGATCGTGCCCACGGTTTTCGTCAACAACGTGGCGGAGCGCGGAGGCATA
AGCACGGCCGCCGTTCTGAGTACCATCTGCGCCGGCTACAAGAGCGGCAC
GGAGCCGGAGGTGCGTGTGTCTGTCTGACTGTCTGTCTGTCTGTCTGTCT
GTCTGTCTGTTTGTTTACATGTCTGTCTATCTGTCTTCCCGCCTGTTTGT
GTCTCTATCTGTCTGTGTCTGTCTGCCTGTCTGTCTGTCTGTCTGTCTGT
TTGTGTCTCTGTCTGTCCATCTGTATTCGCGTTTTGTGTGTTCGAGCGCA
GGGGAGAGAATAATCGTTCTTTGACGGACTCCGTACTACTTCGTGCACAT
ACTCGGAGTATGTGGGAAGACACATGGGGTTGCTCTGTACACACGTGTGC
ACCTTTATTTCGTGCTTGAAGTACACTCATGTGGTGCTTGCTTTTGTCTC
TCTCTCTCTCTGTCTCATCTCTCTCTCTATCTACGCGCTTCGACCGCAGG
TGTGCCGGTGCGCCGGGCAGCCCAGCAGCGAACTCGTGACCGCTTGCATG
GAAAACCGGACCCCCGCGGGCGACGGCGGGGGCATGTCGATGAGCAGCAC
CCTTTTCCTTTTGATGATGGTGGTGGGCGCCATGACGGCGGGCGGGTTCG
TCCACTACAAGCGCACGCAGATGCAGATGCGAGACCAGGTATGTGTGTGT
GTGTATGTGTGAAATGTGTGTACGTGTGTGTCAAAGGATCCACATACATA
CGTACGTATCGGCGATGATGCCACCGCTGATTTTTCCCTCCTATGATACA
GCAGCAGTCAACGTTGTTTTCCCTTCTCACACTTGGTCCATTTTGTGTTT
TATTTAATGCTGCAAACCCATCCCACCCACCCACCCAACTAAGCCTCTCA
TATGTACTTCGTATCACATTGTTTAGGTTCGGGGAAGCCTGGAAACTGGT
GTGTCTTCAAACGCTATGATGCTATCCATTCACCCACACAGCAACCAACC
CACCCACCCACCCACCCAAATCACTCATCCACACTTCGTCCACTCATCTA
AAATATAGGTCCGGGGTGTGCCGGAAAAAGGTTGTGACTCAACGCTATCA
CCGTACGATATCCATTTACCCCAACCGCCAACACACCCATCCACCCACTC
ACTCACTCACTCACTCACTCACTCATCCACACGCCATCCACCACCCATAT
TATGTACAGCATGGGTTCGGGGTACGCTGGAAAAAGTTGTGATTCTTTGT
ATTGCTGCCAAGTAATATCCTTTCATCCAACCAACATACCCACCCACTCA
CCCACGCATCTACACTTCACCCACCCATCTATGACAGTTATGCCGGTAAT
ACACGCGATATCCAGGAAAATGCGTCCTAACACTTTTATCGTATGGTATC
CATTCACCCCCTCACCCCCTCACCCCCCCCAGCATCAACCCACCCACCCA
AATCACTCATCCACACTTTGTCCACCCATCTAAAATATAGGTCCGGGGTG
TGTCGGAAAGAGTTGTGTATCAACACTATGATCGTATGGTACCGATTCAC
CCTCCCACCTACCCACCCACTCACTCATCTACACTTCATCCACCACCCAT
CTGACGCAATGTATGTAGGTCCGGGGCATCCTGGCAGAGTACATGCCCCT
GGAGGACATCGATGCACCCGGCTCTTCGGCCAGGGTGCCGTTCATGGCGC
CGAACTCGGGCAACACGTACGCGGTTAGCCGCACGAAGGAGTCGCAGCTG
GTGTAGTTTTCGTGTTTTGTGTATTGTACTACTGTAGTACATCGGGAGAA
ACATACAGGCAGTGTGGGTTTGGTATGATTGATTGATTGCTTGATTGATT
CATTCATTGATTCATTCATTCATTTATTCATTCATTGGTGTGTCTGTGAT
GTGCGCGGACCTTTTTTTTTTCCTTCTTGGGTTAGAGAAGTTAGTTGTGT
CGCAGTATCTGGTGTGGGCTGCCGCTTCTGCTGCTTGATGCTGCTGCTGC
TACTGCTGGATGCAGCCCATCAAGGCACGGGAAGAATAGTTGCTTTGCAA
GAAGGGGCATCGTGTGGGCGATTGAGAAGGGGGTGCGGAGAGGTTGCCGT
GTGTAAGGTACCAGTCGTTTTGTACTTGAAAGTATTTAGCGGTGGAGCTC
GCTGCTGTCCTCTGGGTTTCGTTTCCATGTCTTCTGCAGTTTTTTTTCTG
GTATGATATGATGCAGACGATGTGCGGAGGACGTACAGCAGTGCATATAT
AGAAATGATGTGAATGATGTTGTATAGCTCTCGATGTTTGGTTTTTGTAC
GTTTTGGTCGAGTTCCGCCGGTTGCGCTTGCCGCCGTTTTGTTTTGCGCT
GTTGACTCTCAACACCTAAAAGTTCTCTGTGCCATCCTCTCTTCTTTGCT
ACAGCAGTATGATATCGCACAACACATCTTCAGAGATTTTTGCTACTCTT
TCGATGTTGTGTGTTTTGTTTTGGAACTCTTGAGTCTGAAGCAGCAGTTG
ATGGCTCGATGTAGCGGCATGTATTCGCGAGAGGCCGCTTTGCCGCTGTT
CAAGGCAGGATTGAAAGGGAAAATGTGCAGTTCCCTGATTGGTCAAAACG
CCCTGCAGCGAAATTACAAATCGAGACGATAGAAGACCCTTGGATGGCGG
TTGGTGGTGTTGTTTCGTAAAATACGACGTGTAGAACAGTAAAAACGTCA
AATCGTGGTTGTGCACGAAAAACCTTCGAGCAAAACTGAATGGATGTTGT
ATGATACGATATATGTGTCGAAACCACAATAACAGTAGTAGTTCTCGCGA
ACACATCGGACATTCACACGAACTCAGTTTTTCCCAACAAGAGAGTCATG
CTCCCTCCCAGCACGTGAGACTGTCTGTGTCGTTGAGCGTCATCAACTTA
TTCTTATCAGCAGAGTCAACTGCTATTGCATGCAGTAGATGGGTTCGTTC
GTTGTTCCGTACTCGTTTTGATCCGATTGACTCATTTTCTTATTAGACCA
TCAATCAATCAGTGCGTTGTCG

Coding sequence (CDS) from alignment at P-littoralis_Contig101:9334..26855+

>mRNA_P-littoralis_Contig101.4.2 ID=mRNA_P-littoralis_Contig101.4.2|Name=mRNA_P-littoralis_Contig101.4.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1599bp|location=Sequence derived from alignment at P-littoralis_Contig101:9334..26855+ (Pylaiella littoralis U1_48)
ATGAAATTCGCTGCGGCTGGCGGCGGAGCGCTGCTGCTTTCAGCGATTGG
ATGGAGAGAAACAGCCGCTGAGAGCATCGCGTCCCGTCTTCAGATCCCCA
TCCCGACGAGTTTGGTCAAGCCCGAAGGCTACCAGCACGAGGAGGCGCTG
TTCGGAATACCCAAGTATGGCGGGACCATCGCCGAGAGGCTCATCCACGG
TGGAGTGAAGAAGGGGGAGAAGGTGACGTGGAATCTGTGCACCAACGAGG
ACGCGGAGGCCGTGGCACCGCTCGTTCCGGAGGATGCGCCGTTCATCCTC
ATGGTGGATCGGGGGGTCTGCACCTTTGCAAGCAAGGTTCGAAGGGCCCA
GCACCTGGGCGCGATCGGCGTGATCATCGCCGACAACACATGCCTTTGCC
ACGACGAGGAAAACAATAAATGTGACAGGGCGGAGGACGTCGCTTGTGAG
AAGGTCGAGCCGATCATGGCCGACGATGGCTCTGGGGCGGACATCACCAT
TCCGAGCTTTCTGATGAAGAAGGCGGATGCGGAAAACGTGAAGACTCGCT
TGGCGGACGGTATTACCGTGCAGGCTGAGATGACCTGGTCGCTACCGGCT
CCGGACGATCGGGTGGAGTGGGAGTTGTGGACGAGCGCCATGGACACGTC
TGCTGCGCCATTCAAGCGGGACTTCAAGGAGGTAGTGAAGACGCTTGGAA
AGAGCGCGCAGTTCACCCCGTTCTACGTGGTGTACAACGGCGGCTCTTAT
GGCTGCACGGGGGGACGAACTTCGAACTGTGGGCAGCTGTGCACCAACAA
CGGGCGGTATTGCATGACGGATCCAGACTTCGACACCCAAGCGGGGGTGT
CCGGGGGTGATGTGGTACAGGAAACTTTGAGGCAAAAGTGCGTGTGGAAC
CTCTACGGTGGAAATAACGCTCCCTTCGCCGATCAGGGGATCGGAGAGAA
GTGGTGGTCGTACGTGAGCGAGTTTTTCTCTAGGTGTTCGGTCGCGGGCA
ACAGGTTCAACGACGAGGATTGCGTGGCAGAGGCCATGAGAGCCGCAGAC
GTGGACAAGTCTGCGGTGGACGCGTGCATGAGCGCCTCTGGCGGCACAGA
GGGGGACAACGCGAACACAATTCTCGAGGAGGAACTGGCGGAAAAGGGAA
AGAAGTCGATCGTGATCGTGCCCACGGTTTTCGTCAACAACGTGGCGGAG
CGCGGAGGCATAAGCACGGCCGCCGTTCTGAGTACCATCTGCGCCGGCTA
CAAGAGCGGCACGGAGCCGGAGGTGTGCCGGTGCGCCGGGCAGCCCAGCA
GCGAACTCGTGACCGCTTGCATGGAAAACCGGACCCCCGCGGGCGACGGC
GGGGGCATGTCGATGAGCAGCACCCTTTTCCTTTTGATGATGGTGGTGGG
CGCCATGACGGCGGGCGGGTTCGTCCACTACAAGCGCACGCAGATGCAGA
TGCGAGACCAGGTCCGGGGCATCCTGGCAGAGTACATGCCCCTGGAGGAC
ATCGATGCACCCGGCTCTTCGGCCAGGGTGCCGTTCATGGCGCCGAACTC
GGGCAACACGTACGCGGTTAGCCGCACGAAGGAGTCGCAGCTGGTGTAG