mRNA_P-littoralis_Contig678.39.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig678.39.1
Unique NamemRNA_P-littoralis_Contig678.39.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A6H5KN25_9PHAE (Methyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KN25_9PHAE)

HSP 1 Score: 722 bits (1863), Expect = 2.270e-256
Identity = 358/400 (89.50%), Postives = 379/400 (94.75%), Query Frame = 3 
Query:  105 LLEVALEAAREKAGASASVAAAVSVLGAIVYLGVTRQKPKRDGLDYDGVSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            +LE AL+AAREK G SAS+AAAVSVL  ++ L  +R KPKRDGLDY+G++GVTHMLNNTDSVLKK +V+ +I DYE LF GARTEHGAITTE SIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNE FRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDC+VQGITINQYQVNVGNKYNREAGLS+SCSSRQGDFQ+LPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLK GCMFGGYEWVVTD Y+  NEAHV+LKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAY+ANE THSESEIPWYQPLCGSFWSISGFRQTHLGR+CTHGLVCTME+LRIAPKGSAQVSTLLNKTAIDLVK+GQLEIFTPSYFFAARKK
Sbjct:    1 MLEAALDAAREKPGISASIAAAVSVLATVMLL--SRNKPKRDGLDYEGIAGVTHMLNNTDSVLKKDDVKQSIVDYEELFEGARTEHGAITTEKSIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNESFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCAVQGITINQYQVNVGNKYNREAGLSDSCSSRQGDFQNLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKPGCMFGGYEWVVTDKYEPDNEAHVTLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYDANEHTHSESEIPWYQPLCGSFWSISGFRQTHLGRVCTHGLVCTMEMLRIAPKGSAQVSTLLNKTAIDLVKSGQLEIFTPSYFFAARKK 398
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A835YJE1_9STRA (Methyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YJE1_9STRA)

HSP 1 Score: 456 bits (1174), Expect = 6.940e-152
Identity = 239/385 (62.08%), Postives = 279/385 (72.47%), Query Frame = 3 
Query:  165 AAVSVLGAIVYLGVTRQKP---KRDGLDY-DGVSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDN-YDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            AA +V+   V L + R K     RD  D+ D + G   ML+N+DSVL++ EV+  I  YE LFAGAR   GAITTE SI +RQ+EYQKM+NSFYNLVTDFYE+GWG SFHFAPR   E F ESI+RAEY L SR+ ++PG +VLDVGCGVGGPMR++  F   S+ GITINQYQVNVGNKYN   GL++ C   QGDFQ  PFEDA FDAAY IEATCHSPDKVQ F EV RVLK GC F GYEWVV    +D  ++ HV +KEGIEVGNGLPTL  P  + A LE AGFEV+  Y+AN   HS  ++PWY  L GS  ++SGFR T  GR CTH LV T+E LR+AP+GS QVS LLN TAIDLV  G+ +IFTPSYFF ARKK
Sbjct:   29 AAAAVVTFAVVLKMRRAKKIQMARDSNDFNDTIQGSLSMLSNSDSVLQRDEVKDCIDGYEGLFAGARKATGAITTEESIAKRQSEYQKMINSFYNLVTDFYEWGWGPSFHFAPRVVGEGFMESIKRAEYHLCSRLGMKPGMRVLDVGCGVGGPMRHMCQFSGASIDGITINQYQVNVGNKYNERKGLADLCKLIQGDFQKQPFEDATFDAAYAIEATCHSPDKVQCFSEVARVLKPGCCFAGYEWVVLPGKFDPEDKDHVRIKEGIEVGNGLPTLVYPEDVVAALEAAGFEVLDHYDANREVHSPHQVPWYATLGGSM-TLSGFRMTRFGRACTHALVFTLETLRVAPRGSTQVSALLNATAIDLVDGGRRQIFTPSYFFVARKK 412
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A7S2PD46_9STRA (Methyltransferase n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2PD46_9STRA)

HSP 1 Score: 420 bits (1080), Expect = 7.060e-138
Identity = 221/382 (57.85%), Postives = 269/382 (70.42%), Query Frame = 3 
Query:  174 SVLGAIVYLGVTRQKPKRDGLDYDG-VSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLP--FEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDN--YDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            ++LGA + L    +  KRD     G VS    +L+N+DSVL +  V+ +I  YE LF+GAR   G  TT  SI+ R+ EY  MVNSFY+LVTDFYE+GWGQSFHFAPR K E F ESI RAE+ LA R  + P SKVLDVGCGVGGPMRNI  F    + G+TIN+YQVNVGN+Y  + G+ + C   QGDFQ LP  FE   FDAAY IEATCHSPD+   F  V   LK G +F GY+WVV     YD  N  HV +KEGIEVGNGLPTLAT   +   LEE+GFEV+ +++AN   HS+ EIPWYQ L GSF+++SGFR TH+GRICTH +V  +E +RIAPKGS +VS+LLN TA+DLV+ G+ EIFTPS+FF ARKK
Sbjct:   23 ALLGAHLVLSFILKSFKRDSYKSFGFVSDAASLLSNSDSVLGRDGVKESIAGYERLFSGARKNVGTTTTADSIQHREKEYATMVNSFYDLVTDFYEWGWGQSFHFAPRLKGETFEESIYRAEHYLALRSNITPTSKVLDVGCGVGGPMRNIQQFTGADITGVTINEYQVNVGNQYCAQKGIDQKCRLIQGDFQKLPEKFEAGTFDAAYAIEATCHSPDRKICFSGVNHCLKKGGLFVGYDWVVLPETGYDEKNPEHVRVKEGIEVGNGLPTLATSQEVVRALEESGFEVLDSFDANRNVHSDREIPWYQTLYGSFFTLSGFRMTHIGRICTHSIVSALEFMRIAPKGSVRVSSLLNATALDLVEGGKEEIFTPSFFFLARKK 404
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A4D9D589_9STRA (Methyltransferase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9D589_9STRA)

HSP 1 Score: 414 bits (1064), Expect = 1.840e-135
Identity = 211/387 (54.52%), Postives = 269/387 (69.51%), Query Frame = 3 
Query:  150 SASVAAAVSVLG-AIVYLGVTRQKPKRDGLDYDGVSG-VTHMLNNTD-SVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARK 1301
            S +VA  +SV+G  +V L V R   +RDG+DY G +  V  ++ N+D    K  +V  ++ +Y +LF GAR   G I+T+ASIK RQ  YQK+V +         EYGWGQSFHF PR + E F ESI+RAEY L SR+ ++PG +VLD+GCGVGGPMRN+A+F    + GITIN+YQV++GNKYN + GL++ C +RQGDFQ+LP+    FDAA+ +EATCHSPDK   F E  RVLK G +FG YEW+VTD +DA N  H  +KEGIEVGNGLPTLAT   + A +  AGFEV+ AY+AN   HS  +IPWY+PL G   S SGFR T LGRI TH  V  +E  RIAP G+ ++S +LN TAIDLV+ G+ EIFTPS+FF ARK
Sbjct:   17 SVAVAVTLSVIGLTVVVLRVRRVNLRRDGMDYKGTAADVLKIMKNSDFEAHKDKDVHSSVSEYASLFTGARASVGRISTDASIKTRQANYQKLVTNXXXXXXXXXEYGWGQSFHFGPRWQGESFVESIKRAEYHLCSRLGLKPGMRVLDMGCGVGGPMRNMAIFSGAKIDGITINEYQVSIGNKYNAQRGLADQCQARQGDFQNLPWPANSFDAAFAVEATCHSPDKRMCFSEAFRVLKPGGLFGNYEWIVTDKFDASNPEHTRIKEGIEVGNGLPTLATAEQVLAAVRAAGFEVLDAYDANADVHSPHQIPWYEPLTGKL-SWSGFRMTWLGRIMTHAFVTVLEAARIAPTGTGKISGILNATAIDLVEGGKAEIFTPSFFFVARK 402
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: F0Y1S6_AURAN (SAM_MT_ERG6_SMT domain-containing protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0Y1S6_AURAN)

HSP 1 Score: 414 bits (1063), Expect = 4.930e-135
Identity = 217/396 (54.80%), Postives = 275/396 (69.44%), Query Frame = 3 
Query:  201 GVTRQKPKRDGLDYDG-VSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEH---------GAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLP-FEDAE---------------FDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDN--YDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            GVTR      G  ++G ++   +ML+N DSVL + +VE ++ +Y ALF G   +H         GA+T+  SIK+RQ  Y+ MVN+FY+LVTDFYEYGW QSFHFAPR + E F ESI+RAEY L SR+ ++PG K LDVGCGVGGPMRN+A+F   S++GITIN+YQV VGNKY+ + G+++   + +GDFQ+LP F + E               FD AY+IEATCHSPDK + F EV R LK G +F GYEWVV  +  YD  N  HV++KEGIE+GNGLPTLATP  + A LE AGFEV+  Y+AN   HS  EIPWY  L G F ++SGFR T+LGR CTH +V  +E LRIAPKG+  VS +LN TA+DLV+ G+ E+FTPSYFF ARKK
Sbjct:   30 GVTRDASGGTGAAFEGQLAAGVNMLSNGDSVLAREKVENSMDEYAALFEGQTGKHSANGLTDEKGAVTSAESIKKRQEGYRTMVNNFYDLVTDFYEYGWCQSFHFAPRWQGETFLESIKRAEYHLCSRLGMKPGVKALDVGCGVGGPMRNMAIFSGASIEGITINEYQVKVGNKYHAQQGVADIAHTTRGDFQNLPGFTNGELWEGIDYGDMDWTGKFDVAYEIEATCHSPDKTRCFSEVARCLKPGGLFAGYEWVVLPDRGYDGANPTHVAIKEGIEIGNGLPTLATPEKVVAALEAAGFEVLEHYDANRNVHSPVEIPWYDTLNGKF-TLSGFRMTNLGRNCTHAMVTALETLRIAPKGTTHVSAMLNATALDLVEGGKQELFTPSYFFVARKK 424
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A7S3ZSU1_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZSU1_9STRA)

HSP 1 Score: 412 bits (1058), Expect = 2.860e-134
Identity = 229/426 (53.76%), Postives = 279/426 (65.49%), Query Frame = 3 
Query:  147 ASASVAAAVSVLGAIVYLGVTRQKPKRDGLDYDGVSGV-----------THMLNNTDSVLKKGEVEGAIQDYEALFAGARTEH--------GAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAE-------------------FDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDN--YDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            ASA  A A S+ GA    G      KR GLD D   G             +ML N DSVL++ +V G++  Y  LF G   +H        GA+TT+ASI +R+  Y+ MVN+FY+LVTDFYEYGW QSFHFAPR K E F ESI+RAEY L SR+ ++PG K LDVGCGVGGPMRN+AVF   +++GITIN+YQV VGNKY  + GL  +    +GDFQ+LP   A+                   FD AY+IEATCHSPDKV+ F EV R LK G +F GYEWVV     YDA N  HV++KEGIE+GNGLPTLATPA + A LE AGFEV+   +AN   H+ +EIPWY  L G   S+SGFR T LGR CTH +V ++E LR+APKG++ VS +LN TAIDLV+ G+ EIFTPSYFF ARKK
Sbjct:    4 ASALPAVAASLAGAT---GAYMLYSKRRGLDRDASGGTGASFDGQLAAGVNMLANKDSVLRRDQVAGSMGAYADLFEGKTGKHSGNGLEGDGAVTTQASIDKRREGYRTMVNNFYDLVTDFYEYGWCQSFHFAPRYKGETFLESIKRAEYYLCSRLNMKPGVKALDVGCGVGGPMRNMAVFSGATIEGITINEYQVKVGNKYCEQQGLKATAHLTRGDFQNLPGFQADEKHKLWEGIDYRGQDWTARFDVAYEIEATCHSPDKVRCFSEVARCLKKGGLFAGYEWVVLPERGYDAKNARHVAIKEGIEIGNGLPTLATPADVVAALEAAGFEVLEHGDANANAHAPTEIPWYDTLDGKM-SLSGFRMTRLGRACTHAMVSSLEFLRVAPKGTSHVSAMLNATAIDLVEGGKDEIFTPSYFFLARKK 425
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A7S1YWV2_9STRA (Methyltransferase n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1YWV2_9STRA)

HSP 1 Score: 410 bits (1055), Expect = 3.590e-134
Identity = 217/390 (55.64%), Postives = 272/390 (69.74%), Query Frame = 3 
Query:  171 VSVLGAIVYLGVTRQKPKRDGLDYDGV--------SGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSL--PFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDN--YDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARKK 1304
            V  LG+ V L V  +K  ++  + D V        SG   +LNN DSVL K  V  +I +YE+LF GAR + G+ +   SI+ RQ EY+ MV+SFY+LVTDFYE+GWGQSFHFAPR K E F ESI+RAEY LA R  +   SKVLDVGCGVGGPMRNI  F    + G+TIN YQV V N+Y  + G+S+ C   QGDFQ L   F++  +DAAY IEATCHSPD+++ F+ + R LK G +F GYEWVV     YDA N  HV +KEGIEVGNGLPTLAT A I   LE++GF+V  A++AN   HS +EIPWY  LCGSF +I+GFR T +GR+CTH +V  +E+ RIAP+GS +VS LLN TA+DLV+AGQ E+FTPS+FF A K+
Sbjct:   13 VGTLGSAVVLNVLIKKYSQNSFERDAVGSTFGSTISGGVSLLNNKDSVLTKEGVNDSIDNYESLFTGARKQVGSTSENNSIEMRQKEYKTMVSSFYDLVTDFYEWGWGQSFHFAPRVKGETFIESIKRAEYFLALRAGITDKSKVLDVGCGVGGPMRNIQQFTGADITGVTINDYQVRVANQYCAQRGISDKCRVMQGDFQKLNEKFDENVYDAAYAIEATCHSPDRIECFKGIHRALKKGGVFVGYEWVVLPERGYDAKNSDHVRVKEGIEVGNGLPTLATAAEITEALEKSGFKVAEAFDANRGVHSPNEIPWYDTLCGSF-TIAGFRMTRVGRMCTHAMVTMLEMARIAPRGSVKVSALLNATALDLVEAGQKELFTPSFFFMAVKE 401
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A7S3M907_9STRA (Methyltransferase (Fragment) n=2 Tax=cellular organisms TaxID=131567 RepID=A0A7S3M907_9STRA)

HSP 1 Score: 409 bits (1052), Expect = 5.290e-134
Identity = 216/362 (59.67%), Postives = 258/362 (71.27%), Query Frame = 3 
Query:  144 GASASVAAAVSVLGAIVYLGVTRQKPKRDGLDYDGVSGVT-HMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLN 1226
            GASA VA A S+     +L   R    RDG DY+   G    +LNN D  LK  E   +I DYE +F+GAR E GAIT+E SI+ R+ +Y  MVN FYNLVTDFYEYGWGQSFHF PR  NE F ESI+RAEY L SR+ ++PG KVLDVGCGVGGPMRN+A+F   +++GITIN YQV VGNK N   GLS  C   QGDFQ+LP+ D  FDAAY+IEATCHSPD+V  F  V RVLK G +F GY+WVVTD Y+  N+ HV +KEGIEVGNGLPTLATP  I   LE+AGFEV+  Y+AN+  H  +++PWY+ L G   ++SGFR THLGR+ TH  V T+ELLRIAP GS +VS LLN
Sbjct:   27 GASAVVALATSI-----FL-FRRSNMNRDGADYNSTFGAAGKILNNADHNLKGSEFHDSIADYENMFSGARQETGAITSEESIEVRKKKYADMVNHFYNLVTDFYEYGWGQSFHFGPRWHNEEFMESIKRAEYHLCSRLGMKPGMKVLDVGCGVGGPMRNMAIFSGSNIEGITINNYQVKVGNKNNASNGLSHLCKLVQGDFQNLPWADGYFDAAYEIEATCHSPDRVVTFGGVARVLKKGGLFAGYDWVVTDKYNPDNKDHVRIKEGIEVGNGLPTLATPEHIVDCLEKAGFEVLDHYDANKGVHDANQLPWYETLNGKL-TLSGFRMTHLGRMVTHSFVWTLELLRIAPAGSTRVSALLN 381
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: A0A1V9ZB68_9STRA (Methyltransferase n=1 Tax=Achlya hypogyna TaxID=1202772 RepID=A0A1V9ZB68_9STRA)

HSP 1 Score: 414 bits (1063), Expect = 2.100e-133
Identity = 209/385 (54.29%), Postives = 267/385 (69.35%), Query Frame = 3 
Query:  159 VAAAVSVLGAIVYL---GVTRQKPKRDGLDYDG-VSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARK 1301
            + AA++V    ++     V      RDG D+   + G T +L+N DSVL +  V    +DY+ LFAGAR E GAI+TE SIK RQ+EY+ MV+SFY+LVTDFYEYGWGQSFHFA R ++E FRESIRR EY L+ ++ +  G   LD+GCG+GGPMRNIA F    ++GITIN+YQV V N+ N++ GL + C   QG+F  +PFED+ FD  Y IE+ CH+PDK   F E  RVLK G +F G +W V +NYD  N  HV LKEGIEVGNGLPTL TPA I   LE+AG EV+  ++  +     +EIPWY  L G + +++GFR T LGR CTH LV T+E L+IAPKG+ +VS +LNKTA D+V AG+L+IFTPSYFF ARK
Sbjct:  148 IVAAIAVFATAIFTTAKDVANTSTTRDGSDFQTTLLGSTRLLSNPDSVLSRDGVNSRFEDYDKLFAGARKEAGAISTEESIKHRQSEYKLMVDSFYDLVTDFYEYGWGQSFHFANRFRDETFRESIRRVEYFLSGKLGLSKGKYALDMGCGIGGPMRNIARFSGAKIKGITINEYQVRVANRNNKQNGLEDQCHVVQGNFMEMPFEDSTFDGVYAIESVCHAPDKKACFTEAARVLKPGGLFVGLDWAVLNNYDPNNMQHVELKEGIEVGNGLPTLETPAQIAKALEDAGLEVLDHHSLQDNHRDPNEIPWYDTLEGKYLTLAGFRMTWLGRQCTHLLVSTLEFLKIAPKGTVKVSLMLNKTADDIVAAGKLDIFTPSYFFMARK 532
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BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Match: T0PRZ2_SAPDV (Methyltransferase n=2 Tax=Saprolegnia TaxID=4769 RepID=T0PRZ2_SAPDV)

HSP 1 Score: 410 bits (1055), Expect = 3.190e-132
Identity = 207/386 (53.63%), Postives = 267/386 (69.17%), Query Frame = 3 
Query:  156 SVAAAVSVLGAIVYL---GVTRQKPKRDGLDYDG-VSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAITTEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESIRRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQVNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKVQVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTLATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFRQTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFTPSYFFAARK 1301
            ++ AA+ V    ++     V      RDG D+   + G T +L+N DSVL +  V     +Y+ LFAGAR E GAI+TE SIK RQTEY+ MV+SFY+LVTDFYEYGWGQSFHFA R ++E FRESIRR EY L+ ++ +  G   LD+GCG+GGPMRNIA F    ++GITIN+YQV V N+ N++ GL + C  +QG+F  +PFE   FD+ Y IE+ CH+PDK   F E CRVLK G +F G +W V ++YD  N  HV LKEGIEVGNGLPTL TPA I   LE+AG EV+  ++  +     +EIPWY  L G ++++ GFR T LGR CTH LV T+E L+IAPKG+ +VS +LNKTA D+V AG+++IFTPSYFF ARK
Sbjct:  147 AIVAAIVVFATAIFTTAKDVANTSTSRDGSDFQTTLLGSTRLLSNPDSVLSRDGVNARFDEYDKLFAGARKEAGAISTEESIKHRQTEYKVMVDSFYDLVTDFYEYGWGQSFHFANRFRDETFRESIRRVEYFLSGKLGLCKGKYALDMGCGIGGPMRNIARFSGAKIKGITINEYQVRVANRNNKQNGLEDQCHVQQGNFMEMPFEAGTFDSVYAIESVCHAPDKKACFSEACRVLKPGGVFVGLDWAVLNHYDPTNMHHVELKEGIEVGNGLPTLETPAQIAKALEDAGLEVLDHFSLQDNHRDPNEIPWYDTLEGKYFTLQGFRMTWLGRQCTHILVSTLEFLKIAPKGTVKVSLMLNKTADDIVAAGKMDIFTPSYFFMARK 532
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig678.39.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KN25_9PHAE2.270e-25689.50Methyltransferase n=2 Tax=Ectocarpus TaxID=2879 Re... [more]
A0A835YJE1_9STRA6.940e-15262.08Methyltransferase n=1 Tax=Tribonema minus TaxID=30... [more]
A0A7S2PD46_9STRA7.060e-13857.85Methyltransferase n=1 Tax=Skeletonema marinoi TaxI... [more]
A0A4D9D589_9STRA1.840e-13554.52Methyltransferase n=2 Tax=Monodopsidaceae TaxID=42... [more]
F0Y1S6_AURAN4.930e-13554.80SAM_MT_ERG6_SMT domain-containing protein n=1 Tax=... [more]
A0A7S3ZSU1_9STRA2.860e-13453.76Hypothetical protein n=1 Tax=Pelagomonas calceolat... [more]
A0A7S1YWV2_9STRA3.590e-13455.64Methyltransferase n=1 Tax=Ditylum brightwellii Tax... [more]
A0A7S3M907_9STRA5.290e-13459.67Methyltransferase (Fragment) n=2 Tax=cellular orga... [more]
A0A1V9ZB68_9STRA2.100e-13354.29Methyltransferase n=1 Tax=Achlya hypogyna TaxID=12... [more]
T0PRZ2_SAPDV3.190e-13253.63Methyltransferase n=2 Tax=Saprolegnia TaxID=4769 R... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig678contigP-littoralis_Contig678:123490..153316 -
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.D8LBF8
PFAMsCMAS,Methyltransf_11,Sterol_MT_C
Model size2173
Max annot lvl2759|Eukaryota
KEGG rclassRC00003,RC01154
KEGG koko:K00559
KEGG ReactionR04427,R07481
KEGG Pathwayko00100,ko01100,ko01110,ko01130,map00100,map01100,map01110,map01130
KEGG ModuleM00102
Hectar predicted targeting categorysignal anchor
GOsGO:0003674,GO:0003824,GO:0008150,GO:0008152,GO:0008168,GO:0008757,GO:0009987,GO:0016740,GO:0016741,GO:0032259,GO:0043170,GO:0043412,GO:0043414,GO:0044237,GO:0044260,GO:0048580,GO:0050789,GO:0050793,GO:0051239,GO:0061062,GO:0061065,GO:0065007,GO:0071704,GO:2000026
Exons10
Evalue9.57e-263
EggNOG OGsCOG0500@1|root,KOG1269@2759|Eukaryota
Ec32 ortholog descriptionSterol methyltransferase
Ec32 orthologEc-27_004130.1
EC2.1.1.41
Descriptionsterol 24-C-methyltransferase activity
Cds size1233
COG categoryQ
BRITEko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig678.39.1prot_P-littoralis_Contig678.39.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig678 124356..153098 -


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

Feature NameUnique NameSpeciesTypePosition
1680791409.0818453-UTR-P-littoralis_Contig678:123489..1243551680791409.0818453-UTR-P-littoralis_Contig678:123489..124355Pylaiella littoralis U1_48UTRP-littoralis_Contig678 123490..124355 -
1680791409.1991045-UTR-P-littoralis_Contig678:153098..1531001680791409.1991045-UTR-P-littoralis_Contig678:153098..153100Pylaiella littoralis U1_48UTRP-littoralis_Contig678 153099..153100 -
1680791409.2114515-UTR-P-littoralis_Contig678:153244..1533161680791409.2114515-UTR-P-littoralis_Contig678:153244..153316Pylaiella littoralis U1_48UTRP-littoralis_Contig678 153245..153316 -


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

Feature NameUnique NameSpeciesTypePosition
1680791409.0940406-CDS-P-littoralis_Contig678:124355..1244541680791409.0940406-CDS-P-littoralis_Contig678:124355..124454Pylaiella littoralis U1_48CDSP-littoralis_Contig678 124356..124454 -
1680791409.10528-CDS-P-littoralis_Contig678:126465..1266511680791409.10528-CDS-P-littoralis_Contig678:126465..126651Pylaiella littoralis U1_48CDSP-littoralis_Contig678 126466..126651 -
1680791409.1196754-CDS-P-littoralis_Contig678:127129..1273301680791409.1196754-CDS-P-littoralis_Contig678:127129..127330Pylaiella littoralis U1_48CDSP-littoralis_Contig678 127130..127330 -
1680791409.1311748-CDS-P-littoralis_Contig678:127629..1277761680791409.1311748-CDS-P-littoralis_Contig678:127629..127776Pylaiella littoralis U1_48CDSP-littoralis_Contig678 127630..127776 -
1680791409.1406395-CDS-P-littoralis_Contig678:127944..1280581680791409.1406395-CDS-P-littoralis_Contig678:127944..128058Pylaiella littoralis U1_48CDSP-littoralis_Contig678 127945..128058 -
1680791409.1504583-CDS-P-littoralis_Contig678:128323..1284561680791409.1504583-CDS-P-littoralis_Contig678:128323..128456Pylaiella littoralis U1_48CDSP-littoralis_Contig678 128324..128456 -
1680791409.1612241-CDS-P-littoralis_Contig678:128629..1286971680791409.1612241-CDS-P-littoralis_Contig678:128629..128697Pylaiella littoralis U1_48CDSP-littoralis_Contig678 128630..128697 -
1680791409.1752355-CDS-P-littoralis_Contig678:139537..1396781680791409.1752355-CDS-P-littoralis_Contig678:139537..139678Pylaiella littoralis U1_48CDSP-littoralis_Contig678 139538..139678 -
1680791409.1854136-CDS-P-littoralis_Contig678:152954..1530981680791409.1854136-CDS-P-littoralis_Contig678:152954..153098Pylaiella littoralis U1_48CDSP-littoralis_Contig678 152955..153098 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig678.39.1

>prot_P-littoralis_Contig678.39.1 ID=prot_P-littoralis_Contig678.39.1|Name=mRNA_P-littoralis_Contig678.39.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=411bp
MARGAEKPLTLLEVALEAAREKAGASASVAAAVSVLGAIVYLGVTRQKPK
RDGLDYDGVSGVTHMLNNTDSVLKKGEVEGAIQDYEALFAGARTEHGAIT
TEASIKRRQTEYQKMVNSFYNLVTDFYEYGWGQSFHFAPRRKNEYFRESI
RRAEYVLASRIEVRPGSKVLDVGCGVGGPMRNIAVFGDCSVQGITINQYQ
VNVGNKYNREAGLSESCSSRQGDFQSLPFEDAEFDAAYQIEATCHSPDKV
QVFREVCRVLKTGCMFGGYEWVVTDNYDAGNEAHVSLKEGIEVGNGLPTL
ATPAIIKANLEEAGFEVVYAYNANETTHSESEIPWYQPLCGSFWSISGFR
QTHLGRICTHGLVCTMELLRIAPKGSAQVSTLLNKTAIDLVKAGQLEIFT
PSYFFAARKK*
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mRNA from alignment at P-littoralis_Contig678:123490..153316-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig678.39.1 ID=mRNA_P-littoralis_Contig678.39.1|Name=mRNA_P-littoralis_Contig678.39.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=29827bp|location=Sequence derived from alignment at P-littoralis_Contig678:123490..153316- (Pylaiella littoralis U1_48)
CTGACATCAGATCAGTCGATCGCGCAACAGGACAGCAGTAAGTGGCTCGA
TACCTTCCGCCTCGACCTACGAGTGAGTGAAGAGACCAAGATTTTGCTCT
GTAGAACGCTATTACAATGGTGGAAAGCGGTGTAGCAACCATCTTCTACG
GCGCTCTCTCTGTACCTATTTCATGTCAATTTGCCCCCCTTTCTTCCCCT
CTTTTTACCTCCATAGGAATGGCTCGTGGTGCTGAAAAGCCGTTGACATT
GCTAGAGGTGGCGCTGGAGGCGGCGAGAGAGAAGGCAGGAGCTTCAGCGT
CCGTCGCTGCGGCTGTCAGTGTCCTCGGAGCTATCGTGTACCTGGGTGTG
ACACGCCAAAAGGTTCGGACATCTGTATTTTTTCGAAGTGTACCCCTTTA
GGTATGATGCTGCTGTTCGAACATGTCGTCATCATCTCCAACCCCCAAAA
AAGAAAATATACGTATACTGCTGTACACACACCTAAAAAAAAACACCATT
CGGTCCTTCGATGCAGATACCAGGTACATATCATAGGAGTATACACCGGT
ACTCTGGAGCCAATCATAGATGACTAGAAGCCGAAGGCTTGGAGGACAAC
TCTGATTAGACCGCAACCTAGGGTGTTGCCGGGTTTCAGAGTATGGAAGG
GTAAGGTATGAGTGCGGGAGCGTTTGGATCGGCCCCTTCGTCACGCTGCT
GACAAGCACACTTCAACACAGGACAGCACCGACAGCTGGGCTCGGACTGA
CGTTATTTCATAGCCTCGCACTACAAGTATCCCTATCAAGGAAAGAGTCG
AAGAAGGAAGGGAAATTCCCCGGACCATGAGTTAAAATCGCGTCATGCTG
TCAGAGTTGCAACCCGGGGCGGCTTCGTCAAAATTCCGTTTGCCCTCCAT
GCCAACAGCGCCTGTTCCTCACACAGCATCCATAGGTTGGGGTGCACCCA
CAGTAGCGGCTACTGTGTATATCTGGCTATCCCAAGCAACAATTCCCATC
CAACTTTGTGACCTGCACCCTGATCATAATAGATTCGGAAAATATCCTGA
CCCGCGATCGTACGAGTGTGTGTGACTACCGGTATACTTGCGCTGTCTGT
TGGAAGTAGCCTTGCTGTTTTTTTTTAAACGTGTTTTTTTGTTTTTTTTG
TACGAAAAAAACAGCAGTGTTGCAGCCGAGGCTCGCCGATCGATTAACCC
TTGTGTAACGTCTGAGGTGATAAATGCACCAAAAAAATTAATCATACTCC
GGAGTAAGGCTACTTTTTATGTGTCGAATCTGAATATCAAAAGTGATTCG
TTTTCGATATATGGCACAGATGCGGCATGTTATGTGATCAGAAATGGGCC
ATTTTTGATAAAAACATTTTCAATAATCATTTTTCATCCAGCACCAGCTC
AGAAATGAGCCTCATTTCTGATCTACTCCGCATGTCAAAAATGATTATTG
AAAACGTTTGAGCCTCCGACGCAAGCCATCACACAACACAAGCACCCACA
GCAGTAGCAGCAGTACTGCCACATCACTACTGCTGCTGCTGCTGCTACAT
TATCGCGGGCGGTCAGCGTGTTACTTCCTCGTCGTCGCCCGCCAGCAGCG
TGGCCCTTCATCCCATGGCGGCAGCAGCAGAGAGCGACTGATTGCGTTTC
ACCTACAAGCACTCGTACACTGCTGGGTGCAGATAGATGCCCTGCATATG
AATCGTCAGCTGTAGTCTATACTTGTTCTTGCTACGAATAGCCTCCCAAA
AAAAGCTTGAAATAAATAGGTCTGGGTGTACTCCGAGTAGTTGAGCGGGA
GGGACAACACCTTGTTGTCTAGATGTATGTATGGTTTACGCGCGGTGCTG
CTCTGTTCTAGCTGTGACCCAGCGCGTCGTGCTCCATCCCGAGAGGGTGC
TGCGCTCGCTCCAAAATTTTGAAATGTGCTACTACTGCTGTATTCTCCGT
ACTAGCCAAACGGCTCTCTTGGGATCCTACATATACGATACTGTACTGCT
GTACGAAAAATACGTTTTCGATTTTGATAAATTGTTTACACATAAGATCT
GATGTTGATACCACCCTGTGGGAATTGTCAATATCGAAAACGAATCAGAA
TTGATATTTTGATATTTGTCACATAAAAAGTAGCCTAAGGCTACTTTTTA
TGTGTCGAATCTGTATATCAAAACTGATTCGTTTTCGATATTTGGCCCGG
ATCCGGCACGTTATGTGATCAGAAATGAGCCATTTTTGATAAAAACAATT
TCAATAGTCATTTTTTATCCAGCCCCAGCTCAGAAATGAGCCTCATTTCT
GATCTACTCCGCATATCAAAAATGATTATTGAAAACGTTTAAGACTCCGA
CGCAAGCCATCACACAACACAAGCACCCACAGCGGCAGCAGCAGTATCAC
TACTGCTGCTGCTGCTGCTACATGATCGCGGGCGGTCAGCGTGTTACTTC
CTCGTCGTCGCCCGCCAGCAGCGTGGCCTTTCATCCCATGGCGGCAGCAG
CAGTAGATTCCCTGCATATTATGAATCATCAGCGTATACTTGTTTTTGCT
ACGAATAGCCTCCAAAAAAAAACTTGAAATAAATAGGTCTGGGTGTACTC
CGAGTAGTCGAGCCGGAGGGACAACACCTTGTTGTCTAGATGTATGGTTT
GCGCGCGGTGCTGCTCTGTTCTGGCTGTGACCCAGCGCGTCGTGCTCCAT
CCCGAGAGGGTGCTGCGCTCGCTCCAAAAATGTATACCAGGTACTACCCA
AACGGCTCTTCTTGGGATCCTACATATACGATACTGGTGTACGAAAATAC
GTTTTCGATATTTGATAAATTGTATATTTACATATAAGATCTGATGTTGA
TACCACCCTGTGGGAATTGTCAATATCGAAAACGAATCAGAATTGATATT
TTGATAATTGACACATAATAAGTAGCCTAATATTTATTTATTTTTTATGA
GCCAGTCTCTTCGGGACGGGGACAGAAACAAAAAATTCCCGAACCCCATT
CCGTTGGGAGTTGAGCAGCATTCCGGCTGCACTCAGATACGGGCAAGAGG
ACGAACAAACACCGCTCACAGCTGCTGCTGCTGTGTGTGGTCAAGGGGTG
TGAGGGTGTCCAGCAAGACTCAGTCAACATAATAAATCCCAGGCAAGTCG
AAATCTGAAATCACCTCGTCTGAAACAGCAGTATAAGAAACACCTTTATA
AGAAAGCGAGGCGGGAATTTTTCAAAAATAATGAAATTTGGCGTAAGAAC
ATGGGCTCGGCAGCCGGCGCCACACTAAATCCTTTACAATGGTTAAGAAA
TCTAATGGTGGTGACGCAACGAGAGCCAAGGCTGAGGCTGATTTCCAGTT
TCTTATAAGCGGGCCGGTACTGTATACACTTCGCAGTGTATCATATTTTC
TGGAGTGCAACACCACACCAGCATTATATAGTAGCTACTCACAGGAGTAC
GGAGTACATCACATGCCACATGATTCTTCCTCCCTTGTTGGTATGACACA
ACAAGCAAGAAGAGCAGTACCTGGTATATAGTACCAGGTATATAATAGTA
GAGAGTCATACCTCGATGTATGATACATCATGGTATCTTATTTATTACTT
CGAAGTATACACCAAAATCTAGCCCGTGGTCACAAACCAGGCACAAATCG
TGCCAGGAGGAAAAAATCAAAAGTAAAAGAAATAAACAAAAAACGATGGC
CACACCCAGACAAAATCAGAGAAAGTACCGTTGGGGTACCGTAATAATGC
GGGTCTTGGCACATATCGGGGTCTCCGCACATATCGAGTTCTTGGCACAG
GGTGTGCGTCGAAAATACTGAAATAAAATATTTAATTCGATTATCTCACA
GGCATCGGGGTCTCCGCACAGTGTGCGGAGACCCGCACAATTACGGTATG
CCACGGGGGTGGTGTCCAGCATTGCGCGCCAAAGCACATGCGGTACTTCA
GGACTTGTATCACGGGCGGCACTGCTGTACTTCGGCCACACGTCGGTGCT
TATAGGCAATCAATTAGCCATTTTGTTCGGTTGGACTCTCTTTTTGTTAT
CATGTTCATCGAAAATGGAAGACATCGCCCACACAAGTCGACGTACAAAC
CACACGAGACCAGAACCACTGCAACCAACTGGTACGTATGGTACCGTATA
CGAACGCCGGTAGACGGAAGTAAAACAAAGGTACCTACCGCTGTACGCTT
GAAACGTTCTGCGGGCCACGATGCCGTTCCTTGTTCCTTATACCAAAACC
AACACCTATTATACCGACCATGCCCCGCCGCAAAACACAGCGTTTGACGC
CAAAAGTTGCTACCATCCACGCACACATCTACCGGCGATCCCAAGCCGAT
ATTTCACGGCTCGACCACCTCTACTTCGGCCTCCCCATCCGGTCCGTCCA
CAATTTCTACATCGCTGTCGTCGTCCATGATCTCTACGTCGCTGTCATCA
CCGGGAGGCAAAAGCTTCGTCTCGAGCTCCTTTGCTGCCGCCTCGATGTT
GTTGGCGCTAGGTGCAGTTGGTACCTCCGAAAGCTGGAGCGGCGGTAGAG
TAACGCCGGGGTGTTCAGCCAGCCACTCGGCGTGCTGCTGCTCCAGGAGC
TCGCGGTAGCCTTCCCCGAAGTTGTGCGTGCACCAGGCGTGGTCGTCGCT
GCCGTCGAGCGCAAGCGAGAGGCGGCAGATCTTGAAACAAGTCTTGACCA
TCTCCGGCGTGATGGTTGCCCACGCGTCCTTGCACCACGTCGAGACGGCA
CCACGCCCAGGCGGTGTCAGCTTGCCCGTCTTGGGGTCTCTGGCCGCCGA
CGCCGAGTGCTTCGTGTACATGCCCCGCAGCAGCCGCTTCATCTGCTTGT
TGAGCATGCGATCCAGCGGTTGGAGGAGAGGAGTCAACCCGCCTGGGATG
AAGATGACGATGGTGTTGGTGTCCCTCTTGAGGAAGGCGATGAACTCGTC
GTCCTCGTGGCACTTGAAGTCGTCCAGCACCAAGATGCATGCCCGCTGCT
TGAGGACGCTGCCGTTGTTCGGGCGGGCCCTCCAGCTCTCCTTGATCCAG
AGCTTGCACTCCCGCAGGTCGCGCCAGCTTTTCTCCTGCACGCCGAAAGA
CATGCCTCCCATGGGGTGCCCGAACTTGCGACGGTTCTGGGGAAGGATCT
CAGCCGCGATGGAATTCTTCCGCGGCTGAGTTGCCCTGCCCACACCGGTG
ACCGTCGGGATGAACGGCGTCCTCTTAAAGATGATGCGCACCGGAACCTA
CTTCCCGTCCGCCGTGACAGCAAGGCAAAGCGTGAAGCGTTTCTTCTCCT
TTCCTGGGGACGGGTGCACACGACGGTAGGGGGTAGGCGAGTAGGAGGAG
GGGTTTAAACAATGCTGACCAGCAGATGGCGCTTGACATGGATGGCTGCA
GACGGTACACGTACGGATTTCCAAGAGAGGAAAAAACACCACGATCAAAA
ACTGCATCGGAAAGAGGTGTTGACATGGCTGCAAATTGTATACGTACGGA
TTTCCCAGAACTAAAAAATACCGAGTACAAAACACCAAGACCAAAAAGAA
ACCTGCAACAACGAAAACGCCAATACTTGATAGGAACAGGGAAACATGTA
GGTACTCCTCGTACACAACTCGCAGCACCGCAGTTCACTCTCACCTCCTG
TTGCAATGCGAGCGTCCTTATCACCGCGCTGCTGCAGCGTCGTCTCCGCC
GGCATCTCGTGCTGGACTGGCGTCTGGTCCATGTTGCCGAGTTCTTCGAA
CACCTCTTCGGCGACCGACTTTAGCTGCTCGGAAGTCAGGTCCTTCCCGT
CGACGGAGCTCTCACCAGGTGCAGGGGGGTGGCGCCGAGCGTAGATCTCC
CCAGCGCGCTTCACGAGAGCCTCGCGCAGCTTCATCAGCGTTGCCCATGC
CATGCCCTCCTGTCCCTTCGGTAGCTTTTGGCCCACGCTGCTACGTCGGC
GGATGCTGAACCTGTGCCGCTTGCGAAAACGTTGGTACCAGTTGTTGAAC
TTGACCTTGTACGCCAGCCCCTCTTCCGCCGTCGCATTGGCTGGTAGCCC
GCCTAGGGCGTCGGGCTTCATCTCCAGCAGCTTGTTCATGACCTCTGCGT
TGCCACAGCCGCAGTGCTGCTTGCGCTGGTCGTTGATGTAGTCCGCCAAA
GCTTGGTCGACGTCGACTGTCGATGATTTCGCTCCAGGGTGAACCTGCTT
GGACTTCGCTGTTTTGGGGTCGGCGCTGACCTTGCCCTTGAACTCTTCTT
CCTTTCTCACCCACTCGATGATGCGCTTTCGGTCCACCTTGAGAACTTTC
GAAGCTCCGTTGTTTCCCACTGGCTGCCCGTGATCACAGAGGACTCGTGT
GAATGCCGCCGCGTTCAGCTTGAATCGGATGGGGTAGCTCCCTTTCCCTC
CTGTTTTGCCGGACCTTTCGATTGGGAACTCGGGCTTGGGGTAAACGCGT
GGTTTTTTTCGGGGAGGTTCGCTTGCGGCCAGCATCTCATCGATAGCCTC
TCCTGAAGCCGTCGGGTCGGCAGCGGCAGGTCCCTGGTCCGCAGAGGAAG
GACCGCCAGCGCCGGCCTGTGGGGCCGGTGAGGCCTGTGAGGCGGCGACA
GATTCCGCGCTTGCTTCCTCCGACATCGTGCCAACGTGTTGGGTGTGTGT
GACCACACACTCTCTTGTCGGGAAATTGCCGCGGTAATCCCCCGTGCAAT
TCCGCCGCGTATTTTTATTCGGTTATTTCGCCGCGTGTGTTGTAGACTAG
GTATATATATTTTTGATATGGGTAGATGTCCCCTACTGCTGTTGTACCTG
TGTGACCGAGCACTTTACATCAATACCGCCCGCAAGAGGTGCTGTTTTGA
CCGCTGTGATTTGTTTTCGATCGCACATATCGCCGTCTTGGCACAGGGGT
GTGCGTTCGAAACACCCCACAGTGGCGCTTGATTGCCGTTATCAGAATCG
CACATATCGAGGTCTTGGCACAGGGTGTGCATTGCACAAAATAACCAAAA
TATTTAATTCGATTATCGCACAGGCATCGGGGTCTTCGCACATATCGGGG
TCTTGGCACAGGGTGTGCGTTGAAAATACTGAAACAAAACATATTTTAAA
AGGCATCCGCACAGTGTGCCAAGACCCGCATTATTGCGGTACTTCTGTGG
TGGCCAGAGTTACAAATACAGAAATACAGGCCCGAAAAAACAGAAATTGG
AAATTCACAAACCCAGGGCCAACCAAACAGCAGCTTCCTAACCGGAACTC
AGAGCCCAGACCGACCATGGCACTCCAAAGCGCAGAGCCCAGTATAATGC
ACACCAAGAACTAGAGAAACACCGAAAGCCGAGAGGTGAAAGGCGGGAGC
CAGAAGATGAAAGTCTAAAAGAACTAAAGGAGGACAGAGAATTAGGGAGG
GAACAAAGAGGGAGGAGGCAAGAAAATAAAATGAGAAAATGTTATACTTC
CTCTGTATCATAAGTCTGTGCCGTTATGGGCGTGTAATTGTTTGCGCATC
CATACTGTTTCGATCATCCTATAGTTAGGTTCGGTCGAAAGATGAAGTCT
CAAAGAAGCTGATGCAAAAAAAAAAGCAAAAAAAAAAGTCAGTTGTTTAT
ACTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTCGAGAATTTTG
ATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCACGTATCTTCGTT
TTAGTGTGGCAAACCCAAGTGTCTTGGTTTTAGCGTCGCGTCACTATTAT
ACTGATTTTAGTAAGGAGGGACTCGACATGAATCTTTGAGGTAGGGGGGC
TATGTTCAGGGTTATGGATAATTTTGGGGGGGATTGCATTGGGTTTTTTT
TTTGCCCCCGCCCCCCACTCCACCTCTGGAAAGGGTTAAATACGGCCATT
TTTGGCCTGACTACTTTTTTGTTAGCCGCTAGCCCATGCGCAGGGTAGTG
CAAGAAAAAAATATATACCATATGTGTTTCAACCCAAAAAACTCCGAAGA
TTTCGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGGGGCGTAA
AAACATAACGGCACAGACTTATGATACAGAGGAAGTATACGTTGATTCTT
CGTACCTGGTAAATGCCTTTCCGCGCACACTTTTCTCGCTGAGTGTGCGA
ATATCATTTTGTGTGCTGCTCCTGTGTACTCATGGTGTACTCTGCTCGCC
TTGTTATCCTGATTGCTTTCTGAATCACACACGCGGTACGAGCACTATAA
TACTGCACAGCAGTTTGTTGTGATGACAGCGACGAATCGGTTCCTGTGCC
TCCCGACATCATCCCCTGCTTGTTCCCCGGCTTGTTTTCCGACTTTCTCA
ACGTAATTCAAGCTACAAAACATCTCTGTTCAAGTTACAAAATATCTTTG
TTCAAGATATTCTCGAAACAAATTATGGACGAATTGTGCTGCACCCACCA
TACGAGTGAAAGTACACATGGGAATTTGGAATTTGGGCTACACCTGTTGG
ACGACGGATCACATCACATAGTATGATATTCGTTTCTATGCCTCTTAGCG
GACACAAGTGAAAGTACTTCGCAGTACCTGGTACTTGTTTTGAAGTCAAA
GAGCAACACATACACAACAATACGGCACGGAAGGTGAAAGGTACAGCAAG
GAGCAGAAACCTTTTGCCGCACGATTTTCTTCCGGTGTTCTTCCCCCTGA
CGGCACTGTTATTCTTCCCCCCGACAGCAGTTCAATTCTGAAATAAACAG
CGACTCTTTCCAAGGTGGACTCCGATCGACATTCATATCCCTACGAATGC
AAAGAATACAGCAGTACCTGGTACAAGTTTATGACACATGCACGTGTCAC
AAGCAGGCAAACTGGGCTTCATTTCCGAAGAGAGACAGCAGTGCCTGTGG
TACTGTGCACTGTGGTGTGGACATGCAGGTTTTCTTCGACGTGCACTGCT
GTGCAAATCGTCGTTTGGTTATATAAGGCAAGACTATTGGGAACGCCGGG
CAACATCTCCTTGGGCTCCGTGGTGGGATAATGTACTTTGGAGTATTTGC
ATTTTTCAAACTTCTAGATGAAGAATTCCTGGGAGGTGCTCCCCCCTGAC
TGCTGTACAATCCCTGCCCACCCTCCCCATTCAGACTTGGGAGGCACAAA
CCTGTAAAAGTTTTTAGAGATCTCACGGCAGCTTCAACTCCTGTGTGGAT
TAGAATTGTGCCCAACCTTTGTAAATGCCTTGTTGCGCGAGATCGCGGTG
CTCAAACTCATAAGGCAAGACTGGGGGAGGATTTATATCTTCCCCATGGG
CTCCGTAGTGATATTTTTGGCCCCACCGTAATTTTTTTTTTCCCCACGTG
TCAAACTTCTAAATAATAAATCCTTGCTGGTGCCCCCCCCCCTGACTGCT
GTACACTCCCTATCTACCCTCCCTCAATCAGCCCTACGAGGTACAGCGCT
CTTTTGGTTTTTAGAGATCTCACGGCAGCTTCAACTCCTGTGAGGATCAA
AACTGTGCCCGACCCCAGTAGATGCCTTGTAGCGCGAGATCGAGGTGCTC
AGAATGAACGTTTTGAGCACCACTTTGCCACATGGATATTTGGGCAGAAA
CACCGCAGAAACTGTGCTTCAGCTATGGACAGAGCAAGCTCGCCACAAGC
AGCCACACTGCGTCAAATTGCCACTGTCTACTGATGTGGCGTGTGAGTGG
CGTCCCATGCCTTTACAGCAGCAGCAGGCAGCCAGAAACCCTCTGGAAGT
ATCCGTGACAACCGTATCGAGGTGCCTGCAGCAGTCCGAAATTACGCCAA
AATGGGAGATCTGCGGGCGCGCTTGCGCGATGCCACCGTTCCCCGCATGT
GTACCCCCGATTGACAAACAGATTTGGCGCGAATCTAGCTGGCTAACCGG
GCAACCTCCAAGTCCAATAATCTACAGAGATTTTTGACTGGGCACAGTTC
CAAAATACAATCTATGGCCCAAAAAGCTACAAAGATGACGTTTTTTCTCG
GAAGATTTGAACCCCCTGCAAATAAAGCTGCATTTATGCAAGTCCGTGAG
ACTATGTATGTCATTCGGTTCCCTTTTACGAAACACCACTCCTCTACAAA
CCCTCTTTTTTTCACTATGAACATAGTGCTGCCTTAACGTTTTGATCACC
ATCTTGCCGCATGGGTTTTTGCGTGAAGCACCGCAAAACTGCACGTCAGC
TACGGACAGAGCAAGCCCGCCACAAACAAGCACACTGCTCTTAATTGCCA
CAGCCTACTGGTGTGGTGTATGAGTGGCGTTCCATGCCTTGACAGCAGCA
GCAGGCAGCCAGTAAACCTTCTAGTGGTAATGGTGTGAGCTGTATCTAGG
TGCCTGCAGCGGTCCGAAATTACGTCAAAATGGGAGATCAGCGGGGTGCG
TTTGCGCGATGCCACCGCTCTCCGCGTGTGTTGCCCCGACCAACAAACGG
ATTTGACTGGAATTTAGCTACCCGGACGACCTTCCAGGCGAAAAACCTAC
AGAGATTTTTGCACAGTTCCAAAATTCAATCTTCGGCTCAAAAAACTACT
TAAAATACGTTTATTCCGACAAGATTTGAACCCCCTCCAAATGAAGCTGC
ATTTGTGCAAATCCTTGACACTCTGTTCAAGTCATTTGGTTCCCTGTTAC
AAAATGCCACTCCTCTACAAACCCTTTTTAATTTTATACTAAGCACAGTG
CTGCCTTAGGGACAAGTTGTTTTCGATGTCGCGGAGACAAAGTGCCAAAG
CGGGACATTTACCTACATACGAAGTTTCGCTTATTTCCCGCTCGCTGCCT
CTGAAAACTCTCGACACGGCGATAGATGACGCTGGTCAGTCGCCGTCGGA
ACGGACTGCAGAACCCTTTCTCGAACAGTCATACGATGCAGGGAGAAGAA
TATGGGCCTTGCGGCGAAGAATCGTTCTTTGTGTAGGAAAAGGAAAGCGA
GATCATAAAGACGTCGTGTAAACGGAGCAACTCCCCACAGAGTAACGTCG
GCACAAGTGGCCGCCCTCGTGCCCATGTAGTTGTCAAAACTACCAAAGTT
TTAATAACTAAATACGAGGTATTCGTACTGCTACAAGTATACGAGTGTAG
GATCATGCGTACGAGTACGTCTTACAACAGCTAAAATAGTCCTGACCTCC
CGGCGACGCTGCCGTTTATTCCTACCCATCTCTCCCACTGTAGAGCAGTT
GTGGCATTTTCGGGACAAAAAGTCTACGTTTAACCTGTGCACGTTTTTCT
CCGTCGTGACCTTCGCTTCGTTGGTACAAAGGTATGCCACCTGTCTAATA
CTGCTGTTCCTGTACATCCAAGGCCTTCATATATTCGAGTATCATATCAT
GGCAAAAATTCGCTTGAGTTTTTGTAACGGTAATAGTCGGCTACCCTGAC
ACGACTCTCTGTAGCCACCAGCCGATAGTACCCCTGCCGTAAACATGCAG
TAGCGACCTATCCCTTTGGGACCAGGTAATTTGTGCCTTTTCGGACGAAT
AGCCGCGGTTACAAGGAACAGCCGATGTCTCCCGAGAACAAGGAAAACGT
ACAGCAATGACGAAACAAGAAAAAATGTATTTCAAAGCACCTGAAAGGAC
CCCTAACGAGGGCTCGCGGCAGGCTGAAAACGTCTGGAGAGGTTCGAAGG
GTACGCGGTAGTCGAGATGCCGCTGTCAGCTCTCAAACATCGCACAACGA
CGGCCGCCCAGCATTAGCGAAGTCCATTTTTCTTTTTGTGGCGGGGGTCC
ATCGGCCTACAGGCCCTGCCTGCTTTCACTCGATCATATGGCACAAACCA
ACGGGCCAACGCATGCGCTGGCATTGGTGTATGGGCAGCACACTGACTGT
CTGCTTCCTGCTGTACCGCAGTGCAGTATCCGCAGGTCTTCCGACACGAC
AAACGCAGCAGAATCATCTTTGCTGCTACCCTTCCATGTGTCGTATGATA
TGAGTGTCGGTATGAAAAACTGCCGTGACCAGACCTCATCGCCACATCAG
GTACTTCGTATGGATTATTCTGCTGCTGTTGTCGTTGTGTTGATCAGACA
ACATCATCTCCATGTATGATACATCTACTGCTGTTTGTTGTATGTATAAT
ACTGATACAGGAGGAGGTATTACATGTTATATGTGGACAGCAGCAGCAGC
AGCAGCAGTGCTGCTGGTGGTCAGCAGTGCTGCTGGTGGTATTGTACTTT
AAAGGATTACACTTTTCTATTACTGTTGCTGTATGAAACTACTGCCGCCG
TTTGTCTGACCAGATTTCAGATTTCGACCAGTTGGGGATTTCTGTTTTCC
TCTCTTGGGCACCCTCAATCCCCTCTTGCCACGCGCAACGAATGGTCTAT
GTTTGCTCTTGGTAAGTGCACAGCCAAAATGCCGCTCAACTCCCGACGTG
GTGGGTTAGGGAATATTTTGTTGCCGTCCCCATCCCGAGGAGACCGACCC
GAGAAAGAAAGGAAAAAACAATCAATATTTTTGATTAAAAAATCACGTCC
GAGTTACGAACGGTCAATTAAGGTCGCGCTGGGTTCAGTACGAAATACAT
AAGGGAAAACGCCGTCCCGGTATCCCGGGGCTCCGCTCTCGCGTTTTTGC
TCTTTCGACTTCTAGATAAAAAAAAAAGCCTTACCCCCCCTGACTGCTGT
GTATTTCACATCCCCTCCCCTCGCCTGTTTACGTTAGGAGACAAAAACCT
CCCGATCTTTTTGCAGAAAGCTCCCTGGTTTGTGATTTTGAGTGACCAAT
TCTGTGCCGCAAGCCAGTTTAGGCCTTGTGGCGCGAGGTCGAGACGATCG
AAATTAACGCTTTGGAGCATCATTCCCCGGGTAGAAATTGGTGAAAATCC
CAAAAAACTGTGCTTGATTTCACGACAGCGCCAGCTCGTCACAAGCAAGC
ACACTTGAAAGTGCCACAGCCCACAGATGTGGCGGGGGAGGGGCGTCCCG
TGTCTTGACAGCAATAGGCAGGCAGAAACGATTCTAGAGGTAGCCTTCGG
AGCTTGTGAGATTGTATCAAGATGCATGTAGCGGCCCGAAATTGCACCGC
ACTGGGACATCTGCTGGGTGCGATGATGCGAAACTGCTGTTCTCCGCGTG
TGCATCCCCGATTAACAGACTGATTCGACGCGAATGTAGCTGGCTTACTG
GGCCAGCACAAGCAGTAGAGGACATCGGGAGGTTTTTTTGAGTTGGCAAA
GATTGGAAATTCGATCTACCGCGCAAAATGTTCAAAAAAAATAACTTCCT
GCTATTTTTTTTGTACCCTGGAAGGAAAGCCGCATATACGCAAATCCCCC
AGCCTATATTCCAGCAATGTTCTTTTTTAGCTAAATGCCGTTCGTTTTCA
AACCCTTTTTTCTTCCCCGTCCTTTTTGTACTGAACCTAGGGTGGCATTA
ACCTTCGAGTGTGTATCCGCCGCAGTCTGTCTAGTGTACCAGGGACTCGG
TCCGAAAATCATAAGTGTACATCTTTGTGTGTTTTAATGAGCACGTACAT
TAAATATCGTCAGGCCGCACTAGTACATCCATGTTTCCTTCGCAACACGC
CTCATTAACCCCCGCCCCGTTATCCATTTCCTCTGTTGGGTGGCACTGAC
ACAATTACCCCTCTCGCTGTCCCTCTGTCGCCCTATAGCCTAAGCGCGAC
GGACTTGACTACGACGGAGTATCAGGAGTGACACACATGCTGAACAACAC
CGACAGTGTGCTGAAGAAGGGGGAAGTCGAGGGAGCAATACAGGACTATG
AAGCGTTATTCGCCGGGGCTAGAACCGAGGTATGATATTTACATTTGATA
ACAGTAATTATGGATTTCGAACTCAAGATTGTATGATACGAGCTGGTTCA
CGGTGAAATCCCCAAATTTTGTCCCCATGCAATCCCGAACGCAATAATAC
CTCTGGACAACTTTGGTACCAAACTGACCACCATCAACAGCAGAAGACCG
TGACATTCTTGGATTTTCGTTTAAAGCTTTAGTGGTGGCGCTACAGGTTA
TATACAGGCTGGTTCACGCTAGAAACCCAAAATTCATTCAACACATGTTC
TCGAACGCAATAAAAGCCGATGACGACAAATATGGTACCAAACTGACCGC
CGTCAATAGAGGAAGACCATGAAATTCTCGGATTTTTGTTTGAGGCACTA
CCGGTGGCGCTAGGGGAGAAAATGTGTCATTTCACGGAATGACGTGGTAT
CTCACCCCCCTCCCAAAGTCAGGCTTTCCACATTGAGTGCTTTATAAAAT
CAATTCGAGATATACTCTTTTTTGTAACAGGTATGGTCTCTCTGTCCTGG
GGAGGACATTTACGTTTTTATTTTCCAAAATTCCATAAAAACTCACGTAG
CTTAGCTAATAATAGCATTCAAATTCTGCACAAGTGCCAAATGTATACTT
TATCCAAGTGTATTTTGGGATTTGAGGGACCTTGACCACACTGAAGTGCG
ATTTCTCATTGAAAGAATTAAAAAAACAAGTTTTTTAACACAAGTGGTAT
TAATGAAAAACCCAAGGAAGGTGTCCACGAAAAGGTTTTTCAAAATTCTT
TAAATTGACTTACCGTAATCATGCGAAGGTTCGCACCGGGTGCGATCGCG
TTTTTAAATGTTTCTACGTTGTGTTTTTTATTGCACCCCGGTTCTATTTC
TCCTTTGGGTGCGTTCTCTCCGATGGGGGTGCGGAAACACAATTAAATCA
TGCCGTTCTTCTATTTTGGCGCACCCCCGGTGCGATCTCTCCGATGGGTG
CGCTGCTGAATCGAAATACACCGGGCCGTATTGGGGCAACGGTGCTGCTT
ACATTCTTTTATGTAAATTGAATGACTCAAAGCTACCTAAAACGACTTGA
CCTACCATGCGTTGGTAAAGTACGTTTGAGAGGAGTGGCGCACTGGTGCT
ATCTCATCGGGTATGAAATAAATGGGAGTATTACCTGCTACAGACCCGCT
GGGGTGGCCCTCAAATTTCTATTTTTGTCGGAGAGATCGCACCATGCGAT
CTCTCCATTGGGGGTGCGAAAACATGATTAAATGTTTCTACCTTGTGTTT
TTTATCGCACCCCGGTGCTATTTCTCCGATGGGTGCGAAGCTTCGCATGA
TTATGGTAGTTTGGCCAATAATAGCGTTAAAATGCTTGAAATCGGCCGTG
TCTACTCTCTATCCTAACCAAAACCTAGAAGATAAGAAAAACGGCGTGTA
AAATCGTTATCAAATAGGGTGTTTTTTAGCATTTCACCACACTGAAGTGC
GTTTTCTCACGCGGTTTTTTCGAGTTAGACCCTGAAACTTTGCACGCGTG
TTCCTTGGGTTACTACGAAAAATCGACCGACCGGGGTGCATCGATTTTGT
TTTTGTTACCGGATTTCTGGGGTCCCAATCGAGCAATGCAGACCTAACAT
GCCTCTACACTAATTTATCTATCGAAAAAAAAATCGTTCCACCCCGGTCG
GTCGATTTTTCGCAGTTGCACAACGAACACGTGTGCAAAGTTTCAGGGTC
TAACTCGAAAAAAACGCGTGAGAAAATGATGTTGAGTGAATTTGGGGTTT
CTTGCGTGAACCAGCCTGTACTTTTTTCGAACATCTACAAGTATGATCTT
TCTGGGTCTTAAGATAGGCGTTCACGGTTTTTTTGTTCGAGGTTCCTCGA
AAACTGACTTCCTTTGGCTACGAAACCCTTAAAATAGCCGATCCATACTA
AATTTTAGAATTTAGGGTTTAAATTATATTCCGGTTGCCCCCGGTGGTTC
AGTTGGTAATCCACGTAACCTTCTGACATTTCACGCGTGAGTTCGAATCC
CAGTGCAGTAACACGATTTGGGTTTTCTTATCCCAATGCGCATAGTGGAA
AGCGATTAATTCGTGAGTAAACAAAATTCGATCGTACCATCGACGAGGGA
AAAGGATTGTGTCCCCTTTCTCGCGATAAAAGCTCAACCAAAAAGGCAAG
CACCGCAGAGGGAAGAGGAGGAAAAGAAAAACTCCTGTGTTGACTTCCCC
CTGTGTGACGCCAATTGGACCGTCGACCTACCCGAAAGATGTAGAGTGGC
GTCCACTTAAAGGGATGACAACACACACGCATAGTAGTGCATTTTACTCC
CCGGTAATTCCTCACGCGGTTTTTACGAGTTAGACCCTGAAATTTGCACA
CATAGTGTATACTATGGGTCACTGCGCAACTTTGGATTAATTGGCCTTTT
TTTTCCACCAGATATCTGGGGTCTTAAGTTAATGTGGTCTTTTTTGGTCA
ACGTGGTCGACTGGGACTATGGGACCCCAGATATCTGGTGAAATAATAAA
AAAAAAGGCCACCTCATCGAAAGTTGTGCAGTGACCCATAGTACATGAGT
GCAGAATTTCAGGGTCTAACTCGTAAAAACCGCGTGAGAAATGACCGGGG
AGTGAATTTCCTGGTTCTACCGTGAACCAGCCTGTACCTGATTTGCGTGT
CCATTGCGAAACACTTTGGTTTGCTGCACCGATTCTCAAAACGTGCGGCC
ACACTTCGGTCTAAGAGTAAACCTGTTGAAGCGATTGGTTTGAGATAAGA
TGATTGGCGATACAGCAGTATTGTTCCTTCAGCCGAGGCTCGCCGATCGA
TTAACAGTGCAGTTTAGTATTAGGTCTCGAATGTAGCTGTTCGTAATACG
TTGGTATTGTGTTATTCCTCAGGTCCGGAGCAGGCACCACGTAGTAGTAC
GGTCCCACCTTGGAGGTTCCCAATTTTTCTAATACAAATGGTATAGTCCC
ACAATCGGTTCCGCAATTTTCCCAAGATATTAATATAGCTCTACAGGTTG
GGTCCGCCTTTGATGTCAGTCGATAACCCGATCCCAGTCGTCAGGTTGCG
AGAATAATAACATAAAAGTTAACCCATTGGCCTCGAACTATAATATGAAA
GTTAGCCCGTTGGTCATGCATAACTAGCGACTCTCAACGGCTGCTACCCT
CCAAAATAACATTTTTTCTGCTGTAAGGTCGGAAAAAGTAGTATTTAACA
GAAATTACTGTGTTGCTGGCGTTGTTGAACCTCACCGGTAACTTAAGTTA
CGCGATTAACATGTAGCTACCAATGACTGGAAACGTAAGTTAGACCGCTT
AATTGTTCCTATTATGAACGGGTCAGTATTTGTCCGGTGGATCCACAATT
TTCCGGTTACCCCATAAATACTGTATTTTAGTGTTACCAGCCTGATCCTT
TCGTCACATCGGGGTATACCATCGTGTCCGTTGTTGATAATGATTCACAC
CTCGGATAACGTAACAACTAATCAATCATGTTAAGTTACTTAGAATAATG
CCACAGGAAATAATATGAGTTATCTGTGTCACCCAAGATCAACGGGGACA
ACACAACATAGGTTATTCATGTTATGAAATATGGGATGCAATGGTATAGT
GTACTAGTGTTATTTTTTAGGGGGTTACATCGGAAAATACGGTACTAACA
CGTTACGCTCACCCGTCATTTGGGTACTAACCCAATTTTACCAAGTTACC
CGTTGTGGGCCGGCCACCAATAGCATCTTGTTATTAGGGCGTGTCTTCGA
AAAAAAAACGAAGCGTGGAACGTGGAACGTGCAGCCTAGAATATTTCTCT
GATTGGCCAACCTCAGCAAACAATATTTCTGGAAAGAATTTCGGCCACCG
GGGTTCCTCATTTCCCGTTCCCTCCTCCAAAATAATTGGAAGGCCTCCGT
TCCTTAGAATTGTCCAAAAGCCTGTGTGGAACGGGCTGCTAGGGGGCAAG
AAGTTTCCGGTAGCTTTCTCCCTCTATCTGACCACAAAACCCATACCACA
CACACAAGGCAAACACACACATACACACATGCACAGCTAGCTCCCCCCAC
AATCATGCCACCCCGCCTAGCGCCACGCGTAGAATTATCCGTAATATATG
AGCCCTCTCACTCGGATGAAAGTCACCGCGCTGCAGCAGTAAGAAGAGCA
GCAAAGAAGAAATGATCGCACCATCGCACACCTCTCCGTCTGTTTGTTCC
TCCGCTTCTTGGCCAAACGGGCGCGCGGACGACTGCGGCCGGCCGACATG
TAACCATCTCTCACACAATTGTGTGCTATGCTGTGTATGTGCTGTGTGTA
TATGTATGTCTGTGTATGCTCTGTGGGCGAGAGATGGGAGATGGACGGAT
TCGTGCGTGCGTGTGTGTGTGGTGTTGAAAAGCTCCCAACGGCCACGGTA
CTCCTGCTACTGTTACTATACTGCTACATTACTTCCGTACTTGCACCACA
GCAGCGACCCTCAGGCTTTTCGCTTGTAAACGGTTCCACGTTCTTCATTT
CGAAATAGTTTTTTTTCCAAGACACAAAGCGTGGAACAGGGAACGAGGAA
TCTAGGTTCCACGTTCCCCGTTCCACACCTCGTTTTTTTTTTCCAAGACA
CGCCCTTACAGTACGTTGAATGGTGTTTTATGGGTAATTACTCTATTACC
ACGTTACGCTCACCCTTCATTTTGGTATTAACCCGATTTTACCATGTTAC
CGTTGTGAGCTGGCCACCAATAACGTATTGTTATCGTACTACGCCCAATG
TGTTGTGAAAAGATAGTAATAATATTAGTTTAATATACAGAAAGGTCCCT
ATGTTGTCTGAAGGTAGGTGTTCATCTTGGTTGTTTGTAGAAAGTGCGAC
CAAAATTGAGGTTGCGCGGTGAGGTGTCTCACCAACCCGCACTTGATCAC
TGCTGTCGTCGGGAGACACCGCTATATGAGGCCCGTGCTCGTGAAAGAAC
CCCGAACAAAGATGACATTAACTGGTATCATATAAATATCCTGTCAAACT
GTACAAAACAGTACACGCCAACATAATGGTACAGCGAACAAGCTTAAGAC
ACCGGAGAACATCTTCCAAAGTTGTCGCTACCCTCTTTGCACCGATCTGC
AAGCAAATCAAGTTAGAGATCATCCGCAATCCCGTCCTCTGCGTCTACCA
TGGCCACATCTTCGACGACTACCACATCAATATCGGCAATCTCTGCCCTC
TTCCGAGGATCCTTCAGCCGTTTTGGAATAGCATTCTCCACCGCGGCCGT
CGAGAGGGATGTGATGTCGGGTGGTTGGTGGAGTATGATACTACGTGCTT
TGTTTTCTTAACATCCGAACAGTTATCCGAGGTACCAATATACATATACT
CCGTAGTTAGGGTCCGTCGATTATCCCATGTGGTGTTTTATGACTGAGTT
ACTTTTGTTTCGCCGCGATGTCTTCGGAATGATATGCGTTCTGCCCGTTT
CGTCGTGTGATGCTCTGTTCTTATCTTTTTGTTTCGTTTTCAAATGATCC
CCTTCGTACAGAACACCTGTGCGACCCCAACTGGTGAATCTACTTCATAC
CGAAAGGTCTGTGAATGCTGCCCAAAATGAATGGGATGAACACGTTCCTC
GCATTTTCCGCATTATTCTAGAGAGAGAAAAAAAAGCTGGGAAAAACAGC
ATTAAGGAAGAATGCCGACTTATTATTCTTGAAATAAAAAAATATACTCC
GAGAGCAGTACTCGGTATGCACCTGCTGTGTGTATGCCTCGAAATATAAA
AAGACACCGGCACGAGGTGTTTCCGAGAAAGTACGACGCACGCGGGGTTG
TGATGTTGAATTGCTGTCGGAGGAGCGTAACTCTCACACCACCACCACCG
TGGTTATAGCACGACTCAGCGGTGAACTGCCGGTGGCAGCAGCATTATTA
TTATTGCGTATTATTGGTGAACACGTCACAACAGAGAGGGAGACACGCAA
AAACACCATGTGTATTTTTTGTTGTATACCAAGTTCTTCGTATAATGCTA
TTTTCAATATTAACTAACCTGCTGTATGGGATAATTTGAAAACAATACAC
AAGAAAGATAGGAACAGAGCCTCACACGAGGCAACGGGCATAACGCATAC
CGAAGAGATCGCGGCGAAACTAAAGTAAATCAGTAATAAAATACCACATG
GAATAATGGAGGGACCTTAAATATATGAATAAAATGTTTGTACCCCGAAC
GGTTTATCTCGTAACAAATTAACGGAATACCATATGGATTAATTATCAAC
AACGACACGATGGTATACCCCCATGTGACGAAAGGACCAACCAGGCTGGT
AACACTAAAATACAGTATTTATGGGGTAACCGGAAAATTGTGGATCCACC
GGACAAATACTGACCCGTTCATAATAGGAACAATTAAGCGGTCTAACTTA
CGTTTCCAGTCATTGATAGCTACCTGTTAATCGCGTAACTTAAGTTACCG
GTGAGGTTCAACAACGCCAGTAACAGAGTAATTTCTGTTAAATATTACGA
TATCCGACCTTACAGCAGAAAAAATGTTATTTTGAAGGGTCGCAGCCGTT
GAGAGTCGCTAGTTATGCATGACCAACGGGCTCACTTTCATATTATAGTC
CGAGGCCAACGGGTCAACTTTTATGTTATACTTTTGGCAACCTCACGACT
GGGACCGGGTTATCGACTGACATCAAAGGCGGACCCAACCTGTAGAGCTA
TATTAAAATCTTGCAAGGGTGTGTTCGGTACGGTACGTACCGAGGTATAC
CGCCGGTATTTCCGCCGGTATACACCGTACCGAGCGTTTCGGTACGCTCG
GTACAGCCCTCCATACCCTACCGAAAATTTCGGTACGCTCGGTACAGCCC
TCCATACCCTACCGAAAATCTCGGTATTCGAAGAAAAAATACCGAAAGTT
CGGTAGGGGGTATCGGTACAACCCCGTCGAATACCGAAAGTTCGGTAGGG
GTACCGGTACGACCCCGTCCAATACCGAGAGTTCGGTAGGGGTATCGGTA
CAACCCCGTCGAATACCGAGAGTTCGGTAGGGGTATCGGTACAACCCCAT
ACCTTACCGAAAGAAATACCTGTACCGCCACGTTGTGAGGTCATTCGCTC
ACTCACCACACAAATAGCGGTGCAATGTGCTGTACCCCTACCATTCCCAA
ACACACAACACTGCTGCCGCACCCTCCTACCGAACATCACCATCCACCCT
GGTGTACATACACGATACCGAGCACTCATGAGCAGTGAGGCAACCCCTCA
GGATGAGGGGGGTGCCAGCGGTGCCAACCCCGGTTCTGGCGGCAGTTCCT
CTTCGCAAGCCCCGACGCCAGAGGTTGCCGAGATCTCACAGGGAAACAGC
GTGGCTACGATTTCACCAGCGATCGTCTACAACAAGCTCGGGGAGGTGTA
CGACGTGGAACACGAAACCACCAAAGCCGTCGATAACTTTGCTGTGCCGG
CGGGTTATCGGAGGGTAGGAACGCGTGAGGCGTCTTTCATGTATTCGGTT
GGAGTGTACGTAGAACCGATCGGCGACAACCACCAGAACAAGGCCCCCAA
GTACTACTGTCTAGCAAACGCAAATTGCCGTACAGGCTTCCATACCATAC
CGAAATCTCGGTATTCGAAGAAAAAATAAAATACCGAAAGTTCGGTGGGG
TATCGGTACAACCCCGTCGAATACCGAAAGTTCGGTAGGGGTACCGGTAC
GACCCCCATACCGTACCGAAAATCTCGGTACGCTCGGTACAGCCCTCTAT
ACCCTACCGAAAATCTCGGTATTCGAAGAAAAAATACCGAAAGTTCGGTA
AGGTGTATCGGTACAACCCCGTCGAATACCGAAAGTTCGGTACGGGTACC
GGTACGACCCCCATACCGTACCGACAACCTCGGTACGCTCGGTACAGCCC
TCTATACCCTACCGAAAATTTCGGTACGCTCGGTACAGCCCTCCATACCC
TACCGAGCGTACCCGTACCGTACCGAACACACCCTTGAAATCTTGGGAAA
ATTGCGGAACCTCCAAGGTGGGACCGTACTACTACGTGGTGCCTGCTCCG
GACCTGAGGAATAACACAATACCAACGTATTACGAACAGCTACATTCGAG
ACCTAATACTAAACTGCACTGTTAGTCGATGGGCCAGCCTCGGCTGCAAC
ACAGGTTACCCAATAGTGAAACGCTAGCAGACCTAGCCGTAGGACGGGTT
ACTTGTGACCCCACACCCGCCAACCTGCGACAAAAACGTTACGTATTTAA
CATGTCGTACTACGTTATCCGAGGTGTGTAATGATTCCATGTGGTATTCC
GTTAATTTGTTACGAGATAAACCGTTCGGGGTACCGACGTTATATTCATA
TATTTAGGGTCCCTCCATTATTCCATGTGGTATTTTATTACTGAGTTACT
TTTGTTTCGCCACGATCTCTTCGGTATGCGTTATGCCCGTTGGCTCATGT
GAGGCTCTGTTCTTATCTTTTGTGTGTGTGCTTACCAAATTATCCCATAC
AGCAGGTTAGTTAATATTGAAAATAATACTCAGTATTATTTACGAAGAAC
TTCGTGTACAACAAATACATGTGAAATGTAATATCGAGGAATAAATATTT
CTAGGTGTTTTCGCGTGTCTCCCTCTGTGGCGTCTTCACCAAGAATACAC
AATTACAATGATGCTGCTGCCACCAACACCAGCAGTTAACCGCTGTGTCG
TACTAAAACCATGGTGGTGGTGTGAGAGTTACGCTCCTCCGACAGCAATT
CAACATCACAACCCCGCGTGCGTCGTACTTTCTCGGAACCTCGTGCTGGT
GTGTTCTTATATTTCGAGGGATACACACAGCAGGTGCGTACCGAGTACTG
CTCTCGGAGTATATTTTTTGTTTTCAAGAACAGTGAGTCGGTGTTCTTTC
TTTGATGTTTCATCCCCTTCATTTTGGGCACCACCCACACCTTTCGGGAT
GAAGAAGATGCACCAGTTGGGGTCACACAGACAGGTGTTCTGTGAATGGG
ATAATTTGAAAACAACATAGATAACAGAGCATCACACGACGCAACGAAAG
GTCGCAGTACTGTACGTTGAAAGAGGGCTGTGTTGCTTATTTTCAATGTG
ACAGTGTGTGTTGGAGGATTACTATCAAAACTTCAGATTGTCTGGAGCGT
ACTATTGTTTAAACGTGCGACTTTTTGTATATGTCATCAGTTTTGCCCGT
CACTTAGCATTCATTTTCCGTTTACGCAGCACTCGATTGTGTGTGTTGGA
TGATCGCCACAGGTGGCGTTTCCACCCCTTCACAATTCGACAACTCTTCA
ATACACAAGGAGCTGTATTCATCCCAGTATGGAGTACACAGTCTACAGAG
ACGTCTCACACCGCTCTGCTCCGTTCGTCGTCAAAACATCCGCATAATTT
CTCTAGTCCTGCCTCAGACCCAGGAGGTTCTGGCGAACTTCAGTGCTGAT
GTCATTATTACAGCGCATTGACTTTATGGTCCAGGGCTAAGCCTGGTGAA
CAAACCCTCAAGGTATTTTCGTCAAAGAGATGATTGTCAGGCCTTATTAA
GTCGAAAGAGTTTACTAGAGTTCTCTAAACAGGACCGTAGAGGAGACCAT
GTAACAGCTACGTGTGTCTCGGCACGTGCAGACATGCCGCTGGTGCGGAA
ATCTCGCGGAGATATCGAAGGCCACAGCAGTGGGTCAACAAGTCCGCAAA
GTGGACCGACATCGAAGGATTCTCACTGCTGTCCCCGCCGCCACGGACCC
TAGCCCCCGAACTGCGGGTTGTTTAGAGGTGGCATTAGTTCCTGCTGTAG
ACCCGCAGTTCAGGTCGAGGTCTGTGACAGCGAGCACAGCAGTGTTAGAG
TGGCAGCCTTTAGTTTCGGTCCAGTTTGCGGACTTTTTGACCCACTCCTG
AGGCCTTCGATATCTCGGGGTCTACGCACCAGCAGCATGTCTGAACGTGC
CGATACACACGTAGCTGCCACATGGTGTCCTTTGCTGCCATACCACGAAG
GTTCGCTGTCAAGCCACAACTGGCCGAATAACAAGCGAACTCTAATACGC
TTTATTGACTTGAGACTGATTTAAACAGGAATATTAGAGGCAAACTACGT
GATAACATGAAAAGAGAAGCCGGCCGCCGCGGCGTGCGGTTACTAACAAT
GTTTTTCTTACCCAACGCCTCTTTACTTGTGTGAGGTACCCCATGTGTTT
TTGTCGGGTGATCCTTCGCCGTTTCTCAAATTAATTCAAGTAAAAAATCT
GTTGTCCATCCCCCCTTAAATACCATCACTGCAACCGGCCGAGTTGAGAT
TCAATTAGGGCCCCAAAGTCTAAAAATACCCCAGCAGAGTGCAAACATTC
TGCACAACTCCCACGGTGATGATCAGTTTATCGAGTGCACATCAGTCGCT
CATGCCCATCTGCAGTCAGTGCTGGATTTAGCAACAGCGGTGGGCACGTG
ACACGTGCCTGTATTTCGAGGGGCGTAGATGCGACCACATGCCGACCGAG
CGCCTGAATAAATACTTGTCAAATTGTGTGGAGGCGAAAACAGTTTAATC
ATAATTTATTGCGCGTTTCCGTATCTGCTTGGCACAAACCCGCCAGCACA
CCATTTTTTTTAATTCATTCTGCTCTCTGACGGCGCATTTACCATGATCT
CCTTCCGTTGAAAGCTACTCCAGCGAGTCTCATGTGGAGGTATCAAGTGG
GGGCCAGAGGGTTTAGAAAGATGTTCTGAGCAATCGAACATTCTTTCGCA
TTGTTCATGTTCTCTCATCTGCTCACCTTGCGATTGCCTCGTTTTCCGCC
TATCGTTTTGCGTGACCAGCATGGAGCAATCACGACCGAAGCAAGCATCA
AGAGGCGCCAAACGGAGTACCAGAAAATGGTCAACAGGTCAGAGGAAAGG
CTGTGTTGAGTAGTGCTTGCCATCGCAACGTTTCGCCTGGTAAGTGATGA
TGCGATGTATGGGACTTTGGTGCGTGGAGACGATATGCGACAGCATTCTG
AGGGACCACTGATATCCTGTCGCCCCCGGTATCTCGCTGCTGATGTGTCA
CCTCTTGCAGCTTCTACAACCTTGTGACCGACTTCTACGAGTACGGGTGG
GGACAGTCGTTCCACTTCGCTCCTCGACGCAAGAATGAGTATTTCCGCGA
GTCTATCCGGCGTGCAGAGTACGTGCTGGCAAGCCGTATCGAGGTGACTG
CAATGTCTTCGCGTGTTTATTTTTCTAGTTCGGTGTCGGTTGTCGGGGTT
TCAAATCCCCGTGAAATTATTTTCCATCACTAGCCGCTCGTGCAAGTACG
TGTCCCATCTGCTGTAGAATTGTGCGTCAAGACGTAAATATCTTCTTCAA
GGCAATTTTGGCTCATATCTCGCTCCCGTCAGGCCGAGGAATAACCGAAC
GGCGTCGCGTTCCCTGCTGTCCGTGTTTGACTGGGTTCATATCGGATGTA
TCCATCAGGTCCGACCCGGAAGTAAGGTTCTCGACGTTGGGTGCGGCGTC
GGAGGACCTATGCGGAACATTGCCGTGTTTGGAGATTGCTCAGTGCAGGG
CATCACGATCAACCAGTACCAGGTGAAACACCAACATCATTTGTATCTCC
GTTCTGGAACAATCGCCGTGGAAGTCCAAAGGTCCCTCCATGTTGATTGC
GACAAGTGTATCCGAGCAACACAACCGTTCATGGATCGTTTTCTCGCTCT
GCGTTGTGCTCTTGCACGCGCATAACCGGTATAATCACAGGTGAATGTGG
GAAACAAGTACAACCGCGAGGCTGGTTTGTCGGAGAGCTGCTCGTCCCGT
CAAGGCGACTTCCAAAGCCTCCCCTTCGAAGATGCCGAGTTCGATGCTGC
TTATCAGATCGAGGCAACTTGCCACTCCCCGGACAAGGTGGAGAGCTGTA
CCGGTATCAACTCGCTCTGTCATAATACGTGGGTTGGCCGTCACGTGGAC
AACGGCTCCTGCGGCCTAGAATACGCGCACGACATATCTCATGTTGACGT
TATCGATGCAGAGGGCTGTCTTCGTGGTGCCATCAGTGTTTTTTGTTGAA
CGGGTATTTTTGTGGCGGCTGCTTTCGTGTCGTGAACTCCCGTTCTTGTT
GGCCCCATTTGTCTCGTAGTGGGCAACCTGCGTTGACGAGTATTTGAACA
CCTTGTTCACGAGTCGCTCCGTTTTGTTTCCTGCAGGTGCAAGTTTTCCG
GGAAGTGTGCCGTGTTTTGAAGACGGGATGCATGTTCGGCGGGTACGAGT
GGGTCGTGACCGACAATTATGATGCCGGCAACGAGGCACACGTATCGCTG
AAGGAAGGCATCGAGGTGGGGAACGGGCTGCCTACTCTAGCTACGCCGGC
CATCATAAAGGCAAACCTTGAAGAAGCTGGGTTCGAGGTGAGGAGTCGCG
TCGCTTCTCAAGAAACCATTGACACTAATGTATTGACTGGGCGCAATATG
GGTGGTGTAAACAGCAGCAATATGGGGTTAGGGTATCGGCCTCATGGCCA
AGAAGTCGGATGTGATACGGTTGATTGACGTGTGTACATGTTTAACGTCA
ACCCCGCTCCTGGTCACGTCAACCCTAACTCTTGGACCTTTTGCAGCCAT
GTTGCCGGCAAGCCATGATAAAATGCTTTGTTACGAAATATCACAGTACC
CGCAAATGACTTCATCCTCCTTCGGAGCCGCCCTCGGTTTTCGCTCCTCC
ACTGTTGCCGCGTTACTAAAAAAGTGATACCATTTTGGTGCAAAACTACA
TTCATGCCATCCGTGCACGTGCACTCGAGTTGATCAGCCCGTCCTGGCAT
CCTCACCATGCGTCTCAAATATCTTATCCATGCCCCGACGGCTTCTGTTA
TCTTGCTGTTTGCAGGTCGTGTACGCCTACAACGCCAACGAGACCACCCA
CTCGGAATCGGAAATTCCTTGGTATCAGCCTCTATGTGGGAGTTTCTGGA
GCATCTCAGGGTTTCGTCAGACGCACCTCGGCCGGATCTGCACGCACGGA
CTTGTGTGCACCATGGAACTGTTGCGCATTGCACCTAAGGGCTCGGCCCA
GGTGCGTTTCACGTTGTATGGCCACGCCATAAGATTCCGCGGCCCAACAG
GCTACCATGGGCTACTATGACCCCATGCCCTTTGTTCACCCTTCATCGGA
CGTTTGTGTTTACGATTATACACTGCATGTGGCGTCTGTGGTCGGTGCTT
ACCGTAGATCGCATAAGAAAGCACACCCCAATGACAACAATTTCGCATTT
TAAACGTTCATCAACCGGGGTGACTTCTTGTAAATTTGTCACCGGGGTGT
GACTTTTTATGCTTTCCGGGTGATTCATCCGCGCTCGGCAACAAGGGGGT
GTGATAACATTCCTACCCCAAGATTGGTGCTGGCAGTGAAAGGGATGTGA
TGGCAAGGGGTGTGATGTGCCATCTCTTCCCACTATTGGTGCTGGCAGCG
AAAGGGGCATGATGACATTTCTTCCAAAAAATTGCCGGCAGTGAAAAGGT
GTGATGATACAATAAGTAGGGGGTGCGATCACAGAGAGGTGTCATACATT
CCTTCTCAAGATCATTGCTGGCAGCACGGGGCAGAGGCGTGAGTGAGTGA
GAACGTCCCGTATTCGTTCCAAATACAATGTGATCACGGTGGGGTGTGCC
AAAAAAGGATGGGTGGCCTTCGATGCGGGACGGGGCATGCAACTTGTTGT
ACCGATATGTTCAGCGAACAAGGTGCTCCTCCGATTATAATCAAAGGATT
GGCACTAAAGATCTCACGCAATAATCAGGGACCCCGAAAAAATCGACAAA
TGCGAAAAACAAGAACATCGATGAAGAACACAGAAAAGAAAAATAACAAA
GATGAAAGGAAGAGCAAGAGAAATGCAGAGCCCATCGGTCAGACTCAAGA
GACAAAAAAAAAAAAAAACGCCATACGTGCCAATAAAAGCAAAAAAAAAT
GAAATAGGAGGAGCGTCCCGATGCCCTTGCTAGCCGGAGTACAAAAGGTA
CATTACGACGCAACAAAAATCCGTCACGAAAACCAAAAACAACCCGAGGT
GAGACATCACACAAGTTTAGAACTGGGCTCCATGTGTTGCAAACGAAGCG
ACGGGCTTGGTGTGGTCTGATGTGGGGTTCTGTCCAGTAGGTACCGTGCT
GCAGCAGCGGTGGGTGCTGCGCTGGCCTCAAGAGGTTGAGTGGCTGGAAG
ATTGGCTGTTGGTGTGGGAGTGGCGCTAGCAGCAGTAGCCCAAGGAGAGG
GTTGTTTGTTGCTTCAAAAAAACTAACTACCGGTTTTTTCCTGGTGCTGT
GGGTACTTACGGGAAGGCGCATATGCACTCTCTGTGATCGCACCACGTCA
CGGTATAGCCCCCAGTGATAATACCCTAGGGCCCTGCGGTGAAACGGGGC
GCAACCTACGTTGTGTGATATCTAACGTGACCCGGGACCCGGGTGATGAA
TCCGCAACCAGGATTGGATTTGAAAAAACTACCACCGCGGGGGATTGCTT
GTAGAGGTTTGTAGGGGGTGTGATTTCTTCTGCGATCTACGTTATAGAGT
GCGGCGCAGATCCTCATGGTAGTGCGGGCTTTGTGCGTGTGTGTGTGTTG
TCATCCCTTTAATTGGACGCCACTCTTCACCTTTCGGGTAGGTAGACGCT
CCAACCGGGGTCACACAGTGTAGGAATTCAACACAGGAAGTTTTTTTTTT
TCTCAACTTCCCACTGCGGTACCTAGCTTAATTTTTTTCTCGCGATAAAA
GGTATAGCGATCCCTTTCCTTCGACACGAATTAATCGCTTTCCTCCCTCA
CGCATGGCATGAGGGCTGTGTTTACCATAAATCACTTCCACCCGTCTGCA
TTTCATCACCACGCTTGACCAGGCGTGAAATGTTTGATTGTAAATGTACT
TTGTACATGACTGCACCTTCGTCAGGCAGATTCGGTGACAATTCCTGATC
TGCAAGCCCTCGTTAAATCGCCCTGCCGGGAACTAATGACACACATTAAC
AGCAGATCCATTCCATACTTACACGTGTTATTTCGTACGTCGCACCACAT
CTCGGCGACTAGGTCTCCACGCTTCTGAACAAGACAGCGATCGACCTCGT
CAAAGCCGGCCAACTCGAGATCTTTACGCCAAGCTACTTTTTTGCGGCTC
GCAAAAAGTGAAATGGAACAGACAACAGTTGTTTTTTTTTGTGTGGGCAG
TGCACGTGTATGAAGGAGTTGTACGTGATGTTGAGAGCACCTTTTAGGGA
TTGTACGACTCTTGCGCGCGAAAATAGTTGATTTTTTCCCGAGAGAACCC
GACCCGTCGTTTGGCCTGCGACGAGACGCGAAAAAATATTTTTCGGAATA
CCAATGTGTATTATTATGTCACATCTTGAGTTTCCCCGATTTTGGGGCTG
TTACATAAATTGCATGTAGGTTATACAGCATATTAGTCAGTATTAAGTGT
GTGTTGTGAAAAAGAGTCATTTTTTCATTTGCGCATGTATTAATGAGAGG
ACCAAATCGACGTTTGTAAATCATTGCAACACGCGCTGTTATCCCGCTGT
CCTTGGGGTGTCGACTGACGATACACCCTTGCCTGCAGAATGATTTCCTG
TGGAACATGCTGGTTGTTGCGCACTCTTCTCTGGGAGTAAGCGGTATGAT
TAGCAGGTACATTTATGTCCGTGACTATCGCGTATTTGCACCTCTTGTTT
GTTGGGTTTCGCTTTCTCATCACCGACAAACGGCGTGTCACGCCTTACAC
GTAGCTGCACTGGACTAGGTACTACGCTGTTTTCGTTTTTTGTAGAAAAG
CGGCTTCTCTATGAAATGCAGCGTGGATCGCAACGGGAGGGATTTCCTCT
TTATCAAACAAAAAGCTTTAGGATTGCCGGACAACAGATTTTTGAGGCAC
AGATTTTGAACAACAACGAAGGGTCCCTGACAATCACACTCTGGGTACCT
CACACCAGTGGGAAGGCGTCGGGAAAGAGAAGAACTGTTGTTTATCGCAC
GCAGTGGCGGCAGGGGCTTCTCTTGAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig678:123490..153316-

>mRNA_P-littoralis_Contig678.39.1 ID=mRNA_P-littoralis_Contig678.39.1|Name=mRNA_P-littoralis_Contig678.39.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1233bp|location=Sequence derived from alignment at P-littoralis_Contig678:123490..153316- (Pylaiella littoralis U1_48)
ATGGCTCGTGGTGCTGAAAAGCCGTTGACATTGCTAGAGGTGGCGCTGGA
GGCGGCGAGAGAGAAGGCAGGAGCTTCAGCGTCCGTCGCTGCGGCTGTCA
GTGTCCTCGGAGCTATCGTGTACCTGGGTGTGACACGCCAAAAGCCTAAG
CGCGACGGACTTGACTACGACGGAGTATCAGGAGTGACACACATGCTGAA
CAACACCGACAGTGTGCTGAAGAAGGGGGAAGTCGAGGGAGCAATACAGG
ACTATGAAGCGTTATTCGCCGGGGCTAGAACCGAGCATGGAGCAATCACG
ACCGAAGCAAGCATCAAGAGGCGCCAAACGGAGTACCAGAAAATGGTCAA
CAGCTTCTACAACCTTGTGACCGACTTCTACGAGTACGGGTGGGGACAGT
CGTTCCACTTCGCTCCTCGACGCAAGAATGAGTATTTCCGCGAGTCTATC
CGGCGTGCAGAGTACGTGCTGGCAAGCCGTATCGAGGTCCGACCCGGAAG
TAAGGTTCTCGACGTTGGGTGCGGCGTCGGAGGACCTATGCGGAACATTG
CCGTGTTTGGAGATTGCTCAGTGCAGGGCATCACGATCAACCAGTACCAG
GTGAATGTGGGAAACAAGTACAACCGCGAGGCTGGTTTGTCGGAGAGCTG
CTCGTCCCGTCAAGGCGACTTCCAAAGCCTCCCCTTCGAAGATGCCGAGT
TCGATGCTGCTTATCAGATCGAGGCAACTTGCCACTCCCCGGACAAGGTG
CAAGTTTTCCGGGAAGTGTGCCGTGTTTTGAAGACGGGATGCATGTTCGG
CGGGTACGAGTGGGTCGTGACCGACAATTATGATGCCGGCAACGAGGCAC
ACGTATCGCTGAAGGAAGGCATCGAGGTGGGGAACGGGCTGCCTACTCTA
GCTACGCCGGCCATCATAAAGGCAAACCTTGAAGAAGCTGGGTTCGAGGT
CGTGTACGCCTACAACGCCAACGAGACCACCCACTCGGAATCGGAAATTC
CTTGGTATCAGCCTCTATGTGGGAGTTTCTGGAGCATCTCAGGGTTTCGT
CAGACGCACCTCGGCCGGATCTGCACGCACGGACTTGTGTGCACCATGGA
ACTGTTGCGCATTGCACCTAAGGGCTCGGCCCAGGTCTCCACGCTTCTGA
ACAAGACAGCGATCGACCTCGTCAAAGCCGGCCAACTCGAGATCTTTACG
CCAAGCTACTTTTTTGCGGCTCGCAAAAAGTGA
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