mRNA_A-nodosum_M_contig1205.8.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig1205.8.1
Unique NamemRNA_A-nodosum_M_contig1205.8.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A097ITX1_9PHAE (Alanine transaminase n=8 Tax=Sargassum TaxID=3015 RepID=A0A097ITX1_9PHAE)

HSP 1 Score: 842 bits (2174), Expect = 1.900e-297
Identity = 413/501 (82.44%), Postives = 453/501 (90.42%), Query Frame = 2 
Query:   29 MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            M+RRTLPRA S++S+SL GVPLD  SIN NVRAAEYAVRGNVL +SMELQRR+ AGE LPF K VPCNIGNPHALLQ+PLSFHR+VL+LCISP L S +P+ F  D VERAQKYA+ MGGGVG+YTNS GI AVREEIA+FI+ RDGYPA+ DRIYLTNGASEGVRMLLTCLLRGG   DGLLTPIPQYPLYSASLTLLGG LVPY+LNE  +WGV+M+NL EA+  ARG+G+EVRGIAVINPGNPTGNIL EDQIKDIIQMA DN LVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIG EVRAELYKLASLSLCSNT+GQLA G+MVNPPKPGDPS++TF+KER DILSSL RRS+MVHKALNE+EGITCNKADGALYAFPRIRLS KA +AAA +G+ TDEYYCL++L+ETGII+VPGSGFGQEE TLHFRTTFLP+EDTM+ETLK  ASAH  FMD +RD
Sbjct:    1 MLRRTLPRALSSASSSLHGVPLDATSINANVRAAEYAVRGNVLERSMELQRRMAAGEMLPFKKFVPCNIGNPHALLQLPLSFHRDVLALCISPHLASDHPSAFNPDAVERAQKYATEMGGGVGSYTNSQGILAVREEIAAFITERDGYPAYVDRIYLTNGASEGVRMLLTCLLRGGELHDGLLTPIPQYPLYSASLTLLGGTLVPYHLNESMDWGVQMENLAEALATARGNGVEVRGIAVINPGNPTGNILAEDQIKDIIQMAVDNKLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGPEVRAELYKLASLSLCSNTVGQLAMGMMVNPPKPGDPSYQTFEKERGDILSSLRRRSMMVHKALNEMEGITCNKADGALYAFPRIRLSNKAVQAAADKGIPTDEYYCLKILDETGIILVPGSGFGQEEDTLHFRTTFLPSEDTMEETLKVLASAHNKFMDDHRD 501
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A097ITX3_SCYLO (Alanine transaminase n=6 Tax=Ectocarpales TaxID=2877 RepID=A0A097ITX3_SCYLO)

HSP 1 Score: 824 bits (2129), Expect = 1.200e-290
Identity = 406/501 (81.04%), Postives = 451/501 (90.02%), Query Frame = 2 
Query:   29 MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            MIRR+LPRAFSA+S  LKG+PL   +INENV+AA+YAVRG VL +SMELQR++ AGE LPFD +VPCNIGNPHA LQVPLSFHREVLSLCISP+L + +P+VFK DVVERA+ YA+ + GGVGAYTNS GI AVREEIA+FI+ RDG+PA ADRIYLTNGASEGVR+LLTCLLR G   DGLLTPIPQYPLYSASLTLLGG LVPY+LNEG +WGVEMDNLR  +  AR +G EVRGIAVINPGNPTGNIL E+QIKDII+MA D  LV+LADEVYQ+NIWKEGASFSSFKKVACDMGY GEDGD+RLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNT+GQLATGIM+NPPKPGDPSFETFQKERDDILSSL RRS+MVHKALN+LEGITCN+ADGALYAFPRIRLS+KAK AA A GV  DEYYCLQ+L+++GI++VPGSGFGQEEGTLHFRTTFLPAE+TM ETLK  A AH  FMD++RD
Sbjct:    1 MIRRSLPRAFSAASA-LKGIPLTGSTINENVKAAKYAVRGAVLERSMELQRKMAAGEKLPFDTIVPCNIGNPHACLQVPLSFHREVLSLCISPNLATDHPHVFKEDVVERAKHYAAGLTGGVGAYTNSQGIPAVREEIAAFIAERDGHPARADRIYLTNGASEGVRILLTCLLRSGGKEDGLLTPIPQYPLYSASLTLLGGTLVPYHLNEGASWGVEMDNLRTTLAAARANGTEVRGIAVINPGNPTGNILAEEQIKDIIKMAVDEKLVVLADEVYQANIWKEGASFSSFKKVACDMGYTGEDGDDRLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTVGQLATGIMINPPKPGDPSFETFQKERDDILSSLERRSIMVHKALNDLEGITCNEADGALYAFPRIRLSDKAKRAAEANGVPADEYYCLQILDQSGIVLVPGSGFGQEEGTLHFRTTFLPAEETMHETLKIMAKAHEKFMDEHRD 500
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A097ITY2_9PHAE (Alanine transaminase n=1 Tax=Desmarestia viridis TaxID=62313 RepID=A0A097ITY2_9PHAE)

HSP 1 Score: 813 bits (2101), Expect = 1.860e-286
Identity = 396/501 (79.04%), Postives = 444/501 (88.62%), Query Frame = 2 
Query:   29 MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            M+RRT PRA +A    LKG+PLD  +IN NV++A+YAVRGNVL +SMELQRR+ AGE LPFDK+VPCNIGNPHA +Q+PLSFHREVLSLCISP L S +PN FK DVVERA+ Y S +GGGVGAYTNS GI AVREEIA+FI+ RDG+PA ADRIYLTNGASEGVR+LLTCLLR G   DGLLTPIPQYPLYSASL LLGG LVPY+LNE  NWGVEM NLRE++  ARG+G+EVRGIAVINPGNPTGNIL E+QIKDIIQM  D  +V+LADEVYQ+NIWK+GASFSSFKKVACDMGY GEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKL+SLSLCSNT+GQLA G+M+NPPK GDPSFETF++ERD ILSSL RRS+MVHKALNELEGITCN+ADGALYAFPRIRLS+KA   A  +GV  DEYYCLQ+L+E+GI++VPGSGFGQEEGTLHFRTTFLPAE+TM +TLKRFA AH  FMD++RD
Sbjct:    1 MLRRTFPRASAA----LKGLPLDGTTINSNVKSAKYAVRGNVLERSMELQRRMAAGEKLPFDKIVPCNIGNPHACMQLPLSFHREVLSLCISPSLASDHPNAFKRDVVERAKSYTSGLGGGVGAYTNSQGIPAVREEIAAFIAERDGHPARADRIYLTNGASEGVRILLTCLLRSGGKHDGLLTPIPQYPLYSASLALLGGTLVPYHLNEKANWGVEMANLRESLKTARGNGVEVRGIAVINPGNPTGNILAEEQIKDIIQMGVDEKMVVLADEVYQANIWKKGASFSSFKKVACDMGYSGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLSSLSLCSNTVGQLAAGLMINPPKKGDPSFETFEQERDGILSSLKRRSIMVHKALNELEGITCNEADGALYAFPRIRLSKKASNTAEGKGVPADEYYCLQMLDESGIVLVPGSGFGQEEGTLHFRTTFLPAEETMHDTLKRFAKAHKKFMDEHRD 497
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A097ITY9_SACJA (Alanine transaminase n=3 Tax=Laminariales TaxID=2886 RepID=A0A097ITY9_SACJA)

HSP 1 Score: 808 bits (2086), Expect = 4.020e-284
Identity = 391/501 (78.04%), Postives = 447/501 (89.22%), Query Frame = 2 
Query:   29 MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            M+RRT+PRAFS++++SL+G+PLD  +INENV++A+YAVRGNVL +SMELQRR+ AGE LPFD +VPCNIGNPHA LQ PLSFHREVLSLCISP L S +P+VFK DVVERA+ Y + +GGGVGAYTNS GI AVREEIA+FI+ RDG+PA AD IYLTNGASEGVR+LLTCLLR G   DGLLTPIPQYPLYSASLTLLGG LVPY L+EG NWGVEMDNLRE++  AR  G+EVRGIAVINPGNPTGNIL E+QIKDII+MA +  LV++ADEVYQSNIWK+ ASFSSFKKVACDMGY G +GDERLQLVSFHSTSKGY+GECGLRGGYMEVHGIGAEVRAELYKL+SLSLCSNTIGQLATGIM+NPPK GDPS+ETF KERDDILSSL RRS+MVH ALN+LEG+TCN+ADGALYAFPRIRLS KAK+AA A+GV  DE+YCL++L+++GI++VPGSGFGQE+ TLHFRTTFLPAE TM ETLK  A AH  FMD++RD
Sbjct:    1 MLRRTVPRAFSSATSSLRGLPLDGTTINENVKSAKYAVRGNVLERSMELQRRMAAGEKLPFDTIVPCNIGNPHACLQSPLSFHREVLSLCISPTLASDHPHVFKKDVVERAKAYTAGLGGGVGAYTNSQGIPAVREEIAAFIAERDGHPARADHIYLTNGASEGVRILLTCLLRSGGLHDGLLTPIPQYPLYSASLTLLGGTLVPYLLSEGANWGVEMDNLRESLATARAKGVEVRGIAVINPGNPTGNILAEEQIKDIIEMAVEEKLVVIADEVYQSNIWKKDASFSSFKKVACDMGYTGAEGDERLQLVSFHSTSKGYYGECGLRGGYMEVHGIGAEVRAELYKLSSLSLCSNTIGQLATGIMINPPKKGDPSYETFTKERDDILSSLERRSIMVHTALNDLEGVTCNRADGALYAFPRIRLSNKAKKAAEAKGVPADEFYCLEILDQSGIVLVPGSGFGQEDDTLHFRTTFLPAEATMHETLKNLARAHEKFMDEHRD 501
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A097ITY8_9PHAE (Alanine transaminase n=1 Tax=Dictyopteris undulata TaxID=156997 RepID=A0A097ITY8_9PHAE)

HSP 1 Score: 767 bits (1981), Expect = 2.770e-268
Identity = 377/501 (75.25%), Postives = 439/501 (87.62%), Query Frame = 2 
Query:   29 MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            M  R+LPRA S  S + +G+ LD  +IN NV+AA+YAVRGNVL +SMEL+RR+TAGE LPFDK VPCNIGNPHA LQ PLSFHREVL+LC+SP L   +PN FK+DVVERA +Y + + GGVGAY+NS GI +VREE+A++I+ RDG+PA+ADRI+LTNGASEGVR LLTCLLR G   DGLLTPIPQYPLYSASLTLLGG LVPYYLNEG NWGVEM NLRE++  AR +GIEVRGIAVINPGNPTGNIL EDQ+++IIQ A +  LVILADEVYQ+NIWK+GASFSSFKKVACDMG  G+DGD+RLQLVSFHSTSKG+ GECGLRGGYMEVHGIG EVRAELYKLASLSLCSNT+GQLATG+M+NPP+ G+PS+ET++KERDDILSSL RRS MVHKALNELEG+TCN+A+GALYAFPRIRLS++AK+ A  +G+  DEYYCL++L+ETGII+VPGSGFGQE+GTLHFRTTFLPAED M +T+KR A AHA FMD +RD
Sbjct:    1 MFFRSLPRAASRISPA-RGLRLDGATINPNVKAAQYAVRGNVLERSMELERRMTAGEKLPFDKFVPCNIGNPHACLQSPLSFHREVLALCMSPSLAK-HPNTFKSDVVERANRYTATLNGGVGAYSNSQGIQSVREEVAAYITERDGHPAYADRIFLTNGASEGVRTLLTCLLRQGR-ADGLLTPIPQYPLYSASLTLLGGTLVPYYLNEGSNWGVEMQNLRESLEFARSNGIEVRGIAVINPGNPTGNILSEDQVREIIQTAVEEKLVILADEVYQANIWKKGASFSSFKKVACDMGLTGKDGDDRLQLVSFHSTSKGFLGECGLRGGYMEVHGIGPEVRAELYKLASLSLCSNTVGQLATGLMINPPREGEPSYETYRKERDDILSSLERRSRMVHKALNELEGVTCNEAEGALYAFPRIRLSKRAKDVAEGKGLPGDEYYCLKMLDETGIILVPGSGFGQEDGTLHFRTTFLPAEDIMHDTIKRLAKAHAAFMDAHRD 498
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A835ZD97_9STRA (Alanine transaminase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZD97_9STRA)

HSP 1 Score: 591 bits (1523), Expect = 1.540e-199
Identity = 285/474 (60.13%), Postives = 362/474 (76.37%), Query Frame = 2 
Query:  107 INENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLV-SGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLR--GGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGD-GIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFM 1516
            +N+ V    YAVRG VL+ SM +Q R+  G   PFD+++  NIGNP AL Q PL+F+R+VLSLC+ P L+ +  P +F  + VERA+KY     GG+G YTNS G+ +VREE+A+FI+ RDG+PA ADR++LTNGASEGV++L+ C+LR       DG+LTPIPQYPLYSA+LTLLGG LVPY+L EG NWGV ++ LRE++  AR D G+ VRGI +INPGNPTG++L E+QI DII++A + NLV++ADEVYQ+N+W++   F SFKKVACD+GY  E GD RLQLVSFHSTSKGY GECG+RGGYME+HGI  +++A+LYKLASLSLCSNT GQ+  G+MVNPPK GD S   F KERD IL S+ RR+ ++  ALN LEG++CN  DGALYAFP I LS+KA++ A  +G+  DEYYCL++LE  GII VPGSGFGQ  GT HFRTTFLP E+     L+R  + HA+FM
Sbjct:    1 MNKRVTQTSYAVRGRVLDASMRIQARMADGHKYPFDQIIALNIGNPQALEQPPLTFNRQVLSLCMYPQLLDTAPPGLFDPEAVERARKYVKCTSGGMGVYTNSQGMQSVREEVAAFIAQRDGHPARADRVFLTNGASEGVKLLMQCMLREMADGHADGMLTPIPQYPLYSATLTLLGGRLVPYHLVEGRNWGVSIEELRESLAVARDDDGVCVRGICIINPGNPTGSVLTEEQIADIIRLAVEENLVVIADEVYQANVWQQERPFVSFKKVACDLGYTAEPGDHRLQLVSFHSTSKGYMGECGVRGGYMELHGISDDIKAQLYKLASLSLCSNTAGQVMMGLMVNPPKEGDKSHALFAKERDAILDSMFRRAKLLSDALNTLEGVSCNSVDGALYAFPTITLSKKARDIAKERGIPADEYYCLEMLERAGIIFVPGSGFGQAHGTYHFRTTFLPPENKFPIMLERIKAGHASFM 474
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A6U1PWD6_9STRA (Alanine transaminase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A6U1PWD6_9STRA)

HSP 1 Score: 517 bits (1331), Expect = 3.020e-170
Identity = 257/476 (53.99%), Postives = 344/476 (72.27%), Query Frame = 2 
Query:  104 SINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGG--SFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKY 1525
            +IN+ +  AEYAVRG VLN++MELQ+ L AG+ LPFD+++ CNIGNPH L Q P++F R+VLS+ ++PDL     N +  DV+ERAQKY  ++ G +GAY+NS GI AVREE+A FI+ RDG P+  D I+LT+GASEGVR ++  LLR       DGL+ PIPQYPLYSA  TLL G LVPYYL+E  NW +++  L+  +  A   GI +RG+AVINPGNPTG +L +  I ++I+  A   +V+LADEVYQ NIW++   F SFKKVA +MG H E G  +LQLVS++S SKG+ GECGLRGGY E+HG   +++ ++YKLAS+ LCSNT+GQ+  G+  NPPKPG PS+  +++ER+ IL SL  R+  +  ALNEL+G+T +  DGALY+FP + +   A +AA  QGVA D +Y LQ +E+TGI+MVPGSGFGQ++GT HFRTTFLP+E+ +   + R    H+ FM KY
Sbjct:   41 TINQRIIRAEYAVRGAVLNRAMELQKELDAGKKLPFDEIISCNIGNPHELGQQPITFMRQVLSVVLNPDLKE-TAN-YPPDVLERAQKYLDSIPG-MGAYSNSQGIQAVREEVADFITERDGVPSSPDEIFLTDGASEGVRFIMQLLLREKHEGHEDGLMIPIPQYPLYSALTTLLDGHLVPYYLDEESNWALDVKELQAQLDAAASKGITIRGLAVINPGNPTGQLLDKKNIGEVIEFCASKGMVLLADEVYQENIWQKDGKFWSFKKVAHEMG-HVEAGPGKLQLVSYNSISKGFVGECGLRGGYFELHGFPQDLKDQIYKLASIRLCSNTVGQVLMGLQCNPPKPGSPSYSLYEQEREGILDSLRLRATKIASALNELDGVTVSPPDGALYSFPNVDIPAGAVKAAQEQGVAPDAFYALQAVEKTGIVMVPGSGFGQKDGTWHFRTTFLPSEEKIDSVISRMKDFHSEFMKKY 512
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A6V1QFH4_HETAK (Alanine transaminase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1QFH4_HETAK)

HSP 1 Score: 511 bits (1315), Expect = 1.010e-167
Identity = 250/479 (52.19%), Postives = 338/479 (70.56%), Query Frame = 2 
Query:  104 SINENVRAAEYAVRGNVLNKSMELQRRL-TAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGS--FRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDE-RLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYR 1528
            ++N+N+  AEYAVRG +L+++MEL++ L T   NLPF+ ++ CNIGNP AL Q PL+++R++LS+ ++P ++  + + F  DVV+RA+++ + M   +GAYTN+ G+  VR+ IA FI  RDG+P+  ++I++TNGASEGVR ++  L+R G   + DG+L PIPQYPLYSA  T+    LVPYYL+E   W + +D LR+A+  AR  G+ VRG+ VINPGNPTG +L ED ++ ++       LV+LADEVYQ NI+     F+SFKKVACD+G+   D +    QLVSFHS SKG+ GECGLRGGY E+ G+    RA+LYKL +++LCSNT GQ+ TG+M  PP PGD S   +  ER  IL+SL RR+  +HKAL+ LEG+TCN  +GALYAFP + L  +A  AAA QG A D  YCL LLE TG+++VPGSGFGQ  GT HFRTT LP ED  +E L+R    HA FMD+YR
Sbjct:   45 TLNQNIVNAEYAVRGEILDRAMELKKELDTQKSNLPFEDVIMCNIGNPQALSQQPLTYNRQILSIVMNPSILETHTDAFPEDVVKRAREFLAGMPN-LGAYTNTQGLPIVRKCIAEFIEARDGHPSDPEKIFVTNGASEGVRNIMMSLIRDGELGYNDGVLVPIPQYPLYSALSTMFKATLVPYYLDEANGWSLSLDALRDALEGARARGVTVRGLVVINPGNPTGQVLAEDNMRALVGFCGRERLVLLADEVYQENIYNPDKRFTSFKKVACDLGFRDSDSEAPEFQLVSFHSISKGFLGECGLRGGYYELFGVPPSARAQLYKLGAVALCSNTCGQVMTGLMCTPPCPGDASHARYAAERGAILASLRRRAARLHKALSALEGVTCNAPEGALYAFPAVALPPRACAAAARQGRAPDALYCLALLEATGVVVVPGSGFGQAAGTHHFRTTMLPPEDRFEEVLRRMQVFHAGFMDQYR 522
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A7R9UEY1_9STRA (Alanine transaminase n=2 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UEY1_9STRA)

HSP 1 Score: 501 bits (1289), Expect = 4.890e-164
Identity = 257/486 (52.88%), Postives = 336/486 (69.14%), Query Frame = 2 
Query:   92 LDVRSINENVRAAEYAVRGNVLNKSMELQRRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPNVFK--TDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPA-HADRIYLTNGASEGVRMLLTCLLRG--GSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGD---ERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKY 1525
            L   ++NE VRAA YAVRG ++ ++  ++ +L  GE LPF K V CNIGNP AL+Q PLSFHR+V+SL + P+ +       +   DVVERA++Y S+M   VGAYT S G+  VR+E+  FIS RDG PA + D I+LTNGAS+GVRM+  C +R      RDG+L PIPQYPLYSA  TL  GELVPY+LNE   W V  D+LRE +  AR DG++VR + VINPGNPTGN L    +++I+ + A   LV+LADEVYQSNIW +   F SF+ VA +MG H ED +   + LQLVSFHS SKG++GECGLRGGY E+ GI  EVRA++ KL+S+SLCSNT+GQLATG++V PP+ G+PS+  +  ERD IL S+ RR+ ++ ++ N++ G++C    GALYAFP I L +   E A  QG A D  YC++LLE+TGI+ VPGSGFGQ +GT HFRTT LP E+ M   +      HA   ++Y
Sbjct:   23 LSAETMNEQVRAAAYAVRGPIVQRAALIEEQLKKGEKLPFSKTVACNIGNPQALMQKPLSFHRQVISLILFPEALDDPEQRMRIPADVVERAERYRSSMPN-VGAYTASQGLPIVRQEVVDFISRRDGTPAGNPDNIFLTNGASDGVRMIYQCCIRAPRDGVRDGVLVPIPQYPLYSALTTLYTGELVPYFLNEASGWTVTADDLREQLKEARKDGVDVRALVVINPGNPTGNTLPLPIMREIVDLCAKEGLVLLADEVYQSNIWDDSLPFHSFRSVAIEMG-HTEDFNPTGKGLQLVSFHSCSKGFYGECGLRGGYFEIFGIDPEVRAQISKLSSISLCSNTLGQLATGLLVRPPQEGEPSYAKYVSERDAILESMKRRAELLSESFNKIPGMSCQPIAGALYAFPSIELPKAFVEEAEEQGKAPDAMYCMRLLEDTGIVCVPGSGFGQVDGTHHFRTTILPPEEEMPGVVASITQFHAGIWERY 506
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BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Match: A0A176VX62_MARPO (Alanine transaminase n=2 Tax=Marchantia polymorpha TaxID=3197 RepID=A0A176VX62_MARPO)

HSP 1 Score: 499 bits (1284), Expect = 5.720e-163
Identity = 249/485 (51.34%), Postives = 345/485 (71.13%), Query Frame = 2 
Query:   89 PLDVRSINENVRAAEYAVRGNVLNKSMELQRRLTA-GENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNPN--VFKTDVVERAQKYASAMGG-GVGAYTNSMGISAVREEIASFISTRDGYPAHADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLGGELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNILLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYHGEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASLSLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKALNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEETGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYRD 1531
            P+ + SIN  V   EYAVRG +++++  LQ+ L++   +LPF ++V  NIGNP +L Q P++F REVL+LC  P L+  + +  +F +D + RA +   ++ G   GAY++S GI A+REEIA+ I+ RDG+PA+AD I+LT+GAS GV M++  L+   S +DG+L PIPQYPLYSAS+ L GG LVPYYLNE   WG+E+  L++ +  AR  G  VR + VINPGNPTG +L E   ++++Q   D  L++LADEVYQ NI++E  +F SFKKVA  MG+  +D    L LVS+HS SKGY+GECG RGGYMEV G+ AEVR +LYK+AS++LCSN  GQ+   +++NPPKPGD S++ F KERD ILSSL RR+ ++  A+N+LEG+TCNKA+GA+Y FPR+ L E+A +AAAA  +  D +Y  +LL+ TGI++VPGSGFGQ  GT HFR T LP E  + + + +F   H  FM+++RD
Sbjct:   53 PVSIDSINPKVIKTEYAVRGEIVSRAQLLQQELSSKASSLPFSEIVSLNIGNPQSLGQQPVTFFREVLALCDYPALLEKDESHALFSSDAIARAYRIVESIPGRATGAYSHSQGIKAIREEIAAGIAARDGFPANADDIFLTDGASPGVHMMMQMLI--SSEQDGILCPIPQYPLYSASIALHGGTLVPYYLNESSGWGLEISELKQQLDAARASGTRVRALVVINPGNPTGQVLTEQNQREVVQFCRDEGLLLLADEVYQENIYEETKTFHSFKKVARSMGFFDKD----LSLVSYHSVSKGYYGECGKRGGYMEVTGLDAEVRDQLYKVASVNLCSNITGQILMSLVMNPPKPGDESYDNFTKERDGILSSLARRAQLMTDAMNKLEGVTCNKAEGAMYVFPRLNLPERAMKAAAAVQMLPDVFYARRLLDATGIVVVPGSGFGQVPGTHHFRCTILPQEGKLPDVIAKFTQFHERFMEEFRD 531
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1205.8.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A097ITX1_9PHAE1.900e-29782.44Alanine transaminase n=8 Tax=Sargassum TaxID=3015 ... [more]
A0A097ITX3_SCYLO1.200e-29081.04Alanine transaminase n=6 Tax=Ectocarpales TaxID=28... [more]
A0A097ITY2_9PHAE1.860e-28679.04Alanine transaminase n=1 Tax=Desmarestia viridis T... [more]
A0A097ITY9_SACJA4.020e-28478.04Alanine transaminase n=3 Tax=Laminariales TaxID=28... [more]
A0A097ITY8_9PHAE2.770e-26875.25Alanine transaminase n=1 Tax=Dictyopteris undulata... [more]
A0A835ZD97_9STRA1.540e-19960.13Alanine transaminase n=1 Tax=Tribonema minus TaxID... [more]
A0A6U1PWD6_9STRA3.020e-17053.99Alanine transaminase n=1 Tax=Fibrocapsa japonica T... [more]
A0A6V1QFH4_HETAK1.010e-16752.19Alanine transaminase n=1 Tax=Heterosigma akashiwo ... [more]
A0A7R9UEY1_9STRA4.890e-16452.88Alanine transaminase n=2 Tax=Pinguiococcus pyrenoi... [more]
A0A176VX62_MARPO5.720e-16351.34Alanine transaminase n=2 Tax=Marchantia polymorpha... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1205contigA-nodosum_M_contig1205:64549..97191 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FVQ6
Preferred nameALAT
PFAMsAminotran_1_2
Model size3043
Max annot lvl2759|Eukaryota
KEGG rclassRC00006,RC00008
KEGG koko:K00814
KEGG ReactionR00258
KEGG Pathwayko00220,ko00250,ko00710,ko01100,ko01120,ko01200,ko01210,ko01230,map00220,map00250,map00710,map01100,map01120,map01200,map01210,map01230
KEGG ModuleM00171
Hectar predicted targeting categorymitochondrion
GOsGO:0000166,GO:0001666,GO:0003674,GO:0003824,GO:0004021,GO:0005488,GO:0005524,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0006082,GO:0006520,GO:0006522,GO:0006524,GO:0006807,GO:0006950,GO:0008144,GO:0008150,GO:0008152,GO:0008483,GO:0009056,GO:0009063,GO:0009078,GO:0009080,GO:0009507,GO:0009536,GO:0009628,GO:0009987,GO:0010035,GO:0010038,GO:0016054,GO:0016740,GO:0016769,GO:0017076,GO:0019481,GO:0019752,GO:0030554,GO:0032553,GO:0032555,GO:0032559,GO:0035639,GO:0036094,GO:0036293,GO:0042221,GO:0042851,GO:0042853,GO:0043167,GO:0043168,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043436,GO:0044237,GO:0044238,GO:0044248,GO:0044281,GO:0044282,GO:0044424,GO:0044444,GO:0044464,GO:0046395,GO:0046686,GO:0047635,GO:0050896,GO:0070482,GO:0071704,GO:0097159,GO:0097367,GO:1901265,GO:1901363,GO:1901564,GO:1901565,GO:1901575,GO:1901605,GO:1901606
Exons14
Evalue6.23e-294
EggNOG OGsCOG0436@1|root,KOG0258@2759|Eukaryota
Ec32 ortholog descriptionAlanine transaminase
Ec32 orthologEc-03_003340.1
EC2.6.1.2
Descriptionalanine aminotransferase
Cds size1506
COG categoryE
BRITEko00000,ko00001,ko00002,ko01000,ko01007
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1205.8.1prot_A-nodosum_M_contig1205.8.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1205 66082..97163 -


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

Feature NameUnique NameSpeciesTypePosition
1680866630.575986-UTR-A-nodosum_M_contig1205:64548..650861680866630.575986-UTR-A-nodosum_M_contig1205:64548..65086Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 64549..65086 -
1680866630.5879645-UTR-A-nodosum_M_contig1205:65110..660811680866630.5879645-UTR-A-nodosum_M_contig1205:65110..66081Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 65111..66081 -
1680866630.764153-UTR-A-nodosum_M_contig1205:97163..971911680866630.764153-UTR-A-nodosum_M_contig1205:97163..97191Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1205 97164..97191 -


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

Feature NameUnique NameSpeciesTypePosition
1680866630.5992312-CDS-A-nodosum_M_contig1205:66081..662491680866630.5992312-CDS-A-nodosum_M_contig1205:66081..66249Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 66082..66249 -
1680866630.6072116-CDS-A-nodosum_M_contig1205:67193..673881680866630.6072116-CDS-A-nodosum_M_contig1205:67193..67388Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 67194..67388 -
1680866630.615315-CDS-A-nodosum_M_contig1205:68203..683291680866630.615315-CDS-A-nodosum_M_contig1205:68203..68329Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 68204..68329 -
1680866630.6237473-CDS-A-nodosum_M_contig1205:69239..693021680866630.6237473-CDS-A-nodosum_M_contig1205:69239..69302Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 69240..69302 -
1680866630.6348958-CDS-A-nodosum_M_contig1205:69905..699831680866630.6348958-CDS-A-nodosum_M_contig1205:69905..69983Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 69906..69983 -
1680866630.6468616-CDS-A-nodosum_M_contig1205:70768..708611680866630.6468616-CDS-A-nodosum_M_contig1205:70768..70861Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 70769..70861 -
1680866630.657065-CDS-A-nodosum_M_contig1205:71442..715741680866630.657065-CDS-A-nodosum_M_contig1205:71442..71574Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 71443..71574 -
1680866630.6698577-CDS-A-nodosum_M_contig1205:72366..725271680866630.6698577-CDS-A-nodosum_M_contig1205:72366..72527Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 72367..72527 -
1680866630.692277-CDS-A-nodosum_M_contig1205:72992..730741680866630.692277-CDS-A-nodosum_M_contig1205:72992..73074Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 72993..73074 -
1680866630.7152576-CDS-A-nodosum_M_contig1205:73710..738431680866630.7152576-CDS-A-nodosum_M_contig1205:73710..73843Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 73711..73843 -
1680866630.7299182-CDS-A-nodosum_M_contig1205:96026..961121680866630.7299182-CDS-A-nodosum_M_contig1205:96026..96112Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 96027..96112 -
1680866630.7381825-CDS-A-nodosum_M_contig1205:96606..966901680866630.7381825-CDS-A-nodosum_M_contig1205:96606..96690Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 96607..96690 -
1680866630.7528958-CDS-A-nodosum_M_contig1205:97058..971631680866630.7528958-CDS-A-nodosum_M_contig1205:97058..97163Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1205 97059..97163 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1205.8.1

>prot_A-nodosum_M_contig1205.8.1 ID=prot_A-nodosum_M_contig1205.8.1|Name=mRNA_A-nodosum_M_contig1205.8.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=502bp
MIRRTLPRAFSASSTSLKGVPLDVRSINENVRAAEYAVRGNVLNKSMELQ
RRLTAGENLPFDKLVPCNIGNPHALLQVPLSFHREVLSLCISPDLVSGNP
NVFKTDVVERAQKYASAMGGGVGAYTNSMGISAVREEIASFISTRDGYPA
HADRIYLTNGASEGVRMLLTCLLRGGSFRDGLLTPIPQYPLYSASLTLLG
GELVPYYLNEGGNWGVEMDNLREAVTNARGDGIEVRGIAVINPGNPTGNI
LLEDQIKDIIQMAADNNLVILADEVYQSNIWKEGASFSSFKKVACDMGYH
GEDGDERLQLVSFHSTSKGYFGECGLRGGYMEVHGIGAEVRAELYKLASL
SLCSNTIGQLATGIMVNPPKPGDPSFETFQKERDDILSSLHRRSLMVHKA
LNELEGITCNKADGALYAFPRIRLSEKAKEAAAAQGVATDEYYCLQLLEE
TGIIMVPGSGFGQEEGTLHFRTTFLPAEDTMKETLKRFASAHANFMDKYR
D*
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mRNA from alignment at A-nodosum_M_contig1205:64549..97191-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1205.8.1 ID=mRNA_A-nodosum_M_contig1205.8.1|Name=mRNA_A-nodosum_M_contig1205.8.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=32643bp|location=Sequence derived from alignment at A-nodosum_M_contig1205:64549..97191- (Ascophyllum nodosum dioecious)
CTACAGCTGTCCAAGAAGCGAAAGTAATATGATCCGCCGCACCCTTCCTC
GTGCCTTCTCAGCATCATCTACCTCCCTAAAGGGTGTGCCCCTCGACGTC
AGGAGCATCAATGAGAACGTCCGCGCTGCCGAGGTGTGATTTTTTCCGAG
TTTTTACCTGATACAGCTGATTCAGCACTTCCCCCCCGACACTATGTACA
AGTATTCGTATCGTATTATTGTCGTTTTGATTCCCATTTCTGCCGAAAAG
TGATGAACCACACGAGGAAACACGAACGTATCAGACTAGAGAGCAGGACT
GGAGAAGTAACCTTCGCGACCGCTAGGTAGGAGAGTGGCGTTAGAAGAAG
TTCTGACTGCCTCGCAGGCTTCCCTGATTTATGTGTTAAGTCGACTGATG
CAACGACTGACGCAACCTACGATTTACTAATATGGTCCCTTTATTCATTA
TATACCTGGTATAACCTTTCTGCTATTGCACTATTGTATTATTGTGTGCA
GTACGCGGTAAGGGGGAATGTGTTGAACAAAAGCATGGAACTTCAACGCC
GGCTGACAGCTGGAGAGAATCTACCCTTCGACAAGGTGCCTACAGTACAA
TACAGTAGCTCTTACTGTTCTTACCGGTGTAATCGTTATAGCGTTTGTAC
TGGTGCAACAGTCAACTCAGGAGGGAAACCGAGTAAAAACGTCAAGTATT
GACTAACTGCTGTACCGTACTGCTGCTGTAGACACTAATACTTTGGAGCT
GCTGTACTTTCAAGTAGTTGGATTTGCGTCAGCAGCCTCGCATAGCTGAA
CCTCACCAGTTGTTGTACTAGCTCTATATAGCTGGAGCTTTATCTAACAT
TGTAACACTGGTACAGTACTCGTACAGCAGGTCTAGTGCTGGTTCAGTAC
TGAACTTTACAACACTAGTACTACTGTACTGTTTGTACTGTATGTACTCG
TACAGCAGGTCTACAGAACAGTATTGCTGGTACTGTACATCAACTGAATT
GGTGCTTTCTTCGCATGGCAACAACGTTAAATGTCCCACCACACATCCCC
CGCTCGCTGCCTTCGTGCATCTTTCGCAGCTTGTGCCTTGTAACATAGGT
AACCCTCATGCATTACTGCAAGTACCGCTCAGCTTCCACCGAGAGGTGTT
GTCCCTTTGCATCAGGTGAGCAAAGTCTGTGAAGTATCGATGCATCGCTC
GCGGTCTATGTATGTATGTATGTATGTATAGTCACACATATAGCAAGAGT
ATGGATCAACGGGGTAAGGTTACCAATCCCTGCCCGTGGTCAGCTGAACA
GGGAAAATGAATGTTTCCCTGCCCGCGTTCGCGCCTGAGAATTTGATCTC
GCGAGACGGGTTCGGCAGTCCCGTCCCGCGTCGGCCTGCTCATTTTCATA
CTCAGGCTGAATCTGGTGCTTGCCTACGGTATTCCTTTCGAGTTCCGCGG
CGGCGTCCATTTATTTATTTAAAACCGCCATACGCCATCGGGTCAATCCC
GAGTATATCGGGTCGCGCAATTGCGTACCGATGACGTTCACTACCTACTC
TGCTATATGTGATGACCATACATACTACCGAGAGTCCGCCGGTAGTTCCG
AACGAGTGCTGCCTGGGCAGGTCACCATGGACCAATAAATATTCGCCTCT
CTTTCCCACACCCACTAATGGTATGAAGTGGGCATGTTGAAAGTTACAAG
AAGTCGACCGTGGTAGTAAGTACTTGAAAGTACGTGCTACGTAATTCTAT
CAAATGATATCAGCACAAGAGTTAGTTCTTGACGATTCACTCTTGTCGTG
GGTGAAATTTTGTACATTACCACTCAGCACTAATAATACCTTGTACAAGT
ACACGGCCAGTAGTTATCGAGGTAGTTCTGAACGAGTGCTGCCTGGGCAA
GTCACCATGCACCAATAAATATTCGTCTCTCTTTCCCACACCCACTATTG
GTATCGAGTGGGCATGTTGAAAGTTACAAGAAGTCGACCGTAGTAGTAAG
CACTCAAAAGTACGTGCTACGTAATTCTATCAAATGATACCAGCACAAGA
GTTAGTTCATGACGATTCACTCTTTTTAAAGAAAAATCAGAACGCACCTA
GACCTTCTGAGCATCTCCCGGTTATGGGGGAAAAATGTCAAAACATTTAG
GTGGGATCAAAGGCTGCAAATACAAAACCTCTTCATGGCATTTAAACAGG
TTCCCCGATGCAGATAACATTGGGCCAACAGTATAATGTCGGGGAGAAAC
CCACCGTTATACTGTACATTTACATTAATCGCCATGTAGGGACACCAGAA
AAACATTAAAAACAAAAGACAATGTAGTACACCATGACACATGGTAGTAG
TAATATACATTACAAAGGTTGTAAATACAAAGCCACTGTGTGTGTGTGTG
TGTGTGTTTTCTTCCCATCCATTCTGGACATCAAGTTCGTTGGACGTACC
AGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTTAATCCACCTTC
CTTCTGCGGTGCGTGCCTTGATTTTTGTCGCGAGAAGGATTCAGCCATTC
ATTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTACTAACGAATTAATC
GTTCTCCACCCGTTGGGCATTTTTATTTTGGTTTTTTAGCTTTTAGTGAG
GAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCCAACGTGTCAGAAGG
TTACGAGGTGCCTACTGAGCTACCGGGGTCGACCGGCTTCATGGTATTTA
AACGGGTTCCCCACTGGTAGTAACCTTGGGTCAACAGTATAATGTCGGGG
AGAAGCCCACCGCTATACTGTACACTTATATTAATCACCATGCGCAGCCA
CCAATCATACCACAACATAACCACAGTAATACATAGTTACGAGTATAGTA
CTACTGTCGATAACAGTACCATCGAGACATACAGGAATAGGGGCTTGGGT
AAATAGTAAATTGTACACTAGTATACTGTATAATTTAATTCTCATGCAAG
GGTATTGTACAAACACAGAATACACGGGAAGCTTGGGTTACAACTAAGTT
TCAGATGGGTGTTTAAAGAAAAATCAAACCAGATGCACCCGGTTATGGGG
GAAAAACAAATGTCAAAACGTGTTAGGTGGGATCAAAGGTTGCAAAATTT
TTAAAGAAATCAGAACGTTACATTACATCTAGGAACGGATGGGTGTCACT
AAAAGGGTTTTTCAGGTGGTATATATGGAGACGTGATCCTAGTACATATC
AAAACACGCCTGGACCTTCTGGGCATACAAACGTTTAGGTGGGATCAGAG
GCTGGGCCGACAGTATAGTAACCTTAATCGTCATGTAATTACACAAGAAA
AACAAAGCCAGAGGCAATATAGTACCTCATCAAGCATGGTGTTAAAAACA
ACCACACGCCAGAACTTTATACAGGCAATGTTTCACTCTTCGTGTTAGGT
TTTTTGATAGCAAGAAAAACAAACAATCCAGTAAAATATAAATAATAAGG
ATTAAGGCTGTAGTAAACACAGTTACCTGGTTACACGTCAGAAGACAATT
TAGATTTTTCCAAACACATTCTGGCACTATGTTTCAGTACCTCATCAAGC
ATGGTGTTATATTTCAAAACATAGTGTACTGCCGAGTATAATATATCACC
GCGGACCAAATACTCCTCTCTTTTCCCACATAACCATAGTTCATGACATA
TTAGTTTTCAGTACAATCCAGTAACCCTGATGTATTTTTACAAAATATTA
GTACTGCTGTAGTCTAAAACTATTTTTTCCAACCCCCCGAACACGTCATG
CCATTAGGGAACTTTATACATCCATTCTGTATTGTTCACTACATGTTTCA
CTCTTCGTGTTAGGTTTTTGATAGCAGGGTGATTACAACGAGACTCAGAG
TCCTGCTGTAGTCATCATCAATAAATGGAGATTACATATGATTTTGGTTT
AAAATTTGGTTTGGGAGGTTTGAAGCGGAAGAGGAGGTGTTCTAGGGATG
GGATGGTATACATAATTTATTAGTGACACAGACCATAACAGTATAATATA
GTACTACATAACCATAGTCATGACATGTTTTGAGCAGTACAACCTGCGAT
AAATAATAAGGATTAAGGATTGAAACGAGGAGCGAGAGGACCCTGATGTA
GATATCTTCCTCTCTTTGACATAAACCAGAACTGTACAAGACACCGTTAT
TCACCTGGAAGTAGACGAAGAGCAGTGGAGGAAGATCAAAAGGAAGTAAG
AGGCAAGCCACGTGGGTATGATCCCCTACGATGTCAGGTCTACGGTTTCC
CGATACTCCTCATGCTCAGAACATAGCACAACGATCCACGCGTTTAGATC
GGCTACAAACGAAGGAGTATCCAGTCGACCCATGAATGACATACGTGTGC
TTAACCTCAAACAAACCAAGATGACATACTTCCCAAAACACAGGGTCCTC
CAGAAAAAATACCGCTTCGAAGAAGCCATTTGTAGAATCTTCATCGAGTC
GTAGTTGGAGAGTCTCCATATATTCTTCAGCAGAAAAAGATGAAGGGTTG
CACCAGCCAGGGTATCTTCTTGTGTCACCTTTCATCGTCTCGGATCTTCA
TGGCAGAGCGAGATGTATTCTACGGTATGATTACCTGTTCTTTTATGACT
ATGCAAGTTTTTAGTCTGTCGTGGGTGAAATTTTGTACATTACCACTCAG
AACTAATAATACCTTGTACAAGTACACGGCCAGTAGTTATCGAGGTAGTT
CTGAACGAGTGCTGCCTGGGCAGGTCACCATGGACCAGTAAATATTCGCC
TCTCTTTCCCACACCCACTAATGGTATGAAGTGGGCATGTTGAAAGTTAC
GAGAAGTCGACCGTAGTAGTAAGCACTCAAAAGTACGTGCTACGTAATTC
TATCAAATGATACCAGCACAAGAGTTAGTTCATGACGATTCACTCTTGTG
GGTGAAATTTTGTACGTTACCACTCAGCACTAATAATACCTTGTACAAGT
ACACGGCCAGTAGTTATCGAGGTAGTTCTGAACGAGTGCTGCCTGGGCAA
GTCACCATGCACCAATAAATATTCGTCTCTCTTTCCCACACCCACTATTG
GTATGAAGTGGGCATGCTGAAAGTTACAAGAAGTCGACCGTGGTAGTAAG
TACTCAAAAGTACGTACTACGTAATTCTATCAAATGATATCAGCACAAGA
GTTAATTCTTGACGATTCACTCTTAAGGTGAAATTTTGTACATTACCACT
CAGGTGGCCAAATTTTCTGTACATTAAATATTCCACTCAGCACTATTGGT
ATAAAGTACCTTGCTGAAAGTTACAAGGTGGTAGTAGTTATCGAGATATC
AGCACAAGAGTTAATTCTTCAACGAGTGCTAATAATACCTTGTACAAGTA
CACGGCCAGTAGTTATCGAGGTAGTTCTGAACGAGTGCTGCCTGGGCAAG
TCGCCATGCACCAATAAATATTCGTCTCTCTTTCCCACACCCACTATTGG
TATGAAGTGGGCATGTTGAAAGTTACAAGAAGTCGACCGTAGTAGTAAGC
ACTCAGAAATACGTGCTACGTAATTCTATCAAATGATGCTTCATTCTTGT
CTTGGGTGAAATTTTGTACAGTACCACTCAGCACTAATAATACCTTGCAA
CCTTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTATTC
TCACTAAAAACTAAAAAACCAAAATAAAAATGCCCAACGGGTGGAGAACG
ATTAATTCGTTAGTACACTAAATTCGACTTCACGGTCGACGAGGGAAAGG
AATGGCTGAATCCTTCTCGCGACAAAAATCAAGGCACGCACCGCAGAAGG
AAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTG
GTACGTCCAATGAACTTGATGTCCAGAATGGATGGGAAGAAAACACACAC
ACACAACACAGTACAAGATCCGGTCGGTAGCTCAGAGGTAACCATGTAAC
CTTTTGACACGTTGGGACGTGAGTTCAATCCCGGCAAACGGGATTTTTCT
CACTAAAAAAACAAAAATATAAAAATAAAAATGCCCAAAGGGTAGAGAAC
GATTAAATCGTTAGTACACAAAATTCGACTTCACGATCGACGAGGGAAAG
GAATGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCCTCGCAGAAA
GAAGGTAGATGAGAAATCCTGCATGACCTTCCTCCCTGTGTGACCCCGGC
TGGTACGTCCTAATTGTTGTTCACTCACGATACGGTTAGATTAGGTTTAT
GTTGACCAATAGGGGGTGTTAGGATAGGTTTCATCATTTGCTTTGTTGCA
TGCCCGGCGGGATGTTTCCAGACTTTCGTCCCGCAGGTATAAAACACCCT
TGGGCATGCCTGCCCTCTAATGTCACTTCTGTCTGTGTGTCTCTCCATTT
CCCCATCCAAGCAAATCCTTGCCACAACCAACCCAGCACACTCCCTCTCG
TGAGGCCTGCCATTTTATCGTGCGTAGAGTTCATCCCTTAGAGCTATGCT
AGCAGAAAGAGGCTATTGGGCTAGACTGGTTATCACCCACCCTGAGGCAT
GATTGCGAGAGGCACGCTGTTATAAGCGTTGCTCCAAAAGCCTTCTTTTT
TCTCAATACGTCAATCTCATACCCCAAGTAGGCTGTCATAACTTTTTCAG
ACCTGAGCCGGGGATATTTCCACCCATCTCCCCCCTGTTCCCAAAACACG
GGTCATCTACCGCGGATCGCGCCTACAGTAATCTACATTTCGCAGCTGAA
CAATATACAGTAGCCAATAGAGAAAGGGCCCGGCTTAACAGTAAAAAAGA
AAGAACGCAGGAGGGGCAAACCGGGACCCCGGGCTCCTTAAAGGACAGGC
AGCAAAGCAAGCTCCACGTTCCACCAAGAGCTTCAAGCCCGGCGCGCCAG
GTAGCCAAGGTATGCGTCGTACATGCGGCGCTCTGACTCGTCGCTGAGTA
TCTCGTACGCCGAATTCACTTTCTTAAAGTGCTCGGCGAGAGCAGCGTCC
CCCCCGGTCTTGTCGGGGTGGAGCTGCAACGCTAGCTTTCTGTACGCTTT
TTTTATCTCTGCCGGGGTAGCGCACGACTTCAGGCCTAGCGTCGCGTAGT
GCCCACCGGCTATCCCGCCGCTCCTGGAAGCCCTGTCATCGCGAGCGCGC
GACCTCGCCTTCGCCTCCTCCTCCTCCTCCCTCCGCCGACGCTGCTCCTC
CTCCTCCCTCCGCCGACGAGTTTGCGGAGGGAGGAGGAGGAGCAGCGTCG
GCGGAGGAAGGAGGAGGAGGAGGCGAAGGTGAGGTCGCGCTCGCGATGAC
AGGGCTTCCAGGAGCGGCGGGATAGCCTGAGGGCATTACGCGACGCTAGG
CCTGAAGTCGTGCGCTACCCCGGCAGAGATCAAAAAAGCGTACAGGGAGC
TAGCGTTGCAGCTCCACCCCGACAAGACCGGAGGGACGCTGCTCTCGCCG
AGCACTTTAAGAAAGTGAATTCGGCGTACGAGAGACTCAGCGACGAGTCG
GAGCGCCGCATGTACGACGCATACCTTGGCTACCTGGCGCGCCGGGCTTG
AAGCTCTTGGTGGAACGTGGAGCTTGCTTTGCTGACTGTCCTTTAAGGAG
CCCGGGGTCCCGGTTTGCCCCTCCTGCGTTCTTTCTTTTTTACTGTTAAG
CCGGGCCCTTTCTCTATTGGCTACTGTATACCTGGTATTGTTCAGCTGCG
AAATGTAGATTACTGTAGGCGCGATCCGCGGTAGATGACCCGTGTTTTGG
GAACAGGGGGGAGATGGGTGGAAATATCCCTGGCTAAGATCTGAAAAAGT
TATGACAGCCTACTTGGGGTATGAGATTGACGTATTGAGAAAAAAGAAGG
CATCTGGAGCAACGCTTATAACAGCGTGCCTCTCGCAACCATGCCTCAGG
GTGGGTGATAACCAGTCTAGCCGAATAGCCTCTTTCTGCTAGCATAAGGA
ATGAACTCTACCCACGATAAAATGGCAGGCCTCACGAGAGGGAGTGTGCT
GGGTTGGTTGTGGCAAGGATTTGCTTGGATGGGGAAATGGAGAGACACAC
AGACAGAAGTGACATTAGAGGGCAGGCATGCCCAAGGGTGTTTTATACCT
GCGGGACGAAAGTCTGGAAACATCCCGCCGGGCATGCAACAAAGCAAATG
ATGAAACCTATCCTAACCCCCTATTGGTCAACATAAACCTAATCTAACAG
TATCGTGAGTGAACAACAATTAGGACGTACCAGCCGGGGTCACACAGGGA
GGAAGGTCATGCAGGATTTCTCATCTACCTTCTTTCTGCGGGGCGTGCCT
TAATTTTTCTCTCGAGAAGGATTCAGCCATTCCTTTACCTCGTCGACCGT
GAAGTCGAATTTTGTGTACTAACGATTTAATCGTTCTCCACCCGTTGGGC
ATTGAAGCTCTTGGTGGATTGTGGAGCTTGCTTTGCTGGCGTAATCTGCG
TCGGCAAAAACCTCTAAAGAAATATTTGCTAATGTCCCTCTCTGATACGT
AATGCCAAAGTGAGAAGTATCATTTATGTACGCAAGAATACCGAGCGCCG
CTTTCCAATGAATGGCTTTTGGCGTGGAACAGTACCTTGAAACAGATCGA
ACTGCGTTGGAAATATCGGTGCGTGTCGAAATCGCCAACCACATTAGACC
TCCAACGAGTTCACGAAACGGCTTATTCTCAGTTTTCTCGTCTACATCAA
ACTCATCCAGTTTAAAACTCTAAGTGGAATGTTCTGTACGGAGGTCGCTA
CTTGAGAGACCGCAAAATGGGAACTCTGACGATATCCCTTCAGAGTAACA
ACAAATAACTAGTTAAGCTATTATACCCGATATCCTGATTCGTGGTAAAA
GGGGGGAAGAGGCAGGCCCCCGAATAGCTATTAGAAAGAGGCTATTGGGC
TAGACTGGTTATCACCCAACCTAAAGAAGGCTTCTGGAGCAACGCTTATA
ACAGCGTGCCTCTCGCAACCATGCCTCAGGGTGGGTGATTACCAGTCTAG
CCCAATAGCCTCTTTTCTAATAGCTATGCGGGGGCCTACCTCTTCCCCCC
TTTTACCACGAATCAGGATATCGGGTATAATAGCTTAACCAGTTATTTGT
TGTTACTCTGAAGGCCTGCCTGGTGAATTGGGGGAAGCCCTGACTCGGGT
CGAGGACTCGAGGACGAAGAACGGAGGTGCCGGCGGGGCCCATGCCCTGA
CCTCAGGTGCAAAGCCGCGAGGCGGCGGTCAGGGGCGCGGCGGCGGCGCT
CGACGGGATCGTGGAGGCCGTGGCAACGCTCGAGGCAGACGTGACGGCAA
AGGTCAACAACATCATCATCAACAACAATGGGCTTCGCAGCCCGTTGTGC
AGCAACATCAGCAATGGGCTTTACAGCCTCCCGCGCAACAGCAGCAGCCG
CAAACGCATCAGCGGCAGCCACCGCAGCGGCAACTACAGCAGCAGCAGAG
ACCACCAGGACATTCTGGCGGATGGGGACCATCGCGAGTCTGTTTTCGTT
GCGGCCAGCCCGGACATTTCTATACAGAATGTCGAGCTGTACCCCCGGCA
CCATACAGTACTCCGCAGCATGGTCAACAGGCCAACTACTCTGCGACTTC
TCCTGGAGATTACGCGACTTCTTCGGAAGAATACGGAGACCAAATGCCCA
CGCCGCCGGCCCCGCAAGGAACGCCGGCACCTTCCGATTCGTCCTGGAGC
TTCTCGACCGAGCGGGCCGTGATGACCTCCGAGGCACCGTTGATCCCTCC
GGCAACTGCAGTCGGGAATCCGCCCATTGCGCCACCGGAGGACATCTACG
TGCCAATGCCCGTGCCCAGCGTCACCGCGCCTGCTCCCGCTCCCGTACCG
CCTGCTCCTGCGCCGGCTCCATCACCGAAGCCTTTACCCACTCCTGCGCC
GACACCCGCAACACCTACGCCACCGCCGCCAATACCTATGACGAACCCAT
CGGCTCAGATCCCCCCGCGCGTTAGCCGGGAACTTGTCGATGAAGGATAC
GTGGAGATGCCTGGGAGGACGCGTGGCGAAACCCGTGCAATGCGCGAAGC
ATCACGAGAATATGCCCGTCGTCATGGTAGGCCATTAAATCACGCGGCCC
TGGTATCAATGTTGGACAAAGGTGAAGCGATACATGAGATCATACACGAA
CACGGCGCCTCTCCGGACCTGCCGACCGCGCGTGCATCAGACCTGCCCAC
TCCGACGAACGTTATGGAGGCGGAGACGTCCCCGCATGCGAACATATAGC
GACACTCCATGAATAGGGAGTTCCAAGGTCTACTGCAGGCCGGCACTTTC
GCGCCTATATAGCAACCAGCGGACAACGCGATCGATGCTAAATGGGTGTA
CACCTGGAAAGTCGACGAACAGGGATGGGTAGTAAAAGCCAAATCGAGAC
TAGTGGCGCGCGGCTTCAAGCAGCGCGAAGGAATAGATTTTGGTGAGACA
TTTGCCCCCACTGTGTCGAGTTCTTGTGTGCGTCTTTTGAGTGTGATTGC
GTGTGAATTTGATTTGGAGTTATGTCATTTCGATGTAGACCAAGCATTTG
TTCAATCCCGCTTCGAAGAGAATGTTTTTCTGCGATTGCCGAGAGGTTGC
GGAAAAATGTCTGGTAAAGTAGTGAGACTCAACAAAAGTTTGTACGGGTT
GAAGCAAGCCTCGCGTACATGGCATGCTCACCTCACGACGTGTCTCCTAA
GACTAGGTTTCGAACAATGCTTGACAGATGTATGTGTTTTCCGTTTGATT
GAGGATGGACGTGTGACAATTACAGCAGTTGTGCACGTCGATGATATGTT
TGCTGTAGGACAGAAGGAAGGGTGTGACAGGTTATGCGTTGACTTGAACC
GAACCATTCCTGTCAAGAACCTGGGTGAGTTGAAGTGGTATGGAGGATGT
CGCTACTTAAGAGACCGCAAAAGGGGAACTCTGACGACATCCCTTCAGAG
TAACAACAAATAACTGGTTGAGCTATTATACGCGATATCCTGATTCGTGG
TAAAAGGGAGGGAGAGGTAGGCCCCCGCATAGCTATTAGAAAGAGGCTAT
TGGGCTAGACTGGTTATCACCCACCCTAAAGAAGGCTTATGGAGCAACGC
TTATAACAGCGTGCCTCTCGCAACCATGCCTCAGGGTGGGTGATAACCAG
TCTAGCCCAATAGCCTCTTTCTAATAGCTATGCGGGGGCCTACCTCTTTC
CCCTTTTTACCACGAATCAGGATATCGGGTATAATAGCTTAACCAGTTAT
TTGTTGTTACTCTGAAGGCCTGCCATTTTATCGTGGGTAGAGTTCATCCC
TTATGCTAGCAGAAAGAGGCTATTGGGCTAGACTGGTTATCACCCACCCT
GAGGCATGGTTGCGAGAGGCACACTGTTATAAGCGTTGCTCCAGAAGCCT
TCTTTCGATGACTCTTAAATTTGTCATCGGATAAAATTTCGACTTGGACA
TCTGCCGAAGACTTCATGAAGTAGGGAATCATGGATTTGCTTCCGCGCCT
GCCCGTTCTTGGGATCGTGGCGCGCGCTGCTTTGTGAGGAGGTTCATCGT
AGGGCTGGATGAGGCTACAACGTTTTTTGGAGGATCGACGACTGGGGCAT
CAGCCTGCAGGAGAGTTGTACGGGCAAAAATATTTTATGCCATACGTAGC
GGCCAATTTGCTGACTCTCCGAGGCTTGGCCGGCTTTGATGCCATGCCGT
GATGAGAGTATGTCGTCGAGGACGACTTGAGTTTTTTTAAGCCAGAGGCG
ATCGATTGTCGGGGAGCGTCATGAAGCGAGCTTGACGACAAGGAACCCCA
CGGAGCACTTTGAAGCGCAAGAGGATCGGGAGAGAATTCTCATTTTCTGG
ACATCATCGCCTGCTCATGCCTCTTCATATATCTGCTACAGTATGGTATG
ATGCAAAAGTGTTGTGCAAGCTTTGCTGTACCGCTGTAATATAGAAAAGT
AATGCCCCGTATAGCTCCGTCTTTCTCTCTTGTTCTGTGCATTCGTGCAT
CTGGATACCCGCGCGTAGCTGGGATGTTCCTTCGCAAAATACTATTTTTA
AGTACTGTACAAGCAGAAGTGAAATGCTGTGTGTGTGGTAGACAGAATTT
GCTCGCACGACGATTGTTATGTAGCAAGTTACTTTATCGTTTGCTTGTTT
CGAAAAAGTTACGGCGTAATCGTCACTTAATGTGTTCGAGTGGGGAAGAC
CCTACGGTCATCCAAATTACGCCATGGAAAAACCTATGCACTTGAACTAG
ATGATGAACTGCTTGCTGCGTCGTTTTAGGAGCAATATTTGACGCCTACG
TTTGAGAATAAAAAGCATTGAGTCATAACGTTACGCAAAAATGGCTGGAA
TTCAGAGTAACAACAAATAACTGGTTAAGCTATTATACCCGATATCCTGA
TTCGTGGTAAAAGGGGGGAAGAGGTAGGCCCCCGCATAGCTATTAGACCT
GAGTGGTCAGCGGGAAGGAGGGAATGCCCCCGTAAGCTATTATACCCGAT
ATACTGATTCGTGGTAAAAGGGGGGAAGAGGTAATGCTATTAGACCTGAG
TGGTCAGCGGGAAGGAGGGAATGCCCCCGTAAGCTATTATACCCGATATA
CTGATTCGTGGTAAAAGGGGGGAAGAGGTAGGCCCCCGCATAGCTATTAG
ACCTGAGTGGTCAGCGGGGAGGAGGGAATGCCCCCGTAAGCTAATGTACC
CGATGTCGTGGCCGGAGGGGGAAGAGGTAGTTCCAACGCCGTCTCTCTGA
AGAAGATAAGTAGTTGGTTACCCATGCTTTCCATTCGTCTTTACCAGCGA
TTTTTTATCTTTGTCATTTCGCCTGATTACGATACCGTTATAACAAAATC
ATTTTTTGTCCTGATGCTTGATAGTGAAGGCTATTTTCTGACAATCAATG
TAGTCGAAAGAAGTTACCCGCAAAGAATAGTAAATGATATGTCTTGCAAT
GATTTGGTTGATATATGGCATATAATGAGAAATTGCATATCACGAAAGCC
CTAGATGGCGATCGTTAGTTAATTGATAGCAAAGTATGCCGAATCACATT
GAGTATGCTTTGAATGTCAAAGTTATGAGTTATACGGTAAGTTTCCTTTG
AGAGCTTGTTCCCAGGAGGATATTTCAGTACGCTTTCTTCTGAATATCAG
CGTGCAGACATCGTAGCGAAGCATTTGATGTGTTCGCGATTCACCGACGT
TTCTTAATGAATTTGAGTGTTTGACGAGTTTGTTTTGAATTTGCGGTGGA
TCGGCGATTTGATGTATATTGATTTCCGTATATTTTTGTGCGCGTGTGAA
TGCTAGTGTTATGGCACAGCTGGGGGGCTATTCTAAGTCTCGTAGGATAT
AAAGAATTTGGGAGGCCACTTAGGTATCTATCCGATCACTCGTGAGGGGG
GCTAATTGTTGTTCACTCACGTTACTGTTAGATTAGGTTTATGTTGACCA
ATAGGGGGTTAGGATAGGTTTCCTCATTTGCTTTGTTGCATGCCCGGCGG
GATGTTTCCAGACTTTCGTCCCGCAGGTATAAAACACCCTTGGGCACGCC
TGCCCTCTAATGTCACTTCTGTCTGTGTGTCTCTCCATTTCCCCATCCAA
GCAAATCCTTGCCACCACCAACTTAGCACACTCCCTCTCGTGAGGCCTGC
CATTTTATCGTGGGTAGAGTTCATCCCTTACGTCCAACGAACTTGATGTC
CAGAATGAATGGGAAGAAAACACACACACACACACAAGATCCCGGTAAAC
GGGATTTTTCTAATTAAAAAAAAAAAAAACGCCCAACAAATGAAGGACGA
TTGAATCGGTAGTACACAAAATTCGACTTCACGGCCGACGAAGGAAAGGC
TGAATTCTTCTCGCGAGAAAAATGAAGGCACGCACCGCAGAAGGAAGGTG
GATGAGAAATCCGGTGTGACGTTCCTCCATGTATGACCCCCGGCTGGTAC
GTCCAACGAACTTGATGTCCAGAATAAATAGGAAGAAAACACTCACACAC
ATGAGACATGAGAGATGTATGTATTGTCATGACATATAAAAGAGTATGGA
TCAACCGAGTAAGGTTGCCAGTCCTGCACGTGGTCAGCTGAACAGGAAAA
ATGAGCATTTCCCTGTACCCGTTCGCGCCTGAGAATTTGGCCTCGCGAGA
CGGGTTCGGCCGTCCCGTCCTGCGTCAGCCTGCTCATTCTCCACACTCAG
GCTAAATATAGTGCTTACTCACGGGATTCCTCCCGATTTCCGCGACAGCG
TCCATTTTTTTTACAACCATACGCCATCGGGCCAGTCCCGAGTTTGTTGG
GTCACGCAATTGCGTACCGATGGCGCTAATTGGCGAGGGTACGCCGGCGC
GGGACCAGTTGTCCTCAAGGTACTTTCAGTAACGGGTGCTGCCTTTTCAG
GTCACCATGGAGCAATTAATGCGCGCCTCTCTTTTCTCACACCCACTATA
CTATAATTGGTATGAAGTTAAAAGAATCGGAGGCAGATGAATGATATGAA
AGACGGTGACGGTGAGTAGGGGACTATTAATAATTCCTATTAATAATGCA
ATTATGAAAGTTATAACCTTCCTAGTACAGAGTTAGGCCACTTCTTATGC
TGTTAGAAAATGTTATCAGAAAACGTCTTTTCTCATATGGGACCAAAAAT
CCGCTTCTTATGCTATCAGAAAAAGCCTTTTCTAGTAAGACATTTTCTAC
TAAAATTTTCTGATAGCCCCATCCTGTTAGAAAATCGTTCTAACAGGATG
GGGCTATCAGAAAATTTTATTAGAAAAGGATTTCAATTTCTACCGGATGA
CTGTGTCGCAGCGGTGACGGTCGCGGTGGCAGCATATCGACGCCGCAAGC
AGAGAATAAAAAATACCAATCAGTTGGCACTCGTTCTAGGGTTACTCGAC
GAGGAAGACACAGTCGTGTCCCGAGAAAATATCTGTATGTAGCCTTTGAA
GCGTGCGTCGTGCAGCAGTTACGTCCTCGGTACAGATTATTAGATGATGT
TGCAGAGCTGTTTGCATGGTAAATTGCGGCCTTCGAGCTGCATTCATGTG
GCTGTGCAAGCCCCAAACGATTGAAGACCACGTGCTGTACCACGCCGCGG
TTGTAAGTGGGTGCACAAGGTAATGCGCCTACCCGCAGCAGCAGTCCTTC
GCTATGTGTCGTGGGCGTGCCCCGGACGAACGGACGCAAAAATTCAAAAA
AAATCCTCAAAAGACAATCCTCGTGTACAGGCATGGATGACTGCTGTGTC
GCAATTCAAATTTTTCCGTTCAAAGACAGACCTCGTGTACAGCACAGGCA
TGAATGACTGTGTCGGAGCGGCAACGGCCACGGTGGCAGCATATTGACGC
CGCAAGCAGAGAATAAAAATTGTCAATCAGTTGGTACTTGTTCCACGTGG
AAGTTGCAATCGTGGCTCGAGAACACATCTGTAGCCTTTGCAATGTGTAT
CGTACAGCAGTCACGTTCTCGGTATAGATTATATGTTGTTAGAGGCCGCT
TGCACAGTACTGTTTGCATGGCACGTTGCGGCCTTCGAGATGCATTTGTT
GTGTGGTTGTGCGAGTCCGAAACGATCGAAGACCATGCGCTGTACTACGC
CAAGGTTGTAAGTAGGTGCACAAGGTAGGCAATGGGCCTATATCCGCAGT
CCTTGGCGACGTGTTGTTGGTGAGATTATCTAAAACATACAGCAGACTGT
GTATACATTGAACAGACTCTCCAATAGAATACAACGAGCAGACGCCTCCT
TGTAACCGGCCGGTGAAAACTACTTTTTTATTGCCTTTTTTATTTTGATA
AGCTGTGAAGATAAGAACGGGTGCTTGGAAAAATCCTGTTGGAAAAATTA
GAAAAGCCGTTTTCTGATATCATTTTTCTAACAGCATAAGAAGTGGCCTT
ACAGTTGTTCTCACATTGAATTCATCGTATTGGTTGACAACCTATAAAAC
TACCAGGTATTTTACATGGTGGCCAATCCAATTCCTATTAATAATGCAAT
TGTGAACGTTATAACATTCTTAGTACAGTTACAGTTGTTCTCCCATTCAC
CGTATTGGTTGACAACCTATAAAACTACCAGGTATTTTACATGGTGGCCA
ATCCAGCTTGTGGTGTGCTCAACAGTGGAAAGAGAACAAAAATATAATTC
AGAATGTCTATAACAGTACGCCCCCCTCCCCCCCTTACGTTGCTGGTACT
GTATTCTACTGTACTTTGCTCTACTGTACTCTACTCTCTACTGTACTCTA
CTCTACTTTACTCTACTGTACGGATATAAGGGGAGGGGAGAAAAAAGCTA
AACGAAGAGATAGCCGAAAGGGCACCAAGTGACGAATCCGCACATGCCTA
GGCGCTACGCAGGTCTCGGCCCGTCTGGTGCCCGTACAGGATTCCTTCGG
CTCGTCAACTAGGCCAATCGGTGTCTCTTCGCATGTTATACCCTTCCGTT
TACGATAACAAATGTCCTGTCCTGCTTGAGTCTCGCCGCCTTTCTCTTCT
CCTGGCGATGCCTAGCCGCGTTTACCTCTTGTTTTCTCCACGCGATCATA
AACCTCCGCCCACCCTCCGTGACCGTCTCAACCCACACCCCTGCTCCGAC
GCCGCCGCTTTCCATTCCCTCGCTATAATAATGCCAAACGCCCGGATGTC
GCTCTGCACGCAATCGACCCAGTCTTTCTCCCTCTCACCCATCCTCTCCG
AACTGCACCCTCAAGGTTTCCGAACACGATTCGCTTGGGCAACCACCCGC
TGCTTATTTGAATGAGCGTCCCCGCCCATAAAGTCTTCTCGTGCGCAAAT
GCTCTCAGATCCAGTTTATCTTGAGGGCACGATGCACGAGTCATCCGATG
GTCTGGTCTCATTGTGCTGCGCCGGTGATGGACGGTGATGCCGGTTATGT
GCGGTGCAGAGTTTAGAGTAGTGTTCCTGGGGAAAGGTCCATACTTCATC
CATACAGAAGGGCTTCGGGTCTTGAGGGAGAGCGCCACTTTCAGCTGGTC
GTAGAGCTCATTTAGGTACCTCCTGATGCGCATCTATTAACAGCATGCGC
GAGCCCGCCTGGCGGTTTCAACGGACATCACCGGGCTTGCGAGGATGGCG
CCCCCCATAGGTGAAGGATTGTACCTGTTTCTGTTTGTAGATTTGCCCGG
CCGCTTGGACTCGCAACATCGTTCGTCCGCGGTGCGTGCGGTGGAGGCGT
GTCATGCATATGGTCTCTGCCTTCTCAGACAATGCTCCTGCCACAAAAGG
GGGCCGTCGACTGTATCGTCGCATTCTGGAGGGAGGAGGTAGGAGGTAGG
AGGGAGGCACTGAACAATGAAGTACAGAAAAAGTCAGACTCCGCCCTTGC
TTTCAGCCGAATTTCATGCAGCCTTCGCACCACATACATCATGTCCGCGA
TAGAGCGATCCCGGCGAAACCCGCACTGCACCTCTGGTACGGTAGCAGTC
TCTTGGCCTCACAGTAATACCAAGTTTCCTATTAATAGCAAGCATTTGAA
GGACGGCCTACGACCTTACCTGCGCGGGACACGAGCGAGATGCCTCCATA
GCTTCCGCGCTCGGTCATGTCGTTCTTCTGGTAAATTACATCTATGATCG
CGTCTTTCCACTATACGGTGGGACTTCTCGCTCGGTCATGGCTTGAGGAC
ATGACGGTGATGACTGATGAGTCGGCGGAACTCCAGAAAGATGGCCCGGC
CCTTTTGTACAGTAGTCCTGATGTACCCTATTAAAATCAATAGTACGAGT
TTCTGCAATTCGATGGGAAGTCCGCTTGGTTGCACCGTTTTTGCTTTTGT
TGTCGCCTTCAGCGCTGTGGCAACCTTCTCCGCGAGGCCGCTCTCTAGGG
CACTCTCGACGGGCTGCTGCTGTAATGCTCTGCTGTAATGCCGGGATGAA
GGGACGAAGGGATGAAGGAGAGTATCTTTGTAATGCCGGGGTGAAGGATT
GAATATATTTAGAATTAATAGTAGTACTCCCTATATTTTTGGGGGGGTTT
TCTAGTATATTGTTGTACAGTATAATACCCCTCATAAGAAACCGAAATCC
GTGCTGAGCTTCAATTTCTTGCTTTGTCTCAGAGAAAAAGTAGGAAATTT
CTTAGCTACTCCTGTACAATCCACCAGATTTGTGGCACAAGGCTCGGCAG
TTTCTTAATTTGTCAAAAATATCAGCCTGCTTTTCTTACAAACGCGTTTC
TTATGAGCGGGCCGTTACTGTATCCCAAGTGTTAGCAGCTTGCTTGTTGT
TTGGCGTAGCGACCGATGAACTCTGCCGTGGTATAGTATTATTATTATTA
TTAATAATAATAGGAGTATATTAAATATTCCCTGTACATGCAAGTGTTCG
AGGTGAACATAAGATAAAGTAGTTAATTTTGTACTCTATGCTGTATTCCA
TACGATGTACGAGTAGGAGAACAGGTCTTGGAGGCTTATTTTCAAGCGCA
CAGATTTCCAACTTGCCCAGATCGTGTTCGGTTTTCGAGCCGATTCCTGG
CCACTAGAGTGGTCGGGAATCGTAAATCTTAAGGTCGAAAAGGAATCCTA
AAAAGATTTACGATCCCGTAATAATCTGTTACGTATTACAGGTATACAGT
ACAGTAGCCTCGGAGTGTTGTATGTATGGTCATCATCACATATAGCAAGA
GTATGCATCAACCGGGTATGGTTGCCAATTCGGCAGCTGAACAGGTAAAA
TGAATATTTGCCTGTCCGCGTTCGCGCCTGAAAATTTGGTCTCGCGAGAC
GGGTTCGGCAGTGCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCAGGC
TGCATCTGGTGCTTACTTACGGTATTCCTTCCGAGTTCCGCGGCGGCGGC
CAATTGTTTATTTAAGCCGCCATACGTCTTCGAGTCAGACCCGAGTTTAT
CGGGTCACGCAACTGCGTACCGATGGCGTTCACTGCCGAGAGTCCGCCGG
CACAGGGCCAGTAAACCTCAAGGCAGTTCCGAAAGAGTGCTGCCTTGGCC
GGTACCATGGACCAATTAATATGCGCCTCTCTTTCCCACACCCACTATTG
GTATGAAGTGGGCATGTTGAAAGTACCGGCGGTGTTAATTACTACTAACT
ATTAGCTACTAACTGGTGCTACCAACTATATTACTATAAAAGTGCACACA
ATGGTACAGCTATCGTTTCCGGAAAGAATACGGAAACTAGGGACATAATG
ACATTATCATGACATCATCATCCTGTCATGCCTCCACCGCGTACACCGCT
GACGATGATGTCATGTTCCTTAAGCCAAAACGACCGGGCAAAGGTACGAA
GAGGTACACATACTGCACTTGATTTACTTAATTTACCCCAAAGTACACAA
TTGCTGGAAGCGTTGGTATCTCAATAGCAATCGCGAAGCGGGCTCGCGCA
TGCTTCATACGCATCAGGTGAAACCGACGGCAGCTAATTCTACAAGTACA
GTCGACCGAAATCAAACTTCGCCATTCAGAACCAAATAATTTTAAAAACA
AATGCCAACTCTAAATGGAGGAATGAAGGAATGCGTCGACATTGTGGGGA
AAGCGGCGTTCTGGTGTTTAGTACAGCATTTTGGGTATCCTTTAGTATTG
TAACTTGAAAACAGAGTCACGACATTAGCTCGAGAGGTATAAATTTGGCC
CTATGATAGACAAGACCATCATCGAAAGTAGAAGAGAATAGAGGAAAGGA
AAGGAATGGATTACGATGATGGTCCATCATGACAATAATAGTTATAGAGG
CGGATGATCATCACGAGAAGGGAGAGGCGGATGAGGCCATTCATTGTAAG
TCAAGATATTACTGCACCGTGAAGTTTAGCATAATCGATAATCCGAGCTT
CACGGAACTTATACGGGCGTGTGTTTCGTGATGGGGTTGATTAAGGGGCT
AGAGGTGCAGAGGTAGACAGAAGTTACTCAATCATATACTAATCATGATG
AGAGCTTGATACAAAAGGTTACTTGGCACTGCACAAAACCTCTGACCAAA
GGGGGGCATACACTTACGTATCAAAGCTAGATAGGGGAGTATTAAACCAG
TCCCCTCTACACCTAAACGGGATGACAGTTTTTCCCCCCTGACTGGGGGA
TGATCATAAGGTCTAGGCGCGTTCTGATTTTTCGTTAAACATACATATCG
AGGCCAACTCCTCCGCATGTTGCTATCCAATAAGCAACCTAAACATCCCC
CTGCTTATTGAATCGTCAACGTGACAAGTTTTGTAAGTGTAACGTCATTA
CTACCCCGCCTGCTTTTCAGACGCAGCTCCCAAGGCTGCAGATCATTTAC
AAAAAAAAATACTGCACTCGGAACTTCGACACTCAAATCATTCTCAAATG
CTACTCGGCATTCTTGGTTACCAATCCCTCAAGAAAACTTACGATCACCA
TTTGGGACATTAGTGAAACGTAATGTCGCATAACATGCCATATATTAACC
AAACCATCGCAACTGTTTGTAGAATTGCATTCCCAACAACTCAGTGCAAA
TTGATATCTGACACATTACAGTAGGTGTTTGCGTCATGATATTCATTTAC
TTTTTTACGTAGGCAACTACATTATTCCGACTTCATCGAGAAGTTGTATT
TCAGTGCAATTCGTCATCACGGTATTCTCAGAAAATACCCCTCATGTTTG
GATTGGGACAAAAAATGATCTAGTTATCAAGGTATCGCAACCGAACGAAA
CTACAAAGGTCAAAAACCTCTGGTAGAGACAAATGGAAAGTATGACTTCG
ATCTCAAAAACATCCATTCCCATAAGTAATTATCTATCTTCTTCAAAGAG
ATGACGGGGGCATTACCTCTCTCCCCCCTGACCGCGACGTCAGGTACCTC
ACCTGCCAAGGGCTGCCAAAGGCTTAAATCTCGCATCCTGCTCTGTATAA
AGTCTAACCGAGGAAATGTTTACCTCATTCTACCTCAGGGATGATTTCAG
CAGAGAAAAGATCAGCCTTAACACTTTTATGAGCTCAACCAGTTGTTTTG
TGACTCTGGATTTCAGTCATTTGCATTACCGTAATAATTATTTCCTAAAC
GAAAAAGTCAAATACCACATAATACTGCTGTAAAAGGTTTACTTCATTAC
AGATAGTGGTCCTACAAAAAACGACGCAATTAAGGTCTTCATCGTTGAGT
CAAGTGAAATAGTTTTTTAGTGACGTAATTAGGATATGATATCCCCACCT
GTACGTATTTAATTGAACGACAGGGTACGTCAGAGGCAAACGATCGTGAG
TACCTCTTAATACCAAACAATGCTTATACCCCCGCAGCCAATAATACTTC
GACATCGCATGATTTGTTCAAGAGTCGAGTTCGGCGAAAAATGAACTGCC
TACAAACAGACCAAGGCAAAGTTATGAGGTTTTTCAATCTAATCGTCCGA
CTTACTTGTTGTATTGTGCCGTTTCTTTACTTCGACCACGAAAATTTTGG
ATAGAAAACGTATCACATCTCAACTTGTACACTACAACGTCGTTTCAGCA
AAAAAAATCAACAGCACAAATTACTACTGCTGTGACAAGAATACAATATT
TTAAATGAAGAAACAGCCAACCAAAACGAAAATTGACTTGTGAGCCCCAC
CAAAGATAAGGGAGCCGAAGGAGGTGCTCCTCGCGGTCAGCTGAACACGT
TGTGCTTGATCAGCTCGATCTCCAGGCCAGTGCTCTTGATCGGTTGGCAG
CTCGTCCGACGATTTCTTCGTCTTGTTCCCTGCATTATACTGATCACTCC
AGTAGCTTCGTACTGTGTATTTTGCTCGCAAAAAACATTCAGCACCCCGC
TGTCTAAACATTTCCTCGGCAGAGGTCCAAGTCGAAAACGCGTCGCTCCG
CAGCCATCGGCTCGGACATTCGGAGAAATACCCTTTCCCCGAAGTTATAT
CCAGGCGGCTCTCTTGACTAGCAGTGCTCGCGACGAGAATCATGCTCACG
AGTTTTACACCTGCTTTCACTTTCAAGGCCCCTGGACTGTTCGTTTGGCA
AACGACGCTCCTTTTCTTGTACCCTCCCACACTCCGCATGGCCATTGCTC
CAAGACTATCCGTGTGGTACCATCGCTAAGTCCCCGGAAATCACTATCGC
TACCGGACACGTGACGCAGTGGTCCAATGGTTTGGCCGACAACTGTTAAT
ATCAAAACATATGTCTTGGGCTCTCTGGCCTCTTTTTCCGGTAGCGACAG
TGATCTCCGGGGACTTAGCGATGCCAATGGTTTACTCGGCAACTAACATA
GGTAGTCCAATGGTTTACCCGGCAACTAACTTAGCATCCTCGAAGCGAAG
TCGCTTAGTATACCGGTATTAGTGTTAATAGTACACTAGTAGCTCTACAA
ATGTAGACATGCAGTAGAATAGACACGTATTAGATAGTAGATAGGCAGCA
GAGATGTAGAAGAGATAAAGTGGAGATGGGCCGAGACCGTGTGCTATATA
CTGCATAATAGGCAAGACATGTGAATGTATAACATTATCCCCCTCTTGCT
ATATACCGTATACTGTATACTGTACTTCAAGAGAGGCTCGCACAAATTGG
TCCATGGTGATAATACCATAAAAGGCAGCTCCCGTTACTGGAATGAAGCA
TTTTCTTGACCTGATCAGCATTTTCTTGACCTGATAAGCATTTTCTTGAC
CTGATAACTCGGGACCGACCCGATGGTTATTGACGGTATAAATAAATGGA
CACCGTCGCGGCAAGCGGGCGGAATCCCGTGAGTAAGCACCATATTCAGC
TTGAGTGTGGAGAATGAGCAAGCTGTCGCGGGACGGCTGAACCCGTCTCG
CGAGACCAAATTCTCAGGCGCGAACGGGAACAGGAAAAAAATAGATGCCT
GTTTAACTGAGCACGAGCAGGATTAGCAACCTTACCGTGTTGCTCCATAC
GCTGTTATAAGTGGTGATCATACATATATACTTCGAAGGACTATTTTTTA
TGAGAGTGATATTGCTATAGAATAAGAGGCTTTTCTCGAGTTATTTCGTT
GTATTTCTTTGAAAGATACGGTGGCCTCTTTTTACCTCTTCTGCATAACC
AACACAAGGCCACGGTATACACTATACTAAAACATGTATGAAAATGTTGC
AAAGTAAAATGGAAGTGAGGAGGAAAAACAGGAGATACTGCTGTAGAGGT
TAATGTAAAGGTAAAGTAGATGGGATGGATCTTGATACCGTACCGTACCG
TATACAACAGTATAAGAAGAAAGTAGTCAAGTAGTTTCCCTCTCGTGGAT
GTTAAATCATATCTTAAGAACCAAACATTCGTCGTACGCGCCGATCAGTC
CCGACCTGGTGAGCGGCAACCCTAACGTGTTCAAGACTGACGTGGTGGAG
CGAGCCCAAAAGTATGCTTCCGCGATGGGCGGGGGTGTCGGCGCTTACAC
GAACAGCATGGGGATCTCAGCCGTCCGAGAGGTGAGGTGGGCTGAGCTGG
CCTATGACCAAAATTGCACCTATAGTATTTTACTGTACTGTACTGTGTTA
TTGTATTGTTATAACATTTTACAATATCTTATAATATCCTGGTCTGTACA
GTACCGGTACCATGCTAGACCGGTCGGCCCGGTGGTTCAGTTGGAAACCT
CGAAACCTTCTGACGTTGGGACGTGAGTTCGAATTTCGGTGTCGTCACAC
TCACTGAGATTTGGACCCAACGAGTAGAGAACAATTAAATCGTTAGTACA
CAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCT
CGCGAGAAAAATGAAGGCAAGCACCGCAGAAGGAAGGTGGAGAAGTCCTG
TGTGACCCCGGCTGGTACGTCCACAAACCTGACGTCCAGAATAAATGGGA
TGACAATACAGACACATTCGCGGTTATGTTCAATTTATAATTTAATAAAT
ACACACACACACTCGTACACCAAAGAAGAAATGTGTACAATTGAAAGCTG
TAGCTCAAAATGAAAAACTTCACCATGAACGAGTACAATATAGTTACTTT
TAATAATTATGTCTTTACTTTGTTATACCTTGTTGTACCTTGCGATACAT
TGTAACCCCTGAAACAGGAGATCGCGTCTTTCATCTCCACGAGAGATGGC
TACCCGGCGCACGCGGATCGCATTTACCTTACAAACGGAGCCTCAGAGGG
TAAGATAACTTGATCTTGATGTTGCTGTACGGGTATGTAACTGTTGAAAC
ATTAATTAGGGGTACAGTACTATATCCTACTGTACCCGTCTTGGTCTTAC
AACATTAACTTTAATTAAGAGTACTGTATGCCCCGAGTGAAAAAGGATCG
GTCTCCTGGTATAATGTACTATAGTACTATTGAACTATTAATATACTACA
TCCCTATTAGACTATAGTAATAATTGATCGATTTATTTATTGGTTTAGAG
CTATACCGCATATGAATATATATCATATAACACATAGCACAGCACTAACG
TGAATGGAAACGAACTGTGGAGCCTATAACGCTCGTGTCGTATTAATCGT
ATATTGTATTTTGCTGCATTTCGCTGTTTCACCCTCGACCCAAATGTACG
AATAATATGATGATATAACCACATGGTGTTAATATGATAACGATAACGTT
CACGATCGGCGCAGGTGTACGCATGTTGTTGACCTGCCTCCTAAGGGGAG
GGAGCTTCCGCGATGGACTCTTGACGCCCATCCCGCAGTATCCCCTGTAC
TCTGCGTCACTGACTTTGCTTGGTGGTGAACTGGTACCTTACTACCTTAA
CGAGGGAGGAAACTGGGGAGTCGAGGTGAGGGTAGCTGGATCCCTAAATA
CCCCTGTGATAGTAATAGTAATAGTAATAGTATGTTTCCGTAAAATACCT
TTATGCCTTAGATCTTAATGTGTCTGTTTATGTATATGTGTATGGTCATC
ACATGTAGCAAAAGTAAGGATCAACTGGGTAAGGTTGCCAAACCTGCTCG
TGGCCAGCTGAACAGGAAAATGGACATTTCCCTGTCCCCGGTCGCGCCTG
AGAATTTGGTCTCGCGAGACGGTTCGGCAATCCCGTCCCGCGTCAGCCTG
CTCATCTCCATACTCAGGCTGAATCTGGTGCTTACTCCGATTTCCGCGGC
GGCGTCCATTTATTTATTTCAAACCGCCATACGCCATCGGGTCAAACCCG
AGTTTATCGGGTCACGCAATTGCGTACCGATGGCGTTCACTGCAAAGAGT
CCGCCGGCCCAGGGCCAGTAAACCTGAAGGTAGTTCCAAACGGGTGACGC
TGCCTTGGCAGGTCACCATGGACCAATGAATGTTCGCTTCTCTTTCCCAC
ACCCACTCTTCATATGAAGTGGGCATGTTGAAAGTATCGACTATTACTAT
TATTAAGTGATTACCTCCCCTCCTTGCAGAAAGCCTTTCAAAGCCTTTCT
GTTTGTCGTTTGTGTCATCGCAATGCCTTAAAATGCTATTTAATACACTG
CGATGAAAGTGTGGCGTGTGCTGCTTCATCTCTAGCTCGAATTGGTTTAC
AACATATAATAAATAGCTCCTGCACGTTAAATTTCTCTTCCACGGGTATG
CACTGTAATACCTGTAGATGGACAACCTTCGGGAAGCTGTAACGAACGCC
CGCGGCGACGGCATTGAGGTGCGCGGTATTGCCGTCATCAACCCTGGCAA
CCCCACTGGGAACATTTTGCTGGAGGATCAGATTAAAGACATAATACAGG
TGAAGCTTCGACCAGGAGCTAGCAAGTGCTGTAGGGTAGAAAAGTTTCTT
CGGCTTGGTACAAAAATGTACCGCTGTCTAATTGTTTGTACCCTACGGCC
TACCAGGTATGATATATGGCACAGTACAGTACAGCGTGCAGTACAGTACA
GTTCGGCAGAACACAACTAACTATTAATAGCTAGCTCTCTTGGCATGACC
ACAACGCTGGCTACTACGGATGGATCTGTTGGCATGCCATATTGCTATAG
CTCTAGCCACCATCTGCACAAAGAAAGAAGCACATCAAGCGCTGTCATCT
TCGAGTGTCAGACCATTTGATAGAGTGCGTGTATTGTCGCCCCAGAGCAT
CGTTTTTTATATATCTAAAATCGTTTTTGAGATGTACGGTAGCAGGTATT
CAATACCAAGTAGTATATTTATGTATAGTACATATACCAATCGTAGAGCC
CCTTAATTCAATGGTAACTAAACTGGGGACACGGGCCACGGCATTCGCTG
GGTTGGTCAACATCAACATAAACATCAACATGAAAGTTAACAACGTTATC
AAAATTATTCGTATAACACTTTTACATCAGATGGCCGCCGACAACAACCT
GGTCATTTTGGCGGACGAAGTGTACCAGTCCAACATTTGGAAGGAAGGCG
CTTCTTTCTCGTCTTTCAAGAAGGTACAGTATATTGTATGACAGTATGAT
GTGTCTCCTGTTGTACCAATAGGTGGATCAATACGTCTGTATTACAAGTA
TTGTATTGTAAAACGAATTATAATACGGTCAAGTAGAAGTAACTCTTGAC
AAGTCATAATCCTAGTTATAGTCCTAGTCATACGTGTATGTTTCGAAGAG
TTTCTATTAACTAGAGTTCTTAGATCTACTAAGAGTTATAACTATTATAG
ATACCGGCCTTTGTTGTCAGTATTTTTTGGTGACACATGCTTTGCGTGTA
GTACAGTATAGTAGAGTAGAGTAGAGTAGTACCTCACACAGTATAGTAGC
ACACAATAGCTTCGTTCTATGTCGTAGTACAGTAGCTGGTGAGATACAGT
AGTGAGATATTCGAGGCCGTGTGATGTAATGGAATGCCGATTATGTCGTG
AGACTGTTCGGAGTTTTGCAGCAGGCGTTTCGCAGCAGCACACACCAATT
CAATGCCTACAGTAGCGAACCGCTATTAATAGTTCCCGTCACCCCATCTA
TCTATCTCCTATATCTGTAACGGTGATTAGCGGTGATAATTGTCATCGTG
GTATTGTTTAATAGTTGTAACTGTCATGTACGAAGTGGAAGTAGTTAATG
ATGGATTGGTTGGGAGGGGTTATGGGTTGGAATGAATTCACCAGACCCCC
AATTGCAATCCCCACCCACCATTCCAATTCGTAAGATGCATACAGTATTT
ATTAGATGCTTGGTTGAAGCGTTCAGTGATTACTGTATACTGTATACTGT
ACCTCCAGGTGGCGTGTGATATGGGATACCATGGGGAGGATGGCGACGAG
CGCCTGCAGCTTGTCTCCTTCCACTCTACCTCCAAGGTACTCACTCACTC
TTACGTTTACTTGTTCTTGTACTGCTTCTACTATATTTTATACGAAGCAC
CGTAGTATTGTATTATACCAGGTATTATATTATATTATATTCTTAAAGAG
TAGTTGTTACTGTAGTACCCGTATCGTAAATTCTGCCTGTTACCTCTCGG
TGGTTTTAGAGCAAAGGCACTGTTTAATGACTATTAATATGTGACGTTGA
GGTATTACCTGTACCGTGTATATTATTGAGGTATTACCCAGTATTTGATA
CCAGGGTATGATTTGTGCATGTGCATATTTCAAGCTGTACAGTAGTTCAA
GGCACAGCTGGCAGTCGCTATACCGTCTGTTCATTTCGAAAAGTAGACAC
GTAGTTAGCTCTAGACGGTGCGGCCGCGTACGATAGCTTGCTGCGGGCTT
TTAACCACGCAGAAATGTACCGTACCACACTGTAACGCAATGTTTGGATG
TAGTGTTTTGGCCCTTTTTGATCAAAGCTTACGACGGATATTCTTGAAAC
TCGGTTGCCCCTCATATTAATATTAATATGTGACTTTTCGAATATAGTAA
TATGCAATAATCATGCACTGGCCATGGGAATTAACGCAGGGCTACTTCGG
GGAATGCGGATTGCGTGGTGGATACATGGAGGTGCATGGGATAGGGGCAG
AGGTGAGCCATAGCCATAGCTACGAGTATCAAAACTACAAACCAAGCACT
AGTCCCTGGTAAAGTTTTCGTGGACGAACATGGCTGCTGTATACTGTATA
CTATATACTGTATCTAAACTATACCAGTACTGTGGTAGCACTGGTCTCAC
GAAGCAAAGGTTGTTGGCTGGAAAGCCTCCGCACCTTGATCCATTGGCAA
AGGTTGGCTGTCTGGCTGCATTAGCTTCCTGATAGAAGTAATTGTATTGG
TAATTACTTAGTGGCTCTGTCTTTGTAATCATGGCACTATTAATAGTATA
ATAATGGCACTAATAATAGCACTTAATAATAGCAGATAGAGCATGCGAAA
CTGGTGGTTATTGGTGGAGGCCTAGCTCTACTAGTGCGTCTATTAATATT
AATAGTATGTTTCATTTACAGTATATAATAATATATTAGATGATCTTTTG
TCGGTCTCGATTCCGTATTGGTGCGAATCCTGCTGAATATTCAGCACCAG
AGTAACTGTAAAATCCTTTTAGTAGTCTATACATCAGAGTAACGAGATTA
ATAGACTTTGAGTCTGTATCTTGAATTCCAGTACTGAAGCTCGAAGTAAC
ATGTTCGAGGGAATATGATCCTGCAACTCGTTACATATAAGCTCTGTAGG
TGTTGGTGTTGAATTCTCTTACATATGTTAGTAATAGTAAAACAGTACAG
TAGAGCTACTGTACACATACAAGCTCTCTTGACTTTGGCTCGGGTGGCCT
TTACTCTGCATAGAATATAATCTCGCTTGATCAACTTGGTACACAACCCT
TTTCTAAGCTATACTCTAGAAGCTATTAATATTCGAGCTATACCCTGGTA
CTGTACGGTACCTTTTTCTGATCCTGATCCAACATCATTACTATATACTA
TATCCTCAACAGGTGAGAGCGGAACTGTATAAGCTGGCATCATTGTCGCT
GTGTTCCAACACCATCGGACAGCTTGCCACAGGCATCATGGTCAACCCCC
CAAAGCCCGGCGATCCGTCTTTCGAAACCTTCCAGAAGGTAAGAGAAGAA
GTACATTACGAGGTACAGTACTCTTTCTATTTACACCAGATTGATTGATG
ATTGATGAGCGGGCTAACGGGACGGGACGGCCAAGCTCGTTTAGAGAGAC
CACATTCACAGGCACGAACGGGGACAGGGAAAACAACGTTTCCCTGTCCT
GCTGACCACAAACGGGATTGGCAATAAAAAATACATTGTGATACATACTT
GTGGCGCGTATAAGGTGGGAACATTGGCTGTAGGGACAAGGTATTAAAAG
GGTTCCCCATGTAGTTACATCGGGTCAACAGTATAATATCGGTGTACTCC
ATATTACTATTACTAGTACTCGATTGCGTCGCCCCCTCTAATCTAGCTCA
ATCTATCCCTTTTGTTGATAATTTTAATAGTATGTTAGTATAATAGTATG
CATGGTCATCACATATAGTAGGGTATGAATCAACCAGGTTAAGGTTGTCA
ATCGTGCTCGTGGTCAGCTGAACAGGGAAAATGAATTTTCCCTGTCCCCG
TACGCGCCTGAGAATTTGGTCTCGCAAGACGGGTTTAGCCGTCCCGTCCC
GCGTCAGCCTGCTCATTCTCCACACTCAAGAGATTCCTCCCGATTTCCGC
ATGATATACGGGAGTGCTTTGGTGGACGTCTCGTCTCCTACCTGGTACTG
GTAGCTATTAACTATTGATACAACTATTATTATTTATTATTTGTATGCAG
CTATTAATACCAGTTATCGCTTTCTCTTATCTTCCCTTTTCTGCCGTTGG
TGTGGCGTGACACTTCTTACTGTGACTATGGCATGATGTGACACGGCGTG
CAGGAGCGTGATGACATTTTGTCGTCACTACACCGTCGCAGTTTGATGGT
CCACAAGGCCCTCAATGAGTTGGAAGGAATCACTTGCAACAAGGCGGATG
GCGCTCTGTATGCATTCCCACGTATCCGTCTGTCGGAAAAGGCTAAGGAA
GCTGCAGCAGCTCAGGGCGTCGCTACGGATGAGTACTACTGTCTCCAGGT
ATATTTCGCACTCAAGCAATAGTATTAAATACTAAAATACTAAAATACTA
TCCGGACTGTTTTTAAAGTGTTCATGGGCATACACAGACGGTATTCGTAT
AAATCTACGAGGTATTGAGAATTGGTTCATGGTTGCAGATTGTAAGTTTC
TTTGCCTCGCAAACGTGGTATTTTTGTTATCTATTTTATTGTGGTATGGT
ATCAAATCCTCGGAGCCAGAGCACATTCTGCACGTTAGGACGTTGGCTCT
AGTGTATGCTGTATGGTGTATGGTTTAAAGAAAAATATGAACGCATCTAA
ATCTTCTAATCAGTCATTCAACGGGAACATTGGCTGTAGGGACAAAAAAC
TCTAATAAAAGGGTTCCCCAATGTAGTCACATAGGGTCAACAGTATAGTA
TCGGTGAGAAGCCCGCCGTTAAACTGCACACTAACATTAACCGCCACGTA
GGGACACCAAAACAAAACAAATAATAATATCAGACTAGGTGGTATACAGT
ATTTTTGGACGAAGAGTTCCAGACTACGGTGCAGTAATATGGTATAGAGA
AACATAGAGTTAAAACTTGGGTTTGGTGCTGTTATTTCGATAAATGAAAT
CTACAAGTTATGGTTGTGAAGGACCTCAAATTTACAACATGCCCTTTAAG
AGTGATACATATTTATGAAAGCAGGTGTGTGAACCTTTAGTCACATACAG
TAAGGTCAAAGGATACACGGGGATAAATTACTCGTTATACTATATAACTT
TCGTTTAGGGATCAGGACTACAGTAATATGATCATAGAAAATATAAAGTT
TACTATTGCTATTACGGTAAATTATTCCTACAACTGCGAAAAGTCTATTC
TCAGACACAGTGTATGTGACGTATGACGTACAACCTGGCATCTGACGCAT
GACATATTCCTGCCTGTCTTGTCCCTGATCGAAACGGAGCAGCTCCTGGA
AGAGACGGGCATCATCATGGTCCCCGGAAGCGGATTCGGTCAAGAGGAAG
GCACTTTGCATTTCCGCACAACGTTTCTACCGGCAGAGGACACCATGAAA
GAAACACTCAAGCGTTTTGCCTCTGCCCATGCCAACTTCATGGACAAGTA
CCGCGATTGAATTGAGCCTAGCCAGCTCTAGAGGAATCGAAAGGTCAAAC
CTTTTTCCTTCCAAGTGATTAGCAGGGTGTACTGTACCGGATTTGTGCAC
GACTTTCTTCTGTTGAGGGTTCGAATAGTGTAGAGCTAGCTATCTCAAGT
TGACATTTTTTTTCTGCCCAGCAGGTCGATTTCGAATCTAGATAGTTAAT
TTATTTAAAGAATAATCTGAACGCATCTAGACCTTCTGAGCATCCCCCAG
TCAGGGGGGAAAATGTCGAGACGTTTAGGTGGAATCGTAGGCTGCAAACA
CAAAACCTCTTCATGGCATTTCACTTTATTCATATTATTTCTTGGTACTT
GGTATTTTTTGCCTTTTTGATTGTAAAGGTCCCACAAAAAAAATTTTGCA
TACTGCTCGTATTAATAGGTCTAAATACGTTACACTACACTGCTGTACTC
TTTTCAAACAGTTGGATCGTGGAGGTCTCCGAGCTGTTCTTCCAGTCCCT
CATACTCACACATAACATACTTTTGAGAGTATCATAGGGTTGTTGTACGG
AGTGTTATATCTATGACGTCCATCGGCTGACCTCAAGCCAGTTTCCCACT
GGACTATGATATTTGATGTAATAAGTTCTTCCCTCTAGTAATAGTAATAG
TAACAGATTGGGTACGGTACTACTGTATATGTAGCGGCCTTATAAGAACA
AAGAGTACTGTACTGTACCAACTTCCCGGCTTTTATGTTGTCATTGGCCA
CATCGGTCCATTATACTGAGGTACTGTATTAAGATGAAAGTTTACTACTA
TGGGTATACTATACGGGGAGCGCACGCATCAGTGGATGGACTAGCCTCTG
CGATGTACTCCCAAGTGGTTCCAAAAAAATGTGTAATATTGAATACTAAA
ATGTAGTCGGAATGCCGTTGATCGATAGCTGTTATAGTACCAAGTATTGT
ATACCTGGTACAGTATATGATTTTGTGGTCTGTCTGTGGTAAAGTTGGAT
TAAAGTACTATTATATAATCCTTTTTGATCCAAGCGAAAGGTTTCACTAT
CACAATTAATCACGTGTTGCACCGGTTAACGCACGTACAGACTTACCTAG
ACTATAAAGGATCTTGTTCTTCCTGGTATAGAGTGCTTGTATGCTGTTTG
TGGTTGACCGAAGCGAGATCTCGCCGCTGTTCCCATGTCGTTCCAGTATG
CGATATTCGACTGATACTGTCTTTATCGACATCTTGCGCGTATTCTAAAA
CTGTATTCTTCTCCTTTCTCTATGAGATACATTCCGTGTTTCCGCCTTAA
ACAGAATTGGGGCGGAAACGGTACGGATTTTGCATCTAAAATCAACCGTT
TCCGCGATTCTTATTTTGAAACCGTTTCCGTTTGTCTTCCATTTATCCAA
AGTGAAATCCGCCACTGTTCCATCTTACTAGTTGAGATGTGAAAGTGCTG
AACTTGCATCGCGATAACAATTCGTAGGTGAGAATCGGGAGAGCTGGGAA
GATCCTTAGTGACACAGGCAAGATAGCAACGTTTCAGTAGGTG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1205:64549..97191-

>mRNA_A-nodosum_M_contig1205.8.1 ID=mRNA_A-nodosum_M_contig1205.8.1|Name=mRNA_A-nodosum_M_contig1205.8.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1506bp|location=Sequence derived from alignment at A-nodosum_M_contig1205:64549..97191- (Ascophyllum nodosum dioecious)
ATGATCCGCCGCACCCTTCCTCGTGCCTTCTCAGCATCATCTACCTCCCT
AAAGGGTGTGCCCCTCGACGTCAGGAGCATCAATGAGAACGTCCGCGCTG
CCGAGTACGCGGTAAGGGGGAATGTGTTGAACAAAAGCATGGAACTTCAA
CGCCGGCTGACAGCTGGAGAGAATCTACCCTTCGACAAGCTTGTGCCTTG
TAACATAGGTAACCCTCATGCATTACTGCAAGTACCGCTCAGCTTCCACC
GAGAGGTGTTGTCCCTTTGCATCAGTCCCGACCTGGTGAGCGGCAACCCT
AACGTGTTCAAGACTGACGTGGTGGAGCGAGCCCAAAAGTATGCTTCCGC
GATGGGCGGGGGTGTCGGCGCTTACACGAACAGCATGGGGATCTCAGCCG
TCCGAGAGGAGATCGCGTCTTTCATCTCCACGAGAGATGGCTACCCGGCG
CACGCGGATCGCATTTACCTTACAAACGGAGCCTCAGAGGGTGTACGCAT
GTTGTTGACCTGCCTCCTAAGGGGAGGGAGCTTCCGCGATGGACTCTTGA
CGCCCATCCCGCAGTATCCCCTGTACTCTGCGTCACTGACTTTGCTTGGT
GGTGAACTGGTACCTTACTACCTTAACGAGGGAGGAAACTGGGGAGTCGA
GATGGACAACCTTCGGGAAGCTGTAACGAACGCCCGCGGCGACGGCATTG
AGGTGCGCGGTATTGCCGTCATCAACCCTGGCAACCCCACTGGGAACATT
TTGCTGGAGGATCAGATTAAAGACATAATACAGATGGCCGCCGACAACAA
CCTGGTCATTTTGGCGGACGAAGTGTACCAGTCCAACATTTGGAAGGAAG
GCGCTTCTTTCTCGTCTTTCAAGAAGGTGGCGTGTGATATGGGATACCAT
GGGGAGGATGGCGACGAGCGCCTGCAGCTTGTCTCCTTCCACTCTACCTC
CAAGGGCTACTTCGGGGAATGCGGATTGCGTGGTGGATACATGGAGGTGC
ATGGGATAGGGGCAGAGGTGAGAGCGGAACTGTATAAGCTGGCATCATTG
TCGCTGTGTTCCAACACCATCGGACAGCTTGCCACAGGCATCATGGTCAA
CCCCCCAAAGCCCGGCGATCCGTCTTTCGAAACCTTCCAGAAGGAGCGTG
ATGACATTTTGTCGTCACTACACCGTCGCAGTTTGATGGTCCACAAGGCC
CTCAATGAGTTGGAAGGAATCACTTGCAACAAGGCGGATGGCGCTCTGTA
TGCATTCCCACGTATCCGTCTGTCGGAAAAGGCTAAGGAAGCTGCAGCAG
CTCAGGGCGTCGCTACGGATGAGTACTACTGTCTCCAGCTCCTGGAAGAG
ACGGGCATCATCATGGTCCCCGGAAGCGGATTCGGTCAAGAGGAAGGCAC
TTTGCATTTCCGCACAACGTTTCTACCGGCAGAGGACACCATGAAAGAAA
CACTCAAGCGTTTTGCCTCTGCCCATGCCAACTTCATGGACAAGTACCGC
GATTGA
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