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Homology
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: D8LUA3_ECTSI (Serine hydroxymethyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LUA3_ECTSI) HSP 1 Score: 930 bits (2404), Expect = 0.000e+0 Identity = 458/485 (94.43%), Postives = 478/485 (98.56%), Query Frame = 2
Query: 773 AAAPLRRRITTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYPA 2227
AAAPLRR IT+ETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGS+MSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSF+ETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAY+RNIDY RM++VAD SGAWLL+DMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKG+PIMYDIESKINF+VFPGLQGGPHNHTI ALATALKQAK PEYVAYQKQV+ NSAAMA+KL++DGY+LVSGGTDNHLVLVDLKKS+NIDGARVELMLE+VNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGV LAKKVAADTGKIKAYREALADGGSKYPEI+QL+DD+N+FARTFPVIGFDQETMRYPA
Sbjct: 6 AAAPLRRGITSETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSIMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFYETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYSRNIDYARMKEVADASGAWLLSDMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGEPIMYDIESKINFSVFPGLQGGPHNHTIAALATALKQAKAPEYVAYQKQVVKNSAAMAEKLIADGYQLVSGGTDNHLVLVDLKKSSNIDGARVELMLEVVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVTLAKKVAADTGKIKAYREALADGGSKYPEIKQLRDDINNFARTFPVIGFDQETMRYPA 490
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A835YWD3_9STRA (Serine hydroxymethyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YWD3_9STRA) HSP 1 Score: 770 bits (1989), Expect = 1.740e-268 Identity = 378/478 (79.08%), Postives = 421/478 (88.08%), Query Frame = 2
Query: 791 RRITTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYP 2224
R ITTETR+WA A+N+PL +TDP+LFDI+EHEK RQRDSLVLIASENFTSK+V+DALGSVMSNKYSEGYPGARYYGGNE IDKVES+CQ RAL+AF LDP WGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVS +FETFPYRL+E+TG IDYD + NAKLFRPKLIVAGASAY+R IDY RMR++AD SGA+LLADMAHISGLV++G +PSPF YSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKG IMYDIE KINFAVFPGLQGGPHNHTI ALATALKQA TPE+ AYQKQV+ NS+A+A LM GY+LVSGGTDNHL+LVDLKKS N+DGARVE +LE+ NMATNKNTVPGD SAL PGGIRMGAPALT+RGFTEEDF +VA FF RGV ++ + TGK+K Y+ LA G +PE+ +LK DV +F+R FP IGFD+ TMRYP
Sbjct: 21 RAITTETRNWATALNEPLSKTDPELFDIIEHEKQRQRDSLVLIASENFTSKAVFDALGSVMSNKYSEGYPGARYYGGNENIDKVESMCQSRALQAFGLDPAKWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSLYFETFPYRLNETTGTIDYDKLEENAKLFRPKLIVAGASAYSRCIDYARMRKIADASGAYLLADMAHISGLVASGEIPSPFEYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGDAIMYDIEDKINFAVFPGLQGGPHNHTIAALATALKQANTPEFKAYQKQVMKNSSALADALMGMGYQLVSGGTDNHLLLVDLKKSKNMDGARVERVLELANMATNKNTVPGDTSALMPGGIRMGAPALTTRGFTEEDFVKVAEFFDRGVKISMDIKEKTGKLKDYKAFLASGADAHPELAKLKADVVAFSRGFPAIGFDETTMRYP 498
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S3M9R5_9STRA (Serine hydroxymethyltransferase n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3M9R5_9STRA) HSP 1 Score: 722 bits (1863), Expect = 1.130e-249 Identity = 359/469 (76.55%), Postives = 405/469 (86.35%), Query Frame = 2
Query: 800 TTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSAN-IDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTG-KIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGF 2200
T T WA A+NKPL ETDP+L+DIME EK+RQRDSLVLIASENFTSKSV+DALGSVMSNKYSEGYPGARYYGGNEQIDK E LCQKRALEAF+LDPE WGVNVQ+LSGSPANFQAY AVL PHDRIM+LDLPHGGHLSHGYQTDTKKIS VS FFETFPYRL+E+TG IDYD M NAKL+RPKLIVAGASAYAR IDY RMR+VAD+SGA+LL+DMAHISGLVSAGV+PSPF +SDIVTTTTHKSLRGPRGAMIF+RKG R T KKG+ MYD+E+KINF+VFPG QGGPHNHTI+ALATALKQA TPEY AYQ QV+ NS A LM GY LVSGGTDNHL+LV+LKKS N +DGARVE +LE+ N+ATNKNT+PGD SA+TPGGIRMG PALTSRG TEEDFE+VA FF R V + + + A TG KIK ++ ALA+G +PE+Q+L ++V FAR+FP +GF
Sbjct: 18 TAATIEWAKALNKPLNETDPELWDIMEKEKIRQRDSLVLIASENFTSKSVFDALGSVMSNKYSEGYPGARYYGGNEQIDKAELLCQKRALEAFNLDPEKWGVNVQSLSGSPANFQAYAAVLAPHDRIMALDLPHGGHLSHGYQTDTKKISAVSVFFETFPYRLNETTGVIDYDKMEENAKLYRPKLIVAGASAYARLIDYERMRKVADNSGAFLLSDMAHISGLVSAGVIPSPFDHSDIVTTTTHKSLRGPRGAMIFFRKGVRSTNKKGEVTMYDLENKINFSVFPGSQGGPHNHTISALATALKQALTPEYKAYQLQVLQNSKRFADVLMKLGYTLVSGGTDNHLLLVNLKKSKNGLDGARVERVLELANIATNKNTIPGDVSAMTPGGIRMGTPALTSRGLTEEDFEKVAHFFDRAVTITENINAKTGPKIKDFKAALANGAEGFPELQKLAEEVREFARSFPTVGF 486
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: W7TN09_9STRA (Serine hydroxymethyltransferase n=3 Tax=Monodopsidaceae TaxID=425072 RepID=W7TN09_9STRA) HSP 1 Score: 713 bits (1841), Expect = 3.030e-246 Identity = 355/479 (74.11%), Postives = 403/479 (84.13%), Query Frame = 2
Query: 767 LAAAAPLRRRITTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTG-KIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGF 2200
L P+ R IT+ET+SWA ++N+PL+ TDPDL I+E EKVRQR+SLVLIASENFTSKSV+DALGSVMSNKYSEGYPGARYYGGNE IDKVESLCQ+RAL AF+LDP WGVNVQTLSGSPANFQAYTAVL PHDRIM+LDLPHGGHLSHGYQTD+KKIS VS FFETFPYRLDE TG+IDYD M NA LFRPKL+VAGASAYAR IDY RMR++AD A+LL+DMAHISGLV+AG +PSPFP+SDIVTTTTHKSLRGPRGAMIFYRKG R TKKG I YD+E KINFAVFPGLQGGPHNHTI ALATALKQA +PE+ YQ+QV+ NS +A+ L GY LVSGGTDNHLVLVDLK +DGARVE ++E+ NMA NKNTVPGDKSALTPGGIR+G PALTSRGFTEEDFEQV FF R V +A+++ +TG KIK ++EAL +G K+ + LK DV +FA+ FP +GF
Sbjct: 16 LGRRMPILRSITSETKSWATSLNEPLKTTDPDLHAIIEQEKVRQRESLVLIASENFTSKSVFDALGSVMSNKYSEGYPGARYYGGNENIDKVESLCQQRALAAFNLDPARWGVNVQTLSGSPANFQAYTAVLAPHDRIMALDLPHGGHLSHGYQTDSKKISAVSIFFETFPYRLDERTGRIDYDKMEENAALFRPKLLVAGASAYARTIDYERMRKIADKHNAYLLSDMAHISGLVAAGAIPSPFPHSDIVTTTTHKSLRGPRGAMIFYRKGVRRVTKKGVEIPYDLEEKINFAVFPGLQGGPHNHTIAALATALKQAASPEFKKYQEQVLQNSKRLAETLTKAGYSLVSGGTDNHLVLVDLKPQ-QVDGARVERVMELANMAANKNTVPGDKSALTPGGIRIGCPALTSRGFTEEDFEQVGHFFDRAVKIAQEIKRETGPKIKDFKEALREGPGKHQALVDLKKDVVAFAQKFPTVGF 493
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S2C4R3_9STRA (Serine hydroxymethyltransferase n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2C4R3_9STRA) HSP 1 Score: 691 bits (1783), Expect = 3.080e-238 Identity = 339/444 (76.35%), Postives = 381/444 (85.81%), Query Frame = 2
Query: 896 QRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTGK-IKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYP 2224
QRDSL+LIASEN TSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVE++CQ RALEAF+LDPE WGVNVQ+LSGSPANFQ +TAVL+PH RIM LDLPHGGHLSHGYQT TKKIS VS +FE PYRLDESTG IDYDT+ ANA L+RP+L++AGASAY+R IDY RMR++AD GAWLL+DMAHISGLVSAG +PSPF YSDIVTTTTHKSLRGPRGAMIFYRKG R TKKG IMYD+E KINFAVFPGLQGGPHNHTI ALATALKQA TPEY YQ+QV+ NSA AK L + GYELVSGGTDNHLVLVDLKKS IDGARVE +LE VNMATNKNTVPGD SA+TP GIRMG PALT+RGFTE DF++VA FF RGV +++ + TGK +K ++ ALA G + PEI+ L+ DV +FARTFP IGFD+ +M++P
Sbjct: 1 QRDSLILIASENLTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVETMCQNRALEAFNLDPEKWGVNVQSLSGSPANFQVFTAVLEPHGRIMGLDLPHGGHLSHGYQTATKKISAVSVYFEQLPYRLDESTGVIDYDTLEANAGLYRPQLLIAGASAYSRLIDYERMRKIADQHGAWLLSDMAHISGLVSAGCIPSPFDYSDIVTTTTHKSLRGPRGAMIFYRKGVRSVTKKGVEIMYDLEDKINFAVFPGLQGGPHNHTIAALATALKQATTPEYKEYQQQVMSNSAQFAKSLQAKGYELVSGGTDNHLVLVDLKKSRGIDGARVERVLECVNMATNKNTVPGDVSAMTPSGIRMGTPALTTRGFTEADFDKVAEFFDRGVTISQMLKESTGKKLKDFKAALAPGAAPVPEIEALRADVAAFARTFPTIGFDESSMKFP 444
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S1DCC8_CYCTE (Serine hydroxymethyltransferase n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1DCC8_CYCTE) HSP 1 Score: 690 bits (1781), Expect = 4.810e-237 Identity = 354/518 (68.34%), Postives = 413/518 (79.73%), Query Frame = 2
Query: 716 LHQTMLPSVLRRNMPSGLAAAAPLRRRITTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAK--KVAADTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYPA*RDEGEDKHEFV 2263
L T+LP V RRN A++A +NKPL E DP+L ++E EK RQR+SLVLIASENFTSK+V DALGSV+SNKYSEGYPGARYYGGNE ID+VE LCQKRALEAF LDPE WGVNVQ+LSGSPANFQAYTA+L+PHDRI+SLDLPHGGHLSHGYQT TKKISMVS +FE+ PYRLDE TG IDYD M +A+LFRPKLIVAGASAY+R IDY R+R +A++ GA++L+DMAHISGLVSAGV+PSPFPYSD+VTTTTHKSLRGPRGAMIFYRKGQ+GT KKG PIMYDIE KINFAVFPGLQGGPHNHTI ALAT LKQA T ++V YQKQV+ NSA +A +L GY LVSGGTDNHLVLVDLK S IDGARVE +LE+ +ATNKNT+PGD SALTPGGIRMGAPALTSRG TE+DF +VA FF R V++A K + K+K+++ A G S P + +L+ DV++FA +FP IGF+++ M + EGE +FV
Sbjct: 4 LRSTLLPGV-RRNFTRYFASSA-------------GSDLNKPLTEQDPELCTLIEQEKARQRNSLVLIASENFTSKAVLDALGSVLSNKYSEGYPGARYYGGNENIDQVEILCQKRALEAFKLDPEEWGVNVQSLSGSPANFQAYTALLEPHDRILSLDLPHGGHLSHGYQTPTKKISMVSRYFESMPYRLDEKTGTIDYDQMETSAELFRPKLIVAGASAYSRLIDYERIRNIANNVGAYVLSDMAHISGLVSAGVIPSPFPYSDVVTTTTHKSLRGPRGAMIFYRKGQKGTDKKGNPIMYDIEDKINFAVFPGLQGGPHNHTIGALATCLKQANTADFVEYQKQVLKNSARLADELNKLGYALVSGGTDNHLVLVDLKSSRGIDGARVERVLELACIATNKNTIPGDTSALTPGGIRMGAPALTSRGLTEDDFAKVAEFFDRAVSIAVDLKNTEEGKKLKSFKAMCAVGPSVSPALVELRADVSAFASSFPTIGFNEDEMEF-----EGEYNVDFV 502
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S2WJP7_9STRA (Serine hydroxymethyltransferase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WJP7_9STRA) HSP 1 Score: 686 bits (1771), Expect = 1.240e-235 Identity = 339/478 (70.92%), Postives = 398/478 (83.26%), Query Frame = 2
Query: 794 RITTETRSWALAMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAADTGK-IKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYP 2224
R + + S A +NK LEETDP+LF+++EHEK RQR+SLVLIASENFTSK+V+DALGSVMSNKYSEGYPGARYYGGNE ID+VE LCQ+RAL+AF LDP WGVNVQ+LSGSPANFQAYTAVL+P DRIM+LDLP GGHLSHGYQT TKKIS VS++FETFPYRLDESTG IDYDT+ +NA L+RPKLIVAGASAY+R +DY R+R + D A++L+DMAH+SGLV+AG +PSPF +SDIVTTTTHKSLRGPRGAMIFYRKG R KKG MY++E KINFAVFPGLQGGPHNHTI ALATALKQA++ E+ YQ QV+ NS+A+A L GY LVSGGTDNHLVLVDLK S IDGARVE +LE+ N+ATNKNTVPGD SA+TPGGIRMGAPALTSRG E DFE+VA FF RGV++A +V TGK +K +R AL G S PE++ L+ DV F++ FP +GFD+ +MR+P
Sbjct: 14 RQSLRSMSTASTLNKSLEETDPELFNLIEHEKRRQRNSLVLIASENFTSKAVFDALGSVMSNKYSEGYPGARYYGGNENIDQVEELCQQRALDAFGLDPAKWGVNVQSLSGSPANFQAYTAVLEPKDRIMALDLPSGGHLSHGYQTATKKISAVSTYFETFPYRLDESTGLIDYDTLESNAHLYRPKLIVAGASAYSRLVDYERIRAICDQHNAYMLSDMAHVSGLVAAGCIPSPFEHSDIVTTTTHKSLRGPRGAMIFYRKGVRSVNKKGVETMYNLEDKINFAVFPGLQGGPHNHTICALATALKQAQSQEFKDYQGQVMSNSSALASALTKRGYSLVSGGTDNHLVLVDLKASRGIDGARVERVLELANIATNKNTVPGDVSAMTPGGIRMGAPALTSRGLGEADFERVAEFFDRGVSIALQVKESTGKKLKDFRAALQPGASAVPELEALRQDVIDFSQQFPTVGFDESSMRFP 491
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A6V2A468_9STRA (Serine hydroxymethyltransferase n=3 Tax=Lithodesmiaceae TaxID=49247 RepID=A0A6V2A468_9STRA) HSP 1 Score: 683 bits (1762), Expect = 3.760e-234 Identity = 346/509 (67.98%), Postives = 414/509 (81.34%), Query Frame = 2
Query: 755 MPSGLAAAAPLRRRITTETRSWALA----MNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVA-ADTGK-IKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYPA*RDEGEDKHEFV 2263
M S +A P RR TR +A + +NKPL ETDP+L ++E EK RQR SLVLIASENFTS++V D+LGSV+SNKYSEGYPGARYYGGNE ID+VE LCQKRALE F LDPE WGVNVQ+LSGSPANFQ YTA+L+ HDRI+SLDLPHGGHLSHGYQT KKISMVS +FE+ PYRL+E TGQIDYD MA +A+LFRPKLIVAGASAYAR IDY R+R++AD GA++L+DMAHISGL++A V+PS FPY+D+VTTTTHKSLRGPRGAMIFYRKGQRGTTKKG+PIMYD+E KINF+VFPGLQGGPHNHTI ALATALKQA TP++V YQKQV+ NS+ +A++L GY LVSGGTDNHLVLVDLKKS IDGARVE +LE+ +ATNKNTVPGD SAL PGGIRMGAPALTSRGF E+DF +VA FF R V++A ++ D GK +K ++ A G S +P++ +L+ DV+ FA +FP +GF++ M + +G+ +FV
Sbjct: 1 MMSLRSALTPTLRRAVF-TRGFAFSAGAELNKPLTETDPELCQLIEQEKARQRSSLVLIASENFTSRAVLDSLGSVLSNKYSEGYPGARYYGGNENIDQVELLCQKRALEVFGLDPEEWGVNVQSLSGSPANFQVYTALLETHDRILSLDLPHGGHLSHGYQTPNKKISMVSRYFESMPYRLNEETGQIDYDEMARSAELFRPKLIVAGASAYARLIDYERIREIADSVGAYVLSDMAHISGLIAADVIPSCFPYADVVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGEPIMYDLEDKINFSVFPGLQGGPHNHTIGALATALKQASTPDFVEYQKQVLKNSSRLAEELTKLGYTLVSGGTDNHLVLVDLKKSRGIDGARVERVLELACIATNKNTVPGDTSALMPGGIRMGAPALTSRGFMEDDFAKVAQFFDRAVSIATELKNTDEGKKLKGFKSMCAVGPSVHPDLVELRKDVSDFACSFPTVGFNESEMDF-----KGDYNVDFV 503
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S1C0P2_9STRA (Serine hydroxymethyltransferase n=2 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1C0P2_9STRA) HSP 1 Score: 677 bits (1748), Expect = 5.190e-232 Identity = 334/480 (69.58%), Postives = 394/480 (82.08%), Query Frame = 2
Query: 830 MNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALA--KKVAADTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYPA*RDEGEDKHEFV 2263
+NK L ETDP+L ++E EK RQ +S+VLIASENFTSK+V DALGSV+SNKYSEGYPGARYYGGNE ID+VE +CQKRALEAF+L+P+ WGVNVQ+LSGSPANFQ YTA+++PH RI++LDLPHGGHLSHGYQT TKKISMVS FFE+ PYRLDESTG IDYD M +A+LFRPK+I+AG SAY+R IDYPR+R +AD GA+++ADMAHISGLV+AGVVPSPF Y+D+VTTTTHKSLRGPRGAMIFYRKGQRG TKKG+PIMYD+E KINF+VFPGLQGGPHNHTI ALAT LKQA T E+ YQKQV+ NSA +A++L GY LVSGGTDNHLVL+DLK S NIDGARVE +LE+ MATNKNTVPGD SAL PGGIRMGAPA+TSRGF E+DF ++A FF R V + K + KIK +R A G S +P++ QL+ DV+ FA FP +GFD + M + EGE +FV
Sbjct: 32 LNKSLAETDPELVKLIEQEKARQLNSIVLIASENFTSKAVLDALGSVLSNKYSEGYPGARYYGGNENIDQVEIMCQKRALEAFNLNPDEWGVNVQSLSGSPANFQVYTALMEPHGRILALDLPHGGHLSHGYQTPTKKISMVSKFFESMPYRLDESTGLIDYDGMERSAELFRPKIIIAGTSAYSRLIDYPRIRSIADSVGAYVVADMAHISGLVAAGVVPSPFEYADVVTTTTHKSLRGPRGAMIFYRKGQRGVTKKGEPIMYDLEDKINFSVFPGLQGGPHNHTIGALATCLKQANTAEFKDYQKQVLANSARLAEELTKRGYNLVSGGTDNHLVLIDLKTSRNIDGARVERVLELACMATNKNTVPGDTSALAPGGIRMGAPAMTSRGFKEDDFAKIAEFFDRAVDITCVLKDTPEGKKIKTFRNMCAVGPSVHPDLVQLRKDVSDFASGFPTVGFDIDEMEF-----EGEYNVDFV 506
BLAST of mRNA_P-littoralis_Contig62.88.1 vs. uniprot
Match: A0A7S2EL27_TRICV (Serine hydroxymethyltransferase n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2EL27_TRICV) HSP 1 Score: 675 bits (1742), Expect = 6.410e-231 Identity = 338/490 (68.98%), Postives = 402/490 (82.04%), Query Frame = 2
Query: 770 AAAAPLRRRITTETRSWAL----AMNKPLEETDPDLFDIMEHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNEQIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDRIMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMAANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVSAGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDIESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAMAKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKNTVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAA--DTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRY 2221
+AA+ +RR +++ S++ A+N PL DP+L ++E EK RQR SLVLIASENFTSK+V DALGSV+SNKYSEGYPGARYYGGNE ID+VE LCQ+RALEAFDLDPE WGVNVQ+LSGSPANFQ YTA+L+ HDRI+SLDLPHGGHLSHGYQT +KKISMVS +FE+ PYRLDE TG IDYD M +A LFRPKLIVAGASAYAR IDY R+R++AD GA +++DMAHISGLVSAGV+PS FP+SD+VTTTTHKSLRGPRGAMIFYRKGQ+GTTKKG+PIMYD+E+KINFAVFPGLQGGPHNHTI ALAT LKQA TPE+V YQKQV+ N++A+A +L GY +VSGGTDNHLVLVDLK S IDGARVE +LE+V +A+NKNT+PGD SAL PGGIRMG PALTSRGF E DF +VA FF R VA+A K+ A + K+K +RE A G S ++ L+ +V FA +FP +GF++ M +
Sbjct: 18 SAASFVRRPLSSSAASFSSSSGSALNDPLSAVDPELTSLIESEKARQRSSLVLIASENFTSKAVLDALGSVLSNKYSEGYPGARYYGGNENIDRVEMLCQRRALEAFDLDPEEWGVNVQSLSGSPANFQVYTALLETHDRILSLDLPHGGHLSHGYQTPSKKISMVSRYFESMPYRLDEQTGTIDYDEMERSALLFRPKLIVAGASAYARLIDYERIREIADKVGAHVMSDMAHISGLVSAGVIPSCFPHSDVVTTTTHKSLRGPRGAMIFYRKGQKGTTKKGEPIMYDLENKINFAVFPGLQGGPHNHTIGALATCLKQANTPEFVEYQKQVLKNASALATRLAELGYSMVSGGTDNHLVLVDLKSSRRIDGARVERILELVCIASNKNTIPGDTSALMPGGIRMGTPALTSRGFLEADFVRVADFFDRAVAIASKLKATEEGKKLKGFREMCAVGPSVDEDLVALRKEVMEFASSFPTVGFNEGEMEF 507
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 | 2850.Phatr54015 |
| PFAMs | SHMT |
| Model size | 3253 |
| Max annot lvl | 2836|Bacillariophyta |
| KEGG rclass | RC00022,RC00112,RC01583,RC02958 |
| KEGG ko | ko:K00600 |
| KEGG Reaction | R00945,R09099 |
| KEGG Pathway | ko00260,ko00460,ko00630,ko00670,ko00680,ko01100,ko01110,ko01120,ko01130,ko01200,ko01230,ko01523,map00260,map00460,map00630,map00670,map00680,map01100,map01110,map01120,map01130,map01200,map01230,map01523 |
| KEGG Module | M00140,M00141,M00346,M00532 |
| Hectar predicted targeting category | mitochondrion |
| Exons | 13 |
| Evalue | 6.85e-237 |
| EggNOG OGs | COG0112@1|root,KOG2467@2759|Eukaryota,2XBJT@2836|Bacillariophyta |
| Ec32 ortholog description | serine hydroxymethyltransferase 2 |
| Ec32 ortholog | Ec-14_004260.1 |
| EC | 2.1.2.1 |
| Description | Interconversion of serine and glycine |
| Cds size | 1503 |
| COG category | H |
| BRITE | ko00000,ko00001,ko00002,ko01000 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791292.9795225-UTR-P-littoralis_Contig62:381546..382273 | 1680791292.9795225-UTR-P-littoralis_Contig62:381546..382273 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig62 381547..382273 + |
| 1680791293.1668057-UTR-P-littoralis_Contig62:397375..398398 | 1680791293.1668057-UTR-P-littoralis_Contig62:397375..398398 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig62 397376..398398 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791292.9949758-CDS-P-littoralis_Contig62:382273..382363 | 1680791292.9949758-CDS-P-littoralis_Contig62:382273..382363 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 382274..382363 + |
| 1680791293.004165-CDS-P-littoralis_Contig62:382601..382673 | 1680791293.004165-CDS-P-littoralis_Contig62:382601..382673 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 382602..382673 + |
| 1680791293.013405-CDS-P-littoralis_Contig62:386952..387102 | 1680791293.013405-CDS-P-littoralis_Contig62:386952..387102 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 386953..387102 + |
| 1680791293.0445673-CDS-P-littoralis_Contig62:387693..387798 | 1680791293.0445673-CDS-P-littoralis_Contig62:387693..387798 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 387694..387798 + |
| 1680791293.0583444-CDS-P-littoralis_Contig62:388407..388515 | 1680791293.0583444-CDS-P-littoralis_Contig62:388407..388515 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 388408..388515 + |
| 1680791293.0713422-CDS-P-littoralis_Contig62:390976..391078 | 1680791293.0713422-CDS-P-littoralis_Contig62:390976..391078 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 390977..391078 + |
| 1680791293.0814276-CDS-P-littoralis_Contig62:391511..391736 | 1680791293.0814276-CDS-P-littoralis_Contig62:391511..391736 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 391512..391736 + |
| 1680791293.092806-CDS-P-littoralis_Contig62:392467..392546 | 1680791293.092806-CDS-P-littoralis_Contig62:392467..392546 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 392468..392546 + |
| 1680791293.1046898-CDS-P-littoralis_Contig62:393020..393115 | 1680791293.1046898-CDS-P-littoralis_Contig62:393020..393115 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 393021..393115 + |
| 1680791293.1171958-CDS-P-littoralis_Contig62:393652..393763 | 1680791293.1171958-CDS-P-littoralis_Contig62:393652..393763 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 393653..393763 + |
| 1680791293.1278384-CDS-P-littoralis_Contig62:394500..394645 | 1680791293.1278384-CDS-P-littoralis_Contig62:394500..394645 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 394501..394645 + |
| 1680791293.1458106-CDS-P-littoralis_Contig62:396354..396413 | 1680791293.1458106-CDS-P-littoralis_Contig62:396354..396413 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 396355..396413 + |
| 1680791293.1556544-CDS-P-littoralis_Contig62:397213..397375 | 1680791293.1556544-CDS-P-littoralis_Contig62:397213..397375 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig62 397214..397375 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig62.88.1 >prot_P-littoralis_Contig62.88.1 ID=prot_P-littoralis_Contig62.88.1|Name=mRNA_P-littoralis_Contig62.88.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=501bp
MLPSVLRRNMPSGLAAAAPLRRRITTETRSWALAMNKPLEETDPDLFDIM
EHEKVRQRDSLVLIASENFTSKSVYDALGSVMSNKYSEGYPGARYYGGNE
QIDKVESLCQKRALEAFDLDPELWGVNVQTLSGSPANFQAYTAVLQPHDR
IMSLDLPHGGHLSHGYQTDTKKISMVSSFFETFPYRLDESTGQIDYDTMA
ANAKLFRPKLIVAGASAYARNIDYPRMRQVADDSGAWLLADMAHISGLVS
AGVVPSPFPYSDIVTTTTHKSLRGPRGAMIFYRKGQRGTTKKGQPIMYDI
ESKINFAVFPGLQGGPHNHTITALATALKQAKTPEYVAYQKQVILNSAAM
AKKLMSDGYELVSGGTDNHLVLVDLKKSANIDGARVELMLEIVNMATNKN
TVPGDKSALTPGGIRMGAPALTSRGFTEEDFEQVAAFFHRGVALAKKVAA
DTGKIKAYREALADGGSKYPEIQQLKDDVNSFARTFPVIGFDQETMRYPA
* back to topmRNA from alignment at P-littoralis_Contig62:381547..398398+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig62.88.1 ID=mRNA_P-littoralis_Contig62.88.1|Name=mRNA_P-littoralis_Contig62.88.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=16852bp|location=Sequence derived from alignment at P-littoralis_Contig62:381547..398398+ (Pylaiella littoralis U1_48)
GCCTGGTCGGTTGAAAAAAGCCTCGTAGCACTAAAGGCGCTTCCTGGAGG
ACCACTTGATGTGACCTGGTCATGAGTCCTCACTTGCTCACAGCTCTCAG
ACGAGAGACGCGGTTGTCTCAGTGGGTTGCGCCGCATAAAACTCGGGGGC
CGCGCGGGACATTCTTTTATACACACGTTTACGGATTCCGGGCAAAATGC
ACGCCCGCTCTCGGATGCAGCGATGCAACTACACGTTGGTGGTCGTTCCT
ATTTCCACTTCTACAAAGTCTCGTTTTAAAACCGGCCATCTTCCTGCCCC
TCTACAGCACTCTGTAGTCTTTTCTTCGAGGGTACTACCGGTAGTGGCTG
CGACAAACAAAAATCAAATAAACATTTATTTACATTTTTGAATTTTTGTC
CCCGTCTCCCTGATCTACGTAACTGCCTTCCATCCCAACGCCCCGCCCCG
CCTGCCCTGGGCTTGTCGCGCCGCGGGTGCCGACGGTGGGCGGGTTGGAC
ACATCTATCTTCCCTCTCCACGCTTCAAACCCTTCGAGGAGTATCGAAGA
AGACACTCGAAGTGATCCCCTACTCTGTGCGGAGTCTAGGACGGAGCGCC
AGCTGTGTGTGATTAGAGGATCTTCCTCTCCTCCTGTGTGACGTGTGTGT
GCAGCAACTCGCAGCCATTTTTTTGTTACACGCGCGTACGCAGCAGCTTG
AGTCGTTCGATCAGACTACATCAGACCATGCTTCCCTCTGTGCTTCGTCG
AAATATGCCCTCCGGCCTAGCAGCAGCTGCGCCGCTGCGACGCAGGATCA
CGACCGAGACTCGATCGGTAAGTGAGTAGGATACTCTCTGTCCCGCGATA
TGCCCTGTGGCTGTGTTAGTGGTAAACAAAAAGCCAGCAGAGTTCCTGCG
TCCTGACATGTAAGCGTGTAGCCTCCTTCTGTGCCGCAGCAGCCCCCTCG
TGGCGTCGTCTCTCGTCTCTCACACGTGAATGGGCCTGTGGGTGTGCCCT
GCTGCTGCTGCTGCTGCTGCTGCTGCTACTGCCTGATTCTTGCGCCTTTG
TGCAGTGGGCCCTCGCCATGAACAAGCCGCTCGAGGAGACAGACCCGGAC
CTGTTCGACATCATGGAGCATGAGAAGGTGCGTTCTCCTGTGTGTCAAGC
ATGTTTACACATGAAGCAGATGTGTCCCTGCCTGTTTTCCTCATATCATA
TTATATCATATCACATGATATTGATCTTATACAGAGCAAATGCAAAAATG
TACCGACACACATTTGTGCCGCATCTCCCTCTGAGCTGTTCTCCTTTTCT
ACTTTTTGAGTCATAACTGCGAGTCATCGATCTTCTTGCTGTAGTGAACA
AGATCCTGAGCAGCTTGGTCTCGAGAACCTGCGTGCGTCCTTCTGGCATG
CAAAACAACAAACAAGGGCGTGCATTCATATACAGCAGTCAATTTCCCAG
CTGCGGGTATGTGACGGAGAGGCGGGACAAAACGAGCCCGCATCATGAGT
CAAGTACGTTTTCGCAATGTTGAACCTTTCGTCATCTTTCAGCTTTTCAG
GTGCATTCCCATTCAAGACACATACGGAGTAAATTAATACGGTAGTCCAC
ATCCATTTTTTTCTCACATTGCGCGTGAAAGTGGAAAGCGATCGATTCGT
GAGTAAACAAAATTCGATCGTACCATCGACGAGGGAAAGGGATTGCTGTC
CCCTTTCTCGCGATAAAAAGCTCAACCAAGAACAAGGCAAGCACCGCAGA
GGGAAGTGGAGAAAAAAAAAAAAAATCTCCTGTGTTGACTTCCCCCTGTG
TGACCCCGGTTGGAGCGTCTACCTACCCGAAAACTTTGGAGTAGCGTCCA
ATTAAAGGGATGACAACAAACACACATCCAAGAAAATTTGTCCAGTTACA
AGTACTTTCTTGATGACTTTTGAGAAAATGAAAATTGTAACTTGATTCAA
AATATTTGTGGCCTCGGCATCGAACGAAGTCGATACCGCGAAGTCTTCTT
CACTTTTTTTTGCTTTTTTTGTCCACATATCACTCTCTTCCCTTTACTCA
GAGTCGGCGAAATTGGAAAACATCGAATATCTCGCGAAGTTTCGTTTTTC
CTAGAAAAAAAAAATATTCCCCCTGGGGATATACGAGAGGAAGCGTTTGC
CGCACTCACGTTGTTAAATCGTATGTCTGGTTGTCCTGATTAAAAGGATA
GAAAGTGCCTTCCAAGATCCGGCTTTTCCCCAATACTGTAGCTCAATCAA
TTTTGAGTATTTGGAAAAAACAAAAAAAATACTCCCTGGCGAATTCCGAG
CGCTGTCCGAATCCGTTGAGGTATCTGTAATTGTTGCCCACAAATAAAAC
GATACAAGTCATTCCGGTATATGTAGGATAAAGAGCGAAATATAAAAAAA
ATGTCGCTCCATGAGAAATGCCCCAGGAGAGAGGGCTTCTAACGGTATCT
TTGGATTTCGAAACAAATACTCCCACCCTGAGAAAAATGTACCTGTGGGT
GCTGGAAATTTTGTGGACAAATTGTCTTCCACGGACCATATGATTAGTAT
TTATTATTTCATACGATAAAATACTAGGTATTGAACAAGGTTTGAGGTAA
TTCTGCTGTGCAAAAGCCAATTTGCGCACAGCAGTCAAGGGGGGCTGGAT
AACCGTCAATCTATGACGCCAAGATGAGGTACTGGGAGTTGGTGCAAGCT
TTGGGGGGGGGGGAGGGGGGGTTCTGTCGGCAGTGTTGCTGGTGGAAAAA
TAATTCAAATCCATTTTGGCCTGGCATAATATATTACGAGCATACGTTCA
TATACCACAGGATACTGATATGATATGATCCAGCAACTGCTGTAAACTGC
TGTAAACTCCTGTGAACTGATGGCTTGGTTGAGTGGGTATGCCTTGAAAC
CTTCTCCTGGATACCCCCAGTACTGCTGTATGTCGTGCGATCGAATGCCG
GTGAAGTTGGATTTTCTCTGGGAAAAGAGTGCTTGCGAAACTCGCAACTT
TGGACTTTGGATGTTTCTCTTCTGGGGAGACGGGGTAGATACAAAACTCT
TTCGAAGAACGAAACAAAAATACTGGTTACTCCGAACAGACTCCTCTCGA
AACTTACTACGTTGCTGGTATCTTGTATCATGTGATTTCTTTCAGGGCAG
ACGCCAAAAAGCGGTATTATGCCTGGTTTCCGCGCCACAAAGCGGTACAC
CAACATACACCTGGGCATTTGAGCCCATTCGCGTCTCTGATTGGCCGATT
AAGCCTCGTGACGCTTTTTGGCACCACCAGTCGGCGGTACATCACATCTG
GGCTTCTCAGGTCGGCTGTCACCGCTTTTTGGCGCGACCCGTACCGCTTT
CTGGCGGGGTATTCCCCAGGTCATTCGCCCAACAGCCTTTGAAACTTCCA
AATCAGGCATCAACCAAGGAACGAAGCAACGTCACCTAGTTTCAGAGCCC
CCCGGCCCTTTGTCGGCGAATAACCTCTCGGCACGTTCTCCGAGCATTTT
CTCTGCACCCGACCCCTTCGGGACCTTACAGCACGCTGCAAGCTGATGCG
TGCTTCTGCCCGGTGCTCTGCAAGAAAGCTGGCAGGAAGACCAGAACAGT
TACTGCTGCTGCTGTAAAACACACATACATACACCCAACGGTGCTGCCCC
TTACCAGAACAAAAGACCGACCATGGGGAAAACTCGCACCCCCGCAAACA
GACACACACATGCATACATGCACGAACGATGACATGCACCTGATTTGGCA
GGCTCGGATGCATGTATATGTATGATATTCCCTGCTTTGCGTATGTATTA
GTAGGCCCGGATATAATGCAAGTTGTTTTTGTTGCCAAAAACGGCAACGA
TTATTTTTCGGAGGCTCACACGGCAGACGGCAGTGTGTGTGTTTGTGCCG
GGGGTGTGAGTCGCGTTCTCTCATGGTCTGCTATACTACTGTTGTTCTGG
TTTTACAGCAGCAGCAGTAACTGTTCTGGTCTTCCTGCCAGCTTTCTTGC
AGAGCACCGGGCAGAAGCACGCATCAGCTTGCAGCGTGCTGTAAGGTCCC
GAAGGGGTCGGGTGCAGAGAAAATGCTCGGAGGACGTGCCGAGAGGTTAT
TCGCCGACAAAGGGCCGGGGGGCTCTGAAACTAGGTGACGTTGCTTCGTT
CCTTGGTTGATGCCTGATTTGGAAGTTTCAAAGGCTGTTGGGCGAATGGT
TTGGGGAATACCCCGCCAGAAAGCGGTACGGGTCGCGCCAAAAAACGGCG
ACAGCAGACCTGAGAAGCCCAGATGTGATGTACCGCCGACTGGTGCCAAA
AAGCGTCACGAGGCTTAATCGGCCAATCAGAGACGCGAGCGGGGCTCAAA
TGCCCAGGTGTATGTTGGTGTACCGCTTTGTGGCGCGGAAACCAGGCGGT
ATACCGCTTTTTGGCGTCTGCCCCTTCCCTTTCTTTTACGACTGCTGTAC
AGCAGTGCTCGTACTGCAGAGTAAAACGATTTTTAAAAATCGGGCCAAGA
GAGCGCGCATATTCATGCGCGCATGTTCATGCCGTCAACAAATAAAAGGA
AGAACCAGCAACAAGCAGCAACAAGCAGCACGCTGCAGAGTGTACAGCAG
CATTTAGCCAACAGTATGTACTGTACTTCAGCCTCCCTCTCTCCTTTTCT
TCATATTTTACGCAAAAAAAAAAAAACTCTAGCGCGTGCTTTGCTCCCTT
CCCTTCAGACGTTATGATAAGAGCCTCGCAAACTAGCACGACTTCCGTTG
CTGCTGTCATGCCGCCGTCACGGCGGTGCTTAAGTTAAAGCTTGTCTTGC
CCAAGGCTAGCAGCAAAGCAAGAGTAGTAGCGAGGCTCTCTCTCGTTTTC
CTCCGTATCGAAAATAACAAAGGACGCCATGCTCGCGTCGTAGAACACCC
TCATCACGTGTACCACACTTCGTAGTATAGTAGCATGATTTCCGTTGCTC
TCATTGCAGCCATACACGACGGCGTTTGAGTACAGCGCGTGTTCAGACGG
GGAGCCTCCATCTCGCCGTGCCCAACGTGGGTGCGTACTCCACCTCGGAG
ACACGAGAGGTATCGGTCGTTCTCTCTCGGTGGCTTGGCCAATCGCTCGA
CTCACCAACCCAGGTCCCAAATCTTTACCCACAAATTTGTGGAAAAAAAA
ACATTCCGGTGTTGACCTTTCTCCTGTGTGACCCCCCCACCGAGTGGTGC
TCTAAACCCGCAAACTTGTACCGGAAGGTATACCGGTAGCCTTCTGCCAA
CCAATATGAAGCGGATGACAATACGCAAAACGCACACATACACTGCTGTC
TGCACTGCTGTTTAATACCTGGGACCTAACTAACACCATACGATAATGTA
ATTATTTTCCATGTGCCGTGGTGTGCGTGTGTGTGTGTCTCAATTTTTTT
CGACAGGTTCGTCAGAGGGACAGTCTCGTCCTGATCGCGTCGGAAAACTT
CACCTCCAAGTCGGTGTACGACGCCCTCGGCTCCGTCATGTCGAACAAGT
ACAGCGAGGGGTACCCGGGAGCGCGGTACTACGGCGGGAACGAGCAGATC
GACAAGGTCAAGTTTACTTCGTGCCCCCCGCGTTTCGATTTCGTTTTCGG
CTTCGCTTGGTCGACTCAGTTTTCACCCTTTTGCCACAAGTTTGGATATC
ATACCGTAACATATACATCCATACATGCGTAACACATTCATACATGCATA
CTTTCGTACATACATACATACATACATACATACATACAAACATGCATTCA
TACATGCACATATAGCACAACATACACACATGCACACACGTGCGTACATA
CGTGCACGGCGGGCTGAAGATTACAGCAATAGTATAAAGCAGCAGCGTAG
AAGAGACCGAAAATGAGGGCAGTCGATTCCCTGATTCGTCAGCATATTGT
TTGCCGGTGTCTGTATGGGTGTAGGAGCGGGGGCTAGTGTACGTGTGTGT
TTCTTTGTTTTGTCTCCGATGTCTCCTGGACGCTAGCCAGCCTGCGCTGG
GGTACTCGACGAAGAAAGAGAAGAAAGTGGGAGAGAGAATCCAACAATTA
TACTGCATGCATGTCATGCATCAAATGCAGGAGTAAATTGATCTCCTGAA
CGGCATCCCTCGAAATAATTAAACTTTCAAATGTCGCGTGGGCACAGGTG
GAGAGCCTGTGCCAAAAGCGGGCGTTGGAGGCGTTCGACCTCGACCCGGA
GCTGTGGGGCGTCAACGTGCAGACCCTCTCGGGAAGCCCGGCTAACTTTC
AGGTGCAGCAAGCAGTACAGGAAAGGGCATCTCGATTAATTTGAGAGGAA
ACTAGGGGGGGGAGGGGGGGTTACGTTACAGGACTTTCAGAGAAAAACGC
TCGGTGTCGGCGCAGGGAAGGGCACGGCTTTAGGCGGGAGAAGTGCAGCG
AGTGTTTGCAGTGGTTCTGCTCGGGCCGGACGGATCTTGTCATGCGCCGT
CCGCAGCAGTAGGTGTCGAGCCCTCTTTGCGATTGGTTGTATTGTTGCCG
TTGTTGTTGATGCTGTTGTTGTTGCTTCTCGTACGGGCGCGTATTTTGAT
GGTATGCTACATCATACTGTTGCACCAGCCTGAACGCAGAGGGCGTAGGC
AACAAAAATATGTGTTTGTAGCATATTTTGAGCCTACACGTAATGTGGGA
ATTTTTCAGTTTTTCAGGTGTTGGTGGGGTGCCTGACCCCCGTTTGTAGA
GGGCATTACGACGACGACGACGACGACGACTTGAACAGCATACCTGCCCC
CCTTTTCCGCACACCCCGGTCGTCACAGATGCCCCCCCGCTCCCTCTCTC
TCGGTCTGTCTCGTCTCTCTCTTGGTTTCTCCCTCGCACCGCGCGGCGCA
CACGAGCACAGGCGTACACCGCAGTGCTACAGCCGCACGACCGCATCATG
TCTCTCGACCTCCCCCACGGCGGCCACCTGTCGCACGGCTACCAGACCGA
CACCAAGAAGATTTCCATGGTGAGAGTGCGAAAAACAAGAAAGAAAAAGA
AGAAAACGGAAAAGGAAAGAAAGGAAAAGGAAAAGGAAACGAAGAGAAAG
AAAAAGTGTCTGGCATGTAATTTATGATACGATATCATACAGCAGTACCA
GGTGTACAAATTATCACGGAAAATATTGTACCGCGAGAGTCCGTTCGTTT
CGTTCGTTTTTTTTTTTTTTCCTCGAGTCTGAGACAAGTCCTTGTCATGA
TAAATTGGTCAAGATCGGGTCGTTCGACGCGTACATACACATCAGAATTT
CATTTTGTGTTTTTTTGTTGCCTCTTTTTTCACGAGTGGCTTTTGGGAAA
AACAATGAAGACGGGTAATATTGTGTTTGTGTGGTACCCGTGTTTATGGA
AGCCAGTGCGTGCCGGGATATAATAGAAGTCTGCCCGACATTTTCAGCAG
AAGATACAACATGTATTTCGCTGCTGTGAGAACACTGTCTTGTCCATAAC
GACAGGTTTTCTAATTGGCCAAAACCGGGCCAAACGGGACGATGTTTGGC
TGCCTCACGATCCACAAATTCCTGAAGCGGCAAGACAACGATACACCACC
ACGCTTCAGTCAACAACACCGACCACTGCGCTATGAATAACTCTAGATAT
AGAGGACGCGTACGGTGCCGAACACCGCCGGTGGCTGCTGGCTTTTGGAC
AGAAACGCGCGAAGCATTCAAAAAATATATATATACCGAAGAGCGGTCCT
TCCAAACTTTATGGGCTGACGCGCGGGTGACACCTCGGCGCAGCAGTTGG
AGGCGACATCAGAACATGACAGTCTGCGTTCTGGCTCCCTTCGTCGCCCA
TCAAGATTAAACATTCTCGGCTGTCACCTCCATTCACTGCTCTCTTGCCG
GCAGGGTGTGGGTTGGCGGTGGGCTCATTCAACCGGCAGGAAACAGGCAT
CGCTGCTAACCTCTGTTTCGAACATGCATGTGCTCGAAATCATTTTTAGG
CGGTACAACACCAAAGTCAAAGCATTACATCGCGAAATAAAAAAGGCCTG
TTGTGCTTTCAGCTTGGCTGGTCAGGCCACGAGCGATAATTCTCTCTCGG
CCGATTAAATTGAGCCCACAGCCAACCCAACGTCCTACCGACGGAGAGCA
GTGACCGGAGGTGATGAGTCAAGAACATTCAACCTTGACTGGCGATGAAG
AGAGCGAGAACGCGACTATTTTGGTGTTCTGTTGTCAGCCTTCAACTGCT
GCGCCTGAGGCGTCACAAGCTCGTCAGCCCATTACTTCAACAGGAAACGC
TGGGAAAGAGCCGCTCTTCAAATGATACTTGCATGCTGGCGCGCTTCCGC
CAAAAGTCAGCGGCCAAGGTGTTGGCATAGGCACTCTAGGGTTGCACACG
TGTTCAGATTCTATGGCGTAGTGGTTCACTTTGTCCACTGTGCGGTTGAC
GTTGCCAAAGACCCTTTTCGCCACGTTATGCAAATGACAAAAATCGAGAT
ATTTTACCCCGTGAAGCACTGGTAATATTAGATCTACCATTTGCTGATCG
AGATTTCGGCAAACTTCAAGATCTACTGGCGACGTCTGGCCACCCAGAGC
CTACTTTTAATATGTACCATTCTGTACCGGAATAAAGTTCACTTTTGGAT
AACAACGTGAATATCTTGGGGTAGGGTACGATTTTTTTGATACGGGTTTT
TGCACTGTGTTCACGGTGAGCTGGCCCTGAAAATTGTAAAACGAGTTTCC
GAATGACCAAATAAAACGTTTCGTATCCTATCACGAAGGAAGGTCACTCG
GAGATCTTCGGGCATTACCCACCGGTTGAGGCGGTTGAAACCCTTTGTTT
TTCTTCTTTTTTTTACATCGGATTTGGGACTCTCTCCCGGTTCCAAAAAG
CCATTAAAAAAAGTGGTCACGAAAAAACTGCAACCACCACCAGCTTTCTT
CAATTATCGATTTTTTTCGATTTTTTTTTGCTAGCGCGAGTTGTAGGCAG
CCAAGTGACTTTTTAGAGCGCGGGGAACGCCCGTGCTGTTCTCGCAATTG
CGCTCGTAAAAAAACAAAATCGAAAACAATTTTTTTTTTCATATCCAAAC
TTTGATTTTTTTTTCGAAAACAAAAATAATTTTTTCCTCTGCTCACTTTC
TACGTGACAAACAAGTGATTGGAAAATCTCTCATGTTCCCTAGTCGACGA
CGCCCGCCCACCCTCTGACGGGGGCGACACACAAGATCAAACAAACCTCA
CACGAATGATATCATACAGCTAACACAATACAGATTGCCTAACGTTCCTC
GATTCCAATTTTTAATTTTCATGTACCTGATATACAGCATGAATTACAAA
AAATAAAAAATGGAAGACTTTTTTGTCTTGTTGACCCACCCGTTTCTACA
CGTATGTATCATATCATACCCTATGCCTCCCTTTTCCCTCCTCGACCGTG
TGTCATTATTCTGTCTTTTTTTCGTCGAAGGTGAGCTCTTTCTTTGAAAC
CTTCCCGTACCGCCTGGACGAGAGCACGGGGCAGATCGACTACGACACCA
TGGCAGCCAACGCCAAGCTGTTCCGACCCAAGGTGGGAAAAAGGCGTATC
ATATCACACGATAGGTGTAACTTAAAAGCGTACTTCGTGAAAAGTTATCC
CGATCCATGGGCGATCCAACCTAAGTCAAGCCCATGTAATACGTGTACAC
CCTTCTACTTGTACACGGAGTACGAAGTACTTCGTATAGTACACTTTGCA
AGTACAGCAGCAGTATCGACTATTTTACGCCCGCACGAAAGGGATTCGCA
ACGCCAAACCGCACCTAGTACTCGCACAGAGCAAGAATTGACAGCTTTTT
ATCACGCCGACCGAACCAGGCGTAACTCTCTCCCTCCTCCTCCCCCTCCT
CCTCCTCTCCTCCTTTCCGCCTGCCGCTCCCTTTCCCGGCTCCTGTGAAT
TTGGCGAACTTGGTGAACTTGACGAACGCGAACTAAAAATAACAAATCCT
TGTAAAAAAAAAAAGCTTATCGTCGCCGGAGCTAGCGCGTACGCGCGCAA
CATCGACTACCCTCGCATGAGGCAGGTCGCTGATGACTCGGGCGCGTGGT
TGCTGGCAGACATGGCGCACATCAGCGGGCTGGTTTCGGCCGGCGTGGTT
CCCTCGCCGTTCCCGTACTCGGATATCGTCACCACTACCACTCACAAGAG
CCTGCGGGGCCCCCGGGGGGCTATGATCTTCTACCGAAAGGTTTGCTTAG
CTTTGAGGGGGGATGGATCGAATTATTCGCGATAATAGTTTTTTGTATCA
TATGACACCATTGGAGTGGGGTTTTGGGAGAGGGGTGTTTTTCTTTCGAT
TTTTTTTTATGTTTTTCTTTTTTTCTGTTTTCTGTTGCTGTTGTGAAAGT
CGTCATACCTCTCAAGCGGCACCTGTTCTGTAGTTTATTCTTGGGTTTTG
GCTGTCTTGGAACTTCAATTTGGGCCTTGGGAAAAATCGGGGGCGGAGAG
TCACCTTCCGTGTGTCAGTCCCTCGCGCATTCTTTGTTATGGTTTTGTGG
CGAAAAATAAAAAAACAATGCCAAATTGGTGAAGGTCACTTCAAACAGCG
CAGTTTTGACGCAGGTACTCTTTCCTCTTTTGTTTGATGTCTGTTTTTTG
TTTTTTGTTTTTCTTCTCTGGTGCAACTGTTAAATGCTCGCGACAGACAC
CGACACAAAAGAGGAAAGCACGCACACGTGGCACGTGCACGTGTCAAGGG
TATCTATCACACTCGACCTTTTTTCGGTTTCGTTTTTGTAGGCGCTCCAC
ACGCCGCTGATGCATCCACATTCCTCAGCCTCTTGAACTATCGTACCCCG
GCTAAATCGTCTCCGCACGGGGCCCATTTCAGACTCCAAACCAGCACTGT
ATTTTCCCTCCTCTTGACGTTTGCTTTGTTGTGTTTCTTCCTGGATCCGC
ACCACCCTGCCACGATTCTAGGGCCAGCGCGGCACCACGAAGAAGGGGCA
ACCGATCATGTACGACATCGAGAGCAAGATCAACTTCGCTGTATTCCCCG
GTGAGGTCAAAGGCAAAGGCCCAAGCTATGATACGACGGAGCTGTGTAAC
GAGCATGTCGTGGTCATCGAGCCTCGTCGTGTTGTTATATACGTTCATTT
TTGTTTTCGTCTGCGGTTGGGTTGAATACGGCGGTGTGCGGAAAAAGTTT
TCAAACGTGGCGTTTTCTTGCGTACGGAGTGCCACCAACGAGGCCTCGCT
TTCATGGCTAGCTCCCTGTTAATCCACACACGCACCACTTGAACCGCAAC
AACAATAGCAACAACGACGACGACGACGATGACGACGACGACGATAACAA
CAACAAATAACAGCAACACTGACAAGAGATAAATCAACATCAACATCAAC
ATCAGAATCGACTACAACGAAGAAAACAAGAACAACATAACAACACGCAA
TGAACGCTCCCACTTCATTCTAGGTGTCCCACTGCTGTTTTTTTTGTCAA
CCTATGTTTTTTTGTCACCCACAGGACTGCAGGGTGGCCCGCACAACCAC
ACCATCACGGCGCTCGCCACGGCACTCAAGCAGGCCAAGACACCGGAGTA
CGTCGCTTACCAAAAGCAGGTACTGTACAAGTACAAAGCAGCACGCAAAT
ATGAGAAAGTACCATGACGACAGAAACCAACTGTTGTTGTTGTTGTTGTT
GTTGTTGTTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTTGCTTTGGTG
AGGGTTTACTTCCGTAGATGAGCAGCCAGGGCGGGTGGGCGTCCATGTTG
TTGTCCTGACTAATCACAAAAACAGTGCGTGGCGATGTCGAGAAACAAAG
CTGACTGGATTTTGGCATCCTGGCCTTGTCCCCCCCCCCCCCCCCCAATA
CTATCACACCTTCTACCTGCTGCTGCCGCTGCTGTTACTCTGATTTGCAA
CCATGCTGTGTTCGTTTGCGCGAACTCATTTTCCACGAGTGCTTCGCTTT
ATTTCGTGTCCTTTTCTACCCTCTCGCCCCCACCGTCTTCCTCCCTGCAT
CTGCAGCATTCATTCATTCATTCATTCACTCATTCATTCATTCTCTCATT
CGGTGCCGTGTTTGTTTTGTGTGCGGTTGTTTGGGTAACGGAACAACAAA
AAAAAGGTCATCCTTAACTCTGCCGCCATGGCGAAGAAGCTCATGTCGGA
CGGTTACGAGCTGGTCAGCGGCGGCACCGACAACCACCTCGTGCTCGTCG
ACCTCAAGAAGTCGGCGGTGAGTGTGGGCGGGGGAGCTGTTTTTGGCGGG
CTTTGGTTGTGGAGGTGGTGACGGTGACGGATACGGTGGTGATTGCGGTT
TTCTGCCTCGAGGGGTGATGGCGTCCCCTTAAATGCATGCGTCGGTAGCA
GTGTGATCCTCTACGAAGGGGGCCAGGACCAGACCAACCCAGCTACCAGG
TAAGTTTGACCCATGATGAGCTAAAGAGCCAACAGAGGCATGAGGAAAAA
ACACTCCCTTCTCCGAGTGCCTCCTCTTTTATATGTGCCCCAATGTTCAA
AACCTTGACTTACTCTCAATGTGTTTTATGGTGAAGAGTAAGGAAATTTT
AGAGCAGTCGGTTTTGCGAACCATGGAACGTATATAACGACGTACACGTA
CACGTGATTGCCCATCATATCCTATCATATTTTTTACCATCAGACCGCTG
TTGCTGTGCAAGCGAGGCGGACAACGTGCCGTGATTCCAAAACGAAATTT
TCCGTTTGTCGAAAACACGAAAACACACACAAAAAACTATTTGAGGTGTG
GTAAAAGCCGCAGCTCAAATGACACTGCTGTTGATTGCGAGGTCGGCCGA
TGGCTCCGTCATCTTCGTGATTTTTGTTCGGTTCGACGTGGTGATGCGCT
TTTAATTCTTGCTTGAAGTGCGGTTGTTTGTTTTTCGCTGCTGTGTTTGT
GTGTGGGTGCGGGTGTATGTCTTGTGTGTGGGTGTGTTCTTTTTTATCGA
CAAGAACATCGACGGTGCGCGCGTGGAGCTGATGCTCGAGATCGTCAACA
TGGCCACCAACAAGAACACGGTGCCAGGGGACAAGAGCGCGCTGACCCCG
GGAGGAATCCGCATGGGTGCACCCGCTCTCACATCGCGCGGGTTTACTGG
TGAGGACGTGATTTCGTGCCGCTTGTGCGTTGCGAGCGCAGACTTGAGGC
CTGAAATGGTGACGTCGTACAGGCTGGTTCACGGAAGAAACCCAAAATGT
TGTCCCCAGACGATATTGAACGCAATAAATATCCGATGACGACATGTTTG
GTACCAAACTGACCGCCATCAACAGCAGAAGACGATGACATTCTTGGATT
TTCGTATAAAGCTTCAGTGGTGGCGCTAGGGGCGATAAAGTGTCCCGGCC
AATCACAGGGCTTCATATTGTTCCCGTATGATAAACGCCAAAAATATCCG
ATCACTACAAATATGGTACCAAACTGACCGCCTTCAATAGCACAAGACCG
TGATATTCTTAGATTTTTTATTAAGGCTCTAGTCGTAGCGCTAGGGGCAA
AAATGTGTCCCGACCAATGAATGGCGTGATATATCACCCCCCCGTCTGAA
ATGAAAATCAAGCTTTTCATACTAAAAGCTCTACCAGGTATATATTACTT
CCATATATATGTACTTCCATACTTTCGAAGTATATACTTTTTTTGAATGC
AGATGGTCTCAACGGGACGCAAGAAAGGTGTTGACAGTTTTTTTTTCTCA
AATCCACGAATTGACCTACATTTTGGCTAATTATAACTTTAGAAACCCGA
AAAGAGCCGATTTCGTGCTAAATTCAAGTAATGAAGGGTTTTATGTATGG
TACGTACAACTTACACAGGTGCAATTTCTCAGCGGTTTTTTGGAGTTGGA
GCCTAAAATTTTGCACACATGTACTATGGGTCACTACGCAACTCTGCATG
AGTGGGTATTTTTTTTATTGCTTTTTTTTCACCAGGTATCTGGGGTCCCA
GTCGACCCAAAACCGACCCAGGGAGACCCCAGATATCTGGCGAAAAACAA
AAAAAACAAAAAAACACCCACTCACACAGAGTTGCGCATTGACCCAATCT
ACACGTGTGCAAAATTACAGGGTCTAACTCGAAAAAACTGCGTGAGAAAT
CGCTGGGGACTAAATTTCTGGGTTCTTCCGTGAACCGGCCTGTAATTGTG
CATGATTAGATGCTGATGTTTTTCGACAAGATTTTTTGTGGTGTTTTTCG
TGGAGCGGAGGTAAAGTACCGTAGATCGGAGCGCGCACGCGAATGGGGGG
AGGGGCCGGTGGTGAGGCGAAGGATGACGATGTCAGATGATCGGAGGCGG
TTTCGGTTCACGTCCGCATTCTGAATGGCATATGCTACGTCACCACCACT
CTTCTGTTCTCGGAGTAAGCATACTGCGGCAGCATTTGACGATACCTTGG
TTGCACCTGCAAGTCTCTCGTTGCCCCCCCCCCCCCCTCCTCCTATTCTA
CTGTTCCGTCCCCCTCTTCGGGGAAGGAGTTAACAGAGAGAAAGCGAGGG
ATATTACGACTTTGTTACGGCCTTATTTTCTCTCGACCTTCAGACAATTC
TTGTTCTTCTTTTTTCGAGAAAAATGCCTCAACCAATACACACGTGTTTT
CTTGTTTTGCTTCTGATTCGATTTGTTTGCCCTCCCAAAAACACCCAAAA
AAAAAAGTATCCACGAAATACACACATGTGTACATATTTCTGTTTCACTT
GACTCTTGAAATACTTCGCCTATAAATCCATTTCATTGTGCCGCTGCTTG
TTCCTGATGTTCGATTGATTACCCACCCCCCTTGTATTCCGCCGCGCCGG
TCGGACAGAGGAGGATTTCGAGCAGGTGGCGGCGTTCTTCCACCGGGGTG
TTGCCCTCGCCAAGAAGGTGCGTCATTTTGCCAGGAAATAGGGTCCGTGA
CAACCGAACCTTAACCCTGCAATCCTATGGGAGCAGCGCAAAAGTCACCC
TCGTGTATTGGTTTGTTTTGTCTATGTGTCACATTCAATCAAGCTTGTCG
CCAAAATCCAGCCCTCCCTCCAAACAAGCTAGAAAAACGAACAGACCAGG
AATACGACCCACTTTGTCGACATGATCGTTGATTTATTCTACATACCCCA
ATCATATGAGGCAGGAAAAGCCTCGATTTTAGATTGGGGGGAATGAACAG
TGTGAGTTGAGTTGTTTGGATATTTGTGCCGTATCCTGCGCAGCCTTAAG
TATCCTTGCTTGGGACAGCGGTGCGAAAAAGACGTGAACGTTTGTCAGTA
CAGCAGTAGTACAGTGCAGATCTGGCCACTCATCTCTCGAGGGAGCCGCT
GCGTCACCTTCTCCATACTGGTGCGGTGAAGCGTGTCCCTTTCTCTGGGA
ACCGAACCAAAATCAGACCCTTCGGAAAGAGGGAAACGAAAGAGCCCGCC
AGTTATATACAGTATATCATTCCGTGCGCGAGGCAGGTAACCCCACGGAT
CAGACTTCCGTTCGAAAGGCGTAGAGGCATGGAAGTGAGGGATGCGGTGT
TGTTGGGGTTGAGACTGAGGTTGGCGTCGTCGTTGGGGAGGGAAGCGGGG
GATAGTTCCGCTTCTCTGCGCACAAAAAGGTGATGGGGTTCGACCCACGC
CACCGACCCGCATGAAACGTCCCCCCTCACCTTTCTGAATCTTTCGTCGT
TGTCCTCCCCGCCGCAGGTGGCCGCCGACACCGGTAAGATCAAGGCCTAC
CGCGAGGCCCTCGCCGACGGCGGCAGCAAGTACCCCGAGATCCAGCAGCT
CAAGGACGACGTCAACAGCTTTGCCCGCACGTTCCCGGTCATCGGGTTTG
ACCAGGAGACCATGCGCTACCCGGCTTAGAGAGATGAGGGAGAGGATAAG
CATGAATTCGTCGATTTCCCTTTCTTAGTTTTTTTTTTTTAGTTACAGGA
TACGCACAGCAGCAGTACGTACATCCCACCCACAAACGAATGAGGTAAGC
ATTTTACCGGTAATATTCCACACGGCAGCAGCAGTCTGCACCACTGTGCA
GCCAACGGGTTTCTTGCCGCCGTTGATGATGATTGGGGGGTGGGGCACAA
AGGAGGCGCCCGTTTTGGGGCGGAGAAGGAGTCATTTGCTGGGAGTTTTC
AGGTACACAAAGGGGCCGCAGCAGAATGAGTGAGTGGATGTTTCCTTGTC
CTTCGCGCCCCCGCATGTAGCCTCGCATATTCGTCAGGCTCATGTTCGTA
ACCGAAAACCTGAAACCTGGCACAGGTTGCGAAATTGTTGGCCGAAACAG
AGCGACTCGCACACTTCAACTAACTGTACATGAGACTACCGACCAGTATG
GAGAATTGCCGAGTTTCTTGTTGTCCAGGATTTTCAAGCTCGTGAATGGC
TTCTTCTATTGCCTTCAGTATAGTTGTTTTGCGCTGAGCCGGACAGACAC
GAGACGCATGGTATGATTGGAACGAATATTTTTGGTTTGCCTACACATGC
AGTCTGCTCCCTTGGGGTCTTCTTATACCTTAGTGTCCCGCGCGGGACGG
GGGTTTCGGGTCGGGGTTCGGGGGTACTCCAAGCAGTCCGGCTTGACCTG
TCCCCTGAAACAAATCAGAGATGGCGGGGGGGGACTTTGTCTTCATGATA
CTGCAAGAAGTTGAATTTGTCTTCCGCGACGAGTTGAATGTCAACAAGGA
CAACGTCGAGGCATACGAAGCACTTCGTGTACGTTCGACGGGGGTCCTTC
GTGACTGGTATGGCTGATATTTGTAAACGAATGTCGATGCCCCCCGCGCA
TTCGTTCGTGGTACTTCGGGTACGCTGTGATAGACCGGGAGGTGTGTCTC
ATTCATGGCCTCGCACGTACGTGCGTCTTGGGTGTGTGCGTGTGTGGGGA
GG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig62:381547..398398+ >mRNA_P-littoralis_Contig62.88.1 ID=mRNA_P-littoralis_Contig62.88.1|Name=mRNA_P-littoralis_Contig62.88.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1503bp|location=Sequence derived from alignment at P-littoralis_Contig62:381547..398398+ (Pylaiella littoralis U1_48)
ATGCTTCCCTCTGTGCTTCGTCGAAATATGCCCTCCGGCCTAGCAGCAGC
TGCGCCGCTGCGACGCAGGATCACGACCGAGACTCGATCGTGGGCCCTCG
CCATGAACAAGCCGCTCGAGGAGACAGACCCGGACCTGTTCGACATCATG
GAGCATGAGAAGGTTCGTCAGAGGGACAGTCTCGTCCTGATCGCGTCGGA
AAACTTCACCTCCAAGTCGGTGTACGACGCCCTCGGCTCCGTCATGTCGA
ACAAGTACAGCGAGGGGTACCCGGGAGCGCGGTACTACGGCGGGAACGAG
CAGATCGACAAGGTGGAGAGCCTGTGCCAAAAGCGGGCGTTGGAGGCGTT
CGACCTCGACCCGGAGCTGTGGGGCGTCAACGTGCAGACCCTCTCGGGAA
GCCCGGCTAACTTTCAGGCGTACACCGCAGTGCTACAGCCGCACGACCGC
ATCATGTCTCTCGACCTCCCCCACGGCGGCCACCTGTCGCACGGCTACCA
GACCGACACCAAGAAGATTTCCATGGTGAGCTCTTTCTTTGAAACCTTCC
CGTACCGCCTGGACGAGAGCACGGGGCAGATCGACTACGACACCATGGCA
GCCAACGCCAAGCTGTTCCGACCCAAGCTTATCGTCGCCGGAGCTAGCGC
GTACGCGCGCAACATCGACTACCCTCGCATGAGGCAGGTCGCTGATGACT
CGGGCGCGTGGTTGCTGGCAGACATGGCGCACATCAGCGGGCTGGTTTCG
GCCGGCGTGGTTCCCTCGCCGTTCCCGTACTCGGATATCGTCACCACTAC
CACTCACAAGAGCCTGCGGGGCCCCCGGGGGGCTATGATCTTCTACCGAA
AGGGCCAGCGCGGCACCACGAAGAAGGGGCAACCGATCATGTACGACATC
GAGAGCAAGATCAACTTCGCTGTATTCCCCGGACTGCAGGGTGGCCCGCA
CAACCACACCATCACGGCGCTCGCCACGGCACTCAAGCAGGCCAAGACAC
CGGAGTACGTCGCTTACCAAAAGCAGGTCATCCTTAACTCTGCCGCCATG
GCGAAGAAGCTCATGTCGGACGGTTACGAGCTGGTCAGCGGCGGCACCGA
CAACCACCTCGTGCTCGTCGACCTCAAGAAGTCGGCGAACATCGACGGTG
CGCGCGTGGAGCTGATGCTCGAGATCGTCAACATGGCCACCAACAAGAAC
ACGGTGCCAGGGGACAAGAGCGCGCTGACCCCGGGAGGAATCCGCATGGG
TGCACCCGCTCTCACATCGCGCGGGTTTACTGAGGAGGATTTCGAGCAGG
TGGCGGCGTTCTTCCACCGGGGTGTTGCCCTCGCCAAGAAGGTGGCCGCC
GACACCGGTAAGATCAAGGCCTACCGCGAGGCCCTCGCCGACGGCGGCAG
CAAGTACCCCGAGATCCAGCAGCTCAAGGACGACGTCAACAGCTTTGCCC
GCACGTTCCCGGTCATCGGGTTTGACCAGGAGACCATGCGCTACCCGGCT
TAG back to top
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