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Homology
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: D7FI53_ECTSI (SMK-1 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FI53_ECTSI) HSP 1 Score: 829 bits (2142), Expect = 5.390e-285 Identity = 417/498 (83.73%), Postives = 434/498 (87.15%), Query Frame = 2
Query: 50 EGVGWRVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGG-GAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTDYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVEPFWLGDLSTEGETGSGGSNGEVPR 1540
EG GWRVKLYQLNDEGQWDDRGTGHISCR VESLGGTALVVLAE+DGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAAN G AA GA GVDLALSFQEN+GCLEIWDQI + QGRFGNEYGR RGGGEV VPLP+PKMDTLG +GEYV KLLKVFNDCEDL+DEESLRVLCHIFKAIVGLNDGTLLEVLLADN+FVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLT+FNNTEIVQSLQHTDYVRDVFLLLNEPE G+GG KRRDILMFLRELF+MAKTLQV +DAFYRHLWDEVPLFEVFIPVLKD A+V ERTACMEVLLASL HDPALFRTHILKEGGHPLLPP+VNNQAK G +ICRMALDTETMEGQPDRDTFLG+FYEHYVHWLVEPFW+GDLS EG G+NGEV R
Sbjct: 2 EGAGWRVKLYQLNDEGQWDDRGTGHISCRAVESLGGTALVVLAEEDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANSGVAAARGAAGVDLALSFQENVGCLEIWDQICDVQGRFGNEYGRPRGGGEVAVPLPDPKMDTLGA-----------------------SGEYVGKLLKVFNDCEDLDDEESLRVLCHIFKAIVGLNDGTLLEVLLADNLFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTYFNNTEIVQSLQHTDYVRDVFLLLNEPENGRGGQKRRDILMFLRELFNMAKTLQVAPRDAFYRHLWDEVPLFEVFIPVLKDPDASVMERTACMEVLLASLTHDPALFRTHILKEGGHPLLPPTVNNQAKSTSSAAGGGLGSGAKICRMALDTETMEGQPDRDTFLGVFYEHYVHWLVEPFWVGDLSNEGM----GANGEVAR 472
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A0A6H5KKJ6_9PHAE (SMK-1 domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KKJ6_9PHAE) HSP 1 Score: 636 bits (1641), Expect = 1.700e-204 Identity = 342/510 (67.06%), Postives = 369/510 (72.35%), Query Frame = 2
Query: 14 DADGEEGSSGDAEGVGWRVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGG-GAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTDYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVEPFWLGDLSTEGETGSGGSNGEVPR 1540
DA+ + G EG GWRVKLYQLNDEGQWDDRGTGHISCR VESLGGTALVVLAE+DGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAAN G AA GA GVDLALSFQEN+GCLEIWDQI + QGRFGNEYGR RGGGEV VPLP+PKMDTLG ILELL+GAGP AKE+YAGSLSEK+GEYV KLLKVFNDCEDL+DEESLRVLCHIFKAIVGLNDGTLLEVLLADN+FVDMAGVFEYDLELKEKG+HRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLT+FNNTEIVQ + + + TG+ R + AT + + C +L + T +L L+ +ICRMALDTETMEGQPDRDTFLG+FYEHYVHWLVEPFWLGDLS EG G+NGEV R
Sbjct: 77 DAETDARGGGGMEGAGWRVKLYQLNDEGQWDDRGTGHISCRAVESLGGTALVVLAEEDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANNGVAAARGAAGVDLALSFQENVGCLEIWDQICDVQGRFGNEYGRPRGGGEVAVPLPDPKMDTLGAILELLRGAGPAAKESYAGSLSEKSGEYVGKLLKVFNDCEDLDDEESLRVLCHIFKAIVGLNDGTLLEVLLADNLFVDMAGVFEYDLELKEKGNHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTYFNNTEIVQRVAN-----------KKKNTGEEHICRGGGGVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGXXXXXXXXXQCATSSSVSECRALLFWVIRRLTTDQDTGVL---------------------------LQAAEICRMALDTETMEGQPDRDTFLGVFYEHYVHWLVEPFWLGDLSNEGM----GANGEVAR 544
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A0A7S3YI92_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3YI92_HETAK) HSP 1 Score: 446 bits (1147), Expect = 1.580e-140 Identity = 239/428 (55.84%), Postives = 301/428 (70.33%), Query Frame = 2
Query: 59 GWRVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVPLPEPKMDTLGTILELLKGAGPQA-KETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSL-QHTDYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLD 1336
GWRVKLYQLND+GQWDDRGTGHISC VE LG ALV+L E++ +EL++SK++DEDVYQRQGDNIITW E NG+ GVDLALSFQEN GCLEIW+++ + QG++ +E+ E LPE KMD+L I E L GA Q KE Y L K+GEY++KLL++F+DCEDL+D E+L VL +IFKAI LND TLLEV+L+D FV +AGVFEYD ELK KGDHR FL + FKQVLPI D E+ KI QNFRI+FL+D LLRPMMDDA TL+SL FFNN+EI+Q+L Q +DY++ ++ L T + R DIL F RE+ M+KTLQ + +D FYR+L E F+VF+ VL D AT+ R CMEVL+ASL HDP+L R +IL++GGHP LP + + ++ D
Sbjct: 7 GWRVKLYQLNDQGQWDDRGTGHISCTFVEELGN-ALVILNEENQQELLKSKIIDEDVYQRQGDNIITWTEPEE-----------NGS-GVDLALSFQENAGCLEIWNKVCDVQGKY-SEFRPD----ESKYSLPECKMDSLSEIGEALAGASQQQQKEVYVNLLLAKDGEYLNKLLQIFDDCEDLDDLENLHVLVNIFKAIFSLNDPTLLEVILSDQFFVRVAGVFEYDPELKHKGDHRTFLQEKVQFKQVLPIEDPELGAKIRQNFRISFLRDVLLRPMMDDAYASTLSSLAFFNNSEILQALHQDSDYLKRLYALFLAKGTSR--QTRADILAFTREMVGMSKTLQPSVRDQFYRYLQSECLFFDVFVTVLADEEATIPARLCCMEVLVASLFHDPSLLRNYILQKGGHPPLPTNFGSASQAGRKD 414
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A0A7S2D4C1_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2D4C1_9STRA) HSP 1 Score: 331 bits (849), Expect = 1.900e-93 Identity = 205/511 (40.12%), Postives = 285/511 (55.77%), Query Frame = 2
Query: 59 GWRVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVV-DEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVP----------LPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTD---YVRDVFLLLNEPETGKGGDKRRDI------LMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDA-RATVAERTACMEVLLASLAHDPAL-FRTHILKEGGHPLLPPSVN-NQAKVDLLDVGCCCL-----------------RCCQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVEP 1471
GWRVKLYQLND+GQWDDRGTG I E+LG + V++E+ R+L+ S++ D D Y QG++IITW E G+ +DLALSFQEN GC++IW QI E QGR +G T + +P LPE ++ L I L A +E YA +L ++G YV LL VF+DCEDLED +L ++ +I K++V LND +L+E LL ++ + G EY +LK K DHRK L A F++V+P+ +E + +KI NFR TFLKD + RP MD+A TL+S FFNN+EI+ SL HT+ R V L ++ T K R+ L FL+E+ + AK +Q+T +DA + HL +E F+ VL+DA ++ER E+L ++ D A FR H+L GGHP +PPS + NQ + D L + + LDTE ME +RD FL +FY+HY+ WLV+P
Sbjct: 23 GWRVKLYQLNDDGQWDDRGTGKIRVDHAEALGTPCVHVVSEESSRDLVTSRITEDRDAYSLQGESIITWEERRGAQGS------------LDLALSFQENEGCMQIWHQIQEIQGRLTTGFGNTNIEADGPMPEEWPVGPPPSLPECRLANLDEIHRHLSSA-TNNREQYAAALLSEDGVYVKTLLDVFSDCEDLEDTANLTIIANIAKSLVLLNDMSLMEYLLTTELYSKVVGCLEYSTDLKHKADHRKSLETAAKFQEVVPM-NEIIREKILLNFRATFLKDIVTRPGMDEASTSTLSSFVFFNNSEILSSL-HTNCDLLKRVVEELKSQALTNASDSKERNFQSRSGALCFLKEMCNTAKNVQITCRDALFHHLVEETDFFQAITLVLEDADNMPLSERLMSAELLSNAVCWDGAASFRKHVLNSGGHPPIPPSDSKNQGEAGGTDKASSLLWHVVRLITSESDTGVLLHLLDVVKTCLDTEPMEPS-ERDKFLALFYDHYIKWLVDP 517
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A0A7S2SF67_9STRA (Hypothetical protein (Fragment) n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SF67_9STRA) HSP 1 Score: 278 bits (712), Expect = 7.910e-79 Identity = 166/449 (36.97%), Postives = 253/449 (56.35%), Query Frame = 2
Query: 38 SGDAEGVGWRVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVD-EDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVP---------------LPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQ-HTDYVRDVFLLL-------NEPETGKG-GDKRRDILMFLRELFSMAKT--LQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPAL-FRTHILKEGGHPLLPP 1300
S +A GWRVKLYQLN GQWDDRGTG I V+SLGG + +++E +G+E++Q ++V+ D Y QGDNIITW E ANGA +DLA+SFQE GC+ + +QI E QG ++ GG+ VP LPE ++ L I EL+ A P ++ YA +L ++ Y++++ +F+DCEDL+D E+L++L ++ +++V LN+ L+EV+L+ F + G EYD +LKEK + R FL A ++V+P+ DE + + F FL++A+ RP MD+ + +L+ + + + +EI+ L +TDY++ V + EP G G R L FLRE+ MAK +Q ++A + HL + ++E VL D++A+ ER C EVL +A D A R ++ K G HP PP
Sbjct: 4 SAEAAQQGWRVKLYQLNAHGQWDDRGTGQIRIVHVDSLGGPGINIVSEMNGQEILQCRIVEGRDAYSLQGDNIITWEER-----------GANGAA-IDLAVSFQEAAGCMHVMNQIQEVQGTL-----KSMPGGDEDVPIGPEPFSQSVPEFKALPECRVQNLSEICELVMNANPAHRDAYASALLAEDCAYLTRITHLFSDCEDLDDTENLKLLAYLMRSVVMLNEPNLVEVVLSPKFFEHVVGAIEYDPDLKEKANFRHFLQHEARLREVVPM-DETLRARCVDTFHAVFLREAVTRPGMDETALSSLSQIIYCSQSEILNRLHTNTDYLQRVVRCILDGGGEAQEPPPSTGPGSPRIQALCFLREMCGMAKINCVQAQTREALFHHLVGQTDIYEAVAHVLADSQASPRERRFCTEVLTQIVAFDSAASLREYVRKAGRHPPAPP 434
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A9SAB8_PHYPA (Predicted protein (Fragment) n=1 Tax=Physcomitrium patens TaxID=3218 RepID=A9SAB8_PHYPA) HSP 1 Score: 284 bits (727), Expect = 4.090e-78 Identity = 168/477 (35.22%), Postives = 262/477 (54.93%), Query Frame = 2
Query: 65 RVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRF------GNEYGRTRGGGEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSL-SEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTD-YVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEG-QPDRDTFLGIFYEHYVHWLVE 1468
RVK+Y+LNDEG+WDD+GTGH+S +E LVV+ E+D + L+ ++ +D+Y+RQ D II+W + P + DLALSFQE MGC IWDQI Q G E GGG LP ++ TL I +++ P K+ A + +KN Y+ KL+++F CEDLE+ E L ++ I K I+ LNDG + +++ +D+ G EYD +L + +HR +L + FK+ +PI D ++ KIHQ +RI ++KD +L ++DD T+NS+ FNN +V +LQ ++ +F L PE + RRD++ F++E +++K LQ + + L E LF++ VLKD +V R + ++L+ L +DPAL R ++++ H L V+ G + +I RM LD+ETM+G Q ++ FL +FYE Y+ +VE
Sbjct: 2 RVKVYRLNDEGKWDDKGTGHVSIEYLERSDAVGLVVIDEEDNQTLLVHRISADDIYRRQEDTIISWTD--PEVAT-------------DLALSFQETMGCTFIWDQICSVQRSIHFPSVAGMEITFCAGGGTDASELPSVELSTLPQIAKVVGEVLPFDKDRVASMVVHDKN--YIRKLVEIFRTCEDLENVEGLHLMFKIVKGIISLNDGHIFDIIFSDDYIXXXVGALEYDPDLISRQNHRAYLKEQVVFKEAVPIYDPTILSKIHQTYRIGYIKDVILPRVLDDQTFATMNSIMLFNNVSVVSALQSDSAFLSGLFSRLRSPEIPE--KSRRDLVFFVQEFCNLSKQLQPGVRSQLFSALAKE-GLFDILKDVLKDVEESV--RLSGCDILIVILNNDPALLRNFLVQQTNHTLFSELVSGMLTPS---EGGLQAQLLEIMRMLLDSETMDGPQVEKSPFLEVFYEKYMDQMVE 453
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A0A061R721_9CHLO (Protein phosphatase 4 regulatory subunit 3 n=2 Tax=Tetraselmis sp. GSL018 TaxID=582737 RepID=A0A061R721_9CHLO) HSP 1 Score: 286 bits (731), Expect = 1.030e-77 Identity = 179/494 (36.23%), Postives = 275/494 (55.67%), Query Frame = 2
Query: 65 RVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDN-IITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGN-EYGRTRGG-------------------GEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQH-TDYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPL----LPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVE 1468
RVK+Y+LN +G WDD+GTGH+S +E LVV++E+D R L+ ++ ED+YQRQGD+ IITW + P IG ++ALSFQE GC +W QI + Q R+ + R RG ++ LP + L I ++L +E A L E G+Y+ KLL +F CEDLED +SL L I K + LN+ L E+LL+++ +D+ G EYD ELKE+ +R+FL + FK+V+PI D++V KIHQ +RI+++KD +L ++DDA TL SL FNN E++ +LQ + ++ ++F L + RD++ FL+EL S+AK LQ T + + L D + +FEV V+K A + R + ++LL++L HDP+ RT ++K+ GH L + V++ K G + ++ RM LD E+ME +++ FL +FY+ Y+ LV+
Sbjct: 8 RVKIYRLNRDGLWDDKGTGHVSMEYMEQSDSVGLVVISEEDTRTLLIHRISREDIYQRQGDDTIITWSD--PEIGT-------------EIALSFQEAQGCSHVWGQIRDVQERYNPADSSRRRGAVDEFDMSANPMEQEPFAETNNLSAELPAVGLANLPDIAKVLTECTSFQRENVARQLIE--GDYLRKLLDLFRTCEDLEDRDSLNHLYKIVKGAIMLNETALFELLLSEDNVMDVVGALEYDPELKEQQKYREFLRERVVFKEVVPIKDQDVKAKIHQTYRISYIKDVILPRVLDDATFATLASLMLFNNVEVLMALQSDSTFLSELFGRLKSVNPQESD--WRDLVAFLQELCSLAKHLQATPRMQLFAKLVD-LGMFEVVTQVMKSGNAELRLRGS--DILLSTLQHDPSPLRTFLIKQDGHALFTLLVDSLVDDYPKSGSELCGGLQEQVLEMLRMLLDPESMEQSAEKNEFLELFYDEYIGKLVQ 479
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A9TSI1_PHYPA (Predicted protein n=1 Tax=Physcomitrium patens TaxID=3218 RepID=A9TSI1_PHYPA) HSP 1 Score: 274 bits (701), Expect = 1.040e-74 Identity = 167/494 (33.81%), Postives = 262/494 (53.04%), Query Frame = 2
Query: 65 RVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGN------------------EYGRT-------RGGGEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHT-DYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVE 1468
RVK+Y+LNDEG+WDDRGTGH+S +E LVV+ E+D + L+ ++ +D+Y+RQ D II+W + P + DLALSFQE MG IWDQIS Q + E G GGG + LP ++ L I +++ P K+ A S+ +N Y+ KL+K+F CEDLE++E L+ + I K ++ LNDG + +++ +D +D+ G EYD L + +HR +L + + K+V+PI D + KIHQ +RI ++KD +L +DD T+NS+ FNN +V +LQ+ ++ ++F L ET K RRD++ F++EL ++ K Q + + L E L ++ +LKD TV + + C ++L + +DPAL R ++++ H L V+ G + +I RM LD+ETME ++ FL +FYE Y+ +VE
Sbjct: 21 RVKVYRLNDEGKWDDRGTGHVSVEYLERSDAVGLVVIDEEDNQTLLVHRISTDDIYRRQEDTIISWTD--PEVAT-------------DLALSFQETMGSTFIWDQISSVQRSIHSPSVAGMACEQLICIMWFFEMGPNFLQSTFCEGGGSEALELPPVELFNLSQIAKVIGEVLPFDKDRLA-SIVVRNQNYIRKLVKLFRTCEDLENDEGLQSMFRIVKGLISLNDGHIFDIIFSDEYIMDIVGALEYDPGLPIRQNHRTYLLEHVNLKEVVPIHDSATLSKIHQAYRIGYIKDIILPRALDDQTFATMNSIILFNNVSVVSALQNDLAFLSELFSRLRSLETSK--KNRRDLVFFVQELCNLKKHPQPAVRSQLFSALVKE-GLLDIMKDILKDTDETV-QLSGC-DILTVIMNNDPALLRGFLVQQAAHTLFSELVSGMVTQS---EGGLQAQLLEIIRMLLDSETMEAVFEKSPFLEVFYEKYMDQIVE 490
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: C1MYR1_MICPC (Predicted protein n=1 Tax=Micromonas pusilla (strain CCMP1545) TaxID=564608 RepID=C1MYR1_MICPC) HSP 1 Score: 276 bits (705), Expect = 1.510e-74 Identity = 186/502 (37.05%), Postives = 279/502 (55.58%), Query Frame = 2
Query: 65 RVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQG-DNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQGRFGNEYGRTRG------GGEVTVP--LPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELK-EKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTD-YVRDVFLLL-NEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRC--CQICRMALDTETMEGQPDRDTFLGIFYEHYVHWLVEPFWLGDLSTEGETGSGGSNG 1528
RVK+Y+LND G WDD+GTGH+SC +E LVV++E+D + L+ ++ ED+YQRQG D IITW + P I D+ALSFQE +GC IW+QI A + E+G G E T P LP ++ T+ +++++ P A+E A SL +NG Y+ KLL +F CEDL+D++ L ++ + + +V LND L + LL D+ +D+ G EYD +L E+ HR FL + FK+V+PI D +V KIHQ +RI +LKD +L ++DDA GTL S+ FNN E+V +LQ+ +++++F L N P T D D++ FL+EL S+AK LQ+ + + + L LF V VLK + + A +VL+++L +DP+ R ++K+ H L + V L G L+ ++ ++ LD ETM+ ++ FL +FY+ YV LV G E G GG G
Sbjct: 23 RVKVYRLNDSGHWDDKGTGHVSCEYMEQSDSVGLVVVSEEDQQPLLVHRISREDIYQRQGGDTIITWTD--PDINT-------------DIALSFQEAVGCNYIWEQIKGAVDEY--EFGSAPGDSFYQDSAERTGPSELPPAELGTMSELVKIVVDCSPFAREKIA-SLVLQNG-YLRKLLDLFKTCEDLDDQDGLHMMYRLVRGLVLLNDAALFDELLRDDNVMDVVGALEYDPDLPVERTQHRVFLRDSVVFKEVVPIQDADVRAKIHQTYRIGYLKDVILPRVLDDATFGTLTSIMLFNNVEVVLALQNDPTFLKELFARLDNTPRTNPDWD---DLVGFLQELCSLAKHLQIQQRGSLFAALVQH-GLFYVLTDVLKTDSESSQLKGA--DVLMSTLHNDPSALRAFLVKQDQHALF------ERIVTLFVEGEEGLQAQLFELLKLMLDPETMDQPVEKSGFLELFYDTYVDRLVTSVNAG---VRDEPGPGGGEG 490
BLAST of mRNA_P-littoralis_Contig63.73.6 vs. uniprot
Match: A9SZS3_PHYPA (Predicted protein (Fragment) n=1 Tax=Physcomitrium patens TaxID=3218 RepID=A9SZS3_PHYPA) HSP 1 Score: 271 bits (692), Expect = 9.500e-74 Identity = 170/496 (34.27%), Postives = 265/496 (53.43%), Query Frame = 2
Query: 65 RVKLYQLNDEGQWDDRGTGHISCRTVESLGGTALVVLAEDDGRELMQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQENMGCLEIWDQISEAQ---------GRFGNEYG----------------RTRGGGEVTVPLPEPKMDTLGTILELLKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIFKAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASFKQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNTEIVQSLQHTD--YVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQVTAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPALFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETMEGQ-PDRDTFLGIFYEHYVHWLVE 1468
RVK+Y+LNDEG+WDD+GTGH+S +E LVV+ E+D + L+ ++ +D+Y+RQ D II+W + P + DLALSFQE MGC IWDQI Q G+ G R GG EV + LP ++ L I + + P ++ A S+ ++ Y+ KL+++F CEDLE+ E LR++ I K I+ LNDG + +++ +D+ +D+ G EYD + HR FL +FK+ +PI D ++ KIHQ +RI ++KD +L ++DDA T+NS+ FNN +V +L H D ++ ++F L PET + RRD+++F++E +++K LQ + + L E LF++ +LK++ V R + ++LL L HDP L RT ++ + L V + L +I RM LD+ETM+ D+ FL IFYE Y+ +V+
Sbjct: 3 RVKVYRLNDEGKWDDKGTGHVSVEYLERSDAVGLVVIDEEDNQTLLVHRISADDIYRRQEDTIISWTD--PEVAT-------------DLALSFQETMGCSFIWDQICSVQRSVQLMSVGGKNTRPVGDDLEHSGTSQDDDDAFRESGGPEV-LELPPAELSNLPLIAKTVAEVMPFDRDRVA-SMIVRDQNYIPKLVQLFRTCEDLENLECLRLIFKIVKGIISLNDGLIFDIIFSDDYIMDIVGALEYDPDATNFHKHRTFLKDQVNFKEAVPIRDPVILSKIHQTYRIGYIKDVILPRVLDDATYATINSIMLFNNVSVVTAL-HNDPAFLSELFARLRVPETPERN--RRDLVIFVQEFCNLSKHLQPVMRGQLFSTLVKE-GLFDIVKDILKESDEVV--RLSGCDILLVILNHDPTLLRTFLVHQSDLTLFGELVEGMLTPSEDGLQAQLL---EIMRMLLDSETMDSPLVDKSLFLEIFYERYMDQMVQ 472
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D7FI53 |
| Preferred name | SMEK2 |
| PFAMs | SMK-1 |
| Model size | 4288 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K17491 |
| KEGG Pathway | ko04212,ko04922,map04212,map04922 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000003,GO:0000075,GO:0000228,GO:0000775,GO:0000785,GO:0000790,GO:0003674,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005694,GO:0005737,GO:0005813,GO:0005815,GO:0005856,GO:0005938,GO:0006109,GO:0006111,GO:0006139,GO:0006259,GO:0006281,GO:0006282,GO:0006464,GO:0006470,GO:0006725,GO:0006793,GO:0006796,GO:0006807,GO:0006935,GO:0006950,GO:0006952,GO:0006974,GO:0007049,GO:0007063,GO:0007154,GO:0007165,GO:0007275,GO:0007346,GO:0007399,GO:0007405,GO:0008047,GO:0008104,GO:0008150,GO:0008152,GO:0008283,GO:0008287,GO:0008356,GO:0009314,GO:0009411,GO:0009416,GO:0009605,GO:0009607,GO:0009617,GO:0009628,GO:0009889,GO:0009891,GO:0009893,GO:0009966,GO:0009968,GO:0009987,GO:0010165,GO:0010212,GO:0010564,GO:0010604,GO:0010639,GO:0010646,GO:0010648,GO:0010675,GO:0010676,GO:0010906,GO:0010907,GO:0010921,GO:0010948,GO:0015630,GO:0016311,GO:0016604,GO:0016607,GO:0017145,GO:0019208,GO:0019211,GO:0019216,GO:0019219,GO:0019220,GO:0019222,GO:0019538,GO:0019888,GO:0022008,GO:0022402,GO:0022414,GO:0023051,GO:0023052,GO:0023057,GO:0030154,GO:0030234,GO:0030289,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031399,GO:0031974,GO:0031981,GO:0032268,GO:0032501,GO:0032502,GO:0032991,GO:0033036,GO:0033043,GO:0033044,GO:0033045,GO:0033046,GO:0033313,GO:0033554,GO:0034641,GO:0035303,GO:0035304,GO:0035556,GO:0036211,GO:0036445,GO:0040011,GO:0040020,GO:0042221,GO:0042330,GO:0042742,GO:0043085,GO:0043170,GO:0043207,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043255,GO:0043327,GO:0043412,GO:0043666,GO:0044093,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044430,GO:0044444,GO:0044446,GO:0044451,GO:0044454,GO:0044464,GO:0045165,GO:0045175,GO:0045722,GO:0045739,GO:0045786,GO:0045787,GO:0045835,GO:0045875,GO:0045913,GO:0045930,GO:0045931,GO:0045935,GO:0046483,GO:0048103,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048584,GO:0048585,GO:0048699,GO:0048731,GO:0048856,GO:0048869,GO:0050789,GO:0050790,GO:0050794,GO:0050896,GO:0051052,GO:0051054,GO:0051128,GO:0051129,GO:0051171,GO:0051173,GO:0051174,GO:0051179,GO:0051246,GO:0051301,GO:0051321,GO:0051336,GO:0051445,GO:0051447,GO:0051598,GO:0051704,GO:0051707,GO:0051716,GO:0051726,GO:0051783,GO:0051784,GO:0051983,GO:0051985,GO:0055057,GO:0055059,GO:0060255,GO:0061351,GO:0062012,GO:0062013,GO:0065007,GO:0065008,GO:0065009,GO:0070013,GO:0071704,GO:0071944,GO:0072089,GO:0072395,GO:0072411,GO:0072462,GO:0072542,GO:0080090,GO:0080134,GO:0080135,GO:0090304,GO:0098542,GO:0098687,GO:0098722,GO:0098772,GO:0099568,GO:1901360,GO:1901564,GO:1901976,GO:1901977,GO:1902494,GO:1902659,GO:1902660,GO:1903046,GO:1903293,GO:1904289,GO:1904290,GO:2000001,GO:2000002,GO:2000241,GO:2000242,GO:2000779,GO:2000781,GO:2001020,GO:2001021,GO:2001022,GO:2001032,GO:2001034,GO:2001251 |
| Exons | 18 |
| Evalue | 2.22e-260 |
| EggNOG OGs | KOG2175@1|root,KOG2175@2759|Eukaryota |
| Ec32 ortholog description | Domain of unknown function DUF625 |
| Ec32 ortholog | Ec-10_003590.1 |
| Description | signal transduction involved in meiotic cell cycle checkpoint |
| Cds size | 1536 |
| COG category | S |
| BRITE | ko00000,ko00001,ko01009,ko03400 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791313.7951212-UTR-P-littoralis_Contig63:370244..372201 | 1680791313.7951212-UTR-P-littoralis_Contig63:370244..372201 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 370245..372201 - |
| 1680791313.8149867-UTR-P-littoralis_Contig63:372514..372690 | 1680791313.8149867-UTR-P-littoralis_Contig63:372514..372690 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 372515..372690 - |
| 1680791313.8257647-UTR-P-littoralis_Contig63:373744..373947 | 1680791313.8257647-UTR-P-littoralis_Contig63:373744..373947 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 373745..373947 - |
| 1680791313.843064-UTR-P-littoralis_Contig63:374931..375034 | 1680791313.843064-UTR-P-littoralis_Contig63:374931..375034 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 374932..375034 - |
| 1680791313.8557131-UTR-P-littoralis_Contig63:377157..377267 | 1680791313.8557131-UTR-P-littoralis_Contig63:377157..377267 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 377158..377267 - |
| 1680791313.867069-UTR-P-littoralis_Contig63:378330..378334 | 1680791313.867069-UTR-P-littoralis_Contig63:378330..378334 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 378331..378334 - |
| 1680791314.0395865-UTR-P-littoralis_Contig63:389239..389438 | 1680791314.0395865-UTR-P-littoralis_Contig63:389239..389438 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig63 389240..389438 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791313.8770323-CDS-P-littoralis_Contig63:378334..378570 | 1680791313.8770323-CDS-P-littoralis_Contig63:378334..378570 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 378335..378570 - |
| 1680791313.8861046-CDS-P-littoralis_Contig63:379390..379567 | 1680791313.8861046-CDS-P-littoralis_Contig63:379390..379567 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 379391..379567 - |
| 1680791313.8992224-CDS-P-littoralis_Contig63:380589..380636 | 1680791313.8992224-CDS-P-littoralis_Contig63:380589..380636 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 380590..380636 - |
| 1680791313.914664-CDS-P-littoralis_Contig63:380874..380996 | 1680791313.914664-CDS-P-littoralis_Contig63:380874..380996 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 380875..380996 - |
| 1680791313.929234-CDS-P-littoralis_Contig63:381907..381964 | 1680791313.929234-CDS-P-littoralis_Contig63:381907..381964 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 381908..381964 - |
| 1680791313.942859-CDS-P-littoralis_Contig63:382747..382880 | 1680791313.942859-CDS-P-littoralis_Contig63:382747..382880 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 382748..382880 - |
| 1680791313.9577854-CDS-P-littoralis_Contig63:384125..384283 | 1680791313.9577854-CDS-P-littoralis_Contig63:384125..384283 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 384126..384283 - |
| 1680791313.9696143-CDS-P-littoralis_Contig63:384608..384725 | 1680791313.9696143-CDS-P-littoralis_Contig63:384608..384725 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 384609..384725 - |
| 1680791313.979753-CDS-P-littoralis_Contig63:385225..385357 | 1680791313.979753-CDS-P-littoralis_Contig63:385225..385357 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 385226..385357 - |
| 1680791313.992511-CDS-P-littoralis_Contig63:386164..386233 | 1680791313.992511-CDS-P-littoralis_Contig63:386164..386233 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 386165..386233 - |
| 1680791314.0043807-CDS-P-littoralis_Contig63:386708..386846 | 1680791314.0043807-CDS-P-littoralis_Contig63:386708..386846 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 386709..386846 - |
| 1680791314.019652-CDS-P-littoralis_Contig63:387709..387847 | 1680791314.019652-CDS-P-littoralis_Contig63:387709..387847 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 387710..387847 - |
| 1680791314.0304704-CDS-P-littoralis_Contig63:389227..389239 | 1680791314.0304704-CDS-P-littoralis_Contig63:389227..389239 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig63 389228..389239 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig63.73.6 >prot_P-littoralis_Contig63.73.6 ID=prot_P-littoralis_Contig63.73.6|Name=mRNA_P-littoralis_Contig63.73.6|organism=Pylaiella littoralis U1_48|type=polypeptide|length=512bp
MQSKVVDEDVYQRQGDNIITWCEAPPLIGAANGGGAANGATGVDLALSFQ
ENMGCLEIWDQISEAQGRFGNEYGRTRGGGEVTVPLPEPKMDTLGTILEL
LKGAGPQAKETYAGSLSEKNGEYVSKLLKVFNDCEDLEDEESLRVLCHIF
KAIVGLNDGTLLEVLLADNMFVDMAGVFEYDLELKEKGDHRKFLTQTASF
KQVLPIPDEEVVQKIHQNFRITFLKDALLRPMMDDAVVGTLNSLTFFNNT
EIVQSLQHTDYVRDVFLLLNEPETGKGGDKRRDILMFLRELFSMAKTLQV
TAKDAFYRHLWDEVPLFEVFIPVLKDARATVAERTACMEVLLASLAHDPA
LFRTHILKEGGHPLLPPSVNNQAKVDLLDVGCCCLRCCQICRMALDTETM
EGQPDRDTFLGIFYEHYVHWLVEPFWLGDLSTEGETGSGGSNGEVPRPGG
GDRGCEDGGLEPCRQGGGGGMRGRGGREIENAAGVAGAHLRPPVVLRPKP
YLPDEVLCAPE* back to topmRNA from alignment at P-littoralis_Contig63:370245..389438- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig63.73.6 ID=mRNA_P-littoralis_Contig63.73.6|Name=mRNA_P-littoralis_Contig63.73.6|organism=Pylaiella littoralis U1_48|type=mRNA|length=19194bp|location=Sequence derived from alignment at P-littoralis_Contig63:370245..389438- (Pylaiella littoralis U1_48)
TCCAGATCCAGACGATGCAGACGGAGAAGAAGGGTCTAGCGGGGACGCGG
AGGGGGTGGGTTGGAGGGTGAAGCTGTACCAGCTGAACGACGAGGGGCAG
TGGGACGATAGGGGAACCGGTCACATTTCGTGCCGGACGGTGGAGAGCTT
AGGAGGCACGGCGCTGGTGGTGCTCGCCGAGGATGACGGCAGAGAACTGA
TGCAATCCAAGGTAAAGCGTTGCTTGATGTTGTTGTTGCTGCTGCTGCTG
CTGCTGCTGCTGCTGTTGATGTTTTTGTCGGTGGTGTGGTGTTTGAGGGT
AGATTGTGCATTTCTTATTTCGCTCCGGACTTGCTCGAGAAAGAGACATC
TCATGGGCGCAAAAAAACACGGGGGCAAAATGCGCCCAGGGTTGACGTCG
GTGGGTTGCCCACGACACTCATCGACCGCGTTCTAAAAAGCAAATCAAGT
TCCTTTCCGGAAACAGCAGTAAACGGGTCTCACGCGCCACTCTCGTCGCG
CACATACTGGCAGTTTCCAGACAAAGCCAAGTATTTCCGCTCGCTCGCTC
GTCAGCAGGCAAGTCCTCCATTTTTCTTATTTAGGCACAACTTAGTTCTA
AGAAGCAACATGAAGGCTCCTCTCCGTGTCCCGTTTTTCGTTGTGGCTCT
GGATCTCGAGGTTGTTGACGATTTTCCACACGCAGCAGCAACAGCAACGG
CAGCAGTGCTTCGATCTTTCCTTTCCCACGAATGAATGGTCTTCGCTTCC
TCGTTGCCTTGCGATTATATACGGGACAAGAGTCGGTGCCGTCTGCGTAG
CGAATGAGGATGCCCTTCGCTTTTCGTCCGGTATCGCATGATCTATCACG
TGCCACCTCACAGCGTGCTGGCCGGTATACGTCCATGTTAGTAGCATGTC
GTAGCAATAGAGCCACTCCCCCCCACCCCCCCTTCGGCTATACCCCTAGA
CGAACGCTATACGCTACATACGCCTGAACGAAACCTTTGCGTGAAGACTT
TAGCGTCTCGACCTCCCCCTCCCCCCCCTTCCTCAAGGAAGGCGCTCGTG
TTTGGCAGAGCATTGTTTGTATGATATGGGCCGGTGCGACTCCCCCGTTG
ATTCAACCAGACTCAACCAGGGGAGAAAAAAAAAAAAAGCGTGGGCACAT
GTCACAGCACCTCACAGAACATAACACAGTACAACTTGTAACACTTGGAA
CACGACGCAACGCGACATGGACACGCCGGACGACAACACACACCAGAACG
CTTCGCGTCGTTCCCGCTTGCACGCTCGGTGTGGTGCCGTCGTATCGTAT
GAACGATACCTCGCTGGTTGTCGCTGGTTGGTGAAAGAACGAAGAAAAAA
ACGACGTTGTCCGTCCACCCGCTTTGAGTTTGCTTGAACGCGAGGGTCTG
CGAAACACGGTGAAGCAGTACCGGATAGCACGCAGTGGCCATGAAAATAT
TGATACTAGTACATATTTACCCCCATTCTTAGTACTCCGTAGTATCTTTC
TGGTCGAATGATTTGCAAAACGGAAAAACGAGTTTACAACCCCCCCCCCC
CCCTTCCCGCGCTGCTCACTTTGTCGTGTTTTATGGCACAGGTGGTGGAC
GAAGACGTTTACCAGCGACAAGGGGACAACATCATCACCTGGTGCGAGGC
CCCTCCTCTTATCGGGGCGGCGAATGGGGGGGGCGCCGCGAATGGGGCAA
CGGGGGTGGACCTAGCTCTTAGTTTTCAGGTGAGCCGAGAGGGAAGAGGT
TCTGAGAGGGAGAGGCAGACAGACCGACAGGCAGATAAAAAAGGACGCAA
AGAGAGACAGAGACAGAGACAGAGGAGAAAGGGGGCAAGAGGCGAAAGGG
AGGTTTATATTCCGCGACTTGGGTGTAGAATGAGGGAGTGCATGATGGGG
GATAAATCTTAAATTGGAAAGGGGGGGTGTGCCGTGCTCGTGTGTACGAA
ACAAGGGTGTGGAGGTCTCCATGTTACGGGCTGTTTTTTTGTTTTGTTTT
TTGGGTCTTGCATTGGTGTGTCGGTGTAGTTGGTGGTCTTGGTTGTTGAC
GTCGATGTAGACGTTGACGTTGGCGTTCGCTTTTGCGTCGACTGGCCACG
GGTGATGCGCAGGTTTTGGTAAATATGGCTGTCCTTGTGTGCCACAGTCA
GGCGTGGCTGACGGCTGTCGGCATTGGGATTGGGATTGGGATTGCGCTAG
CCCGCTGTTGATTTTGTTTTCGCCAGGCATCGTTGCTGCAGTACAGCATG
ATGCTGCGGTCGATTACCGTGTATCGTTGTGCGGCCGGGCATGACGCTCG
CTCACTTGCTCGATCACTCGCGTCGAGGCTTTTAAGAGAGGTGGAGGCAC
TGCTGGTTCCCACATTTGTTACATACGATAAGAATGCTGAGAAGCAACGG
TGACTTTTGTTTTTCAAGCTGCAAGTTTGCTGTTGCCGTTCCGCACTTTT
TATTGTCAAAAAACTAAAATAACAGACTCCCGCACAACGGGAGGAAGTCA
AATCAAACGAACACGAGCACTCGTTGATGATGCAAGGCAAACTTGTTCAC
ACAAAAGTTTCAACCGAAACATTTTTATTTTTTACGCCGCAGGAGAACAT
GGGGTGCCTTGAAATTTGGGACCAGATCTCCGAGGCTCAGGGTCGGTTCG
GGAATGAGTACGGCCGCACGAGGGGCGGTGGAGAAGTGACGGTGCCGTTG
CCGGAGCCCAAGATGGACACCCTCGGGACGGTGAGACTACAGCAGCCAGG
GGGGGAGGGGTGGGGGGGGAAGGGTATCCAGAGGGGAGAGGGAGGAGGGC
TATGTTCGACGCAAATGGATTATTCGGAGTAGGCGCACCAAATTTGACAG
GCATTTTACTACCGCAGGTGCCCAGGGTAATTTTTTTTTGTATCACATCT
AGGATTTATTTGCGGTTGCCCTTGCAGCAATAAATTACCAGGTACTTCTT
ATCATACGAAGTACCGGTTTTTGTCGTTGCTTTTTTGTTTGTTTGTTTAG
TTTTGTGCATGCTACGGTAACTTCTTTATTGTTCCTGCTGCGTGGGGTGG
AGGGAGCCGAGCAGGGGGGGCGAGTCGTCATGTTGTCGCTCAAGTCGTCG
TGATGTGGCTTGTGTCACATGACATGGGGCGACAATTTACGTGGCGTCGC
GCACCCTGCACCTCTCCTGTTCATGCCGCTTCTATTTTTTTTTGGTGTGG
TGAAGATCTTGGAGCTGCTGAAGGGAGCAGGTCCGCAAGCAAAGGAGACG
TACGCGGGATCGCTATCGGAGAAGGTGTGTCGTTGTTACGGGTAGTGGTG
GCTGGTGTCGGTGTTGGGTTAGTTGTTGTCAGGAGTGGCGTTGGTCCTAG
TGTTTTGTTTTCGTTGGTGTCGGTGTTGTTGGTGGTGTCGGTGGTGTGGG
GAAGTAGGTGAGGTTGGAAGTGGTGTTGGCGGTGTTGGTGGTGTGGGGAA
GTAGGTGAGGTTGGTGGTGGTCTTGGCGGTGTATACGTTGTGGTGTAGGT
GCACATACATTACGGGCATGATGCCGTTGCCATTGCCGTTGCTGGTGTTT
TAAAGTGTATGTGGAAAGACGTGTGCGCATTTTACAGCGCGTTGTTTGTC
GTTGTTATTCGTCGTTGCGTGTCTGGTTTTGCTCTGTTGTAGTCCTCGTG
GTGAGCAGTTTCTCATTCTGGTGTTGAGAGTTGTGTGTATTTTTGTTGTC
GTTGGTGTTGGTGTTGGTGTTGTTGCGGTAGTCGTAGTTGTCGGTGTTAT
TGCGCTGTCCCGTGTTGTCTCGGCCATCTTCTGTAGTTCTACGATGTCGC
AGCGGCGGTCTGGGTTCACTTCGAAATATGATATCATGCGTACACCCAAA
AGTATATGTACTCCGAAATGTTGTGCTTGGTATATTATCATACACATACT
TTCAGGCATACAGAGGTCGCTTTGATCCCGGCCCGATAACCGTTTGTTGC
ATCTTCCACTCGTTTTAACGCCGTGTCGCGTTATTTCCTGCGGTGTGTGT
GTGTGTGTGTGTTTTCCCACGCTTTTGACGGCCGCTGGGGATGGGGTACG
GATGGATGGGGTTTTGGGGGTCCGAGAGCAGAACGGGGAGTACGTGAGCA
AGCTCTTGAAGGTGTTCAACGACTGCGAGGATTTAGAAGACGAGGAGTCC
CTCCGTGTACTCTGCCACATCTTCAAGGCTATCGTGGGCCTCAACGACGG
GACGTTGTTAGAGGTAAGCGGTCGGGGAGCCACGAGGGAGGGAGGTCAGT
GTGAGATGAATACGTTTGTACTTCGGCGGGAAAGGGTGGGGGTGTCGTAT
GTGAAACCGACGTTGAGGTGGGTGGGTGGGTGGGCGGGTGTTGAGATTAT
ACGCAGCACTGCGTTTGGGATTGGGAGAGACAGGAGGGCGCGTGGTCGCG
TGGAATGTATTTTTTCTCCTTGATTGGGTTTCTCCGCACTACAATGCCAC
GGCCTCAGGTTTTATGGGTCGTTTTTGGCACGTTCTGGGTCATGTAAACG
GGAGTTTTCATTTTTTGTTTCGGTACCCCCATTTTTTCTTTTGTTATTTT
CGCCATGCATCATGAGTGCGTGCGTGCGTGTGTGCGTGTGTGCTCCGCTC
TCACGCGCTTTCCTTTGATCACGTCGACGCTCCTGGTCGGTGATATGTGC
TGTGAGGTACCGCACTGCGGTGTTAATTTGTGCAGTTATTTGTTGCATTT
GTTTAATTGACAGGTGCTCTTGGCCGACAATATGTTCGTGGACATGGCGG
GCGTGTTCGAGTACGACTTGGAGCTCAAGGAGAAAGGGGACCACAGAAAG
TTCCTCACGCAGACAGCGTCGTTCAAGCAGGTGTGTACGATGCCGCAGGT
TGCCGTGTGGTGCCGCATGATGATTCACGGCGAGGGGCGTGACGCGAGAG
AAGACAGCGAAGAAAAAGAAAGAAAAAGATTAATCCTTTCCGCCTTGCTT
TTCATGTCGTATACCTGTTCGCACACTGCGAAGCACTTCTGATATGGCCG
AATTCCTCTCTGTTTGCCTGTCTCGTCTGTCTCGTCTGTCTCGTCTGTCT
CGTCTGTCTCGTCTGTCTGCCTGTCTCGTCTGTGTCTCCTCTCTCTCGGT
ATCTCTTGATGTCTCTCTCGGTCGTCCTGTGGTGCTCCGCCACGCACGCG
ATCAGGTGCTGCCGATTCCGGACGAGGAAGTGGTGCAGAAAATCCACCAG
AACTTTCGGATAACGTTCCTGAAGGACGCGCTGCTCAGGCCCATGATGGA
CGACGCTGTCGTGGGCACGCTTAACTCCCTCACCTTCTTCAACAACACCG
AGATCGTTCAGAGGTGTGTGTAAGTTTGTGTGGGTGTTGAACTTGGCGAA
CGCGCAAGACAAAACGTGAAAGGGCTGGAATTGAATTGCAAATAGTTCGA
GTAAATATTTCTCAGTAGAATTGCGTCGCCAATGTTCTTAGACCAAAAGG
CAAACAAGCAAACAAGCAAAATTATTTTTTTGTATCATGCAGCAGCATTG
TCCTTTCTGTTCTTTCGGGTTTTTTTTTTTTACACGTTTTTTTGCCACCC
TTCGCTGAAACGAAGAGAGTTGCGCGACCTCTTCGCATCCTCTTGCAAGT
CTGATGTTTGTACTTCCGCACCCTGATCATCATGACTTTGATTTTGATTT
TCTGGTTGGGTACTGGTGTTTTTTTTTTCCATTGTATCTTTTTCAGCATC
GTTTCCTCTTTTCGGGGCCCGTTTGATGTCATCGGATTGTTTTTTTTTGT
CTTGTCCTCTACTACGTAGGCAGCTGGCATTTTCCCGCGCATCATGTTCG
TTAAGAGTACCCACGGAAAATCGATCGACCCCTGTGGGTGCGTCAGCGGT
ACGAACAGCAGCAGAGGGTACACTGACCAAAAGTCGGGACGGACACAACA
CGACAACACACCCATTTTTTCTGACCTCTCTTCTCTCTCCCTCTCTCTCT
CTCTCTCTCTCTCTCTCCCTCTCTCTCTCCCTCTCGTTTTATCTCTTCTC
TTTTCTCTCTTTCTCTCTCTCTCTCTCCCTCTGTTTTATTCCTTTTCTCT
CCGCCCGCGCACTCATTCAATACCTGGATGTCATGTGCGTGTGCATCGTG
CCCCCCCCCGCGCCACGGGACAAACGAACGGGATTCGAAACATGGCCTCA
ACGAAATGGCGGAACACGGGACGAATGGATGAATGGATGATGAACGGCTG
ATCAACGGACAAACGAACGACATGTAACGGAACACGCATCGAACTAAAAC
GCTGGACACGGAACATGAATAATTGAATGCACATATGCGTGCATGGATGC
ATACACGGATCACGGAATCAACAAAATGGACAAAAACGCGGCCGCGGAAT
CAACAAAACGGCGGAACGCGCCATAAACTACACGATGCGCGCTTGGGGGG
GGGGGGGGGGGGATCAAAACCAACCAACTGCGCGATATGATATCAAAACC
GACACCGACGTGGGGGGGAACACGCAAACAATCGAACGAACGAACGAACG
AACGAACGAAACGGAATGACGGAACGGAACGCGTACGGAACGGTATAACA
CGGGACAGCTTGCAACACACAGACTACGTCCGGGACGTTTTCCTGCTCCT
GAACGAGCCGGAGACCGGGAAGGGGGGCGACAAGCGGCGAGATATCCTCA
TGTTCCTGAGGGAGCTTTTTAGCATGGCCAAGACGCTGCAGGTACAAGCA
CAAGTACAGCAGCAGCAGCAGTTAGCAGTAGATGGAGAATAAAGCATGCT
GAGGCTGGCAGTAGAGAATAAAGTGATGCTGCTGGTCTGTTCCACATGAA
GTTTTTGTAGGTGGTCGCTGCTGCGAAGGTACACACGGCACATTTATAGC
CCCGTGCGGTTTGCCTTGTGAAAGCAGAGTGTGCTCTTTTGCACTCTAGC
AAAGCAGCGGTGGTCGATGCAAATGTGGAGGTACGGGTCATGTACGGAAA
CCCTGCAGGCACTTCTGCTGTGTGGTTTCGACGTAAAACACTAGATGGCA
ATCGATCCTGTGCACAGCTTTTCGCTATCACCGGCATGCGTATACTCGTA
CAGCACACTGATATATATATTGTTCACCTCCCGCGCCGTTGTACGATGTA
GCTATCGCGAAAGAAAAGCAACAACAGCAGTAAAAAAAATGTGTTTTTTA
ACACTTCTTGTACTACCTGTAGTCTTCACGTGACATCACATGATACTTGG
ACGAGTGCTGTTAAAAAATACGGAGTATTAGTATTTCCCGGCGTGCATGT
GGTTCAGTTTCGTGCTCATCTCCACTGTACTTTTCTGCCGACTGCCGACT
GCCGGTCGCTGGTGGCGGACAAGGTGGTTAGTTGTCACATCCAAAAGCCG
ACGCGGTATGATGGCAGTAAAGTTAACTGGCGGGACTCCTTGGGGTGTTT
TCTGGGCGCGTTGTCACTGATGCCTGTTTACCCTTTCCACCACCTCCCCC
CCATGCCCCTCCTCGCCCCATAAGGTAACGGCCAAGGATGCTTTTTACCG
ACACCTTTGGGACGAGGTGCCGCTATTCGAGGTGAACATTGAGTGCCTCT
ATGGTGCTCCTGTGTATAACCTCGAGTGCAGTCTCCCTGGTGTCATATGC
TGTGTTTTGTATTGTGCGTCGCCCCCCGTTGAATCCTGGCCGCCTGTCTG
TAACAGTCAGTACTATGATACACGTCTTTTCGGCACATGATGTGTTGGGC
GTTTCGGCCCACACGTACAGGAAGGAGGGAGTTCACGCAAAAGCTGTTTT
GTTGCGCTTTTTTTACACTCCTTCTGCAATGCTTGCCTCAGGACAGGCGC
CGTCACTAAACACATGCGCACATACACACCTACCCTGGCCCCGAACGTGT
GGGCAGGTGTCGTTAAGGTTGTTATAGTCATATGCTTATCATGTAGCTCG
GCATGTGTGGAAAATGAAAAGAGGCGTTTGTGTTTGTGAAAAAATTGGGG
TGATTGTGCGTAATGAAAAGAGGCGTGTGTGTATAAAAAGATAAAAGAGG
CGTGTGTGGAAAATGAAAAGAGGCGTTTGTGTTTGTGAAAAGAGGGGTGA
TTGTGTGAAATGAAAAGAGGCGTGTGTGTGTGTATAAAAAGAGGCGTGTG
TGGAAAATGAAAAGAAGCGTGTGTGGGCATGTGTGTCTTGTGTGTTTCAT
TGCTGAACCTCCCCATGTAGTCTTTTTTGTGCGTTCTATCCCATACGTTG
ATCTGATATCACTTGGCCATGAATCTGTGTCTTCGGTGTGGCTTTCATGG
CGTAGCAAATCTTTACTCGTCGGTTCGGTGTTATCCCAGTCGTTCATCTC
TTTGGATAGGAAACTTGTGGTGTGTGTGTGTGGTGTAGTATTGTGTGTTT
GTCCATGTGTATGTGTCCGTGTGTGTGCATATCGGTGCTGGTATTTTCGT
GTTGCTGAACCGACACCGTATGATATGTATCTGTGTCTCAAGGTTTTCAT
CCCGGTGCTCAAGGATGCGCGCGCTACCGTAGCAGAGCGGACGGCCTGCA
TGGAGGTGCTTCTGGCTTCTCTTGCGCACGACCCGGCACTCTTCCGGACT
CACATTCTCAAAGAGTGAGTCGAGTCTAGTCTCGGCTTCTATTTTTTTTA
TCCATCTTTTGTCTATTGTTCCTTCACCAGGTTTTCGCCTTTGACGACCT
TTTGGTCTCTTTCCCTTCGGCAGCTGCTCTTGCAGCTGGCTACACTGGTA
GCCGTTTGAAGTTGTTGTTGCTGTTGTTGTCGTTGTTGTTGTTGTTGTTA
ATGTTGTTGTTGTTGTTGCTTTCTGTTTGTTTTGTTGTGCGGCGTTCCGC
AGGGGCGGGCATCCTCTCCTGCCCCCGAGCGTGAACAATCAGGCCAAGGG
TTCGTCCGCGGGGGGCGTCAAGCCAAGGGGGGCCATAGGCGCGGCGGGAG
GGGGAGGGGGAGGGGGGATGATGGGAGGGGGGCAGCGCGACGCGACGGAC
TCGTCTGTGAGCGACTGCAAGGCGTTACTGTTCTGGGTAATACGAAGGCT
CACGACCGACCAGGATACTGGGGTGTTGCTGCAGGCGGCGGAGGTGAGGC
CGGGAGCGGAGGCTGAAGATAGGATGATTCTTATCCACAGTGCCCGTATT
TATTTATTTTTATGTTGCGGAGAGTATGTACCATGAACGCCTTGTTGTTT
ACTTTGTTATTTTTATTGTTTACTACGAAGTATTGCCCTCCATCACTTTT
TCTGTTGACGCCCTTGACTGCTGCCGTGATTATTTTACCATCATCGTCAG
TTCTTGCTACACAACATTATTTTTTATGTTTCACCATCATCAAGCTTTTG
TTAAGTTTGCACGTCCATTTGCTCCCATCTCTCGGAACGACCTGTAGATC
AAGCGTTGCGCGAGTTTGCGATCACGACTCACGGTATGTATGCCGTGCGT
TGAAGTGGTGTTCTTGTTGGTCATGACGACGTGTTGTCATACGCTTTGTG
GTCACGGAGTGTTGCGCTTTATCTATCACGAAGTGCTACGCTTGTTGCAA
TCGAGTGGTGCCACGCTTGTGATCGCTTGTTTGTCGTTAGAGTGTTGTGC
TTGTGCTCCTGAAGTGCTCAAGCTTTTGTTTGTCACAGCTTTTCGCGCAC
TGCTGTTGCCATGGGTTATCTTTGCCTGGTTTCATCACGCGTGGATGGCA
AATCATTGTGTTTGATGTGGGCTACTTACTTTGTGGGTGATGCAGTACTT
GAGGGTATTTTCGCCTCCAGCGTACGAAGGCATTCGTTGCCTCTCGAGCG
TTCGTCGTTAGAGGCGTGTTGAGAGTGACGCAGCTAGACCCCCGTTGAGT
GAGGAGGGGGCAGTTCGGCAAGAGGGCGTGGTCTGCTCACAGAGGGCAAG
CACGAGCGACAAGCTTTGTAGTCGATCTGCTTGATGTCGGTTGTTGTTGT
CTTCGTTGTTGCCAGATCTGCCGCATGGCGTTGGATACGGAGACGATGGA
GGGGCAGCCGGATAGGGACACCTTCCTCGGCATCTTTTACGAGCACTACG
TTCACTGGCTCGTCGAGCCGTTCTGGCTGGGAGACCTGTCCACCGAAGGT
GTGGTATGATATTCGTCTGGAAAACATACCCTTCCCGTTTTTTTACCGAA
GTGGTCTAGACTGGCTTCCAGAATATGTCCACCAAAGGTATGATATCCGT
CTGGAAAACATTTTGCTCGGAGTACTTGTCATACCCATGTTTGCCGAAAA
AAGGTGTAGACTGGCGGCCAGAACATGTCCACCGAAGGTACATATCCGTC
TGCAGAACATTTTGCTCAAGAGTACTTACCGGTACCCGTTCACCGGAAAG
CCGTAGACTGTCTTTCATAATATGTCCACCGAAGGTACATATCCGTCTGT
GAAACATTTTGCTCAAGAGTTCTCACCCGTTTACCGAGTAGGTGTAGAGT
GGTTTCCAGAAGACACACACTCACGGGCGCACGCACGCAGGCACGCACTT
TTTGCTTGTGTGTGTGGCGCCCATGTTTGTTTTTTCTCCTTCTATGGTTG
AGACTGCTACTCTCTGGTGAACCTGCCCACTGAAAAAAAAGTAATTTTAC
AACATTTCATTCGAGTAAAATGAGGTTTGTGCTGTTGTAGATGGATGGGT
GGATGGATGGATGGATGGATATATGGGAGTCTGTGGCGGTTTCATCTCCT
ATCCAGTCACCAGCTGGATTAAGCGTTTACATGTTAGCGTTCGGGATAGG
ACGGTTTTGACGTTGAAACACCATACTACCACCAAGGCCACCAAGAACAA
CAACAACAACAGCAACAACTGCACCAAACACATGTCCATTCTCTCACCAC
GTGTGTCACAAAACAAATCACCGTCCGGTCCTGTCCTGTCCTGTCCTGTC
CTCCGCGCGTATACCCAGGGGAAACTGGGTCGGGGGGGTCGAACGGAGAG
GTGCCACGCCCAGGAGGAGGGGACCGGGGGTGCGAGGACGGGGGGTTAGA
GCCGTGTCGGCAGGGGGGGGGGGGGGGGATGCGGGGGAGGGGGGGACGTG
AGATCGAAAATGCTGCAGGTGTCGCGGGGGCACATCTGCGACCTCCTGTC
GTTCTGCGTCCGAAGCCATACCTTCCGGATGAAGTACTTTGTGCTCCGGA
ATAACGTGGTGAGCTCAATTGTTTTGTTGTTTTATCAGGATGATGGAGGC
GTCGTCTGGTTGTCTCGGTGACGCTCTCATTGACGTGTTGTGGTGCGTTC
GGTATGGTGTGGTACTAGCTGTCAGGTTTTATGGTATAGACCCTGCACAA
GAGGTAGATTTACGAGCAGATTCGGTGTGCGTTCATGGGTCTCTCGCCTC
CCAGTGGGTGCGGTGGCGCCGATTTGTTTCTTTCCGAATTTCCCGAGCAC
GTTTGTTCCGAGGTAAGTCAGGGCAAAGCCAAGGCAAAGCCAAGGTAAAG
GATGAGCTCCGCACGTTGCAAAGCCAAGACAAAGCCAAGACAAAAGTTAA
GCCCAAGTCAAGCCAAAGACAAGCCAAAGCCAAGATAAAGACAACGCCAA
CGAGAAGCTAAAGACAACGCCAAAGAGAAGCCAAAGCCAAGCCCAAGGAA
GAGCGCTGCACGTTACGTTCGCCTGTGTCATCGCGTTGTAGTTCGTTGCT
GCTGCGTAGACATTCGTGTCCCTCCCGTTACTTGCCTCCCTCCGGCAAGT
CCTCCCGTCGATTTTTTTTCCCTAATTTAGTGTCTCTTCTTTTTTCTGTC
TACCTTATTGCTGAGCCGGGCTTTGCCCCTGCGCTTGACAGATAACCCGT
TCGTTGTTGGTGTTGCGATGGTATCACATCATACCCACGTCCTGTCCCTA
CCATGAACGGTGTTTTCATAACTCGGTTGTTTGTCTCACTCTGAGGTCTG
TCGTGTGTCCAACCTGTACGAGTATGTAAAAAAAAATGTGTACATGTTAT
GTATTTATGTATCACATGGATGTTTGTCCAGCATACGTGTATGGGTGTCT
GCATGCATGTATTGTACGTTATGTAACAAAACTCGGTTGGTGCGGCTCAC
TTTTTTTTAGCTGTCTTTAGCCTAGTCTGCACGTGTTCGTGTATGCATCG
ATCAAAACTCGGTTGGTGGCTCACTTTTTTTGAGTTATCCTCGTCTCTCA
TCTGTGTGGATGTTTTGTGTGGATGTATGTATGTATGTATGTATTTATGC
ATCTGCGATGTGCGGCGACAGGTGTCGAGGGTGTTGCGACTCCTAGCATG
CAAGGACAAGTACCTGCAGCTGTCGGCGATTAGGTTTCTTCGGAGCTGCG
TCGGAATCAAGGACGAGTTTTACAACAGGTGGTTTTTTTTTTTTTTTTTC
AACCCCCGCCTTTATTTTTGTTTTCAACCCCCGCCATTGTCTTCTCTATC
GGACGTCTGTTGCGTTTTTATTTCGGGGGTGTCGACTCCCCTCCCCCCCT
CTCTTGCGTGCATTATCACTTGGCGCACTGCGTTCTATGTCGGCCTGTGC
CTGTGAAGCCGCATGCCAATATTCGTCATGTATGATCAATCAGGCCGCGT
TTTCTGTTTGTTTTCTGCCGGCTTTTCCAGCAGCTATGTTTGCCGTCGCT
TGCGCTTTCTCGTTTCTGCTGCTTGCCCTCAGGGGGGGGGGGCAAGGGAG
GGACAAGGACAAGGGGTGTTGGGTCGTATCGGCCCGTGCGAGGTTTCCTT
GCTTGTGTTAAGTCCCATGAAAACAAAGTAGATACAGCAAGCATGGTTTC
CCCCTGCCTCTTTGCATGTGTTTTGTCACTGGTGCACTGCGTTCTAATTC
TGTCTGTCTCTGTGTCTGTGTGTGTCTGTCTGTCCGTGGTCGTTTTTCAG
CCGCAGCGTTTCCCCTCTCTCACGTGTCTTTCCAGTGGCGCAGTGCATTC
CGTATATTTTATCGGAAAAATGTGCGTGTTTAGCCGGCCGGTTCTGTTCA
AGATGTACACATACTTCCTCTGTATCATAAGTCTGGGCTGTTATGGGCGT
GTAATTGTTTGCGCATCCATACTGTTTCGATCATCCTATAGTTAGGTTCG
TTCGAAAGATGAAGTCTCAAAGAAGCTGATGCAAAACAAAAAGCAAAAAA
AAAGCCAGTTGTTTATACTAAAATGAAGTCAAAATATGCCCATTTTGGCC
CATTTAAAGAATTCTGATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGT
CCCAAGTATCTTCGTTTTAGTGTGGCAAACCCAAGTGTCTTGGTTTTAGC
GTCGCGTCACTATTATACTGATTTTAGTAAGGAGGGACTCGACATGAATC
TTTGAGGTAGGAGGGCTAGGTTCAGGGTTAGGGATAATTTTGGGGGGGAT
TGCATTGGGTTTTTTTTTTGCCCCCGCCCCCCACTCCACCTCTGGAAAGG
GTTAAATACGGCCATTTTTGGCCTGACTACTTTTTTGTTAGCCGCTAGCC
CATGCGCAGGGTAGTGCGCAAGAAATATATATATATTTGTTTCAACCCAA
AAAACTCCGAAGATTTCGAAAAAATTATCGCCGAAGACATCGGACACCGT
TGAGGGGGCGTAAAAACATAACGGCACAGACTTATGATACAGAGGAAGTA
TATCCACTGAACTACGAGTCAGCGCTTTTTATGTACGCATGAACTGAACC
ACAAGTCAGCGCTATTTATGTACGCATATATCCACTGAACCACAAGTCAG
CGCAATTTTATGTACGCATATCCACTGAACCACGAGTCAGCGCTATTTAT
GTACACATATATCCACTGAACCACAAGTCAGCGCTATTTATGTACGCATG
AACAGGCACTCGTGAAAAACAAATTGACAGCATTTCCAAGTAAACGCTGA
TTTCTGCTCCGGCTTTTGCTGCTGTAAAGTGGTTTTCTCCCTTTTTTTAA
CCTATCCAAAGCACGGTAGCAGAATTCCCGAAGTGTTATTTTCCTTCAAA
CGATGTTTTCACGTTCTCCCTACTTTATTCCAAGAAAAGCAGTAGAATGA
TTCATATGCCGAAGCAATATGATACCAGGTACAGTGTGTACGTCGAATTA
TAATCTACTGTAGCAGTATTCCGAAGTGATGTTTCCTTCAAGAGGTGGTT
TCACCTTTTCCCTACTTTGTTCCGAGCACAGCAGTAGTATGACATATGAT
ATGCCGAAGGAATGTTGTGCCAGGTACAAGTTAGCAGCATTCCGAATTGC
TATTTCCTTCAAGAGGTGGTTTCACCTTTTCCCTATTTTGTCCCAAGCAC
ATCAGCAGTATGGTATGATATGCCGAAGGAATGTTTTACAAGGTACAATC
TCAAGCAATTACTTGCTGCCCTACTTATCCAGACTTCGGAAGTTAAAGTT
ATCTTGGTACATATCCCTATGATTAACGTGCGTGTTTCGTGTTATTATTT
ACTTTCCAAATTTCTGTTTGTTTTGTTTGTTCCCCGTCATCGTTGGGTCT
GCAGATACTTGGTGAAGAACAATCTCCTGGCGCCCGTTTTCGGACTGTTT
CGGGAGAACCGAGGTCGGGATAATCTTCTCAACTCTGCCGTTATTGAGCT
CGTTGAGGTAAGAATGACAATGAGAGTATCATATCATGCGACTAAAAGCA
ATGCAAAACACTTCGTATACACGAAGAAAGGAGACAGAGAGGCTAAAAGA
CTGAGATAATGTCCCGGAGACTTGACAGCGATGTTTCGGAAGCGTGACGC
TTTGTTTTTTTTTGTTTTTGCTTTATGTGCGTGGAAGAAGAGCAGCGGAG
GAGGTTCGCACAGTCGGCGGAGAGCATGAAATGCCGGGGGTCTGAAGGGT
ATGATTGGGGGGGGGGAGGTTGACACGGCCGTGGCTGGGTGGGGCGTGTT
TCGCTCTCACCGTGCAGCGCCGTGCGGTTTCGGCTTTTGGCCGGCGGCTT
CTGAGACGGCGAGGCGCAGGCGACGTTGCACATGCAATCATGCATAGCAG
TCACTTTGACGTGAGAAAAGAAACGCAACGCGGCGGCGGTGCACTTTACA
AATTGCTGTCGCGCTTGATTTTTTTCCCATGTCTGTTGTGACCCCCTCCG
GTGCGCCCAAGTTACACCGAAAGGTGTATCAGGTAATAGACTGCCGCTGA
GTAGATGGGATGACAACACACAAGACGCGCGCACACACACACACGCACAC
GCCTCTTGTCATTTTTTACAATTGTGCCTCTTTTCATTTCACGCACACAC
GCCTCTTTCCATTATTTCACACACGTAGTAATTTCTCAAAAGAATATCGG
TATGTGTTTTGTACACAAATCACGACCTGATCCAACGTGTGCATGTAGTA
CCATCAGACGGCGCATTCAGTCGAGTCGGAGCCTCCTTTCACCCTCCCCG
CCGACCTCTTCAAAAATGCGTACGTACTCGAAGTACTGCATAAATACAAA
TGGTTTTATATGCACGACGCATATTACAAGTGAAACAAACGCACATGTAA
CACCCACGTGTACCATTGCACCCATGTTCCTCCACTGTCCCCCCCCCACC
CCCCCCCAAATAAAATATAATAAAATAAAATAAAATAAAAGTTCATCCGC
GCGGAGAACGTAAAGAGCCTTGTGGAGCACGTGGTGGAGCGGTTCTCTTC
CTCCTTTGTGGAGGTGGAACAGACGGCTACCCTCGAGGGCATCAGGCTCA
AGCACGAGCAAAATGTGGACCTCAGGGAGAACAGGGACAGAGACTTTGGA
GGGGGCGACGGGGATCAGGACGGGGGCGCCGGGATTCGCGGAAGGTGTGG
TATGACATGACATGTTCGTACATTCGGCTTCAATGTTTCAATGTAGCTCA
CAGAACCCGATGAACGACGGCTTGTTTCGAAAACCACAGACGGTGCGCTT
GGGAGTACGTACCAAGATTTCTATTTGTTTTTTCGTGATGATTTTGATGT
ATGACATGGGGGAGGAAGTTTTTTTTTTGTGTGTAGGCGGAGCGACAGAG
CGTGATTGTTGGGTTTTTGCTGTGATGAACAGGTTATGCAATTTGTCGGG
AAGGGTTTTTTTTTCGGCAAGGGTAGGTGGCGTAGTAGTTGGTAGAGCAG
GTGCGGTCTTGCGACGCACTACGACTGCCACGTACGCACGTTTTTATGTA
CCAGGGGAAATAAGAATAGTATTAGAATGGGATATGATAGGATACTGTAG
AAGTAGTACTTCGAAGTCGAATACGGAAGTATTGGATAGGATAGGATGGA
ATACATTAGTACACGAAGAAGTGACGAAAGATTGATTGCGTAGGATAGGA
AAGTTTAGAACCGTTTCGTACTTCGAAGTGCAGTCATCTCGTGCCAATAG
AACCGTTCACCAGAGAGAGGGGGAGGAGGGCCACAACTTGCAGCGCGATT
GCGGGGAGAAAGAGAGAAAAACAACCTTAGGCGGTGTAGTTGCAAGTGCG
TACTGCACTGCTGGTGCATGCATGTAGAACGCCGAAAGCGAGACGAAGAA
TCCCCAGCCGTTTGCTGTCGCAAGATCCAGCAGATGAATTAGAAAATGGC
CTCACAGGGAAATACGGCACGACTTCTGTTTTCGCGGCGACACCCGCCGC
CGTCGCCTCGTCTGACCGGCGTAACGCACGCCCATTCATGAATTCACATC
ATTCACTTCATTCACTCCATTTCACTCCATTTCACTTCATTCACTTCATT
CACTTCATTCACTTCATTCACTTCATTCACTTCATTCACTTCATTCACTT
CATTCACTTCATTCACTTCAATTCATAACGCACGCCCGTTGACTCAAATC
ACTTCATGTATTGCATTTTACGATCATCTGATTGTTGTCGACACACAGGG
GTAACCGGGCGGCGCAAAACCGGCGTCGGATGGCGGAAGAGGACGGCGAC
GAGGCTTATTTCAACGAGTCCGACGACGACGAGGACGAGAACGAGGGGCC
GCAGCCGGCGGTGGCAGTTTCGGCAGTGTCGGCGGCGGCGGCGGCTGCGG
CGGCGGTAAACGGGCCAGGAGGGGGTGAGCGTTTTACCAAAGGATAGCAG
TGGGGCGGGGGGGAGGGATGGGGTATGCGGGTATGCGGGTATGCGGGTGT
ATCTCAATTGTTAATTTGACCCAGCAACCCCGCGTGCTTACCTCGCGAGG
CGAAGCACGGCGGAGCTCTCCCTTTCTCTACTGTATCTCAATATCTGTCT
GTCTGCCTGTCTCTTTTATCTCTCTCCTCCGATGCAAATGGAAAACCACC
CGTGCCGAAAACAATCAAAATCAAATCAAATCAAATCAAATCAAATCAAT
ACGAATCAAAACGAATCAAATTCGAAACAAAACGCAGGGTTGAAGCTGGT
GGCATACGGAGACGAAGACGACAGCGATGACGACATCATAGCCGCGACAG
CACCAGCGCCCGTGCCCGCCGGCCCAGCCCCGTCGTCAGAAACCGCACCC
TCGCGTATGGGGGAAAGCCAGGAGGAGGGGTGCGGCGGGGGCGGGGGCGG
GGGCGGTGGCGGTGGCGGCGGGAAGCAGAGAGAAGAAAGGAGGGGGGGAG
GAGGAGAAGGAGGGGAATCAGAGGCTGGCGGGGACAGAAGCAGCAGCGGC
AGCTCGGGCGCAACGCCGATGCTGGTGGTTTCAGAACCCGCCGCCGGCAG
CAGCAGCACTAATACTAGCGGTAGTGGCGGAAGTGGAGGCAGTAGTAGTC
CAGCCTCGAATGGGGCGGCGGCGGCGGCGGCGCTCCTTCCCGGAGAGCAA
GAAGGAGCAGACGGCGGAGGTAGTAGCGGCGGCGGGCCTTCCAACGGGAG
CGACGGCGAGTTGCCGTTGTCCCCCCCGCCGGGGGCAGCGGGAGGGACCG
CGGGCCAGCAGGAGGGAACTCCCTGCGAGGATGCGGAAACGGCAGCGCTG
GCGTCAGGGGACCAGCAGGGGTCGCAACCGCCCGCTGGGCCGTCGACGGG
GGGAGAGCCGGATCCAAAGCGTCTCCGACTCAGCACCTAGCGCGCGCGTA
ACACCGCGCAGTTAGTTGTTGTTTTTTTTCTATCATACGTATTTTGCTTT
GATTGATTTAAGCTGGTTTGATTTTGTTTGCGGGTGTTGTTGCGTGCAGC
ACATGCTCTCTTCAAGTTTGTTCCTCGTGTTAGATTTCGCCTCTTGACAA
CGCAAAGCGGCATCATCGGCGGCGGCGGTGGCGGCGGTGGCGGTGGCGAA
GGGGAGAATAGGGCCCGGTTTATTTAACCGTATCACCCCCTCCCCTACCC
GATATCACAAGGGGCAGTCCCAACTTCATCGCTGGCGTAAGGATTGCGAG
GTCCGCGGGAGCGGGGTGGCGGGCCGGGGTAGAGAGGATGGTGTTGCTTC
TCGTATTGTGGAAAAGTATTAGCGAATAGAAGGGACGGCGGGGGCCGGGC
AAGGTGGGGAGGGAGTGTAAAACTGTGGTGTTTATCGCGGAGATTGTGGG
TGTGGGTTCCGAAAGGGTGCCGAAGGAGGGTAGGCACCTCACTGCAAGCT
CAGTTCAAGCTCAGCGGAAGTTCGCAAATTTTGATCTTGGGTCAGCATTT
TCGCGTTACAAATCAAGGTCGTTCTCTCGACAACGCGAGAAGAGAGGCGG
GGGCGGGGGTTGGTGGTGTTGTCTGTTTTCTTTTCACGAGCGTGCGCACT
TGCGGGGAATATACTTGTGTTGTATATATACCAAAGGATGTACGTTTGCT
GCTGCTGGTGGTGCCAGCTGTGAGCCATGCTGGTCGTGGTGGCTTCTTGA
CTGGCTTTTGCTTGTTTGCTTGACGCTCGCTGAATTTGCTTGTGTGTTTT
TTTTTTTCCATCTTTTTTAGTTACAAGTACGGCTTCTCGGTTTGTCCCAG
TCGATTTACAAGACAGAACTCTCTATTTTTTGGCTGCGATGCGCAGTCTC
GGAGTGTGGGGGCGAGAAGTCAGATACGAAGCTTTGTTCAGCTCACTTGC
TGCTGTAGTGCGCGACACAAAGGCGCCGGAGACGTTACTCGTGCTTTATT
TTGTGATGTTTAGCTGTGCCGTAATTCCCATCATGATGAGCCACGCGTCT
TGAGCTTCACGTATTTGACACAGCCACAGCAGCAGTGGTGCTTCGGTATT
ATTGTAGTAGAGGGCGAGAGCGGTCATCTCGGATCACCGCCTCCGTGCCA
ACAAGATATCACGAGAGAGGGGACCAACACCATGATGTGGCCGAACGGGC
CACACCAACGTTTTCATCGGGGCAATTATCATTTCATCTGGGCTAGGAGG
TACCGTATTATTTTTCGTGACCACACGCGCAAGATGTGTCGTCG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig63:370245..389438- >mRNA_P-littoralis_Contig63.73.6 ID=mRNA_P-littoralis_Contig63.73.6|Name=mRNA_P-littoralis_Contig63.73.6|organism=Pylaiella littoralis U1_48|type=CDS|length=1536bp|location=Sequence derived from alignment at P-littoralis_Contig63:370245..389438- (Pylaiella littoralis U1_48)
ATGCAATCCAAGGTGGTGGACGAAGACGTTTACCAGCGACAAGGGGACAA
CATCATCACCTGGTGCGAGGCCCCTCCTCTTATCGGGGCGGCGAATGGGG
GGGGCGCCGCGAATGGGGCAACGGGGGTGGACCTAGCTCTTAGTTTTCAG
GAGAACATGGGGTGCCTTGAAATTTGGGACCAGATCTCCGAGGCTCAGGG
TCGGTTCGGGAATGAGTACGGCCGCACGAGGGGCGGTGGAGAAGTGACGG
TGCCGTTGCCGGAGCCCAAGATGGACACCCTCGGGACGATCTTGGAGCTG
CTGAAGGGAGCAGGTCCGCAAGCAAAGGAGACGTACGCGGGATCGCTATC
GGAGAAGAACGGGGAGTACGTGAGCAAGCTCTTGAAGGTGTTCAACGACT
GCGAGGATTTAGAAGACGAGGAGTCCCTCCGTGTACTCTGCCACATCTTC
AAGGCTATCGTGGGCCTCAACGACGGGACGTTGTTAGAGGTGCTCTTGGC
CGACAATATGTTCGTGGACATGGCGGGCGTGTTCGAGTACGACTTGGAGC
TCAAGGAGAAAGGGGACCACAGAAAGTTCCTCACGCAGACAGCGTCGTTC
AAGCAGGTGCTGCCGATTCCGGACGAGGAAGTGGTGCAGAAAATCCACCA
GAACTTTCGGATAACGTTCCTGAAGGACGCGCTGCTCAGGCCCATGATGG
ACGACGCTGTCGTGGGCACGCTTAACTCCCTCACCTTCTTCAACAACACC
GAGATCGTTCAGAGCTTGCAACACACAGACTACGTCCGGGACGTTTTCCT
GCTCCTGAACGAGCCGGAGACCGGGAAGGGGGGCGACAAGCGGCGAGATA
TCCTCATGTTCCTGAGGGAGCTTTTTAGCATGGCCAAGACGCTGCAGGTA
ACGGCCAAGGATGCTTTTTACCGACACCTTTGGGACGAGGTGCCGCTATT
CGAGGTTTTCATCCCGGTGCTCAAGGATGCGCGCGCTACCGTAGCAGAGC
GGACGGCCTGCATGGAGGTGCTTCTGGCTTCTCTTGCGCACGACCCGGCA
CTCTTCCGGACTCACATTCTCAAAGAGGGCGGGCATCCTCTCCTGCCCCC
GAGCGTGAACAATCAGGCCAAGGTCGATCTGCTTGATGTCGGTTGTTGTT
GTCTTCGTTGTTGCCAGATCTGCCGCATGGCGTTGGATACGGAGACGATG
GAGGGGCAGCCGGATAGGGACACCTTCCTCGGCATCTTTTACGAGCACTA
CGTTCACTGGCTCGTCGAGCCGTTCTGGCTGGGAGACCTGTCCACCGAAG
GGGAAACTGGGTCGGGGGGGTCGAACGGAGAGGTGCCACGCCCAGGAGGA
GGGGACCGGGGGTGCGAGGACGGGGGGTTAGAGCCGTGTCGGCAGGGGGG
GGGGGGGGGGATGCGGGGGAGGGGGGGACGTGAGATCGAAAATGCTGCAG
GTGTCGCGGGGGCACATCTGCGACCTCCTGTCGTTCTGCGTCCGAAGCCA
TACCTTCCGGATGAAGTACTTTGTGCTCCGGAATAA back to top
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