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Homology
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: D7FXV4_ECTSI (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase, family GT13 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FXV4_ECTSI) HSP 1 Score: 549 bits (1414), Expect = 5.000e-178 Identity = 304/483 (62.94%), Postives = 340/483 (70.39%), Query Frame = 3
Query: 588 KNKDRNRGK----RPKKRFQRAPNAKILE---------RGGWKGGGGEGIDTDVGDSSWGNEVTTGAPSSNAVGYAAAAALSVGDEFLTRAVIVDADKSDGDVLRGASGQQQXXXAAAKPQSGQLQDLAELHEDILDQEGSEEWTTVQTTPMLGADAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPIW 1997
KN DRN + + KK+F R A I RGGW GG G GID VGD SWG E++T D R VI++AD+ DG GQ A+ + GQL LA+ E V TPMLG DA +LIICANRPEYL+R L+AVAEYHPGSSRG ++IPVVISQDGSS VE+VIS+FK SMAGRAHV HI HTP PRE+RPYFKLSAHY+WALSQVFDEL Y SA+ DK IILEEDLEIAPDFFEYFSA APLLDSDETLMAVSAWNDNGQA HVK+N ALFRSDFFPGLGWMLPRR+WDELA +WPEAYWDDWLR+P RRK RQFIRPEVCRTYHFGQK GAS NQF+ L++IRLN AVPFREMD+SYL PD FR WL LR A E++ NV AGR+ S VVVEYGSEREF +A +L IM DTKA +PRTAY GVV +W
Sbjct: 54 KNDDRNGSREEHAKAKKKFHRFEQADISSEDSIRNNYIRGGWMGGLGLGIDAYVGDGSWGAELSTDPAGGE------------DDVSRRRPVIINADE-DGT----GDGQ-------ARWEPGQLSRLAQRQXXXXXXXXXXEGG-VARTPMLGPDAVVLIICANRPEYLERTLNAVAEYHPGSSRGASFAIPVVISQDGSSSAVEEVISRFKTSMAGRAHVTHIHHTPAPRESRPYFKLSAHYEWALSQVFDELFQTGYSSAAVDKAIILEEDLEIAPDFFEYFSAMAPLLDSDETLMAVSAWNDNGQAAHVKDNRALFRSDFFPGLGWMLPRRVWDELAADWPEAYWDDWLRDPRRRKGRQFIRPEVCRTYHFGQKAGASRNQFSQLLNNIRLNEEAVPFREMDVSYLMPDAFRSWLDGELRSARAETVANVKAGRASSSEVVVEYGSEREFMSIARQLSIMDDTKAQVPRTAYMGVVFLW 511
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A6H5L776_9PHAE (GT13 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L776_9PHAE) HSP 1 Score: 473 bits (1217), Expect = 1.890e-149 Identity = 282/540 (52.22%), Postives = 317/540 (58.70%), Query Frame = 3
Query: 678 GGGGEGIDTDVGDSSWGNEVTTGAPSSNAVGYAAAAALSVGDEFLTRAVIVDADKSDGDVLRGASGQQQXXXAAAKPQSGQLQDLAELHEDILDQEGSEEWTTVQTTPMLGADAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATESIENVTAGRS--------------------------------------------------------------HSPT------------------------VVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPIWVGDTKVFLAPKGGV 2039
GG G GI+ VGD SW E++ A G D+ R VI++AD+ G GQ + + GQL LA+ E + TPMLG DA LL+ICANRPEYL+R L AVAEYHPGSSRG ++IPVVISQDG S VE+VIS+FK SMAGRAHV HI HTP RE RPYFKLSAHY+WALSQVFDEL Y SA+ DK IILEEDLEIAPDFFEYFSA APLLDSDETLMAVSAWNDNGQA H +N+ALFRSDFFPGLGWMLPRR+WDELA +WPEAYWDDWLR+P RRK RQFIRPEVCRT+HFGQK VPFREMD+SYL PD FR WL LRDA TE++ NV AGR+ SPT VVVEYGSEREF LA +LGIM D KA +PRTAY GVV +WVG+TKV+LAP+ V
Sbjct: 2 GGLGLGIEAYVGDGSWDAELSA----DRAGGE---------DDVRRRPVIINADEEGG-----GDGQ-------VRWEPGQLSRLAQRQXXXXXXXXXXE-RGMARTPMLGPDAVLLVICANRPEYLERTLKAVAEYHPGSSRGASFAIPVVISQDGPSSAVEEVISRFKTSMAGRAHVTHIHHTPVGRENRPYFKLSAHYEWALSQVFDELFQTGYSSAAVDKVIILEEDLEIAPDFFEYFSAMAPLLDSDETLMAVSAWNDNGQAAH--DNKALFRSDFFPGLGWMLPRRVWDELAADWPEAYWDDWLRDPRRRKGRQFIRPEVCRTFHFGQK---------------------VPFREMDVSYLMPDAFRSWLDGELRDARTETVANVKAGRALSSVSSNKVPEVVVEYGSEREFASLARQLGIMDXSSLDEQELVVEITISAIILRRRFLRVNQESPTNPGFHKRGRRACPSLFLFFLDEQEVVVEYGSEREFASLARQLGIMDDMKAQVPRTAYMGVVFLWVGETKVYLAPREAV 492
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: Q8L5D3_PHYPA (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase n=4 Tax=Physcomitrium patens TaxID=3218 RepID=Q8L5D3_PHYPA) HSP 1 Score: 303 bits (775), Expect = 2.990e-87 Identity = 161/367 (43.87%), Postives = 224/367 (61.04%), Query Frame = 3
Query: 939 LHEDILDQEGSEEWTTVQTTPMLGADAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPP----PRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAAT-ESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPI-WVGDTKVFL 2021
L ++ D + E+ + + LG AA++I+ NRP+YL+R L +V +YH + P+ +SQDGS+Q V D F + H+ PP P E Y+K+++HYKWAL+Q+F++ D + +IL +D+EI+PDFF YF ATAPLLD+D+TL+A+S+WNDNGQ V + E L+RSDFFPGLGWML + W+ELAP+WP AYWDDWLR E RK RQ IRPEVCRTY+FG++G + + L SI+LN + V +R DL+YL+ F S++ AA + + +T + V+Y S EF+ LA GI +DTK IPRTAY GV+ W G +VFL
Sbjct: 108 LGTELEDFQNKEQLAKISGSSKLGPVAAVVIMACNRPDYLERTLKSVTKYH----KDVAEKFPLFVSQDGSNQDVMDTARSFSSVN----FLQHLDENPPKTRNPGEIIAYYKIASHYKWALTQLFNKRDFR--------RVVILGDDMEISPDFFSYFEATAPLLDTDKTLLAISSWNDNGQEKFVSDPEQLYRSDFFPGLGWMLTKSTWEELAPKWPNAYWDDWLRLKENRKGRQVIRPEVCRTYNFGEQGSSLGQFYEQYLKSIKLNNVNVDWRSKDLNYLKKGQFNPIFNSLVSKAAIIPASQALTEANYGEGDIRVQYYSLVEFKYLAHEFGIFEDTKDGIPRTAYNGVIVFRWKGQKRVFL 458
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A482SQF6_9ARCH (Uncharacterized protein n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SQF6_9ARCH) HSP 1 Score: 293 bits (749), Expect = 1.740e-84 Identity = 158/354 (44.63%), Postives = 221/354 (62.43%), Query Frame = 3
Query: 1005 LGADAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAH--VIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPD-TFRDWLGSVLRDA-----ATESIENVTAGRSHSPTVVVEYGSE-----REFERLAGRLGIMKDTKAAIPRTAYAGVVPIWVGDTKVFLAP 2027
LG ALLI+ +NRP+YL + L + +YHP ++ +P+ ISQDG++ V D + F A ++ V H+ H YF L+ HYKWAL+ VF + S IILEEDL+IAPDFFE+F+AT P+ DSD +L+AVSAWNDNG V++ + L+RSDFFPGLGWML RR+W+EL P+WP+AYWDDWLREP +R+ RQFIRPEVCRT H+G +G SN Q+++ L++I+LN+ V F ++DLSYL + + + +R A A ++++ + ++ V + Y S+ F +A RLG M + KA +PRTAY G+V W KV L P
Sbjct: 71 LGLSTALLIMASNRPDYLSKCLSFILQYHPNTA------VPITISQDGANHAVNDAVDGFSRQFALKSTLPVKHLHHPRLGHYENGYFALADHYKWALNNVFAD--------TSISHVIILEEDLQIAPDFFEFFAATQPIYDSDPSLLAVSAWNDNGFNYAVQDTKQLYRSDFFPGLGWMLSRRIWEELGPKWPKAYWDDWLREPAQRQSRQFIRPEVCRTLHYGARG-VSNAQYSEFLTTIKLNSEYVHFTQLDLSYLSSQGKWEEVYFTAIRSAKQFKSARTFLDSIA--QLNTKEVKILYTSQDGNEDTSFVSMAQRLGAMDNIKAHVPRTAYKGIVSFWYKGVKVHLVP 407
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: D8S8W9_SELML (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase n=3 Tax=Selaginella moellendorffii TaxID=88036 RepID=D8S8W9_SELML) HSP 1 Score: 287 bits (735), Expect = 2.540e-82 Identity = 151/340 (44.41%), Postives = 207/340 (60.88%), Query Frame = 3
Query: 1017 AALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIR----HTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPI-WVGDTKVFL 2021
AA++++ NR +YL R + ++ +YH S P+ ISQDG+ QQV F ++ H+ HT P E Y+K++ HYKWALSQ+FD S + IILE+D+E+APDFF+YF ATA LLD D +L+AVS+WNDNGQ V++ EAL+RSDFFPGLGWML + LW ELAP+WP+AYWDDWLR E RK RQFIRPEVCRTY+FG+ G + F L +I+LN + V ++E DL+YL + ++ ++ A + V +EY S+R FE +A + GI ++ K +PRTAY GVV W +F+
Sbjct: 96 AAVVVMACNRADYLDRTVQSILKYHNSVSA----KFPLFISQDGTDQQVRLKARSFPQF----TYMQHLDDEPIHTQSPGEIIAYYKIARHYKWALSQLFDR--------HSFSRVIILEDDMELAPDFFDYFEATASLLDKDSSLIAVSSWNDNGQRQFVQDPEALYRSDFFPGLGWMLKKSLWTELAPKWPKAYWDDWLRLNETRKGRQFIRPEVCRTYNFGEHGSSFGQFFRQYLETIKLNDVQVNWKEEDLTYLMDENYKKHFAELVSKAVPVPALEAAKAYNIDGDVRIEYDSQRTFEAIARQFGIFQEWKDGVPRTAYKGVVVFRWQTSRYIFV 419
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A6P5GZV5_ANACO (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase n=3 Tax=Ananas comosus TaxID=4615 RepID=A0A6P5GZV5_ANACO) HSP 1 Score: 286 bits (731), Expect = 1.500e-81 Identity = 145/345 (42.03%), Postives = 212/345 (61.45%), Query Frame = 3
Query: 1017 AALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAA-TESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPIWVGDT--KVFLAPKGGVR 2042
AA++I+ NRP+YL+R +D++ +YH S P+ +SQDG++ V+ + + + HT P E Y+K++ HYKWAL ++F + + + + IILE+D+EIAPDFF+YF AT+ LLD+D+T+MAVS+WNDNGQ V + E L+RSDFFPGLGWML + W+EL+P+WP+AYWDDW+R E K+RQFIRPE+CRTY+FG+ G + F L I+LN + V ++ D+SYL D + ++ DA + V + V ++Y +R+FERLA + GI ++ K IPRTAY GVV T ++FL +R
Sbjct: 110 AAVVIMACNRPDYLQRTVDSILKYHSSVSS----KFPLFVSQDGTNPDVKSKALSYSQITYMQHVDLEPVHTERPGELIAYYKIARHYKWALDELFTKHNFN--------RVIILEDDMEIAPDFFDYFEATSTLLDNDKTIMAVSSWNDNGQVQFVHDPETLYRSDFFPGLGWMLTKSTWEELSPKWPKAYWDDWVRLKEVHKDRQFIRPEICRTYNFGEHGSSMGQFFKQYLEPIKLNDVHVDWKSADVSYLREDKYLVLFRKIVSDAKPVHGPDAVPTAHNLDVDVRIQYSDQRDFERLARQFGIFEEWKDGIPRTAYKGVVVFRYNRTQRRIFLVGPDSLR 442
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A7S3XJB6_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XJB6_HETAK) HSP 1 Score: 280 bits (716), Expect = 5.500e-81 Identity = 150/346 (43.35%), Postives = 203/346 (58.67%), Query Frame = 3
Query: 1014 DAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPPPRETR--------PYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRR-LWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPIWVGDTKVFLA 2024
D LL+IC +R +YL+R L AV YHPG ++P++ISQDG+ +V V+ F+ A + + H P+E Y KL+ H+ WA +++++ L + + I+LEEDLE+APDFFE F A APLLD+D TL+A SAWNDNGQ HV AL RSDFFPGLGWM L DEL P+WP+ YWDDWLREP +R+ R +RPE+CRT+HFG KG SN Q+ D L+ I+LN V F +DL YL + + + R A E V + V V++ ++F R A LGIM + KA +PRTAY +V W KV+++
Sbjct: 1 DTTLLVICHDRADYLERTLGAVLRYHPGED-----TVPIIISQDGNDAKVVGVVDAFRAQFAAKHPRVRFHHIHRPQEGNLRGGGRQDGYQKLAQHFGWAFRRLWEDPAL----TPGAARVIVLEEDLEVAPDFFELFGALAPLLDTDPTLLAASAWNDNGQRGHVAEPAALLRSDFFPGLGWMATAAVLRDELLPKWPKGYWDDWLREPAQRRGRHTLRPEICRTFHFGIKG-TSNMQYGDYLTQIKLNDEFVAFGALDLGYLGAERWAREYPAAARAAREVRTEEVKRNQISKGPVRVKFNGIQDFARKAKMLGIMDNEKAGVPRTAYKNIVEFWHNGIKVYVS 336
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: UPI000E700E10 (alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase-like isoform X1 n=3 Tax=Papaver somniferum TaxID=3469 RepID=UPI000E700E10) HSP 1 Score: 284 bits (726), Expect = 6.160e-81 Identity = 151/355 (42.54%), Postives = 216/355 (60.85%), Query Frame = 3
Query: 957 DQEGSEEWTTVQTTPMLGAD----------AALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAA-TESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVV 1988
DQE + VQ GAD AA++I+ NRP+YL+R +++V +Y + P+ +SQDG ++ V+ +K + HT P E Y+K+++HYKWAL Q+F++ + Y + IILE+D+EIAPDFFEYF A A LLDSD+T+MAVS+WNDNGQ +V + + L+RSDFFPGLGWML + WDEL+P+WP+AYWDDWLR E K RQFIRPEVCRTY+FG+ G + F L I+LN + V ++ MDL+YL+ D + + +++ +A + + V + V V Y + +FER+A + GI ++ K +PR AY GVV
Sbjct: 76 DQECGQLRALVQDLEKRGADRLINKLQVPVAAVVIMACNRPDYLERTIESVLKYQ----QSVASKFPLFVSQDGPNENVKSKALSYKQLSYMQHLDFEEVHTERPGEIIAYYKIASHYKWALDQLFNKHNF--Y------RVIILEDDMEIAPDFFEYFEAAAALLDSDKTIMAVSSWNDNGQKQYVHDPKILYRSDFFPGLGWMLTKSTWDELSPKWPKAYWDDWLRLQENHKGRQFIRPEVCRTYNFGEHGSSMGQFFKQYLEPIKLNDVHVDWKSMDLTYLKEDNYVRYFANLVSNAKPVQGADAVLKAYNIDGDVRVHYKDQPDFERIARQFGIFEEWKDGVPRAAYKGVV 418
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A7S4EHE9_9STRA (Hypothetical protein n=1 Tax=Pseudo-nitzschia australis TaxID=44445 RepID=A0A7S4EHE9_9STRA) HSP 1 Score: 284 bits (727), Expect = 1.200e-80 Identity = 166/372 (44.62%), Postives = 220/372 (59.14%), Query Frame = 3
Query: 966 GSEEWTTVQTTPMLGADAALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRA-HVIHIRHTPPP-----RETRPYFKLSAHYKWALSQVFDELDLDSYDSASKD-----KTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEA--LFRSDFFPGLGWMLPRRLW-DELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVVPIWVGDTKVFLAPKGGV 2039
GS+E T + G ++ LLII NRPEYL R L V E P + G+ PVV+S+DG+ + + ++ FK + +IHI H + Y +L+ H WALSQVFD L S DS K + ++LEED+E+APDFF Y +T+ LLD+D TL AVSA+NDNG H++N + L RSDFFPGLGWM+ R LW +EL +WP YWDDWLR+P++RK RQ IRPEV RTYHFG GGAS NQF L +RLN A+ + DLSYLE + + ++ + + V +EY + +F RLA LGIM D KA++PRTAY GVV +G T++FL P GG+
Sbjct: 115 GSQE-ITPNSNANNGYESPLLIITYNRPEYLSRTLAHVLETIP---QPCGFGCPVVVSEDGNLESNKKLLLSFKQKFEAKGIPLIHIHHENKKIGLKGGKVNAYVELAKHIGWALSQVFDGT-LVSLDSQQKQHPLPQRLMLLEEDIEVAPDFFSYMESTSTLLDNDPTLFAVSAFNDNG---HLENGDPKRLLRSDFFPGLGWMMTRNLWKNELQSKWPNGYWDDWLRDPKQRKNRQVIRPEVSRTYHFGTNGGASKNQFGSILERVRLNEQAIRWDLEDLSYLENSKYENQYTKLVTSSKLVNTIAEANRELAEYNVRIEYDNLSDFTRLADSLGIMNDEKASVPRTAYRGVVEARLGSTRLFLTPMGGI 478
BLAST of mRNA_P-littoralis_Contig127.88.1 vs. uniprot
Match: A0A6J0PQM8_ELAGV (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase n=9 Tax=Arecaceae TaxID=4710 RepID=A0A6J0PQM8_ELAGV) HSP 1 Score: 279 bits (714), Expect = 6.030e-80 Identity = 146/330 (44.24%), Postives = 206/330 (62.42%), Query Frame = 3
Query: 1017 AALLIICANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFKDSMAGRAHVIHIR----HTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSASKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHVKNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQFIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPDTFRDWLGSVLRDAATE--SIENVTAGRSHSPTVVVEYGSEREFERLAGRLGIMKDTKAAIPRTAYAGVV 1988
AA++I+ NRP+YL+R + +V +Y + P+ +SQDG++ V++V FK ++ H+ HT P E Y+K++ HYKWAL ++F + + + + IILE+D+EIAPDFF YF ATA +LDSD+T+MAVS+WNDNGQ V + + L+RSDFFPGLGWML + +WDEL+P+WP+AYWDDW+R E ERQFIRPEVCRTY+FG+ G + F L I+LN + V +R MDLSYL D F ++ DA + V + V ++Y + +FE++A GI ++ K IPRTAY GVV
Sbjct: 56 AAVVIMACNRPDYLQRTVQSVLKYQTSVAS----KFPLFVSQDGTNPDVKNVALSFKQI----TYLQHLDFTPVHTERPGELIAYYKIARHYKWALDELFIKHNFN--------RVIILEDDMEIAPDFFNYFEATASILDSDKTIMAVSSWNDNGQVQFVHDPKTLYRSDFFPGLGWMLSKSIWDELSPKWPKAYWDDWIRLKEIHGERQFIRPEVCRTYNFGEHGSSMGQFFKQYLEPIKLNDVHVDWRTMDLSYLTEDKFVRHFAKLVADAKPVHGGPDAVLKAHNIDGDVRIQYRDQADFEQIARGFGIFEEWKDGIPRTAYKGVV 369
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D7FXV4 |
| Preferred name | MGAT1 |
| PFAMs | GNT-I |
| Model size | 4335 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K00726 |
| KEGG Reaction | R05983 |
| KEGG Pathway | ko00510,ko00513,ko01100,map00510,map00513,map01100 |
| Hectar predicted targeting category | signal anchor |
| GOs | GO:0000139,GO:0001701,GO:0002252,GO:0002376,GO:0003002,GO:0003674,GO:0003824,GO:0003827,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005794,GO:0005795,GO:0005797,GO:0005975,GO:0006040,GO:0006047,GO:0006049,GO:0006139,GO:0006464,GO:0006486,GO:0006487,GO:0006725,GO:0006793,GO:0006807,GO:0007275,GO:0007389,GO:0007399,GO:0007417,GO:0007420,GO:0007568,GO:0007610,GO:0007626,GO:0008150,GO:0008152,GO:0008194,GO:0008340,GO:0008344,GO:0008375,GO:0009056,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009225,GO:0009227,GO:0009790,GO:0009792,GO:0009987,GO:0010259,GO:0012505,GO:0016020,GO:0016021,GO:0016319,GO:0016740,GO:0016757,GO:0016758,GO:0018193,GO:0018196,GO:0018279,GO:0019439,GO:0019538,GO:0030534,GO:0031090,GO:0031224,GO:0031984,GO:0031985,GO:0032501,GO:0032502,GO:0034641,GO:0034645,GO:0034655,GO:0034656,GO:0035010,GO:0035282,GO:0035283,GO:0035284,GO:0036211,GO:0043009,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043413,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044260,GO:0044267,GO:0044270,GO:0044281,GO:0044282,GO:0044422,GO:0044424,GO:0044425,GO:0044431,GO:0044444,GO:0044446,GO:0044464,GO:0046348,GO:0046483,GO:0046700,GO:0048471,GO:0048513,GO:0048731,GO:0048856,GO:0055086,GO:0060322,GO:0070085,GO:0071704,GO:0098588,GO:0098791,GO:0140096,GO:0140103,GO:1901135,GO:1901136,GO:1901137,GO:1901360,GO:1901361,GO:1901564,GO:1901566,GO:1901575,GO:1901576 |
| Exons | 14 |
| Evalue | 1.99e-188 |
| EggNOG OGs | KOG1413@1|root,KOG1413@2759|Eukaryota |
| Ec32 ortholog description | Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase, family GT13 |
| Ec32 ortholog | Ec-23_001370.1 |
| EC | 2.4.1.101 |
| Description | alpha-1,3-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity |
| Cds size | 1944 |
| COG category | S |
| CAZy | GT13 |
| BRITE | ko00000,ko00001,ko01000,ko01003 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789564.0366404-UTR-P-littoralis_Contig127:384142..384279 | 1680789564.0366404-UTR-P-littoralis_Contig127:384142..384279 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig127 384143..384279 + |
| 1680789564.2018206-UTR-P-littoralis_Contig127:407759..410013 | 1680789564.2018206-UTR-P-littoralis_Contig127:407759..410013 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig127 407760..410013 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789564.0518985-CDS-P-littoralis_Contig127:384279..384402 | 1680789564.0518985-CDS-P-littoralis_Contig127:384279..384402 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 384280..384402 + |
| 1680789564.0621073-CDS-P-littoralis_Contig127:395949..396057 | 1680789564.0621073-CDS-P-littoralis_Contig127:395949..396057 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 395950..396057 + |
| 1680789564.073189-CDS-P-littoralis_Contig127:396811..396869 | 1680789564.073189-CDS-P-littoralis_Contig127:396811..396869 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 396812..396869 + |
| 1680789564.0828009-CDS-P-littoralis_Contig127:397874..398085 | 1680789564.0828009-CDS-P-littoralis_Contig127:397874..398085 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 397875..398085 + |
| 1680789564.0925899-CDS-P-littoralis_Contig127:398564..398661 | 1680789564.0925899-CDS-P-littoralis_Contig127:398564..398661 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 398565..398661 + |
| 1680789564.1063309-CDS-P-littoralis_Contig127:400163..400474 | 1680789564.1063309-CDS-P-littoralis_Contig127:400163..400474 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 400164..400474 + |
| 1680789564.1189582-CDS-P-littoralis_Contig127:400967..401109 | 1680789564.1189582-CDS-P-littoralis_Contig127:400967..401109 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 400968..401109 + |
| 1680789564.1302366-CDS-P-littoralis_Contig127:401923..402034 | 1680789564.1302366-CDS-P-littoralis_Contig127:401923..402034 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 401924..402034 + |
| 1680789564.138777-CDS-P-littoralis_Contig127:402560..402642 | 1680789564.138777-CDS-P-littoralis_Contig127:402560..402642 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 402561..402642 + |
| 1680789564.147739-CDS-P-littoralis_Contig127:404433..404543 | 1680789564.147739-CDS-P-littoralis_Contig127:404433..404543 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 404434..404543 + |
| 1680789564.1565855-CDS-P-littoralis_Contig127:405164..405356 | 1680789564.1565855-CDS-P-littoralis_Contig127:405164..405356 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 405165..405356 + |
| 1680789564.166983-CDS-P-littoralis_Contig127:406368..406431 | 1680789564.166983-CDS-P-littoralis_Contig127:406368..406431 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 406369..406431 + |
| 1680789564.1764119-CDS-P-littoralis_Contig127:406752..406881 | 1680789564.1764119-CDS-P-littoralis_Contig127:406752..406881 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 406753..406881 + |
| 1680789564.1896377-CDS-P-littoralis_Contig127:407552..407759 | 1680789564.1896377-CDS-P-littoralis_Contig127:407552..407759 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig127 407553..407759 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig127.88.1 >prot_P-littoralis_Contig127.88.1 ID=prot_P-littoralis_Contig127.88.1|Name=mRNA_P-littoralis_Contig127.88.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=648bp
MIQRADSKRSGAGNTSISHGPAAGNGTRHRRLTSSRFKHARANGTFLRRL
MSFVGLGSMGLVAMIMVYTVSRLDARRRSAFSVGFSYKEGGLRGDKGAAA
DQWQQLQKPLPQPFPAPPPPPPPAPLPLEEDGGAVDANGPVVAVEDYDGE
KNKDRNRGKRPKKRFQRAPNAKILERGGWKGGGGEGIDTDVGDSSWGNEV
TTGAPSSNAVGYAAAAALSVGDEFLTRAVIVDADKSDGDVLRGASGQQQQ
QQAAAKPQSGQLQDLAELHEDILDQEGSEEWTTVQTTPMLGADAALLIIC
ANRPEYLKRALDAVAEYHPGSSRGTGYSIPVVISQDGSSQQVEDVISQFK
DSMAGRAHVIHIRHTPPPRETRPYFKLSAHYKWALSQVFDELDLDSYDSA
SKDKTIILEEDLEIAPDFFEYFSATAPLLDSDETLMAVSAWNDNGQADHV
KNNEALFRSDFFPGLGWMLPRRLWDELAPEWPEAYWDDWLREPERRKERQ
FIRPEVCRTYHFGQKGGASNNQFADPLSSIRLNTIAVPFREMDLSYLEPD
TFRDWLGSVLRDAATESIENVTAGRSHSPTVVVEYGSEREFERLAGRLGI
MKDTKAAIPRTAYAGVVPIWVGDTKVFLAPKGGVRTADDPRNPLSHK* back to topmRNA from alignment at P-littoralis_Contig127:384143..410013+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig127.88.1 ID=mRNA_P-littoralis_Contig127.88.1|Name=mRNA_P-littoralis_Contig127.88.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=25871bp|location=Sequence derived from alignment at P-littoralis_Contig127:384143..410013+ (Pylaiella littoralis U1_48)
AAAGGGACATACACTTACACAGGAGTCTCCGAGCCTCGGGGAGAAACATC
AGGGAAGTGTCCACTTCGCCGCGAGGCTGGAGGGGGGGGGAAGGAGTGCG
TTTAGCTGCTATCTTTGCCGAAGGCAGGCAAAGCACGATGATTCAGAGAG
CGGACAGCAAGCGATCAGGGGCCGGGAACACGTCTATTTCTCACGGTCCT
GCCGCTGGGAACGGAACCAGACATCGTAGGCTCACATCCTCGAGGTTTAA
GCACGCCAGGGTGAGTGAATGACTTACAGCCTGTGCAGTATGACTGCTGT
GCAAGTGTTACTGGGCGTGTGCGTGCGCATGGGTATTTGCGTGTACGTGA
GGACGGGTGAGGCAGAGGGGGAAAGCGGCGACAGGGCAGAACACGACAGC
AGCAAGTAAACGGGGCCGAACCCGAGCTGAAAAAGAAGCAGCAGGCAGAA
AAATGACCTAGTTTCCAAAAATATAAAAATATACGAAGCACGTCGCTAGT
ATACTTCTATATGATATGCATAATATTATACTCCGTATGATACAAATATT
CAATTGCAAATATTCAAATGTTGTTCGTATGTTCGCCATCTGGCCCCCGG
GGGGTAAATGAAGACAGAGGAGGGCAGAGGCGACCAGAGGCAGCTCTCGG
CAGAGAAGTCTACCACGTTTGAGGCACGACCCCCTCCCCCATCTATCACG
CACGGGCTTACCTGGTCCTTGGTGCGAACACAATAAGTGGTACACTATCG
TTGATATGTATCGAAGCTCAACAGCAAGGATCTGAAAAGTTCACCGCTAT
TTGTCTACCTGATACCTGGTATACTGCTGTAAAAGGAAAAAAAAAAGGTG
CAGCTCCGGTTGTCTGTTGAAAGTTGAAACATTTTGAAAATAGATAGCAA
GATGCTGTACGAGAAGACACATAACACATAACTTTCGTGGTAATTGTTGA
AGGATCGTTCCGGTGGGTTGGTAGGTTGCGTTCAGCCGCAGACAGATGAC
AAATGACCCAACCCAGTGATGCTGTGCTCAAACCAAACCTCCCGCCGACA
CCCGCTCTGATACAAAAGCGTTGTGCTTTTTGCTGCATATGCACATGTGC
ATGCATGCGCAAACGGGGATGGCGGTGCGCTTTCGACGACAAGAGCTGGG
GGCATACTAAAAACCAGCTGCTAAAAACGGGGCGACTGCTCTTGTACTGC
TGTACATTCTATTCTTGTTGTGCTGTCTGTCTGCTGTACATAGACTCGAT
AGACTCGATCGATAGCCCATCCGGTATTACTATTGCTGTTGTAGCTGCTG
TACTGCTGTATTTCTTTCCGCACTCCTGCTCGTGGATATCGATATACCCG
GTACATACGAAGTACTTGTATATCATATCATATCACATGATGTTATATTA
TTATATGGCCTTATTAGGCTGGGTCTTAACCGGAAAATCAAAATCGAAGT
TAGAAATCAAAGTTCATATTAGAGCTGGAAGATCCAACCCAATTGTGGTT
TTGATTCGAAGGTGTCTTAACCAAAATTGCCGACATCGAAATCAGAATTG
AATAACGGAGCATCCTCGGGACTTGAACAGCCCTTTGGTCCCTACAAACA
AAAGCTGTGGACGTGGCGATAGCAACACCAAGAGCAATCCGATCGCATAT
ATATGCGCGGCAGCATGGATGGTGTGTGTGCATGCATGCTGGTGAAAAGT
GGCTTGCACGGAAGACCAGCTTGGAGAGCCAACGACTAGGTTCCCTCCTC
CTTGTGTCGCGAAAATTCGCAACCCCATCCATGCATCTCACACCTCGTCT
CACACCTGACCCCTTGCTGCTGCTGCTGCTGTTGTTGGTCCTGCAGAGCA
TACTGATACACATGTGTGTTCGCACGTACGCGTTGCTCCGCTCCGATACA
AACAGTATCTGTGAGACAGCAGAAGAACCTGCCTAAGACCATCGAGTAGA
CCAGAAATGAGCAATATCTCAATTTTATGTGTTAGGCTCTTTCCAATCAC
CTCGCGAAGTTACAACGTTTGTTGTAATTTTACAACAAACGTTGTAATGT
CGGACAATATGGAGGCTTTCTTACAACGATCGTGGGAATTGAACGCCGCC
AAAAAATCGTGGGAAATTCAATTACAACAATCGTGTTTTTTTTTTCAAAC
ATACCTATTACACACCTACCTCGCCCATCAGCAGCAACAGCGGAGTAGAC
AGCAAAAGAAAGATCAGGGCACCAAAGACAAACACTATGGCAAGCAAATC
CACCCCTGGTCTGCGCATTCCAGCAGGTGTGGCGATACGTGTGGTGAAAA
TATACAGCAGCAGCGACCACATGAATCGGAATCCTTTATTTCGCCGCTTG
TCTGCCTCTTTTTTCTTGCTTCACCAACCTACACCCTCTTCTGGCAACTC
TTTTTAAGCCAGCGACCGAGCCGTGACAACCTTGTAGCGGGAGCGCTGTC
GAGGGCCACTATCACGTAGACCTCTGCTTCGAAAGAATCGGGACTTCGGG
GGCTTTGTAGCTCGGATGCTGTCTGATGCGGTGAATTATTGTTTGTGATT
GCCACCAAAAAACATCACCTGCGCAATTTGGGGTCGCATCAACAACACAC
ACCCTCTCCTTGCGACCCTCTTCTCTCCTCACACAACCTGTGACAACTGC
TTAGCGGTGGCGGTATCGAGGGCCACCATCACGGAGACTTCTGTTTCGAA
AGAATCAGTACTTGGGAGGTCTCCAAGCTCCGTTGGTGCCCTGTGTTGTG
AAGTGTAGTTTGTTCGGATTTCTCACGAAAAAGCATCATAGCCAAGACGA
TTAGAAACGCGGAAATATTTTTTCTCTTTTCAGTGAATCCAATCAAACGT
TTGTTGTAATCAAGCGAGGTGATTGGAAAGAGCCTTACGTTTCGCCAACT
TTGATTTCAATTAAATGCGAAATCATTTATTTGAATTCATAGTTAGGATT
CGGAATATATAAGTTAGATGGGAAGAGCCGTTTCTGTGCTGCAGGGCGGA
AGCAGACTCCTCCTCATTTTACCCAATCACAGGATGTGTTCTTTGGATTT
TCCAGCTCTAATGTGAACTTTGATTTCTTACTTTGATTTTGATTTCCGGT
TAGGCTGAGTCTTATCACAAAATCAAATCCGAGCTTCGAATCCAAAGCTG
GAAAAAAGACTGAAAGATCCAGCCCAGATCTGGTTTCGTTTGCCCAAGTG
TCTTATCCGGAAACTGCAGAAATCGAAATCAAATCCCAACAACCAGCACT
CAGCGGTCAGCTCAACCTCATTGAACAGCCTTCGTGTTTACATCCCACAT
TGTTGCTGGTCATGCTGCTGCTGTTGATGCAGCAGCGGCGGGCGCGGGAG
TGTGCGAAGTAATTAATAATGCTGTTGTTGAGCGGAAGGTGCTTGCTGCT
GCTGCTGTGCTGTTTGTTTTTGACCGCCGGCATCGTCTTGCCCCGACATT
GTAGAGCGTAGTCTCTTCTTGGATCTGGTGGTGTTCGGCAGTCTTGCTGT
CTGTGTGTTTATTTTCTTCCTTCACAGTCCCGCGCATGACGTATACTTGA
GCCCGTTTCGCGTGTTCGTCTGCTTCTTGAGCGCTCGAGCAGACCAGGTA
CGCACAAAACGTGTTCCTTTTCGCCAACTTGGGATTCAATTAAATGCAAA
ATCATTTAATTGAATCCCAAGTTCAGGATCGGAACACTTAAAAAAAGACG
GGAAGATCCGAGGTCTGCTGCGAGGCGGGAGGTCATTTCAGCCTATCACA
GCATGTGTTCTCTGGATCTTTCATGATTTTTTCCAGACTTGGACTCGAAC
CTCGGATTTGATTTTGCGATAAGACTCAGCCTTAAGACCCAGCCTTATAT
CACTCGTATATCGACGAATTCATACAGCAGTAACAAAACGAAGACTACTG
AATAATGTCTTGCTCGGTGAGCCTGGTAGCCTCATGGGAGCTGCACAGAG
AGGCGAACACATTGCATTCATGTCCAAATTCACAAATTTACAGCAGACGT
ATGATATGATACGACGTAATTAGTACCAGGTTTTTTTCAGTGGAGTACTT
CGCATGATGCTCCGGAGTATAATACCTCGAAGTACTCTAAAACAGATACT
TCGAGGTATTATAATACGAAGAAATACTTTTGAGCAAATAAAAAAAAACA
GAAAACAGCAGTAGTCCAAGAAAAGAGACAAACATACATACGACAAGCAC
TTGTTCAAGTAGGGTGTGTTTCAAACCTTGGTCATACCTGCTGTAACCAG
GTGTGTTATATCATCCGACACATTCTGGAGGCCAGTCTGCACCTTTCGGC
ATAGTATCATATACCAGGTACAAGGTATGTAAAAATGTGGGCGTACCGCC
GGGGTGACTGACTCGTTACTCGTCACAGAGGAAGAGGCCAACAGGGGAGG
CTTTTTTTCGCATACTTTGAAGTATAGTATTGCTACTTCACGAAAAAATT
CTCTGTACTGGACGAGGTAAATGTGTCCGCCCACTCACACCGACAGGTGT
AGACTCGCCCAGGATATGATAGATGGGATGGCAGCACACACAGACACACA
GACACATAAAGCAAAACACGTCTCGCCCTTCACACACACAGGCGCGACAC
GCAACAACAACAACAACAACAACCAACTGTTTGTCGCCCCTGCGTCTCTA
CTTGTACGTCGTGCGCCCCCCCCCCACTTGAAATCAAGAACTCCTTACAC
TTACTGCTGTTGCCGCTGTGAAAAGCAGTAGTTTACTTCGGGTACCCCTT
ACACTCACGGAGGACGAAGATCTTCTTGTGATATGTATGCAAGATACGGC
CGAACAGTACAGCAGTACTGCACGCTGCACAGAGTGTATTTTTTCACCAC
TAGTTACGCTGGTGTTACTGCTGTCTGTTTTTCGGTACAAACTCGCTCCA
TTATTCATTTCGATCTAGAACCCAACGATTAAGGTTCGGAACTTACCTCT
GTTGTTAATCATATCATAGGATACTACCAGTATATGTGGTGCGTTTACAG
TTTCATGATATCAAGCACTTATCCAGGAATTCGAATTTGTAGTTCTTCAT
GATATTGTGTCATATCACCTGTCTCCTGTGAAATCGTGCGATAAAATAGA
GTTGGTACGTTTCGAAGTCGCTACAAACTGCTGTGCAACAGCGAATTCTC
CTACTTGGTACTTCGTACCGCAAGGGATATGTCGTAAGATGCCACACCCC
CTAGACTGATCTTGAAAGCTTAACTACTCCACAGCAATACGGGTTTCGGT
GCCCGTGATGACGACGATCAAAGTGATTTGTCGAGAGCTTTTCGAAAACA
TTTCGTTTGGCATTGACACCCCTTTCGTTGAAGAGCAATCCACCTGTGAT
ATGATGAAAACATAAAAATCGATCCTGGGGGTGTGTAATCTCTCGTCATG
TCACCTACGGTGGTACTTCGCATTTGATTTATGTTGGGATCCTCCGCCAC
ACCAACCACAAACAGGTCCTCGGCCAAACCAACCACAAACGACCCAACGG
CTGGAGAAGATCACGTCCAAGTACTTTAAGGCAAATCTTTTAAACCCCTC
ACAGCTGTACTACAAGCGAGTATCATACCATACAAATGATGCCAGCGCGT
TTTGGAGGGTAGGTAGTGATGGCCTTGGGCACGTGGTTTCCCTTCCAGAA
TATCGTGTACGAGTATGGTATCATATGTCTCGTTGAGCTGCGATTGGTTC
GCTGGACACACCACAGGCGACCCACAAGAAAAACACTGTCACCGGAGAGG
AAAATGTGAGGAACGCCATCACATGTATCAGTCATATCCACAGTCTCGCC
TCTAACCCGTCGCTGTCTTGCGGTGGTAATAGTTTCGGCCAAACACGCGT
CATGAACGATCACACAGGGAAGCGCAGGCGGTGAATTGTATAGTCTGTTG
TTGTTTTTCTCTTCACGAGATGACACAGAGCAGCACACATACACACACCT
ACAGTAGTAGCAGTGGGGAGAAGCCACTTGTCCTTCCCTCGGCTGCTCCC
CGGCCGGGGTCACCCAACCTAGTGGGTCCCTCGTGGACACACCGGGCTCT
ACCAGAGTAGACAGGGTAGTGTGGGAGTGGTGTGGTCAGACCCTACTCGG
CGCACGCCGAGGCTGGGTAGGTGATGGAGGTGACGAATGGCACTACAGCA
GTCCGGACCAACTATGGTCTGGTCTCCGCGACAGTCAAACTGTCTGCGGC
AGCTGTGTCGACACATCACCGCGGAAACCGTAGAACTCGTAGCCTGAGGA
GCAGAGAGACTAGGAGGCACCACGTTAGTAAGCACCCTCGTCGACCTTCA
CGTCGACGCTGGCCGGGAGAGTCGTCCCTAGCCCGCCTGAACGTAGACGA
GTACCGAGCTTGGCAAAGATGGATGGAACGGAGGAAAATTGCAGTTCGAA
AGAAACGGAAGCAAAACCGACCTTTACGCAAGGCTGACCGAAAGAGATGG
GCAGAGATGAAATCAAAGGCACGCGCAGGCGAGCTGGTGTGGGCTCCTTC
AACATCCGCACCCTTGCTTACAAGGGCGCCAACGGTATCGGTCACAACTC
CAACACCGTACTACAGCTCTGTGGTAGCTCCGATTGCGATGCGGTTGGCC
TCCAGGAAACCCGGCGTGCTAATGATGGTGCCTTCACACACGCGGGATAT
GTTGTGATCTGGAGTGGAGCACGTGCCGGGACCACCGAAAAGAAAGGAGT
GCACGGGGGTCGGGTTGGCTATCAAGCAGTCCATCGTGGATGGGATGGAC
AAAGGAGGTATGACGGTGGAGTCTATTAGCGCAAGACTGATGAAGGTACG
CCTGCAACTCACTGGCTCGAACGGTGTATCCTTTGTGGTTGCCTATGCAC
CCACCGAGACCGATGGGACTAGTGAGAAAGATGGGTTCTGGCTATCAGTG
AGAGAGACAGTCAATGCAGTACCTAGCAGGGAACACGTCGTGGTTATTAT
GGATGCGAACGCTCGACCTGGTAGAAGATAGGATTAGAACACCCCTGATA
AGGTGATGGGCATGTACGGGCGTGACAAGCGGAACGATAACGGGCGGAGA
CTGGAGGAATTTGCAGCAAGCTGTAGGTTTTCCATCCTGAACACCTTTTT
CTGCACACCCAAACGCGGGATATCACACTCTTTCGAAAGCTCCAACCGTG
GGAAGGGAGAATACCGACTCGATTACATCCTGACCCGCCAGGCAGACCTT
CGGTTGGTGCGCAACGTCTCTGTACGGCGCATCGATCGTAAGGACTCCGA
CCACAACCTCGTCCTTGCCAACATCCGCTTGCTTTGCCGAGTGGCACCGA
ATCGACGTGTGAGGGATACCAGCAGTAGCAGTACCTCCGCTAGCATCGAT
CTACAACGGTTGATGGCGGACCCCCAGCTTCGGAAAGACTTGAGAGACAG
AATTTCCCCCACCATGGAAGGTGCGAATGTGGATGAGCTCGCTTCGGCCT
TGACTGCTGTGATGTCGACCGCCGCTGACGTTGCCCCCCGGGCCAAGGGC
AAGAGATTGCCAAGTGGCTGGTGCGCCAGTGAGGAAGTGCAGCAGCAGAC
CCACGTGGCGTGGCTCAAGAGGGAGGACGCCCGTAAGCAGCTTCGAGGTG
CGCCAAAAGACTTCACCCTCAAAAGCAACCTCAAGGCGGCCAGGAAGCAC
CTTGATCGACTTAGAGCCAGTGCTGTGAATGAGTTCTTCGATGGATTGGT
GAGTCAGCTCGAGAAGAAAAGCCACGAAGGGGACCAGGCCGGTTTCTACA
AGCACATGAAGGGATTGGATGTGGAGGGGAAGAGGGCCTTCACCTCACAG
AACATCAAGGACGAGGATGGAAATCTCCTTCGGGACCCCGCACTTATCCT
CGAGCGGTGGGCCAGGTGGTTCCATGCTCTGCTCAACACCAAGTCACCGA
CCCTTGATCCGAGAGTGGTGGACAAGATCGAGCCCTGGCCTCAGTGCGTA
CCGCTTGACGACGTCCCTTCGCTATTTGAGGTTGAGGAAGCAATCCGGGG
AATGGCCAACAGGAAAGCTGTGGGCCCGGACGAGCTACCGGCGGAGCTTA
TCAAGCTCTTCCTTGATGGAGACCAAGTCCTCCTACGGCAGTTCTACAGT
ATCATCATCAACATCTGGCAATCGGGAAGGGTGCCACAGCAGTGGAAGGA
TGCTTCGATCAAGGTGCTGCACAAGAAGAAGGACAAGACGGAGTGCGGCA
ATTACCGGGGCATCTCCCTTGTGGCACACGCTGTCAAGGTACTCCTGAAG
CTGGTCGCCACCCGGCTAAGCGATTACTGCGAAAGAGAGGGCATTCTGCC
GGAGGAACAGAGCGGATTCCGACCAAACCGCTCAACGGTTGACATGATGT
TCGTGGTTCGACGCCTACACGAGCTTGCGCGGAAGAAGTCAACCCCACTG
TACGCCTGCTTTATCGATCTCACGAAAGCCTAAGACTCCGTAGACCGGGA
ACCACTGTGGTCGGTGCTCAAGCGGCTCGGAGTGCCCCCCAAGATGCTTG
CGGTCATTCGCCAGTTCCACGACGGAATGAGAGCATGCGTACGGATGGAC
GACGGGAGGTGCTCCGACTGGTTTGATGTGGGACAGGGACTCCGACAGGG
ATGCAATCTGGCACCCCTGCTGTTCAACCTTTTCTTTGCTGCGATGCTCA
TGGTGGCCTTTGCCGAGATCAGCAAGGACGCGGAGGTGATGGCGGGCATG
GCCAAGGTCAAGAGGAAGGTGACGAAGGGGAAGGGGAGGAACGCCCGACT
GGTGGAGGCAGTGAAGTCCATCTGGAGTATGCTCTACGCCGACGACGCCT
GTATTGTATCTCAATCACCTGGGAGCCTTGAGAAGATGATGTCGATCATC
GTACGTGTGTTGTCATCCCATATTCTCTGGTACACTATTATAGTCTGCAC
CCTGCGGTTCAAACTACAGGCTAGGCCCATCGACGGGGTCACACAGGAGG
AAGGTCAACACAGGAGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCG
TGAGATTTTTTCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCG
AAGCCGAATCTGCTTTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAG
GAACACATTCACCGGGAATCGAACCCCCGTTCCTCTGCACCTAGTGGTTA
ACGAGGGACCACTAGTCCACCTGGGCGTGTGGCCGGGCGGTTTGGGCTGT
TGTTGTCAGAACCCAAGACGGAGACCATGTGTATGTTCGCGAAAGGGATG
GAGGCGTGCTCGTTCACGATCGACGCTGCCGGGATGGTCTTCAAGCAGAA
GAAAGACTTTGTGTATCTCGGGGGTAAGATTTGTGAGGACGGTAGCACTG
AGGGCGAGATAAACCACCGAGTGCAGCGAGCGCACGCTTGCTTCCGGCGC
AAAAGCCAGGCAATGTACGACCGCCCGGGGGGCCCTCTTCGACTAAAAGT
ACGACTCCTCCAAGCCGAAGTCGTGGAGACCCTACTCTACGGGTGTGTCA
CATGGAATCTGAAGCCAGCGGAGTACCGCAAGGGTCGGTCAGCCCACCAC
TTCTTCCTCCTTCGCTGCATCGGATGGAAAAAGAGGGAGAGAACAGACCG
ACCCCTCTCCTACGCCAAAGCCCTGGTCACCGCGGGTTGCGACGAGAGCA
TTGAGGCCACCGTGCGCAAGCGGCGACTGTGCTTCGCAGGATTCGTTGCG
CGCATGAGAGACGAGAGACTCCCGAAAATGCTCTTTTGGGAGAATTGCAG
GGGCGAGCGAGGTATCTGGGGGGGCAAGAGTTTGACTGGCTGAGGCGAAT
GCAGGAGGACCTCGAAGCCTTCGACATCGCTATCGACAAAAAAGAGGGGT
GGGAGGCAAGTGCCAAGAGAGCTGACGAGTGGTACGACAGGATCGACGAG
GGTGCGCGGTGGTTTACGGACGAGTGGCTCAAGAAAGAGGGAGACTTATC
AGAGACACGTCGACTGAAAAGGGAGAGGGACGCGGCTGAGGGGCAGGCCT
TGGCCAAAAGAGGGAGAACGGATGGCGGGGATAAACGAGAGGAGGGGTAC
GGGGGGGCACAAGGGCAACGGGGTAGTGGGGTTGGAGTTGCACGGCAGAA
GAAGCAGCCCAAAGCCAAGCTACGGGGTGGCCGGAGTGGAAAACCTGTAG
GGCGGAAATCCCGGAGCGGTGGTGTAGCTGCTGCCAAAGATGTGGGGCAG
AAACAACTGGGTACGGTGGTGCCAGTAGCAGGAGGCATGAGTGCGACTGA
GGAGAGCAAGCGTGAACAGGCAGACCTCGTGGCAAGATATGTTTGCGATT
GATTGCATGCCTTTTATTTTATTTTTATCATCAACCCCCCCCCCCCTCGA
CTGCCGGTACTTCCGGTCTTCGCCCTGCTCTCCCCATGTATGTATTTTGT
CCCTCTTTGTCTCTTTTGGGTTTTTCCCTTTTCGTTCCCCTGCTTCCTCT
TTGTTTGGCGGCCTGTTTGTCGTGTGTGTGCACGAGTGCACTCCCTCAGT
CTTTGTGCCTTCCTTGTATCTTCTTTTTCATTTTGTCTTTCGTCTGTTGA
TCATGTAGTTACTGGACCATGCGCCCTGGTTTGCCTTTGCCTTGGTCTGT
CATGGCCCTGGGCCCTGGTTCGATGTACGAAGTGCTTCGAAGTATATGGT
TATGGTTGAGGTTTGTCTTGTTTTTTTTTGTTTGTACTGTTTCCAATTTT
GTTTTTTCTTTCGAACCTGTTATTTTTTTTTCTGTATTTTGTTTGGTACT
TTGGCCACCACAGATGGTACCCCAACGGTACCCTATCTGATTTGACTGTG
GGCGATCATAGTCCATTTATTTTCTTTTTCTTTTTCTTTTTCTTTTTTCC
TCCTAGCACAATACCAGTATGTGCCTGGTTTGTGACCACAGGCTAGACTG
TGGAGGTAGTGAGCTGATGTGAGAATCAACAACAACAGCTATCTACACAC
ACATGCTAGAGAGTCTAAAATGTTAAATGAATCGCGCAAATTCTTGCCGC
AAGAGTAGGTAGTGAGATCACCACGCTGTAAACTCTGTACAGCAGTAGAC
ATTGCCTGACCCGATATTTTTTTCTTTCTCGTTTTTTCGTCAGAAATGAT
TGGTCGCCGAAAATCCGTGTGTGGTATGATACGCACGTGTATGTTGACGT
ACGTGCCCAACTTCAAGGAAACGTAGAGATCGAAGTCGCCGTGCCATGAC
TTGGTCGAAGTAGGCGAAAATTGACGTGTTATTGGCTTCGTATCATGTGT
CTATTGTCTGTTTTCTGGTGATTTCGCGTTGCCCACGGAGGGTGCCCGCA
CCTCATCTCCCAAAGTGGGATGTTGTGCCAATATAAGGTATCCCCGGGCA
GACTGGGCGCTCGCCACCGGCGGGAAATGTGCCGAGAAGACCTGACCCCC
CCCCCGTATGTGGCAAAATGACGGAGGACAGCAGTAGAACTCAAAACTCG
CAGCAGTGTCGCACAACATGGGCGATGCAGGCAGATGGTGGGTGGTCCAG
TGGAAATTAGTACAGATGACAGGTGTGCTAATGCGAAATATTTACTGCTG
TACCGCGCACCGTGTGTCAAATGATACGAAGCAAATCCCTTCTGGGCTCT
CGCCTAGACGATCCGAACACTGCTACAGTAATGTTTTCTACTCACAGCAG
TTCATGATATGATACGAGGAACAATCAACATTAGTACAACCCTGCTGTAT
TACTGCTGTGTGGATGTTTCGCTGGTCATTTATGTTTTCCCATCCTTCCC
GTCTCCTTTGCATCGGATCACATCGTGTGTGCTTCTTTTTGTTTGGTGTT
GCTTCAGGCAAACGGAACGTTTCTGAGGCGACTCATGTCTTTTGTCGGGC
TAGGCTCTATGGGGCTCGTGGCCATGATTATGGTCTACACCGTCTCTCGC
CTCGACGCTAGACGGGTCAGTGAGCGATAGCCAACTTGGGTGTTGGGCGT
TGGGTGTGGGGTGGGTGGGGCGGGTGGGGTGGGCAGTTGATTGCACCGTA
TGATGGGTCGCGTAAGGCGCCCCACGGGACCCCCTGTGCAGGTCGATCTC
CCACAGCACTTTGTCCGGGCCGATGAAGAGTGGTCGGCGTTGGATTCAAA
ACCAAACCATTCCGTCTATGCAGAGGCGTCCCGCAAACGTACAGTCGTCA
GACGCCGTTCGATGCCAGTGTTGGCATGGCTAATAACGTATTATCGTCGT
CCTGGAATTATGTGCCGTAATCGATCAACACTTGGAGATCAGTCCCGGTA
GTGCCGCGCTGTCTTGAGTGACCAGTGGTTGGCCTTTCTTGTCTTGTCTT
GTCTTGTCTTGTCTTGTTTTGTCTCCTGGGTCGGGCCATGTTTCCAAACT
GCATACTTGCTGTATATGTGCATCTTTGTTGCACTATCATGCGTTTGTTT
TATTAAGGTAAAGTTGAGGGTTGTTTTTTTCTGTGTGTCTCGTTTGTGTC
TGTTTCCCGCAACAGAAGGTATGTAGACGGCACGGCTTATTCGATGGGGG
TCATCTTCTTGTCAGGTGCCTCCTGCGCCGTGTTTGTTTGAGCCTGGAAC
CACGAACGACGGCCCCCCCCGTCCCCCCCGTTCCCCCCACAAACACGCAC
ACGTACAAATGCATCGTTGCCCCCTCTCCTGCGCGGAACACTCCCCCCTG
TCGTTGCATCATTGTCCAGCGGTCGGCGTTTTCGGTGGGTTTCAGCTATA
AGGAGGGGGGCTTGCGGGGGGACAAAGGTACAGATGGCCTACTATGCTAC
GTTATAGTATCTCATCTAATAGGTTGTGACGGGAGGTCGCATGAGACACA
ACGCCGGACACCTTTGAGCAGTTTCAAATGTCGATTCTCGACGGTTGATT
ACTCTGCAGCAGTAGAAATAAAAGGGTGTTAATGCCGACAAGTACAGCCG
GTGTGGGAACCAAAGTATCGCGTCGAGAGTTAGCTTTCCCGGAACGTATG
ACAGACACCGTTTGATGTCGGTGTTGGTATGGCTCATAACCTATCATGTT
TCGTTGCGGAGACCAGTACTGCTGTACCGTAATCGATCAGCCTATGAACA
TCGTTCCCCCGGAGGGTGTGGTATCGTGTGCCGCCTACGGTACTACTCTT
GCAGATCCAAGCTTGTTCTTGTTCTTGTTCTTGTTGTTGTCGTCGTTGTC
GTCGTCATCGTCGTGGCTCTTGACGTCTGTTGTTGATGCCGTTATCGAAA
TGTTTGTGCAGCACGTTGCGACCTTCAGTAGGCGCGCAGACCTCCCACCC
AAGGTTGTTCCACCTGGTGCGTGTCTTGTGGGTGTTGTCCCATTTAGTCA
TTTAGTCTGAACGTCAGGCTACGCCATTCAGTATAACTTGGGCGCGTCAG
GCGGGGTCATACAGAAGGAAGCTCAACACACGAACGAGTGTACGAGTATT
TATTACTTGTACCTGTATGTTACAGACCGAGTGATGGCGGGAGAGCGAAG
GTCAAAACACACACACTAAGCACAGCGCCGTCGCGTTCAGCAGAACTACC
GCTGTATACTGGTATCACAACCCTCTCGTTTTAATTTTTCGTTTTATTCA
TCTATTAATTCGTACCAGGTATTTTTTTTCTCCACATTCCTTGTGAGGTA
CCAGACGTGTAACACTGCAAACCACACAACCACCACGACCACGATCACAA
CCACCACCAACAGGTACACCAACATAACTGGCACAATTTCCGCAATCTCG
TCTCTTGTCACCCTCCAATGGCAACAATGAAGGCGCCGCCGCAGATCAAT
GGCAGCAATTACAGAAGCCGCTGCCGCAGCCATTTCCAGCACCGCCGCCG
CCACCACCACCTGCACCGCTGCCCCTGGAAGAAGATGGAGGGGCTGTGGA
CGCGAATGGGCCGGTTGTTGCGGTGGAGGATTATGACGGAGAGAAGAACA
AAGATCGAAATCGGGGCAAAAGGCCAAAGAAAAGATTCCAACGGTCAGTG
AGGAGATGCGGGCATTCGTTCTTGGATTCATATGGGAGCCAAATCACCCC
TTGGCTGCGGTAGTAATTTACTCCCAAGTACAGGCTTTACCTCATACCAG
GTATCTAAAAGTTAGTTAAGGTTAAGCACCACAAGAAGACTCTGACTCGG
ATTACGCGGGCCAGTCACTTCTTCATCATACAGCAGTAGTACTTGGAGGT
ATCTGTCGATGTATCTAGTATGATATGTACACATCTCTATGTTTGCCTCT
CCCCCTCGCTCTCTCCCTCCCTTGTTACTTGGGCATGGTTCCCGGTGTCG
ATTTTGCTATCTGCGTGCACCCACTCCACCTTCCTTCTTTAATCGCTTAT
GCGCCCGATGTCTTCAGCTGTACGATACCTCGCTCGAAACGGTATGCATG
CATGGCATTCACTTTGAAGCGTTTTTATATGTCGTTTTTTTTCTTTCGAA
AAACGAACAAAACGATGAAAAGGGCTCCAAACGCGAAAATTCTGGAGCGT
GGCGGTTGGAAAGGTGGCGGGGGCGAGGGTATCGACACTGATGTCGGCGA
TTCGTCATGGGGTAACGAGGTGCGTATGTTGTTGTTGTTGTTGTTGTTGT
TGATTTTCACATTAGCTCGCCCTTATGGTCTCGCCCGCGGTCACAAACCA
GGCACATATCGTGCTAAGCAGGAGGAAAAAACAACTAAAAATGAAAAATA
AGAGAAGGCCGCACGCAAAAATATAAAAATACATCGTACGGATACCGTCC
AACCAAGTATGTATCTTCTGTTGTGGGGAGCAAACTTCAATGCAAAAAAG
AGCTCAGACGAACAGGGAAGACAAGACAACGAGAAACACAGGAAACAAAG
CACGACGAAGAAAAAAAAAAAAGAGAGGGAAAGGAGGAATGAAGAAATAA
AGAAATAGACATGAAATAAGGTAAATGGTGAAAAGTTGGGTGCGCACATG
TACACGCCGCAAGCCGCGAACGTCTCTCGCCACGAGGTCTGCCTGCTCAC
GCTTGCTCTCCTCGTGTACGCAAACGTTGCTCGTACCACAGCACAACTGT
TCCTCTCAGCAGAGGCATCGTCGGGAGTCTGCTGCCTGTCTGTGTGCGCT
TGTGCGTGAATGTGGTATGTGTGTGTGTTGTGTGAGTGTTGTCTCCCTTC
TATTCTGGACGTCAGGTCACATGTGTTGTATGTGTTTGTAGGGCCCATCA
GCCGGGGGTGATCACGAAGGAGGAAGGTCGCGCAACACAACACAGGAGTT
TTTTTTTTTTTTTGTGACACGTTTTTTTGATATATTCTTTGTCTATGATG
TCACGTACAGAACGGTGCTGTATAATCAAGAGGCGGAAACCTCATACTGT
AAGAAACCAAACGTCGTGGTAGATATAGTAAAAGTAGTAGGAATGGTGAA
TTAGTTGAGTAGTACGAAGTAAATGCGAGTTAAGGACAAGTGGGAGAAAT
ATCATAGCTAACTCAACAGTAAAAGAAAGCAGCAAGGGGCAGCAAAGCGA
GGTGAAAACTTCCAACTGTTACAAAAAAAAACAAATTTTGGAGAACCCTT
TTCGAAGAGCCGCCTTGCCGTGGTGGCGGTCGTTGTTTGATTTATCCATT
TATTTATTTATTTATTTATTTGTGGGGTGTAGGTCCGATTGTGTTGAAAG
CTTCATTTGTACGTAAACCTGCTTTTCCTTTCGGGTCTCTTTTGCCAGAC
CGAAGTCGGGATGTATTGAAACGTGCATGTGTCGGTACACAATGAAACAT
GCTGCACGCCTGTCCTGCCTTCGCTTACGCTAACAACCGCAACGCACCAG
ACCACCGTACACGCACTATTGGCGCTTTTCTGGTGCCTGAATTGGTGACC
ACGGGCTCTCGTAGCCAGATTTAGATTCTGGCGATGAGCCAACAATTGTC
GTGATAGTCAGCATCCACAACAACCACTACAAATCTTTGACGATGAGGTG
ATTATTGTGAGAATCATCACCCAGAACAACAGCAACGCACCTAGGACGAT
GAGCTGATTTAATGTGAGAATCACCACCCACAGCGGCGAGGACATACATC
CAAACTCGCCTATCGACACAGGTCACGACGGGTGCGCCGAGTTCGAACGC
TGTCGGCTATGCCGCTGCTGCCGCTTTATCTGTCGGTGACGAGTTCCTCA
CGAGAGCGGTCATCGTTGACGCTGACAAAAGTGACGGCGACGTCCTCCGT
GGCGCATCAGGACAGCAGCAGCAGCAGCAGGCGGCGGCGAAACCGCAATC
GGGTCAGTTGCAAGACCTGGCCGAGCTGCACGAGGATATTTTGGATCAAG
AGGGTAGCGAGGAATGGACGACTGTACAGACCACTCCGATGCTTGGTGCG
GACGCCGCATTACTAATCATTTGCGCCAACAGGTAAGTGTAAAGCGTCGT
ACATGCACCACTCCCACGTGGGTTCTTCTTATCAAATTGGATCTCTCGTA
TGTACATGGGTGTTCCGTATGATCTTGTTTTCGTAGACATGTCGTAGATC
TGTAGTAGACCAGTCCTAGACGAAGTACTCCGAGTAAATATTTATCACGT
ACGGTAAGTATTTTGAAGTATAACTTTCTCACGTAAGTATTTCGCAGACT
ATTTGTAGTTTTTCTTAGAGTTCTGCACATTAATCTCACTTGGATATGTC
GGGAATACTTCGTACTGGCACAGGTACATGTTTCACACATAGATCGGTCG
TAGATCTCTCCGCCCGTGGAATCGAACCAGGCCTGAGCAGGAACAGAAAC
ATCCCTGAAATGATCAGTACCCATCTCGGATTCGGGCTAACGCTGTGAGC
CAATGCCCCCCCCCCCGTTCATGCCATCCTTTCTCTACCAAACCACGCCA
ACGAAATTAAAACGAAACAAAAAAGACCCGAGTACCTCAAGAGGGCGCTA
GATGCCGTTGCCGAGTACCACCCGGGGAGTTCGAGGGGTACTGGTTATTC
GATACCGGTGGTGATCTCACAAGACGGGTCGTCCCAGCAAGTAGAGGATG
TCATCTCTCAATTTAAGGTGAGATGGGTTGTTATGGGACATGAACGTTGT
CGTTTTTGTCGTTTTCGTTGTTTTCGTTGTTTTTGTTGTTGTTGTTGATT
ATCACATTAGCTCACCACCAAAGTCTAGCCAGTGCTTGGTCACAAACCGA
CATGTATCGTGCTACATGGAAAAGAAAAGGAAATGTGTGTTTTGTGTTGG
TTATACGTCGGGGTAGTACTGCTGTACTTTTCCAGACACGATCTCAATTT
TGTTATCACGTTATTATATCTCACTCGTGTGCCGTTGTATATCGTTGAGA
AAGTGCGTTTGATGTAGCAGGACCAGCGGAAGTCATCTTTCAATCTAGTG
GTGTGTGTATCGCACTTTCGTATTCCCATTTCGGTTTTTCGTTTGGTTTT
CCAGGTTTTCGGCATTTCTGGTGTTGGGATGACGCACAACACACGGACAA
GGTCCTCTCACGTCAGCAAGAAAAAATCTGTCCCTCGATTGTCACGATAG
GGGGGGTTTTGTCCTCATGGGTCACACAATCTGATTGATTGATTGGTAGA
TTGATTGATCGAGTGTTCAGCGTCAAAGGAAACAACTCGAAGCTGTTTTC
ATAGAGTGGGCCTCTTCGAAAAGGCTCGGATTTTTTCTGGAATCCAGTAT
TTTCGTACTAACCGCGAAAAAAGGGGTAGAAATATTATCATACCGTGGAA
CAAAATGTTTTCGTTTATTTTGTTTTTTGCACAGTGAAAAACAGCGTTGT
TCATATTTGGGTTGGCGCTACTGAAGGTTTGGACAGGGCGGTAAGTGAAG
CCTCGCCGTGTGCTGTTCATGTTGGTGGCAGGATTCGATGGCAGGACGTG
CCCACGTGATTCACATCCGCCACACGCCCCCGCCAAGAGAAACCCGACCG
TACTTCAAGCTTTCGGCGCACTACAAGTGGGCATTGAGCCAGGTGACGTT
GCGGTTATTGTTGGTGTTGCTCAACTCGAGCCCAGAAATGATTCGATCAC
ACCACGAAGACATATTGCTAGATCGAGTGTCGCCGTATGTTTCGAAAATG
AAGGCTGTGACTAGTTTGGCGTGGGAGTGAAATGCGTTTGACAAAGGAAC
GGATCATGACGAAATCATTTTTTTCGACTGCATGCATGTCGAAACGATGT
CCAAGAGTTGTCTGGTACAACAACAACAGCAACTCCAACTCCAACTTCAA
CTCCAACTCCAACTCCAACTCCACCACTGCCGAAAATACTAACACTAACA
AGAGTGACCGTAGCAACGACAGTAGAGCTACAGTAGTAGAGCAAGAACCG
TACCAGCCAGATGATCTTGTCGCGTTCGATGACAGCAGTTTGCATAGCAG
CAGCAGCGGCTCCAGATGGATGGTCACAACTATTCGATTCGATTCGATTC
GATTCGATTCGATTCGATTCGATTCGATTCGATCAACATGTATCCTATGG
CGGTCGGGCGCTTTGCAGGTGTTCGACGAGCTGGACCTTGACAGCTACGA
CTCGGCATCGAAGGACAAAACAATCATCCTGGAGGAGGACCTAGAGATTG
GTGAGATGAGAAAGTGCTGCGCATCATACTTCGCATTTGATAAGTGCTGG
GGTTGGCCCATGTGTTCGTCGTACCAAGAGGAGGACCGATCTGAATTGCT
ATTGTTGTTGTTGCCGCTTTGATCGTCACTAGTTGGAGGACCTAAGATGT
GAGTGAGAGGAATATTTCCGTCCGCAACAAAAGGCACGCTTTTCTTCCTT
TTTGGGCGTCCGCGCGTGCATTCATTCTAGACGAAGCGCCCTACGGCGGT
GCTTCTAAACGAAATCGTGCTCCTGTCCCTGTACGCGGGAACGACCTCGA
TTTTCTATTTTCTGTACATACGAGTAGTCGTTCAACCCACTCACACGCTT
TTGAAAGTTGCGCCGTAATCTGGCTCCAGATGAGAGCCTAGCGATAGTGC
GCTTTTCCAGTTCGGAGCAACAAAGTGCTGCAGCAGTGGTTGCTGGAGAC
CGTTCCAAGAAAGAGGAAACGCAGGATACAGCTTTTTCTCGCAAGGCTAC
AACTTGATGGTTGGAAACACCGATATTTCATGTCCTCAAGAGCCTTTCGA
ACAACGGCAATTTCAACAGGGCTTTCTGAAGCACCCGATCTTGCATGATC
AACAAAATCAGCAGCAGTTGGTGTAAGAAAAAGCGTCCGATCCGAAAAAT
ATATCTCCTGTTCTGGGACGGTTTTAGGAGGGTTGACAAACTTGACATTC
ATTATGGCCTTTAACCGGTTCGCTCTTTCGTCCATCACTCTCGAAGGAAT
GAAGTCAAGACGAATGAAGTCACAGCCATGCAAAAGTCGTGCCTCGTGAG
CTGTGTACACGGTCCCTCTCTTGCGGTGGTCATCTGAAGCAGCGAGGTAT
CGAAAGGGTAGCGAATATACTGTGCAGAAATGGATGACATGTGAAGAAGA
AAAAAAAATCGATACAGCTTCCAGCGGAAGGCAGGCTGTGATTTACTCTT
CATGATCCACACGTCATCGATTCCTGCTTTCCTCCTTTGCTAGCCTATCG
ATACCTCGCTGCTTCTGATGACCACCGCAGGAGAGGGGGGATGTACACAG
CTCACGAGGCACGGCCCCAGCATTGCTGTGGCTTCATTCGTTCGAGAGCG
CGGTGGACAGGATGCATGATACGAAACTGATGTGTCGCGAAAATACACGC
GGCAGCCAGCTGCTGCTTGCTGCTGCTGTGCTGAAGAGTTCAGATCACAG
CAAGCAGCTGCGAGCTCTTTTCCGATCCGGTCTGGATTTTGTCGATCGCT
CTCCAACGAAAGCAGCCACAGCAATACGCCACAGCAGTACCAAAGCCATC
TCCCGTGAGCCGTGTGTCTTGCTTCTCCCGCGGCGGTCATTAGAGGCCGC
GGGGTATCGATTGACCACGACAAAACAGCACGTAGGTCATCTCTCATCAT
GAAAGGCTGACGGGCGTAAGGTGTTCAATCTCGTTGAATAAAAAAAACAA
ATGAAAGATTTCCGATAGGTGCAGGCTATCAGAAAATGTGGTTTGTCTGA
TCGTCTGGGTCTACGGGAAAAAGGTATTCGTAAAGTCGATACGTACCTTA
CAAGGCTGTTCCTGGTCACATGACAGGTGCGTGATCTCGGGCCGATGTTC
AGATAGCCCTTTACAGGTACTGTACTTGCCACATGCGATGTAGCCGAACA
GCGTTGATAATCTTCCTTTTTTGCCCTTTATTCCTGGCGAGTTTGTTTCT
CTTGCGCCTCTTCCCTGCCCTGCTTATGCACGCCTCCTTTCCTCCCTTGG
CTTTATTAACGTTGACGTCTGCTGCTTGTTGTTTCCATCAGCGCCGGACT
TTTTCGAGTACTTTTCGGCGACAGCGCCCCTCCTGGACTCCGACGAGACG
CTCATGGCGGTTTCGGCTTGGAACGACAACGGTCAGGCCGACCATGTCAA
GGTGTGTGTTTACACGCGTGTTTGTGTGTGTGTGTGTGTTTTTTTTTTTG
TGTACGTGTGTGTTTGTGTCTGTGCTTGTGTCTGTGATTTGTGTTCGAGT
TCGTGGTCGTGCATGTGTGCTGGTGTATGTGCTTGTGTGTTGGTGCATGT
GCGTGTGTGTGTTGGTGTATTTGCGTGTTTGTGTGTGTGCCTGTGCGCGT
GCGTTGGTGTATGTGCTTGTTTGTGTGTGCCTGTGTGTGCCTGTGTCTGT
GTGTGTGTGTTTTCTCAGGCCGCCTGTTCTGGACGCCAATCTTCCGCTTT
CTACTTTCATCTGCATTTCTTAGCGCCCCGGCCGAGGTGTCGGACGACGA
AACGCGTGGAAGATGGTCGAATGGCCAATTCAAGCAACAAAGGACCCCCC
CCTCGCACCCCCTCGTACCATCTCACGGCACACGTCTTGTTGTCTCCGCT
ACGTAGTCGTTGACGAACAAGAGGCAAGCAACAAGGCAGTAGCAGTTTTG
GATGTAAATTGCACGTACTCATGCCCCCCACCGGTCAAACGTCCCCTCCC
CCCCCCCCCCGTCCTTCGGCCTTTTTTTATCTTCCAACTCCGCGGACGTT
TCGTTCATCTCTATATATTCAGAACAACGAGGCGCTTTTCCGGAGCGACT
TCTTCCCTGGGTTAGGGTGGATGCTCCCGCGAAGGTTGTGGGACGAGCTG
GCCCCGGAGTGGCCGGAAGCGTACTGGGACGACTGGCTCCGAGAGCCGGA
GCGGCGCAAAGAGAGGCAGTTCATACGCCCCGAAGTTTGTCGGACCTACC
ACTTTGGGCAAAAGGTGGGTACAGGTGCCGCGGTTGACAGAATATACCGG
TACAGTAGTACCTCCCTCCCGTGGACGTCTTTTGGAGCTCAATCTCTCCG
TAACGAAGAACGGTTCGAAGAACGGTGCAAAGAACGGTGCCTATGTATCG
TACACCAACGTGATGAACACTTTTCGGCGCTGACAAGTCTGTTTGGCAAT
CGAGCTTCAAAATCGATGCACGGGGTTCCGTGAGGTATCTTTCATCACCT
TTGGGTAGGCTTCGCTCGGCTGCGCGGGTTGGTTGGCTGGTGGATGGATG
ATGGGTGATGTTGCTGTTGCCCTTGTTCTGTGCTAGGACGCAGATTGTTT
TGCTTTGTTTTGCTGGGGAAGGGTTGACCAGAAAATATTGTCTGCATTTC
GTGCCTTGCTTTCTGTGTTACGCTGGCTCCAAGCTCCGAGGTCCTCCAAA
GGCCCCTTTTATGCGTTGGGCGGTTGGCTGGCTCGTGCGTGATGATGTTG
CTGTTGTTCTGCTTCTCGACTTCTGTTGTGTTTCATGCCTTTTTGCTATG
CTCTTGAACTGTTATCTGTTTTTTGTTTTTTCTATGGAGCGTGACGTAGG
TTGTTCTCTTTTTGTGTTCGTTGGCTCCGCGATCTTCATGATATGATAGA
CGGAGTTCGTTTAGTATAATTTGGAGGGCAGTCCCGAAGGTGGACTGTTC
TCCCAATAGCCTCTGTTTGCCAGGCGTGTCAATGCGGCTGGTGCTCGTGC
TGCTTCCTGGTACTGCTGCTGCTTTTATTCCGCCGAGCTTCCTATCTCAG
CTTCCCGTACATCTTCTTTCAGAAAACGTCGTACTGTACTGCTTGTCTCG
TACATCTGATTGAAACATGCCGCGCATGCCATTTATGTGGGCGCGTAAAT
GCGTGCTTTACTTTTCTAATTCTCATTTCTTACGCATTCATCTTCGGAAC
GACTGTCTGGCTCACGCACACACATGCCGTTCGTGTGTTGTGCAACAACT
GTCCGTGCTTTCTGTGCTTCATTCAGGGCGGAGCTTCGAACAACCAGTTC
GCCGACCCTCTTAGCAGCATCAGGCTCAACACGATCGCGGTAAGTTTCGA
CACGACGGCACACAAGCACGATACCGCTATCATACCATCCGACCTTCGCC
CAGCACGTCCACGACCACTTTCACAGCTCCCCGTGTCATCCAAACCCTCC
ACCTCCGTCCACCCGAAATTTTGAGCACCGGTATCGCCTGCCCCCCCCCC
CCTCACTCTTTGTCTGAGCACGGTTTCGAGAAATTGACGCATCTACTCTT
TGCCTTACGATGGCCCACCCACGTTAACATCCCTTGCTTTTCAGCGCGAT
GAAGCTAGCCCCCCCCCCCGCACGACCGGCCGGCCGCCCCCCCCTCTTAT
CTTGACCCAGGTACCGTTTCGAGAAATGGATCTGTCGTATCTTGAGCCGG
ATACTTTCCGGGATTGGCTCGGCAGTGTCCTACGGGACGCTGCTACCGAG
TCGATAGAAAACGTCACGGCCGGCCGATCCCATTCGCCGGTAAGCAAAAG
AGGTTACATAGCGTCCTTTTTGGCAGAGACGCAACCGGACGGGGCGGGCC
AATCCCCATATTACATAGCTTTCTCTTTCGCACGGGGGGGGGGGCAGGCA
CGCGACAGCGTTTTTCTTTTTCGCCGGTGAGCGGTGGCGTGAGTTGGGGG
TGGGTGGGGGGGGGGGGTTACTCTAGATCGTTTGACTACCTATTGTGTTG
CTTGCCTTGCTTCAAGCAGTCGCTTGAACATCGACCACGCATCTTCCGGC
TCGATATGGAGCACCGTTCGCTACTAGCATGATATGATAGACAGCAGTAG
ATAGCCGTCACAACAACATCTGGGTGTTTTCTTCGGTAGGCGGCGAGGGG
GGGGGGGCGTAAGCTTGCGATATCGGTCATGTCGGGAAGTATTTCGTCTC
GATCAGCGCACACACCCGCGCACCCATGACCATCGTTTATTTTTTCCTTT
GTCTTTTATTTTCCTCCCATGTAGCACGATATGTGCCTGGTTTGTGACCA
CGGGCTAGACTACGGTGGCGGTAAGCTAATGTGAGAATCATCAACAACAA
CAACAACGCATGTAATGCGCGAACGCACGCACGCACGCAAACACACACAC
ACAACACTCCCGGCCTCCTCCACCTGCTTCATTACCCTCTCCGCCGCCCT
CCCCCTTCAGACGGTCGTGGTCGAGTACGGGAGCGAAAGAGAGTTTGAGA
GGCTTGCGGGACGGCTTGGCATCATGAAGGACACCAAGGCCGCCATTCCC
AGAACGGCGTACGCGGGTGTGGTGCCCATCTGGGTCGGAGATACGAAGGT
CTTTCTAGCCCCCAAGGGGGGTGTCCGAACAGCTGATGATCCGCGAAACC
CCCTAAGTCACAAATAAAACAATGTATCGGTGGGAAAATCTTACACACAC
GCACGCATGGGTACACAGACACGGCTCTTTGGGGAGGTGGGGTACGGGCC
CCCCCGGGGGTGACATGAGATCGTGTGCGAAACGTTTTCTTCTTGTGAGT
ATAGTGTATGTTAGGTGGAAGACTTGTGATACATTACCAACAGCGCCGGA
GGACCGGACCACACATCACCAACCACCTGAGTTTTTTATTTCTCTCTTTT
TCTCCTTTCCCCTCTGCGGCTGCTCGTGCTGTTGGGAAAATACTTTCGAG
ACATCCCTTGGGGTTCTTCCGTCGTGCCAGAGCGTGCTTGGGTAGGTGCT
GGGCTTGTCTTTATCTGGCGTGTGTGCATGAGTTTTTTTTTATTATTTTC
GTCCTTGTAGCTGTCGTTCAATGGGTTTCCTTGGGGTGTGAAATACATAT
ATATATATGTAGAATGCTTTTCCGTGTATTACCACAGTAGTATGCGGAAG
TACTTTATTTCCTGCTGAGGGAGAGATAGAAGAAGTAGATAACGTTTCCC
TTATAGAACGGACGCTCTTAGGGCTACAGGGCGGGGGGCGTACTCGCTTT
TTTGCGTTTTTCCTGTTGTGGCTTGAGGCCATGGACCCCGTGTCTCAGCT
TTTTTATGGAGTGCCCTTCGTATCACAAGAAGAGCAATCGATTCCCGACC
TTTTTGAGGTTGTCCACTCGCGATTGCCAATTTTTATCTAGTTTCAATTT
TCACACATTCACATAAACAAGGGCATCCGTCGGAGGGGACTTGGCGAGTT
TTGTCCTATGTCTGTCTTCGATGATGGCTTTCGTTCGCCCTCACTCGTGA
CCTTTTCTTGACAATTTGCGTAGTGTAGTGTGAGTGAGTTTCGCCACGAC
GTGCATTGTTGTCGACGATTGCAAGAAGCACGCTCTCCTTCCATGCAGCA
TCAGGGTACAGTCAGCAGCATGGGTAGCATCGTGTCCCTGTCTTTTCGCC
TTTCATGGGCCGGTTTCGACAAGATGCTACACACTTGTGTGACGCACGCG
CGTACAGAGTACCGGCCTACGTGCTGTTCTTGAAGCAGTGCTGTCAAGCA
CACATGGGTGAGAAATTCAGGCCGACTCCTTCTTTCGACTAAACGGGAGA
CCCTCACCTCAAAAGTCGACTGCCACATTAGACTGCCGGGTGTAAAACAG
ACTTCGGATACTGTCCTCGTAAGAGAAGCACATAGCCTGAGTCTGAAGAT
CTTGATTTTCGGCTTTGCAGCGGGCTGGTATTGTATCCGAGTCGCGGTCA
TGGAGACCCACAATCTTGTGGACGTCTTACAATGTGACATGTGATATGAT
ACCGAAGTCAAAAATGAGGAGGGGAGATGCCGTGGAATGCCCTTTTGAGG
GACTAACAAAGCAGCAGCAGCAGTGCGCTGTCGTCGTGCATGACGTACGG
GACGGAAAGGGGTGCCGTGAATACAGCGCATCATAGTTGTACTTCTGGTA
GTGGTGGTGGTGGTGGTTGGAGATATCTGTGTCGTGTTATCGTTCATTTC
TCTCGTCGTTTGGTTTCATTGATGAAAGCGAAGGCGTAACATATGATGCA
TTTTGTTTTATTGTTTTTTGAGGTTGCGGAATATCAAGCAACACGCGTTT
GTTTTTTGTATTTGTTCGTCCGCACCGGACTGACTGGGCGAACTTAAGGG
CCCCGGGTTGCAACAAACACTTGATCGCTGCAGTGTTGAGGAAGCAAAGG
GGGATTTCCCCCACAGGCGTATCATTGACAGTAGAGGCCTCCGTTTTTAT
TGCGACATTAGGCATTCTTGGTAGGGGCCCGGGGCCGAAACTTCTGGTGG
AGGCAAGTTCAGGTTCACCCTACATAAACCCTATCCCGCGAAGTGTTCTT
GAAGTCTTTCAGCACGGTTGACACGTGCGATGATACTAAATGGATGAAGA
TGTACATTCTGACGTCCAGGTCGTGAGTTCGAAACCCGATGTTTTTTTTT
GTTCATGTTTACCCTGGTAGTGAAAGGCGGATGTTATGATATCATACTTC
GTGAGCAAGCAAAATTAGTCGGCTTGAAGAAGTCGACGTTCGAGTAAAGG
GACGGGCGAACCGTTCGCGAGAAACATGAAGCAGGGTGGAGAATAAAAAA
TATCTCCTGCGTTGCCCTTCCTCCTGTTACCTCGGAGCAGAAACGCCCAC
ACACATATCTAAAGGTGTAGACTGGCGCCCGAAATCTACGAGAGGTTAAA
AAAACACCGCTTCAAGATCTC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig127:384143..410013+ >mRNA_P-littoralis_Contig127.88.1 ID=mRNA_P-littoralis_Contig127.88.1|Name=mRNA_P-littoralis_Contig127.88.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1944bp|location=Sequence derived from alignment at P-littoralis_Contig127:384143..410013+ (Pylaiella littoralis U1_48)
ATGATTCAGAGAGCGGACAGCAAGCGATCAGGGGCCGGGAACACGTCTAT
TTCTCACGGTCCTGCCGCTGGGAACGGAACCAGACATCGTAGGCTCACAT
CCTCGAGGTTTAAGCACGCCAGGGCAAACGGAACGTTTCTGAGGCGACTC
ATGTCTTTTGTCGGGCTAGGCTCTATGGGGCTCGTGGCCATGATTATGGT
CTACACCGTCTCTCGCCTCGACGCTAGACGGCGGTCGGCGTTTTCGGTGG
GTTTCAGCTATAAGGAGGGGGGCTTGCGGGGGGACAAAGGCGCCGCCGCA
GATCAATGGCAGCAATTACAGAAGCCGCTGCCGCAGCCATTTCCAGCACC
GCCGCCGCCACCACCACCTGCACCGCTGCCCCTGGAAGAAGATGGAGGGG
CTGTGGACGCGAATGGGCCGGTTGTTGCGGTGGAGGATTATGACGGAGAG
AAGAACAAAGATCGAAATCGGGGCAAAAGGCCAAAGAAAAGATTCCAACG
GGCTCCAAACGCGAAAATTCTGGAGCGTGGCGGTTGGAAAGGTGGCGGGG
GCGAGGGTATCGACACTGATGTCGGCGATTCGTCATGGGGTAACGAGGTC
ACGACGGGTGCGCCGAGTTCGAACGCTGTCGGCTATGCCGCTGCTGCCGC
TTTATCTGTCGGTGACGAGTTCCTCACGAGAGCGGTCATCGTTGACGCTG
ACAAAAGTGACGGCGACGTCCTCCGTGGCGCATCAGGACAGCAGCAGCAG
CAGCAGGCGGCGGCGAAACCGCAATCGGGTCAGTTGCAAGACCTGGCCGA
GCTGCACGAGGATATTTTGGATCAAGAGGGTAGCGAGGAATGGACGACTG
TACAGACCACTCCGATGCTTGGTGCGGACGCCGCATTACTAATCATTTGC
GCCAACAGACCCGAGTACCTCAAGAGGGCGCTAGATGCCGTTGCCGAGTA
CCACCCGGGGAGTTCGAGGGGTACTGGTTATTCGATACCGGTGGTGATCT
CACAAGACGGGTCGTCCCAGCAAGTAGAGGATGTCATCTCTCAATTTAAG
GATTCGATGGCAGGACGTGCCCACGTGATTCACATCCGCCACACGCCCCC
GCCAAGAGAAACCCGACCGTACTTCAAGCTTTCGGCGCACTACAAGTGGG
CATTGAGCCAGGTGTTCGACGAGCTGGACCTTGACAGCTACGACTCGGCA
TCGAAGGACAAAACAATCATCCTGGAGGAGGACCTAGAGATTGCGCCGGA
CTTTTTCGAGTACTTTTCGGCGACAGCGCCCCTCCTGGACTCCGACGAGA
CGCTCATGGCGGTTTCGGCTTGGAACGACAACGGTCAGGCCGACCATGTC
AAGAACAACGAGGCGCTTTTCCGGAGCGACTTCTTCCCTGGGTTAGGGTG
GATGCTCCCGCGAAGGTTGTGGGACGAGCTGGCCCCGGAGTGGCCGGAAG
CGTACTGGGACGACTGGCTCCGAGAGCCGGAGCGGCGCAAAGAGAGGCAG
TTCATACGCCCCGAAGTTTGTCGGACCTACCACTTTGGGCAAAAGGGCGG
AGCTTCGAACAACCAGTTCGCCGACCCTCTTAGCAGCATCAGGCTCAACA
CGATCGCGGTACCGTTTCGAGAAATGGATCTGTCGTATCTTGAGCCGGAT
ACTTTCCGGGATTGGCTCGGCAGTGTCCTACGGGACGCTGCTACCGAGTC
GATAGAAAACGTCACGGCCGGCCGATCCCATTCGCCGACGGTCGTGGTCG
AGTACGGGAGCGAAAGAGAGTTTGAGAGGCTTGCGGGACGGCTTGGCATC
ATGAAGGACACCAAGGCCGCCATTCCCAGAACGGCGTACGCGGGTGTGGT
GCCCATCTGGGTCGGAGATACGAAGGTCTTTCTAGCCCCCAAGGGGGGTG
TCCGAACAGCTGATGATCCGCGAAACCCCCTAAGTCACAAATAA back to top
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