mRNA_P-littoralis_Contig733.23.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig733.23.2
Unique Name	mRNA_P-littoralis_Contig733.23.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A6H5JLR1_9PHAE (Aa_trans domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JLR1_9PHAE)

HSP 1 Score: 788 bits (2035), Expect = 1.310e-275
Identity = 427/516 (82.75%), Postives = 460/516 (89.15%), Query Frame = 3

Query:   78 MKAHAGVLRVVQLFVLLLAVQLDAFALSSAGRVNGGGGQ-SSQAASLTG--RKAAVDSSWRAAHPGIYPEPRPKVPLTVQTMSGGGADGQAAGDEADKAGMSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNPVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVA--EKREMSLNGGIVAVGVAFGILGAAVSVLETFTN 1610
            M+  A VLR+VQL VLLLA+QLDAFAL+ AGR   GGGQ S+QA SL G  + A V SS R+A  G+ PE R KVPLTVQ MSGGG  GQAA +E DK+GMSASVFNLAKNILGAGMLSLP+GVAAFSDS+KAI+PA+  IA LG VSAYTFVLIGRSCA+T AESYEQSWARTVGQ++AW+PAGACVATCFAGCLAFTIIIGDSF+ALAKTFGAPALVA RSNIIMA+SA VLLPLSLLK+LKSLGFTSMLGTSGLVYTA MM IRFFDGSYAAGGKFHAL+PA GAPVF  KGTNP+CFLV++SMLSTAYEAHFNAPLFYRELK+NT+PRYSKMV TSF ASV TM AVTAFGFLTFGG+SSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREM G+KPGET+NRTRWTVGLLA VTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLM K KDK VAAA A  +KREMSLN GIVA GVA G+LG  +SVLETFTN
Sbjct:    1 MRKDASVLRLVQLLVLLLAIQLDAFALTPAGRSAHGGGQPSNQATSLNGPGKLAGVGSSLRSAQ-GLSPESRAKVPLTVQRMSGGGEGGQAASEEGDKSGMSASVFNLAKNILGAGMLSLPNGVAAFSDSKKAIIPASLIIAVLGAVSAYTFVLIGRSCAETNAESYEQSWARTVGQRSAWVPAGACVATCFAGCLAFTIIIGDSFSALAKTFGAPALVAKRSNIIMAVSATVLLPLSLLKNLKSLGFTSMLGTSGLVYTAVMMAIRFFDGSYAAGGKFHALLPAAGAPVFDAKGTNPICFLVLVSMLSTAYEAHFNAPLFYRELKDNTVPRYSKMVSTSFLASVATMTAVTAFGFLTFGGASSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMGGAKPGETRNRTRWTVGLLAGVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMRKFKDKAVAAAAAAGQKREMSLNAGIVAAGVAMGVLGCVISVLETFTN 515

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A6S9E4U8_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6S9E4U8_HETAK)

HSP 1 Score: 380 bits (977), Expect = 9.300e-118
Identity = 206/417 (49.40%), Postives = 283/417 (67.87%), Query Frame = 3

Query:  375 ASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTN--PVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSVLETFTNFFG 1619
            AS+FNL K+I+GAG+L+LP GVAAFSD+  A+  AA    A+GL+SAY F LIGR CA   A++Y  +WA+++  KTAWLPA AC      GC+ ++IIIGD+ +ALA+TFG PA++A R+NI++ ++  V+ PL LLK+LKSL FTS+LG  G VYT   M IR  DGSY  GG+F   +PA   P F VKG +   +  L+++SMLSTA+ AH+NAP FY +LK  ++PRY+K+V+ SF  +++  +++ AFGFLTFGG+S G++LNNY+  D L T+ARV +  S++F YPL FVGLRDG+  + G    ++K     +VGLL   T ASL L +LGFV+SFGGAL GS ++Y+FP LM    + +K    +       +RE  LN  I  +GV  G +GA VSVL+ FT   G
Sbjct:   80 ASIFNLVKSIVGAGVLALPGGVAAFSDAPGAMAAAAGLTGAMGLLSAYCFSLIGRVCAAYDAKTYFDAWAKSISPKTAWLPAFACNFKTLIGCILYSIIIGDTASALAQTFGLPAVLAARTNILLLLTGGVIFPLCLLKNLKSLQFTSLLGIGGTVYTGVAMAIRLLDGSYRTGGRFAGSIPA--QPSFNVKGGSMAQLSSLILVSMLSTAFIAHYNAPKFYHDLKEKSVPRYNKVVYASFACAILAFVSINAFGFLTFGGASLGFVLNNYSKADTLITLARVGIFCSILFGYPLVFVGLRDGMLSLAGISNPDSKTFFASSVGLLGFATLASLVLNNLGFVSSFGGALFGSMVIYIFPTLMMNAAIKDKTAKGEWEMTPQLQREQLLNSFICGLGVLLGGVGATVSVLKNFTKVLG 494

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: D7FJZ0_ECTSI (Aa_trans domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FJZ0_ECTSI)

HSP 1 Score: 365 bits (936), Expect = 5.420e-112
Identity = 216/469 (46.06%), Postives = 302/469 (64.39%), Query Frame = 3

Query:  213 LTGRKAAVDSSWRAAHPGIYPEPRPKVPLTVQTMSGGGADGQAAGDEADKAGMSA--SVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNPVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRG-SKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIV--AVGVAFGILGAAVSVLETF 1604
            L  R+  V S  RAA       PR ++P  +     G   GQA   E+  +G++   S+FNL KN++GAG+L++P GV AFS SR A+VP  A I ALG +S Y F LIGR CA T A SY  +W++T+G+KT+WLP  +C A  F  C+A++IIIGD FA +   FGAP ++A R+NI+  +SA VLLPL LLK L +L +TS++G  G VYTAA+MGIR+FD SY  GG+F A +     PVF   G      L+++SMLSTA+ AHFNAP FY ELK+ ++PR++ +V +SF A++  ++ +T F +LTFGG+S  +ILNN+AT+DRLAT  R+A+ASS+V  YPL F+G + G     G S P E + +   T+ LL   TA  + LTDLGFV SFGGA++GS +V++FP +M++       KD K    +   R   + G  V  A+GVA  +LG  +S+ ++F
Sbjct:   17 LEKRQGWVSSRVRAAS-SQGQRPRFRIPDYLHL---GDNPGQAPQAESSSSGVTVGRSIFNLIKNVVGAGILAIPGGVTAFSQSRAAVVPTVAMIVALGGMSGYCFSLIGRVCAATGASSYGDAWSKTIGEKTSWLPTSSCTAKTFFACMAYSIIIGDVFADVLAAFGAPGVLAARTNILCLVSALVLLPLCLLKDLSALSYTSIMGVLGTVYTAAVMGIRYFDNSYVEGGRFFAGLAKDARPVFSGTGAMNSQALILVSMLSTAFVAHFNAPKFYAELKDKSVPRFNTVVGSSFAAAIGLVVIMTLFPYLTFGGASKSFILNNFATSDRLATSCRLAIASSIVGGYPLVFMGAKTGALAAVGISNPTENQRKVGTTL-LLGFFTAIGVLLTDLGFVVSFGGAVLGSALVFIFPTMMWIA---QSKKDAKWGKPLKGWRRAEIMGNYVISALGVALAVLGGGLSIKKSF 477

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A836CMH1_9STRA (Transmembrane amino acid transporter protein-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CMH1_9STRA)

HSP 1 Score: 353 bits (905), Expect = 2.540e-108
Identity = 195/378 (51.59%), Postives = 268/378 (70.90%), Query Frame = 3

Query:  360 KAGMSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKF-HALMPAGGAPVF-GVKGTNPVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRG-SKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLK 1484
            KA +  S+FNL KNI+G+G+L+LP GVAAFS +R A+VPA+  I  LGL+S Y F LIGR+CA T A SY  +WA TV  KT W+P  + VA  F  CL+++IIIGD+FAALA+TF APA +A R  I+ AIS   LLPL L+  L  L +TS++G +G +YTA +M +R+FDGSYA GG+F +A   A   P+F G    NP+  L+++SMLST++ AH+NAP FY ELK+ T+P+Y+ +V TSF AS++  + +T F FLTFGG SSG ILNNYA  D LAT+ R+A+ +S+VF YPL F+  R+G+    G +KP +T+ R   TV +L+A+T  ++ L +LGFV +FGGAL+GS I+YVFPA+M++      +K
Sbjct:   26 KAEVGGSIFNLVKNIVGSGILALPGGVAAFSHARGAVVPASVLILLLGLLSGYCFSLIGRACAATNARSYGDAWAATVEPKTVWMPLSSVVAKTFFTCLSYSIIIGDTFAALAQTFAAPAWLAYRPTILSAISGVFLLPLCLMTDLSPLRYTSIVGIAGTLYTAGVMALRYFDGSYALGGRFFNAAASAAKGPLFTGSAALNPLS-LILVSMLSTSFIAHYNAPKFYHELKDKTVPKYNTVVGTSFGASILLFVVMTVFPFLTFGGHSSGLILNNYANGDNLATMCRLAIGASIVFGYPLTFITTREGVFSALGVTKPTKTQIRVA-TVAILSALTGCAMVLRNLGFVVAFGGALLGSAIIYVFPAVMWVGKCKGDMK 401

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A4D9CTY7_9STRA (Aa_trans domain-containing protein n=3 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9CTY7_9STRA)

HSP 1 Score: 354 bits (909), Expect = 1.380e-107
Identity = 201/428 (46.96%), Postives = 279/428 (65.19%), Query Frame = 3

Query:  333 GQAAGDEADKAGMSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAAL-AKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNPVC---FLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSVLETF 1604
            G  +GD    + +S + FNL KNILGAG+LSLPSGV AFS +  A+VPA A    +G +SAY F LI R CA  K E+Y ++W ++VG+KTAW+   AC    F  C AF+III DSF++L   T G PAL+A R+N+I+ +++ VLLPL +LKS   L   S+LG  G V+T A++ +R  DGSYA GG+FH  + A   P      ++P+      V++SMLST++ AH+NAP FY EL+N +IP+ +K+V  SF         +   G+LTFGG+S G ILNNYA  D LA + R+A+ +S+VF YPL FVG+RDG+  + G K    + +T  T+ LLA V+  ++ L D+GFV S GGAL+GS I+Y+FPA++F+K +  K+   +V    A KRE+ LN GI A+GV   I+GA VSVL+ F
Sbjct:   84 GTESGDGNKGSSVSTATFNLIKNILGAGVLSLPSGVGAFSSNPMALVPAVALTMGMGSLSAYCFTLIARVCALNKVETYGEAWEKSVGKKTAWMVPAACTFKTFCACTAFSIIIADSFSSLFGATPGFPALLAQRTNVIVWMTSLVLLPLCMLKSFAPLAPFSLLGILGTVFTGAVIALRLLDGSYAPGGQFHEAIAASLRPSLLSGSSSPLLSPMVFVLVSMLSTSFIAHYNAPKFYTELENRSIPKLNKVVKNSFNFCTAAFAFIMGCGYLTFGGASQGLILNNYAEQDVLAKMCRLAIGASIVFGYPLTFVGIRDGVLSLLGRKAPSARTQTVTTLVLLAVVSTLAVFLRDVGFVVSLGGALLGSCIIYIFPAIIFIKTMAQKVAKGEVVETPAVKREVLLNKGITALGVLLAIIGATVSVLKAF 511

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A7S2VHC0_9STRA (Hypothetical protein n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2VHC0_9STRA)

HSP 1 Score: 329 bits (844), Expect = 1.110e-99
Identity = 187/407 (45.95%), Postives = 262/407 (64.37%), Query Frame = 3

Query:  390 LAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNPVCF---LVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRW---TVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSV 1592
            + K I+G G+LSLP+G+AAF D+  A +PAA  IA++G ++AY F L+GR CA T A SY+ +W  TVG  TAW+P  +CV   F   LA+++++GD+F+AL +TFG      +R   ++ ++  VL+PL  LK L SL   S++G +G++YTA  M +RFFDGSYA GGK  A +     P  G KG + V      ++I MLSTAY AHFNAP FY EL+NNTI R++  V TSF  S++  I + A GF TFGG+S+G ILNNY+T D L   +RVAVA +LVF+YPL FVG RDG  EM    P E +   +    T  +LA+VTA ++K+TDL F+ SFGGA +G+ ++YV+PA+MF   + N   D    A  A+K E+ L     A+G+  G +G  +++
Sbjct:    1 MVKAIVGVGVLSLPAGIAAFGDAPSASIPAAILIASIGSIAAYNFSLLGRLCAMTGATSYKSAWEETVGASTAWIPGSSCVIKTFFAVLAYSMVLGDTFSALFETFGFNV---SREKALIGLTVTVLMPLCKLKDLSSLAPFSLVGIAGMLYTALAMAVRFFDGSYAEGGKLAADVAESLRPALGTKGASAVFSSNAFILICMLSTAYMAHFNAPKFYLELENNTIARWNTCVATSFSISILFFIGIAAMGFSTFGGASNGLILNNYSTKDSLMGFSRVAVAFALVFTYPLAFVGCRDGTLEMM-QVPKEERTDAKLNNLTYIILASVTAVAMKITDLSFIMSFGGATLGNALIYVYPAIMFRSAVKNLGDD----ATAAQKLEVKLAMAFAALGIGMGAIGTKMAL 399

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A7S2JRD2_9STRA (Hypothetical protein (Fragment) n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2JRD2_9STRA)

HSP 1 Score: 326 bits (835), Expect = 3.860e-97
Identity = 192/412 (46.60%), Postives = 264/412 (64.08%), Query Frame = 3

Query:  381 VFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSY-AAGGKFHALMPAGGAPVFGVKGT----NPVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRW---TVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSV 1592
            +FNL KNI+GAG+LSLP+G+A+F ++  AI+PA A IA +G  S Y F  IGR CA   A SY  +W++TVG+ T+W+PA  C     +  LA+++I+ D+F AL  T G      +R  +++  + +VLLPL LLK+L SL   S+LG  G+ YT   M IR+F G+Y AAGGKF A +     P FG  G     +P  F ++ISMLSTAY AHFNAP FY ELKNNTI RY+K+V TSF  S++T   + + GFLTFG +++G ILNNY+  D L   +RVAVA S+VFSYPL FVG RDG+ ++    P E +   +    TV LL+ VT  + K+ DL F+ SF GA +G+ ++YVFPA+MF +  + KL DK  AA  AE   +    GI  +G+  G +GA +++
Sbjct:   93 IFNLVKNIVGAGVLSLPAGIASFGNAPSAIIPATALIAVIGAASGYCFSAIGRVCAMENATSYRDAWSKTVGESTSWIPAAICTFKTSSANLAYSMILADTFKALLSTVGVNL---SRDVVLVGTTVSVLLPLCLLKNLASLAPFSLLGIVGMAYTTLAMAIRYFGGAYSAAGGKFVADVAPALQPSFGSTGAAGVLDPKAF-ILISMLSTAYMAHFNAPKFYLELKNNTIERYNKVVSTSFLLSILTFAGIASLGFLTFGANANGLILNNYSNKDTLMAFSRVAVALSIVFSYPLAFVGFRDGVIDLL-QIPSEKRTNAKLNQLTVVLLSIVTVLASKVKDLSFLLSFAGATLGNALIYVFPAMMF-RAAVKKLGDKATAAQKAEATGIM---GIAGMGIGMGFVGAKMAI 495

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: B8C604_THAPS (Aa_trans domain-containing protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8C604_THAPS)

HSP 1 Score: 322 bits (826), Expect = 5.170e-96
Identity = 190/415 (45.78%), Postives = 263/415 (63.37%), Query Frame = 3

Query:  369 MSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGA-PVFGVKGTNPVCF---LVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRW---TVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSV 1592
            MS  +FN+ K ++G G+LSLP+G+AAF D+  A +PA+  IA +G ++AY F LIGR CA T A SY  +W ++VG  TAW+PA +CV   F   LA+++++GD+F+AL  T G   +  +R   ++ ++  VLLPL LLK+L SL   S+ G +G++YTA  M IR+FDGSY+      AL  A    P  G KG + V      ++I MLSTAY AHFNAP FY ELK+NTI R++ +V TSF   +   I + A GF TFGG+S+G ILNNY+T D L   +RVAVA SLVF+YPL FVG RDGI EM    P E +   +    T  +L  VTA +LK+TDL F+ SFGGA +G+ ++YV+PA+MF   + N   D    A  A+K E+ L     A+G+  G +G  +++
Sbjct:   72 MSNEMFNMVKAVVGVGVLSLPAGIAAFGDAPSAAIPASILIATIGAIAAYNFSLIGRLCAITGATSYRGAWEKSVGPSTAWIPAVSCVVKTFFAILAYSMVLGDTFSALFTTIG---MNVSRQTSLIGLTLVVLLPLCLLKNLSSLAPFSLAGIAGMLYTAVAMAIRYFDGSYSDPTSGFALDVAESLRPAIGTKGASAVFSSNAFILICMLSTAYMAHFNAPKFYLELKDNTIARWNTVVATSFSLGIAFFIGIAAMGFATFGGASNGLILNNYSTKDTLMGFSRVAVAFSLVFTYPLAFVGCRDGILEML-QVPKEERTDAKLNNLTYAILGFVTAVALKITDLSFIMSFGGATLGNALIYVYPAIMFRSAVKNMGDD----ATTAQKLEVYLATTFAALGIGMGSVGTKMAL 478

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: A0A1E7FDI6_9STRA (Aa_trans-domain-containing protein (Fragment) n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FDI6_9STRA)

HSP 1 Score: 320 bits (819), Expect = 5.630e-96
Identity = 181/407 (44.47%), Postives = 259/407 (63.64%), Query Frame = 3

Query:  381 VFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNPV---CFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSV 1592
            +FNL K I+GAG+LSLP+G+AAF+     ++PA + IA +G +SAY F LIGR CA T  +SY  +W+ TV +K++WLPA A        CLA+++I+GD+F +L  T G   + +++  + + +++ VLLPL L+K+L SL   S++G+ G++YTA  M +R+F  +Y A G F   M     P FG  G   V      +++SMLSTAY AHFNAP FY  LK+ T+P+Y K+V TSF  S+     + + GFLTFG SSSG ILNNY+T D +  ++R+AVA SLVFSYPL FVG RDG+ ++   K G  K +   TV LL+ +T  +L + D+ FV +  GA +G+G++YVFP LMF   +      KKV A   EKRE+ L  G   +G+  GILG  +++
Sbjct:    9 IFNLVKGIVGAGVLSLPAGIAAFASGPTGVIPAVSLIAIIGGLSAYGFALIGRCCAYTNTKSYRDAWSATVSEKSSWLPATAVTVKTICACLAYSMILGDTFVSLLSTVG---MASSKVPVTIGLTSIVLLPLCLMKNLSSLAPFSLVGSLGMLYTAVAMCVRYFGKAYTATGGFGNDMAPSLRPKFGPVGAAGVFTPSAAILVSMLSTAYMAHFNAPKFYNGLKDKTLPKYYKVVSTSFAISISIFALIASIGFLTFGSSSSGLILNNYSTRDGIMNLSRIAVAVSLVFSYPLAFVGARDGVLDLLKMK-GTAKTQNVLTVALLSGITGLALVIPDVSFVMALAGATLGNGLIYVFPFLMFRGAI-----KKKVDATKGEKREVKLAMGSAILGILMGILGTKMAL 406

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BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Match: K0S726_THAOC (Aa_trans domain-containing protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0S726_THAOC)

HSP 1 Score: 325 bits (832), Expect = 1.090e-95
Identity = 200/450 (44.44%), Postives = 286/450 (63.56%), Query Frame = 3

Query:  303 VQTMSGGGADGQAAGDEADKAGMSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVSAYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAFTIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGFTSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHAL-MPAGGAPVFGVKGTNPVCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTMIAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFVGLRDGIREMRGSKPGETKNRTR---WTVGLLAAVTAASLKLTDLGFVNSFGGALIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVAFGILGAAVSVLETFTNFFG*AKAGML 1640
            VQ +S GG +G+  GD    A MS  +FNL K +LG G+LSLP+G+AAF ++R A +PAAA IA++G ++AY F L+GR CA T A SY+ +W  +VG+ TAW+P  +CV   F   LA+++++GD+F+AL +TFG   L  +R   ++ ++A VLLPL +LK L SL   S+ G +G++YTA  M IRFFD SYA       L M     P  G KG + V   +I+ +  +AY AHFNAP FY EL++NTI R++ +V TS+  S++  I +   GF TFGG+ +G+ILNNY+T D L   +RVAVA +LVF+YPL FVG RDG+ EM    P E +   +    T  +L  VTA +LK+TDL F+ +FGGA +G+ ++YV+PA+MF     + +K    AA  A+K E+ L     A+G+ FG++G      + F+  +G AKA  L
Sbjct:   50 VQGVSRGGDNGRP-GD--GTATMSNEMFNLVKGVLGVGVLSLPAGIAAFGNARSAAIPAAALIASIGAIAAYNFSLLGRLCAITGATSYKSAWELSVGESTAWIPGSSCVIKTFFAILAYSMVLGDTFSALFRTFG---LSVSREKALIGLTATVLLPLCMLKDLASLAPFSLAGIAGMLYTAVAMAIRFFDKSYANPESAFVLDMAENLKPALGDKGASAV---LIVDLHPSAYMAHFNAPKFYLELQDNTIERWNTVVGTSYGISILFFIGIAVMGFSTFGGNCNGFILNNYSTKDALMGFSRVAVAFALVFTYPLAFVGCRDGLLEMM-QVPKEERTDAKINNLTFVILGVVTAVALKVTDLSFIMAFGGATLGNALIYVYPAIMF----RSAVKSMGDAATRAQKMEVHLAMLFAAIGIGFGVVGTK----QAFS--YGSAKAKTL 479

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig733.23.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5JLR1_9PHAE	1.310e-275	82.75	Aa_trans domain-containing protein n=2 Tax=Ectocar...	[more]
A0A6S9E4U8_HETAK	9.300e-118	49.40	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
D7FJZ0_ECTSI	5.420e-112	46.06	Aa_trans domain-containing protein n=1 Tax=Ectocar...	[more]
A0A836CMH1_9STRA	2.540e-108	51.59	Transmembrane amino acid transporter protein-domai...	[more]
A0A4D9CTY7_9STRA	1.380e-107	46.96	Aa_trans domain-containing protein n=3 Tax=Monodop...	[more]
A0A7S2VHC0_9STRA	1.110e-99	45.95	Hypothetical protein n=1 Tax=Skeletonema marinoi T...	[more]
A0A7S2JRD2_9STRA	3.860e-97	46.60	Hypothetical protein (Fragment) n=1 Tax=Leptocylin...	[more]
B8C604_THAPS	5.170e-96	45.78	Aa_trans domain-containing protein n=1 Tax=Thalass...	[more]
A0A1E7FDI6_9STRA	5.630e-96	44.47	Aa_trans-domain-containing protein (Fragment) n=1 ...	[more]
K0S726_THAOC	1.090e-95	44.44	Aa_trans domain-containing protein n=1 Tax=Thalass...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig733	contig	P-littoralis_Contig733:110581..125274 -

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.D8LM06
PFAMs	Aa_trans
Model size	3150
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K13576,ko:K14997
KEGG TC	2.A.18.6,2.A.18.6.2,2.A.18.6.3
KEGG Pathway	ko04724,ko04727,ko04964,map04724,map04727,map04964
Hectar predicted targeting category	chloroplast
Exons	6
Evalue	1.83e-259
EggNOG OGs	COG0814@1\|root,KOG1305@2759\|Eukaryota
Ec32 ortholog description	Amino acid transporter, transmembrane
Ec32 ortholog	Ec-14_002380.1
Description	amino acid transmembrane transporter activity
Cds size	1560
COG category	E
BRITE	ko00000,ko00001,ko02000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig733.23.2	prot_P-littoralis_Contig733.23.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig733 112109..125212 -

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


Feature Name	Unique Name	Species	Type	Position
1680791519.4945223-UTR-P-littoralis_Contig733:110580..112108	1680791519.4945223-UTR-P-littoralis_Contig733:110580..112108	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig733 110581..112108 -
1680791519.585389-UTR-P-littoralis_Contig733:125212..125274	1680791519.585389-UTR-P-littoralis_Contig733:125212..125274	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig733 125213..125274 -

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


Feature Name	Unique Name	Species	Type	Position
1680791519.5121899-CDS-P-littoralis_Contig733:112108..112612	1680791519.5121899-CDS-P-littoralis_Contig733:112108..112612	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 112109..112612 -
1680791519.5239093-CDS-P-littoralis_Contig733:114226..114370	1680791519.5239093-CDS-P-littoralis_Contig733:114226..114370	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 114227..114370 -
1680791519.5357292-CDS-P-littoralis_Contig733:114937..115119	1680791519.5357292-CDS-P-littoralis_Contig733:114937..115119	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 114938..115119 -
1680791519.551969-CDS-P-littoralis_Contig733:115560..115892	1680791519.551969-CDS-P-littoralis_Contig733:115560..115892	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 115561..115892 -
1680791519.5651426-CDS-P-littoralis_Contig733:116566..116688	1680791519.5651426-CDS-P-littoralis_Contig733:116566..116688	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 116567..116688 -
1680791519.5753074-CDS-P-littoralis_Contig733:124936..125212	1680791519.5753074-CDS-P-littoralis_Contig733:124936..125212	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig733 124937..125212 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig733:110581..125274-
coding sequence from alignment at P-littoralis_Contig733:110581..125274-

protein sequence of mRNA_P-littoralis_Contig733.23.2

>prot_P-littoralis_Contig733.23.2 ID=prot_P-littoralis_Contig733.23.2|Name=mRNA_P-littoralis_Contig733.23.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=520bp
MYPAKMKAHAGVLRVVQLFVLLLAVQLDAFALSSAGRVNGGGGQSSQAAS
LTGRKAAVDSSWRAAHPGIYPEPRPKVPLTVQTMSGGGADGQAAGDEADK
AGMSASVFNLAKNILGAGMLSLPSGVAAFSDSRKAIVPAAAAIAALGLVS
AYTFVLIGRSCADTKAESYEQSWARTVGQKTAWLPAGACVATCFAGCLAF
TIIIGDSFAALAKTFGAPALVANRSNIIMAISAAVLLPLSLLKSLKSLGF
TSMLGTSGLVYTAAMMGIRFFDGSYAAGGKFHALMPAGGAPVFGVKGTNP
VCFLVIISMLSTAYEAHFNAPLFYRELKNNTIPRYSKMVFTSFFASVVTM
IAVTAFGFLTFGGSSSGYILNNYATTDRLATVARVAVASSLVFSYPLCFV
GLRDGIREMRGSKPGETKNRTRWTVGLLAAVTAASLKLTDLGFVNSFGGA
LIGSGIVYVFPALMFLKPLMNKLKDKKVAAAVAEKREMSLNGGIVAVGVA
FGILGAAVSVLETFTNFFG*

mRNA from alignment at P-littoralis_Contig733:110581..125274-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig733.23.2 ID=mRNA_P-littoralis_Contig733.23.2|Name=mRNA_P-littoralis_Contig733.23.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=14694bp|location=Sequence derived from alignment at P-littoralis_Contig733:110581..125274- (Pylaiella littoralis U1_48)
GAGGAAGAGAGACACACAAGCTAAAGCAGTGCACTGGTTGCTATTGCCGC
CACTCTACTCCCATGTATCCGGCCAAGATGAAGGCACATGCAGGCGTTCT
ACGCGTGGTGCAGCTGTTTGTGCTTCTGCTCGCGGTTCAACTGGATGCGT
TCGCACTGTCCTCTGCTGGACGCGTAAATGGCGGTGGAGGTCAGTCTAGC
CAGGCCGCAAGCTTGACCGGACGTAAGGCGGCAGTTGACTCATCCTGGCG
CGCGGCACACCCAGGGATTTACCCTGAGCCACGCCCCAAGGTCCCACTCA
CCGTGCAAACCATGTCTGGTGGCGGAGCAGATGGTCAGGTGTGTATTCAG
GCTCTACAATCGGCGATTGTTCCAGGGATGGCAGGCTCTGATGAGTTTAA
GGATCCAGGGACGATAGATTGTTGAGAGGCACATATTTCGAAAACAGCGA
CGGGTCCCTGGCAATCACACACTGGGTACTTCACACCAGTAGGGAGGCGT
CGGGAAAGAGAAAAACTGTTGGTTATCGCACACAGCAGCGGTAGGGGCTT
CTCTTTCAAGCTTATGACATGTCTACCTCCAATCTCCTTGACAAATATTA
AGATTATTTTTCAACGACTCTAAAATGATGTCGAAACAGCTTACATTGAT
CAGGCTCTAACAAGCTGAGTTGTGTGTTTGTGTTGTCATCCCTTTCATTG
GACGCCACTCTGCACCTTTCGGGTAGGTCGACGCTCCAACTAGGGTCACA
CAGGCGGAAGTCAACACACAGGAGTATTTTTTTTCTTTTTTCTTTTTTCT
CCACTTCCCTCTGTGGTGCTTTCTTTGTGTTTGGTTGAGTTTTTATCGCG
CGAAAGAGGATAGCAATCTCTTTCCCTCGTCAATGGTACGATCAACTTTT
GTTTACTCACGAATTAGTCGCTTTTCACTTTCACGCGCATTCTGAGAAGA
AAAGCCAGATCGTGTTACTGCACTGGGTTTCGAACTCACGCGTGAATGCC
AGGAGGTTAGGTGGATTACCAACTGAACCACCGGGGCGACCGGTTAGTGT
ACACCTTTTATTTATTTAGAAGAGAATTTCCTGAAGTTTTTCAACCGGTA
GAGGATACCATGGAGCAGCTACGTGCGGGTCGGCAAGTTCAGACATGCTG
CTGGGGCCGAGATATCGAAGGCTGCAGCAGTGGCTCAAAAAGTCCGCAAA
CTGCGGCCGAACTGGACCTAAACCAAAAGCTTGCCACTGCTGTACTCGCC
GTCACAGACCCCAACCACCTGAACTGTGGGTCTACAGCAGTAGCTTGTGC
CTCTAGCTGTCTCGGATGACCTGCAGTTCGGGTGGTTGGGGTCCATGGCG
GCGAGCATAGCAGTGACAAACCTTTGGTGTCGGTCCAGTTCAGGCCCAGT
TTGCGGACTTTTTGAGTTTTTGCTGCAGCCTTCGATATCTCAGCCCAAGC
AGCATGTCTGAACGTGCCGACACACACATAGCTGCTCCATGGTGTCCTCT
ACTTATAGAAATACTTCAGGAAATAAATACTCCTTGCACAGCTGACGGAA
GGGAGAGCTGAAGCCGATGAAGCTCTTTTGACTTGATTAAAGACTGAGAT
CTATCCTTTGGATCCAACATAAGATTTTTCGGTAAGGAATTTTTCACCGC
CTTTGTCAGTGGTTCCTTAACTAGCCGTCTCCATCCTGTTGCTGTTTTCT
CTGGGACCCAGCAAAGCAAGCAAGGCGAGTTTGCTGTGGTCTCAATTCTC
TGTTCGATTCGCCATGTTAGTAGCACGTGCTGGCCGTCCAGATCACTGCC
GTGGATTACCGAGTTTACTCCCAAGATCGGGTTAGAACCCGTCGTGCTTC
CAGACGAGAAGGTTTCGCTCCTGTTTGTTTACATACACGCATGGCAGGTA
CACGTAAGTAACAACGAGCAGAATCAGAAGACCAACGGTGGGGTGTGGTC
TTCCAACTTTTGTCCTTGGATGCATATACTCGGAGTAATACATATCACGA
AGTACATACAAAATGATACCTTCGAAGTACCTCGTACTCATCGTACAGCT
CAAATGACATGACATTATTCTGTACTTAAAGCAGTGCAGCAGTAGCTGTA
TTTAGAAGTCCAAATCGAAAGTTGCAAGTTTAGAGCGTTTCTTACCGTGC
CGGAAAATACCTGCCGGTAATGACCTACAGATTCCGTCAGCGACAAAACT
CCAAATTGCCCGATATTTTGCTTTTGCAACACATGACAACATCAATCGGT
GCTCGGCTCCCGGGGCTGACACCAATCGCGACCAAACCTTGTAGGGCGTA
CGCTCCTGGTTCTGAGCGCACACCGAGTGTGAAGGTCGTGGGCTCTGCCT
ACCGGGAGATTTCGATGCGGAGTGGTCCGAGGTTCAATTTTCGGTCGCAT
TCCTCGATTCGTGCTCCACCCGAAAGTCACGCGATAAAATGGGCAGGATG
CCCGCAATCGAATAATGCGACCGAAAATTGAACCTGACCGCTCCGCCATC
GGAATCTCGCGATAGACAGAGCCCACAACCTACAAATTTGGTGTGCCCAG
CTCGAAACGCGGGAGCGTGCGCTCCAAAAGGTTTGGTCGCAATCGGTGTC
CTGGGGGCCAAGCACCGACTGATGTTGTCCCGCGTTGTTTTCAAAAAGCA
AAATATCGGGCTTTTGATTTTGAGGGGTCTCGCCGCTGACCGAATCTATG
ACATGTTGGGTGCTTTTCGGCAGGAATTCCCGGCTGCATAGGAGACCGTT
CAAAATGCAACGGTTGAAATACAGGGAGATGTTTTTCAAGGGTTGTGAAT
CTAAACCGATTCACCCGATCAATCGGAACAATTTCAATCGACAAAGACAC
CAACAAAGCGCGACGATGTTTTATCGTTTTTTTGCCGATATTTTACCGAT
ATTTGTGGACAGCGTTTACAGTCTATAAGAAGATGGTTGCTGCATTTCAG
ACCTGTGGCTACCCGCAAGTGCATCAGGCGATGTGCGTATTCGATAATGA
GCCCAGGCACGCTTAGACGTGTGGCGAGAACACATTAATGCGTGCACACA
ACGGTGTTCCTGCGCAATATTCTGCCCGACATCGAAAAGTGCAACGGAAA
TTGGCAAGAAAGGAACATAATGTGGGACGAAAAAGGATGGGCTGCAGCAG
CCGCACCCAAAGGAAGTGGTGGTCGATCTGAAAAGTTGCATGTTCGGGCA
TCCGAGAGCTGTTTGAGGGATAGATCGCATGTAGCGGGCATTTGAGAGGA
ATGTCCTGTTGCTGACCCAGGCAACCTCTTCATGGCACCGCTGTTTGGTT
TGTTGATTTATGTTGTAACCCGCGAATGGTGTAACCTGTAATGGCTCTCC
CAGCTTTTTTTTTTTTTCAATCATTTGCGCGGCGGTTTTTGTAGGGCCGG
AAAATGTATTCATTTTTTGATAGAATCGGAATTTTTTGAAAATCAGGCTT
CTTATAGGCTCGGAAAGTAGATATAAATACTCGGAGTATATTATATGTAC
CTTTTTCCGAACAAATATTTTCCGAACAATTTTTTCCGATCAGACTTTGA
TCGGATTTCTGCCGGAAAATCGGACCTTTTCCGAACGATGGATCAGTTCG
GAAAATACGATCGGAAAATATATAAAAACAAAATATGTGACGTTGTTTCT
CTCTGTGTGGTTTGTGTCACCAACTAACAATATAGGTGAACAACAGCACA
GTGAGTGATAGCCTAGCCACCGGTCAAAGCAAACAGAGCAGCAGCAGAGG
AGGAGAGCTGCTGCTGCTACTTTCTGTGTTGTTGCAGCAGCTGCTGGTGC
TGCTGGTGCTGCTGGTGCTGCTGCTATGCTGCTGCTATGCTGCTGCTTGC
TGCTGTCCATGTATGTGCCCACCATCTTTCTGTTTATGCTTGCCTGTCAT
CATTCATTCCATCGTGTTCATCAGCAACCAAAACCAACCGTGTGTAGCAG
CAGCATCATCAGCACAGCTGCAGCAGCAGGAGTATCATAGCTCCTTTCCT
CTGAGTGAGACCAGTTTGCATCTTCGCTCGTAACTCCCCAACGAATGAAG
CCACAGCGATGACAAGCCCATCTCCCGTGAGCTGTGCGTATGCCCTCTTC
GTGTGGTGATCGTTTCGGTCAGGATCACACTGGCATGTTCGCAAAATGAG
CTTGCTCGTGGCTGTGGCATGTTGTAAAAAAGAGCCCGAGCTATCACTTA
TTTTGTCCTGTACAACTTCTTCTTTGTACTGCTGTGCGTCTTTTGTACAC
ACATACAGCAGTATATAAATAATGCTGCTGTACAGCAGACCGGCTGATAG
ATCTTTCTCCATTTTTTTCGCATGAGTTGGCCATGAGCAAACCTACGTTG
CGAATGTACTGATGTAACCCTAACCCAAGCGATCACTTCACGAGGGAGAT
CATATACACAGCTCACGGAAGGTGCCTTCGTCATTGCTGTGGCTTCATTC
GTCCAAAAGTGATGAACGAAGAAGCAAACCCTTGGCGAACAGACAAGACG
TGTCTTCTGTGCGGGGCAAGCAACGGAACTGTTTTTTTGTTTTTTGCTTT
TATTTCATCGAATGCATGCATCATATGTTTGATATCATCAACAGCGCGCC
CATCCCGTGATGACTCAAACGATCAGTATTTGAGAAGGCCCATCTACACA
GCTGGCGGGGGATGGGTTTGTCATCGCTGTGTCTTCATTCGTTCGAAAGT
TATGAGCGGCGACGCAAACGGGTCTCAGCGCAAAAAAATCACCATGCGGT
CCTTCGATGCAAATATATACTCTACAGCAGAGCCGGCTCTTCAACCAACC
ACCTAAAAAAAAGGATCACTACATCCGATCACCCATCACCTATAAGAACA
GCGGATCGGCAGCCGTTGGCCGGAAAAAGTTCGTCGGGATTCTATGAAAA
AATGAATAAATTTTCCGGCCCTACGAGAAACCGGTCGCCCCGGTGGTTCA
GGTGATTATCCTCGAAATCTTCTGACACTCACGCTTGAGTTCGAATCCCG
GGGCAGTGAATCCCGGTGCAGTAACACGATCCGGAATTCTTCTCATGTCA
TGGGTGAGGGTGGAAAACGATTAATTCGTGAGTGGACACAATTCGAAGTG
TCGACGAGGGAAAGGGACGGCTGTACCCTTTCTCGCGAGAAAAAATGAAC
GCAAGGACGGCAGCGGGAAGTGGAGAAAGGAAATACAAGAAATCCAAGAA
AAAACTCCTGTGTTGACTTCCCTACTGTGTGACCCCGGTTGGAGCGTCTA
CCTACCCGAAAGGTGTAGAGTGGCGTCCAATTGAAGGAATGTCAACACAC
ACACACAAGAAACCGCCTAAGAACTCCACACTATTTTTTGTTGAGTGCTT
GTGTGGTGGAGTTACTGAAGCCCAGACGAGACTCATCCCCCCACAATCAT
TCGATTTCGCCCGGATCGTGTTGGAAAATGAAGCCAAATGGCCATACTTC
CATTACCTCCGGTGGTGCATCCAGCGGAGCCCCCTCGCCAGCCGGGGGGG
GGGCGAGGGAGGCTCGCTAAGCGAGCTCCATCGTGTGCGCTCCATCGCTC
ATTGCACGCGTGCTGCTGCCTATAAAAAATCGCCTTTTTTTATAGCGACA
CAAGTTGTCATTGCACGGAGCCCCCGACGTCCAATTTCCTGTGACGCATG
CACATTAATTTGCTGGTTTGCGAGCTGTTGTGCTGATCCCAATATATACC
AACACTTTTTGGGTAGTGCATTGACCAAACTACACATCCTCCGAGTTTCA
GTCAATTTGGTCAATTCTACGATTGGCAACTTTGATCTAAGGTTTTTTGG
AGCACGAAACGATGAACTATTGGCTGCATTTTCGGAGGGAGACATACTGT
TGTTGGTTAAAAATGTTCAATCTAGCAATACTGTTGTTGTTGTTGTTGCT
TAAAAATGTTCAACCTAGTAAACTACTTGAGTTTAGAATAGTTTGGGTCG
AATTTAGGCAACTTTGGAAGCCCGTCATCAGCGCTGTAGTGCTGATCCCA
AATTTGACACGCTTTTGTTGTGTAGTACATCCACCAAAGGACATACCCTG
GGAGTTTCAGCCCATTTGGTTGATTCTACGAGTGCATAACGTTGGCGCGA
AGGTTGTCTCCCGAGAGCTAAAAACGAGCTCTGGACGCACAGAAAAATGG
CTTGCTTCCAGTTGCGATGGCGCAGCATTGCTGTAGTTTGAAGTAAAACC
ATCTCATGTAAACTGCTGGCCAGAGTAGAATATGACTCTCTTCAGGTCTC
CCGCCGATAACGTAGCGACCCGGGGTCTGTGTGAGGAGCACCACCGGCGA
CAGAGGCCAGACCCCGAATGGTGTTCGCAGCACAATTTTACAAATCTGAG
AGGGGCTCTAAGCGTTTGTAGGTATTAACAATATTAAAAAAAAGCGGCAC
ATGTGATTGTGCTCGCCCGCTTGCTGCGCTCGCCCAGAATATCGACTGCG
CCGAAAGCTGATGATGAAAAGAGCGACAAACCCAATCGATTCACAAACCT
ACTATTTTCGCAAACCATGTCAATGATGGTTCACAAAATCCATCCCTGGT
CACCGCATTTTCGATATCGATGTTTTCGTTCCCCACTGTTTGTCAACATC
ACCACGTCAAAAACGCAGGAATGGAAAATATCGAAGTGCGGCTCGAAAAT
AAATAGACCATGTGGAGAAAAATGCGTCGAAGTACATGCGTTTGCCGTGC
ATTCCGGGGGCACACCGCTGCATCTCGACATGAATTTGCTTGACAGGTCA
CAGCACGACTTGTTGACCTCCGTCAAAACATGTTATACCTCGGCAAGAAA
GCTGGTATCCCGTATTGAGCGCAGAGCACTTTGTTCCGTTCGACCGGATT
CTGGTGAGAATCCAGAGAGCAGCACTTAAGTGTGCAGAAGTGTGCAAAAG
GTCATTTCTCAACGGATAGTCACAGAACTGAAGCAGCGGATCTGCTGTGC
ATTTTAGGAAACATATCGGCATTGCTTTTTCTCACACGAGATCACACATA
CTTCGAAGTATGATACCTCCACACAAGGCTGGTATCCCCTATGAAGCACG
GAATACTTTGTTTGGGTGGAGTCTGCCTAGAATTGAGCGAAGAGCACTTA
TTCGCGTGATATGATGTTGCTCAACTGGCTTACATTTTGGTCTTCGTGAC
CTCTGAAAGGGTATTTTAGTTAAGAGATATGCAACACGCAATGACACATC
TCTCGCCGACTTTTTCGGTTTTCGATCTGAAGCCACGAAGTACCAGTGCG
CCCGAGTCAGGCCGACGTGGGGCACTACCGTGCACTGCTTTTGAGGCACA
GTAGCTCCCGTACTCGGCGTCACGGCATGCATTTCAGACCATTTGTTACG
GCTTGCATTTTTTGAGGATGACTTTTTTCGCTTGGCACCCCCCGACCCTC
CCGAAATCCAGAGAACCCAAAAGGCTGAAACGGCTACTTTTGAGCACAAC
AGGAGATAGTACCAACCAGAACTCAGCCCCTGCGACACCAATCGCGATCT
GAGATTGGCTACGGCAAATTTAATGGGTGTGGGCTTTGGCTGTGGCGAGA
TTTTGGCGGCGGTGTGGGTTGGGGTAGGAAAATTCGGTGAAAAAAAATAG
GTTGTCCGGGCCTGGTTAGGCTCGAACGAACGACCTATTTCTGTTTCACT
GGCTATTCTTACCTCAGCGCGTGCCGCCGGCCAGATCTCGGCACGACTAA
AGCTCACACCCACCAAAATTGCCGTAGCCAACAGAACACTAGAGCGCACG
CTCCAACGAGTTTGATTGCTATTATTGGTGTCTTCGGGGCCGAGTTCCGA
TTGGTGCTGTCTCCTGTTGTGCTCGACAGAGTCGCTTAGAGAGGGGTGGT
ACGGGGAGTCCTCTGGTTTAATTTGGGCAGAGGGTCTGAAATCAAAACCA
AAACATCCATGAACCGAAGAAATAACCTCACGACCACCTGTCTTGTGAGT
TGCTGGTCGTGCCTCCCCTTTCCTTCGATGAACGCACCTGCAACACATCG
GACACAACTCGCTTTCAATAATCGAAATCTAATTTCGATGCAGATTTCGA
TGCAAATATGTTTTGCGGTAAGACCTACCCTGTGCTGTAGAAAACGCACA
GAGAGAACACGTTGAGACGTGGACCTTTCCTTTTGTAGGGCAACGATGGT
ACTAAGTATACATTGAACAGTTTGCGAAGGCGTATACTGCAGCATATTCT
CCGTGCTGTACGTAAAATGATAACGTGTGTGTGGGGATGACGTGCGTCTC
ATACATGTCACTCTTCGTCTGGTGAGCCTAGCGAATGTTGCTCCGCCACA
AATGAGGCCCGCTCTCAAACCTCAAACCCACCGCACACGACACGCCGGTG
CGGAAGCACCCCAGTAGAACCACGGATCGCAATACGCTGTGTCACGATCT
CCTTGTGATAGCGTCGCATGTGATGCGAGTACATGCTACCGTACGCTCTC
ATGCCAAGCCACCAAGTTCGTCAACCGTGGTAACTCGGCTGTAGATTCGC
ACACGCTTTTTCTGTGTCTTTGTGCACTGATTTGTTCCCCCTGTCGATAA
ATGAATCTCGTGTTAAAACTTGGTTGCGATTCGAAGGCCGCAGGTGACGA
GGCAGATAAGGCTGGCATGTCGGCGTCGGTGTTCAACCTCGCCAAGAACA
TCCTGGGGGCGGGGATGCTCTCCTTGCCGAGCGGGGTGGCCGCATTTTCG
GATTCCAGGTACCCGTTCCCGCGTGCTTCGTAGTTAAAGAGCAACCCATC
CAGTGTATGGCAGCAAAAAGAGCTGCACAGATGCAGCCACACGATGTGTT
GGGCCAAGTCTGCGAACATGAGTCTACTACGTGGGGGAGGGTCGAGGGAG
GGTCGGGGGTGTCGAGAGAAGCGCGCTACGGCACGGTAGGAGCATGCCAC
GTAGCTCGACAAACGCCTATTAATAGCGTATCATACAGTACACCCTCCAA
CTTCCTCGACGAGGTGCTAGTGTTTCGCCCTATCATAGGGCGTTGACCTG
TTGATTCCAGCGTGTACATTTACTTGCTGCGCAGCTCTCCGGCGCCCAAG
CTGGCCCAAAGGTAGATTTGCCCCCCGTCTGTTTGCCCCGCTCCAGTCAC
ACGAAACCGGGATTTGTGAGACACACTTGCACCCGCCTCGCCATTCCGCG
TTATACCCAGTTCCAATTCAAAATAGAGGCGACATGTACAAATACATAGA
CCTTTCACGTATTACGCCACACACGCGCGCAACCGATCCATTCCCTCAAC
GCATCCGTCTCACTCGCGCTTGTTATGTACAATATCGTATAGCTGATTAA
ACCGAAACTAATTTCAATCGAAACCGCCTTTTTTCCCGCGTGTATTCATC
GACCTCTTTCTAAAAAAAAAAACGTCCCGCAGGAAGGCCATCGTTCCCGC
CGCCGCTGCCATCGCCGCGCTGGGCCTCGTGTCCGCCTACACGTTCGTAC
TCATCGGTCGCTCCTGCGCCGACACCAAGGCCGAGTCCTACGAGCAGTCG
TGGGCGCGCACGGTGGGCCAGAAGACGGCCTGGCTTCCGGCCGGCGCGTG
CGTCGCCACCTGCTTCGCGGGGTGCCTTGCTTTTACGATCATCATCGGGG
ACAGCTTCGCGGCGCTTGCCAAGACGTTCGGCGCGCCCGCGCTGGTAGCC
AATCGGTCGAACATTATCATGGCGATCTCGGCGGCGGTGCTCCTCCCCCT
GTCTCTCCTGAAAAGTGCGTTTTTATTTTGTTCAATTTTCGTCTGCCTTG
TAGGACGGACAGGCGGCGTGAGCTGCTAGAGCTGCTAGTGATGATGGATG
ATGATGTTTGTTGCTCTCCTTTTCGGGGCCATCTCTCTCGGCACGTAAGA
CCTTACATGCGGAACAAGGTAGACAAAGAGACGGTTGAGTACGGTGCAGT
AGTGTGTGGCAGCAGCAGCATGTGGAGGGGCGGAGCCCGCCCCGCAGGGA
ATACTTCACAGGTGTTTATCTATGCCCCCCCTCCGCCCCCTCCACCGCCA
CCACCTCTTCTTGAGCTTGCAATACAGTTGCAGCATCTCCGCGCCTTTTC
GTACACAACGGTCGGTCTCACTACACCTCCTTACTGCTCCCCGTCCTCTT
CTGTCCTTTTTGAATCACCTATCCCACCGTTTTTGTCTTCTCAACGCCAA
GCAAGGCCTGAAGTCTCTCGGGTTCACGAGTATGTTGGGAACGTCGGGGC
TTGTCTACACCGCCGCGATGATGGGAATCAGGTTCTTTGACGGCTCGTAC
GCGGCCGGGGGCAAGTTCCACGCGCTTATGCCGGCGGGCGGGGCTCCGGT
GTTCGGCGTCAAGGGTACCAACCCGGTCTGCTTCCTGGTGAGGGTTTCAA
GACGTGATGAAAGCTGTACGCACAACAATTCGTTTTCGAGGTTAACCTTC
CTTTTGGTTTTACTGTTCGCTCCCACATGAGAAGGTCAAAGAACTGCTGT
GAGTTCATAAAGGCCCATTTTTTTCTTCTTCGTGCGGTAGCATTTTTCAT
TTTTGGAAGAAAGGGGAGGTGTTTAGATATGGCGTTTGCCACATCGAAAT
GACGGAGCGCCCCGCTAACCGGAGTGGCCGCATCCCCGTGCAACAGAGCG
AGCCGTGTAAGTCTTGAGAGGCACTGGCTACTGGTGTGTTGTAGTCGATG
TTTCATGGTCAAACAACACGGTATACATCATTCAAGGACGGGCGAGAGCT
ACCCTACCGTCATACCTACCGGTACATCTAGTGCTGTTTAGCACTGGTAA
GATCATCGCTCGACCGACCAGCGCCGTCTCTTTTCGTCGTCCGTGCGATC
TTTCTCTCTTAATGTCGGCCTTTCTCGCGAAACCAACACACCAAACCACT
CATCAACCGGAATGACCCCTCCCCCGCCCACCAATTCAAACCAACACCAA
ACAGGTGATTATTTCCATGCTTTCCACGGCATACGAGGCGCACTTCAACG
CGCCATTGTTCTACCGCGAGCTCAAGAACAACACCATCCCGCGGTATAGC
AAGATGGTCTTCACCTCTTTCTTCGCGAGCGTGGTCACCATGATTGCGGT
ACGTGCGCGTGATGTTGTTGCTGGTTGCAACATTTCGACGGCGCTTTAAT
TCGAGCTAAGTATATGCGTATAGTTTAGGATCAACGAGGCCTCTCTGCAG
CGGCACGAGGACACCCCGGGTGTGGTGAAACCTCCGTATGGTAAGGGCAC
TACAACGTTAAGAGGATAGGACAAACACAGAGGTCATCATCTTACAGCGG
TTTCGCGGCGGGCGCCAGCCCTCTAAACCAGAACTGGACGGTAGCATCCC
TTAAGTGCACCAAGCGAAGCATGCGCAGTGGCCCGAATGTCATTGTCCAA
TCGAAGACACTTCTAGCGGATGACTCATGTAGAGACTTTATCGCACAGGA
GTTGGCTGTCTCACACGCATGTGGTGTTGCCTCTCTTTCACGCTACAATA
ATGCAACTGATTCCGGGGGCGCTCTCCTAACGTCCCCCCGCTTCCTGGGC
TCAGATTATGCTTGAAGTGCGAGATTTACGCGCTGGCGCCGAGACAACGC
GCGCTCACACACACACGCACACACTTTCGTACTTTGATCGTATTTGCTGG
ACCATGCGCTCTGGTTTACCTGGGTTAGTCTGGCTCGCCTTGGTTTGTCT
TCGTTCTGTGCTCGGGTTCGGTGTTGTTATGGTCTTGTTTTGTCTGTTTC
CAATTTTTTGTTTCGTTTTTTGCAAGCCTGTTTCTCTCGATTTTTTGTAC
TTTTCGCCACCACGGATGGTACGGTACGCCAACTTTACTCTATCTGATTT
TGATGGGGTGACAATCGTTTGTTTCCTTTCTATTTCATGTTCCCCATAGC
ACGATATGCGCCTGGTTTTTGACTGCGGGTTAGACTGTGGTGGTGGTGAG
CTCACGTGAGAATCAACAACAACACTTACAAACTCACGCGCACGCGCGCG
CGCACGAACTCGCACGCACGCACACACACACACACACGATGAAGAGCGAC
GGTTGGGTCCAAGCGTTCGAACTCGAGGTAGACAGCAACCGAATGATCGT
GCTGTATGTTGATACGCATGCGTATTTTGGCGGTGGCGTGCACTTTTTTC
TCTTGATTTGGAGGCTGGACCCTTATCGCCCAATCTCTGCTGCGGCCCCC
CCGTCGGAGGACCGACCCCGGTTGCCGGAAGCTTTTGGTTTTCCACCCGC
TTCGTAAAACTGACATACTTCTGCTAATAAAGTCTGAACACACACAGGCA
TACCCGGGAGGTTCTGGAACCGAGAAACGACGCCCCTCAGATGGTGCTGC
CACATGATACGATATGTCTCCATGTCTGGCGAACATACGGGTGGCATGCA
CACGACGAATAACCCGAGTAAAAGTCCCTAATCAACCTCCATGATACACG
GGAACAGCAGGTTCCTTTCCTGGAGGATGGCCATCTGCGTGATCAGTTTT
TGTAGCGTCCCACTGCTCTCATTTCTTAGTATCGATTCCAGCGTCTTCGC
CATCCGCTCCTCTCCACGATCCCATAAATAAAATTTATTTTGCTCGCTCC
CCTTTCTTTCTTTCTGTGTACGTACTACGCCTGCCTGCGTTGCCTGCCTG
CCTGCCTGCGCTCGTCGACAACACCAACAACAACAACAACAACAACAACA
ACATTAAAATAGGTGACCGCCTTTGGCTTTCTCACGTTCGGAGGATCCTC
CAGCGGGTACATCCTCAACAACTACGCCACCACGGACCGCCTCGCGACCG
TGGCCCGCGTCGCGGTGGCCTCGAGCCTGGTCTTCTCCTACCCGCTCTGC
TTCGTCGGCCTCCGGGACGGCATCCGGGAGATGCGGGGCTCGAAGCCCGG
AGAGACCAAGAACAGGACAAGGTGGACGGTCGGGCTGCTCGCCGCGGTGA
CCGCGGCGTCGCTCAAGCTCACCGACCTGGGCTTCGTGAACTCGTTCGGC
GGAGCCCTGATCGGATCCGGGATCGTGTACGTTTTCCCCGCGCTCATGTT
CTTGAAGCCTCTGATGAACAAGCTCAAGGACAAGAAAGTAGCCGCCGCCG
TCGCGGAGAAGCGGGAGATGTCCCTGAACGGCGGGATCGTGGCCGTCGGG
GTGGCCTTCGGGATCCTCGGGGCCGCGGTTAGCGTCTTGGAGACGTTTAC
CAATTTCTTTGGATAGGCGAAGGCGGGTATGCTTGCCGATTTATTTTGCT
AGGCGAAGATGGGTATAGTTAGCTTCTTAGGGGAGAGAAGTCGTGGCACA
GCGAGTGATCAAGGGAGATTTAATTTTCGTCCTGTGGCTGGTTATTTTTA
GGTATGGCGACATCTAGCGGGTAATAATATCTTGCAATGCGACGACGATG
TAACACCAGTCAGCTCGAATGAGAATATGTCGAGATAAGCGTTACGCGAA
GGAACACGTGTGCGTCAATTTTGTACGGCAACAGGCTTGTCTGGGTTGTT
GTGGGGAAGTGCTGTCGGTATTGCCTATTTTACACCAGCGGGGGGGATAA
CGGCGTGGACTAGGCCAGTTATGGTTTGGGAAACGACTTTTGGGTAATTT
TATTGGCTGTGAGCGTAACAAATGCGCCCTAGGCGGCCGTCAGAGCGGGC
TTCGAGTCAGAAAAGAGGATGTTCATGTAGTTGAATGGACGCCTTCTTCG
TATAGCGTTTGGATCATTGTAGTGTACTTGTGTTTTAAGTTTTGAGCGAG
GCCAGAGTGATTTATTTCGTCATCACACAATTTGGCACTGAATCGAGTAT
CCCCATGTAAAGATATTTGTGTCGAGTATGCCATGCAAATTGACCTCGAA
AAGGCGGTGTTGCACCACGATGGGTGGTGGGCACCGTGCGGGCAAACGCT
TGAAAACGAAGAAATAGCCGCAAATAACGCGTGTATGTCCATTTCAATCT
GTGCAGACATATAGGAGCAGTTTGTGTTTGTTGTGGGTCAAGCGTGTGAC
TGTTATTTCTCAACGCTGCTGCTGCTGTGTCTGCGAGGTTTTCAATTGTT
GTTGTTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCC
GTGGTCACAAACCAGGCACATATCGTGCTAGGGGGAAAAATAAAAAAATA
AAATATATGGATTATGATCACCCACAGTCAAATCAGACATGGTACCGTTG
GGGTACCATCTGTGGTGGCCAGAATACCAAACAAATACAGAAAAAAATAA
CAGGCTCGAAAGAAAGACAAAAATTGGAAACAGTCCGACAAACAAAAAAA
AAACAAGACAAACCTCAACCATAACCATATACTTCTTCGTACATCGAACC
AGGGCCCAGGGCTATGACAGACCAAGGCAAACGCAAACCAGGGCGATGGT
CCAGTAACTACATGATCAACAGACGAAAGACAAAAAATAAAATAAAAAAG
AAGAAGATACAGGGAGGGCGCAAAGACTGAGGGAGTGCATTCGTAGACAA
ACATAGCAAACAGGCCGCCGCCAAACAAAGAGGAAGCAGGGGAACGAAAA
GGGAAAAGAAGATCGGAAGTACCGGAAGTCGGGGGGGGGGGGGGAAGGTG
ATAAAAATAAATGAAAGGCATGCAATCAATCGCAAACGTGTCTTGCCACG
AGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTGC
TACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATCTTTGG

Coding sequence (CDS) from alignment at P-littoralis_Contig733:110581..125274-

>mRNA_P-littoralis_Contig733.23.2 ID=mRNA_P-littoralis_Contig733.23.2|Name=mRNA_P-littoralis_Contig733.23.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1560bp|location=Sequence derived from alignment at P-littoralis_Contig733:110581..125274- (Pylaiella littoralis U1_48)
ATGTATCCGGCCAAGATGAAGGCACATGCAGGCGTTCTACGCGTGGTGCA
GCTGTTTGTGCTTCTGCTCGCGGTTCAACTGGATGCGTTCGCACTGTCCT
CTGCTGGACGCGTAAATGGCGGTGGAGGTCAGTCTAGCCAGGCCGCAAGC
TTGACCGGACGTAAGGCGGCAGTTGACTCATCCTGGCGCGCGGCACACCC
AGGGATTTACCCTGAGCCACGCCCCAAGGTCCCACTCACCGTGCAAACCA
TGTCTGGTGGCGGAGCAGATGGTCAGGCCGCAGGTGACGAGGCAGATAAG
GCTGGCATGTCGGCGTCGGTGTTCAACCTCGCCAAGAACATCCTGGGGGC
GGGGATGCTCTCCTTGCCGAGCGGGGTGGCCGCATTTTCGGATTCCAGGA
AGGCCATCGTTCCCGCCGCCGCTGCCATCGCCGCGCTGGGCCTCGTGTCC
GCCTACACGTTCGTACTCATCGGTCGCTCCTGCGCCGACACCAAGGCCGA
GTCCTACGAGCAGTCGTGGGCGCGCACGGTGGGCCAGAAGACGGCCTGGC
TTCCGGCCGGCGCGTGCGTCGCCACCTGCTTCGCGGGGTGCCTTGCTTTT
ACGATCATCATCGGGGACAGCTTCGCGGCGCTTGCCAAGACGTTCGGCGC
GCCCGCGCTGGTAGCCAATCGGTCGAACATTATCATGGCGATCTCGGCGG
CGGTGCTCCTCCCCCTGTCTCTCCTGAAAAGCCTGAAGTCTCTCGGGTTC
ACGAGTATGTTGGGAACGTCGGGGCTTGTCTACACCGCCGCGATGATGGG
AATCAGGTTCTTTGACGGCTCGTACGCGGCCGGGGGCAAGTTCCACGCGC
TTATGCCGGCGGGCGGGGCTCCGGTGTTCGGCGTCAAGGGTACCAACCCG
GTCTGCTTCCTGGTGATTATTTCCATGCTTTCCACGGCATACGAGGCGCA
CTTCAACGCGCCATTGTTCTACCGCGAGCTCAAGAACAACACCATCCCGC
GGTATAGCAAGATGGTCTTCACCTCTTTCTTCGCGAGCGTGGTCACCATG
ATTGCGGTGACCGCCTTTGGCTTTCTCACGTTCGGAGGATCCTCCAGCGG
GTACATCCTCAACAACTACGCCACCACGGACCGCCTCGCGACCGTGGCCC
GCGTCGCGGTGGCCTCGAGCCTGGTCTTCTCCTACCCGCTCTGCTTCGTC
GGCCTCCGGGACGGCATCCGGGAGATGCGGGGCTCGAAGCCCGGAGAGAC
CAAGAACAGGACAAGGTGGACGGTCGGGCTGCTCGCCGCGGTGACCGCGG
CGTCGCTCAAGCTCACCGACCTGGGCTTCGTGAACTCGTTCGGCGGAGCC
CTGATCGGATCCGGGATCGTGTACGTTTTCCCCGCGCTCATGTTCTTGAA
GCCTCTGATGAACAAGCTCAAGGACAAGAAAGTAGCCGCCGCCGTCGCGG
AGAAGCGGGAGATGTCCCTGAACGGCGGGATCGTGGCCGTCGGGGTGGCC
TTCGGGATCCTCGGGGCCGCGGTTAGCGTCTTGGAGACGTTTACCAATTT
CTTTGGATAG