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Homology
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: A0A6H5JGQ8_9PHAE (GT47 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JGQ8_9PHAE) HSP 1 Score: 416 bits (1069), Expect = 9.390e-135 Identity = 216/402 (53.73%), Postives = 267/402 (66.42%), Query Frame = 3
Query: 234 CSDVDMSSFGKGMECGVPLSEPCFDFERCRNGSSAGIYVYDGICTLANSSILLASQETDLDRWT-QESDNLDSVLRSEVEGAGLLAQTYESACLFVAATSRYT-PCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFGQQI 1433
CSD+D S+F GM+CG PLS PCF +AGIYV+D C+L +S L E W + ++ VLR+E E G+LA+TYESAC+ V + T PCAV+QP WN G NH++V + D GR D RP++A SYAMEAA+N+ TCFYR+GYDISVPL+PKHVF LA + P DR FFLTTKGS+YLS GS ERMS+VPL DE +GVIMSLHCFE+H EHLLPENVEYC++L D+YDDH Y SLMNTTFGLVP+GRSPGT+RLGEVMSAG+IPVFVG +LV PF E DW SFSF F PDQV M+ TL+ V RAE E+MQRKSLE YR +FG + +F A+ +++ L++R ++
Sbjct: 66 CSDLDQSAFSIGMQCGPPLSPPCFQCNSTECLGNAGIYVFDSECSLLETSELRVPDEEQKVSWAWMDHHYVEWVLRNEAEQMGMLAETYESACILVHVSPGSTKPCAVDQPRWNGGANHLLVDMSDKGR--------------------------------------DSRPDVAGSYAMEAATNMHTCFYRSGYDISVPLAPKHVFNDLADVDPWDRNFFLTTKGSLYLSGHGSGERMSLVPLQDEANGVIMSLHCFEVHEEHLLPENVEYCRALSDQYDDHSYTSLMNTTFGLVPAGRSPGTYRLGEVMSAGSIPVFVGWDLVPPFEELIDWSSFSFAFAPDQVESQMVRTLRAVPRAELEQMQRKSLEAYRRIFGVNMGDFVQGARIVLETLQRRLEHRM 429
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: A0A6H5KKV6_9PHAE (GT47 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KKV6_9PHAE) HSP 1 Score: 402 bits (1033), Expect = 2.010e-129 Identity = 207/399 (51.88%), Postives = 264/399 (66.17%), Query Frame = 3
Query: 234 CSDVDMSSFGKGMECGVPLSEPCFDFERCRNGSSAGIYVYDGICTLANSSILLAS-QETDLDRWTQESDNLDSVLRSEVEGAGLLAQTYESACLFV-AATSRYTPCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFG 1424
CSD+D S F GM+CG PLS PCF S+ GIYV+DG C+L +SS LLA+ Q + R + LR+E G+LA TY SAC+FV PCAV QP WN+G NH++V + D GR RP++A S+AMEAA+N+ TCFYR+GYDISVPL+P+ V LA + P DR+FFLTTK ++Y+S GSEER+S++PL DEE GV++++HCFE H EHLLPEN E+C++LKD+Y+ +DY SLMN+TFGLVP+GR P T+RLGEVMSAG IPVFVGR+LV PF E+ DWPS SF FTPD+V M++TL V RA+ EEMQRKSLE Y +MFG D +FRP+AK I+ I+R+R G
Sbjct: 63 CSDLDQSVFSTGMQCGPPLSPPCFQSYSTECLSNGGIYVFDGECSLQDSSELLAADQGYEFSRTRVGDQDAAVTLRNETAQLGMLADTYASACMFVHVGKGLKRPCAVNQPRWNNGANHLLVDMSDKGRAS--------------------------------------RPDVAGSFAMEAATNMHTCFYRSGYDISVPLAPRQVLHDLANVAPLDREFFLTTKCTLYVSGHGSEERISLLPLQDEEHGVVVTMHCFEEHQEHLLPENAEFCQALKDQYEGYDYRSLMNSTFGLVPAGRGPATYRLGEVMSAGTIPVFVGRDLVPPFMEQIDWPSISFAFTPDEVESRMMKTLLAVPRAQLEEMQRKSLEAYGKMFGADVNDFRPSAKIILGIIRRRLG 423
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D7G4H1_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4H1_ECTSI) HSP 1 Score: 376 bits (966), Expect = 8.400e-121 Identity = 202/369 (54.74%), Postives = 252/369 (68.29%), Query Frame = 3
Query: 333 SAGIYVYDGICTLANSSILLASQETDLDRWTQESDN-LDSVLRSEVEGAGLLAQTYESACLFVAATSRYT-PCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFGQQI 1433
+AGIYV+D C+L +S L A E T+ + ++ VLR+E E G+LA+TYESAC+ V + T PCAV+QP W+ G NH++V + D GR GS RP +A SYAMEAASN++TCFYR+G+DISVPL K F LA + DR FFLTTKGS+YLS GS ERMS+VPL DE +GVIMSLHCFE+H EHLLPENVEYC++L DRY DH Y SLMN+TFGLVP+GRSPGTFRLGEVMSAG+IPVFVG +LVLPF+E DW SFSF F PDQVGP M+ TL+ V RAE E+MQRKSL+ +R++FG D F P+A+ ++ IL++R G ++
Sbjct: 3 NAGIYVFDSECSLLETSKLRAQDEGKKVSSTRMHHHYVEWVLRNEAEQMGMLAETYESACILVHVSPGSTKPCAVDQPRWSGGANHLLVDMSDNGR-------------------------------GS-------RPIVAGSYAMEAASNMQTCFYRSGFDISVPLHSKKAFNNLADVAAWDRNFFLTTKGSLYLSRHGSGERMSLVPLQDEANGVIMSLHCFELHNEHLLPENVEYCRALSDRYGDHSYESLMNSTFGLVPAGRSPGTFRLGEVMSAGSIPVFVGWDLVLPFKELIDWSSFSFAFAPDQVGPQMVRTLRAVPRAELEQMQRKSLKAHRKIFGVDKGIFVPSARIMLKILQRRLGHRM 333
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: A0A6H5JRU9_9PHAE (GT47 protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JRU9_9PHAE) HSP 1 Score: 344 bits (882), Expect = 1.460e-105 Identity = 188/407 (46.19%), Postives = 243/407 (59.71%), Query Frame = 3
Query: 228 STCSDVDMSSFGKGMECGVPLSEPCFDFERCRNGSSAG------IYVYDGICTLANSSILLASQETDLDRWTQESDNLDSVLRSEVEGAGLLAQTYESACLFVAATSR--YTPCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFG 1424
S CS +DM++ M CG PL+EPCFD RCR +S G IYV+D C+LA+SS L S E+ + L R AG+L++TY ACLF+ R + PC E+PLWN G NHVMV L D RD++P IA S AM+A+SN+R+CFYR+GYD +VPL + F L + P R +FLT KG++YLS G +ERMSVVPLH E GVIM L+CFE+H EHLLPEN E+C +L + H+Y LMNTTFGLVP+GR P T+RL EVMSAGAIPVFV R++V PF E DWP+ SF F P++VGP M++TL+ V+ AE MQRKS++ + E+FG + + A+ +VD L R G
Sbjct: 175 SRCSSIDMAAVAPSMACGAPLAEPCFDHSRCRPHASGGAPSKPSIYVFDATCSLADSSALPPSNESLM---------LSHTWREAARDAGVLSETYRDACLFLHVNKRLNHVPCPAEKPLWNGGKNHVMVDLTD--------------------------------------RTRDKKPLIAGSAAMDASSNMRSCFYRSGYDFAVPLRHQWGFGNLTELAPWHRDYFLTVKGNLYLSGVGYDERMSVVPLHSEPEGVIMGLNCFELHDEHLLPENEEFCLALNETASRHEYEDLMNTTFGLVPAGRQPATYRLAEVMSAGAIPVFVSRDMVRPFPERVDWPTLSFSFPPEEVGPAMMDTLRSVTPAELLGMQRKSVQAFYEIFGEEP-GYDRIARVVVDELVLRVG 533
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: A0A6H5L9T2_9PHAE (GT47 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L9T2_9PHAE) HSP 1 Score: 327 bits (839), Expect = 2.340e-99 Identity = 186/402 (46.27%), Postives = 246/402 (61.19%), Query Frame = 3
Query: 234 CSDVD--MSSFGKGMECGVPLSEPCFDFERCRNGSSAG-IYVYDGICTLANSSILLASQETDLDRWTQESDNLDSVLRSEVEGAGLLAQTYESACLFVAATSRY--TPCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFG 1424
CS+++ ++F +G CG PL++PCFD RC + SS IYVYD C+LA+S+ L + T+LD+ Q S R V AGLLA TYE ACLF+ + PCA PLWN G NH+M+ E +P I G R RP I+++YAM+ + + +C+YR+GYD+S+PL P VFP A P DR +FLT KG++YL G EER +V +HD +GV+ + C MHG+ LPEN +YC+ + RYD +DY LMNTTF LVP+GRSPG+FRLGEVMSAGAIPVFV R+ + PF+E+ DWPSFSFVF+PD VGP M+ETL+ V A+ EMQRKSL Y ++FG T N+ A +D+L +R G
Sbjct: 165 CSNLENATAAFAQGSVCGPPLTKPCFDHSRCGSVSSRPMIYVYDQECSLADSNKLRINDHTNLDKQHQ-----GSYWREAVWRAGLLANTYEEACLFIHVNTHNHDEPCATRAPLWNGGVNHIMM---------------EFTPWWI-----KGQRA---------------RPHISNTYAMDWSFDALSCYYRSGYDLSLPLVPGKVFPDTAPSPAPDRDYFLTFKGTLYLRGYGLEERSAVSRVHDPANGVVSVIKCSNMHGDESLPENQDYCQRSRKRYDLYDYEKLMNTTFALVPAGRSPGSFRLGEVMSAGAIPVFVVRDWIKPFQEQIDWPSFSFVFSPDDVGPIMMETLRAVQPAQLLEMQRKSLRAYWKIFGGVT-NYSVIASNAIDMLVQRIG 525
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D7G4H7_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4H7_ECTSI) HSP 1 Score: 313 bits (801), Expect = 1.090e-97 Identity = 147/235 (62.55%), Postives = 189/235 (80.43%), Query Frame = 3
Query: 726 RDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFGQQ 1430
R RP++A S+AMEAA+N+ TCFYR+GYDISVPL+P+ V LA + P DR+FFLTTK ++Y+S GSEER+S++PL DEE+GV++++HCFE H EHLLPEN E+C++LKD+Y+ +DY SLMN+TFGLVP+GR P T+RLGEVMSAG+IPVFVGR+LV PF E+ DWPS SF FTPD+V M+ TL V A+ EEMQRKSLE Y MFG D +FRP+A+ I+ ILR+R G +
Sbjct: 6 RASRPDVAGSFAMEAATNMHTCFYRSGYDISVPLAPRQVLHDLANVSPLDREFFLTTKCTLYISGHGSEERISLLPLQDEENGVVVTMHCFEEHQEHLLPENAEFCQALKDQYEGYDYRSLMNSTFGLVPAGRGPATYRLGEVMSAGSIPVFVGRDLVPPFMEQIDWPSISFAFTPDEVESRMMSTLLAVPPAQLEEMQRKSLEAYGRMFGADVNDFRPSARIILGILRRRLGHR 240
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D7G4H3_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4H3_ECTSI) HSP 1 Score: 304 bits (778), Expect = 1.500e-94 Identity = 147/224 (65.62%), Postives = 180/224 (80.36%), Query Frame = 3
Query: 762 MEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFGQQI 1433
MEAASN+ TCFYR+G+DISVPL F LA + DR FFLTTKG++YLS GS ERMS+VPL DE +GVIMSLHCFE+H EHLLPENVEYC++L DRY DH Y SLMN+TFGLVP+GRSPGT+RLGEVMSAG+IPVFVG +LVLPF+E DW SFSF F PDQVGP M+ TL+ V RAE E+MQRKSL+ + ++FG D F P+A+ +++IL++R G ++
Sbjct: 1 MEAASNMHTCFYRSGFDISVPLPSNKAFNNLADVAAWDRNFFLTTKGTLYLSGHGSGERMSLVPLQDEANGVIMSLHCFEIHDEHLLPENVEYCRALSDRYGDHSYESLMNSTFGLVPAGRSPGTYRLGEVMSAGSIPVFVGWDLVLPFKELIDWSSFSFAFAPDQVGPQMVRTLRAVPRAELEQMQRKSLKAHGKIFGVDQDIFVPSARIMLEILQRRLGHRM 224
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D8LQY4_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LQY4_ECTSI) HSP 1 Score: 220 bits (561), Expect = 5.240e-63 Identity = 106/187 (56.68%), Postives = 136/187 (72.73%), Query Frame = 3
Query: 762 MEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQ 1322
M+ + + +C+YR+GYD+S+PL P VFP A P DR +FLT KG++YL G EER +V HD +GV+ + C MHG+ +LPEN +YC+ + RYD +DY LMNTTF LVP+GRSPG+FRLGEVMSAGAIPVFV R+ + PF+E+ DWPSFSFVF+PD VGP M+ETL+ V A EMQ
Sbjct: 1 MDWSFDALSCYYRSGYDLSLPLVPGKVFPDTAPSPAPDRDYFLTFKGTLYLRGYGLEERSAVSRAHDPANGVVSVIKCSNMHGDDILPENQDYCQRSRKRYDLYDYEKLMNTTFALVPAGRSPGSFRLGEVMSAGAIPVFVVRDWIKPFQEQIDWPSFSFVFSPDDVGPIMMETLRAVEPARLLEMQ 187
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D7G4H4_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4H4_ECTSI) HSP 1 Score: 208 bits (529), Expect = 5.040e-59 Identity = 105/177 (59.32%), Postives = 129/177 (72.88%), Query Frame = 3
Query: 798 RAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSV--YLSSGGSEERMSVVPLHDEESGVIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQ 1322
R GYDISVPL+P+HVF LA + P DR+FFLTT S+ YL GSEE M ++PL D+E+GV +S+HCFE H +HLLPEN E+ ++ D Y DY SLMN+TFGLVP+G S GT+RLGEVMSAG+IPVFVGR+LV F E+ DW S SF FTPD+V + TL V R + E MQ
Sbjct: 6 RTGYDISVPLAPRHVFHDLAKVAPWDRRFFLTTTCSLPGYLGEHGSEEWMGLIPLQDKENGVNLSMHCFENHQDHLLPENPEFRQAQTDHYQGQDYRSLMNSTFGLVPAGWSSGTYRLGEVMSAGSIPVFVGRDLVPSFMEQIDWNSISFAFTPDEVKSRTMSTLLAVPREQLERMQ 182
BLAST of mRNA_P-littoralis_Contig660.4.1 vs. uniprot
Match: D8LNT2_ECTSI (Glycosyltransferase, family GT47 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LNT2_ECTSI) HSP 1 Score: 206 bits (523), Expect = 1.350e-53 Identity = 142/419 (33.89%), Postives = 191/419 (45.58%), Query Frame = 3
Query: 276 CGVPLSEPCFDFERCRNGSS--AGIYVYDGICTLANSSILLASQET-------DLDRWTQESDNLDSVLRSEVEGAGLLAQTYESACL-FVAATSRYTPCAVEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSCCCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFPALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLH----------------------DEESG----VIMSLHCFEMHGEHLLPENVEYCKSLKDRYDDH-DYGSLMNTTFGLVPSGRSPGTFRLGEVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVSRAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRF 1421
CG P S PCFD RCR+G +YV+D C++ SS ++AS D TQ LR GLL T + AC+ F A C + P W +G NH ++ L D R SSL D AM SN+R C+YR GYDI++PL + L + P DR++F T KG +YLS G ER +V+ L D +S V++ C H E LL N C++ + YD YG LMNTTF L+P+GRSP T+RL E +SAGA+PVF+ ++ V PF + W FSF F P++V P M++TL+ V E +MQ +LEV+ FG N T ++DIL R
Sbjct: 208 CGSPWSAPCFDLSRCRSGGGDLLSVYVHDETCSMRTSSEIMASYGDVAIPPPWDAAAETQLWXXXXXTLRHAAAERGLLVDTPDEACIVFYAVPRDKGECVSKTPTWGEGQNHALLDLNDESRA------------------------------ARSSL---------DGKAMFLQSNMRPCYYRHGYDIAMPLPARRPVERLREVAPQDRKYFATFKGKLYLSGNGLLERSAVLDLMSGGASAAAAPAEGRGEMGRANGDSQSSSSPDVLVVERCCNFHSEQLLSWNKAMCEASQREYDSSPSYGDLMNTTFALLPAGRSPATYRLAEALSAGALPVFIHQDFVKPFPGKIPWSDFSFSFPPEEV-PRMLKTLRAVPDRELAQMQATALEVFDTYFGPGMDNMLHT---VLDILEDRL 583
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.D7G4H1 |
| Preferred name | EXTL1 |
| PFAMs | Exostosin,Glyco_transf_64 |
| Model size | 2434 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K02366,ko:K02368,ko:K21988 |
| KEGG TC | 1.A.17.4 |
| KEGG Reaction | R05935,R05936,R10138,R10139 |
| KEGG Pathway | ko00534,ko01100,map00534,map01100 |
| KEGG Module | M00059 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000003,GO:0000139,GO:0000271,GO:0000902,GO:0000904,GO:0001501,GO:0001503,GO:0003674,GO:0003824,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005783,GO:0005789,GO:0005794,GO:0005975,GO:0005976,GO:0006022,GO:0006023,GO:0006024,GO:0006029,GO:0006040,GO:0006044,GO:0006082,GO:0006790,GO:0006807,GO:0006810,GO:0006897,GO:0006928,GO:0006935,GO:0006950,GO:0006986,GO:0006996,GO:0007005,GO:0007154,GO:0007165,GO:0007275,GO:0007276,GO:0007369,GO:0007399,GO:0007409,GO:0007411,GO:0007417,GO:0007420,GO:0007492,GO:0007498,GO:0008150,GO:0008152,GO:0008194,GO:0008354,GO:0008375,GO:0008589,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009605,GO:0009653,GO:0009790,GO:0009792,GO:0009888,GO:0009966,GO:0009967,GO:0009987,GO:0010033,GO:0010646,GO:0010647,GO:0012505,GO:0015012,GO:0015014,GO:0015020,GO:0016020,GO:0016021,GO:0016043,GO:0016051,GO:0016192,GO:0016477,GO:0016740,GO:0016757,GO:0016758,GO:0019538,GO:0019899,GO:0019953,GO:0021537,GO:0021772,GO:0021988,GO:0022008,GO:0022412,GO:0022414,GO:0023051,GO:0023052,GO:0023056,GO:0030030,GO:0030111,GO:0030154,GO:0030166,GO:0030176,GO:0030177,GO:0030182,GO:0030201,GO:0030202,GO:0030203,GO:0030210,GO:0030900,GO:0030968,GO:0031090,GO:0031175,GO:0031224,GO:0031227,GO:0031984,GO:0032501,GO:0032502,GO:0032504,GO:0032989,GO:0032990,GO:0033554,GO:0033692,GO:0034620,GO:0034637,GO:0034645,GO:0034976,GO:0035295,GO:0035966,GO:0035967,GO:0036465,GO:0036498,GO:0040011,GO:0042175,GO:0042221,GO:0042328,GO:0042330,GO:0042802,GO:0042803,GO:0043009,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043436,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044262,GO:0044264,GO:0044272,GO:0044281,GO:0044422,GO:0044424,GO:0044425,GO:0044431,GO:0044432,GO:0044444,GO:0044446,GO:0044464,GO:0044703,GO:0045880,GO:0046982,GO:0046983,GO:0048311,GO:0048312,GO:0048468,GO:0048488,GO:0048513,GO:0048518,GO:0048522,GO:0048565,GO:0048583,GO:0048584,GO:0048598,GO:0048609,GO:0048666,GO:0048667,GO:0048699,GO:0048706,GO:0048731,GO:0048812,GO:0048856,GO:0048858,GO:0048869,GO:0048870,GO:0050508,GO:0050509,GO:0050789,GO:0050794,GO:0050808,GO:0050896,GO:0051179,GO:0051234,GO:0051640,GO:0051641,GO:0051646,GO:0051649,GO:0051674,GO:0051704,GO:0051716,GO:0055123,GO:0060322,GO:0060465,GO:0060828,GO:0061564,GO:0065007,GO:0070887,GO:0071310,GO:0071704,GO:0071840,GO:0072498,GO:0090092,GO:0090097,GO:0090098,GO:0090100,GO:0090263,GO:0097485,GO:0098588,GO:0098657,GO:0098791,GO:0098827,GO:0099003,GO:0099504,GO:0120036,GO:0120039,GO:1901071,GO:1901135,GO:1901137,GO:1901564,GO:1901566,GO:1901576,GO:1903510 |
| Exons | 5 |
| Evalue | 8.74e-127 |
| EggNOG OGs | KOG1021@1|root,KOG1021@2759|Eukaryota |
| EC | 2.4.1.224,2.4.1.225 |
| Description | macromolecule glycosylation |
| Cds size | 1194 |
| COG category | S |
| CAZy | GT47,GT64 |
| BRITE | ko00000,ko00001,ko00002,ko01000,ko01003,ko02000 |
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 |
|---|
| 1680791380.9210794-UTR-P-littoralis_Contig660:13454..13702 | 1680791380.9210794-UTR-P-littoralis_Contig660:13454..13702 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig660 13455..13702 + |
| 1680791381.0030658-UTR-P-littoralis_Contig660:36819..37811 | 1680791381.0030658-UTR-P-littoralis_Contig660:36819..37811 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig660 36820..37811 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791380.9359875-CDS-P-littoralis_Contig660:13702..14067 | 1680791380.9359875-CDS-P-littoralis_Contig660:13702..14067 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig660 13703..14067 + |
| 1680791380.9506543-CDS-P-littoralis_Contig660:28735..28849 | 1680791380.9506543-CDS-P-littoralis_Contig660:28735..28849 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig660 28736..28849 + |
| 1680791380.9616735-CDS-P-littoralis_Contig660:32937..33109 | 1680791380.9616735-CDS-P-littoralis_Contig660:32937..33109 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig660 32938..33109 + |
| 1680791380.9755561-CDS-P-littoralis_Contig660:33568..33991 | 1680791380.9755561-CDS-P-littoralis_Contig660:33568..33991 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig660 33569..33991 + |
| 1680791380.9903522-CDS-P-littoralis_Contig660:36699..36819 | 1680791380.9903522-CDS-P-littoralis_Contig660:36699..36819 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig660 36700..36819 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig660.4.1 >prot_P-littoralis_Contig660.4.1 ID=prot_P-littoralis_Contig660.4.1|Name=mRNA_P-littoralis_Contig660.4.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=398bp
MSSFGKGMECGVPLSEPCFDFERCRNGSSAGIYVYDGICTLANSSILLAS
QETDLDRWTQESDNLDSVLRSEVEGAGLLAQTYESACLFVAATSRYTPCA
VEQPLWNDGTNHVMVSLGDVGRLDGFVPIEEGSPGLILSPAEPGMRIPSC
CCIGSSSLLRDRRPEIADSYAMEAASNLRTCFYRAGYDISVPLSPKHVFP
ALAAIPPSDRQFFLTTKGSVYLSSGGSEERMSVVPLHDEESGVIMSLHCF
EMHGEHLLPENVEYCKSLKDRYDDHDYGSLMNTTFGLVPSGRSPGTFRLG
EVMSAGAIPVFVGRELVLPFREEFDWPSFSFVFTPDQVGPHMIETLQEVS
RAEREEMQRKSLEVYREMFGTDTRNFRPTAKRIVDILRKRFGQQIRL* back to topmRNA from alignment at P-littoralis_Contig660:13455..37811+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig660.4.1 ID=mRNA_P-littoralis_Contig660.4.1|Name=mRNA_P-littoralis_Contig660.4.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=24357bp|location=Sequence derived from alignment at P-littoralis_Contig660:13455..37811+ (Pylaiella littoralis U1_48)
AGCGTCGTCAAATTGGCTGGAGCGTCTGGTGCCTTCATGTATTTTTTTCA
AAATTTTGGCTTGGAGGATCGTCAGCAGATCAGATTACGGAGATTTTGCC
ATCGGAACCACAGCAAAACGATGGAAGCGATGATGGTGCACGACCGGTGG
TGCAACCCCACTTGTCTGCAACGGTGGCCGATTCGCGCGACGGCATTCCG
GACGAGGACGCTGCGGTGGTGATTAATTCAACTTGCTCTGACGTAGATAT
GTCGTCTTTTGGGAAGGGGATGGAATGTGGAGTGCCGCTCTCGGAGCCGT
GCTTCGACTTCGAGCGTTGCCGTAATGGCTCTTCTGCCGGGATTTATGTA
TACGATGGCATATGCACCCTGGCGAACTCGAGCATCTTGCTGGCATCACA
AGAGACGGACCTAGACAGATGGACGCAAGAGAGCGACAACCTTGATTCTG
TCTTGAGAAGCGAAGTGGAGGGTGCTGGATTGCTGGCCCAGACTTACGAA
TCGGCCTGCTTGTTTGTGGCCGCCACCTCGCGCTATACCCCCTGTGCTGT
GGAACAACCGCTCTGGAATGACGGCACCAACCATGTTATGGTTTCTCTAG
GCGACGTAGGGAGGTGAGGGACTACTACTTCTGCTGTTACCGTAGTCTCT
TAAGCTTTAACACTTTCACACGATGCAGAGGAACGGGGGTTCGATTCCCG
GTGAATGTGTTCCTGTGCTACTTTGAAAGCGGCTTTGCTGTTAGTAAAAG
CAGATTCGGCTTCGCCGACGAGGGTAGGGACCGCGGACCCCTGCTCGCGA
GAAAAAATCTCACGCATGTACCGCAGAAGGAAGGTGGGGGTAACTCCTCC
TGTGTCGATCTTCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGT
TTGCAGACTAGTGTGCCAGAGAATATGGGATGACAACACACACACAACAC
ACTCCCTTCGGAAAATCACCCAGCAGTACCACGCCCTTGATACTGTTGGA
GCCAATAATGCGACAACGGAACCCCGGGATACTGGGACGGTATCCCCCCC
AGTCTGTTCAAAGGCTGAATCTTATGGCCCAAGCCAATTTTGAGAAACAG
ATTTCTCCAGGTCTCGTTGAAATTGGTTTTGGTCCAGCTTGTGGCCAAAC
TATTGGGAAAATCCGTGATCTCTCTCAAAACCGGTACAGCAGTTGATGTC
CCGGTACCGTTGGAGCCAACAATGCGACAACGGAACCCCGGGAAACTGGG
ACAGTATCCCCCCCAGCCTGTTGAGGCTGCATCTTATTGCCCACATCAAT
TTTGAGAAACAAATATCTCCAGATCTCGTTGAAATTGGTTTTGGTCCATC
TTGTGCAAAAACTATTGGCGAAATCCGTGATCTCTCTTTAAACCGGTACA
TACAGTCGATGTCCCGGTTTACCAGCCTCGTTGTGGCAAGACCAAAAAGC
ACCGGTAAGATCACTTATTATAGCTGCAAAAACCCTCCTTAGAAAAGGCC
TTTTTTGATCTTTGGCGGTTTGACCACTTGTTTGTTATAGATGGAAAAAA
CCCCTTTTTTGATCTCAACTTTTCTAATAACTTTTTCTGATCGACCCAAT
CGCTCAGAAAAATCACTTTTTCTAAGCGATTCGATCGACCAAAAAACACT
TTTTGAAAAAGTTTGGGCCCTCCTCACACAGCCTCTCACGATGGGTCGGG
TGACTTGAACAACTACATACAGCGGTATTATTTTTGCAAGCCTATCGATA
CCTTGCGGCCCCAGATGACCTACGGAGGAGAGGGACCAGACACACAGCTC
AAGGGCGATTGCTTTGTTGTTGCCGTGGGTTCAATCGTTCGAGAGCAATG
GACGGAACTCAAAAGTAGTGTGGGGTGAGGGAGTAGAGCGGGCAGGGAGG
AGGAGCCGCAGCAAGCAGCAGCAGCAGGTATTTTGTATTTTGGGCCGCTA
CATGAGTTTGGTTTTTCATCCATCACTCTCGAACCAATTGATCCACAGCA
ATGCCAAAGCCATCGCCCGTGAGCTATGCCTCTGGTCCTTGTCCTCCGGT
TGTCATCTAAGGCCGCAAGGTATCAACTGGCTAGCAATAGAAGCGTTGCA
GAAACCGACGAGTTGTGAAAAAATTGAGAAGAAAGGCCGTTGAGTCCAGC
AAATACATACCAGGTACTGCTGCATACGGAGTATATACTCCTGTACAGCA
GTACAGACAGACGGCGGAGATTTCTTCCCTTTTTTTTTCACGAGTGATCA
GTTTCTGCAAGAGCTAGATTGCTAGCCTATTGATGCCTTGCGGCCCAAGA
TTACCAACGGAGGAGAGGGAGAAGACACACAGCTCACGGTCGATGGCTTC
GGTATTGCTTTGGCTCAATTGGTTCGATAGTTATGGAACCAAACTGGTGT
ATGTACCTGCGCAAAATACCTTGCTGCCCTGCTGCTGCTGCTGCGGGTTT
CCTTCTCTTTTCCTATTTTTTTTCACACGTCATCGACGCCTGCACTCTTT
ATTTTGTGAGCCTGTTGATGCCTCGCGGCCTCAAAGGACAATCGGAGATG
CACGACCATATACACAGCTTACGGGGCATGGCTTTGATATCGCTGTGGCT
TCATTCATCCGAAAGTAATCAACAAATACGTTACAGCAGCAGCAGCAGCA
GGCTGTTGAAACGATGTCAACACCGTCTGTCTGTAAAAAAAAAGGGTCCC
CCACGGAAAAAATAAAATCAATCGCGGTTATAAGAAGTGGTGCTTTTCGA
AGATCCTGTTGGAATTCTTCTTATTGAAAGAGGCGGATTCTGAGGAGATT
TTTTTCAGCTACAATAAGTGGTCTAAACAGTAAAACGGAAACCGGCATGT
ACCGGTAAACAGGCACCTGTTTACCGTAATTTACACAAGATAACACACCC
ACGTAAGATACCACCCCCCCCCCACAGAATACGACACCCCGGTGATAATT
TTGGGCGCATTTTTGCAACCATCGATTTACTACCGGGGCTACGCAAGATA
CCACACCCCCAGTGATAATTTTAGTTACGCCGCATACATTCACGGGGCTC
CTCCTTTCTACCACCGGGGTGATAGAACATCTGCCCCTTGGGCACACAAC
ACCACACCCTGTGTGCGGGGGGAACGCCCCGTGTGGAGACCTCCAAGAAC
ATGAACGTTGAGGGAGGGCAGAATGCCTCTGGTGACCCCGCTTCTTCGAC
AACTGTTTCGACCGCAGCAGTACAGCAGGCGCCACAGATCACGTCGTTCT
TTCAACTCGAACGCACTTCTCCTACACAAGCGACTCCTGCCACGAGTCCT
CCTGCTGCTGTTTCGTCGCGTTTCTCTTCTGTCTGTTGTTTTCTTAGCCG
CGTATAGTGCAACGTTGTTGTGTTTCGTGGTCTTGGACTTTTGGTCGTGC
TTGTTGCAGCAGCCTGGCACGTTTTTGAAGAGGGCAGGACAGATGGCACT
CTGTGGCGCCGTCTCGCGTCATATCGGGCGAGGTATCTTCGATTTTATTT
CCACTTTTTGATGCTCCATCAAGTCAAGAGAGCTGACATTTTTTTTTCGA
GCTTTCTCGGCTTTGAGGGGGGTCACTCATCGTCGAGGTGATGTGCTCAG
GAGTTTTGTCCCCGCAATTACCTAACGTGTGTGCGGACGTTCGGACAGGT
ATCACCCCCCCGCAATACCACACCGCTTCAAGTGTCCGGCAGCAGCGGCT
CAACTCTACAAGGAAGGAGTGTTTCGGTATCCCCCCCCTAGCACGACCTG
TGGGTGTTCGGAGGTTATCACACCCCCTGGTTTATCACACCCCCAAACAC
ACCCTGTGGGTGTTCGGACGTGCTATCACACCCCCTGGTTTATCACACCC
CCACATTTATCACATCCCCAAACGTACCCTGTGGGTGGTCGGACGTGCTA
TCACACCCCCTGGTTTATCACACCCCCTGGGGGCCGCCGCGACCAGCACT
CTTATCACCGGGGCTACACAAGATACCACACCCCCCCACAATACCACACC
CGGTGACAATATTTTCAAACGCTCAAATGTATCACCGGGGGTGTGTTATC
TTGTGTAGTTTACGGTAGGCTCATTTCAACCAGGCCGCCTGATTTCAGGA
AAACGGCTTTTTTTCGGGGGAACGTGAAATCGCCAACAATATGTAGGGCT
TTCTTCCCCCGAAACAGGAACATGAGCGACGGAAAAAAACCCGCGAATAT
TCGATTTCAAGGAAACAATTTTTTTCCAGCCATTTCCAGAAACATAGCCA
ATACACACCAAACTCGCCCTACAGCAGCAACAGCATTGCAGATACTGTAG
CAAAAGAAAATGGAGGGTGACCGAGACAATAGAGTGTTTGCTCAAAAGGA
TTTATTATCCCAAATATCCTTTCTTGGAAAAAAAAAAAAAAAGCGTGGTG
AATAACAATTCCTTTTCAAAAAATTTGAAAATGTGTTTGCGCAAACGGAA
TTCCTTTCTGACAGAACACACACACACTCGCCCACACACACGGCTGATAA
TGTGCTGCTGCTGTGGGAGAGCCAAAAAAACGAGTCTTTGGTTCAAGTAG
TGGGGAAGGGTGCCGGGTCAAGCGAAGTAAATGCAAACTCAGGGGTCACG
GGCAGCAGGGATGGGGCTCGTTCGGCAGAGAGGCTGTCCTCGTAGTTCTT
GTGGAAGGAGGCGTCACTGCTGTGTGTCACCCATACTGTACTGAGTACGG
TAGCTGTACTGCTGCATTGTTCTGTATTTTCAATCGCAAAAAGAGGTCGT
TTGCATTTTCAGCGTGCCAGGTTCGACCTCGAGCGACACTTCTTCTCTCG
TATGCTAGTGCAGAGCAACAATCAGACACACGCGCCCACACACATACACG
GCTGATGATGTGCTGCTGCTGTAGGATAGCCAAGACAACGAGTCTTCGGT
TCAAGTAGTGGGGAAGAGTGCCGGGTTAAGCGAAGTAAATGCAAACTCAG
GGGTCACGGGCAGCAGGGATGGGGCGAGTTCGGCAGAGAGGCTGTAGTTG
TGGAATGAGGCATCTTTGGTGTGTGTCAACTATGCTGCTGTACTTTAAGG
CAGCACTCTCTTTGAGTTTTTTTTTTTCTCTTGCAATCTCGACCAAAACA
ACAAGTGGTTGCAGAAAAAGGTTGAGACAACCTGACGGTTTCAGAATAAT
GCGGCATCACTTCAGCCAGTGAGTGGCCAAGATTTCATAGATATTTATTT
TTTTCCATCGGAGATCATCCCCACAAGCGATGCGGCTGCCTGGGGTCACC
GGAGCGATCTGAGCCAGCTTTATCATCGCTGCCTCAAAAGGTACGACGTT
CGACTATTATGTAGATTGTGTTGAAAGATGATGACGCTGCAAGTTTCGTG
TCTTTTGGTGAGCTGTGTGTCGAAGTCTGGCAGCGACGTGTTTTGGGCGC
CGACCACCTACCTACCTTCAACAGCAGCAGGAGGCCGCTAATAGAGCCCA
CTTCGGCGTTCGCACCCCACAGGTCGAAACCTCTATAGGCTATTCGAGTA
TGTTCATTGCCATGTGTTCCAGATGGGCCAGGAACTGTGCCCGACCTCAA
TCGGTCCACTACAAGTTGAGAAATGTTCTAAAATGTGTTAAAATAGCAGC
TCGTGGATCAGCTGTCATTCTGGAGGGGACAATGACCCGAGGCACAGCAG
CCAGTGCCCTACAAGGCAGTAAGCACTTCCGGAGGATCGGGAAAGTTTCA
CCCACCATCAGTCATGGTAGTTGGCCTGTGAATGACGGTGGAATTGATGT
TGTACATGGACTACAGCACAAGAAACCCGTTTTTTATTGTATGGGTCGTG
GTTGAGGGTCAGCTCCCACCTTACCGTGACCCCATGACAAGATCTCTATC
GTGCATAGTGCTGCTCTTTTGGCTTCGATGTGTACCAGGGCGTAGAGCAC
TTGAAAGATAGCTAGGACCAAGGAGAAGCACAAACAAAAAAAAACTATAG
AGGTTACGAATTGGGCACAGTTCAAAACGTCGATACCGCAAAGCCTAAAA
TGCCCCTAAAACGCTGTTATTGTACCGTTTTTACTATGCAGCCAGCGGAG
CAAGGCCCGTCGTGGACACCTGCACACCACTGGACATCGTCTCTGTGTTG
GGCACCCAACCAACCCAGGATGGTATGCGTACGTTCGCGAGCGTTGAGCA
AGATCTAGAGCTCGATGACAACGCTGTATCCAGCTCACTACGCAATGCAC
GTATCGGAGTAAAAGGAAAACAACTCAGGAAAGACCTGTGGGACAGACTA
GGGAGAAAGGGCGTGTATCGACGCCTTGGTAGACAGAGACCACATAGGGT
TTGGTGGCTTGCGTTTTGTGGAGAGGGGAACCCTGCCCCAAATATTAGCC
CTCCACGGGACTTCGACGAAAGGGTTAGGATGGGATTGTTGGAGAGGATG
CCGGAGATGAGGATCGCATTGCCGCTGCTCAGGAGAAGGAGACGTACGCG
TCTGGCGGTATCGCCAGAGCACGAGATGAGGAAGGCTGCTGCTGCTGGGG
AGGAAGTGACTGATAAAGTTCGCCAAAGGTGCGGTCCTTCGAAATGGTCC
ATTTTTTGTGTATGATTGATAAGTCTGTCCTGCGTTGGCAATGGTGCGTT
GATGCTACGCTTTCGTGTCCGTAATTTGGTTAATTGTAGAGCTTTCCCTC
TAATAGCAAGTACTCGTAATAGCGAGAGACAGCGAGAGACATTGCCGTAT
GATAGGGTTAGAAAAATATGACACCTGCTGAAGCGATTTAAAATCACAGA
TGCTCCACACCGAAGAGAGCATCACCATCAAACGATACGTTTACTCTCGA
TACGTTTCCAACAGTCCCTTTACGGCACCTACACATGTAATGAATCGTGC
TTTGTAGATCCGTCCAGGGGGGTCCGTCGTATCTTACGGCACCCACGGAA
CACACGCGTCGCGCCGCCACACGCACCACTCTGTAGAGCTGTATTCAACT
GTACTGCTGCTGCTGCTACTTCGCTGCTGTTGCTGCTGTACTGCTGCTGC
TGGGATGTGTAATGATGTATCATCTCGAAGTATCATACTCTCACTCGAGA
CGGAGAGCATAGCAGTGGCACCGTTACAACAACACAAGAACAGAAGTACA
GCAAGACAAGAGTGTTGTGTGTGCGGCAGGCTGTGGCGTGATGTGTAAAT
GCTGTGATGCGATATTTTAACACGAAAACAGGTCATATTATCATCACCTA
CAGGCGTCAACAACAGTAGTACAGCCGACCGTGGGAACGGACTGTAGACA
TGCTCGTAATGCTGGTGTGGTGTCGCTGGCGTAGGGGTGGAAGGCTCGGG
GGAAGCAGCAGCCAGGGCTGATAATGTCGTGAGGGAAGCAGCGGCAGGTG
GGCGGACTGCTGCTGCCGTTGAGCGTGCTGCCAAAGGCAAACAACCTGCA
AGGGGTGGGAAGCTTCCAAAGGAGTGAGTCCGTGAGACCTTTTGGTTTTG
ACTCTTTGTGCGCGGGCCGTCACACATTGTAACCCTAGCTAGATGTGACT
GTACACCCTTTTTTTTTCTTGGATAGAGAACAGTTAAAACTACACATTCG
TGGCGTTGTTTTATCGTTGTTGTGGATAGACACTATGACATTGTTGTGTT
ATTTTGTTCTTGTGGATAGATACAATAGCACCGTTCTTTCTTCGTTTATT
GTAGTGGATGAAATCACATCGTTCTTGTACTGTTTTTTGTTTAGAAGATA
GATGGGCAAAATAGTACCGTTCAGTTTTTTTTATCATTTGCGATACAGAA
GATAAAATCACCACGTTCATATAATGTTTGTTTTGTTGGAGTGGATAGAC
AAAATCACATCGTGCTTGTATATATTTCCTTTTTTGTGGCGGATGGAACA
AATCGCATGTTTTTTTTTGTTATTGTGTGATCACACTGTACTTTTTTATT
TTTTGTCGTTCGTCTATTGATCCTATAGTTATTGGACCATCGCCCTGGTT
TGCCTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGAA
GTACTTCGAAGTATATGATTATGGTTGAGGTTTGTCTTGGTTATTTTTTG
TTTGTCGGACTGTTTCCGATGTTTGTTTTTCTTTCGAGCCTGTTATTTTT
TTCTGTATTTTGTTTGGTACTCTGGCCACCACAGATGGTACCCCAACGGT
ACCATATCTGATTTGACACCGTGGGTGGTCATAGTCCGTATATTTTTATT
TTATTTTATTTTTCCTCCTAGCACGATATGTGCCTGGTTTGTGACCACGG
GCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACATCAACAACAC
TGTGCTTGTACTCATTTTGTTTTTGGTATTGTGTTTTCACACTGTGCTTG
TATTTTTTTTAGGGTCAGGAAAGAACAAATCACACTTTTTTTCATTTTGT
AGCGCGTAGAAAATCCCGTCGTTATAACACCGACGTTCTTGTACTTGTAC
TGTTTTTTGAAGTGCAAACATCACATGTCCATGAAACCATACCCATCTTG
TATTGTACATAGTTTCTTTACGTCATAGACATAATCACCCTGCTGTTCTT
GTACCTTTTTTTTTTCAACGTCGGCTGCGACAGATGGTAGGCGGAGAAGG
AGTAAGAGAGCGGAGTCAGCAGCGGCGCCAATCGTTAAGGTTAACAGCGG
TACACCAAACGCCACTGGCAAGCCAGAAACACCGCCGTCATCGCTTGCTG
CCACGCCAAAAACGTCGACTGCGCCCAATGGTAGGAAGAGGAAAAGGAAG
GGAGCGGACCCAGCAGCGGCACCAATCATTGAGGCAGACAGCGGCACAGC
GACGGCCACTGACCTCGAAAATACGTCCGCAGGGTTTGCCCCTTCCGCGG
CACCAGCGGCTGCGTCCGAGAGCGGGAGGTCCAGGAACGGCAGGGTGATA
AAAAAATCGCGGAGAGCCACAGAGTTCAAGGGAGTTGCATCCATCAAAGA
CAGCGACGGATGAGCAGTCGGTTGCGGGCGGTCGAGGGCGCGCGCGGGAT
GGGGGTGCGGGAGGGGGCCTGTCGTTGGCGTGCTTGCTGTCGAAGGATGA
ATTCGGGGCAGAGGAGGTGGAGTGGAGGTGGGGAGGGGTGAAGGGGTGGG
CGGGGGTGGGGGGCTTCGACATGTGTGTGCGGGAGCGGTGAGCTGGGGTG
GCGTATCGGCATTATACTTACTTCCTCATTTTTAATCTCTTGCGTCTCCC
ATATTTTTCCTTGAAGAATTTCTGTTCTCTACGAGTATCGTGTCCTCGGA
GACGGTGTAATCGCCATGTGTGTGCGGGATCGGCTGTGACCTTGCGGGGG
GGGTGGGGCGTACCGGCACTTCTTTTCTTCCTTTTTTTCAACCGCCTTAC
CTACTTTCTGTTTCAGTTTTTTTTTTCTGTTGTGTTATTGGAGACGGGAT
AATCGACATGTATGAGCGGGAGCGGCAGTGAGCTGGGGAGTGCCGTTTCG
GCAGTCTTTTTCATTCAGTTATCTACCTGTTGCATCCTGACGTATTTTTC
CTTTCGGAGTTTATTTTTCGGTTGCGTCCTCAGGCTCGACCTTGTGTGTT
GGTCTTTCACTTTTGTTTTTTGAACACACGTATTCGCCGTACATAAAATA
CACCCGTGGGTATTCCTGCGTATTCGTGTGTAGCCTTCTCTTCGATGTCA
TTTTACTTTTCGTGTGTCCTCGGAGCGTAATCACGTGCCTGGTTTGTTTC
CACGGACTAAACTTAAGGGACCTGAGCTTATGTGATGTCGATAAACAACG
ATAAGACGACGTACTTTGAAGTACATTTTTTTTGCAGGTGGCCCGACATT
ATTCTTGGCCTGACTGGAGTTTCAAACGTAAAATATACTCGAAGTACTTC
GTATCAGGTTTTGTTCGATATAACACTCATTGGGGTCTTCGTCAAACCTG
CCGTTCGTGCACATCTGCGTACCACCGCGGCTCTACGAGACAGACACGCT
CGGTAATTTTTTTTTGCATGGTCCATGTGCAGCAAACTGTCCAGCTCTGA
GAACGTACGTGAAAAACAAGTTGGGGCGTGGAACAACGATGTCCGTGATC
GCTTCCCCGAGCTTCGTCGATAACCGAAGATTCTTGTTGAACCTGGAGAC
AAATAGCATCATTTTACACCAAAACAACATATGGAGACCCCATAAATCGC
CACGGAACTCCCTCATTCATCGCGGATTCAACTGTCATGTATTTGCTCTG
AGACACCCCATCAAATATCATACCATATTTCTGAGTACAATTTAGTTTCA
AGATGCTACTTCGAAAGTATTTCCTATTTTCATGCCACCAATATCGTATC
ATAGCACACTTCGTGTTTCAATGCCGAACAGAGACAAGCCCGTACACTTC
TCGTAAGTAATCAGACAGACAGACGCACCATGCGAAGTCGCCACTTGACC
ACGACTTATCTGATCGGCAACGTGTTCAGGACCCTCTGCATGCCGGTGCT
GTCCCTGACTATAACAGTTTTCGAGTTCTCGCCGCTCCGTCCGCTCGTGG
GCTACGCAATACAGCAGTTGCTATTTCCCCGACAGCAATTCGCAACCATC
ATCAGTGCCTCAACAGTGCTAGAACCACTTCAGTGGGTATTCGGTCCATT
CCTTTTCCAGGGAACAGCTGCATGGTTCGTGCAAAGCACTGCCCACGCTT
GCACTGGTTACCCATGCCCGTACACCCGATCAATTTCGCCGCCTCCTGGT
GCAAATTGCTGCGGATCGTGCGAGCAAGGACATACGACACGTTGACGTAT
TTTCCTCCCTCTCCTTTTGGCGATCCAGCACGCCCTGTCAGGTCATGCGT
TTCGGGGACGCGAGAGTGGGGGTGTGTGTTTTATTCACTGAGCATACTGA
GCATGTTCAGTAGCCGAAGAAACATCGAGACATAAAATAAACTCCAACAG
CCTCTTGGAACTACGAGACCCCCAACACACCCGAGCGATGTTTTCGAGTG
CTACTGACTGCTATCTTTGTGTGATAATGTCAGCGTCGATTTCGATGACT
TCGTCAATGGCATCATGTTTAAATACTTCGTACTAGACTACCAACGAGCA
TCGGCAACATCATCAAACATGCCGCTCGATACTACTACAGATCGTCCGCT
GTTCGTGCAGTTTATGTGTCCAGCAACCCCTGTACAGCAGGCATATTTGG
TGTGGTGACACATGTGCCTTTCGGTGAGCAGTTTTTCTTCAACTGTCTAT
GAAGCGGGTACGTATGATAACAGGATGACTCGTGAAAGGCAGAGAGCCTA
GTTCAAATACCGATGCTGCTGTTGTCTTCAGCTCGTGTTGTCTCTTGTGA
TATCATAACTGTACCACTGCTGTTGCCTTCGGCTGCCGTTGTTTTGGGTT
GAAATGTTTCATTCCGAACATGTCATATCATACCGCTGGCGCAAGAGGTC
TCTCTTCCACAACATAATGCACACACACCTGGTTGTCCACTGTAGTAGTA
GTAGTAATTGAGACACGAGGAAGCCCTGTTGATTGCCGCAAGTTGTCGTC
CGGTTGGGGTTTCTTGTCCCACCTCGGGAGAGGCACCTCGCATTTGTACC
CTCCTGCAGCCTCGGATACTTGCTGTCCTAGTCAGTTGCGGATGTGGGAG
GGGGTCGTTTGTTGCCTGCTCCAACATCGCGGCCGCTGAAGCTTTGGAGT
CCTGCTGTAGTCAGTCGAAGGAGGGGTGCCGAGAAGCGTCACCAGCTCGT
CTCCAAACTCCTCCTCTGGTGTCTATGATCCGGCTGCGTAACTGCCATTA
CCAGCAGGCGTATCCGCTGCATTAGCCTCACGTGTGCCTTGTGCATCGCT
CTCCTGGGAAGGAGGAACTCCACGACTACTTAGCTCAGCAGAGGCAGCAG
CAGTAGCAGCAGCAGCAAGCAGTAGAGTCTCCGGTCTCGGGCGTTCTACT
CTTGACATTTGACGGAATCGGTGGGCTTCACGCGTTTTGCCGCACGCTTG
TCAACATCAGTCGTGATGTGGCATATAAACAGCAGGGACAAGAGGTCGTT
GTGTGTGCACGCACGAGTGCACACCTGGTGTGTTTTCTTGGTGAGAGCGA
AAGCGCGGCGTTGATGAGTCCGCGCCAGCTGTGTCGTCGTTCTACATGGT
TATACCGCTTTCTTTCTTTTTTTACACATCTCCGATTCCGATCGTGCAAC
CAAATCGGGCGATGTAGTCGAACCGGCACCTCCTTGCCGGACTTTTTTTT
TTTGTGGCAAGGAAATAAAAAAAAACGCGATTTCTTATTATACTGAAAAG
AGTGCTGCCTCGACTGAGTATTGCGCAGCTGTGCTGCTGTACAATACCAT
GGTACGTCCTATTTTCAAGTGCAAGAAAAAACGGTCGTTTGCATTTTTAG
CGTGCCAGGCGTAAACCTCGAGCGATACTTCTCTTCACCGGTTGAATGAA
CCCGCTTCCAACCCAACCTCCTGCGGACGGAGAGCAGTATACAGAGGAGA
CAGCCTATAAGTTTTCGCCTTGATATGTGGTGTAGAGAGCGAGAGCGTGA
CTGCTGTGACTGCCGGTGTTCTGATGTCTGTGTCGCGCGACTGGTGTATG
CCTCTGCTGCGGACGCACGCCAGCCCACACTCGCTACTTTCAAAGAGTCG
CTCCTCAGATGCTATGCTTTGCACGGCTAGCACGCTTCCGCCACATGAAC
CAGCGGCTAAGGTGTTGGCACAGGGACTGCAGCGCGCTGCCTTCAGAAAT
CACGGCCCAGTGATCGGTGTAATTAACTGAAACGTAGTGGTGTATCGTCA
TCTTCTCGCGTAGAACACTGCTGTTGCGGAGAGGCCGGGGTGATTTGGCC
AATCATGTGATGTGCCGACATGGGCTCGCCTGGCAGATCAAATATTCTTT
CCAAATATCCCTTCATTCCGGGATTTTCCGAAATTTGAGAAAACAAATCC
TTTCTGTTGCAGTCACGGAGCCTCTCGGGGAAACCTCGGGGGAACCAAGA
AAGGATATTTGAGATAATAAATCCTTCTGCGCAAACACTCTAGTCACCCT
GGCGAGCAAACCCACCCCTTTGTGCACATTCCGCCGGCAGGCGTGGCGAG
AGGTTGGTGAAAACATTACAGCAGTAGAGACGAGAAGGAACCGAAATCCT
TGATTTCGCCGTTGGTCTGCCTCTTTTTTTCTTGCTCCGCCAAGAAACAC
CGTGCTGGCAACCCCATTTTGAAGCCAGCAAACAAGCTGCAACCACCGCG
TAGCGCCAGCGTGGTCGAGGGCCACTATCATGTAGACGCGCGTTTCGAAA
GAATCAGGAGTTCGGAAGCCTTTGTAGCTCTGATGCTGTCTGATGCCATG
AAGTGAAGCTTGCGACTGCAACCAAAAAACACCACCAGCGCGATTTGGAA
GCGTCTCACAGCACACACCATCTGCTTGCGACCCTCGTTGAGCCTCACGC
GAGGTACAACAACCATGCAGCAGCAACAATACCGAGGGTCACGATCGTGT
AGACCTACGTTTCGAAAGAATGAGGACTTGGGAGGTCTTCGGTCTCTGTT
GCTGTCTGCTGTTGTGTAATGATCTTTGCCTGATTAAAACCGCAGAAAAG
CACCATGACCTGTTCGATTAGAACGGCGGATTTTTCGTATTTTCCAGGTG
TTTTCAAGGTTTATGTTCCCTGAAAAAAAACGTTCTCCTGAAATCAGGCG
TCCTAATTAAAAAGAGCCTTACCGGTACATGTCGGTATATATCGGGGAAA
GTCCCCCACGTGCACAACAAGAGCAGATGTATACGAAGTACATCTTCAAA
GACTTCGATACTGCATGGCGTGTCTGTGTTGTGTCCCCCCTGCTGTTGGG
GTAGCCTGTAACTACTGTATTAGTGCACGAGTGTGCAATACTGCACAAGC
AGGACTGCACTCGATTGGAACAGTTCCAAAAAGATTAAATGCTCATCATT
GGTCATCACCAGATCCATATTGCATGACCACACCAACCACTCAATCAATG
GGCCACACGAACTATTGATATCTTGTGGCATGGCCGTGTTACTGCTATAC
TGCTGTTCCACAGGTATGAGTTGCGAAGTGTGTGTGTTGTCGTCCCTTTA
ATTGGACGCCATTCTACACCTTTCGGGTAGGTCGACGCTCCAACTGGGGT
CACACAAGGGGAGGTCAACACAGGAGTTTTTTTTTCCTTTCTCCACTTCC
CTCTGCGGTGCTTGCCTTGTTTTGTTGAGCTTTTATAGCGAGAAAGGGGT
CAGCAATTCCCTTTCCCTCGTCGATGGTACGATCTAATCTTTCACGCGCA
TTGTGAGAAGAAAACCCAGATCGTGTTACTGCACTGGGATTCGGACTTAC
GCGTGAATGTCAGAAGGTTACGTGGATTACCAACTGAACCACCGGGGCGA
CCGGCATGTACTTCGTAGAAAACATTGAAAAAATAAACCACCTCGGTATA
CCGGCATACCACCAATAAACCGGGGTAACAGTGTGTGTGTGTCATCCCAC
ATTATCTGGGCACCAGCCTACACGTTTCGGTGTGATGTGGGTGCTTCAGC
CGGGGTCACACAGGCGGAAGGTAACACACGAGCTTTTTTCATTTTTTGTT
TGTTTTATTTCCCGCACCTTTCCTCCTGCGCTGTACTTGCCTTTGGTTTT
TAATGCAAGTCGGGTTCAGCAATCCCTTCCCTCTGTTTACTCACGAGTGA
CCTGCCTTCCACTGTAAAGTTGCAAGAAAACACTCCCAGAGAGAATCGAA
CCTGCATCCTTACTGCTAGGTTGAAGTGCGAGCCGACTAGATCACCGGGG
CGACCGGTATTGGCACGAAAAAAGTACGAAAGTACCGGAACTATACGGCC
GTTCTTTTTCTCATTTTTGTAGTCGATGCTTTCCAAAAGAAGTTCGAAAT
CTCATGTGGGGAAGCACGCGTGATAAAGCTGCGTGTGCCAACCTGGATGT
CACACCCCCTACTAATTGTACCTCCTGCCATCACCCGCCTGCAGGTGAGT
TCCTGCTCTGCGCACGTTTCATCACACGAGCGACGTTTATCACACCCATA
ACTACATTTCCCCCCCCCTTGTTGTCAAACCCCCCTGCAGGTGGGTTCCT
GTGTGTGCGCTTTATCACACGAGGGTGAAACAAAAAATTCCATGTTCCCT
CTAGTGCCTCCCTTTTTGTTTTCGTCGGCCAGAAAGGTCCTGTTTCGTAC
ACAGTAAGCAGTCCTGTGAGCATAACACAACTTAATCTAGTTTCCAAAGT
GCAGCCGCACATCCCCACAACACGAACTATCATGTACTGTACCAATACAC
GGTTCGACCGCGACAAACACGTCCGCGATAGGCTGGATGGGTTTGTTCCG
ATAGAAGAAGGATCGCCCGGCCTAATCTTATCGCCGGCAGAGCCGGGAAT
GCGCATCCCGTCGTGCTGCTGTATTGGCAGCTCGTCTCTCTTAAGGTATT
TATATAATTGTGCACCCGCAGATGCTGATTTATTTTTGCGTTAAGGTTTT
TTGGTATCTGCACATTTTTCGCCCCTCGAGGCGCAGGCCTTCGGCCTTTC
TAGCGCACTTCTTTTTCGCTGTTGCTTTCTGCTTTCTGCTGGCTGATATT
CTCACATTCATACATCGGCGGGGTAGAAAATTATCGCCCGCATGTCCCAA
CCTGGTAGAAAACAGCTGTTGCGTTGGGACGTCTTCGTTCGTCGTGTATT
CTCTGCTGCCACGTAGTATACTGTATCTGCTGCTGCTGCTGCTGCTGCTC
TGCGCCTGCTGCTGCATATTGCCCATCTTCCGTCTGCTGTCTTCTGTTGT
TGTCACCAGTCTCTGTTGCTCCCGTGTCACACAAAAAATGACCTTCTGCT
GTGTATACACCACGACGATATACAGTATATACCAGGTACGTATTATGCAA
TGCCAAGTACGTCTATGATCTGTAGGACGCATACTTGTGCTGATGCCCCT
TGTGTTGTGTATCTTCGTTACGACGTGAAGAAGTGGGGTGCTGATGTGCT
TTGTCCTCATCGAGCTAACCGGACCCCCAAAAAAACGGAAACAAAATGCT
CATCATTCATGCCAAGCCCCGCCCGGGTCAAGAGTGATTATAGTGTACTC
GGCCGGAGTACTTCGTTTATTTTATTGTACATGTGTATTTCCGTGTGTAT
TAACATTTTACGAAATCGAATATTTCACAAATTCGATGCACCGCTCCAAC
AAGACTTCGTCCGTGCGGCGAGGCGTGTGGCTTGCCTCCTAATCCAAATC
CTACAGTTTTTGTCACAACAAATAATCTTGATATCTGAATAGTCGTGGAT
TCCAACATCGAGACCGATCATTTCTCCTGAACGCACACGTTGATGAGGTG
CATGTGTGCGTTACTTTGTTATGTGCGTGTGCAACTTTGGGCACGTGCAG
CATGTTTGGCGTGCCGGTTGCCGTTTTAAAAGGGCGAGGGAAAGAGTTGA
CCAAAGTCCTTTGTTCACGAGTTGGACGAACAAAGCAAGAAGCCTACCAT
GCAAATAACACCAAATCGAGCGTCAGTTTCACCAAACGCCCCTCCTACTT
ATTACTACGATAACGATCTACGGAAGAGCTCTTCGCGTATCGCCTGGCTC
TACGTGTATCGGACTTACTCGAAATGCAAATACCAAAGCGTCCATCATGA
CAATCGAAACTGATCTTTTCCAAGAGTACATATATTTGGTATTTAGTCTG
CTGATGCCTTCGCATCAACAAATGGATGTCGTCCCAACGAAGCTCTCCCC
AAAACTTAATGCAGATGTCAAATGGTTCACTTTTAACGTACGTTCATCAG
TGAACAATTTACCACCCCCCTCCCACGGGATAATTTATTTACTAATACCA
CGCCATTTATGATTGGGCGTGTCAACCAAAAACATATATCATCGACGAAG
AGTTCACATTCTTTTCACTCGCCTGTACATTCTTTCCGCAAACTAAAGCT
GTGTGAAAAACACCCACGCACACACATGTACATGTATCGGTATGTTTGAA
ATGTCAACCAGAATTTTAAAGACGACATTGCGCAAAAATGTCGAACCAAC
CATTATTACATGTCTGGCCCGGCTTCAAACACGTAGCTGACGGTGTGTTG
CAGTGTGTTTGTTGTTCACATTGTTGTTTAAAAGGACATCCTCACACAGT
AAGAAGTGAATCATTCATGATTGAAACGCAAAAGGCTTGTCCCCACCTAA
CGGGGGCCCGCCCTCACAAGACTCTTCACTGCCCCGATCGCATAACAAGC
CTCCCAACCCAGCCGATGGGCGAATATCTTCTGTGCGGGGTGGAAAGGGT
GTGTCGGCGCTCCTCTCCATGCCACATCCAATTCCCGGTCGCCGCTGTCA
CTACCGCCGCCCTCACTACTGCTACTGCCTTTGCTGTTGATCATCACCTT
CGCGCTCTACGAGCTTTGCCCGGGGTCGATAGGGAGAGCCATCCCCCAAA
CCGCCCTCCCGCTCCCTGACGGCGACATAATTCACGTACCGGATGCGCTG
CTCGTACATCGATATGAATGACTGCGTGGAGTGTTCGGTTTCGTTAAGGG
CGACTCCACCACTGCCGTTGAGCTTTGCCCCCCCCATAACGGCGACGGCG
ACTCCACAGATAGTTGAGTCCCAGCCCCAGCCGTGAGCTCCGGTACCACC
GCATGCAAACTGCCACTTTTCTCCATGATGAGGTCTCACTCGTGCTCTGC
GGCCTTCGCTGCTGAGAAGTCTTGACTCACCGCGCATATTGCCGTTTCTG
CACGCTGCAGTAGGGCTTTCCTCTGCGATTTCGTCTTCTGGGCGTGAGTC
TCCTGCTAATTCCGAGACAAAATTCGGAGATTTGGACCCAACCACCCCTT
CGCATGGCGCCACTCATCCTTCCATCCGGGTGCCCTCCACCTTCCGGTCT
ATTAAGAAAAACACGAAATAGACAAAACACCACACAGCCTGCAGCTTTCC
AAAAACAATATTTGCATACCTTCCTTGGTGTCTTGTGCTTATCCGGTACC
TTGCGACGACGATGTTTCCATCATTTACGACAACCATGCGCGTATCTACC
TTGATCTGTACTCGACAAAGTCAGTGAAACGGCGTCCAAAAACCACTGAG
TTATCTCGGCTCAGGCGTGCTGCAGACCCGATCAACACTTTCACCTTCTA
CCTGAACGCCACCGTAAACATTTACAATTTTAGTCCTTCCGTGTCCTAAC
CGCCTCGTTTTCATTTTCAGCGCTTTCCACGCATAAAGTCGCCGGCGGCG
CTTTCTGCCCGCCCGGCCCATGGGGAGCCAGGGGCCAGGTCCTCATCCTT
ATGCATGCGTTTTGTCACCTGTTCGGCGTGTCGGTTGCCGTAGTTGAAAT
GGGAGGAAACGAGGTGACTCAAGTCCCCCCATGTCAGCGAGTTGAACGAG
TGAGAGATACTTTTTATCACGTACACCCCAGGGTCCCCGTAGATCAGTAT
TGGGTGCCGAGTACCTCATGCACAGCAGTATATGCATAGTGGAACATCAA
TGTGCTAGGGCGCCTTTTGTGACGATCACAAATGCAAAATTTTGATGCGC
GTACAACATACGCGCGCGATAAAGGTAATAGAGTACTACGTCTTCTGGCC
GAAGAATTCAAAATACCTGCTATGTGACAATGATCATCCCATGTCTGTAG
TGGTTGACTCAGAGAGTACTTTGTGTTTGCATTTCTACATCGCAGGGTTG
ACTTCATCTTATCCCCCCCTCTTCGTCCTCCTCTGGTCGTGTTGCTTCGG
CTACCTGTCTCGAACGCGCACGTAAACCTTTAGTTAGCTTTTGTCTTCCA
AGCCTTGCACCACACCCCGCAGCCCGAGGCGAACGGGAAACATGCCGCGT
TGACACGTATGAACCGCACCAGAGTGTGTGCTGGTGGTGGTTCCATTACG
CCGCCAACAACAGCAAAACAAAAGTGACGACTTGTACAAGAGAAAGAATA
CTGCTAGGGTAATGGTTATGCGTATTATCGCGTGGCCCTTCCCCTTCAGA
CCATTATCTTTAGACAACGTCAAGGCCCTTCCTTGGTGCATCTTGACCCC
TCAAAAATTCAAATCCTTTCCGAGTTCGATTGAATCAGCCAGTTTATTTT
CGGCAACACTTTGAAACCTTGGTTGAGCCGTGTTAAATTTGTTTTTTTTT
CATCCCCCCCCCTCTCTTCCCTTGACACGTCAAGATGATACATAAAGCTT
TTTTGGCTCCCGTGAACATACCTGTGATTCCCAAATAGCGTTGATGGAAC
CTGACACGAACTTTGTCGAATGGCACAATCGATTCCACCCTTTACTTTTT
CCCAGCGGCAATGGAGTACCTGTAAGCCTCGCGCATGATGGATAGGTGCT
ACAAGCGTGATTGAGCCAAAATATGATAACCCACACACATTTTACGTAGA
AGCAACCATGATATCGTATTTTTGATGGTTTCGAGTTACGAAACGATGGC
TGCAGTACCGTTCGGCCTTGCCTCATATCTCATCAACCTTCTTCTACGGC
TGCCTGCTTCGTCCATGATGAATCAATCGCCAGGGATCGTCGGCCCGAGA
TTGCCGATAGCTACGCCATGGAAGCGGCAAGCAATTTGCGTACCTGCTTT
TACAGGGCAGGGTACGACATCAGTGTCCCTCTTTCTCCCAAGCATGTGTT
TCCTGCCCTGGCTGCCATCCCTCCTTCGGACCGGCAGTTTTTCCTAACTA
CAAAGGTTTGTTGTTCTGAAGATGCTGTGTATCATTACTGGCGAGTAATT
TATCACGTTTGAGTAAAATAACACTCTGGTTCTCTACTCGCACCAAGTCT
ATAAAACGTTTCTTCTCTCGGTATAGTCCCGGAGAGGAGAATTGCCGGAA
GACTTTCGTTTTGCAATAGATCTGGTTCCCCACAACCTGTTCTCTTTCCA
GCGTACAACATATGGTAGTATGAATCCAACCTTTTTATGTTTCGATCAGC
AAATATCATACCGTCGAATAACGAGGAATGTGAAAAGCAGATTTGATACC
ATGTTCCCCTAGAGACTCTTTACCAACAAACTGTCGAAACGACCCGACTC
TGGCACACCATGAACGGCAAGAAGGGTTGGTTGGGTGTTGCTCGCTTCTA
ATAGTCATGTGGTACCTTTCACCTGTCTCAGAAAATTCATGTATTTGGCG
TGCGCCGTACGCAGGGGTCCGTCTACCTTAGCAGTGGCGGGTCGGAGGAA
CGAATGAGTGTTGTACCGCTCCACGACGAGGAAAGCGGTGTGATCATGTC
TTTGCACTGCTTCGAAATGCACGGCGAGCATCTGCTTCCAGAAAACGTCG
AGTACTGCAAATCGTTGAAGGACCGGTACGACGACCACGATTACGGGAGT
CTGATGAACACTACTTTCGGGTTGGTTCCGTCCGGCCGATCTCCTGGCAC
GTTTCGGCTGGGGGAGGTGATGAGCGCCGGGGCGATACCAGTCTTCGTAG
GTCGGGAATTGGTCTTACCTTTCCGGGAGGAGTTCGATTGGCCTTCATTT
TCTTTCGTGTTCACGCCGGACCAAGTGGGGCCGCACATGATTGAGACGCT
GCAGGAGGTCTCCCGAGCGGAGCGAGAGGAAATGCAGGTGCGCAACCCAA
CAAACAACTCATATCTGCACCACCCTAAATCTGCTGTGTGTTGTACAAAA
CCGGCCCGCACTTAAGAACATACCTGGTACGTCTTAGGAACGTGGGCCTC
AAATTTTTAAAAAGATAAGAACCTGGCAATAAGAACAGGTTCTCAGTTCG
GAGGTGCTAGTACGAACAAGACCCGCAAGTGACGTGTAAAATCTGGAGCC
TAACATCAAGAACGCAGTTCAAACCGCGGCGCGGCTGAAAGATATGAACT
TGGTTGGAGTTAACTTGACCAACGAAAGGACCGGGGGCGGATGCCATGAT
GCCGAAAATCAAACTACTTGAAGTGTTACATGCCGTCGTTTTCTAATTCC
TCCCCTAAAAAGAGGGGCTGTACCCTGCCGCCTGCGTATGCGGTCAAACG
GATACATGAATACGACGTTTTTTTAAAGGCTCCGCCCGGTAAAGGCGGGA
CGGGAAAAATACTGTCGGGCGGGGACGGGAACGGCAAGGAAATTGAATGA
GAAACCGCGTGGTTATTCGTTCCCGACCGCGGCTGGCTTTCGACCCGTCC
CGTATTGTTGATTTACACTTCTTCCGTCGTGTTACCGTCTCGCGGTAAGT
AAAGCGAACTGTTCTCGTCCCGCGAGCAGTCCGACCAGGCTTCGGCTCTG
ATACTGCCCGACTTCCCGTCCCCAGTGATTTGTTGTTGTTGTTGTTGTTG
ATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACC
AGGCACATATCGTGCTAGGAGGGGAAAAAATTAAAAATATAATATGTATA
TATATATAAATGTACTATGATCACCCACAGTCAATACAGATATGGTACCG
TTGGGGTACCATCTGTGGTGGCCAGAGTACCAAACAAAATACAGAAAAAA
AACCATCAGGCTCGAAAGAAAACAAAAATTGAAAACAGTCCAACAAAAAA
AATAACCAAGACAAGCCTCAACCATAACCATACACTTTGAAGTACTTCGT
ACATCGAACCAGGGCCCAGGGCCATGACATACCAAGGCAAAGGCAAACCA
GGGCGATGGTCCAGTAAAAATATGATCAATAGACGAAAGACAGTGAGTAC
CTTTGCTTGACGAGCTGTACCCATGAAGCGTCTTTTTTTCCAAAACTAAT
TCAGAGGGCTTTCCAATTTGTTCGAAGAGGTATAGACTATTTTTGTGTTC
AACCTGTACATACAGTCGTCGATCAACGATAGAAAACAGCTTCTCGAAGT
ATCCATGTTAACGGGGTGATAGCAGGGACAAGTTCACACTTGGTATACAC
ATATCATATGTGAAAACAAAAAGTCGTTGACGAATGAATGAACCCTAAAA
CCTTTCGTATTTTCGAATCATCAAATACACCCCTCGTTTTAAGATTCCCT
ACCGTTTCTCGGCCATGTTCCCGACCTTTTTCTCGCCCCGTCCCACCAAG
AATCGTGAAGTTCTACCCATATCCCATCAAGGAAATTACATTAATTTCAC
CTTTTTTCCGTCTCATTCCCATCCCGCGGAAAACGAAAGGTATCGGTTTA
TCATGTCATCCCGCGGGAAGCCCTAAACAAACCCACAACATGCGGTGGGC
TGAACGGTCCCATACGAATCGCCTTGCGAAGCCTTGCAATTTCCTAAAAT
ATTGTAGAGAGGAGCATACTACAGGAGGAGTCAGCACGAAAATCCACCCA
GAAAATAAGAACAAGAACGAATCTGCAATTTGAGTAGAAAATTCTGGCCG
AAAGAAGAACTAACAAGTACGAACACGTGCTCGGTTTGGCGCAGCCGGTG
AACCGCGAGCCTCGCCAAAAATATACTCGTATATGTTCTTAAGTGCGGGC
CGGTTCTGTATTGGATGTTGGAGGTACCACAAGTCTTTCTTGCGGTCTGT
GTCGGCGTTGTTTCGCTTTATGTTGGATATTTTGCCACAGGAGACATCAT
CGAGCAGTGACAGAAGAGCGCCATATTTGGGCACCTACGTACCATGCCTG
CCTGCCCACAAAAGTCGCAGTACACATCACAAAGCATCGAGTATGAAATT
ACAGGCTGTGGTGGCACATGCGAGGTCAATACGGCATTTCAGTCAAATAA
TGACTGAATAAATGTTTGGAAAGTAGAGGGGCAAGGAACCGAATTGAAAT
GGGAAAGTAGGCGGTCCAAAGATTTGATGAAAACCAAACGTTGGTGGGAG
CGAAACGGTACTAGTAAATTCAAAGCCAATATTCAGGAGGTAATAAAAAT
CGCAAAATTACGACTGCACCGTCCTTGACTGCATTGGGTAAGGAGCTGGG
GCGGCCTCGTTTATGTCTTTTCCACGCATCCACCGCACACGAGAATTCAA
AACCAAAGGAGCGTTCGAGAAGTCAACCGCGTCACTCAGAAAAAGAAGAC
GAAGCGAGGATCAAGCGTTCCGAGGAGAACACAGCGCCGTCGGATACTTT
CGAAACCGATTTAAAAAAGTAGGTACACCGGGGATCGACAGGTATATTTG
TGATACTGCATCATCAGCAACCACTGGCCAATGTCTACCGTACGGTGATC
TGGCAGCACAGCACTTTCGTATGACGTGCGCGGACGTCGAATAAGCGTTG
TCTACAAAAAGCTTGCTGACCCTTAAATGTATTCGTTTTCCTGCTTGTCC
TTGTTTTTTCAACACAAAAAACGCCAACGACGCCGACCCCATCAGCGCAA
ATCGCTCGAGGTCTACCGGGAAATGTTTGGAACCGACACACGAAACTTCC
GTCCGACGGCGAAAAGGATAGTCGACATTCTTCGAAAACGATTTGGCCAA
CAGATCAGGCTATGACGTGGTCGATGGAAGGGCTCCTTGGGTGAAGACGC
ACACACGGATCTTTACTCTGCAGGCCAGCAGATACCAGCGCGCAGGAACG
GGCGTAACACGTGATACAACGACAGGAAGAGCTGCAGATAAAGACATCGC
GGAACAGGAGGTGGAGAGAAACGAGGACGACATATAGGCCCCACACCCTG
CTGCTGTTGTGTGATCAAAACGTTGATGTATGTGATTCGGTTCTGTCCCG
TCAACCCCTAACCCTGCTCTTTACCTGAACGTATGTTGGGGGGTTGTATT
TATATCGTATGTTGGGGGGTTGTATTTATATCGTGGTTTGTAAATCGTAC
CTTCGGGTACCTTTGTACATGATGTTGAGGCATTATACTTCTGAGTGCGT
TGTTGTCACGCACCTGGTATTGTGTAGTGTTGTTTTCTTAAAAATCCTGA
GGTGAGTCGCTGCTGCGACATTTTTGCAACATAATTTTGACATTTTGAGA
CAAACGCTTTGAACCAACCCGGCAGCGCCTGAATCACTTCATGCAGTAAA
TTCCTGTACTTCGTATTTGTGTAGAGTTCTCTCTTCGTAGAGTGTGGCTA
TCAACGCACAATATTTCGGTATTCTAATGTTGCGCTTGCAGCAGCAGCGC
AGACTGGTACCGTCGTTTGTCCCAGATCGTTGTGTTCCGTACAGTCTGTT
GTACTGGATTTTTTTTCGTATTTTTCGGAATCCTAGAAATGCCGGCCATT
TCTGATCTATACGGCAGCGCAGTAGTCTTGATTGTTTTTCCTTCGAAAAG
TGTCATTTATATTATTATCTTCTACGAAGTCTGGAAGGTAACTCACCGGC
TTATAATGAGAGCGCGACACCGGTCGCCGCTCTCTGTTGTCCAGAAACCA
AGTTTCCCTTCCATGTCAACTGGCCGTGGCCCAACAAATGCTGTCTCGAT
CTACCGAGACCCCCAGTGGTAATATGCCACTGACATCCAACCATCAAGCC
CCCGCTT back to topCoding sequence (CDS) from alignment at P-littoralis_Contig660:13455..37811+ >mRNA_P-littoralis_Contig660.4.1 ID=mRNA_P-littoralis_Contig660.4.1|Name=mRNA_P-littoralis_Contig660.4.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1194bp|location=Sequence derived from alignment at P-littoralis_Contig660:13455..37811+ (Pylaiella littoralis U1_48)
ATGTCGTCTTTTGGGAAGGGGATGGAATGTGGAGTGCCGCTCTCGGAGCC
GTGCTTCGACTTCGAGCGTTGCCGTAATGGCTCTTCTGCCGGGATTTATG
TATACGATGGCATATGCACCCTGGCGAACTCGAGCATCTTGCTGGCATCA
CAAGAGACGGACCTAGACAGATGGACGCAAGAGAGCGACAACCTTGATTC
TGTCTTGAGAAGCGAAGTGGAGGGTGCTGGATTGCTGGCCCAGACTTACG
AATCGGCCTGCTTGTTTGTGGCCGCCACCTCGCGCTATACCCCCTGTGCT
GTGGAACAACCGCTCTGGAATGACGGCACCAACCATGTTATGGTTTCTCT
AGGCGACGTAGGGAGGCTGGATGGGTTTGTTCCGATAGAAGAAGGATCGC
CCGGCCTAATCTTATCGCCGGCAGAGCCGGGAATGCGCATCCCGTCGTGC
TGCTGTATTGGCAGCTCGTCTCTCTTAAGGGATCGTCGGCCCGAGATTGC
CGATAGCTACGCCATGGAAGCGGCAAGCAATTTGCGTACCTGCTTTTACA
GGGCAGGGTACGACATCAGTGTCCCTCTTTCTCCCAAGCATGTGTTTCCT
GCCCTGGCTGCCATCCCTCCTTCGGACCGGCAGTTTTTCCTAACTACAAA
GGGGTCCGTCTACCTTAGCAGTGGCGGGTCGGAGGAACGAATGAGTGTTG
TACCGCTCCACGACGAGGAAAGCGGTGTGATCATGTCTTTGCACTGCTTC
GAAATGCACGGCGAGCATCTGCTTCCAGAAAACGTCGAGTACTGCAAATC
GTTGAAGGACCGGTACGACGACCACGATTACGGGAGTCTGATGAACACTA
CTTTCGGGTTGGTTCCGTCCGGCCGATCTCCTGGCACGTTTCGGCTGGGG
GAGGTGATGAGCGCCGGGGCGATACCAGTCTTCGTAGGTCGGGAATTGGT
CTTACCTTTCCGGGAGGAGTTCGATTGGCCTTCATTTTCTTTCGTGTTCA
CGCCGGACCAAGTGGGGCCGCACATGATTGAGACGCTGCAGGAGGTCTCC
CGAGCGGAGCGAGAGGAAATGCAGCGCAAATCGCTCGAGGTCTACCGGGA
AATGTTTGGAACCGACACACGAAACTTCCGTCCGACGGCGAAAAGGATAG
TCGACATTCTTCGAAAACGATTTGGCCAACAGATCAGGCTATGA back to top
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