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Homology
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: D8LRL8_ECTSI (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LRL8_ECTSI) HSP 1 Score: 1206 bits (3119), Expect = 0.000e+0 Identity = 733/1026 (71.44%), Postives = 793/1026 (77.29%), Query Frame = 2
Query: 158 ELLASYYGMQQQP-SGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLFQRSRTTIATSAXXXXXXXXXXXXXXXXXXXXXXXKQLQGDAGVANGQHEGQEVHEGLVCLLQSSVDSFFGLLYAKVDQSLSVGPAG-QPGTRPPSGGGAGAPTLDKEDTQPQGGRGEASAAE-----ELDPVALGGVVAAVQQLVSDIEALDPHVPQVQLARRAKEFAQEFKRGQVRRSFRVLCRISLSVATSMVHAVKLGTPLQEIFKDALDAGNTG--GGGLMAGNIRHGSNS----------AGRRRRGGSEGQQYPALVERALATLMKGADEIVSGLRPLSRLDPSPGPLAEEVRFGLWGVVLWLVSALGIVAGVAADDSSCDTLPSAEGLEYSKALEEEWRNGAVVALREPLPSIEETTKXXXXXXXXXXXXXXXXXXXVEGGD-RVGATEGEVVLLLACLCRGLGTTFVVGVPELLGRQIPLTLDQSVHPTTPSMHFSGSVHSTRSAASTFKSGVTDTKSLDGNDDDGVGAG------GGPVLGRRRQLDAVRNRVTSASRLILEYYAETTGRRLADVLEVGLDGPPG-GGDWFSVSEPSSVGGAVLDALELAEDNVKEVCAFLDEARTGTVSVTRSGDRDLRRRGPISSLS-EGRNXXXXXXXXXXVRRDIDRIFESSRDGNGMGSRGSSSGAARVSFAADAMLAAVFRIALKAFGERARFLTLPGPGFRQVHLDADFLRQVLPFYVAESQMLSSLDTLLDQVLQSAADRSLDPTPMDPATAGDIVSQALDGFS 3151
ELLASYYGMQQQ SGA+MSSDVESTYF+ KRYV+GLLKNDK+ETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEM+DLKSSM+RIA+SSATVN SLE NRSKMDKLVRVRRLLQRLDFL QLPQ+LEEAVQEG YAKAIRYFSMTKDIL KHSHVSSFGAIQRDCEDTVRRLQ+KLQEEVNS DVSRDTLVSHADLLL+LG DPAGLKERYL +HRRQLEAFL AS GALVEDRSVSLDACLGKL EGFLPMLLRTVQLY QLF+R+ SA XXXXXXXXXXXXXXXXX VA ++ H GL+ L+Q+SV FF LLYAKVDQSL + QP + PS GAGA E +LDPVALGGVVAAVQQLV+DIE +DPHVP QVRR+FRVLCR SLSV TSMV+AV+ GTP +++ D LD G+ G GGG+ + RHG AG G EG +YPALV+RAL TLMK ADEIVSGLRPLSRLD SPGPLAEE+RFGLWGVVLWL SA GIVAGV SSCD+LP AEG EY+KALEEEW N AV ALREPLPS TK XXXXXXXXXXX V G + R GA+EGEV LLLACLCRGL TTFVV VPE+LGRQIPLTLDQSVH PSMHF+GS+HSTR T KS T+ KS++G DDD G GGPVLGRRRQLDAVRNRV++A+R ILEYYAETTGRRLADVL+VGL+ PPG GDWFSV EP+ VG AVLDALELAEDNVKEVCAFL EAR+GTVSVTR GDRDLRR ++ LS GRN VRRDIDRIFESS G GMG+RG GA +VSFAADAMLAAVFR+ALKAFGERARFLTLPGP FRQV LDADFLRQ LPFYVAES MLS+LD LLDQ LQSAADRSLDPTPMDP AGDIV+ ALDGF+
Sbjct: 39 ELLASYYGMQQQERSGANMSSDVESTYFEAKRYVAGLLKNDKVETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMSDLKSSMERIAESSATVNTSLEGNRSKMDKLVRVRRLLQRLDFLFQLPQRLEEAVQEGQYAKAIRYFSMTKDILHKHSHVSSFGAIQRDCEDTVRRLQDKLQEEVNSSDVSRDTLVSHADLLLQLGVDPAGLKERYLDAHRRQLEAFLLASTGALVEDRSVSLDACLGKLAEGFLPMLLRTVQLYDQLFERTGALPTPSASSTPAPXXXXXXXXXXXXXXXXXXXXXATTAVA------KKTHTGLIALVQASVGRFFDLLYAKVDQSLDANSSNPQPRSHVPSEAGAGAAGKKSEGRXXXXXXXXXXXXXXXXXXDLDPVALGGVVAAVQQLVTDIETVDPHVP------------------QVRRAFRVLCRTSLSVTTSMVNAVRAGTPPEDVLADGLDTGHPGAAGGGMTGASGRHGXXXXXXXXXXXXXAG----GSGEGGRYPALVDRALGTLMKRADEIVSGLRPLSRLDSSPGPLAEELRFGLWGVVLWLASAFGIVAGVTGGASSCDSLPPAEGREYNKALEEEWGNRAVSALREPLPSPSPDTKAXXXXXXXXXXXEEEAA--VSGDEVRAGASEGEVSLLLACLCRGLETTFVVRVPEILGRQIPLTLDQSVHALPPSMHFTGSIHSTRXXXXTLKSAATE-KSIEG-DDDAAGXXXXXXGRGGPVLGRRRQLDAVRNRVSAAARFILEYYAETTGRRLADVLQVGLEAPPGDAGDWFSVEEPTGVGEAVLDALELAEDNVKEVCAFLGEARSGTVSVTRFGDRDLRRGSSVALLSGTGRNGRGGIGGGGGVRRDIDRIFESSGAGGGMGARGPLGGAVKVSFAADAMLAAVFRVALKAFGERARFLTLPGPAFRQVQLDADFLRQALPFYVAESNMLSALDNLLDQALQSAADRSLDPTPMDPTAAGDIVAHALDGFN 1032
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A6H5JIJ8_9PHAE (Vacuolar protein sorting-associated protein 51 homolog (Fragment) n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JIJ8_9PHAE) HSP 1 Score: 848 bits (2192), Expect = 4.140e-289 Identity = 534/867 (61.59%), Postives = 580/867 (66.90%), Query Frame = 2
Query: 53 MASEALLRHDSDDDSERPAGYTTAAATAGSGA---RMNELLASYYGMQQQP-SGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLFQRSRTTIATSAXXXXXXXXXXXXXXXXXXXXXXXKQLQGDAG---VANGQHEGQEVHEGLVCLLQSSVDSFFGLLYAKVDQSLSVGPAG-QPGTRPPSGGGAGAP----TLDKEDTQPQGGRGEASAAEELDPVALGGVVAAVQQLVSDIEALDPHVPQVQLARRAKEFAQEFKRGQVRRSFRVLCRISLSVATSMVHAVKLGTPLQEIFKDALDAGNTG--GGGLMAGNIRHGSNSAGRRRRGGS------EGQQYPALVERALATLMKG------------------------------------------------------------------------ADEIVSGLRPLSRLDPSPGPLAEEVRFGLWGVVLWLVSALGIVAGVAADDSSCDTLPSAEGLEYSKALEEEWRNGAVVALREPLPSIEETT----KXXXXXXXXXXXXXXXXXXXVEGGDRVGATEGEVVLLLACLCRGLGTTFVVGVPELLGRQIPLTLDQSVHPTTPSMHFSGSVHSTRSAASTFKSGVTDTKSLDGND 2365
MAS A+L H+SD RM ELLASYYGMQQQ SGADMSSDVESTYF+ KRYV+GLLKNDK+ETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEM+DLKSSM+RIA+SSATVN SLE NRSKMDKLVRVRRLLQRLDFL QLPQ+LEEAVQEG YAKAIRYFSMTKDIL KHSHVSSFGAIQRDCEDTVRRLQ+KLQEEVNS DVSRDTLVSHADLLL+LG DPAGLKERYL +HRRQLEAFL AS GALVEDRSVSLDACLGKL EGFLPMLLRTVQLY QLF++ T A S Q GD VANGQ + + H GL+ L+Q+SV FF LLYAKVDQSL + QP + PS GAG +LDPVALGGVVAAVQQLV+DIE +DPHVPQVQLARRAK+FAQEFK GQVRR+FRVLCR SLSV TSMV+AV+ GTP ++I DALD G G GGG+ EG +YPALV+RAL TLMK ADEIVSGLRPLSRLD SPGPLAEE+RFGLWGVVLWL SALGIVAGV SSCD+LP AEG EY+KALEEEW N AV ALREPLPS K XXXXX V+ R GA+EGEV LLLACLCRGL TTFVV VPE+LGRQIPLTLDQSVH +PSMHF+GS+HSTRS ST KS T+ KS++G+D
Sbjct: 1 MASAAMLGHNSDXXXXXXXXXXXXXXXXXXXXXXXRMKELLASYYGMQQQERSGADMSSDVESTYFEAKRYVAGLLKNDKVETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMSDLKSSMERIAESSATVNTSLEGNRSKMDKLVRVRRLLQRLDFLFQLPQRLEEAVQEGQYAKAIRYFSMTKDILHKHSHVSSFGAIQRDCEDTVRRLQDKLQEEVNSSDVSRDTLVSHADLLLQLGVDPAGLKERYLDAHRRQLEAFLLASTGALVEDRSVSLDACLGKLAEGFLPMLLRTVQLYDQLFEQ---TGAPSTPSASSTPAPPTATQAPPETKQQGHQKDGDTATTAVANGQDK--KTHAGLISLVQTSVGRFFDLLYAKVDQSLDANSSNPQPRSHAPSEAGAGEAGKKXXXXXXXXXXXXXXXXXXXXXDLDPVALGGVVAAVQQLVTDIETVDPHVPQVQLARRAKDFAQEFKSGQVRRAFRVLCRTSLSVTTSMVNAVRAGTPPEDILADALDTGYPGAAGGGMXXXXXXXXXXXXXXXXXXXXXXXXXXEGGRYPALVDRALGTLMKARQTDRQTICLASLYPLAPDLPLKPLPHVASPPPPXXXXXXXXXXXPPPPFWSSPSSSFRFVTRFFVLWCWQRADEIVSGLRPLSRLDSSPGPLAEELRFGLWGVVLWLASALGIVAGVTGGSSSCDSLPPAEGREYNKALEEEWGNRAVSALREPLPSXXXXXXXXXKAAAEAVAGTAXXXXXAGVSVDD-VRAGASEGEVSLLLACLCRGLETTFVVRVPEILGRQIPLTLDQSVHAPSPSMHFTGSIHSTRSVTSTLKSAATE-KSMEGDD 860
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A6H5JLT5_9PHAE (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JLT5_9PHAE) HSP 1 Score: 297 bits (761), Expect = 6.150e-89 Identity = 164/215 (76.28%), Postives = 175/215 (81.40%), Query Frame = 2
Query: 2513 VGLDGPPGG-GDWFSVSEPSSVGGAVLDALELAEDNVKEVCAFLDEARTGTVSVTRSGDRDLRRRGPISSLS-EGRNXXXXXXXXXXVRRDIDRIFESSRDGNGMGSRGSSSGAARVSFAADAMLAAVFRIALKAFGERARFLTLPGPGFRQVHLDADFLRQVLPFYVAESQMLSSLDTLLDQVLQSAADRSLDPTPMDPATAGDIVSQALDGFS 3151
VGL+ PPGG GDWFSV EP+ VG AVLDALELAEDNVKEVCAFL E R+GTVSVTRSGDRDLRR ++ LS GRN VRRDIDRIFESS G G +RG GA +VSFAADAMLAAVFR+ALKAFGERARFLTLPGP FRQV LDADFLRQ LPFYVAES MLS+LD LLDQ LQSAADRSLDPTPMDPA AGDIV+ ALDGF+
Sbjct: 8 VGLEAPPGGAGDWFSVEEPTGVGEAVLDALELAEDNVKEVCAFLGETRSGTVSVTRSGDRDLRRGSSVALLSGTGRNGRGGIGGGGGVRRDIDRIFESSAAGGG--ARGPLGGAVKVSFAADAMLAAVFRVALKAFGERARFLTLPGPAFRQVQLDADFLRQALPFYVAESNMLSALDNLLDQALQSAADRSLDPTPMDPAAAGDIVAHALDGFN 220
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A2D4BS26_PYTIN (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4BS26_PYTIN) HSP 1 Score: 205 bits (521), Expect = 1.590e-49 Identity = 123/313 (39.30%), Postives = 188/313 (60.06%), Query Frame = 2
Query: 71 LRHDSDDDSERPAGYTTAAATAGSGARMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLF 1009
L DD + P A ARM ELL+SYYGMQ + S A+ +++S FD YV LL++ ++ L DD +++E+K+LD++MQMLVYENYNKFISATDTIRKM NV ME+E+ + +MD I D S ++N +L +RSK++KL+ VRRLL+RL+F+ +LPQ+L AV++ +A A + F + + IL ++ H++SF IQ + E T++ L+ L + +P ++ + + LL +LG +K+++L H+ LE+ L A A V D S+ CL +L L L ++Y F
Sbjct: 781 LGFGGTDDLQAPTEAPCKMADNHGMARMQELLSSYYGMQDKESEAESQRNIDSPGFDASVYVRELLQSKGLQELFTADDRLIKEIKELDTNMQMLVYENYNKFISATDTIRKMKTNVASMESEVEKVVKAMDVITDRSESINVALAPHRSKVEKLIGVRRLLKRLEFIFELPQRLTTAVKQEEFATATKSFLLARRILSRYEHIASFKTIQVEAEKTMKHLEHLLSRRLVTPSLTSEQVCEALSLLGQLGACSDEMKQQFLDWHQTHLESRLQAFTAANVGDDRESVLICLKRLNAEVLAPLANVFRVYRDNF 1093
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A1V9ZQP4_9STRA (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1V9ZQP4_9STRA) HSP 1 Score: 202 bits (513), Expect = 3.840e-49 Identity = 112/275 (40.73%), Postives = 183/275 (66.55%), Query Frame = 2
Query: 149 RMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPM 973
RM EL++SYY + + + S ++++T F YV GLL+ ++ LL++DD+M+RE+K+LD++MQMLVYENYNKFISATDTIRKM NVE ME+E+ + SMD+I S V N+L RSK++KLV VRRLL+RLDF+ QLPQ+L+ A++ Y KA +YF + IL+++ H++SF IQ++ E + L+ +Q++ + + + ++ LLL L +P +++R+L H++ ++ L+ + + E S+++ + +T+ F+PM
Sbjct: 4 RMQELMSSYYDLSDKEEHVNQSKNIDATGFMVDEYVKGLLEKMSMDDLLKRDDQMIREIKELDTNMQMLVYENYNKFISATDTIRKMKTNVETMESEVKRVVESMDKITLQSENVGNALAPFRSKVEKLVGVRRLLKRLDFIFQLPQRLKSAIKAQEYEKATKYFVIANRILKRYQHIASFKTIQQEAEHIMVGLRTIVQKKYDDEATTPSHVEEYSLLLLDLNVNPIDVRQRFLDWHQKHMDKILAPFQSSSSE--SLTVMQYITNITQAFVPM 276
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: K3WGS7_GLOUD (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3WGS7_GLOUD) HSP 1 Score: 196 bits (499), Expect = 6.530e-48 Identity = 108/259 (41.70%), Postives = 174/259 (67.18%), Query Frame = 2
Query: 149 RMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSV 925
RM ELL+SYYGMQ + S A+ +++S FD K YV +L+ + LL++DD+++RE+K+LD++MQMLVYENYNKFISATDTIRKM NV ME E+ + SMD I + S ++N +L +RSK++KL+ VRRLL+RL+F+ LPQ+L A+++ YA A +Y+ + + IL ++ H++SF IQ + E +++L+++L + + + ++ + + LL +L +++++L H+ E L+A A+ ED SV
Sbjct: 9 RMQELLSSYYGMQDKESEAESLRNIDSKGFDSKIYVKEMLQMRGLNDLLQRDDQLIREIKELDTNMQMLVYENYNKFISATDTIRKMKNNVASMEEEVGKVVKSMDVITEKSESINVALAPHRSKVEKLIGVRRLLKRLEFIFDLPQRLNTALKQEEYANATKYYLLARRILGRYEHIASFKTIQLEAERIMQQLEQRLSQRLRNTTLTSEEICETVSLLAQLDACSDDMRQQFLDWHQTYFETRLAAYM-AINEDESV 266
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A7S2S0E2_9STRA (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2S0E2_9STRA) HSP 1 Score: 194 bits (493), Expect = 5.140e-47 Identity = 123/316 (38.92%), Postives = 186/316 (58.86%), Query Frame = 2
Query: 149 RMNELLASYYGM-------------------------QQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSH----RRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLF 1009
RM +LLASYYG+ + S +D +++ FD YV LL+ + LL+++DEMV E+K LDSDMQMLVYENYNKFI+ATDTIR M QNVE ME EM L +SMD IAD S +N+SL S RS++DKLVRVRRLL+RL+F +LPQ+L++ + EG +A+A++YF + +D LR++SHV+SF IQ + E+ + +L+ +L+ ++ + + LLL L A L+ + L H R+ LE + + A + ++D + L + F+ + ++ + ++F
Sbjct: 28 RMRDLLASYYGLGAAGXXXXXXXXXXXXXXXXXXGPVSTRISASDAVFRMDAAEFDSSEYVRHLLRTCETADLLQRNDEMVHEIKALDSDMQMLVYENYNKFITATDTIRSMKQNVESMEGEMDILVASMDEIADKSEHINSSLASKRSQIDKLVRVRRLLKRLEFFFELPQRLQQCIDEGSFAQAVKYFKIARDTLREYSHVASFSNIQAESEELMDQLRTRLKAQIQET-LEPTQMNELVQLLLELDVPAADLRPKLLQCHEQCFRKTLEEEMERIRSA-----NDTIDLGVQTLNQVFVAPFVAAIRSFHEIF 337
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A8K1C4V3_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1C4V3_PYTOL) HSP 1 Score: 192 bits (488), Expect = 1.470e-46 Identity = 113/288 (39.24%), Postives = 173/288 (60.07%), Query Frame = 2
Query: 146 ARMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLF 1009
ARM ELL+SYYGMQ + S A+ D++S F YV +L + LL++D +++E+K+LD++MQMLVYENYNKFISATDTIRKM NV ME E+ + SMD I S ++N +L +RSK++KL+ VRRLL+RL+F+ LPQ+L AV++ YA A +Y+ + + IL ++ H++SF AIQ + E V+ L+ L + +P ++ + LL +L +K+++L H+ E L+ K + S+ CL +L L + ++Y F
Sbjct: 8 ARMQELLSSYYGMQDKESEAESQRDIDSPGFSADVYVREMLARMGLNELLQRDHTLIKEIKELDTNMQMLVYENYNKFISATDTIRKMKTNVASMEHEVEKVVKSMDVITGKSESINVALAPHRSKVEKLIGVRRLLKRLEFIFDLPQRLNTAVKQEEYANATQYYLLARRILGRYEHITSFKAIQVESEKIVKHLEHLLSRRLLNPQLTSAQVCEAVSLLAKLEACTDQMKQQFLDWHQSYFEKLLARYKTSEKNQNDDSVLYCLKELNAEVLTQMANVFRVYKDHF 295
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: A0A485KBH8_9STRA (Vacuolar protein sorting-associated protein 51 homolog n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485KBH8_9STRA) HSP 1 Score: 190 bits (483), Expect = 3.220e-46 Identity = 107/287 (37.28%), Postives = 182/287 (63.41%), Query Frame = 2
Query: 149 RMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKLTEGFLPMLLRTVQLYAQLF 1009
R+ EL++SYY + + S +++++ F YV G+L+ ++ LLR+DD+M++E+K+LD++MQMLVYENYNKFISATDTIRKM NVE ME+E+ + SMD+I S V+N+L RSK++KLV VRRLL+RL+F+ QLPQ+L+ A++ Y KA +YF + IL+++ H++SF IQ + E + L+ +Q++ + + + ++ LLL L +++R+L+ ++ ++ L+ + D + +D+ + + FLPM + + ++F
Sbjct: 4 RIQELMSSYYDLSDKDETVSQSKNIDASGFLVDEYVKGMLETMGMDELLRRDDQMIKEIKELDTNMQMLVYENYNKFISATDTIRKMKTNVETMESEVKRVVESMDKITVQSENVSNALAPFRSKVEKLVGVRRLLKRLEFIFQLPQRLKSAMKAQEYEKATKYFVVANRILKRYQHIASFKTIQLEAEHIMFGLRTIVQKKFDDDTTTAAQVQEYSSLLLDLNVSVPEVRQRFLNWYQHHVDQLLAQFQDKQPPDSATYIDS----INDAFLPMYAGSADSFGKVF 286
BLAST of mRNA_P-littoralis_Contig201.80.3 vs. uniprot
Match: D0MQY8_PHYIT (Vacuolar protein sorting-associated protein 51 homolog n=29 Tax=Phytophthora TaxID=4783 RepID=D0MQY8_PHYIT) HSP 1 Score: 191 bits (484), Expect = 3.780e-46 Identity = 107/250 (42.80%), Postives = 161/250 (64.40%), Query Frame = 2
Query: 149 RMNELLASYYGMQQQPSGADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQMLVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNSLESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMTKDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHADLLLRLGGDPAGLKERYLHSHRRQLEAFLSASK 898
RM ELL+SYYG+Q Q S + +++S FDPK YV LL + LL DD+++RE+K LD++MQMLVYENYNKFISATDTIRKM NV ME E+ + SMD I S ++N +L +RSK++KL+ VRRLL+R +F+ +LPQ+L AV++ YA A +Y+ + + IL ++ H+SSF AIQ + E +++L+ L++ + + L LL +L +++++L H+ E ++ SK
Sbjct: 8 RMQELLSSYYGLQDQESRQEQLRNIDSPGFDPKIYVKELLTTRGLNDLLATDDKLIREIKDLDTNMQMLVYENYNKFISATDTIRKMKNNVASMEDEVGRVVKSMDTITAKSESINVALAPHRSKVEKLIGVRRLLKRFEFIFELPQRLSTAVKQKEYANATKYYLLARRILGRYEHISSFKAIQMEAEKIIQQLERLLKKRMLDTTLESKELCDTVVLLHQLDACNDEIRDQFLEWHQAYFERAVAVSK 257
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.D8LRL8 |
| PFAMs | Fox-1_C,RRM_1,Vps51 |
| Model size | 4185 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00002,RC00043 |
| KEGG ko | ko:K00928,ko:K14946,ko:K20296 |
| KEGG Reaction | R00480 |
| KEGG Pathway | ko00260,ko00261,ko00270,ko00300,ko01100,ko01110,ko01120,ko01130,ko01210,ko01230,map00260,map00261,map00270,map00300,map01100,map01110,map01120,map01130,map01210,map01230 |
| KEGG Module | M00016,M00017,M00018,M00033,M00525,M00526,M00527 |
| Hectar predicted targeting category | other localisation |
| Exons | 17 |
| Evalue | 0.0 |
| EggNOG OGs | KOG2346@1|root,KOG2346@2759|Eukaryota |
| Ec32 ortholog description | Cullin repeat-like-containing domain |
| Ec32 ortholog | Ec-12_000300.1 |
| EC | 2.7.2.4 |
| Description | endocytic recycling |
| Cds size | 3102 |
| COG category | G |
| BRITE | ko00000,ko00001,ko00002,ko01000,ko03041,ko04131 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789988.712558-UTR-P-littoralis_Contig201:295878..295930 | 1680789988.712558-UTR-P-littoralis_Contig201:295878..295930 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig201 295879..295930 + |
| 1680789988.9131455-UTR-P-littoralis_Contig201:309472..310503 | 1680789988.9131455-UTR-P-littoralis_Contig201:309472..310503 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig201 309473..310503 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789988.7272062-CDS-P-littoralis_Contig201:295930..295962 | 1680789988.7272062-CDS-P-littoralis_Contig201:295930..295962 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 295931..295962 + |
| 1680789988.7391539-CDS-P-littoralis_Contig201:298257..298486 | 1680789988.7391539-CDS-P-littoralis_Contig201:298257..298486 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 298258..298486 + |
| 1680789988.7537413-CDS-P-littoralis_Contig201:298849..299045 | 1680789988.7537413-CDS-P-littoralis_Contig201:298849..299045 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 298850..299045 + |
| 1680789988.7656004-CDS-P-littoralis_Contig201:299307..299434 | 1680789988.7656004-CDS-P-littoralis_Contig201:299307..299434 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 299308..299434 + |
| 1680789988.7750168-CDS-P-littoralis_Contig201:300042..300172 | 1680789988.7750168-CDS-P-littoralis_Contig201:300042..300172 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 300043..300172 + |
| 1680789988.7891457-CDS-P-littoralis_Contig201:300671..300886 | 1680789988.7891457-CDS-P-littoralis_Contig201:300671..300886 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 300672..300886 + |
| 1680789988.7979221-CDS-P-littoralis_Contig201:301491..301972 | 1680789988.7979221-CDS-P-littoralis_Contig201:301491..301972 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 301492..301972 + |
| 1680789988.8063796-CDS-P-littoralis_Contig201:302353..302407 | 1680789988.8063796-CDS-P-littoralis_Contig201:302353..302407 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 302354..302407 + |
| 1680789988.8151715-CDS-P-littoralis_Contig201:303118..303373 | 1680789988.8151715-CDS-P-littoralis_Contig201:303118..303373 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 303119..303373 + |
| 1680789988.8250113-CDS-P-littoralis_Contig201:303724..303860 | 1680789988.8250113-CDS-P-littoralis_Contig201:303724..303860 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 303725..303860 + |
| 1680789988.837711-CDS-P-littoralis_Contig201:304475..304791 | 1680789988.837711-CDS-P-littoralis_Contig201:304475..304791 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 304476..304791 + |
| 1680789988.8489552-CDS-P-littoralis_Contig201:305100..305389 | 1680789988.8489552-CDS-P-littoralis_Contig201:305100..305389 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 305101..305389 + |
| 1680789988.8586936-CDS-P-littoralis_Contig201:305921..306032 | 1680789988.8586936-CDS-P-littoralis_Contig201:305921..306032 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 305922..306032 + |
| 1680789988.8677325-CDS-P-littoralis_Contig201:306420..306613 | 1680789988.8677325-CDS-P-littoralis_Contig201:306420..306613 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 306421..306613 + |
| 1680789988.8771095-CDS-P-littoralis_Contig201:306812..306988 | 1680789988.8771095-CDS-P-littoralis_Contig201:306812..306988 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 306813..306988 + |
| 1680789988.8890684-CDS-P-littoralis_Contig201:307513..307576 | 1680789988.8890684-CDS-P-littoralis_Contig201:307513..307576 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 307514..307576 + |
| 1680789988.9009006-CDS-P-littoralis_Contig201:309373..309472 | 1680789988.9009006-CDS-P-littoralis_Contig201:309373..309472 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig201 309374..309472 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig201.80.3 >prot_P-littoralis_Contig201.80.3 ID=prot_P-littoralis_Contig201.80.3|Name=mRNA_P-littoralis_Contig201.80.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1034bp
MASEALLRHDSDDDSERPAGYTTAAATAGSGARMNELLASYYGMQQQPSG
ADMSSDVESTYFDPKRYVSGLLKNDKIETLLRKDDEMVREVKKLDSDMQM
LVYENYNKFISATDTIRKMAQNVEGMETEMTDLKSSMDRIADSSATVNNS
LESNRSKMDKLVRVRRLLQRLDFLLQLPQKLEEAVQEGHYAKAIRYFSMT
KDILRKHSHVSSFGAIQRDCEDTVRRLQEKLQEEVNSPDVSRDTLVSHAD
LLLRLGGDPAGLKERYLHSHRRQLEAFLSASKGALVEDRSVSLDACLGKL
TEGFLPMLLRTVQLYAQLFQRSRTTIATSASASAEVEADLSPVSMQQQQQ
QRKKQLQGDAGVANGQHEGQEVHEGLVCLLQSSVDSFFGLLYAKVDQSLS
VGPAGQPGTRPPSGGGAGAPTLDKEDTQPQGGRGEASAAEELDPVALGGV
VAAVQQLVSDIEALDPHVPQVQLARRAKEFAQEFKRGQVRRSFRVLCRIS
LSVATSMVHAVKLGTPLQEIFKDALDAGNTGGGGLMAGNIRHGSNSAGRR
RRGGSEGQQYPALVERALATLMKGADEIVSGLRPLSRLDPSPGPLAEEVR
FGLWGVVLWLVSALGIVAGVAADDSSCDTLPSAEGLEYSKALEEEWRNGA
VVALREPLPSIEETTKSAAAAAAAATAKPDGGGGGVEGGDRVGATEGEVV
LLLACLCRGLGTTFVVGVPELLGRQIPLTLDQSVHPTTPSMHFSGSVHST
RSAASTFKSGVTDTKSLDGNDDDGVGAGGGPVLGRRRQLDAVRNRVTSAS
RLILEYYAETTGRRLADVLEVGLDGPPGGGDWFSVSEPSSVGGAVLDALE
LAEDNVKEVCAFLDEARTGTVSVTRSGDRDLRRRGPISSLSEGRNGRGGV
GGAGGVRRDIDRIFESSRDGNGMGSRGSSSGAARVSFAADAMLAAVFRIA
LKAFGERARFLTLPGPGFRQVHLDADFLRQVLPFYVAESQMLSSLDTLLD
QVLQSAADRSLDPTPMDPATAGDIVSQALDGFS* back to topmRNA from alignment at P-littoralis_Contig201:295879..310503+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig201.80.3 ID=mRNA_P-littoralis_Contig201.80.3|Name=mRNA_P-littoralis_Contig201.80.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=14625bp|location=Sequence derived from alignment at P-littoralis_Contig201:295879..310503+ (Pylaiella littoralis U1_48)
CACAGCTGTGTTTGTGTGATAAGGTTAGCCACCACAACCATAGCCGTGAA
CGATGGCATCGGAAGCGCTGCTGAGACATGACAGGTAAGCATGGGGCACA
AGTACTTTGTTTACGATCGTGATGTTTTTGCCAAAGGTAACGGGTGATAA
GCTTACGTTTGGGGAAGAGATTGCGGGTCAAGGGGCTTCTGGTGACCAGT
ACATAGAGCAGTATAGCAGTTTGACGGAACAGCAATGCACTCCTGGTACT
CCGTACGCCTCTACTATATGGATACGTTACGTTGCTGTTCTCTTGGACCA
CTGTGCTGCGTCTGCTGGTGCATGTGTGTCCATTCTCCCGCTCGAATTGT
CGCCTCCTGGCGTGCCTCGTGTATGATACCATACGGCGTACGATGTGTCG
GAAAGCAAGCTCTCCGAAACTACACAAGAGATGAATGCACTTGAGTGCTT
TATTTTTGCTTCTAGGAGTAATTTGTCCCACCGCGAGCTCAGAATGCAAT
GCGGTGTTCAGAGACACTGGAGCTCGGCGCTGCCCCTTCCCCACGTCGTC
CACCCTTTGCTCCCAGCCGTGGCTTGTTCGGCTCAAGAAAAACTGCCTTC
CCGCAAAAAATGGTGTAATTTTTTGTTGAGGTGCCCTATCGGGTTTGTGT
CTAGGCTCCCTGCTCCGACAAGAGAACACACGAGCACACGCGCGGTCCCA
GTTAAGACATTATTACGACTGAAAACGGAGAGGGACGCGGCTGAGGGGCA
GGCCTTGGCCAAAAGAGGGAGAACGGATGGCGAGGATAAACGAGAGGAGG
GGTACGGGGGGGCACAAGGGCAGCGAGGTAGTGGGGTTGGAGTTGCACAG
CACAAGAAGAAACAGTCCAACGCCAAGCTACGGGGTGGCCGGATGGAAAA
CCTGTACAGTAGGGCGGAATGGTGGTGTAGCTGCTGCCAAAGATGTGGGG
CAGAAACAACTGGGTACGGTGGTGCCAGTAGCAGGAGGCATGAGAGCGAC
TGAGGAGAGCAAACGTGAACAGGCAGACCTCGTGGCAAGACATGTTTGCG
ATTGATTGCATGCCTATTATGTTGTTTTCAGGGATAAACGAGAGGAGGGG
TACGGGGGGGCACAAGGGCAGCGGGGTAGTGGGGTTGGAGTTGCACAGCA
CAAGAAGAAGCAGTCCAACGCTAAGCTACGGGGTGGCCGGATGGAAAACC
TGTACAGTAGGGCGGAATGGTGGTGTAGCTGCTGCCAAAGATGTGGGGCA
GAAACAACTGGGTACGGTGGTGCCAGTAGCAGGAGGCATGAGTGCGACTG
AGGAGAGCAAACGTGAACAGGCAGACCTCGTGGCAAGATATGTTTGCGAT
TGATTGCATGCCTATTATGTTGTTTTTTATCACCCCCCCCCCCCCCCCCG
ACTTCCGGTACTTCCGGTCTTCCCTCTGCACTCTCCATGCATGTATTTTA
TTCCTCCTTGTCTCTTTTTTTTTTTTTTCTTCTTCCTTTTCGTTCCCCTG
CTTCCTCTTTGTTTGGCGGCCTGTTTGTTGTGTTTGTCTACGAGTGCACT
CCCTCAGTCTTTGTGCCCTCCCTGTATCTTCTTTTTTATTTTTTGTCTTT
CGTCTATTGATCATGTAGTTACTGGACCATCGCCCTGGTTTGCCTTTGCC
TTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGAAGTACTTCGAA
GTATATGGTTATGGTCGAGGTTTGTCTTGGTTATTTTTTGTTTGTCGGAC
TGTTTCCAATTTTTGTTTTTCTTTCGAGCCTGTTATTTTTTTTCTGTATT
TTGTTTGGTACTTTGGCCACCACAGATGGTACCCCAACCGCACCATATCT
GATTTCTGATTTGACTGTGGGTGATCATAGTCCATATATTTTATTTTTAT
TTTTATTTTATTTATTTTCCTCCTAGCACGATATGTGCCTGGTTCGTGAC
CACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAAC
AACAACAACAACAACAACAACAATTATTACAGCTGTATTTACTCTGGTCC
GACATGTCATTCGATGCTGCCCGCCAGTGATCGGCCAATCAGCTGGTGCG
GCCGATGCTGACACGATTAACACAAAAGAGGTCCTGCGTGATGCAACTGC
GGTCGAAGACCAAGAGCAGGAGAGAGGGGACGCCTGTCTTACTGTTGTAT
CATATCTCTTGCACACGATTTGGATTGCGATCAACACAAGCCTTAACCGC
TCAACGAGTAGGCTGCACCCGCCATCCATCCATATATTTTCAGAGATATC
ACGGCGGTCGTTTGTTTACTCCCCAGTATTTCTTCAACCCAATAGACCAT
GAACTGCACCCATTTTTTCTTGGCGACAGTGATGATGATAGCGAGCGCCC
CGCTGGGTACACCACAGCAGCGGCCACGGCAGGTAGCGGGGCGCGCATGA
ACGAGCTCCTGGCGAGCTACTACGGCATGCAACAGCAGCCGAGCGGGGCG
GACATGTCCTCGGACGTCGAGAGCACCTACTTCGATCCTAAGCGGTACGT
GTCCGGTCTGCTCAAGAACGACAAGATCGAGACCCTCCTCAGGAAGGACG
ATGAAATGGTGAGGAAAAGCGGAAGGTACGAAGCAAAGGGGGGTGGGGGG
GTAAGCCTTGACCCAAGAGATGACAATTGGACGTTGCTGTTGTTGTTGCT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCAAGTGTTGTTGTCGTTGTC
GTTGCGTTGTCGTTGCCGTTGTCGTTGGTGGTGTCGGCGGTGTTGTTGTT
GTTGTCGTTGTGGTGCACAAAATATTTGCACACCAGGCACATGCCCCTTG
TCTGATACGTGTTGGTGGTGTTTCCGTTTTTTATTTGCTCTTTTCGTCAT
TTGATAACCTACCGATGACCGCAATTAACCGATTTCACTGTTTTCGCTAT
TATATCACACGCACCGTTCAGGTCCGAGAGGTGAAGAAATTAGACTCAGA
CATGCAGATGCTGGTGTACGAAAACTACAACAAGTTCATCAGCGCCACGG
ACACCATCCGCAAGATGGCGCAGAACGTGGAGGGCATGGAGACGGAGATG
ACCGACCTGAAGAGTAGCATGGACCGCATCGCCGACAGCAGCGCGACGGT
CAACAACTCCCTAGAGAGTGAGGACGAGAAAAGAGACAAGGGCAGACAGA
AGAAGAGTTCCGATAAAAACGGGGTCTTAGGCAGTAGAAACAAGACAGGC
AGGGGCGGACAGAGGGAAGGACAGTGACCAAAATTGCATTTTCCGGCGAG
ATGTTTGCAGGATGAGCATGCGATACGACTGACTACCGCTGCGGTTGTTT
TTCTTCGCCCGTCAACTCAAGTGACCCGCTCGCTGGCTGCCTTACGGCAT
CCCGTTTCCGTTGTTGCTGTGACCGACAGGTAACCGGTCGAAGATGGATA
AGCTGGTGCGCGTGAGACGCCTCCTTCAGCGCCTTGACTTCTTGTTACAG
CTGCCGCAAAAGTTGGAGGAAGCCGTACAGGAGGGGCACTACGCCAAAGC
AATCAGGTGCCAGCACGTGGGCGGGTTGGACTAAATGGGCTTGATTCGAC
TCGTGATACGCTCGTGGATAGGTAGTTGGGGATGGTGCCATGCACTACAA
ACTGTTTTTTTGGGCGCGGAAGATGGGCGGGGAATCGCTGATCATCCTCG
TGTTTTTGGTTGGTCTCCCTGCCGTGGGGTCTGGTAGAGGCGAGGCAAGA
CGATATCGGACGTTGCTCGGCATGCCGTATACTCTTGAGTCGTGCGAGGT
ACTAACCATTCGCCTCGTTCTCGATGTTGATCGTATTTTTGTACCTCCTT
TAATGTATGGTAATAGGCGGTGCCCACAAACCGGGAGTATCGAGCATTCG
CACCATGATCGCTGGCAGCGTTGCTCTATTCCTGCCTTGCTACACGCGCT
GCTTAGTCGCCACTGGTGTGAGCTTCGAAAAGCTGGCGGAAACAATCACT
AACGTACATCCATCTCCGCACACTCGACACATGGGAAATTTTCATCACGG
TGTTTTCCCTGCTTTCCACTCTCGCACTCGCACGCTTTCAAACGATTTTA
ATCTTGGGCTGTGCTTCCTCGCCGCCTGGGGCATCGACACATTTCTCACT
TGCCTCGCGAAAAGGTACTTCTCCATGACGAAGGACATCCTGCGCAAGCA
CTCGCACGTGTCTTCGTTCGGTGCCATTCAAAGAGACTGCGAGGACACGG
TCAGGCGGTTGCAGGAGAAGCTCCAGGAGGAGGTCAACAGCCCGGTGAGC
TACGGTAGTCTCGAGCTTCTTGCCGCTGTCGCTGCTGCCTCTGCTGCTGT
TGATGTTACCGCAGCCTCCTTTTCGTTGCGCCCTTCTTTTCTATGCAAAA
TTCGGCCGTGTCTGCCTCGAAAACAGAGTAGTACCCAGAGCGACAGGTAT
AGCACTGCTGTTGTTCGCACCCTTTTGCACACAATTTTTTTGACGCGCGA
GGACTTTCTTAAAAACGGAAGCGTTATTTACGAATTCGACGGCGTATGAT
GGAAGATTCAAACACCAGATGAGTCGCGGCAAGCAACCGGTGAGCCAGCG
ACACAGTGCAGTTTTCATAAACCCAATCCTACCAAATACCTACGTCAAGA
GCCGATTGTCAAATTACCACCCCCCTCTGCGCTAGAAATATAAGCCTGAA
AGGGGTGATGCATGCGTGGTAAATGTTGAAATGACCGAGGCAAGCAATAA
CTGACCACGTAACACCCCCGTAATACCACCTAAACCGGGCAAGGATGTGA
GTCGGGACACCCTTGTCTCGCATGCCGACCTCTTGCTCCGGCTGGGAGGG
GATCCCGCTGGGCTTAAGGAGCGCTACCTGCACTCGCACCGTCGCCAGCT
GGAGGCGTTTTTGTCGGCATCGAAGGGAGCCCTGGTCGAGGACCGTTCTG
TGAGCTTAGACGCCTGCCTGGGGAAGCTAACGGAGGGCTTCCTGCCAATG
CTGCTGAGGTAGTAAGCCCCGTGGTAATCACGTGTGGGCTGTATGAAGGT
GTAGCGAAGCAGTGGACGTATTCACTGAGCCAGTGCATGCCAGGGAACGC
TGAGTTTTGCCAGTGTTTTCGCCGGCCGTGTACAAGCATGTATTTTGGAG
GGTCCTGTTGGCGAGACTCGTTTGTTTCCCCAGTCGGTGTGGTCCATCTA
CACGAGGTGCTGGTGGCGGAGAGCGGTCCTTGCCCATGCTGCTGAGGGAG
CCCAACACGGCAGTAACGAAGAAGAGGACACACGATTGAAAAACAGAAAA
CACGGCTGCGACGGAGAAAAATTTACTTCCTTAGCGTTTTATCTCCGAGC
GTAGTCTAGCTGAGTTAGACAAGCGTGTAACCGCTGTTTGAGTGCGTCGG
CTGATGTTGTCCGACGATGACGGATATTGCTTCATTTTGAGGAATGCCAA
GTTTTCCCTGGTTCTGGAGCTAGGGTGACATCAAGTTTTCGCTAGCTTGA
AGATGAAAGGACTTTGGCACGCGGTTCGTGTCGTAGCGCTGTCAGGCTTA
CGTCTGCAACCTCCCTGTCTCGTTCGGCTTTACGGTGTCTTCGTTGTCTC
CCGCCTTGATCAGAACGGTGCAGCTGTACGCACAACTTTTCCAACGGAGC
CGAACAACGATAGCAACATCAGCATCAGCATCAGCGGAAGTAGAAGCAGA
TCTCAGCCCGGTTTCGATGCAGCAGCAGCAGCAGCAGCGAAAGAAACAGC
TGCAGGGGGACGCTGGAGTAGCAAACGGACAACACGAAGGCCAAGAAGTT
CATGAGGGGCTGGTATGCCTCCTACAGTCCAGCGTGGACAGCTTCTTCGG
ACTCTTGTACGCCAAGGTGGATCAATCGCTGAGTGTTGGCCCTGCCGGCC
AGCCGGGGACCAGACCGCCTTCAGGAGGCGGCGCGGGGGCACCTACCCTT
GACAAGGAGGACACGCAGCCTCAGGGGGGTAGGGGGGAAGCATCAGCAGC
CGAAGAGCTTGACCCGGTGGCATTGGGAGGAGTGGTTGCGGCCGTGCAGC
AGCTGGTGTCCGACATCGAGGCCCTTGATCCTCACGTCCCTCAGGTGAGA
CAGGAAGATGGAGGAGCTCTTCGCGAGAGAGGGGCAGAGGATGAACAGAC
ATCGAGGCAGAGGCGGAGTGAGGCGTTTTTGCACTGCTGCTGCTGCTGCT
GCTGTCTCTGCTATTGCTCGGCGGTGCGCCGAAAGGCATGCTGCGGTCAC
GCAGCAAACGAGAGAGCTGGGCGGGCGGGAGGAGAGGAGGGGGAGATGGA
AGGAGGGGTAGAGCGCTTGAATTGTCTTGTTTGCTCTACTCTGTAACGGT
GTCACAGTTCGATCAGATGGAAACACACGCACACGCTTACCCCGGGCCCG
AATCCAAACCCCAGCCCCGAACGGACTTTTCCCGTATTATTTCTGTTTTG
GCGCGTATCACACGACGTCCGATAGGTGCAGCTGGCGCGGAGGGCGAAGG
AATTTGCACAAGAGTTCAAGAGGGGGCAGGTGAGGCGTGGCTTCCTTTTT
TTCGCCCTAGAAGCGAAGTTTTCAATTGGAAGTTTTTATCTTTTATTGCT
TCTGGTGTTGCTGTGTCATGAATCAATCAGTCTATCCAGGCATCGCCTCG
ACGATGAAATCTGCTGGTCATGCTCCTCGCAGTGGCCAACCTTCCTCAGA
AGTCGTAAATCATCTTTCAGATGATACTGGTCAAGCCTGCCGCTTCTAAA
GGCCATGTGGCCGTCTCACGCGTGTACATACTGTATGCACTTGATCTCCG
CTTCCTCTCGCCGTATTTTTTTTCCTTAAAATTACTGCCTGCTGTAGGAC
TACCACTGGAGTCTGACAAACACACAGTCTTCCTGTCCGTGTGTCGCGCG
TTTTGCAAAGTTGTATATTACCTCGTCTCCCGTCCTCTCGCCTCTGCTTG
GTGTGATGGTCTCCGCACCGTGGGACGCAAGAAATCTGGAGTGGAAACGC
CTAACAGCGGAACTATTCCACTCCTTTATAGGGCCACCCTTTGTTTCGAA
CTCCCGGCCGCCTGGTTACTTCGCTATCCCTTGCCGCGCCACATCTATCA
TACGTCGGATTTCGGTCGACGGACTGTCACTGCCTCTGCCTCTGCCTTTG
CATCTGTCGGTGTCTCTGTCTCCGTCGCAACACTTCTTGTCCTCTCCCTT
CAATTTCCCTCGCAACCTCCCTGCCATGGGAACTCCAAAGGTCCGCCGAT
CCTTCCGAGTTCTATGCCGCATATCGCTTTCCGTGGCCACTTCGATGGTA
CACGCCGTCAAACTGGGAACTCCCTTGCAAGAAATATTTAAAGATGCTCT
AGACGCTGGGAACACGGGAGGAGGGGGGTTGATGGCCGGAAACATCAGAC
ACGGGAGTAACTCAGCAGGCAGGAGGCGGCGGGGGGGTAGTGAGGGGCAA
CAGTACCCCGCGCTGGTGGAGCGAGCTCTGGCGACCCTGATGAAGGTGTG
GTCGAAATGACTCTCTTTCAGTGGCATTATTTATTATTTAATGTTCGAAA
GGGGGCAGTTGGTTGAAACGAATGAATGCCTTTTTTTTTCATCGTGGGGC
GAGGAGAAGGAGGTGCTCACCAAAACATGGACTACGAAGGGGGTTGTCTG
CATGTTTTCCCCCTGTCGCTCTGCTCCTGGGAGCCGCGGACGCGTGTCTG
TTTCTGCTCCTGCGCTCGATTGCCTAATTGCTCTCCTCGCATGACAACAT
ATGTACAGCAGTCGTTTCACAGTTGCTTTTTGTGTGTTTGCATCTTTGTT
TCCTTCTGCGGCCGGCCCCTGCGGTGGCGGTGGCGGCATTTCGTAGGGGG
CGGACGAGATCGTTTCTGGCTTGCGGCCTTTGTCTCGCCTTGACCCATCA
CCGGGGCCCCTGGCGGAGGAAGTGAGGTTCGGGTTGTGGGGAGTCGTTCT
CTGGCTTGTTTCTGCTCTTGGCATCGTCGCAGGTGAGGAAAGACGTGAAG
ACGCGATGGACTTGCATAATTTACAGGTCCCGGATGGAATTGTTGTCGTT
GTCGGCCTTTTGATCGCCGCTGTGATCGCCGCTGTATGATATCAACTCCA
ACGTCATCAACGTCACAGATTGGATCGGCTAGGTGCTATCATCTGTGTTC
GACAACGAACGGCCCAGCAACTCAATAGGCGCATACTACTTTAGGGTGTC
CCGTCGGAGCGTTCGAGACAGATTCTGATGTCAATCTTCGGGCGCGCTCC
AAACCCCCCCTTTGCTTCCGCCTTCCACGGTAAGTATTTTCCGTTTTCTT
ATTTTCCGCGCTTTCTTATCGTCCCCATCGCCCCCCCCCCTCCCTTTCCC
CGCGTGGGTGTTTTCGGTCCCCGTCTCCCGTTATGATACCTCTCGCTCTC
CCTGCCCCTCTTGCGACTACCTTTCCGCTCATGATATGATATGCACGTGT
CCCCTTACTTTTGGGACGAACTCACGGGCCGCGCGCTACAAAAACACACA
AAAAAATGCCCGAACATTCACACGCATACACATACACATACACATACACG
TAACATATCATGTGATCATGAAATACCATAAATATGAACGACACCAGGGG
TAGCGGCAGACGACTCCTCCTGCGACACTCTGCCATCAGCGGAGGGCCTT
GAGTACAGCAAAGCCCTAGAAGAAGAGTGGAGAAACGGAGCCGTTGTGGC
ACTGAGGGAACCCTTGCCGTCTATCGAGGAGACGACCAAATCTGCCGCTG
CAGCAGCAGCAGCAGCAACAGCAAAGCCGGATGGTGGTGGTGGAGGAGTA
GAGGGGGGGGACAGGGTGGGAGCGACCGAGGGCGAGGTGGTACTTCTGTT
GGCGTGCCTGTGCCGGGGGTTGGGGACGACATTTGTCGTCGGGGTTCCTG
AGCTTCTCGGCAGGTGTGTTGTTCGTCTAGGCTGATCCGACCTGTGTTTT
CCTCTGTGCATACGCCTGTAGATGTAGATGCTGCAATCAGGGAACCAGAG
CGTTACTGTTACAGAACCCGACCTAACCCTGCGATGAGCTTCGGTCTCTC
GAACGACGGGCCAACATCAAAACGGAACGGTCCCCACGCGCTCTCCTGGA
TGCCCCTTTCCCCGCCCGCCTCTTCGTTTACCTGAAAACGAACAAATCAC
CATCAAACCTAACCCGTCCACCTTCAAAATCCCCACCATTTTTTCCAAAT
CCAATCCCAACCCAATCCTCAGACAAATCCCTCTCACCCTGGACCAGTCT
GTGCACCCAACCACGCCGTCGATGCACTTTTCGGGGTCTGTGCACTCCAC
CCGCTCCGCGGCATCAACCTTCAAGTCTGGCGTCACCGACACGAAATCCC
TAGACGGCAACGACGATGATGGGGTGGGGGCGGGCGGGGGCCCCGTGCTT
GGGCGACGGCGCCAGCTAGACGCGGTACGCAATCGAGTGACGTCGGCGTC
TCGTCTCATTCTGGAGTACTACGCGGAGACCACGGGGAGAAGGCTCGCCG
ATGTTCTTGAGGTACGGTACCAACGTACTATTTTGACAACGGGGGGAGGG
AGATTCGGACAAGGGCATAGTGCGGACAAGGTGGGGAGAGGACGGAAGAA
TGCTCTTAGGATGTGGTCGATAAGGCCACACGGGCACGCCGTTTTATTGA
CGTGCAGCTTGGAGGGGGCGGAGGGGGATACGCTGCGTGCAGTATGGTAC
GATGTCGATTGAATGAGAGACCGTAGGAAGAACTTCGGTCTGTATCCCTT
TCTCCTGCTGTACTTCTTGTTTACTGTCGATTGTACAGACATGTCAGGCA
GGATTAGACGAACCACCATCCACGAGCAGATCCTTTTCCACCGGTCACCA
GGCCTATCTCTGCTCTCCGTTGCGACTGCGTCGATGATTCGTGGGCGATC
GCACATGAATCAACTTTTCTTGCTGAATCTCATTTTGGTTCGACCATGTC
ACAGGTACAGGACATGTCACTGCTGTGTCAAGTGTCAGTTAATCTCTGGC
GAAATATAAATGTAATTGTACATTATTGCCGGCCGATGTACAGGTGGGTC
TCGATGGTCCTCCTGGCGGCGGCGACTGGTTCTCAGTCTCAGAGCCAAGT
TCCGTCGGTGGGGCCGTGCTGGACGCCCTCGAGCTAGCGGAGGACAACGT
CAAGGTTTGTCCGAACGCACGCCGGAGTCCTACTACTCCCAAGTATGCTA
CCGAAGTACAATTGGATGTCCGTAATTTTTTTCTCACTTCTTATGCGAGC
CCTAGTGAGATTCGTGGTCCTGCCTCTACCACCCCCTTTTTTTTTAGAGG
CAGTTTTTTCTGTGGCATTTTCCTTCCTACCCCCCCCCCCCGCCCTCCTT
TGAATCACGGCCCTCTCGTCTCGCCTCAACTTGAAGCATTTTCTATTTTC
ATATATACAGTATGTACAGCAGTAGCACTATTTTTTTCGCACATACCACA
GCAGCACAGCAGTACGCCTTCCCTCACGTGGTATATCACGGGCCCTTGTT
TTGTTTCTTGTTTGATGGCACCTTTACGTGATAATTCCCCAGGAGGTGTG
CGCCTTCCTAGACGAGGCCCGAACCGGCACTGTGTCCGTGACAAGATCCG
GGGACAGAGATCTACGGAGAAGGGGGCCCATATCGTCCCTCTCGGAAGGT
CGCAATGGAAGGGGCGGCGTCGGGGGGGCTGGCGGGGTGCGGCGCGATAT
TGATCGAATTTTCGAGAGCAGCAGGGACGGCAACGGTAAGTGCTTTTATT
CAAAATGGCCGGTGTTGACTTTGGGTTCCCAGCAGCACCGGCGCTGTTTT
TTTTTGCTGCGACAAATCGACCTTCAACAAATTGTATGTTTGTGTGAGAC
CCCCCCCCCCCTCTCGCCCAAAAATGAGTGACGTATCCCCCTATGAAACT
CTCGCTTTCCCGGCCCTGCGAAATGAATGCTCAGGTATGGGCTCTAGAGG
GTCTTCGAGCGGGGCCGCTCGCGTGTCGTTTGCGGCAGACGCCATGCTTG
CGGCGGTTTTCCGCATCGCTTTGAAGGCGTTTGGAGAGCGGGCGCGATTC
CTGACCCTCCCCGGCCCTGGTTTCCGACAAGTGCACCTTGATGCAGACTT
CCTCCGACAGGTGTGGGACAAATCGTGCACGCCGGGTGCATTCGTCTTGT
GGTTTCGAGGTTTTGTTTTGGCCTTCCCTTCATCTCACCATAGTACGACT
GTAGTTTCATGAAGAAGTTCACCAGTGCCGGAGGGGATTTTCCCGTTGTG
TTTCACCTTGAACAGCAGTGTAGAGTTTGAGGTGGAGGAGGGGGGCTGGA
TAAAAACGCAATTACATCATACCGAAGTAGCCATTTGAACAACTTTGTCG
CAAGGTGCTGCCGGTGTGGCGTGCCAAGTGTGTCGATGTCATTTGAAGGC
CGACAACGATTGGAGTACGTGGGACTGGTTGTTTTGCACGAGACCGTCGA
ATGGTGTTGAGTGTATCCCCGCTATCATGTGGACGTGTCTGCTTTTCGTC
GGGGCTCGAAGGGATATCGTATCTCATAGTACGGTATCGTTTACAGTAGT
TACCGTTGTTGATGCCCCCCCCCCCGCCCTCAAGCGACCCATGCCACTGT
TGACCCTATCTCCCATATCCCATACCCTGTTCCAGGTCCTTCCCTTCTAC
GTGGCGGAGAGTCAGATGCTGTCGTCACTGGACACTCTGCTGGATCAGGT
CAGTCACCAAAAAGAAAAAGCTAAGAACAAAAGGGGAGACGAGAAATATC
AACTATCTTCACATCATACCAGGAAATAGCGCACCTTTTGTCATGCCAAA
CACTCTTGCCGAGCAAGTGTGCTTGTCTTCCGTCCAAATTTTTCGCAATG
CGCTCTCGCTCGCCTCGTCCTGTTCCGTGTGTATGGGGCGTGTTTACGAC
CTAGAGGCTTGTGGTGTCAAAGGCTTTCTGTAGCTCACTTGCCGACAGCA
GGACGTAAACATTGCCCGTTGCCGATTAATTCGGAACCTATATTCTCGTG
CGCCACTGCGGGCGCTCAAACTGGTACGATCTGGAATGGTGCTTGAAGCG
TGTAGATTGTGAAATCCTTCTCGAAGTACAGTAGTGAGTCATGATAGATG
TCCCATCCCCGCTGTGACGTCACAACGAATCAAAATGAGGTTCGTGACAA
GCTTGCACCACTTTCTGCGTGGTAAAGACACGGAGGAGCAGTATCGTACG
GTTAGAACGACGTGCCGACCAGTCCTGCTTCGAAGCACAGGAGCTTTCCG
ACTGCTGTAGGGGTTGCCCGATGGACTGCTACGGTGTCGGAAAAAGCACT
GCTGTGTTGTTCTTCGAGTGTATTTTACAGCAAGACATGAAAAAGCAACA
TTTTTTTTTTTTCCTCTCGTGTTTTTTTGTCGAAGGCTCTGTCCAAGGGC
ATGAAAAGCGCAGAAGGTATAATTCTTGATTCGAGAGAGAGAGATCTGGT
TCCTAAGTTGTCCCGAGATTATGTGTATTTGTGGTAGAGTGCCAGGTTTG
CTGGGGGTTACCAGGACGACAATTCGTTGCATTTGTTTTTACACTCAGGG
TCATCCCATCGTTCGATCATAACAAGTATTTATGTTGAGATGCCCGACTG
ATAGGGTCGACGTGGAGATGCTTGGTCGATTGTTTTTTACTAGGGTCATC
CCGATGTTGCTTTCAGCGTGGCGGGGTTCTGACATTTTTTTGTAAATTTT
TGGAGCTGCGACGAGCACGAGCCCCACGTGCTTGCTCAACTTAATCCTCA
AACTTTACCCCAAAGTAAATCAGTGTCAATCGAGACATCTCTCCAATCCT
CCGTCTAATCCGAGGTTCATCGAAAGAGCTACCGCGGCACTCTCCCTTGT
ATAGAACCTGTGACGAGCCCTGTGTACATTACGTCAACATTTTACAAGCT
TCGCAGAACGCCCAGCTACGACAGCAAGCTGCGACTGACTGTGAACGCCA
ACAGTAGCTTGGTTGTGCATCGATATTTGGTTGCTGGCGCACGGCGTGCT
TGTTCTTTCACCACGCCCATCATGCGTGCTGATCGAAATTCAAAGTATTT
TAGAGCTCTTGTGAACCTAGATTACCCTAAGACGTGGCAGTAGGAGTTCC
CAAGCGAGCGGTAGTACTGTCCCACAACCAATGGCAGGCAATGCTTTCCC
GTAGATTCAGCGAAGGAGCCCAAGAGCAGTAAGGGGGACCGGAGGGTCGG
TCGTTTGTGCACGGAAAGGAAGAACCAAATATACACCAGACTGTCAGGAG
GTCAACGGAATTTGACTGGAGTATTCCGAGAGCGTTCGTACCTTTCTCCC
TCGTTGTATGACATCATATGATATGATTGCACGTATTATACAATGTTTAC
GATGTCCACACAGCCGTCACCCACACTACTTCCGTTATCAAAGATCTCTG
TGGTAAGTTGGCACCTTTTCTCCCCTTGGCGTGTTCTCCCTCTCACATTT
TGTCATCTGTCGCATCCTCCATCTCACTCTTTGTACCCCGCTCAGGTCCT
TCAGAGCGCCGCGGACCGTTCTCTTGACCCTACCCCGATGGACCCTGCCA
CCGCCGGAGACATCGTTTCACAAGCTCTAGACGGATTCAGCTAGAAGACG
TCATCTTTGTAGAGCTACTGTATGATAGAGCGTCAGGCGTCATCACTTTG
TTGCAAGGATGTCGTACCGTACAACTACTACGCTAAATTTCCAGGAATTT
TCTCCCCTCCGTACGTTCTTGTATCACACGTTTTTGTGACGACACTACAT
GACATTTAATACCTGGTATACTTCCACGAGTACTGGTGCTGGATAGCAGT
ACCGTGATGATGCTGTAGGGAAAATGCCTAGCGGAGCTGCGCTTGCTCCG
CTGTTGTGTTTCTGTACGTCGGCAGTAGGCATGTGGTGGCATGGTGGCAT
GATGGCATGGTGGTGGGAGGTCAGGACGGGTCGGTCGCTTGATGGATCGG
GAAGCCGGCCGAGTTTTTCCGGGAATAGCGTGTGGTCTTTCCGGACGGTT
GTATGGTATGCTGTTGTACTGTAAACACAGACCGATGATGACGATACACC
TTGCCAAGTTTGTATGATACTACTCAGTACTTGGAAAATTTGGTTAGTTA
GGTAGATCGTGTTTCAGCGTGATAGCTTGTCTGCCCTGAGATCTGTTTCA
CTGGTTGGGAGCGATGACTCTTGCTTTTTTGCCGCTGCTCATCGTGCTGT
TGTTTTGGCTGCTGCTTACGCTTCTGAATCTGCTGTAACATGTTGCTGGC
GACGATTCTATCTCTTGTTGATGATATACATAATGTGTGTGAATAATTTA
CTCTTGGTGTTCATAACTTCGAAGTAACTTTTTTTTTTAGTCTGTCTACG
ATAGCCGCCGCACAAAACCGGCGATTTTCCCTCACAAACGTTTCATGGCT
TTTTGAGATGAGGAAGGGGGCTATCAAAAATACAAAATGCACCAGATAAT
TGTATGCCGAGGGTCATCGAAAAATGAAATCGCCATCGTAAGAGGCCCTA
CATTTCAGACGGTAGGGCCAGGAGCTGATTTCGAAACCGGCCATTTTCGT
TAAAGAAATTGCGGGGGGGCTGTCGTAGAAATACTCTTTTGTGGCGGTCT
TTGCTCACGATCGCGCAAGTTGACG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig201:295879..310503+ >mRNA_P-littoralis_Contig201.80.3 ID=mRNA_P-littoralis_Contig201.80.3|Name=mRNA_P-littoralis_Contig201.80.3|organism=Pylaiella littoralis U1_48|type=CDS|length=3102bp|location=Sequence derived from alignment at P-littoralis_Contig201:295879..310503+ (Pylaiella littoralis U1_48)
ATGGCATCGGAAGCGCTGCTGAGACATGACAGTGATGATGATAGCGAGCG
CCCCGCTGGGTACACCACAGCAGCGGCCACGGCAGGTAGCGGGGCGCGCA
TGAACGAGCTCCTGGCGAGCTACTACGGCATGCAACAGCAGCCGAGCGGG
GCGGACATGTCCTCGGACGTCGAGAGCACCTACTTCGATCCTAAGCGGTA
CGTGTCCGGTCTGCTCAAGAACGACAAGATCGAGACCCTCCTCAGGAAGG
ACGATGAAATGGTCCGAGAGGTGAAGAAATTAGACTCAGACATGCAGATG
CTGGTGTACGAAAACTACAACAAGTTCATCAGCGCCACGGACACCATCCG
CAAGATGGCGCAGAACGTGGAGGGCATGGAGACGGAGATGACCGACCTGA
AGAGTAGCATGGACCGCATCGCCGACAGCAGCGCGACGGTCAACAACTCC
CTAGAGAGTAACCGGTCGAAGATGGATAAGCTGGTGCGCGTGAGACGCCT
CCTTCAGCGCCTTGACTTCTTGTTACAGCTGCCGCAAAAGTTGGAGGAAG
CCGTACAGGAGGGGCACTACGCCAAAGCAATCAGGTACTTCTCCATGACG
AAGGACATCCTGCGCAAGCACTCGCACGTGTCTTCGTTCGGTGCCATTCA
AAGAGACTGCGAGGACACGGTCAGGCGGTTGCAGGAGAAGCTCCAGGAGG
AGGTCAACAGCCCGGATGTGAGTCGGGACACCCTTGTCTCGCATGCCGAC
CTCTTGCTCCGGCTGGGAGGGGATCCCGCTGGGCTTAAGGAGCGCTACCT
GCACTCGCACCGTCGCCAGCTGGAGGCGTTTTTGTCGGCATCGAAGGGAG
CCCTGGTCGAGGACCGTTCTGTGAGCTTAGACGCCTGCCTGGGGAAGCTA
ACGGAGGGCTTCCTGCCAATGCTGCTGAGAACGGTGCAGCTGTACGCACA
ACTTTTCCAACGGAGCCGAACAACGATAGCAACATCAGCATCAGCATCAG
CGGAAGTAGAAGCAGATCTCAGCCCGGTTTCGATGCAGCAGCAGCAGCAG
CAGCGAAAGAAACAGCTGCAGGGGGACGCTGGAGTAGCAAACGGACAACA
CGAAGGCCAAGAAGTTCATGAGGGGCTGGTATGCCTCCTACAGTCCAGCG
TGGACAGCTTCTTCGGACTCTTGTACGCCAAGGTGGATCAATCGCTGAGT
GTTGGCCCTGCCGGCCAGCCGGGGACCAGACCGCCTTCAGGAGGCGGCGC
GGGGGCACCTACCCTTGACAAGGAGGACACGCAGCCTCAGGGGGGTAGGG
GGGAAGCATCAGCAGCCGAAGAGCTTGACCCGGTGGCATTGGGAGGAGTG
GTTGCGGCCGTGCAGCAGCTGGTGTCCGACATCGAGGCCCTTGATCCTCA
CGTCCCTCAGGTGCAGCTGGCGCGGAGGGCGAAGGAATTTGCACAAGAGT
TCAAGAGGGGGCAGGTCCGCCGATCCTTCCGAGTTCTATGCCGCATATCG
CTTTCCGTGGCCACTTCGATGGTACACGCCGTCAAACTGGGAACTCCCTT
GCAAGAAATATTTAAAGATGCTCTAGACGCTGGGAACACGGGAGGAGGGG
GGTTGATGGCCGGAAACATCAGACACGGGAGTAACTCAGCAGGCAGGAGG
CGGCGGGGGGGTAGTGAGGGGCAACAGTACCCCGCGCTGGTGGAGCGAGC
TCTGGCGACCCTGATGAAGGGGGCGGACGAGATCGTTTCTGGCTTGCGGC
CTTTGTCTCGCCTTGACCCATCACCGGGGCCCCTGGCGGAGGAAGTGAGG
TTCGGGTTGTGGGGAGTCGTTCTCTGGCTTGTTTCTGCTCTTGGCATCGT
CGCAGGGGTAGCGGCAGACGACTCCTCCTGCGACACTCTGCCATCAGCGG
AGGGCCTTGAGTACAGCAAAGCCCTAGAAGAAGAGTGGAGAAACGGAGCC
GTTGTGGCACTGAGGGAACCCTTGCCGTCTATCGAGGAGACGACCAAATC
TGCCGCTGCAGCAGCAGCAGCAGCAACAGCAAAGCCGGATGGTGGTGGTG
GAGGAGTAGAGGGGGGGGACAGGGTGGGAGCGACCGAGGGCGAGGTGGTA
CTTCTGTTGGCGTGCCTGTGCCGGGGGTTGGGGACGACATTTGTCGTCGG
GGTTCCTGAGCTTCTCGGCAGACAAATCCCTCTCACCCTGGACCAGTCTG
TGCACCCAACCACGCCGTCGATGCACTTTTCGGGGTCTGTGCACTCCACC
CGCTCCGCGGCATCAACCTTCAAGTCTGGCGTCACCGACACGAAATCCCT
AGACGGCAACGACGATGATGGGGTGGGGGCGGGCGGGGGCCCCGTGCTTG
GGCGACGGCGCCAGCTAGACGCGGTACGCAATCGAGTGACGTCGGCGTCT
CGTCTCATTCTGGAGTACTACGCGGAGACCACGGGGAGAAGGCTCGCCGA
TGTTCTTGAGGTGGGTCTCGATGGTCCTCCTGGCGGCGGCGACTGGTTCT
CAGTCTCAGAGCCAAGTTCCGTCGGTGGGGCCGTGCTGGACGCCCTCGAG
CTAGCGGAGGACAACGTCAAGGAGGTGTGCGCCTTCCTAGACGAGGCCCG
AACCGGCACTGTGTCCGTGACAAGATCCGGGGACAGAGATCTACGGAGAA
GGGGGCCCATATCGTCCCTCTCGGAAGGTCGCAATGGAAGGGGCGGCGTC
GGGGGGGCTGGCGGGGTGCGGCGCGATATTGATCGAATTTTCGAGAGCAG
CAGGGACGGCAACGGTATGGGCTCTAGAGGGTCTTCGAGCGGGGCCGCTC
GCGTGTCGTTTGCGGCAGACGCCATGCTTGCGGCGGTTTTCCGCATCGCT
TTGAAGGCGTTTGGAGAGCGGGCGCGATTCCTGACCCTCCCCGGCCCTGG
TTTCCGACAAGTGCACCTTGATGCAGACTTCCTCCGACAGGTCCTTCCCT
TCTACGTGGCGGAGAGTCAGATGCTGTCGTCACTGGACACTCTGCTGGAT
CAGGTCCTTCAGAGCGCCGCGGACCGTTCTCTTGACCCTACCCCGATGGA
CCCTGCCACCGCCGGAGACATCGTTTCACAAGCTCTAGACGGATTCAGCT
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