mRNA_P-littoralis_Contig674.8.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig674.8.1
Unique NamemRNA_P-littoralis_Contig674.8.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: D7FP10_ECTSI (TYRosinase family member (Tyr-3) n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FP10_ECTSI)

HSP 1 Score: 748 bits (1932), Expect = 3.060e-256
Identity = 346/588 (58.84%), Postives = 440/588 (74.83%), Query Frame = 1 
Query:  958 PVSSLQVRASNEYGEYDEASLKLYGLEMVMEPFRDTTLEVVHPHSSELADNFVWRLRYADSSGTTAQS--IDDAWSFTGG-PKATVSVNKPGTLYILTVQNVDDDGVVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEE--STLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEP-CGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWV-DGSCSGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWGNTDV 2700
            P   L++RA+NEYGEYD+ASLK+YGL+MV+EPFR TT+          A  +VWRLRYAD  G    S    DAW+ T G P+ TV + +PGT Y L+V++VD++G V+ E   K SCKYVRREIR LTD DREAF DAM I++T+P  VGK +YG  F NYQ I AYH++ + ++CYH GLQFLTSH AFDL M+RYLQMI+P V+LPMWD MI++A++  EWYNSV+FD DWFGSA GS EN + + E RFGN+S+IYDP  ++    I + HN YGYVTS  NYQDLPR++RTSS+CG+ SHA  +TA+TF  C++   +TL  WE CMET VHGD+HGLLGG F+CNTDM+ FSE HPEY  GLLSFVLEYMTF +WP NSF+P  N C T C +GQ E  C CTC +DAFA+ D++ Y+    FM +AS KF GD++I++D    +PYGF++D  R+SDEE + LMRY++KIGCEPG+VG M+T ASP+DP+F++LH MFEKALHI+WLSP+Y ++F  +W  DG C GSGYTD+LPFT  LLG+G G + +TNERL EL HPSN  +PY+YEDF  WG +D+
Sbjct:   16 PSPKLKLRATNEYGEYDKASLKMYGLDMVIEPFRSTTVTAEGMLIDSPAHMYVWRLRYADQEGAPQNSGTAGDAWNCTTGKPQVTVELERPGTAYFLSVESVDENGRVITEGNSKVSCKYVRREIRDLTDRDREAFLDAMLIWYTLPTDVGKDRYGPSFSNYQVITAYHNADVENFCYHIGLQFLTSHAAFDLTMERYLQMIDPSVSLPMWDFMIDSASLGHEWYNSVVFDNDWFGSAFGSQENGYAIPESRFGNVSTIYDPDGTLVDSRISSYHNAYGYVTSAFNYQDLPRMSRTSSFCGVPSHAVLSTAETFVDCFDGGYTTLSGWESCMETMVHGDIHGLLGGAFSCNTDMSAFSEAHPEYSAGLLSFVLEYMTFTFWPTNSFIPQANVCQTSCSTGQDERFCRCTCMIDAFAIDDKQVYAYMEDFMTSASVKFQGDQYISYDGDVRFPYGFMQDQTRLSDEENLLLMRYLIKIGCEPGAVGSMTTLASPLDPLFYMLHSMFEKALHIVWLSPRYRDSFSMDWAEDGICPGSGYTDELPFTESLLGLGEGTTFVTNERLFELLHPSNPAVPYIYEDFAKWGTSDL 603
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: D8LM86_ECTSI (Hypothetical tyrosinase-like protein F21C3.2 in chromosome I, putative n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LM86_ECTSI)

HSP 1 Score: 720 bits (1859), Expect = 1.410e-245
Identity = 342/607 (56.34%), Postives = 429/607 (70.68%), Query Frame = 1 
Query: 1009 EASLKLYGLEMVMEPFRDTTLEVVHPHSSELADNFVWRLRYADSSGTTAQSIDDAWSFTGGPKATVSVNKPGTLYILTVQNVDDDGVVVAEARVKASCKYVRR---------------------------------------EIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEES-TLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSCSGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWGNTDVNLL 2709
            + +L  YGL+MV+EPFR TTL V    +  L+  +VW+L++  + G TA+   DAW++TGGP+ATV+++ PGT+Y+LTV+ V +DG VVAEARV+ASCKYVRR                                       EIR+LTD DREAFFDAMQ ++TIPN+VGKT YG DF NY  + A H + + ++CYH G+QFLTSH AFDL M+RYLQMI+P V+LP+WD MI++A +  EWY S IF  DWFGSA+   EN FMVT GRFGN+S+IYDP  ++    ++  HNPYGYV+S  NYQDLPRLTRTSSYCGL S  T AT D F  C+EES + Y+WE CM+ K+HGD+HGLLGG F+CNTDM  FS +HPEY  GLL+F L+ +TF +   N   PD NTCD +C  GQTEPCGCTC +DAFA+ D++ Y     FM AA   F+G ++ITHD  A YPYGF++DG+RMSDE A+FLMR +VKIGCEPG+VG MS+ ASP+DP+FWVLHP+F+KA+HIL LSPKY E +  EWVDG C GSGYTD+LP T   LG+G G   LTNE+LLEL +PSN  LPYVY D   WG+ D  L+
Sbjct:    7 QGTLGTYGLDMVIEPFRKTTLAV--EGNVSLSRRYVWQLQHGSNHGVTAKDAGDAWAYTGGPQATVTLDSPGTVYVLTVREVSEDGQVVAEARVEASCKYVRRFPLGACVQYLRVWRPFASGQPLTRPQHVPPLLLVSCDRREIRELTDRDREAFFDAMQTWYTIPNSVGKTTYGPDFSNYMPVTAIHGTEVQNFCYHQGMQFLTSHAAFDLTMERYLQMIDPTVSLPVWDYMIDSAWLGLEWYESEIFQPDWFGSAMSDVENHFMVTGGRFGNVSAIYDPEDTLTDSRVKPTHNPYGYVSSPHNYQDLPRLTRTSSYCGLQSRDTLATLDAFLGCFEESRSFYDWEYCMQYKIHGDIHGLLGGAFDCNTDMADFSAEHPEYSHGLLAFTLQILTFKFTAWNILTPDDNTCDAKCMKGQTEPCGCTCLIDAFAIPDQQVYGYMEAFMDAAMTDFSGYQYITHDEEAAYPYGFIQDGQRMSDEHAMFLMRTLVKIGCEPGAVGTMSSTASPVDPLFWVLHPLFDKAMHILLLSPKYDE-YTMEWVDGECPGSGYTDELPITERSLGLGPGTDYLTNEQLLELLYPSNPALPYVYTDLPRWGDKDTELV 610
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: D7G530_ECTSI (Hypothetical tyrosinase-like protein F21C3.2 in chromosome I, putative n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G530_ECTSI)

HSP 1 Score: 676 bits (1745), Expect = 1.630e-229
Identity = 311/523 (59.46%), Postives = 395/523 (75.53%), Query Frame = 1 
Query: 1009 EASLKLYGLEMVMEPFRDTTLEVVHPHSSELADNFVWRLRYADSSGTTAQSIDDAWSFTGGPKATVSVNKPGTLYILTVQNVDDDGVVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEES-TLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSCSGSGYTDKLPFTTE 2574
            + +L+ YGL+MV+EPFR+TTL V   + S L+  + WRL++A   G T +   D W+ +GGP+ATV+++ PGT+Y+LTV+ V +DG VVAE RVKASCKYVRREIR LTDGDREAF DAM+ ++T+P   GK KYG ++ NY  I A H +   ++CYH G+QFLTSH AFDL+++RYLQMI+P V+LP+WD MI++A +  EWY+SV+F  DWFGSA+G  EN FMVT GRFGN+S+IYDP  ++    +   HNPYGY++S  NYQDLPRLTRTSSYCGL S  TFAT D F  C+ ++ +LY WE+CM+ K+HGD+HGLLGG F+CNTDM  FS +HPEY  GLL+F L+ +TF +   N+  PD N CD  C+ GQTEPCGCTC +DAFA+S+E+ Y     FM AA   F+G  +ITHD  A YPYGF++D  RMSDE A+FLMR +VKIGCEPG+VG MST ASP+DPIFWVLHP+FEKA+H+L LSPKY E +  EWVDG C GSGYTD+LP T E
Sbjct:    7 QGTLETYGLDMVIEPFRETTLAVEGTNVS-LSGRYSWRLQHASEQGITVEDDGDLWAHSGGPQATVTLDSPGTVYVLTVREVSEDGQVVAEGRVKASCKYVRREIRDLTDGDREAFLDAMETWYTLPTDAGKAKYGPNYSNYMSIAAIHGTDYKNFCYHQGMQFLTSHAAFDLIVERYLQMIDPTVSLPVWDYMIDSALLGLEWYDSVMFQPDWFGSAMGDVENHFMVTGGRFGNVSAIYDPDYTLTDSRVTPTHNPYGYLSSSHNYQDLPRLTRTSSYCGLQSRDTFATLDVFLGCFGDNRSLYGWEECMQYKIHGDIHGLLGGAFDCNTDMANFSAEHPEYSHGLLAFALQILTFKFTACNALTPDDNVCDASCDRGQTEPCGCTCLMDAFAISEEQVYGYMQPFMEAAMTDFSGYLYITHDEEAAYPYGFIQDDHRMSDEHAMFLMRTLVKIGCEPGAVGMMSTAASPVDPIFWVLHPLFEKAMHVLLLSPKYDE-YTMEWVDGECPGSGYTDELPITGE 527
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: D7FSG6_ECTSI (Common central domain of tyrosinase family protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FSG6_ECTSI)

HSP 1 Score: 576 bits (1485), Expect = 1.820e-189
Identity = 265/523 (50.67%), Postives = 367/523 (70.17%), Query Frame = 1 
Query: 1186 GGPKATVSVNKPGTLYILTVQN------VDDDGVVV---------AEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGA--IRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYE-ESTLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPD-YNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSCSGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWGNTD 2697
            G  + +V   KPG +Y+LTV+       V  DG VV           A +K SCK+VRRE+R L++ DREAF DAM+ ++ +    G+ KYGE F +YQ + +YH + +  +CYH G+QFLT+H AF L+++R LQ INP+V+LP WD MIEA T+  +W +S IFD D FG A+GS +N + +++GRFG IS+IYDP  ++      I  +HN YG++++  NYQ+ P LTRTSS+C L + + FAT+D F +C+    TL +WE CME+KVHGD+HGLLGG F C+ DM+ F E HPEY  GLL+FV+EY+T  +WP N+FMP   NTC+T C SGQ EPCGCTC+VDA ALS++E YS+   F++ A+++F+G  +I++D  +  P+GF ++GER+ D+  +FL+R +VK+GCEPG+VG M  G SPMDP+FWVLHPMFEKALH+LW+SP Y + + F W DGSCSGS   D LPFT + LG+G+G   LTN  L+++ HPSN  LP+V+E F +WG  +
Sbjct:   72 GRAEVSVEFTKPGGVYLLTVEERLRAGAVSRDGTVVLNAGETAVIGRATIKVSCKHVRRELRDLSEADREAFLDAMEAYYAVSKEDGRAKYGEGFFDYQLLASYHSADLKSFCYHAGVQFLTAHAAFGLMLERSLQKINPRVSLPFWDYMIEAETLGPDWQDSPIFDDDMFGRAMGSADNGYQISDGRFGKISAIYDPHHNLPGNGLDIGPHHNAYGFLSATYNYQEAPLLTRTSSFCNLKADSVFATSDDFFSCFTAHDTLGDWEHCMESKVHGDMHGLLGGAFKCSVDMHEFHEDHPEYTTGLLTFVVEYLTTKFWPNNAFMPPGSNTCETECVSGQ-EPCGCTCSVDAMALSEDEIYSLTSTFLSQATQRFSGHAYISYDESSERPWGFQQNGERLDDDATMFLLRQVVKLGCEPGAVGVMVGGVSPMDPLFWVLHPMFEKALHVLWMSPTYRDGYSFGWADGSCSGSKVDDILPFTAQDLGMGAGTELLTNRELMDILHPSNPRLPFVFEKFDTWGTAE 593
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: A0A6H5KPW4_9PHAE (Tyrosinase_Cu-bd domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KPW4_9PHAE)

HSP 1 Score: 568 bits (1463), Expect = 3.080e-184
Identity = 288/620 (46.45%), Postives = 378/620 (60.97%), Query Frame = 1 
Query:  943 GGGAGPVSS--LQVRASNEYGEYDEASLKLYGLEMVMEPFRDTTLEVVH---------------------------PHSSELADNFVWRLRYADSSGTTAQSIDDAWSF-TGGPKATVSVNKPGTLYILTVQNVDDDGVVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSI---AKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEESTLYN-WEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSC----SGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWG 2688
            GGG G      L+++A+NEYGEYD  +L LYGLEMV+EP R T + V                             P SS     + W L  AD SG     +         GP ATV++   G  Y L VQ V+ DG ++AEARV  +CKYVRRE+R LT  DR  FF AM+ F+T+    G+ KYGE F N + + AYH+S   DYC+H+G+ FL +H AFDL ++  LQ I+PKV+LP WD M+EAA +  EW +S IF  D FGSALGSP N F +++G F NI+S+YDP   I   A+  I  +HN YG+V  V N+Q LP + RTSSYCGL   A F   + F  C+E ST ++ W  CME +VH  +HG++GGGF+CN DM  F E++P+Y+ GLL+F L Y+  N WP NS M D+N CD +C+  Q EPCGCTC VD F  +D+E Y      + +   +  G  ++  D  A +PYGF+++GER+ +E  + L+R M+ IGC+PG VG MSTGA+P+DPIFW LH  FEKA HIL LSP Y + +DFEWVD  C    +G    D  P+T + LG+G G   LTN  L E+ HPSN +LPY+YE F  WG
Sbjct:  119 GGGRGEEGPGRLELKATNEYGEYDRGALALYGLEMVVEPHRATRITVSSSRPRRLPPSENSEVXXXXXXXXXXPSPPLSSSSPRRYYWLLVRADRSGAPLDGVTPLVDTKVAGPLATVTLTDAGEKYALLVQQVEADGSLIAEARVTITCKYVRRELRSLTGEDRTGFFAAMREFYTVSLEEGRDKYGEGFSNAKHVAAYHNS--PDYCFHNGMHFLNAHAAFDLWVESNLQKIDPKVSLPQWDYMLEAAHLGTEWPSSEIFSPDMFGSALGSPVNQFQISDGWFSNITSLYDPRGDILTPAESFITTSHNSYGFVDGVYNFQALPGVVRTSSYCGLEVVAEFTKCEVFVDCFESSTTFHVWASCMEHQVHASIHGMIGGGFDCNIDMIEFHEENPQYDQGLLTFTLGYVLANKWPSNSLMRDFNECDEQCDVDQGEPCGCTCLVDPFEWTDDEVYDFMEDVLESLRGRANGASYVGEDVTARHPYGFMQEGERLDEESTMLLLRQMMVIGCQPGKVGAMSTGAAPLDPIFWTLHSGFEKAQHILQLSPGYRDAYDFEWVDADCGDGVAGGKLDDVYPWTEQTLGLGEGSELLTNADLTEILHPSNPKLPYLYEAFGKWG 736
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: A0A6H5KMG1_9PHAE (TYR protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KMG1_9PHAE)

HSP 1 Score: 557 bits (1435), Expect = 8.160e-182
Identity = 285/600 (47.50%), Postives = 373/600 (62.17%), Query Frame = 1 
Query:  973 QVRASNEYGEYDEASLKLYGLEMVMEPFRDTTLEVVHPHS-SELADN------------------FVWRLRYADSSGTTAQSIDDAWSFTGGPK-ATVSVNKPGTLYILTVQNVD-DDGVVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSI--AKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEES-TLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDG-SC---SGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWG 2688
            +V A+NEYGEYD  +L LYGLEMV+EP R T + V      SE+++                     W L  ADSSG     +       G  +  TV++   G  Y L VQ V+ DDG VVAE RV  SCKYVRRE+R LT  DR  FF AM+ F+T+    G+  YG+ F + + + AYH++R  DYC+H+G+ FL +H AFDL ++  LQ I+PKV+LP WD M+EAA +  EW +S IF  D FGSALGSP+N F +++G F NISS+YDP   +  A+  I  NHNPYG+V S  NYQ +P ++RTSSYCGL   + F+  + F  C+E++ +LY W  CME  VH  +HG++GGGFNCN +M  F E +P++ P LL+F L+++  N WP NS M D+N CD  C  GQT PCGCTC  D F  +D+  Y      M     +  GD+FI  D  A +P GF + G+R+ DE  + L+R ++ IGCEPG VG MSTGA+P+DPIFW LH  F+KA HIL LSP Y +T+DF WVD  SC   SG    D  P+T  +LG+G G   LTN  L+E+ HPSN +LPYVYE F  WG
Sbjct:   21 EVNATNEYGEYDGEALALYGLEMVVEPHRATRITVSSRLPLSEISEKSEKSPSPSPXXXXXXXXXXXWLLVRADSSGAALDDVTPLVDARGYDRFVTVTLTDAGEKYALLVQQVEGDDGTVVAEQRVTISCKYVRRELRGLTIADRTGFFAAMREFYTVSLEEGRALYGDGFYDAKLMAAYHNTR--DYCFHNGMHFLNAHAAFDLWVESNLQKIDPKVSLPQWDYMLEAAHLGTEWGDSEIFGPDMFGSALGSPDNQFQISDGWFSNISSVYDPAGDLLSAEADISTNHNPYGFVGSTYNYQSIPGVSRTSSYCGLQGVSEFSKCEVFVGCFEDNNSLYEWAVCMEHSVHASMHGMIGGGFNCNVNMAEFQEANPQFSPELLTFTLQFLLANKWPSNSLMEDFNYCDEDCAVGQTHPCGCTCITDPFEWTDDAIYDFMEDAMETLQLRAHGDQFIDEDRSARHPLGFAQKGKRLDDESIMLLLRQLMVIGCEPGEVGAMSTGAAPLDPIFWALHAGFDKAQHILQLSPGYRDTYDFAWVDSESCDDMSGGKLDDLYPWTERMLGLGDGTELLTNSDLVEILHPSNPKLPYVYEGFNKWG 618
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: D7FVH6_ECTSI (N/a n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FVH6_ECTSI)

HSP 1 Score: 516 bits (1328), Expect = 7.180e-165
Identity = 257/597 (43.05%), Postives = 359/597 (60.13%), Query Frame = 1 
Query:  955 GPVSSLQVRASNEYGEYDEASLKLYGLEMVMEPFRDTTLEVVHPHSSELADNFVWRLRYADSSGTTAQSI-----DDAWSFTGGPKATVSVNKPGTLYILTVQN---VDDDG------VVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEE-STLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSC----SGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWG 2688
            G  S L + A+NEYGEYD  +L LYG +M++EP++ TT+ V  P SS  + ++ W L   D     A  +     DD  S   G    V++ + G  Y L VQ      + G      VVV+E  ++ +CK+VRRE+R LT  DR AFF AM+ F+T+    GK KYG+ F N + I  YH++R  +YC+H G+ FL +H +FDL  +R LQMI+P VA+  WD  I+AAT+  +W +SVIF  D +GSALGSP+N + ++EG F ++ SIYDP  +  K  I   ++ YGY+ +  N Q +  ++RT+SYCG+     FAT +    C+E+   +  W +CME +VH   HG++GG FNCN DM  F E +P  + GLLSF LEY+    WP NSFM D+NTCDT C  GQT+ CGCTC+ D    SD+E Y      M     +  G +++  D  ATY YGF ++G R+  ++ + LMR ++ + CEPG++G MS G S +DP+FW LHP+FEKA  IL LSP Y +T+DF WV   C    SG    + +PFT    G G G   LTN+ +++   P+N  LPYVY+ F SWG
Sbjct:  111 GSSSGLTLVATNEYGEYDRGALALYGFDMLVEPYKKTTISVTGPASSSGSISYSWLLVREDDDEPEAVELEVVEQDDTPS---GSSVKVTLTEAGATYALHVQQQQLAPEGGGDASVAVVVSEKTIQVACKHVRRELRDLTSADRTAFFSAMREFYTVNLEAGKEKYGKTFANSKIISTYHNTR--NYCFHSGMHFLNAHASFDLWAERSLQMIDPTVAMHYWDFTIDAATLGPDWADSVIFSNDMYGSALGSPDNGYQISEGWFADVKSIYDPDETFLKEQINPGYSLYGYIDARYNIQAVDGVSRTASYCGVRGEIEFATCNVIINCFEQYDNISEWNECMENQVHAANHGMMGGAFNCNVDMVQFQEDNPGLKAGLLSFALEYILVGMWPSNSFMGDHNTCDTSCTVGQTQDCGCTCDTDFHDWSDDEVYDKMESQMETMQNRAHGTKYVYRDDGATYQYGFQQNGVRLEHDDNMLLMRTLLTLACEPGALGAMSVGPSILDPVFWALHPIFEKATQILQLSPTYKDTYDFTWVGKDCGDGVSGGQVDETMPFTERDFGFGDGDEPLTNQEIIDFLFPTNPRLPYVYDKFDSWG 702
[Close]
BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: A0A6H5JYD0_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JYD0_9PHAE)

HSP 1 Score: 327 bits (838), Expect = 1.180e-97
Identity = 166/436 (38.07%), Postives = 230/436 (52.75%), Query Frame = 1 
Query: 1492 LQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDE--------------------------------WYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEES-TLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWVDGSC----SGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWG 2688
            + FL +H +FDL  +R LQMI P VA+  WD  I+AAT+  E                                W NS +F  D +GSALGSP+N   ++EG F ++ SIYDP  +  +  I   H+ YGY+ +  N Q                   FAT +    C+E++  +  W +CME +V                DM  F E HP ++ GLLSF LEY+    WP NSFM  +NTCD  C  GQT+ CGCTCN D +  SD+E Y +    M   + +  GD+++  D  ATY YGF ++G R+  ++ + LMR ++ + CEPG++G MS G S +DP+FW LHP+FEKA  +L LSP Y +T+DF WV   C    SG    + +PFT    G G G   LTN+ +++   P+N  LPYVY+ F SWG
Sbjct:    1 MHFLNAHASFDLWAERSLQMIYPTVAMHYWDFTIDAATLGPEYTFVDAGMSSPRAVQQEANPMGQHPNSTMHRSWANSAVFSNDMYGSALGSPDNGDQISEGWFADVKSIYDPDETFLQEQINPGHSVYGYIDAKLNIQ---------------GEMEFATCNVLINCFEQNDNISEWNECMENQV----------------DMVQFQEDHPVFKAGLLSFALEYILVGTWPSNSFMKSHNTCDMSCTVGQTQDCGCTCNTDFYDWSDDEVYDMMESQMGTMNNRAHGDKYVYRDLGATYQYGFQQNGVRLEHDDNMLLMRTLLTLACEPGALGAMSVGPSILDPVFWALHPIFEKATQLLQLSPTYKDTYDFTWVGIDCGDGVSGGQVDETMPFTERDFGFGDGDEPLTNQEIIDFLFPTNPRLPYVYDKFDSWG 405
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BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: A0A835Z854_9STRA (Polyphenol oxidase protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z854_9STRA)

HSP 1 Score: 326 bits (836), Expect = 1.330e-95
Identity = 171/458 (37.34%), Postives = 255/458 (55.68%), Query Frame = 1 
Query: 1111 FVWRLRYADSSGTTAQSI--DDAWSFTGGPKATVSVNKPGTLYILTVQN----VDDDGVVVAEARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFENYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPMWDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIYDPTRS-IAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFATADTFSACYEE-STLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEK 2460
            +VW L   D SG  + +I  D   S+       V +  PG  Y LTV       D    VVA      +C+YVRREIR L+  DR+ F DA+ I +   +  G+ KYG+ F +Y+++ A HD     +CYH G QF+T+H AF+++++R LQ I+P V+LP WD M ++  +   WY S +FD+  FGSA+G P  +F +   RF  I ++YDP+   +         N +GY+TS  N Q+   ++RT ++CG+T     AT   F+AC+E   +L ++  CMET +H D+HG LGGG+NC  DM  F ++ PE    L++F L Y+  N W    +   Y  C +         C CTC +D  +L+D+E Y+     + A +  + G +F+T    +     F ++G  +SD      +R ++K+GC PGSVG MSTGASP DPIFWVLH +++K
Sbjct:   64 YVWSLTLLDESGAASDTIVSDQVGSYVD-----VVLTAPGHSYTLTVTEQLTATDGTTTVVASLAATIACRYVRREIRALSQVDRDRFLDALAILYFNSDEEGQAKYGDQFVSYERLCAMHDD--IKFCYHGGQQFITAHWAFNMMVERSLQSIDPGVSLPYWDFMKDSDQLGSSWYMSEVFDETMFGSAIGLPTENFKLAPSRFRGIRNVYDPSGDRVISPDFNVLRNGFGYITSPTNEQNATFVSRTHTFCGVTGSVALATCRDFAACFESYDSLTDFRMCMETDIHADMHGWLGGGYNCAVDMAQFIQEVPEVSTELVTFALTYIVANTWHNTDYFAPYTECPSTDGCIDKSQCSCTCTLDVDSLTDDEVYAWMEEMLLAMTTIYDGADFVTA---SNGKLRFAQNGHLLSDAAYRPFLRALMKLGCTPGSVGAMSTGASPADPIFWVLHGIYDK 511
[Close]
BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Match: A0A6H5JFE6_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JFE6_9PHAE)

HSP 1 Score: 310 bits (794), Expect = 2.740e-93
Identity = 144/257 (56.03%), Postives = 180/257 (70.04%), Query Frame = 1 
Query: 2002 MNTFSEQHPEYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVDAFALSDEET-------YSICHRFMAAASEKFTGDEFITHDAHATYPYGFLK----------------DGERMSDEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILWLSPKYSETFDFEWV-DGSCSGSGYTDKLPFTTELLGIGSGKSRLTNERLLELFHPSNAELPYVYEDFTSWGNTDV 2700
            M+TFSE HPEY  GLLSFVLEYMTF +WP NSF+P  N C T C +GQ   CGCTC +DAFA+ DE+        Y+    FM +AS KF GD++I++D    +PYGF++                D  R+SDEE + LMRY++KIGCEPG+VG M T ASP+DP+F++LH MFEKALHILWLSPKY ++F  +W  DG C GSGYTD+LPFT  LLG+G G + +TNERLLEL HPSN  +PY+YEDF  WG +D+
Sbjct:    1 MSTFSEAHPEYSAGLLSFVLEYMTFTFWPTNSFIPQANVCQTSCSTGQKRFCGCTCMIDAFAIDDEQVGWVGGWVYAYMEDFMTSASVKFQGDQYISYDGDVRFPYGFMQARTRDNPTSSLYPPSQDQNRLSDEENLLLMRYLIKIGCEPGAVGSMMTLASPLDPLFYMLHSMFEKALHILWLSPKYRDSFSMDWAEDGLCPGSGYTDELPFTEYLLGLGEGTAFMTNERLLELLHPSNPAVPYIYEDFARWGTSDL 257
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig674.8.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FP10_ECTSI3.060e-25658.84TYRosinase family member (Tyr-3) n=1 Tax=Ectocarpu... [more]
D8LM86_ECTSI1.410e-24556.34Hypothetical tyrosinase-like protein F21C3.2 in ch... [more]
D7G530_ECTSI1.630e-22959.46Hypothetical tyrosinase-like protein F21C3.2 in ch... [more]
D7FSG6_ECTSI1.820e-18950.67Common central domain of tyrosinase family protein... [more]
A0A6H5KPW4_9PHAE3.080e-18446.45Tyrosinase_Cu-bd domain-containing protein n=2 Tax... [more]
A0A6H5KMG1_9PHAE8.160e-18247.50TYR protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0... [more]
D7FVH6_ECTSI7.180e-16543.05N/a n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FVH6_ECT... [more]
A0A6H5JYD0_9PHAE1.180e-9738.07Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A835Z854_9STRA1.330e-9537.34Polyphenol oxidase protein n=1 Tax=Tribonema minus... [more]
A0A6H5JFE6_9PHAE2.740e-9356.03Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig674contigP-littoralis_Contig674:39667..62775 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FP10
PFAMsTyrosinase
Model size3600
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons14
Evalue2.25e-263
EggNOG OGs2D2GE@1|root,2SMT5@2759|Eukaryota
DescriptionCommon central domain of tyrosinase
Cds size2334
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig674.8.1prot_P-littoralis_Contig674.8.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig674 40045..61887 +


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

Feature NameUnique NameSpeciesTypePosition
1680791403.7301152-UTR-P-littoralis_Contig674:39666..400441680791403.7301152-UTR-P-littoralis_Contig674:39666..40044Pylaiella littoralis U1_48UTRP-littoralis_Contig674 39667..40044 +
1680791403.9351773-UTR-P-littoralis_Contig674:61887..627751680791403.9351773-UTR-P-littoralis_Contig674:61887..62775Pylaiella littoralis U1_48UTRP-littoralis_Contig674 61888..62775 +


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

Feature NameUnique NameSpeciesTypePosition
1680791403.7467391-CDS-P-littoralis_Contig674:40044..405871680791403.7467391-CDS-P-littoralis_Contig674:40044..40587Pylaiella littoralis U1_48CDSP-littoralis_Contig674 40045..40587 +
1680791403.7570841-CDS-P-littoralis_Contig674:46153..462431680791403.7570841-CDS-P-littoralis_Contig674:46153..46243Pylaiella littoralis U1_48CDSP-littoralis_Contig674 46154..46243 +
1680791403.7684085-CDS-P-littoralis_Contig674:46656..467541680791403.7684085-CDS-P-littoralis_Contig674:46656..46754Pylaiella littoralis U1_48CDSP-littoralis_Contig674 46657..46754 +
1680791403.7809277-CDS-P-littoralis_Contig674:47763..478511680791403.7809277-CDS-P-littoralis_Contig674:47763..47851Pylaiella littoralis U1_48CDSP-littoralis_Contig674 47764..47851 +
1680791403.7967496-CDS-P-littoralis_Contig674:49282..493981680791403.7967496-CDS-P-littoralis_Contig674:49282..49398Pylaiella littoralis U1_48CDSP-littoralis_Contig674 49283..49398 +
1680791403.8079014-CDS-P-littoralis_Contig674:50804..509551680791403.8079014-CDS-P-littoralis_Contig674:50804..50955Pylaiella littoralis U1_48CDSP-littoralis_Contig674 50805..50955 +
1680791403.8190062-CDS-P-littoralis_Contig674:52792..529441680791403.8190062-CDS-P-littoralis_Contig674:52792..52944Pylaiella littoralis U1_48CDSP-littoralis_Contig674 52793..52944 +
1680791403.83391-CDS-P-littoralis_Contig674:53391..535871680791403.83391-CDS-P-littoralis_Contig674:53391..53587Pylaiella littoralis U1_48CDSP-littoralis_Contig674 53392..53587 +
1680791403.8462327-CDS-P-littoralis_Contig674:54052..541871680791403.8462327-CDS-P-littoralis_Contig674:54052..54187Pylaiella littoralis U1_48CDSP-littoralis_Contig674 54053..54187 +
1680791403.8563108-CDS-P-littoralis_Contig674:54826..550811680791403.8563108-CDS-P-littoralis_Contig674:54826..55081Pylaiella littoralis U1_48CDSP-littoralis_Contig674 54827..55081 +
1680791403.874275-CDS-P-littoralis_Contig674:55891..559991680791403.874275-CDS-P-littoralis_Contig674:55891..55999Pylaiella littoralis U1_48CDSP-littoralis_Contig674 55892..55999 +
1680791403.8937757-CDS-P-littoralis_Contig674:56820..569701680791403.8937757-CDS-P-littoralis_Contig674:56820..56970Pylaiella littoralis U1_48CDSP-littoralis_Contig674 56821..56970 +
1680791403.909447-CDS-P-littoralis_Contig674:58417..585261680791403.909447-CDS-P-littoralis_Contig674:58417..58526Pylaiella littoralis U1_48CDSP-littoralis_Contig674 58418..58526 +
1680791403.92235-CDS-P-littoralis_Contig674:61744..618871680791403.92235-CDS-P-littoralis_Contig674:61744..61887Pylaiella littoralis U1_48CDSP-littoralis_Contig674 61745..61887 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig674.8.1

>prot_P-littoralis_Contig674.8.1 ID=prot_P-littoralis_Contig674.8.1|Name=mRNA_P-littoralis_Contig674.8.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=778bp
MTTIRYFRKAGRSMMAVCPAAAQEDMNGLRDGESGYGADDRLEARAAIPV
PVAAADPAKKCQAQPEPPHRRAYGTSHPSFSFREASLPPSFDNPTSAATC
HQEHSSLLSSRNNSRTPAVEEGRGGGAPGGGLLRRVLAGGAVALVVFAAA
AAVSNGRASQGPAGGAAVREAVADFPSMVAERQPERRDGGGAGPVSSLQV
RASNEYGEYDEASLKLYGLEMVMEPFRDTTLEVVHPHSSELADNFVWRLR
YADSSGTTAQSIDDAWSFTGGPKATVSVNKPGTLYILTVQNVDDDGVVVA
EARVKASCKYVRREIRQLTDGDREAFFDAMQIFFTIPNAVGKTKYGEDFE
NYQKIVAYHDSRITDYCYHDGLQFLTSHIAFDLLMDRYLQMINPKVALPM
WDMMIEAATMEDEWYNSVIFDKDWFGSALGSPENSFMVTEGRFGNISSIY
DPTRSIAKGAIRANHNPYGYVTSVRNYQDLPRLTRTSSYCGLTSHATFAT
ADTFSACYEESTLYNWEDCMETKVHGDLHGLLGGGFNCNTDMNTFSEQHP
EYEPGLLSFVLEYMTFNYWPMNSFMPDYNTCDTRCESGQTEPCGCTCNVD
AFALSDEETYSICHRFMAAASEKFTGDEFITHDAHATYPYGFLKDGERMS
DEEAIFLMRYMVKIGCEPGSVGYMSTGASPMDPIFWVLHPMFEKALHILW
LSPKYSETFDFEWVDGSCSGSGYTDKLPFTTELLGIGSGKSRLTNERLLE
LFHPSNAELPYVYEDFTSWGNTDVNLL*
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mRNA from alignment at P-littoralis_Contig674:39667..62775+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig674.8.1 ID=mRNA_P-littoralis_Contig674.8.1|Name=mRNA_P-littoralis_Contig674.8.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=23109bp|location=Sequence derived from alignment at P-littoralis_Contig674:39667..62775+ (Pylaiella littoralis U1_48)
AAAAAACAAACAGAACCAAATCACCTCCCGAGCTCTTTCTTGTCCGATCA
GCCAGTCAGAATCTGAGACTGTTCGGGATTTCTGAGAATTGAGCAGAACC
GGACCGTTCCCCCCGATTCGTATTGTGAACTTTCAAGTAGTTCGTGATTT
GATGACAACTACGGTACTGCTGTAGACGTGTTGTGGGTTGTGGATACCGC
GGAGATTGTCTCGTCACTCATTTGCACCGCACCGTCGATCGAGTCACGTG
ATCTTGGAGCAGCAGTTGTAAACTCTTCCGATTTTGTCTTGGGTGGGGAA
GCATGTTGTGCGTGCTAGATGAACACCGTGACACCACGTGTTGTCTAGTG
GTTGACCATCACCAACCTACGCCACCGTATGACGACCATCAGATACTTCC
GAAAAGCAGGGAGGAGCATGATGGCTGTGTGCCCAGCAGCAGCGCAGGAA
GACATGAACGGTCTTCGAGACGGCGAGAGCGGTTACGGTGCCGATGATCG
ACTCGAAGCGCGAGCAGCAATACCCGTTCCTGTGGCAGCGGCAGATCCCG
CCAAGAAGTGCCAGGCCCAGCCGGAGCCTCCGCACCGTCGAGCGTACGGG
ACATCCCACCCTTCTTTTAGCTTCAGGGAAGCATCACTACCACCGTCGTT
TGACAATCCAACGTCTGCAGCAACATGCCACCAGGAACATTCGTCCCTTC
TCTCGAGCCGAAACAACAGCAGAACACCAGCAGTAGAAGAAGGAAGAGGA
GGAGGAGCACCGGGGGGCGGACTTTTGCGGAGAGTCCTCGCGGGGGGAGC
TGTTGCTCTCGTCGTCTTCGCCGCCGCGGCGGCAGTGAGTAATGGACGAG
CGTCGCAGGGGCCGGCTGGTGGTGCCGCTGTCCGAGAAGCGGTGGCGGAT
TTCCCGAGCATGGTGGCTGAGGTGTGTAGGACTGCCCTATGTAGGACACA
TGTGTGTTGTGTGATGAATGCGGATTGTCGTGGTAGAGCGAAGCGGAGAT
TGCGGCATTGTCTCTCTGGCATGATTTGTTTGTTTCTTCTTCACAGCAGT
TTTTTTTTTCAAACTTCCACACATATCAATGCGTTCCCCTCTCTCTGCAG
TAGATATTGCAACGAACACAAAGGACATATATGTGTCCTTTATCCTATTA
ATCATATAGCATAACATACTCGGAGTACCTGGTAAGAGCGGGGATTAACG
GAAGGCCGAAAAAAACGAAATAGCGTAAACAAAAACGAAATAACTTCGTT
CTTCAGGAAAAAAAAAAAACTCCATTTCGGTATTATCGCTTTTCTGCTGC
GAGGAGCTGGAGCAGCGGAATAGAGGAGATAACGCCAAAAATGATGTAAA
TCCAGAACGCGCGGGGCCCAATTTCAGATAACGCGGTGGAATGCATCGTG
TCAGCGTGTGGGTATCGTAGACGGCCGTGTGCTGTCTGTTGCACTGACTG
GCGGGTTTGACGGCCTGGCCCTGTCTGCTGCGCTGCTGTAGTGTGTGGAT
TGGGCCTCGATCTGGTCGGCTTGGTGCCTGTTGCACCGCCGTGTACCGCA
GTCGCATTCTGTGTGAAGGAGTTCGCTGCCTAGGAGGCTCATGGGCAAGC
CTCCTAGGTTACGAAACTCCATGCATTTCGTTTTCGTTTTCGCAAAAAAA
AAAAAGGTCCGAAAGACTTTATTTTTGCGAAATCGAAAACGAACGAACGC
CTCCCCGGAGGACGTTGAAACGAAAACACGCCTCTTTCGTTTTTTTTTCC
CGACCAATCAGAGCCCAATTTCGTTTTCGTTTTCGCTATTTCATTTTTTT
TGGCCTTCCTTTCATGCGGGCTCTAACTAATAAATAATGGATAATGTACC
GTTCCTGCTCCCCCTTTTTTTGAGGGTATCAGGCTCAACAACACAATTTG
AAAATACGAAGAAAGAAGAAAGACAAGCAACCAGGCAGCCCGCTGCAGCA
GCAGTCTTCTCTCTCATTTTGTCCCCGTCATTCCACCACACACAACAGCA
GCCAGTAGCGCGAGACAGGCTCACGTCCCTTGACACCTTCGCTGCAGCAC
TACTACGATTGATTGCTGCTGTATGACAGCAGCGGCGTCGTTTGAGTTAT
TGCTCATGCACACTACTTGTTGTTGATTCTCACATTAGCTCATCGTCAAA
ATCTAGCCCGTGGTCACGAAAAGTGCTGAGCCCTAGGAAGATCCGAAAAA
CAGAAAGAAACTACAAGGGAATACCCAAGAAGGACCGAAGAAGATACACC
ATCCTACGCTGTGTGCATCACTGAACTACAGCAGTCACAGCAGTACCAAC
ATCAAACGTTCTTTCAGCGTCGTTCATTTGACTTCAGCATCGTGTTCAGT
CTTCTCCCGCCCCACTGCTTATAACTAATAACCTGCTGCTACAAGCAGTC
AGTAGGTAGCTGCAGATACAGCGGTTAGTTGCTGTCTGGAGTGCTGCCTG
CAACGTACAAGTAGCCCCGGCAATCGGAGAAGACAGAAAAGGAAAAAACA
CAAAAAAAAAACACACACACACACACACACACACACACACACACACACAC
ACACACACACACACACACACACACACACACACACACACACACACACACAC
ACACAAAAACTACTACTGTGTGATAACTCAGCATATAGCAGCACAGCAGT
AATAAGTACGCGTACTTCGTTACATATGGTACCTGGTATACCGTAAGCTT
CTCGTCTCTACGGCCTTCCTCCGCAACAGAAAAAATATCTAACGGCGCCA
CGCTCGCGTCTGCACAGCCCCATCTACCGCTAGCCACTGAAAGCAGCACG
AACTTCCGGTGATGTCATGCCGCCACATTAGATAATGAAAAGGGTTGTTT
GAGTTCGCGGCTCGTGCGGATGAAGCACAGCCTTCGTCCACCGCTATGGT
ACTTGACCCCCCATCAAAAAAGATTGGAAGCTGACTCAATTTGGGCTGTC
TACAATTTTAGGTCATTTTCGGAGGTAGTCCGTGGTACCAACTCAATGCC
GGGCGTTCAAAATAAGAGGTCTTCGTGCCAACTGGGGACGACATTTTTGC
TCCTGCTTGGGGACTGTTTCTGGTCTACTGGCGAGTACCACACCAGGACA
AGGTGGTCTCGCAGTCGCATGCAGAGTGCTGATAGTCCTCGACACTACCG
ACGAAGGAAGTGTCCACGCTCGTCATCTATCAGTCCAGAATACCATTTTT
TGCATCGCGCGATAGCCGGGGCTGGTCCGTGTACATATGGTATGTATGCC
CTCCGCGCCACCCAGAGACTGCTCGTCACAGAGATGGGAATAGTGGTCAG
GGATTCAAGATAGCGATATGTCCATATCTCTGGGTGTGTCGTGCAACAAT
ACGCTTTGCAGTCTGTGGCCTGTGCGCCGAGCATTACAGAATCTAGAGGC
TTGAAAAGTTCCAGCGGGCGGCCTGTCCGGGGGATGTATACATGACAGAC
TGCTGGTTGTGAAAATAAAAAAGAAGAAAAGGAAAAAAAATAACGTGTGA
AGTAGAATGAGTCTACCTCCACCTTCGTCGCACCTACCGCCCACACAGGC
CGCCCGCTGGAACTTTTCAAGCCTCTAGATTCTGTAATGCTTGGCGCACA
GGCCACAGACTGCAAAGCGGATTGTTGCACGACACACCCAGAGATGTGGG
CATATCGCTATCTTGAATCCCTGACCACTATTCCCATCTCTGTGACGAGC
AGTCTCTGGGTGGCGCGGAGAGCATGCCAAATGTACACGGACCAGCCCCG
GCTATCCCGCCATGCTAAAAATGGTATTCTGGACTGATAGATGACGAGCG
TGGACACTTCCTTCGTCGGTAGTGTGGAGGACTATCAGCACTCTGCATGC
GACTGCGAGACCACCTCGTTGTGGTGTGATACTCGCCAGTAGCCCAGAAA
CAGTCCCCAAACAGGACCAAAAATATCGTCCCCGATTGGCACGAAGACCT
TCTTATTTTGAACGCCCGGCATCGAGTTGGTACCACTGAATTTTGGAGGT
CAGCTTCCAATTTGTTTTTTAAGGGGGGTCATGTACCATAGGTCCACCGG
CTGTGCCCAAACAGCGAGTGTGGGCTCCGCCACGACAAAACGAGAAGCGG
CGGTCCCCATAAAACTTGGCCAATCTGTACGACTCACGCGGTCTACTATG
CGAGTGCGGCATGCGAGTGGATTGACCATTTCCTGCAACTCACTCACCAA
TCTCGTCAACGATCTTACTCACAAATATGTGAGATCCTTCATCACAGAGC
CCAAAACGGAGCCCAGATTTGACGGTACAGCAGTAAATATATGCTGGAGT
ATAAAACTCGGCGATTTATATGAAACGCCCTGACCTCCAAAAAAAGTACG
ATTCGAGTTCTATATCCGAGAGCATTTCGCGCAGGCTATATAGGTATTTG
AGTTAACGACCATATGAATTCAGGTTGGAGCCCCAACCAAACTTTTAGTG
GTCGTTAACCCAAACAAAAAAAAAGAAGACGGTGAAATGCATGCCAGCTC
ACGCAACTCTCACAGCTCACACACATGTAGGTGCTGTGCTACCAGGCCCT
GCTCATCACATATACAGTATGCACACGTACATACACATGACACGCCCGAC
AGAGGCCGTTAGAGGAGTAGACAATGAGATCAAGCGGGAGCGGTGCGTAG
GGCACAGATAGCGCAGACTAGAATCATGGGCGATCGTCCTGTTGTTTTGC
TGCCCTGTTAGGCGCCCACATGAGACAGGACAGCAGTACTGCTGTGTACA
ACAGCGGTAGCACCAGCAGTATTTTTCTATTTTTAAAGTCAGCGCAGAGA
GCACTCCTCAGCAACCTCGACTCGCTTCTTCGCACGTAGCACAACACACA
CACCCGGACACGCCCCGGAGTGGGAAGGACCCGCCGATCACTACTCATCA
CACACTTGAGACGCTGAAAGCAAACCGCCGGTAGTAGATAGAGCAGTGGA
TGCGTCCAAGCGCGAGAGCTGTGCGCAGGGGACATCACGAACGTCCTGTT
TTGTAGTACCGCTGTGTATCATGAAGGAAATAAATGCCCAACATAAATCC
TGATGGTGCTGCTGCTTGCTGCTGGTGTGAAAAAAAAAACACCCAAGACA
TGGACTGGATCCCCAGCAGCAGCAGTCGGAGCGAAAGAAGAGATATAGAT
TTTTGCTCGTTGACCGTCGCTGAAATACAGGCATATGATACTGAAGTACA
TGTTTGTTTTCCTTTCTTTTGCGCAATTGCTGTGTGTTCGTGTATGTTGG
GACATCTGTCACACGCGTGTCTCGTGTCTCGTTCTTTCGTTAGTGTGTCT
GTTTTTTGTTTTTTGTTTTTTAGTTATTTTGTTCTCTTCGTGTGTAGTGC
AATCGGGTGCCTCTGCATTCATTTACTGTATTGAGTATTTGACCTTCCTA
CAACGTAGGGCAGCCAGATGAAAAGGTTCAGGAGATCGAAAATAATATGC
TGGCTTTAGTATAGATGTGTCATCCGTGCGTTCCCAAGATGCGATTATTC
GCATTTTCCGGATATCGTGAGTTTTATATCGCAGGCCAAAACAGGGGAAA
AAAGGGGGATAGCGCTAATGGGCCAAATTATTACTCCGACGTGTGTGTGT
GTCTGTGTCTGTGTCTGTGTTGTCATCCCTTTAATTGGACGCCACTATCT
ACACCTTTCGGGTAGGTGGACGCTCCAACCGGGACCACACAGTAGGAAGT
CAACACAGTTTTTTTTTTTTTTTCTTTCTCCACTACCTCCCACTGCGGTA
CTTGCCTTCATTTTTTCTCGCGAGAAAGGGTACAGCCATCCCTTGCCCTC
GTCGACACTTCGAATTTTGGTTACTCACGAAGTAATCCTTTTCCACCCTC
ACGCGTGACGTGAGAAGAATTCCAAATCGTGATACAGCACCAGGATTCAA
ACTCAAGCGTAAGTGTAAGAAGATCTCGAGGATCAATCATCTGAACCACC
GGGGCGACCGGTTGTACGCATGACTCGAGTTTTACACCAGGTGTATCTCT
AGTAGTATGCCGAAAAAAACTTTTTGCGAATTCGAAAACGAAAACGAAAA
CGAAAAGAACCATGCATGATAGGAAAACGCCTTTTTGTGCAATGTGCAAA
ACGGAAAGAGCAAATACCTTGGAAATGTTTTACCCTGTTGCCATGGATTT
GGCACAAGGGTTGGGGAGAAGAAGAGGGGATGAAACACGGTGACGAAAAA
ATTGGGAACGAAGTTTGAAATGAGAACGAAGTGACACAATATTTTGTGTT
CCAACTCGACAAATAGAAGACCTCGAATGCACCTTCGACCCCTGGAAGGA
ACACGATTTGCGTCCCGTTTTGAACAGGTGACAAGTTCACGTTTTCACCA
CTGATATCTCGCTCAAAATTTGACACGAGATTCCTCGCCAACTGCACGGA
CACAGCGCACACTACAACAAGTTCCGGAAAGAAAGTCATCTATGGTTGAC
CTGCCTGCTTTTTCCCCTTTGTTTTATCGCTGAACAGAGACAACCGGAAC
GTCGCGACGGAGGCGGTGCTGGTCCCGTCTCCTCGCTCCAGGTTCGAGCC
TCCAACGAATACGGAGAATACGACGAGGTGAACATATGGTACCGTGTGTT
CCGCGAAATCAATATTTTTACTGAATATTTGTACTGCTGTTGCTGTGTGC
CGTGCGCGTGTCGCGGTTTTTTTATAAAACCGTATAGCCATTGCCGTGCG
GTACAAATACGAAGCCTTCTTTACTTTGGGAAGTTACCCCCCAAAACTCA
AAAACAAAAAATAAGTGAATCATTCACCAGTACCTCTCAGTCGTACGAAC
ATGTTCACGAGTAGTGTACGCGCACGCATCCATCTTGTTCAGTTCCTTCG
GCAATTCATTCACCATCATCAATCAGTGACACCTCCTGTTCCCCTTCCCG
GCACTCGTACTATCGCTGGACACGAACTCGGCTGATTTGTTTAGCTCTGT
TTTGTTTTTATAAGTGACCATCGCCGTTGTTTGTTTGCAGGCGTCGCTGA
AGTTGTACGGACTGGAGATGGTGATGGAGCCGTTCCGGGACACGACTCTC
GAAGTGGTACACCCGCACTCGTCGGAGCTGGCCGACAAGTGAGCGCAGCG
TAACATCCAAGTTCGTTTCCATTATTTTTATTGATGTTTGCTCTTCTCTG
TGGCGGCATGTCACATCGTTCGTGCGTGCATGACGTTGCCTCTTCGCTTC
ATCCTCTAGAAGTGGCAACGCCATAATACCCCGGATATGAAGCCAGCACA
TTGCGTCCTGTACAACGTTCGCTGATCGATTCCATCATTTTTTCGTGTCT
GCAACTTTCGCTCACCCGTCACGTTTTGTGGCCGCGTGTCCTATTGCTTC
GAACGTTACATGAGATCGCAAAATGTCAGCGGGGCAACTTTCGCTCACCG
TTTCCATGACGCGTGCGGTATCGTCAATTATATGCAGACGTAACATGGTA
TCGCGCATTATGAGGCGGTTGTTCGCCCATCTCCTTGAGCTTTGCTACAT
GCTTGGTTGGCTTTTCGATGCGGCAAGTTGTGTCACACGTGACGCCCGGC
GCAGCACATCGTCGGCACTTGACTTTTGAACGAAAATCACGTACCGACGA
TCTTTTGTGTGTGGCGTCGTGTTTTAAAATAGGGGTCCCCGTCGGTGTAG
TAGTTGCCTGTCGCCGAGGAGGCACACGGCCGGCCGCGGGAAATCGCTGA
GCATGCAAAAGCCTTGACACACGAAGCAAAACATTTCAGCAAACCACTTT
TTCGCTTCGTACCATGTCAACATCTTCCGGTATGGACTATGTTGCATAGT
ACCATACGCAATACCAGTACTTGATTATCTAATTTTCCGAAAGCATCAAG
CCCTTTAACAGGAACGCCGGTAGGTATGTTTTTTGGAGGGTGGTGGATTT
TCGTTTTCGACTCTCTACGGTGTGTCTGGTACTACGGCGGTCATGGCAAG
ACGGCCTTCCCTCTGCTCTCGTCATCGACCTCGTCTCTTTATCTCTCTTT
TTCTCTCTTTTTTGCTTCTGTTACTCTATCTCTATCTCTCCCTCTGTTGC
TCTTTTGCTGTTTTCACTAAACCGCCGCTGAACTTTGCCTCGCGAAGCTT
CGTCTGGCGTTTGCGCTACGCGGACTCCTCGGGAACCACCGCCCAGAGCA
TTGACGATGCTTGGAGCTTCACGGGAGGACCGAAGGTGAGCGCTTAACTG
CCGTAGTCTATCGTCTGTCGTCTGTTGTCTATCGTCTTTGTTTGGTTCTT
CGCGCTGGGTAACCAGCGCCTGTGCCAGCCTATTCTGCCCCTTCGGCTCG
CGGGCGCGGTAGCGTCCTTTCCCTGCTATTCATTGCCTCCTCGTTCTGTC
TCTCCCTCTCCCTCTCCGCCTCCCTCTCTCTCTCTCTCCCTCTCTCTTTT
ACCCGTCTATTTTCCTGTCTCTTCTCTCTCTCTCTCTCTCGCTCTCTCCT
TTGATGCTGCAGTTCTGAATTATGGAGCCACAAGAGCGCCTTCGAGGCTC
TCTATTATGAACCGCATCCCAGGTCTTCGCCAAATCTCTGGCCTCACCCG
ACCGCTCATTTCCAACGGGATGTACAGCAGCGGTGGTAGCGCAGTTAGAA
GTGTAGTGATCACAAACCGCCGACCTATACCGTAAACATACCTACTGAAA
AACGTGCGTTTCTTTTTCTGTGAAGATTGTTCAAGTCGTTGGGCTCGTAA
CTCTCGAGACCTTCTGACGTTTCCGGGCTTTGCGTGCAGGCGCGCACCAT
TGTTCTATTATTTGTGCTCGACGCCAATTTACTCCACTGCACACCCCGAC
ATAAAGTTGGCGCCCGCAAGTAAGAAATGTTTTAGTAAGAAATTTAGGCT
CAGATTTCCGTGAAAAATAAATAAATTTAGGCTAAGAAACACAGCTCAGT
CGGGGCCGCCAAGTAAGAAACACCCCAATAAGAAAATGAGGGCAGGACCG
GCTAAGAAACACAGCTCAGTCTGGGCCGCCAAGTAAGAAACACCCCAAAA
AGAAACTGGGGGCAGGACCGTTCGACGTGTGTTTGTCTGGGTCGTCGTGG
GGACGAAGGATTGCAGTCTTGATATTAACAAAGGCCAAAGAAATGCAGCT
TAACACAATAAAATCTACCGCAGGTTGCCTCGTTGGACACGAGGACAGGT
GACGGTTGCAACGTGCAACGTAGACAGGAGAAATGATACATTACAAGAAA
CAAGCATATCCCGCAAGGGCCCAAAAATTAGAAACGGCGAATAGGAAAAT
CAGCGCCATAAGCTGGGAGTATGACCGAAAATAGGAAATTGAGCCTCGAT
CCATATCTCACGTTTCTTACTTGCGGGCGCCAACTGTATGCCTCCGCTCG
CGGCGCACATCAAGGTTCCTCTCCGTCAGCAAACACAACGCGACTTCACT
CCCACCCTGTTTTTTTTCGTGGCGCAAGTCGACTTGACTCTGATTCCGCG
CACACGCGTCGAGACTCGGCTTTCCTCGGCACATCCTGTTCGCAAGGCAC
ACCGAAAAAACACTCGAATCTAACCACGCTATCATACTCTCTGTACACCC
GGATACTCAAATCTTGTTTGTTCGTATGATATGTATGTTTACCTCGCCTC
GACGCAACTCCCAAAGGCCACGGTTTCGGTGAACAAGCCCGGGACGCTCT
ACATCCTGACCGTGCAGAACGTGGACGATGACGGCGTCGTCGTCGCAGAG
GCCAGGGTCAAGGCGTCCTGCAAATACGTTCGGTGCGAAAACAAACGAGA
GTACTCCTACTGCTGCGCCGCTCTCCCTCGTCTCCGTTCCCGCTCTTTAT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCGCT
CTCTCTCGCTCTCTTACTCGCTCTCTTTTTTATCGTCACCTATACCTCAT
CTCTCTCTTGCATTTTTCTGATCTCCATCTCGCTGTCCCTCTGATTCAGT
CTCTACTTTCTTTTTCTTTGTTGCTGTGTCTCTCTCTCTCTGACTCTCTC
TTTCTCTCTCTCTTTCTCTCTCTGTCTTATTTGTCTCATTGTTATCACTC
GTTTCCCTCTCTCTCTCTGTCACCTATACAAGCAAAGCTTGCAATCGTCA
TCCGACCAACGCGTTACAGACTTTCCGTCCTCTCTGGGTAGGCCATCCCG
CACGCACAACTTTTTCTCCTATTTTTTTATCGTCGGTTCACTGATTGTTT
GTTTCTGTTTTCGCTCAAAATCCGACGGTACTACCATACATACCAGGGTG
TGTGTCGGGAACGTTTTTTTGGGCGGGAACAGTTTTGGCGGTACCGCAAG
ATGGTGGGAACATTTAGGCGGTACACCGGTACCTGTTTTTTCGGCGGTTG
GCGGTACCAACAATATTGGCGGTACTTTCGTCGGCGGTTCGCAACATGGC
GGTACCGCCAAAGATTGCGGGAATTTCGGCGGCGGTTCGCAATATGGCGG
TACCGCCAAAGATGGGCGGGAATTTCGTCGGCGGTTCGCAATGTGGCGGT
ACCCCAATAATGGTGGTAAACCGCTGGCGGGAATACAATTCGGCGGTAAT
GTTGCAGCGGTTTTTGTTTTTCGTTTTCCGGCGGTACCCAAACCCTAGGA
ACATAAGAACCCCCCCCCAAAAAAAAAACGAAAAGCCAAAAAAAAAAACT
TGATTTCCTTTCAAAAAAAGTAAAAAAGTGCGGCTCTGTGGGGTTGAACC
CGCATTCTTGTGCGTAGACGCCGGGCGGGTACCGCATTGACCTACATATG
CGTACCAACATGTACGGATATGGGCGGTACTGCACTTAAACGGGAATATT
TTGGCGGTTTGCAATATGGCGGTACTTTTTTGGCGGTCTGCAATATGGCG
GTACTTTTTTGCCGGGAAGCGGTACCTAGCTTTTCGGCGGTACTTTTTTG
GCGGTTCGGCAATATGGCGGCATTTTTTTGCGGGAAGCGGTACCCAATTT
TTCGGCGGTTGGCGGTACCGCGAATTTCGGCGGGAATCCGGCTGGTACCG
GATTCGCCTACCGTGGGCGGGAAAACACGTCGGGAAAATTTCCGACACAC
ACCATGATATATACGAAGTATCATACATGCAAACAAATGAACGCATAAAT
TGCATGCGCCTATCGTACCTCGCAAAATGTTCAATCAGGCGCGAGATTCG
ACAGCTCACGGACGGGGACAGGGAGGCGTTCTTCGACGCCATGCAGATCT
TTTTCACGATCCCAAACGCTGTTGGCAAGACCAAGTACGGCGAGGACTTT
GAAAACTACCAGAAAATCGTCGCGTACCACGATTCCAGGGTGAGAGCTCA
CGCAGAAGCAGTTGTTTGGTTTGTTTCGTCAGGCTGTGGGGTCTATCATA
CTGAAGAAACATATGGTCCATGCAAGACAATCTATCCATTTACTCGAAAC
AACGATGGCCGTAACGGCCGCGGCGAGCTACGTTGATAGCCGTGGAGTTG
GTTTTTTCGGGGAAAATGCATCATTTTGGACCAAAATCGCCCCGGAACTG
CCCCAGAATGCCTCACTTTTCCTAAATATGAGCAAAATTTCTCTCGATTT
CCCCCCAGAAAACCAAGATTTCCCTTCAGATTCAAAATATTTGTGACCTC
GGCTTCGAACGAAGTCGACTACCGCGAAGTCTTTTTTTTTTTTTGCTTTT
TTTGTCCATAAATCACTCTATTCCCTTACCCAGAGTCGGCGAAATTGGAG
AACACAAAATATCTCGCGAAGTTTCGTTTTTCTTGAAAAAACACAAACTA
CCCCCTGGGGATTGACGAGAGGAAGCGTTTGCCGCACTCCATTGTTAAAT
CGTCTGGCTGGTTGTCCCGATTAAAACGATCGAGGATGCCTTCCAAGATC
CTTCCCCGTTAGGCTGCATCTTATGTGTCAGAACCGTTCATATATGTAAC
CACGGGAGAAGAAGGACCATATACCCAGCTCGCGACGGATGTCCTCACCA
TTGCTGTGGCCTCATCCGTTCGAGAGTGGTGGACAAAAGAGCGAACCGGT
TACAGCAGTGTAAAATGAGAAGGCAAGTTGGCTACCATCAAACCGCCCCA
GCTGAACAGGGGAGACTTTTTTTTTCGGAAGTTAGTAGAAAAAATAAAAC
CATCTGCTGTTCGGTTTTGACACATTATATCGGGTCCTTCAACAGAGCCT
GTTGGAAATGTTATTATTCGAACGTCCCAAAAGGAATAAATGACGTTTTT
GACACACAAGATGTATAGCCTTAGCTCAATCAATTTTGAGTACTTTGAAA
AACAAAAAAATAACCCCCTGGCAAATTCCGAGAGCTGTCCGAATCCGTTG
AGATATTTGTAGTCCAGCAATTGTTGCCCCCAAATAAAGCGATACAAGTC
ATTTCGGTTTATTTAGGATAAAGAGCGAAATATAAAAATAATAATGAATG
TATCTCCATGAGAAGTTGCGCCAGGAGATATAGGGGTTTTAACGGTGTCT
TTGGATTTCGAAACAAATACTCACCCTGAGAAAATTGTACCTTGGTGCTG
GAAATTTGTGGACATATTGGCTTGCATGGACCATACTTTTTCCCGGATTT
TTCGTTTTTTGAAGCGAAAAAGAGCTATGTTGTATATATGCAGACAGAAG
TCGCAGGACCCAAACGGCTACGAGATCAAACCTGGCAGGAATGGCGACTC
ACCGGGCGGACCAGAGAATACACAGCATCGCAATCTACATGGCAGGATCC
CAACCGTTTCCCCCATTCGTTCTGATGAGCGGCTGGCGGTTACGTATTTT
ATCCCCGATAGTATTTTCGTCTTGCGTCACCCCCCTCCCCCCCTCCTGCT
TGTGGTGACAAATCCCTCCTTTTTTTTCCACGGTCGCCTCCGTTGTTGTT
GTTGTCCACATAAGAAAGCCCTGGAACCCGCCTCAACGTCGCGAAAACGA
CCCCCAAGGAATGCCTTTGAGTTTCGCTTGTATCTCCTCTGCGTACTTCG
AAGTAAGTACTTCGTTCGTAGCTTGGAACATTTGTTTTCAGTAAGTTTTG
TTTTTCAATCTTTGATGGTGTCCGGGTGCTTGACTCTTGCTCCTGTACTG
CTGCCGTATGTGTTGTTTACGTGGCGCGTTTTTTTTTTGTCGGGGGGATG
GGGGGCCCGCGGATGGACGGGATCAGATCACCGACTACTGCTACCACGAC
GGTCTTCAGTTCCTGACAAGCCACATTGCGTTCGACCTCCTGATGGACCG
CTACCTCCAGATGATCAATCCGAAGGTCGCTCTTCCTATGTGGGACATGA
TGATCGAGGCTGCCACCATGGAAGACGAGTGAGCTGCTTGCTGCCCTCGG
CTTTTTGACTGTAGCGAAGGTTGCCTTGCGCTTGGTTTTTCTCGCGGCAG
CCAGACCAACCGTAGGTGTTCCTCTCGGCGTGTACTCAATGTATCTCGCC
TTCGTGCCCCCATCACAGCGTAGTTAAGTTGACAGTCTGCGGGGCTCCCT
TGACGATCAAACTCGTGTTGTACCAAAAAAAGGGGCACAACAGCTTCATC
TTTGATGTGGAGTGGTCGGTGTTATGATAGGGTGCCCCTTGCCCTTGTTA
GATGCATGACGTACCGGTAGACTTTATTCCTGCACCTCCGTGTGCTGTCT
CCTAGTTCACGATGCTCACAAGCCGCGTGCCCATCCATCCCATCATCCTA
CTGCATGTTTCCACACAACAAAGTGCTTTGTGCGTTGTTTTGCCACCCAA
CCGACAAACACCGAAACCCGTCCAGGTGGTACAACAGCGTCATCTTCGAC
AAGGACTGGTTCGGGTCCGCGCTCGGATCTCCGGAGAACAGCTTCATGGT
GACCGAGGGCCGCTTCGGCAACATCTCCTCAATCTACGACCCAACAAGGA
GCATCGCCAAGGGCGCCATACGGGCGAACCACAACCCTTACGGCTACGTG
ACGTCTGTCAGAAATTACCAGGTGTGTGTTCACCCGCGAGGTTGTTGCTG
CGGAGCTCTGAGCGTGTTTCGCCCACGCCTCGCCTGTTTCCTTCAAACGT
ATGCCTGGTACAACAACCGAGGTGACATGTGAGATCAGTCAGCAAAACAC
GGATTTGTTTCAAGTTTCCCCCATTTTTTTCTCCTATTCGAGCCCTGCTA
CGGTACGCCAGTGTCACATCAGCTGTCGCCGTGGTGTTTGGGACTTCTCT
CAATATAAACATCCGATCCGAGTCCTATCTTTGACGGGCGGTTTCTCCTT
GAATGCCTTAGTACGTGTGTATGTATCATAGTTTATTTCGTGAAATGGCG
ACCAAGGTCCTCTGCTGCCGTACGTACCACCCCCGTTCGACGACGCCAAA
AATCACTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGTGG
CGTCCGGTTGGTTGGTTGATTGGTTGATTTGATCAGGATCTTCCGAGGCT
GACACGCACTTCCTCCTATTGCGGGTTGACGTCGCACGCCACCTTTGCCA
CCGCTGACACGTTCAGCGCGTGCTACGAAGAGAGCACCCTGTACAACTGG
GAGGACTGCATGGAAACGAAGGTTATCTTCGATGCTGTACTGCTGTACCG
CAGAGTATGGTTTTTTGGTCTCACGAGGAGGGGGTGGTCTCCAAAAGACT
CCGGCGTTTTGTTTTACGGTTTTTCGGAGGTCACGAACAACCCATTTCAA
CCCAAGGCGTAGATGTGTCCCATATTTGTTTATGGTCAGCGACGTTGGTT
CATTCACCCCCCTTCCCCTCTCGCTCCCTATCTCTCTCCATCACTCTCTG
TCTCTCTCCATCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCCTTCCCTC
CTGAGTGCAACTCATAAGATCCCATGTGCAGGTCCACCTGCTGCTTGCCC
GCTACACTCCGTACCTGTCAGAAGGATTTGTATAGCGGTCCTCTCGGATT
GATCTCGCGTCGACTTTTATTGAATGGTAATACGATGGTAACACGACATC
GTTTCACACGTCTCTACGATCCCCTCCGCCTATCACAGTGCGCGTATCAC
ATGATTGTACCCCCCCCCCAGTGCGCATTCGACTTGCTAGACACGACGAG
GCGCGTGCTCTTGGTAGACACTTCTCATAAGCAAACCCCTTCATCCCCCC
CCCCAACCACCACCACCACTACACCTCCACGAACGTGATGCACTACACCG
TACACATCAGGTGCACGGAGACCTCCACGGGCTACTGGGCGGCGGTTTCA
ACTGCAACACCGACATGAACACCTTTTCTGAGCAACACCCGGAGTACGAG
CCGGGCCTCCTCTCCTTCGTGCTGGAGTACATGACCTTCAACTACTGGCC
CATGAACTCCTTCATGCCCGACTACAACACGTGCGACACCCGTTGCGAGA
GCGGGCAGACGGAACCGTGCGGGTGCACTTGCAACGTCGACGCCTTCGCC
CTCTCCGACGAAGAGGTATGGTGGAATACAATCAGCTGGGCTGCGTACAC
AGCTTCATCATGCAAACGCAAAGGATGAGGTATGGGATTGGGGGAATGCA
ATCCTGTACTTTATTCTTTACATGTACACATGCGCCAAACACGGAACGCT
GACCCAAAATAAAGTTGAGATGATGGCAAAGGAACTCTCTACGAACACTA
TCCCATACGTTTGCTTAAAGGCAGGTGCGTAGGCTACGGAACCAGCTCGT
TGATTCGTGTGATGGCTTTCGTGCCTTGGCGATCTTATTGCAACAGGGTA
TATACGCTAGATTTTTTGAAAGTGGACCCCCCCCCCCACTCCTCTGCACA
GCAGGAGCGGACCTCTCAAGAAAATGGCATCTTGCTTCATGGTGTTTTTT
TTTCGGCGCGGCTGACGGCGGCAATTTGTTTGTTCGTGCAGCATCCATCG
ACGCACAGGGTATATATAGCGGATGTCGCCATCTTTCACATTTGACAGGA
AAACGACAGCATTGATCTGTTGTTTATGTTGTTATTGTTGTTTGTCGTCG
TCGTTGCCTTCTTCGCACCAAAAGCCTCCTCAACCGTTTCGCAGTCTGAA
AGTTTCTGCAGGACCGACTGTTTCGGATAGAGTGAAAATCGGCACAAAGT
GATGTCGTACATAAGCCCCCCAATCAATGCCGGAGAGGCTAATTGACTAA
CAGAGACCGGAGCATGTGGAGGCATCGACGTACGCGAAACCTTGTGAAAC
GAGCGGCCGAATTGGCCGCGGGCAGGGCCCCCACCCCTTCACCCGCTCCG
ATCTTGCGTCCGCCTGAACTCGCAGACGTACAGCATCTGCCACCGATTCA
TGGCCGCCGCCTCGGAAAAGTTCACCGGCGACGAGTTCATCACGCACGAC
GCGCACGCTACCTACCCCTACGGGTTCCTGAAGGTATGTGCAACTCTGAG
TGGTTTTGAAAGTGTGGTGATACTTTTTGCTACTGAAGGTCGTCACTGCT
GGTGATTGTTTTTGATGTTTGTTCTGACGTGGTGTTTTCACGTGTAGAGA
GGAATAGTTAGAGAGAAAACTAATGAGAGAGAGTGCGAAGAGAGAGAGAG
GGAGAGGGAGAAGAGGTACACCATGAACGGCAGCGATTGCATCGCAGTGC
TGCCTTCGTCGGCGGGAGGACGAGTCACAGACGCATCATCTCCGCTTGAT
CGAACAAGAAATTGCCATCTTCTCTTGTCGACCTCCTCCGCTCGCCACCG
TCTGTCTCGCGCCCAGTCGATCCCAGGACGTGTCGGCACGTTACGAAATC
CCACGGACCCTGATGACGAAAAAAAAACGTTTCCCGGTTGCAGCACATGT
ATGATACATGTCAAGACAGCGCCGGCCAAGTTTCTAGCCATGCCTTCCCC
CTTCCCAGGAAAAACGTGTTTTCTTTGTACTCCGAAGCTATTTTGTTGTT
TTTTGCCCCACGGGTGCACGCACATTGATGGGGTTATCTATTAAAGGGGT
ATATACAGCGCGGTCAACAAAAACAAATTTCGTCTTGTGCCCAACAACGA
CAGCACCAGAATCACTGCGGTGAACACCGGTGGGGCTTTTGCGCGCCCAG
CCCAAAAGTTTTCCCGTGTGCCGCTTCTGGTGTTTTGTCAAGAGTCCGCT
CTCTGTTCCTTCTCTCTGGAAACTCGGTCTCTCTCTCTCTCTCTCTCTCT
CTCTCTCTGTGTGTGCGTGTGCGCGTGTGTGTGTGTGTCTCTCGGTCGGT
GCAGGACGGCGAGCGCATGAGCGACGAGGAAGCGATCTTTCTGATGCGCT
ACATGGTGAAGATCGGCTGCGAGCCGGGGAGCGTGGGGTACATGTCGACC
GGCGCGAGCCCGATGGATCCCATCTTCTGGGTCTTGCACCCGATGTTCGA
GAAGGTCCGTTCCAAACAAAATGCTGTTGAAACTCGTTGGGGCTATGGTA
TGAAGGGAGCTAGGGGCTGTACATAAGGATGTTGAGTCGGTCGTGAGTAG
TCGAGGCACAGGGGTGCCGTGCAGTATTCGACGGGGTGAGGGGGGGGGTG
ATATTGGTCACGTTCGTCATTCTTGTTTGCACCACCATTCGTTATTTTTG
GTCGCACCACCGTTCGTCATGTTCCTTCGACTATTCGAGTATCAGAGCCG
AATCTCCTATATCTGTACATTTGAAAACCCTTGCTTCCTCTTGTTTCAAG
ATGAAGTAAAAGGAGTCTTCAACAAATCACACGTACGCATGGCCACAGAT
GCGTCCGAAAGGGTTCAGATAATACATCGATGCATATGACAGGTGCACGG
GCGACGTGGGATCGGGTGATAGGAACGGCATCATTTATCAGTTTTTGAAC
AACAAGAACAAATGTTTCATTTTGCTGTCGTTCCTCTTCGCTACAGCACA
CACGGGGGTGTGGGCATCACTTACTCACTTCAGGAATGCTCCATCGCCGT
CGGTGGGCGTAGCACGAAACAGCGCGACTATCATCATCGTCACACCACAC
GAAAAAACGTGGTGTTCTCCGAGCTCGTTACCCGCGTTTGCCTTTATCTC
TTACTCTCTCTAGAGCAAGGTTTTCCATGTCCATACCTACGAAGGCTTGT
TTCCAGCAGTGTTGTTCAGGGGTTCTGTAGCATGGGCGTTCATTCCACGG
CACGCGAAATGCAACTCCTGGTAAGTCAAAGGACGTATGCATGTTAATTC
ACGCAACGCAACATTTGCGGTCAATTCAAGTCCGTATGCTGTTGTCGTCT
ACGTCATCATGAGGGATACATCAAGCAGTAGCGTACATGGCACGGCATAG
AAAACGCATCTGACTGTATTTTCATCACTTGGTGCATATCAAATCGTCCA
ACCATCGAAATCGTAATTGTTCGAAGCATCGAAACGATATCATACCTTCT
TTCTGTGCGAAGGCTTTTGATTGCTTTCCGCCGTGACCGCGTTATAGACC
CACCGAGCCTTTGGGGAACTGCGTTGAATATATGATGCGGACGTACAACC
CGAATCACCAAACTCTTCTTCTTTGGGTGTGCTGAACGGTGGCGACATGC
TGCACACAAAGAATTTGAACAGAGCGGCCCACGCTTGTCAGGGAGAGCAA
GAGCGGTTCGCACGACCGGTTCCACACTTTAAATTTTAGGAGGCATGCCT
TGAATTTGGTGGCCCTACAAATATCTTCGCCGCCCCCGGGCCAATTCTTC
CCTCATCCCGGCTGCTGGAGCCCCGCGACGCCCCACCTGACTTCCTCCTC
CTCCTCCTCCTCCCCTCATCCTCATCCTTTCCCTCACCCTCCTTCTTTTC
CTTTCCCTCTCCTCCTCCTCTCGCGTTTTCGGTCTTAATTCGACGCGGCA
GGCCCTGCACATCCTTTGGCTCTCTCCGAAGTACAGCGAAACGTTCGACT
TCGAGTGGGTCGACGGCAGCTGCAGCGGCAGTGGTTACACCGACAAACTT
CCCTTCACCAGTGAGAAATAATTGTTTCTCGAACTGCTTCTGATATTCCT
GTTTAGTTTTTTTTTTTTTCGTGCATGGCCTTCCATAATTGTTCTGTATA
TTTTCCTCCTATCATGCATACGTAGCACGATATGAGCATGGTTTTCAACC
GCAAGCTTCATTTTGTCGGCGAGCTTGGGTGAGAATCAACAACAACAACA
ACAACAACAACAACAACAACACAAAAATGACACGCTTTGAGCGGTCATCG
CATGATGTGAACGAAACAAATCGACGGGGTTAGACCGCACGTTACGGAAG
CAAACTATTTTTCTTAATCTTTAGTTTTGGTGCGCGGGGTAGGGTGATCC
AAGAACAATTTCTCCATGTACACCAATTATGGGGGCAAAAAGTTCTTGGA
ATCTTGAAAACTTTTGGATCGAGATCGCGGGGATGGGTTTATGGGAAAAT
TAGGCGTTACTTTTGGGCGAGCCACACCTCCTCCAAAACTTGTTTGGAGG
GAGGGGGTCGATTGTGCCAATCCGCACGCAGACACACACCACACAAGTTG
CTGGAGACACAAATCACCGACAACACAAAAAATACAGAACGTAGCGCGCT
CATCAAAGGCTCGGGGCAACCCTACGTGCATTGCCTTGCCAACCTGGCCA
CTGGCCGGTGGCGATCATTGTGGAGTGTGCAAAAAAAACATTTGACCATA
GGCTTGAAGCTGGGGATGTCAAACAGCATTTTTGAGGCCCACAGAACAAA
AAACAGCTCTTCAAAAGACACCCGAGCACACCACACTCAAGTTCTCGCTC
CATTGAGCACATATCGCGCCGAAACCTGAAAGGGTAGGAGCTCCACTCAC
CATGTACGGCCAAGATGGCTTTGGTTTGGCGGTAGGATATTTCAATCAGC
AGGGAGTAGCGCTGTGTATACTTCGAGTATAACATCTGTTCGGAAAAGGA
TTTTGAAGGCAGCAGAGAAAGCTTTCTATTTTCACAAGAAAACAAAGACA
GATTCTGTTTTTTTTCGAAGCTCACACCCGCGAGTGCTGCTACTCCTTGC
TGGTTAAGTTACCCCACAGCCAGCCCAGCGCCCTGCCGGCGGTAAGCAGT
TAGGGGAGATCCCTATCTTCTTTACGTTTCAGGTTGATCTGTGCTCGATG
GAGCAAAAAATCGAGTGCGGTGTGGTCGGGTGTCTGTTGAAAAGCTGTAG
TTTTTGCTCTACGACAACGTACGGGTCTCAAAGCTCGCTGTTGACATTTT
CAGCTTCAGCCCTGTGGTCATTTGTTTACTTTTGCACGCCTGAAGAACGA
CCGCCACCGTCCAGCGGCCAGGTTGGCAAGGCAATGCACGTGAGGTTGCT
CCGAGCCCTGGATGGGCACCACGTTCGGTATTTATTGTGCAATGTGTGGT
TATACTTCGAAGTATTACCAGAGTGCGATGAGATGGGCCACCCATGTCAC
CCTCCCCACAGCAGTAGAGTCCTGGACCATACGAACGGACAGACATATGT
TAATGTTGGAAATGCAGAGCCTAAATCTTGGGGGGGAGGGAAGGGGGGGG
GGTACGGAAAGATGAAGAAAAAGATTTGGCTACCATAACGCGCGGTCTAA
GCCTTTATCATATTTCCAACGATAATGTCGCACCCCTCTTCTCCCTCCGG
GTCCGGGAAGACTGTAGATTTTTCACGTTACATGACTGACGCCTGCTGTA
TTTCTAACTCTACGGTAGCAAGCGTCGCCAGCGCCAAAGAAGGTGGCGTT
ACGAGAAAGTATCTAGTCAAGAGGTTTTGGACAACGTGTACAGATAAGGG
AGGGGTGTCAGTCGCCATGTTGGTGTGCACAGGTGAACCAAACACGACTA
CCGCTAGAAATCACGTGGGTTGACGGATCCAAACGTGTCCGACGAGTGTC
GGGCTGCATCGGTGTTACTTGCTGCTCCTTGTGCAGAGTAGAAAGCTACC
GAAGCCGAAACATAATAAAGCAAGCTGTTGAGAGCCAAACTTCAACTTTT
TTTACAAGCATTTTAATGTCCTGCTTGATACGTGAAGAGAGCGCGCCAGC
TTCGCGGACGATGCCCTGAGCGACTGGCCCTATCTTTATCGGGTGTGGGA
GCTCGTACATCGAGCGCTCAAAAACGAACCGAAATACGGCTGTACAGTAG
CGATGTGTGGGGATGTATACATACATTTTTCGTGTGTTTTTTCTGTTTTT
GGCTTCTGGATCTTTCGACCGCGCCGCTCTTTTGCTGCACAACCGGCTTG
CTTCGGGGCTGCTTCCCGAACCGACTGGCCACTATCATACGCCAACAGCG
CGAACACCGCTGGCCTATGAGTAGAGAGGTCGGGGCGGTGCATGCTGGCG
CAACGGTGGCGTACTCTCACCTTCTCTCTGTGTAAAACGGAGATTCATGA
TGACTGAAACCACAAAGAGAAAGGGAATAAATAGCGAAAAGCAGTGGGGT
TTGCTCCATACACTAAACGCGCCTAAAAAGGAAGAACTAAAAAAGAAGAG
CCCTTCCAGTAGCCCACAAAATCCATGTCAGGGCTCATCAGTAGGGTTTG
GCCCAATCGACCATTTCACGATGGTTGGCCGTCTTCGGGCGGTGCATGTG
CGATTCGAGTGCTGTTTCTTTCGTCGCCGTGTCCTTCGAGTTCCAACGCA
GAGGATCGCAAACCCGCTTGTATTAAGACAGGCGCAGCCTTTCCCTCGGA
TGAGCGGAAGCACCCAAAAATGTCCGTTTTTTCGGGCTCTCATCCCCAGG
GCATCACGTACAAACCACACTCCGAGGGAAATCAGAGCTACGATTTGACA
TACATCTTCTACCTGTACTTGATTTCGCTCACCTCGTCAGCCCAGTGCAC
TCCCGGGTCCCACTCAATCCACCCGGACCGTCGCTCTAGCACAAGCCTCA
CGGCGGCCGTCTATGTAAGGACGGGTGGCGTGTCAAGATTCAAGTCTTGA
CGGTGCTATAGGACTACGCGATATGAAAAAACGTTTATGGAACTCTCGAT
TCAAGTGATTTCGGTCACTTACGTTCTCCTTATTCCTTACTGTAGAGACT
TTTTTATTTCTCTTTCAAGCAACTATTGTCAAATGTTTTGGTGCCCCTTC
TCACGAACATACACTGCAAGGCCCAGTGGCCACCTCTCGAAAGTCTCATG
GCGCGGCCTTGTTTTTAATGTACATTTTCATGCTGTATGCCTTTGTTTTT
TCTCATTTTTTTTTCTTTTTTTTTGCAGCGGAACTTCTGGGTATCGGCAG
CGGAAAGTCTCGACTCACCAATGAACGTCTCTTGGAGCTCTTTCACCCGT
CCAACGCGGAGCTGCCGTACGTCTACGAAGACTTCACCAGCTGGGGCAAC
ACGGACGTGAACCTCCTGTAAAAATCAGAGGAACTTTTCCCCGCATACGA
TATTTCCATGTTAATGTTGTCTAGCGTGCCGTGTGGCGCTTGTCTATTTT
CGTGGCGGCCTTCGTCTAGAATTGCGTAGCAAACCCAAACGCAGTGCAGT
TGTGTTCGGAGGCGCCCGACAGAAACGAGAGATGAGTGTCTATCACATCC
TACGTCGCTGTTCGTTCACTGTATTGCGGACCGAACTCTGTGCTGAAAAT
AATTTGGTGACTTTGTGTGAAGTCTTACGTTCCGTGACGACACTGATTCC
AATTCATTCATGATAATAAGTGTTATCCGAAGCAATACATTTTAACGGCA
GACGTGGAGTATTCACCACGCATCAGTTTTTGTACGTTTTTTCAAGATGT
AAATTAGCGGGAATGTAATTACTTGTTGAAGTAGCGGGCGAAGCGCCCGA
AATTTTGTTATTTCGTTTTTTTGTGTTTTGTACAATGTGGTATGATGTAC
GAGTTTATTCCTTAGGTCTGTGAACGGCGTCTGAAGTCCTGAGTACCGGT
AGAGTTCCCTAGCATGTTACACGGAGTACGGTCCTTTGTCAGGTGGTCCC
GCGGGATCCTTACTGTCGTGAATTAATAGATATTTCGAGTCATCCTTTTT
TTTTTTTCCATTACCTCTACTGCTGAACCTGTGATATTCTTCACGCATTC
TCAGCTTTGGACTGGCTACGGCGGGACACGTCTCGGCGTGGTCAGCTGTG
CCCTTGTATCGTTCCGGGCGGCGATCTTGAGCGCATCTTGCGTTGCATCT
TTCTCATCGAATGAATTACTCCCGAGACTCTTTTGTGCGGCAGGTTTGTC
GGGTGGGCGAGATGCCAACCACCGTTGCCTGGAAGTTCTGCAGTAGTAAT
TCTCTTGCC
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Coding sequence (CDS) from alignment at P-littoralis_Contig674:39667..62775+

>mRNA_P-littoralis_Contig674.8.1 ID=mRNA_P-littoralis_Contig674.8.1|Name=mRNA_P-littoralis_Contig674.8.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2334bp|location=Sequence derived from alignment at P-littoralis_Contig674:39667..62775+ (Pylaiella littoralis U1_48)
ATGACGACCATCAGATACTTCCGAAAAGCAGGGAGGAGCATGATGGCTGT
GTGCCCAGCAGCAGCGCAGGAAGACATGAACGGTCTTCGAGACGGCGAGA
GCGGTTACGGTGCCGATGATCGACTCGAAGCGCGAGCAGCAATACCCGTT
CCTGTGGCAGCGGCAGATCCCGCCAAGAAGTGCCAGGCCCAGCCGGAGCC
TCCGCACCGTCGAGCGTACGGGACATCCCACCCTTCTTTTAGCTTCAGGG
AAGCATCACTACCACCGTCGTTTGACAATCCAACGTCTGCAGCAACATGC
CACCAGGAACATTCGTCCCTTCTCTCGAGCCGAAACAACAGCAGAACACC
AGCAGTAGAAGAAGGAAGAGGAGGAGGAGCACCGGGGGGCGGACTTTTGC
GGAGAGTCCTCGCGGGGGGAGCTGTTGCTCTCGTCGTCTTCGCCGCCGCG
GCGGCAGTGAGTAATGGACGAGCGTCGCAGGGGCCGGCTGGTGGTGCCGC
TGTCCGAGAAGCGGTGGCGGATTTCCCGAGCATGGTGGCTGAGAGACAAC
CGGAACGTCGCGACGGAGGCGGTGCTGGTCCCGTCTCCTCGCTCCAGGTT
CGAGCCTCCAACGAATACGGAGAATACGACGAGGCGTCGCTGAAGTTGTA
CGGACTGGAGATGGTGATGGAGCCGTTCCGGGACACGACTCTCGAAGTGG
TACACCCGCACTCGTCGGAGCTGGCCGACAACTTCGTCTGGCGTTTGCGC
TACGCGGACTCCTCGGGAACCACCGCCCAGAGCATTGACGATGCTTGGAG
CTTCACGGGAGGACCGAAGGCCACGGTTTCGGTGAACAAGCCCGGGACGC
TCTACATCCTGACCGTGCAGAACGTGGACGATGACGGCGTCGTCGTCGCA
GAGGCCAGGGTCAAGGCGTCCTGCAAATACGTTCGGCGCGAGATTCGACA
GCTCACGGACGGGGACAGGGAGGCGTTCTTCGACGCCATGCAGATCTTTT
TCACGATCCCAAACGCTGTTGGCAAGACCAAGTACGGCGAGGACTTTGAA
AACTACCAGAAAATCGTCGCGTACCACGATTCCAGGATCACCGACTACTG
CTACCACGACGGTCTTCAGTTCCTGACAAGCCACATTGCGTTCGACCTCC
TGATGGACCGCTACCTCCAGATGATCAATCCGAAGGTCGCTCTTCCTATG
TGGGACATGATGATCGAGGCTGCCACCATGGAAGACGAGTGGTACAACAG
CGTCATCTTCGACAAGGACTGGTTCGGGTCCGCGCTCGGATCTCCGGAGA
ACAGCTTCATGGTGACCGAGGGCCGCTTCGGCAACATCTCCTCAATCTAC
GACCCAACAAGGAGCATCGCCAAGGGCGCCATACGGGCGAACCACAACCC
TTACGGCTACGTGACGTCTGTCAGAAATTACCAGGATCTTCCGAGGCTGA
CACGCACTTCCTCCTATTGCGGGTTGACGTCGCACGCCACCTTTGCCACC
GCTGACACGTTCAGCGCGTGCTACGAAGAGAGCACCCTGTACAACTGGGA
GGACTGCATGGAAACGAAGGTGCACGGAGACCTCCACGGGCTACTGGGCG
GCGGTTTCAACTGCAACACCGACATGAACACCTTTTCTGAGCAACACCCG
GAGTACGAGCCGGGCCTCCTCTCCTTCGTGCTGGAGTACATGACCTTCAA
CTACTGGCCCATGAACTCCTTCATGCCCGACTACAACACGTGCGACACCC
GTTGCGAGAGCGGGCAGACGGAACCGTGCGGGTGCACTTGCAACGTCGAC
GCCTTCGCCCTCTCCGACGAAGAGACGTACAGCATCTGCCACCGATTCAT
GGCCGCCGCCTCGGAAAAGTTCACCGGCGACGAGTTCATCACGCACGACG
CGCACGCTACCTACCCCTACGGGTTCCTGAAGGACGGCGAGCGCATGAGC
GACGAGGAAGCGATCTTTCTGATGCGCTACATGGTGAAGATCGGCTGCGA
GCCGGGGAGCGTGGGGTACATGTCGACCGGCGCGAGCCCGATGGATCCCA
TCTTCTGGGTCTTGCACCCGATGTTCGAGAAGGCCCTGCACATCCTTTGG
CTCTCTCCGAAGTACAGCGAAACGTTCGACTTCGAGTGGGTCGACGGCAG
CTGCAGCGGCAGTGGTTACACCGACAAACTTCCCTTCACCACGGAACTTC
TGGGTATCGGCAGCGGAAAGTCTCGACTCACCAATGAACGTCTCTTGGAG
CTCTTTCACCCGTCCAACGCGGAGCTGCCGTACGTCTACGAAGACTTCAC
CAGCTGGGGCAACACGGACGTGAACCTCCTGTAA
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