|
|
Homology
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: D8LFH3_ECTSI (Glucosylceramidase, family GH30 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LFH3_ECTSI) HSP 1 Score: 1101 bits (2847), Expect = 0.000e+0 Identity = 545/801 (68.04%), Postives = 627/801 (78.28%), Query Frame = 1
Query: 43 MPGYERISEGLQPGGAIGQYAREEEGGGRAFIQSSRGRA---QGDGKLRRKLTVAVSLGLLAVLGVVLSVSGXXXXXXXXXXXXXXAANFGSKHAGGSVFVFESSMHTGARLDQGFPSPASFKEECSSXXXXXXXXXXXXXXXXXXXXXXXXADAGGPDTLCPQRSGPGTVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPSGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAPRDGMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLL-GEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFTQSINLVPCDSAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSE-QQWQFLEVDGG-AGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVGPRSIQTILA 2427
M GY RI EG PG + Q ARE EG R ++SS G A QG R+L VAV LG+L VLGV+L SG A+F S+H+ V VFESS H G RLDQGFP+PAS K+ + +C +R GTVVV+SD+K+QE+IGFGGAFTDAATINF+KLP+DVQE+VLDAYFGP+GIEYSVGRIPMGSCDFSVEQYSFD+VPGDYNLTHFDDGVEKDTAQRIPMLL AL R E LKLF SPWSPPAWMK P+DG+QSM ESA+P+GLL DP VHAAWALFFSRFISAYKEQGVD+WGLTIQNESENPGPWEACVYTPSSQA FIRDHLGP+IRRDHPD+KIMAFDHNRDHL+TW +EM+ +EET+QYVDGMAFHWY AS RL+DGS+GW ALNT+H+LL G DKFILSTESCNCP V+HSLEGGWKRAEH HEMIADVNSWSTGWVDWNLML YDGGPNHA NLCD+P++ N+NHTDVIFQPM+Y +GHMSKFA+PGARRLKSHVTG YQ GG GPS L G+EATLYGCEGSVRQSWE+SATG+ISLAD +GAQYDWF P+CLS+++++ +S+NLVPCDS +AGTFV+D SGR+ LQ++ASSPP+AD V V +S ES+CLDVL STDDG +LTL PCD + E S Q+W+F E G G GSL+S TGRC+TAGWPFFTGAAFEM++ S+DRYGKDYAVV+LNEAEE VEFDL+FPSE F+V ++GPR+IQTILA
Sbjct: 1 MRGYNRIPEGASPGESDAQGARE-EGNVRTPLRSSSGSAAEGQGGETRNRRLAVAVPLGVLGVLGVLLITSGGGGRRLRPEPEAGSPASFESQHSVAGVSVFESSFHDGTRLDQGFPAPASLKQVIA---------------------------------VCAERGVSGTVVVESDDKLQEIIGFGGAFTDAATINFFKLPEDVQEQVLDAYFGPNGIEYSVGRIPMGSCDFSVEQYSFDEVPGDYNLTHFDDGVEKDTAQRIPMLLSALARREDLKLFTSPWSPPAWMKEPKDGVQSMIESALPQGLLADPGVHAAWALFFSRFISAYKEQGVDLWGLTIQNESENPGPWEACVYTPSSQAKFIRDHLGPVIRRDHPDVKIMAFDHNRDHLVTWAEEMMSNEETAQYVDGMAFHWYVASWNRLLDGSMGWGALNTTHNLLSGRDKFILSTESCNCPNVDHSLEGGWKRAEHTLHEMIADVNSWSTGWVDWNLMLSYDGGPNHAGNLCDTPIVSNENHTDVIFQPMFYSIGHMSKFAQPGARRLKSHVTGLYQNGGSGPSTALAGYEATLYGCEGSVRQSWEMSATGRISLADNFGAQYDWFQPLCLSKDISESFKSVNLVPCDSDQAGTFVYDQDSGRIALQADASSPPDADPQTVADAEDPV-----VSGSTESVCLDVLDGSTDDGVVLTLNPCDLESTSEDTSSGQRWEFAEAKSGDGGGGSLVSAATGRCMTAGWPFFTGAAFEMSDASKDRYGKDYAVVLLNEAEEPVEFDLSFPSEGFSVRAIIGPRAIQTILA 762
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A835Z8L7_9STRA (Glucosylceramidase, family GH30 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z8L7_9STRA) HSP 1 Score: 645 bits (1665), Expect = 2.350e-216 Identity = 319/637 (50.08%), Postives = 423/637 (66.41%), Query Frame = 1
Query: 538 GTVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPSGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAP---RDGM--QSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLL-GEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRG--GGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFTQSINLVPCDSAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDG--AMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVGPRSIQT 2418
G + V S QE++GFG AFTD+ATINFYKLP++ Q+ V+DAYFGP GI Y++GRIPMGSCDFSVEQY++DDVPGDY++ HFD+ +E D QR+PM+ ALKR+ LKLF+SPWSPPAWMK P +DG+ QSM ES+ P+GLL DP V AWAL+FS+FISAYK GVDMWG+TIQNE ENPGPWEACVY SS +F+RDHLGP++R DHP+L+IMA+DHN+DH++ WT+ ++ D T++Y+DGMAFHWYY R +DGS GW + + LL KF+LS+ESC+CP+V+H+L+G W RAEH+AH+++AD+ + + GWVDWN+ LDYDGGPNHA NLCD P+ N++H+ + PMY+F+GH+S+F PG+RR+ SH G Y G G S VL GFEA+L C+GSVRQ W L G++ L D + ++ P+CL +T+ + +V CD AG F SG + L ++A + AD ++ P E S CL +L G A +TL C G Q++ D GA + G+C+TAGWP+FT +AFE D VVVLNEAEE VEFD+ F + ++ + SIQT
Sbjct: 30 GRIDVDSTASYQEIVGFGAAFTDSATINFYKLPKEAQDFVIDAYFGPDGIGYTIGRIPMGSCDFSVEQYNYDDVPGDYSMEHFDNNIEYDQKQRVPMIKEALKRQPNLKLFMSPWSPPAWMKYPTKDKDGVYRQSMIESSYPQGLLDDPRVKHAWALYFSKFISAYKALGVDMWGVTIQNEPENPGPWEACVYNASSTGAFLRDHLGPVLREDHPELQIMAYDHNKDHMVAWTQILMHDPATAKYLDGMAFHWYYGGMDRGLDGSYGWGNVEEAGALLLPHGKFMLSSESCHCPFVDHTLDGSWARAEHLAHDVLADLEAGAGGWVDWNIFLDYDGGPNHAGNLCDVPIYANEDHSGAVVGPMYHFMGHVSRFVPPGSRRIASHARGAYGAGTLGSRASGVLRGFEASLAPCDGSVRQRWALLPDGRVQLVDQLTEYFQYWKPVCLGSAPDVWTRVVTIVACDEPTAGVFSRA-DSGALRLDADAVNAALADAALL--------PLENSS---AEQCLALLEPGARSGRGAGVTLGGC-------GRGAQRFDVGSADAKGGAPFTAADARGQCLTAGWPWFTASAFETPRG-------DTVVVVLNEAEEPVEFDIVFQPQGRALAAAIPAHSIQT 640
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A7S2V2A4_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V2A4_9STRA) HSP 1 Score: 499 bits (1286), Expect = 5.440e-159 Identity = 264/635 (41.57%), Postives = 381/635 (60.00%), Query Frame = 1
Query: 538 GTVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPSGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGA-LKREEG-LKLFISPWSPPAWMKAPRD--GMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFTQSINLVPCDSAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPC-DFDEDHEGGSEQQWQFLEV---DGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVGPRSIQT 2418
G V V + +K QE++GFGGAFT+++ N+ LP+ +QEKVL+AYFG GI YSVGR+ + SCDFS+ Y+FDDV D+ L HFD V D A IP + A K + G +K+F SPWSPP WMK P D +M SA P GL DP H +WAL+FS++++AYK G+D+WG+TIQNE PW+ACV+TP F RD LGP+++ +HP++KIM FDHN+D ++ W + + D E DGMAFHWY RL+DG+ G+A L H+L DKFIL +E C+CP V++ G RAE AH+++ D+N+WS GWVDWNL+L+++GGPNH N+CD+P++ ++ +DV+FQP Y++ GH++++ +PGA + S T YQ+ GG + ++ E TL+ C+GS RQ W L K+ L D ++ + CL + + L CDS +AG F D +GR+VLQ++A P N +++CL V+ S D AM C D + +++W F V + G G +++ G+C+TAGW FF +AF +N + +VVLNEA+E VEF++ S+ V +GP S+QT
Sbjct: 118 GFVEVDTSQKFQEVMGFGGAFTESSAFNWAMLPKKIQEKVLEAYFGEDGIGYSVGRVHINSCDFSMASYNFDDVEDDFELEHFDSNVTHDAALLIPFIKAANAKNKYGPMKIFASPWSPPEWMKVPVDKNDKMTMKGSAWPVGLKNDPRYHRSWALYFSKWLTAYKNHGIDIWGVTIQNEPLFAAPWDACVWTPEYMRDFARDFLGPMLKENHPEVKIMGFDHNKDLVVEWAEILYADPEARAVFDGMAFHWYGGGVDRLIDGTYGYAMLQRLHNL-APDKFILPSEGCSCPGVKY---GSILRAERKAHDIMQDLNNWSVGWVDWNLLLNFEGGPNHVGNICDAPILTREDFSDVVFQPEYFYTGHITRYVQPGAVNIYSSPTARYQKYKGGRANIIENLEGTLWSCDGSSRQEWTLK-DNKVWLQDVIHEEWKF----CLGTGDFEKQDQVFLKVCDSKDAGLFDLD-DAGRLVLQADA--PGNLYN--------------------QTMCLTVMDNSHRDAAMAVFEFCPDEVAPEDVPPQRKWDFQSVVDKEKGGITGEIVNGKHGKCLTAGWAFFQSSAF-LNPDGST------VLVVLNEADEGVEFNII--SDGDYVPTSIGPHSMQT 711
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: K3X2V2_GLOUD (Ricin B-type lectin domain-containing protein n=2 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3X2V2_GLOUD) HSP 1 Score: 454 bits (1169), Expect = 3.470e-142 Identity = 256/629 (40.70%), Postives = 353/629 (56.12%), Query Frame = 1
Query: 544 VVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPS-GIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAP-RDGMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFT-QSINLVPCD-SAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVGPRSIQT 2418
+ V K QEM+GFGGAFT+AA + F KL + QE+VL YF G Y GR+PMGSCDFSV Y+F+DV D ++HFD+ VE DT IP + AL++ LK+ ++PWSPPAWMK +D M SM S P GL D AWAL+FS+FISAYK G++ WGLT QNE E PWEAC Y S +A F+ LGP+I+RDHPD+KIM FDHNRD++ W + E S+YVDG+AFHWY +R+MDG LN +H++ E +FIL+TESCNCP V + + W R + AH+MI+D N+W GWVDWNL+LD+ GGPNH N CD+P+I ++ D QPMYYF+ H SKF PG+RR+ + V+ +++ G + + + L+ C+ S RQ+ + K+ + +P C+ D+ + + LV C ++++ TF GS G +IS G CL + H ST DG +T+ PC+ D+E S Q W F GS+ S+ + +CVTAG+ F F E + +VVLNE E EF+L + + + V+ +IQT
Sbjct: 123 IAVDVSTKFQEMLGFGGAFTEAAALQFAKLSPEKQEEVLKLYFDKEDGAAYEFGRVPMGSCDFSVGSYNFNDVANDITMSHFDNNVEHDTKLLIPFIQRALEKNPKLKMLLAPWSPPAWMKRESKDYMPSMLGSVTPVGLRDD--AREAWALYFSKFISAYKNYGINFWGLTPQNEPEFAAPWEACGYNASYEAEFVGSFLGPVIKRDHPDVKIMVFDHNRDNVHHWADTIFNHPEASKYVDGIAFHWYDV--ERVMDGVEFHERLNDTHYV-DESRFILATESCNCPGVANGTQA-WFRGQRYAHDMISDFNNWVVGWVDWNLILDHTGGPNHLGNNCDAPIIIDETEKDYYLQPMYYFIKHFSKFVPPGSRRIHTDVSATFKKPG--DAQLYVNYPVELHTCDNSARQAIHKTDDNKLQVTG---------TPFCIDLLRPDWVNRQVALVECQYTSQSWTF----------------------------GSNG-----KISMAG--YCLALNHGSTADGVRVTVNPCN---DNEEPSHQLWNFKN-------GSMYSLASPKCVTAGYSFVQSVGFVTPENKK-------VLVVLNENTEDAEFELQYG--DLALETVIPQGAIQT 680
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A662Y065_9STRA (Ricin B-type lectin domain-containing protein n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662Y065_9STRA) HSP 1 Score: 444 bits (1143), Expect = 1.640e-138 Identity = 248/630 (39.37%), Postives = 343/630 (54.44%), Query Frame = 1
Query: 523 QRSGPGTVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGP-SGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMK-APRDGMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFT-QSINLVPCD-SAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVG 2400
Q+ + V D QE++GFGGAFT+A+ + F KLP + QE+VL YF +G Y GR+PMGSCDFS YSFDDV D L HFD V+ DT IP + AL+R +K+F++PWSPPAWMK A D SM S P GL D A WAL+FS+FISAYKE G+ WGL+ QNE E PWEAC Y P+ +A FI D LGP++ RDHP L +M FDHNR+H+ W + + SQYVDGMAFHWY G+R +DG+ LN +H + E +F+L+TESCNCP V H + W RA+ H+++AD+N++ GWVDWNL+LD+ GGPNH N CD+P+I ++ D QPMYYF+ H SK+ G+RR+K+HV + G + ++ +++ L C+GS RQ+ ++ K+ + +P CLS + + + LV C + +A TF + + R+ CL + +T DG +T C E + QQW F DG + + S +CVTAG+ F AAF EE + +VV+NE E +F+L ++ G
Sbjct: 101 QKKAASFIAVDVDTTYQEIMGFGGAFTEASALQFQKLPLEKQEEVLTLYFDKVNGSGYEFGRVPMGSCDFSTSSYSFDDVANDTELLHFDTDVKHDTETIIPFIKRALERNPDMKMFLAPWSPPAWMKRAGSDYTPSMLGSVKPVGLKDD--ARAPWALYFSKFISAYKEHGIPFWGLSPQNEPEFAAPWEACGYDPTYEAEFIGDFLGPVLARDHPGLTLMVFDHNRNHVQEWAEVIYNHPTASQYVDGMAFHWYEDGGERYLDGAEYHDHLNDTH-FVDETRFMLATESCNCPGVAHG-DDAWFRAQRYGHDIMADLNNYVVGWVDWNLLLDHTGGPNHKGNNCDAPIIVTESGKDFFVQPMYYFIQHFSKYIPVGSRRVKTHVAARFAEPG--EAQLMVDYQSALAACDGSSRQAIHVTEDSKMQVTG---------TPFCLSMVDSPVQGKEVRLVECQYTQQAWTFEAETERIRI----------------------------------GDYCLSLKRGTTQDGVRVTADLCG----DEVAAHQQWTFNGEDGTMRSRASSSA---QCVTAGYSFVQAAAFVTPEERK-------VLVVMNENTEPADFELQVGGAALATTIPQG 667
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: W4G5S9_9STRA (Ricin B-type lectin domain-containing protein n=9 Tax=Aphanomyces astaci TaxID=112090 RepID=W4G5S9_9STRA) HSP 1 Score: 444 bits (1142), Expect = 2.740e-138 Identity = 240/580 (41.38%), Postives = 331/580 (57.07%), Query Frame = 1
Query: 541 TVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGP-SGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAPRD-GMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFTQSINLVPCDSAE-AGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFE 2271
T+ + + QE++GFGGAFT+A+ +NF KLP+ QE+VL YF +G YS GR+PM SCDFSV YSFDDV GD +L HFD V KDT IP+L AL+R LKLF+SPWSPPAWMK P D G SM SA P G+ +P AAWAL+FS+FISAYK G+ WGLT QNE P PWEAC + S+A+F+ D LGP IR+DHPD+KI+ FDHNRD + W + S+YVDG+AFHWY G+ L DG++ + LN +HHL K +L+TE+CNCP V + + W RA+ H++++DVN+++ GWVDWNL+LD++GGPNH +N CD+P++ + T I QP+YY++ H S F PG++R+ + V + G A+L + + + C+GS+RQ+ + K+ + + C+ F + L C + TF D G + Q + CL V H ST++GA +TL CD + QQW G G + + TG C+TAG+ F AF+
Sbjct: 120 TIYIDDSKVFQEILGFGGAFTEASALNFKKLPRAKQEEVLRLYFDEKTGAAYSFGRVPMNSCDFSVGSYSFDDVVGDVSLAHFDTNVTKDTESIIPLLHRALQRRPDLKLFLSPWSPPAWMKLPNDKGKYSMTGSATPLGI--NPIYQAAWALYFSKFISAYKHHGIAFWGLTPQNEPMFPAPWEACFWEAHSEATFVGDFLGPQIRKDHPDVKILVFDHNRDAVTEWAAAAYA--KASEYVDGVAFHWYNGDGREL-DGALYYNHLNDTHHL-DPSKLVLATEACNCPGVASTADVAWFRAQRYGHDILSDVNNYANGWVDWNLLLDHEGGPNHLNNKCDAPLLLTPDATSFIVQPLYYYIKHFSAFVPPGSKRIAADVRVSFDTPGT-DHALLLKYPSAAHVCDGSIRQAVIRTPDNKLQVQG---------TDFCIDVVREWFGDKVELTMCIYTQNVYTFNED---GAIQFQGK--------------------------------CLSVAHGSTENGAAVTLEACDQS------TAQQWHV-------GQGVVTNHATGFCLTAGYAFAQATAFQ 635
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A484EE37_BRELC (Ricin B-type lectin domain-containing protein n=1 Tax=Bremia lactucae TaxID=4779 RepID=A0A484EE37_BRELC) HSP 1 Score: 435 bits (1119), Expect = 4.120e-135 Identity = 246/623 (39.49%), Postives = 343/623 (55.06%), Query Frame = 1
Query: 544 VVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGP-SGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMK-APRDGMQSMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQ-ELTDFTQSINLVPCD-SAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVG 2400
+ + D K QE++GFGGAFT+AA++ F KLP + QEKVL YF +G Y+ GR+PMGSCDFSV Y+F + D ++ FD V DT IP + AL+ +KLF+SPWSPP WMK + + SM SA P GL +D + A WAL+FS++I+AYK G+ WGLT QNE E PWEACVY P QASFI + LGP++ RDHP + IMAFDHNR + W + + S+YV GM FHWY R MDG V + + HL+ ++F+LSTESCNCP V + W RA+ HE+++D+N+++ GWVDWNL+LD+ GGPNH NLCD+P+I ++ D QPMYYF+ H SK+ PG+RR+ + Y + G + ++ G++A+L C+GS RQ + K+ + + +P CLS T Q I LV C+ + + TF D Q R+ + CL + H +T+D + +A CD + +QQW+F DG + L T +CVTAG+ F AF E+ +VV+NE E +EF + SV+ G
Sbjct: 101 ITIDVDTKYQEIMGFGGAFTEAASLQFQKLPPNKQEKVLSLYFDKDAGSGYNFGRVPMGSCDFSVASYNFANTEYDMDMKDFDMNVSHDTDVMIPFIKRALELCPDMKLFLSPWSPPGWMKRSSPEYTASMVGSAKPLGLKED--MRAPWALYFSKYITAYKNHGIPFWGLTSQNEPEFAAPWEACVYDPEYQASFIGEFLGPVLARDHPGMTIMAFDHNRGNAPKWAQVIYNHPTASKYVSGMGFHWYQDGAARKMDG-VDYPEHLSDIHLMDPNRFLLSTESCNCPGVAVG-DDAWFRAQRYGHEIMSDLNNFAVGWVDWNLLLDHMGGPNHKGNLCDAPIILTEDGKDFRLQPMYYFIQHFSKYLLPGSRRVSVQIAAHYAKPG--DAQLVVGYQASLSMCDGSARQLIHRTNDNKLQVTN---------TPFCLSMVPKTTEGQEIRLVKCEWTQQEWTFEEDTQRIRI----------------------------------DDECLSLRHGTTEDSVRVIVAKCDANSK----LQQQWKFETEDGTMRS---LGSTENQCVTAGYAFLQSTAFVTPEDRT-------VLVVMNENTEPMEFQVQVGDAVLDTSVLPG 660
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A8K1CG86_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CG86_PYTOL) HSP 1 Score: 434 bits (1117), Expect = 1.420e-134 Identity = 244/613 (39.80%), Postives = 343/613 (55.95%), Query Frame = 1
Query: 544 VVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPS-GIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKA--PRDGMQ-SMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQY--DWFSPMCLSQELTDFTQSINLVPCD-SAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTT-GRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDL 2358
+ V +K QE+ GFGGAFT+A+ + F KL ++ QE+VL YF G Y GR+PMGSCDFSV YSF +V D LTHFD V DT IP + AL++ LKLF++PWSPPAWMK P G + SM SA P GL +P+ AAWAL+FS++I+AYK QG+ WGLT QNE E PWEAC+Y S QA F+ + LGP+IRRDHPD+KIM FDHNR ++ W + + + YVDGMAFHWY +R MDG LN +H++ E++F+L+TESCNCP V + W RA+ AH+++ D N+W GWVDWNL+LD+ GGPNH N CD+P+I ++ D QPMYYF+ H SK+ G+RR+ + V +++ G + + P + A L+ C+GS RQ ++ K+ + G +Y D P + + LV C +++ TF++ G++ + ++ CL + H+ST+ G +T C D D+ Q+W F + G++ S+ +CVTAG+ F +F E + VVLNE E F+L
Sbjct: 124 ITVDDSKKFQEIFGFGGAFTEASALQFEKLSKEKQEEVLKLYFDKEEGSGYEFGRVPMGSCDFSVSSYSFAEVANDTELTHFDTEVTHDTKILIPFIKRALEKNPKLKLFLAPWSPPAWMKQGDPAHGYEPSMLGSAAPNGL--NPDYRAAWALYFSKYITAYKNQGIPFWGLTPQNEPEFAAPWEACLYKASYQADFVGEFLGPVIRRDHPDVKIMIFDHNRASVLHWAQTIYNHPKAKDYVDGMAFHWY--DDERYMDGVEFHERLNDTHYV-DENRFMLATESCNCPGVAKG-DDAWFRAQRYAHDILTDFNNWVVGWVDWNLILDHTGGPNHLGNNCDAPIIIDETEKDYFIQPMYYFIQHFSKYVPAGSRRIHTEVAARFEKPG--DAQLYPRYPAALHPCDGSSRQQIHVTDDSKLQIT---GTEYCIDLLHPQWEGGQ-------VELVKCIYTSQKWTFIN----GQIRML-------------------------------DNHCLHLHHQSTESGVRVTTRLCKDDADY-----QKWDFKD-------GTMRSLAAPDKCVTAGYSFVQATSFVTPENKK-------VTVVLNENTEDATFEL 664
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: A0A225X206_9STRA (GH30 glucocerebrosidase/glucosylceramidase n=1 Tax=Phytophthora megakarya TaxID=4795 RepID=A0A225X206_9STRA) HSP 1 Score: 434 bits (1115), Expect = 2.000e-134 Identity = 247/623 (39.65%), Postives = 337/623 (54.09%), Query Frame = 1
Query: 544 VVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPS-GIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAPRDGMQ-SMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFT-QSINLVPCD-SAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVG 2400
+ V D K QE++GFGGAFT+AA + F KLP++ QE+VL YF G Y+ GR+PMGSCDFSV Y+F + D NL +FD V D IP + AL+R+ +KLF++PWSPPAWMK + SM S P GL D + A WAL+FS+FI+AYK+QG+ WGL+ QNE E PWEAC Y P +A FI + LGP++ RDHPDL +M FDHNR+++ W + + S+YVDGMAFHWY G+R MDG LN +H++ + +F+L+TESCNCP V + W RA+ H+++ D+N+ GWVDWNL+LD+ GGPNH NLCD+P+I ++ TD QPMYYF+ H SKF G+RR+ V + + G + + ++++L C+GS RQ+ + KI + +P CL+ T I LV C + + TF D R + CL + ST+D +T C D QQW F DG SL+S TT +CVT G+PF AF E+ + +VVLNE E EF + SV+ G
Sbjct: 109 ITVDVDTKFQEILGFGGAFTEAAALQFQKLPKEKQEEVLTLYFDKEKGSAYNFGRVPMGSCDFSVASYNFAETKDDMNLENFDVNVTHDKETMIPFIKRALERQPDMKLFLAPWSPPAWMKRSNAEYEASMLGSIKPVGLRDD--MRAPWALYFSKFITAYKKQGIPFWGLSPQNEPEFAAPWEACAYDPEYEAEFIGEFLGPVLDRDHPDLTLMVFDHNRNNVHHWAEVIYNHPTASKYVDGMAFHWYEDGGERYMDGVEYPEHLNDTHYI-DQSRFMLATESCNCPGVATGKDA-WFRAQRYGHDILTDLNNHVVGWVDWNLLLDHKGGPNHKGNLCDAPIILTEDETDFKIQPMYYFIQHFSKFIPAGSRRVNVKVAAQFAKPG--DAQLYVDYQSSLEMCDGSSRQTLHKTEDNKIQVTS---------TPFCLNLVPTPSEGHEIRLVECQWTQQTWTFEEDTHRIRT----------------------------------DDYCLSLSRGSTEDSVRVTADKCQEDVV----PHQQWTFNAEDGTMR--SLVS-TTNQCVTTGYPFVQATAFVTPEDRK-------VLVVLNENTEPAEFQVQVGDAVLDTSVLPG 668
BLAST of mRNA_P-littoralis_Contig14.186.2 vs. uniprot
Match: W2QKZ9_PHYPN (Ricin B-type lectin domain-containing protein n=14 Tax=Phytophthora TaxID=4783 RepID=W2QKZ9_PHYPN) HSP 1 Score: 434 bits (1117), Expect = 2.770e-134 Identity = 246/624 (39.42%), Postives = 346/624 (55.45%), Query Frame = 1
Query: 544 VVVQSDEKMQEMIGFGGAFTDAATINFYKLPQDVQEKVLDAYFGPS-GIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDDGVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAPRDGMQ-SMNESAMPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEACVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDEETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESCNCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHADNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQRGGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSPMCLSQELTDFT-QSINLVPCDSAEAGTFVHDPQSGRVVLQSEASSPPNADTPVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHEGGSEQQWQFLEVDGGAGAGSLLS--VTTGRCVTAGWPFFTGAAFEMNEESRDRYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVG 2400
+ + + K QE++GFGGAFT+AA + F KLP + QE++L YF G Y+ GRIPMGSCDFSV+ YSFDDV D L +FD V+ D IP + AL+R+ +KLF++PWSPPAWMK D SM S P GL D + AAWAL+FS+FI+AYK+QG+ WGLT QNE E PWEAC Y S QA FI D LGP++ RDHP+L +M FDHNR + W + + +QYVDGMAFHWY +R MDG LN +H + +++F+L+TESCNCP V + + W RA+ H+++ D+N+ GWVDWNL+LD+ GGPNH N CD+P+I ++ TD QPM+YF+ H S++ G+RR+K+HV +++ G + ++ + A L C+GS RQ+ ++ KI + S CL + + I +V C + T+ + +GRV + CL + H ST++G LT +PC+ E Q+W F + DG +L S TT +C T G+ F AF E+ + +VVLNE EA +F++ S+ G
Sbjct: 144 IAIDLERKYQEIMGFGGAFTEAAALQFQKLPPNKQEELLTLYFDKEKGSAYTFGRIPMGSCDFSVDSYSFDDVLNDTKLLYFDMSVKHDQHVLIPFIKRALERQPEMKLFLAPWSPPAWMKRGSDEYTPSMLGSMDPVGLKDD--MRAAWALYFSKFITAYKKQGIPFWGLTPQNEPEFAAPWEACKYNASYQAEFIGDFLGPVLDRDHPELTLMVFDHNRASVRQWAEAIYNHPTAAQYVDGMAFHWY--DMERYMDGVAYHERLNDTH-FIDQNRFMLATESCNCPGVAYG-DAAWFRAQRYGHDIMTDLNNHVVGWVDWNLLLDHKGGPNHQGNNCDAPIILTEDGTDFNIQPMFYFIQHFSRYIPVGSRRVKTHVAARFEKPG--DAQLMWAYPAALTSCDGSARQTMHVTNDSKIEVTG---------SGFCLGMVDAAWQGKEIQMVQCKFTQQ-TWTFEEDTGRVRVG--------------------------------DYCLSLNHASTENGVRLTASPCEA----EIVPHQKWTFNDEDG-----TLRSHASTTDQCATGGYSFVQATAFVTPEDRK-------VLVVLNENTEAADFEIQVGDMALETSIPKG 701
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.D8LFH3 |
| PFAMs | Glyco_hydro_30,Glyco_hydro_30C,Ricin_B_lectin |
| Model size | 3510 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00059,RC00451 |
| KEGG ko | ko:K01201 |
| KEGG Reaction | R01498 |
| KEGG Pathway | ko00511,ko00600,ko01100,ko04142,map00511,map00600,map01100,map04142 |
| Hectar predicted targeting category | signal anchor |
| GOs | GO:0000323,GO:0003008,GO:0003674,GO:0003824,GO:0004348,GO:0004553,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005764,GO:0005773,GO:0006629,GO:0006643,GO:0006664,GO:0006665,GO:0006672,GO:0006677,GO:0006678,GO:0006680,GO:0006687,GO:0006807,GO:0006950,GO:0006986,GO:0007275,GO:0007568,GO:0007610,GO:0007611,GO:0007613,GO:0007626,GO:0008150,GO:0008152,GO:0008340,GO:0008344,GO:0009056,GO:0009987,GO:0010033,GO:0010259,GO:0016042,GO:0016787,GO:0016798,GO:0019377,GO:0019725,GO:0030149,GO:0030534,GO:0032501,GO:0032502,GO:0033554,GO:0034620,GO:0034641,GO:0035966,GO:0035967,GO:0042221,GO:0042592,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043603,GO:0044237,GO:0044238,GO:0044242,GO:0044248,GO:0044255,GO:0044424,GO:0044444,GO:0044464,GO:0046466,GO:0046477,GO:0046479,GO:0046514,GO:0048856,GO:0050877,GO:0050890,GO:0050896,GO:0051716,GO:0060249,GO:0065007,GO:0065008,GO:0070050,GO:0070887,GO:0071310,GO:0071704,GO:1901135,GO:1901136,GO:1901564,GO:1901565,GO:1901575,GO:1903509 |
| Exons | 17 |
| Evalue | 0.0 |
| EggNOG OGs | COG5520@1|root,KOG2566@2759|Eukaryota |
| EC | 3.2.1.45 |
| Description | glucosylceramidase activity |
| Cds size | 2388 |
| COG category | M |
| CAZy | GH30 |
| BRITE | ko00000,ko00001,ko01000 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789651.4628081-UTR-P-littoralis_Contig14:772031..773111 | 1680789651.4628081-UTR-P-littoralis_Contig14:772031..773111 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig14 772032..773111 - |
| 1680789651.689367-UTR-P-littoralis_Contig14:792905..792947 | 1680789651.689367-UTR-P-littoralis_Contig14:792905..792947 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig14 792906..792947 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789651.483624-CDS-P-littoralis_Contig14:773111..773366 | 1680789651.483624-CDS-P-littoralis_Contig14:773111..773366 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 773112..773366 - |
| 1680789651.4951143-CDS-P-littoralis_Contig14:774238..774378 | 1680789651.4951143-CDS-P-littoralis_Contig14:774238..774378 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 774239..774378 - |
| 1680789651.5085192-CDS-P-littoralis_Contig14:775570..775739 | 1680789651.5085192-CDS-P-littoralis_Contig14:775570..775739 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 775571..775739 - |
| 1680789651.5231729-CDS-P-littoralis_Contig14:776779..776922 | 1680789651.5231729-CDS-P-littoralis_Contig14:776779..776922 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 776780..776922 - |
| 1680789651.534942-CDS-P-littoralis_Contig14:777369..777514 | 1680789651.534942-CDS-P-littoralis_Contig14:777369..777514 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 777370..777514 - |
| 1680789651.548572-CDS-P-littoralis_Contig14:778421..778506 | 1680789651.548572-CDS-P-littoralis_Contig14:778421..778506 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 778422..778506 - |
| 1680789651.5571141-CDS-P-littoralis_Contig14:779391..779544 | 1680789651.5571141-CDS-P-littoralis_Contig14:779391..779544 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 779392..779544 - |
| 1680789651.565679-CDS-P-littoralis_Contig14:780651..780784 | 1680789651.565679-CDS-P-littoralis_Contig14:780651..780784 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 780652..780784 - |
| 1680789651.5779693-CDS-P-littoralis_Contig14:781052..781137 | 1680789651.5779693-CDS-P-littoralis_Contig14:781052..781137 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 781053..781137 - |
| 1680789651.594796-CDS-P-littoralis_Contig14:781479..781572 | 1680789651.594796-CDS-P-littoralis_Contig14:781479..781572 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 781480..781572 - |
| 1680789651.6087737-CDS-P-littoralis_Contig14:782200..782326 | 1680789651.6087737-CDS-P-littoralis_Contig14:782200..782326 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 782201..782326 - |
| 1680789651.6217039-CDS-P-littoralis_Contig14:783803..783887 | 1680789651.6217039-CDS-P-littoralis_Contig14:783803..783887 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 783804..783887 - |
| 1680789651.6346197-CDS-P-littoralis_Contig14:784654..784819 | 1680789651.6346197-CDS-P-littoralis_Contig14:784654..784819 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 784655..784819 - |
| 1680789651.6456993-CDS-P-littoralis_Contig14:785985..786234 | 1680789651.6456993-CDS-P-littoralis_Contig14:785985..786234 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 785986..786234 - |
| 1680789651.6555407-CDS-P-littoralis_Contig14:787345..787568 | 1680789651.6555407-CDS-P-littoralis_Contig14:787345..787568 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 787346..787568 - |
| 1680789651.6676557-CDS-P-littoralis_Contig14:792548..792631 | 1680789651.6676557-CDS-P-littoralis_Contig14:792548..792631 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 792549..792631 - |
| 1680789651.6799755-CDS-P-littoralis_Contig14:792848..792905 | 1680789651.6799755-CDS-P-littoralis_Contig14:792848..792905 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig14 792849..792905 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig14.186.2 >prot_P-littoralis_Contig14.186.2 ID=prot_P-littoralis_Contig14.186.2|Name=mRNA_P-littoralis_Contig14.186.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=796bp
MPGYERISEGLQPGGAIGQYAREEEGGGRAFIQSSRGRAQGDGKLRRKLT
VAVSLGLLAVLGVVLSVSGGGQQQQQQQQDESAAANFGSKHAGGSVFVFE
SSMHTGARLDQGFPSPASFKEECSSSSSSSSDSDSDSDSDGDGDSDSDSA
DAGGPDTLCPQRSGPGTVVVQSDEKMQEMIGFGGAFTDAATINFYKLPQD
VQEKVLDAYFGPSGIEYSVGRIPMGSCDFSVEQYSFDDVPGDYNLTHFDD
GVEKDTAQRIPMLLGALKREEGLKLFISPWSPPAWMKAPRDGMQSMNESA
MPEGLLQDPNVHAAWALFFSRFISAYKEQGVDMWGLTIQNESENPGPWEA
CVYTPSSQASFIRDHLGPIIRRDHPDLKIMAFDHNRDHLITWTKEMLLDE
ETSQYVDGMAFHWYYASGQRLMDGSVGWAALNTSHHLLGEDKFILSTESC
NCPYVEHSLEGGWKRAEHVAHEMIADVNSWSTGWVDWNLMLDYDGGPNHA
DNLCDSPVICNKNHTDVIFQPMYYFLGHMSKFAKPGARRLKSHVTGDYQR
GGGGPSAVLPGFEATLYGCEGSVRQSWELSATGKISLADYYGAQYDWFSP
MCLSQELTDFTQSINLVPCDSAEAGTFVHDPQSGRVVLQSEASSPPNADT
PVVGAGSGGVGPEEEISPPGESLCLDVLHRSTDDGAMLTLAPCDFDEDHE
GGSEQQWQFLEVDGGAGAGSLLSVTTGRCVTAGWPFFTGAAFEMNEESRD
RYGKDYAVVVLNEAEEAVEFDLTFPSEEFTVSVVVGPRSIQTILA* back to topmRNA from alignment at P-littoralis_Contig14:772032..792947- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig14.186.2 ID=mRNA_P-littoralis_Contig14.186.2|Name=mRNA_P-littoralis_Contig14.186.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=20916bp|location=Sequence derived from alignment at P-littoralis_Contig14:772032..792947- (Pylaiella littoralis U1_48)
CACATTCACACCATCGCCAAAACCCCCACCAAACTAGGCGACATGCCCGG
CTACGAGCGCATATCGGAGGGTTTGCAACCAGGGGGAGCTATTGGCCAGG
TGTGCTGGACATGGAAGAGAAGGAGGGAGAGAAAATGTATCTGGTGGAAC
ACGTCTTGGCAATCGAAAAGTTTTCTTTGATTCCGGGAGCTTGCTCTGTC
TAGTGCGTCTGCCGCCACGTTTGTTGTCTCTACGTTTCATCGAGTCATCA
CCTCAACTTTCCTAATCTCACCCGTGCTGCCGGTGCTGCTGGTGCCGCTG
CTGCTGTGCTGTGTAGTACGCACGCGAAGAGGAGGGTGGTGGGCGTGCGT
TCATTCAGAGCTCACGAGGGCGAGCTCAAGGCGATGGCAAGCTACGCAGG
CAAGCACATCACAATCGTGCCCGAAGAAATGAAGAAATAGTGTGCCCGAA
GGAATAAAGAAAATAAAAGTGGTCTGGTCGTTCGGTCTGTGAAGGTCCTT
CTGCTGTGCTGCTGCCGCTGTACAGCAGTACATGGGTGGAGAGCAGAGGG
AGGCATCGAGATCACGCGCGCACACAGAATCGACAACAGCACACACACAG
GCAGACACATGTATACCTCCTGCTGCTGCTTCACACTACCACCTCACCAG
TCAGTGCGTGCCGGTAGTGTGCTCGTATCTCAACCACAGCTAAAGTGTTT
TCTGATGATTGTGCGAGGTCTGCTGTCAAGTGTCCTTTCCATTTATTTTT
TCTAAGGAAGCAGTCGTAATGGCCCGGATAAACGGTAGAGCAAAAAAAAC
GAGATAGCGAAAACGAAAACGAAATTGGGCTCTGATTGGTCGGAGCCAGA
AAAGGAAAGAGGCGTGTTTTTGTTTCCACGTCCTCCGGGGAGGCGTTACT
TCGTTTTCGAATTCGCAAAAATAACGTACGGAGTATCTCGGACATTTTTT
TTTGCGAAATCGAAAAACGAAATTCAGCACGGAAGGCTTTTGGCGGGGAT
GCTTCAGCTCTGCGAGGCACATCCGGTTGACCTTTGCATAGCAGACAAGT
TCATGTGCTGATTGATATCTCGCCACACAAGGGACGATACTCCCTACCAA
CTGGATGTCCAATTGGGCGTCAACTAGAAACGCCCAATTTTTGGGGCAGT
GGGGTGTCAAGCGGGAATAAAGCTTTCAATCTACCCACGTTGACCCGTTC
GTGCTCTGAGCCGATTTTGGGGTGAGGTTTGCAAGCAGCCAAGTTCACGT
TTTCACTGGTAACTCAGCGAAATATGGACGAGATTCCCTACCAACTGCGT
CCCTAGAGAGCTGATCTCACTGGCCATCGGTACAGTCCAAAGTTTGGGGC
AGCGGGGTGTCAAGCGTGTCGGGAAGCAAGGCATCAGTCGTTGCAAAAGT
TCAGACAACAAGCAGTCAATTTTGCCTCTTTCGAGAGAGAGAGGATTTCT
TCGAACTCGTTGTCCGTCGTGTCCGTGCGTGGCGGTACTCCGAACATCAG
CCTTTTCCAATAGAGGGTAGACATATCACCGTATCGGTGTGGTTGAAAGG
GGATTTCGTCAGGACTTGGGCGAGATATCAGTGAAAACATCAACACTGCT
GCTGCTCGAAGAGTCAAGGCAAATGGTGTTGCTCTCGTTCATCCCCTCTT
CTCCAAGACCCTGGTGACGGGTCCGTCGTGACAGCCTGAAAAAAAAAAAA
CTTCAGTCGTTAATACCCAACAGTTCGTTTTTCTCCGAAAACGAAGTTAA
TTTCGTTCTGCAGTCCTAATTTCGTTTTTTTTGTCTACCGTTAATCCCCG
CTCTAAAAAATAGAAGTACGAGTAGAGGGTACGGAGTTCAAGTTTCTCAC
ACACGCCTTTCACACCACTGTATTCCTCCTCCTACTACTACTGCTGTACA
CCACAACTAACTGTAGTCAGTGTGTGTGCTGGAGATGAACTAGCATATGA
GGCGGGTGCATGCTGTAGTTGTGATGTGTGTCTGCTGTGTGTTTGGCATG
GTATGGTTGTTGTGTAGTTGTGCAGTATGCATCATGTGCTTTGTGTTTTT
CCGAGGAAGAAGTGGATGAAAAAATGGAAAAAATACAAAAAAGGACAGGA
TAGCAGTCAGCATCATCAACATCAATCACGTGATCATCAGGACAGAGCAA
GCAACAGCAGTAGCAGCATCAATCCAATAAACAGACATCCCGACCTCGCA
ACCCACCCACACCCCTCTCTCTGCTGCTGAGCACATTAAAAGCACGAAAA
GTATGGGAGGTTGTGGTGGTACGTGCGGTCAACCATCAATATCCCTACTG
CGAGTAACGAGAAGAATATGTGTTCCCGCCCAACAATATGAGCAAACTAG
CGGGAACGAGCTTGCTCATATTTTAGAGCTCCAAATCCCTGAAAAATATG
AGCAAACGCTCCCATCTGACATTTGCTCATATTTTATAAACCGGTGCCGG
CTACATTTTCCAGAAATATGAGCAAAAAAAATATGAGCCAAAAACATGAG
CGAAGGAAACCACTTCCGAAACTGTCTAATATGTCGGTCCTGCTGTGTAC
TCAGCAGCCACGTCACATGTTCTGGTTCACCCTGTCTATATCCGGAAGCA
GAAGCGATAGGAGAGAGAGGGAAAAACGAGGGGGAGAGAGATGTGCATGT
TGTCTTTGAGCATCAAGCACAGCGGTACTGCTGTACCTGTAGGATGTGTG
ATAAAAACTTCTCAAAGACAAAAAATTATACTTCGAAGTACAAGGGGGCT
GCGCCGGCGCCCGAGGGGGCGCCGGCTCGTCGTATTTATCACACTTGAAA
CATGCTTTGATGAGGTGTATACAGTCAAGTATGATATCATAATGGTGGCG
CAGAATCGTTGAAGGCGAGGCCTAATACATTGCCCAGGAAATGAGTTGTT
GCACAGATGAGTAGACGGGAAATGAATGTTTTGTGCAGGCGTGCACGGGA
TAATACATGTACAAGTACTTCTTATGATGCTTCGTACGAGTAGCAGACAA
AAACAATCGGAAGTCAGGCCGGCGTTGACTTTTTGTTGAATATGTCGATG
TTCGATGTCCGCCGCCGCCCTGAGCTCAAAATACGATATTTTTCGGCTAG
CCGTACAATCCCCCACTTCAAAATTGATACCTATTTCCGGAGGAAAAACG
AAATGCGCTCGAACAAAGAAAACAAAACATTGAAAAATAAGCGCATTTTG
TGAGGACAACCAACCCAAAACGACAAGGCTGAGACGAAAAAAAAACGCGT
CGATGGGTTAACCCGCGACCTGAAGTTATTTCGTGGACACCTACCCGGAC
CGGCCAAATATGTCCGTACGGAAGTGATGTTGTCACTACTTTCAATGTAT
GACGTCTCTCTGCGAAGGAACAAACGTCTTCCAGAAATAACAAACGTCTC
GCTGCCGCTGCTGAACTGTACGGAGAGCACACCCTAGCATAATGATACAA
AATGTGTACAAGTAGCTCCAGCTCTTCAGCATTTATCTGTAAGAATTTGA
TAGATGAGGAACACTATGACTAGATGCTCATTATCTCCTGGAAATACCAG
AAGATGACGCATATTACTTACGATAACCTGGAACACCCCCGTTACACATA
TGCTTGTCTACACTGACAGGCGACATCCAAGAAGAGATGCATGCAGCACA
CATTATGTGACTTCTGTCATACAAGATGGTCTCCAAATTGTCTTGTCAAG
CCTGATAATCTCAGGGGACCTGAAACGGTGCTTTATCTCACGAGTCATAC
AGACACAGGCAGATGCATACAAGTATTGCTCTTTTGTTCGTTGCCTATCT
AGTCCAGATCGTCCCCTAGAGGGAAGCGAATACAATTGATTGGTTGATTG
GTGCGTAGAAAAAAAAACATGGAGCATCATTGGCTGAGAGTTTGCAGCTT
CCTGCTTCCGTCATTTTTTTCCCGGCGAACAAGGGTTGATTTGGTCATGA
ACAGGAAAGTGTCTCCGATGCCCCTCCCCAAAAAAATCGGAACGCTTTGC
CTCGTGTAGCCAAGTCATTTTTTTTGTTTTTTTGGGTGCTCAGCTACATG
AAGGCATTCCGCCGCAGGGAGACGTGTGTGCGTGTGTTTGGCAGGTCTGC
TGCCATGGCTATCAAAGATGGGACCACCAAGCCTACACAGCAGGCACACC
ACTCCCGGACAAGGCGAAACAAAGGCGCCCGAACTATTTTGAGGTTGTGT
CGCAAAGCCAGACAGGTTTAGTGCTAAAACAAGCAATCGGTGTCCCCAAA
TCATCCCCATTTGGGCGTCCAGTACGTAGCCAAAAGGGTCAGGCCAGTTT
ACAAGATACCTTTGGGTATGTGTCGGGCGCATCAGCTTGGGTCCCAGAAT
TTTCTTATTTCGCGCCACCTTTTCTTTCTTTTGCCGAGAAGGGATTGGCA
ACGCCTCCGTCGACCGTGAACCTCTTGCCTGGTGCAGCAGTGCGTGGTGT
CGTAGCAGAGCACACACCTGGGGCACTCTCACCAATACCCGAACAAGCAG
GCACGGACCACAGCAGTAGTACCGCACCGCACGTGACACGAGATACCACA
CCCTCCGATTTTGTTTTTCGAGTGTGCCGACACCAAACGAGATGGTTTTA
ACCGAGAAGCTGAGGGAAATAAAATTAAAGACTCCAGTTCTCAGCAAGAA
CATTGGCGCCGACCGATTAAAACAAAGAAAGACGTTGTCGAAATGCTATC
GGCGAGACCTCTCAACTACTGCTGTATCATACACGTGACGAACGCCACCC
TTTTCTTCTATTTCTGTCACTATTTTTGCAGTAAAACTTCTCGATATTTT
TTTTAATTAAAAGTTGGCCTACAGGGGTTTGGTGCGGGTGGTATTCGACG
TCTGATACGGCAATACAGAGTACCACCATACGATACCCCCGGCAATGATT
TATTTCATATTTCCTGTACTGTATGTACAACGGCGCCATTTATGTGGAAA
TACTCTCCGTTTAAGCAAGCGTCTTGAACAAGTTATCATAAGCTACCGGC
GTTCCTAACTTCATTAAAGTATTCGTATGGTTGCATCCCCCTGATACTAG
CAACAGCTTTGTTCCTAACATGCGGTCTAATAGGCTCTCGACGAAAGAAA
ACGACGGTCAAACCACGGGATCTCCACCTTGGGAGAATCGTCAGCGTCAG
CGTCGATGGTGGCACATTCATAGCGTCGACAAGGCCTCATCGAGAATTTC
CCGAAGACGTACGCAACGTTCAGTGTTGGCAGCTGGCAGCAACGACCCTC
TTTGGGGAAACAGTCGAGCTTTTTAAAATGTTAACGTTGTCTATGGGGTG
TCGTGCGTAATTTTAAGGGTACATAACGTCAGCATCCTCCCCCGCCGCGC
CCCAACCAATGACGCCTCCGTTTCATCAGGAAGCTCACCGTCGCAGTGTC
GCTCGGCTTGCTAGCCGTGCTAGGAGTCGTTTTGAGTGTCTCGGGAGGGG
GACAGCAGCAGCAGCAGCAGCAGCAGGATGAAAGCGCCGCCGCGAATTTC
GGCAGCAAGCACGCCGGGGGCTCCGTATTTGTGTTCGAGTCATCCATGCA
CACCGGGGCCAGGCTCGACCAGGGCTTTCCATCGCCGGCGAGCTTCAAAG
AGGTGGGTCAGCAGCCAGCCGCCGGTGGGGCAGCGTCTGCTGTCTCACTG
GCTGCGAGGCGCACAAGCGAACAACAAAATCCCGAAAAATCGTAGGTATA
TTGCCGCGGGTCTGACTAGGTTCCACATCGGACTCCTTGGACCGGTTTTG
AAGTGCTCGAATACGGCAGTAGCAACGAAGGTGCTATCGAACATCAATCA
ACAGCAGTCGCAGCAACGTTTCGATTCAGCACCGACACTCTTTTCCGTTG
CTGCAGTGATCAAGCCTTCAAAATCGGTGCAGGGGGCCCTGTGTGGTATT
CTGCCAGATGTGCGACCTGCGGTCAGCAGCAGGACGGGCGGCAGCCCCGT
CGTGGGTTCAACAACATTCCGGGTTTTAAACATTGCCGTCTGTTTTCCCG
AAAACAGTTTTCCCGAAAACAGACACATGGAGGCGTCTTGTGATACAACG
GCAGTGCGAGGCCACGGGCTGTGTATTGCTCTTTGTACCCCTGGAGAGTA
CCGAACAAAATATATGCCTCGGAGGGAACTCAAGAAAAAGGGTGTTCGTA
TGTGTGTGTATGTGTATGTATATGTATGTGTGTGTTTTGTCGTACACATG
ACTCTCCTACAGCGATATGATACCGGCCGAAGTTGGGTCGGGGAAGGGGA
GGGGAAAAGTCACCGACGATTTCTCTTCGGTGCTGCCGATACTGCTGGGC
CTCCTTGATGCAGTAAAGCAAAAGCACGAGCTGCTGCAACGACGGCGTCG
ACGGCAGCAGCAAACAAACAAACGAACGCCTACCCAATGACCATGCAAAA
CCAGGATGCGTGGATAATGCGCGCGAACTTCAAGTCAACCTCTGATGTCC
TGTTGCCGATAGATGTATGTTGTTTCTATACAGCCATGCTCGCACAACAG
CGAAGTTTAAACGTGGCCGAATCGAATCACAAAGGCATAACTTGCATTCC
CTTTATTCGGGTACTGCTGTAGCTCGGTGTATCAGATGAACTCAGGCGCG
AAACGTGTGCGAACTTGAAACGTGACATCGTTGAAGTATTCAACGAGACC
GACTTTCCCTTCCTTTTGACTCCTGCTGCCCGTGTACGCGAACGTGTGCA
TCAAATACGGCAGGAGTGCAGCAGCAGCAGCAGCAGCAGCAGTGACAGCG
ATAGCGATAGCGATAGCGACGGCGACGGCGACAGCGACAGCGACAGCGCC
GACGCAGGCGGACCCGACACTCTCTGTCCACAGAGGAGCGGGCCGGGAAC
CGTCGTGGTCCAGTCTGACGAGAAGATGCAAGAAATGATCGGCTTCGGGG
GCGCGTTCACCGACGCAGCCACCATCAACTTTTACAAGCTACCACAGGAC
GTCCAGGAAAAGGTACTGTATGTTTATTCGGAAGTATGACACAAATAATT
TGTGCATGGATGATGCTCGTAAGCCTGCTCGGGGTCGTTTTTTTTTCCTA
CAGGTCGGTACTCATTTTTTCTTTTTTTTTTTCCGTTTTTCCCAGAATTT
TCCGATTGCAGGACTCTTTTCTTTCTTTCTTTGTTTTCAAGTACTTCAGC
GAGGACAAAGCCTTCTCCACCCATCATGCACAGAAGCAAGAAAAACGTTT
TTTGCCATTTACTCAGGGGGCCTCTATCGTAGGATGTTTTGCTGTACTGC
CGCACTTTGTACTGCGGTAGCATTATATTTCACGGGCAGTTAGCAGTTGG
CAAGCGATCGTGGTGACCGAGTGTGGGTGGAAAGTGGAATGAGGCGTGTG
TGTGTAAAAGAAAAAGAGGCGTTTGTGTGTGTTGTCATCCCATCTATTCT
GGGCGCCAGTCTACACCTGTCGGTTTGTATGGGTGTACCAGCCGGGGTCA
CGACATGCAGGAAGGGTAACGGAAGAGTTTCGTCCTTTCTTCCGATACCA
TTAAAAAATAATAAAGATACAAGTACATGACGGTCGAGGTAAAAGCCGCG
GCAACCAATTTATGATACGTGGTAACAAAGTTGTGTGCGGAAAGTCGGCT
TGCACGGGCGAAATCAACACGCAGTCAACGATCAATTTTCGCAAGGCCTC
GGTCGGCAAAGATGTCATTCGGGTGGTGGACGCCTCCTTCCCTTTTTTTT
TAAAGAAAAGCCGCCGGAAAAAAGGTTAAATTTAATTTCCCACGGTTTTC
CTCCTGGAACTAAACGCAACGCGTCACCCAGCTTAGTGGACCAGACACTA
CCGTGATAAAAGCAGAATCTCCTATCTCCACCTCTGACAACTGCAATTCA
CGCCACGCGAACTGCTGTTCGTGCATTTGTGGTTCCTCCTGGCTCGACGA
ATTGTGCCTAGCTTGTGACCACGGGCCGGCTTCGGCAGTGAGCTCGTGCG
AGAACAAACAATACGTTCAGTTTTGATTGGTGCCGGGCGCCCATCATACT
TGTCGCCGAGCACAAACGTTCCGCATTTTATCACAGCTTTTGCAATTGTA
TACAAGTATATACATACTTTGAAGTATATCCCTCCTTCATACACATTCGC
GCGAATGTGTGGGGTGGAATGCTCGCAGGTGCTGGACGCGTACTTCGGCC
CTAGCGGCATCGAGTACAGCGTCGGCCGCATCCCCATGGGCAGCTGCGAC
TTCAGCGTGGAGCAGTACAGCTTCGACGATGTTCCGGGGGACTACAACCT
CACGCACTTCGATGACGGAGTGGAAAAAGACACCGCGCAGAGGGTGAGAA
GGCCGTGGAAGCGGCGCAGAGGGGGTAGAAGATGCCAAGCTGTACATGTT
TACACGCGGAAGTAGTGGAGACGGCAGTCATTTTGTTGTTTTTCTTGTGA
GGGGCACGAGAAGAGAAACGCCGGGGGTCGAGGGGGAGGGGGTGGAGGGC
GCACTTTACCATGGTATATGATACGATTCTACACATTCCCCCTACAGTAG
GCCGATTGATGTTCGAAGCTCGAATACGGCAAGCCCGTCCACAACGGAGA
TGTTGCCAGTATGTACAGCACAGAAGTATGTGGTTGTTTTGCTTGGAGAA
AGCTACCCCGTAAAGACATGGCGCTTGTTTGTTGTTGAGTAATCGAGCTC
CTCTGATAATCTACCGAGGGGGTCCGGTGTGGTATCTATCCTCTGCGATC
CACCGTAGTACCCGTATTGGGAGGGGCACCAGAAGTAGACACGGAAGTTG
TATGCATAGGGGGAGGGGTCTTTAGTGTCTGTTTCGTGGCTTAGTCATGA
ATGCGACCATGCCGGGATGGAGCACAATCGGATTTTCCCTGTATCCGGGA
TGGGTGGTGGGTGGGGGGGGAGGGGTGAGGGCTACATCAACAATATCAAC
GATGCCAACAACAAAACAACCCAACAGCAGTGTCAACAATCCAACGGCAG
TATCGACAAACAAGAATGCCAACACCATGCCAACAACAACAACAACGACG
ACGATAATTTGAAGGCAATTTGTTTCGTTACCCGTCCTGTGTTTTGTCCC
TGTTGCACAGATTCCGATGCTCCTCGGAGCGCTGAAGCGAGAGGAGGGCC
TGAAGCTTTTCATCTCCCCCTGGAGCCCTCCCGCCTGGATGAAGGTAAGA
GTCAGCGTTAGGGCAGGCCCTGGCTCGGTACAGTGTCCTTGTTTTTCGTA
CATGAATACTCAGGCCGAAGTTGCCGTACTTGTGGTGCTTCGACAACAAC
AAAAAAAGCCATTTTATTTGGTTTATATCATACTTGGAAGAACTTCGTGT
GCCACAACAACGAAATGTCATTTGCGCTTCGTAAGGTTGTGCTCGATCTT
GCTCATAATCTGCAAAAAAATATAAGCTTAGCTTATCAGTATAGTCAAAA
GTGATCGGGTTACTGTTGGTCGCACGAGATTCGACGACCGTGGGGCCACG
TTATTGCTGCTCGAGAGACTTTAAGCAAATACTGAAAATCGGTGCAAGGT
GTGATACACGCACACCCACCGTAGAGTCGAACAATGGACAGAAACCTCTG
CTTGCTGCTCTTTGGACTATGAAATGCCGTACGTACGGCGTATTTGATAC
CACGGGACCTCCTGGGTTTGATTTTCGAAGCTCGAGTATTTTGCGACGAA
AATTTTACTGTGAGCCATGCCAACGTTGAACCATTACAACGTTTTCGAAA
AGCTGTCAACGATATTTATCATAGATGGCTCCAAAACGGTGGCTCGGTAG
CTGCCGCTCTCGATTCAGCACCGACACTCGCTCTTCCTGCTGCGGTATTC
GAGGTCAAGGGGGTCCCGTGTGGTATATCACGCGACGTACGAACATTAGG
TAGAATTCGGATTGTGATCATGTATCATAGGAAGGCCTCTATGGTATGTC
GTACATGATTGAACAGCAAGCAGGAGTTTGTATCCATTGTTGTACACGAC
GGTGTATGTGTGTGTATCGCACCCCCTTAGCAGTGAGATGTTGTAGCGCT
AGACGTCTCTCTAGCAGGAAGGAATGCCGTGACCCCGTGGTTGTCGCATC
CACCAACACTAGACTACATGATTCAGTACCGGCCAGTAACAGCAATGTGT
TCTTCTGCTCTCAGTGCTGTTTGCTTTTTTGCTTTCTCTCTGGTTCATAC
ACAACGTGATCCGTGAGTAGCTGACAAAAAGGCCGGTTCACAGTTTTTTT
TGTTCACGAAACCCCTTTCTTTCACCCCATGTGAGGTGAGCAAAGGGTGT
TTCGGGGGAAATCTGTTTTTTTTTTTAACGTTCCCAAGGGCTCTGTAGAA
AGTTGTGTCGGGTCGCGTGGTCGACGTTGAGCCTACGAGACACCGTGCGT
GCAACGGTATCAAGACGCGTCTCTAAATGGGTTCCTGGGAAAAGGGTTTT
TTGTATGTTGGATCGAGTTTTACTGCTGTTCTTCAAGGTATTGCGATCGA
GCGGTTCTGTTGTTGTTTTTGTTGTTTGTTGTTGTTGTTGCTGCTGCTGC
TGCTGCTGCTGCTGCTGCTGTTGTTGCAACTGACATCGCCTCCGCCTCCC
GCTCACTGCCCGTGCGTTATCTATCATATGTTTGTTCAATCGATCGCCGG
ACTGAACGCGGGGGTTTGCAGGCGCCCCGGGACGGTATGCAGAGCATGAA
CGAGAGCGCGATGCCGGAGGGCCTGCTGCAGGACCCGAACGTGCACGCCG
CCTGGGCGCTCTTCTTTAGCCGGTTTATCTCTGCCTACAAAGAGCAGGTT
GAGTGAACAGCTGTGTCTCTTAAATATTTTGCAGAGTGCTTGGATCGCGT
ACACGCCGCCTGGGCTCTCTTCTTCAGCAGCTTCGTCTCGGCCCACAAAG
AGCGAGTTGATTACGTAGATTGTGTAGATTGCGTAGATTGCGTAGATCAT
GCGCACGTCGTCTGGGCTCTCTTCGACAGCCGTTTCGTCTCAGCCGTTTC
GTCCCGGCCCACCAAGAGCAGGCCAGGCGAAACCATGTTCCCATATCATA
GATCGCGTAGATCTTGTAGACAGCCGTGCCGGCCGTTTCGCCGCTTGATA
TCAGCCTGCAACGAGCAGGTTTGGTGAACCATGTTTTTTCAGGTATCACA
GAGCGGGTAAAAACTAATCACACGGAAATTAAAACTTTGAAGTCACACTT
GAAAATATAGGAAGACGTATACATACATTCTCAAAATTGAGACTGGATAA
TTGATCTACATTTCATATCATATTACATCATTTTTATTTTCGAAATCCCG
CCTTGGATCATTGATCTACATTTCATACCGTAGTACATATACATACGAAT
GTGTGAAATAATGAAAAGGCCCTCAAGTGTAATTCTGGGATGCCATCATG
AACGCGTGTGTGGTGCCGGCGGCAGGGTGTGGACATGTGGGGCCTGACGA
TTCAGAACGAGTCCGAGAACCCGGGGCCGTGGGAGGCCTGCGTCTACACG
CCATCATCGCAGGCAAGTGTCTCTTGTCATGCTTGCGTGTGCGTGTGGAA
AAATTTAAGGAGGCGTTTGTGTGAAAAATGAAAAGAGGCGTGTAGGGGTG
GGGGTAGGAGGAGGAGGAGGAGGAGGAGAGCGGGCTGTGGCCCGTCTCGA
AGCGCAGGGAGAGAGGGGTCACGAGTGTCCTTTTCTCTCCAAAAAGTTGA
TTTATACGGAGTATTATTATTTTCTTGCGCTCCGCCTGGTGCAATTATTT
GATGCCGAAAAGAAGGTACGAGCGACCATAGTACAAGGGTCTTCCTACTC
GCAGGCCCCGCCAAAAAAAATCCTTCTCCCCCACCGATCCCCCCCTCCTG
CCAGGCCAAGTTTATCCGCGACCACCTTGGTCCCATCATCCGAAGGGACC
ACCCTGACCTTAAGATCATGGCCTTCGACCACAACAGGGACCACCGTGAG
TTGCCTGTGGGCGGGAGAGGAATGGCGAGGGTTTTGAGGCAGGAGGGTTG
CTCCTTCTGCTGCTCCTCCTGCTGCTGGTGCTGTTGGTTGTTATTTGTGC
TGTTTCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCAGCCGCTG
TTGCTGCTGTCATTTGTGCTGTTGCTGTTTCTGTTGCTCTTGTTAGTTGA
TATTACTGCTGTCGCTCTTCCTGTTTTTTCCTCTGCTGCGTTGCGTTGTG
GTTTTGTTGGCAGTGATTACATGGACCAAAGAGATGCTGCTCGACGAAGA
GACTTCTCAGTATGTCGACGGCATGGCATTCCACTGGTACTACGCAAGCG
GGCAGAGGCTGATGGACGGCAGCGTGGGCTGGGCCGCCCTGAACACGTGA
GGAACTTTTAATTGGAATCGGAGTTGGGGTGACGTTACTTGGAATTTGAG
CTAGGCTTATCACTGCCGCTTGCACTACATGGCAAATGAGTGAGGGCGAC
CTTACTTGAAATTAGAGCGGTAAATATACTCGGAAGTAGAGTCGGGCTAC
GTTACGTGAAGTTTGAGTGGGGGCGACAATATTCGTCGAACATGGAGCCG
GGACAGCAGTACTTGGGGGCTCCGTGGGTATCTATCGATTCATCGATATC
GAAATATCAACGTATCGTAAGTGTCAAATATTCTCGATATCATACACGAT
ACCGATGTACGATAAATCGGTACGTACGATATATCGTTTTTTTCGATACA
AAGTGCAACTCTAGACAGCAGTTGTTGTTGTTGTTATTGTTGTTGTCTTC
ACATTAAAATCTTGGGGGACAAGGGTCTGGGGCGACGTTGCTTGCGCTTG
AAGGAGAAAAACTCACCAAGAAGTAGATTCTCGGGCGACGCTACGATAGG
GTTGAGGTCGCGCCGCTGCATGTTGCTGCGCGGGTGTCGCAGGGCTCTCA
CCGCACGTGCACGAGAAAACCCCAAATCCTTGGTGCACAAAAATCTCTTC
CTCACTCGTGTTTCCTGTGTTTTTGTCGTCCTTTGTGTTACTTACCTGTG
ACCACGGAAAGTAGTTGTCTAGGAGTACTGTAGTATATATGGCATTATAC
ATGCCATCATATTCACATTAGTTTTCTCGTGTTTTTTTTTTTTGAATGTA
GGACCCACAATCCCCTTGGCGATGTCAAGATGAACCAATCGATGGTAGTT
GTTATATCGTACATTAGATATTTTGGGAACTCGATTCATTGCGAGACCCG
CCGTTTGCTGAGCGAGGGCAACTTCAATATTTTTTAAATGTTTTTGGATC
TTTCTTCATTGTAAGATCCACCGTTCGCTGAGCGAAAAACATGTGGAACT
AATCGATGGTAGGTAGCCATGTACGAAGGGATAATATTTTGGGTGCTTTT
TTGTTTGTGGGACCCACTATTTGCTGACCACCACGTGTAAGTTTCGGTTC
GTCTAATAGTATTGACAATGTTTCTGTGTGACTTGCCTCTATTTTGTCTG
CAGGTCCCACCACTTGCTTGGCGAGGACAAGTTCATCCTATCGACGGAGA
GCTGCAACTGTCCCTACGTCGAGCACTCGCTGGAAGGGGGTTGGAAGAGG
GCTGAGCATGTCGCCCACGAAATGATCGCCGACGTCAACAGCTGGTCCAC
CGGGTGGTGAGAGACCCAGTCAACCTGCGGCGTCCCATTTTCCATGTTTT
TATTTTTCTTGCGTTTTGCCCCTTTTACCCCCCCCCCTGTGAAAAATCAC
GGAAGAATTATTTGTAACAACATATCTATAAAAGCAAGAGAACGCGTCGC
CAAAACGTTCACTTACTTCTAGAATGCGTTTTGAAATTGACCGTTTAGCG
AGGTAAAACTTTAGCTGTTGGGAGTCACGCGATATTCCAAGTGATGACGA
ATAATAAAATGGGCGACCCAAAATGGCGACATTTGGCTACCTAGGGGTAA
AAGAGGGTGAAACAGCTGCTGTTTGGGATGTATTTTGTACCATAAAGGAA
AGATCGATTCTCCCCCCCCCCTCCCCCGCAACGCCTGTTCGCTGGGTCTT
GACTCTCAAACGATTCGATTTTGTTTTTTTTGTAGCCTCCACGCATCGCT
CGCCACAATTTCCGGGCGTACTTTATTTGTTGTACCGCCATGATGCGAAC
GTGCCGCAGGTACATAGTTCATCAGACACAGAATGTGGTGCGTACGACAA
AACCGTATGGAGCGCTAAAATGCGCAAGTGTTGGTTGTGACTCTGTCAGG
AGCATCAACAAGCGCTCCTCGTGACTGGGAGGTCGAATGATCAATGACAA
AGGTACCAGACACGTAACGTTTGAGCCCTCTCCCCCATGTACGCCCCATT
TCATTGGAAGGGGTAGGGGGGCCGTGACACGGGTTATATTTTGTAACCCC
CCTACATGAACTCTACTGGCAAGGAGGCCGACTGCATCGGGTAACGTTGA
GCCCGGGCATTCTAAGTAAATGAAGCCATGCGTCTCGTGTTTATTTTCTC
ACGTAGGTCCTCGTTCTCACGTACGTCCTTGTTCGTGCCAGGGTGGACTG
GAATTTGATGCTGGACTACGACGGCGGGCCCAACCACGCCGACAACCTCT
GCGACAGCCCCGTCATCTGCAACAAGGTGCTTGTCTACCAAGGCGAAACC
GTCTACATAGAAAACCCAAAGAAAGAAAAAATTCCGGCTTCGTTGCGAAA
AAAAATATACAGCGACACCGACGATTGTATGATTGATTCTACGAGAGCCC
CTCACCCAAACCACGGGCGAAAAAGGGAGCTGTGAAAAAAACTTGACACA
TCATATTTGCACGTCGAAGGCTTTCCAAAGAAAAAGTTGCCATCGTGACA
GGGGGGTGACGGGCCAGGAGCTGGTATCAAAACCAGCTACAAGTTTTATT
TCAATGAAGTAAACGCGGGGGCGCTACTGCAGAACGACTCATTTACACTC
CAACAACCAATAACCTTCATCTTGGTTGTTTGTAATCCACGGGCTGGCGG
TGTGGTTGGAAACAAGGTGAAGCTGTGTAGTAAACAAAGCCGTCAACACT
ACTGCACAGGCTCCTGTCGTGCTCCAACATCAAGAAGTACAACAACAGCG
TCGTGGGTATTGTCTTGACCCGCCGGGTCTTGTTTCTTATTCTCGACCAA
TCGCGAATATCCTGACCCGCCGCAGTTGAAGCGGGTCCTTCTTCTCTTCT
TCCCCCCGAAATCAACGGCTTTGTCCCTGACGGCTGTAGATGAAGCGGGG
TTCCGTTTCTCGTTTTCGTCCATTTGCGAAACTAACCACGAGTAACCTGA
CCCGCCGCAGTCGAAGCGCGTCCTGTTTATTTCCCTCTTCGCATTGCAAA
ACCAACCGCGTTTACCCTGACCCGTCGCAGTTAGAGCGGGTCCAATTTCT
TCTTTTCCTTTGCATTTGCGAAACTAACCGCGAGTTTCTTTCCCTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTTCCTCTCTCTTTCTCCCCCGACAGAACCACACCGACGTTAT
CTTTCAGCCGATGTACTATTTCCTGGGCCACATGTCCAAGTTTGCGAAGC
CAGGGGCCAGGCGTCTCAAAAGCCACGTCACGGGAGACTACCAGAGGGGG
GGCGGTGGTCCTTCCGCCGTGCTGCCAGGTTCGTTGCATTGTTTGTGCCC
GCTTCAACCCACTCTGATATGTGAGCGCTCCTTGCCAAGAGATCCGCAGT
TTATGCCCCCCCCCCCCCGCAGCATGCCCCGCCCGCCCCATTTTTTTTCG
TTTGCAAATCCCTCTTATGCTACGCATCAGCAGCAGCGACAACAGAACAA
CAACAACACCATCGACAGAACAACAACAACACCATCGACAGAACAACAAC
AACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAA
CAACAACATAGACACATCCGCTCTTTACTGTCCATGTACCCTCGAGGTCG
AGCACAAGCTGCCGGTCCAAGAGAACCGTAGTTTATTCCCCATTTTCTTT
CCACCTTCCGCTTTCATTTTATTTTTTTAATGCTGAAAACACTTTTTCTA
TACGTTCGCATGGTATGGTATCCAGGTTTCGAGGCCACCCTTTACGGGTG
CGAGGGGAGTGTGCGGCAGAGCTGGGAGCTTTCCGCGACGGGAAAGATTT
CCCTCGCCGACTACTACGGGGCTCAGTACGACTGGTTCTCGCCCATGTGC
CTTTCGCAGGAGCTCACGGTGGGTGTTCGACTGCTGTTCCCGGCGGGAGA
GTGAAACGCTCTGAAACGGCGGATGAGGTCGTTCTTTGTTTTTTCCACAC
TTGCATGGCTCCGGCCGTTTCTCGTCCGAACACATGTTACACCTCGAAGA
ATAGTTCGTGCAAGAGACGGAAGTCTTCGCGCAGCTCAGACAACGATTGT
TTTATGGCACGGCGCGCTGTCTGCATGCTGACACCTCCGAATATAATGCA
ATTCTTGCAAGCAGAGAAGGTGTGTGTGTCGGGTTAGTTCAAGCGGCCGC
GTAGTGGAGCTGTACGCCGCCGCAATGTTGGCCTCTACTACCCCCCCCCC
CCTTCCCTCCTATCTCAGGTCGGCTTACTGCAGTCGCTGTTTGCCTATGC
TGGTGTGAAGGTGCACGTTTATGCTTTGCTGCGTGCTTTTAGACATGATA
AAAGAGGCCAGATCGTTTCGGGAAGGGTCGGCAACCTCGTGGCCGTGTGT
GAGCTTTTTGGGTGTTGAGAAGGTGGCCGTGCGCTGGTGATTATTGGCCA
CGTTTTGTTGATGAATGGGGATAAGATAGGGGTGAGAGTGAGGGAGTGGG
GGTGGGAAAGGTCGGCCACAAACGTTGGACATCTTGAAAACAGAAACAGC
CGACAGCAACCAAAGTCAGACACAACAGTTGCCAACCAACGATATGTCGG
GGTTGGCAACGGTTCGTCCAGTTCACTCGAAGGTGCAGATTCCACGAAAC
CGACAGGTTATAACCGCGCTTCGTTTGTGCTCCATCCTCGAGGTGAGCAG
CGCTGCTGCTGCTGCAACATGCTGTAGCAAACGTTCACCGACAGCAGACA
AAAATGAATGTTTTGTGCTACTACCACGCTGTGCGGAGCAGTCTATTCTA
CCTGGCGCATGCTACGTGCTTGCTGCTGCCGCTCTGAACAACAGCGCCGT
ACATACCACAAAACGCAGCCTATCCCTTGCAGGGTCAACAACCAGCACAG
AGACTTTCACGTCTATGTCTGACGCTGCCTGTCCTCCGACTGCCTCCCCT
TCTCGCAGGACTTCACCCAATCCATCAACCTGGTGCCGTGCGACTCCGCT
GAGGCCGGCACGTTCGTGCACGACCCGCAGAGCGGCCGCGTGGTGCTGCA
GAGCGAGGCTTCGTCACCGCCCAACGCTGACACGCCCGTCGTGGGGGCCG
GCTCCGGCGGTGTTGGCCCCGAGGAAGGTAGGATGGCATATCATAAGACG
AAAACCATGCACGTATAACCCTGCACTTACATTTTTCCTGGAGTGTACTT
CTATTCCAAGAGTCGAGGACGATATATGAAGGCAGGAATGGCACAACACG
AACTTCATGCAGTCATATTTCTCTGGAGTTTACTTCTGTTTGACAGTGCT
AGCTGGTTTGCTTCAAGAGTCGAGGTACGATACGAAGATAGGAATAGCAC
AACACGAGCCTCATGCAATCATAATTCCTGTGTGCTTCTGTTTGATAGTG
CTGGCTGTTTTGCTTCAAGAGTCGAGGAAGGCGGGAGTGTGCGGCAACAC
AAACTTCGTGCAGGGAGAAGTTGTCCTTTTCTGTTTTTCATCTCTCTTGA
TTTGTCACATGGCAGTTACTGAGCTGTTTCGCTTGAGAGTGGAAAAAGGT
GGGAAAATCGCAACACAAACTTCACGCAGATATATTTCCTCCTCTCTGTT
TCATCTCCCTCTCCTCTCTGACTCTGACTCTAAAGTTTTAGTTTTTCATA
GGAAAGTCTCGTATGAAGCCGCCCAATACATGACTCTCTCGCGTTGCGTT
AGATGTCGTGAAGGAACTATGTTTTTGGCTCATGTTCAGAAACAAAACAA
CAAACGCAAAGCTAAAGTAAAAATAACAAAAAAAATAACAATAATGATAA
TTGATTGATATGAAAAATGTGACAATAATGATGACGATACCAGAAGTATG
AAGAGTAAATTGAAGAAAGTGGCAGTATTAGTATCAGCAATAATGGTAAT
GTGCTGATTCGATTTTCTTGTTGCTTTTGGTCTCTTCGCGCATCGTGCTC
TCACGTATAAACCGTCTTTGCTGTTTATTGCTGCTTGTTTTTCTGTTCTT
TTTTACATGTTATCTACCAAACCAACCGTCTCCGCCAGCGGAGTCGCTAG
TGACTGTATGTCGATGATATTTCACGTCTTTCGTTTTCTTTCATGTTATG
ATCGAGGCGCCTGAAATAATAATCTTCCTCCGGCTCGTTCTCTTTTGTTT
TTTTTTCCCTATTTTGTTTTTTTTCCTCGACAGGAAGGCCTTGGTTTATT
TGTCCACTTGTTCTACCAAAGAGCAAACGACCGTGCCTTTTTCTTCCCGT
GCCTCTTACATGTACTTTTTTGCCGTTGTATATGTGTGCGTGTGTGTTTT
TTTTTTCGATGTGCGGCAGAAATATCTCCGCCGGGGGAAAGTCTGTGCCT
CGACGTTCTGCACCGTTCAACCGACGACGGCGCCATGCTAACGCTGGCCC
CTTGCGATTTCGACGAGGATCACGAAGGCGGAAGCGAACAGCAGTGGCAG
TTCTTGGAGGTATGCACAGCAGCCGGCTGACTCCTTTGAGGACCCGTGCT
GATTTCGAGTGAATTTTTCACGTATCGACATGAGATTTTCTCCTTCAAAA
CTCACACTAACTTCGAGTGTTTTTTTGGTATCGACTCAGAAGTGCATGTT
GCATATTCCTGGTTTCTCGTGTGTTTAATTTGCACACCTCACCTCTCACC
CCTTGCGATGATTTCAATTTTTGGTATAGACCCAGGAATACAAATTACAA
ATTTCATAATTCCTGGCTTCTCATATGTTTAATTTGCACACCCCACCTCA
CCTCACCCATTTTTTTAAGCGATGATTTCAGGTGACTTTGTTGTTAATTC
ACCAACTCGGAAAGTGTTTCGTTTCTACTCATGCGTTCTCATTCCTGTGT
TTCGCCGTGCTTTGGCACACACACACCTACACACTTTTCACGCCTCCCTC
TCTTAATAATGCACGTGCAGGCGGGCTGGAAATATCTCCCCACGTACATG
TCCTCACCTAGCACGTTTTTCCGAGTTTTTTCCCGGGTTTCTTGCCTCTC
CCACCAACGCACGTGGAGGGTCCAAAACGCTCCTTCAAAATCCGCGCTAA
AATTGAGCCGTTTCTGCTGTACCTACGTGGGGAAGAGCGTGGGCCAGTTG
ACATATGCTTTCCCGGTTTTACCGTGTTGATGTGCACTTTAGTGTAGATG
TGTACACACCGTATGATACGCCAATACACATGTACCGGTTCTCCAAGTGT
CATCTGTTTTCTTGTGTATCCCGTGTGTGCTTGCCAACAAGCGCGCACCA
ACACGCATGTACGCTTCTCATATTGACGTATGGCTTTCCCGGGTTTGTTC
GCACACACAACTCCTGCTGATGCACGTGCAGGTGGACGGCGGCGCCGGCG
CGGGTAGCCTGCTGTCGGTCACCACCGGCCGCTGTGTCACCGCAGGGTGG
CCGTTCTTCACGGGAGCGGCGTTCGAGATGAACGAGGAGTCGAGGGACCG
CTACGGCAAGGACTATGCCGTGGTGGTGTTGAACGAGGCTGAGGAGGCCG
TGGAGTTCGACCTCACCTTCCCCTCGGAAGAGTTCACCGTTAGCGTGGTG
GTCGGGCCTCGTTCTATCCAGACGATTCTCGCTTGATTCGATTCGGCTTC
ATGAACTCTAGTGAGGTGGGACGCCTCGCCTCGTCGATGGAAGTCACGCC
ACTACTGTGACGCCTCGTCTTGTCGATGGAAGTTATGTCGATGGCAGTCA
CGCCACTACTGTGTGTGTTGGGGTGTCATTTGTTTTGACCTGAAGTCACT
CCACTGCTGTGTGCAATGGGGTGTCATTTGTTTTGACTTGCCATGTCTTT
AGCTTGGGTGTCTATGATCTGGCGTGCTTGAGTATCGCCTTTACTTGGCA
TCTCTGACTTGATGTCCTTGACTTGATGCATGTCTTGGAATTACCTCTGG
GACGTTTTATCTTTGATGTCATATCATCGACGCATTTTACGTGGCATCTT
TGGTGTGACGTCTTCAAGGTGACGCAGCTGATGGTGCATTCTTCCCTTTA
AAGTGTTTTCGCTGGTCAAGCAGCAGTCTCGCCAGTGATCCACCTGGCGT
GCCTCGGCTGTCCGAAGGAGGTTTCGCGATCTGATCCTTCTAGACATTAC
AAGACAAGGTTAGGAAATAGAGATAGTAGCAGCGAGCAACAGGTACCCAT
TTTGACGTGCGTGGAGACGAAGAGCAAATAGAAAGGGGTCGTCACAGCCA
GCAGGGATCTGTTTGACATTTGGAAAGAAACTGAATAGAAAGTGATTAGC
AGGGGACAGGAGTGTTCTTTTGGAAGGTTAGAAGGGTACGTGTGAACTAA
GGGGGGCGCAGCCATGCTTCAGTTTGGGAATATGATACGCTCCTTTTTTG
GAGCTCGGTGAGGAGAGAATATTAGCCCGTGGTTTCGTGTATTTTTACAT
TTTTGATGAGCAACAAAGGGTACCCTCCCCCCAAATAAATTATGTCTCGT
GCTTGGTGAGGAACAAAGAGGGATCTTTACCCCCAAACAACAGAATCGGT
CCACATGTAGCGGGCTTTGCATGTTCATGTTTGAGGAGCTATGATATGAA
GAGGTAACCCCCTCCCTTCCCCCCCCGCAAAAAAAAAGTTATTTTTATCT
TCACAGAAAGAGGGAAAGAAAGCGCCTCAAAAAATATTTTCCTCGGACAA
CGAAGAATAAGAGCAG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig14:772032..792947- >mRNA_P-littoralis_Contig14.186.2 ID=mRNA_P-littoralis_Contig14.186.2|Name=mRNA_P-littoralis_Contig14.186.2|organism=Pylaiella littoralis U1_48|type=CDS|length=2388bp|location=Sequence derived from alignment at P-littoralis_Contig14:772032..792947- (Pylaiella littoralis U1_48)
ATGCCCGGCTACGAGCGCATATCGGAGGGTTTGCAACCAGGGGGAGCTAT
TGGCCAGTACGCACGCGAAGAGGAGGGTGGTGGGCGTGCGTTCATTCAGA
GCTCACGAGGGCGAGCTCAAGGCGATGGCAAGCTACGCAGGAAGCTCACC
GTCGCAGTGTCGCTCGGCTTGCTAGCCGTGCTAGGAGTCGTTTTGAGTGT
CTCGGGAGGGGGACAGCAGCAGCAGCAGCAGCAGCAGGATGAAAGCGCCG
CCGCGAATTTCGGCAGCAAGCACGCCGGGGGCTCCGTATTTGTGTTCGAG
TCATCCATGCACACCGGGGCCAGGCTCGACCAGGGCTTTCCATCGCCGGC
GAGCTTCAAAGAGGAGTGCAGCAGCAGCAGCAGCAGCAGCAGTGACAGCG
ATAGCGATAGCGATAGCGACGGCGACGGCGACAGCGACAGCGACAGCGCC
GACGCAGGCGGACCCGACACTCTCTGTCCACAGAGGAGCGGGCCGGGAAC
CGTCGTGGTCCAGTCTGACGAGAAGATGCAAGAAATGATCGGCTTCGGGG
GCGCGTTCACCGACGCAGCCACCATCAACTTTTACAAGCTACCACAGGAC
GTCCAGGAAAAGGTGCTGGACGCGTACTTCGGCCCTAGCGGCATCGAGTA
CAGCGTCGGCCGCATCCCCATGGGCAGCTGCGACTTCAGCGTGGAGCAGT
ACAGCTTCGACGATGTTCCGGGGGACTACAACCTCACGCACTTCGATGAC
GGAGTGGAAAAAGACACCGCGCAGAGGATTCCGATGCTCCTCGGAGCGCT
GAAGCGAGAGGAGGGCCTGAAGCTTTTCATCTCCCCCTGGAGCCCTCCCG
CCTGGATGAAGGCGCCCCGGGACGGTATGCAGAGCATGAACGAGAGCGCG
ATGCCGGAGGGCCTGCTGCAGGACCCGAACGTGCACGCCGCCTGGGCGCT
CTTCTTTAGCCGGTTTATCTCTGCCTACAAAGAGCAGGGTGTGGACATGT
GGGGCCTGACGATTCAGAACGAGTCCGAGAACCCGGGGCCGTGGGAGGCC
TGCGTCTACACGCCATCATCGCAGGCAAGTTTTATCCGCGACCACCTTGG
TCCCATCATCCGAAGGGACCACCCTGACCTTAAGATCATGGCCTTCGACC
ACAACAGGGACCACCTGATTACATGGACCAAAGAGATGCTGCTCGACGAA
GAGACTTCTCAGTATGTCGACGGCATGGCATTCCACTGGTACTACGCAAG
CGGGCAGAGGCTGATGGACGGCAGCGTGGGCTGGGCCGCCCTGAACACGT
CCCACCACTTGCTTGGCGAGGACAAGTTCATCCTATCGACGGAGAGCTGC
AACTGTCCCTACGTCGAGCACTCGCTGGAAGGGGGTTGGAAGAGGGCTGA
GCATGTCGCCCACGAAATGATCGCCGACGTCAACAGCTGGTCCACCGGGT
GGGTGGACTGGAATTTGATGCTGGACTACGACGGCGGGCCCAACCACGCC
GACAACCTCTGCGACAGCCCCGTCATCTGCAACAAGAACCACACCGACGT
TATCTTTCAGCCGATGTACTATTTCCTGGGCCACATGTCCAAGTTTGCGA
AGCCAGGGGCCAGGCGTCTCAAAAGCCACGTCACGGGAGACTACCAGAGG
GGGGGCGGTGGTCCTTCCGCCGTGCTGCCAGGTTTCGAGGCCACCCTTTA
CGGGTGCGAGGGGAGTGTGCGGCAGAGCTGGGAGCTTTCCGCGACGGGAA
AGATTTCCCTCGCCGACTACTACGGGGCTCAGTACGACTGGTTCTCGCCC
ATGTGCCTTTCGCAGGAGCTCACGGACTTCACCCAATCCATCAACCTGGT
GCCGTGCGACTCCGCTGAGGCCGGCACGTTCGTGCACGACCCGCAGAGCG
GCCGCGTGGTGCTGCAGAGCGAGGCTTCGTCACCGCCCAACGCTGACACG
CCCGTCGTGGGGGCCGGCTCCGGCGGTGTTGGCCCCGAGGAAGAAATATC
TCCGCCGGGGGAAAGTCTGTGCCTCGACGTTCTGCACCGTTCAACCGACG
ACGGCGCCATGCTAACGCTGGCCCCTTGCGATTTCGACGAGGATCACGAA
GGCGGAAGCGAACAGCAGTGGCAGTTCTTGGAGGTGGACGGCGGCGCCGG
CGCGGGTAGCCTGCTGTCGGTCACCACCGGCCGCTGTGTCACCGCAGGGT
GGCCGTTCTTCACGGGAGCGGCGTTCGAGATGAACGAGGAGTCGAGGGAC
CGCTACGGCAAGGACTATGCCGTGGTGGTGTTGAACGAGGCTGAGGAGGC
CGTGGAGTTCGACCTCACCTTCCCCTCGGAAGAGTTCACCGTTAGCGTGG
TGGTCGGGCCTCGTTCTATCCAGACGATTCTCGCTTGA back to top
|