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Homology
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A6H5KG47_9PHAE (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KG47_9PHAE) HSP 1 Score: 1092 bits (2825), Expect = 0.000e+0 Identity = 542/639 (84.82%), Postives = 589/639 (92.18%), Query Frame = 1
Query: 112 MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQS-NPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRRPPGSVIPTRAGAGMGSNSAPTHSEAPPMMPAQAPGYGGGEVGDPNDLPPQYTAY 2025
MGCGSSSENDRNATNLGDPN+NYRDEDAEA TAAFATRQGLGSRVTANVWCKDL+KMD++SKSDPFVV+KWKTDSD+ WRE+GRTEII+NDQNPNFTAQFSLTYLFEEVQ VRLEVYDVDTAFKTNDA+NVDLG+QDFQGFAETT+AEVLG +GQTSTLPL TG+AGQ+ VSIRMDEVEHQHDLVTLKLRA NVDKKDLTSSDPYLK+ARVLETG+QTYIFKTEVQSRTLNPVW+EIQGTVQQLANGDLLRPL+VECWDYDRAGGHD+IGGCSASI DMQRWST D+A+RGP +NPKK++ + +YKDSGRLVVDLCTITERPSFLD+IAGGTEISFTMAIDYTASNG+PADPRSLHYVDPA +LNDYA+AMSGIG VLEFYDTDKKFPVIGFGGKLGP+ PANHAFAVNF+ED+PEVEGMAGVLQAYY SLRRVQLSGPTLFQ++INQAAQIANSTKH NSVGQKYHVLC++TDGIINDMDATV+AIVDAADAPLSIVIVGVG+GDF AM+HLDGDRQRLTSPFTGKVASRDMVQFVPFR+F+GFGSAAQHALAKHVLAEIPGQFISYM+SNGI PAN+RPPGS++ G G+G P MP QA GYG G G NDLPP YT Y
Sbjct: 1 MGCGSSSENDRNATNLGDPNNNYRDEDAEAATAAFATRQGLGSRVTANVWCKDLKKMDKLSKSDPFVVIKWKTDSDETWREIGRTEIISNDQNPNFTAQFSLTYLFEEVQGVRLEVYDVDTAFKTNDATNVDLGRQDFQGFAETTMAEVLGSSGQTSTLPLMKNTGRAGQAVVSIRMDEVEHQHDLVTLKLRALNVDKKDLTSSDPYLKIARVLETGEQTYIFKTEVQSRTLNPVWREIQGTVQQLANGDLLRPLRVECWDYDRAGGHDFIGGCSASIADMQRWSTASDDASRGPALVNPKKEAKSASYKDSGRLVVDLCTITERPSFLDYIAGGTEISFTMAIDYTASNGTPADPRSLHYVDPAGTVLNDYARAMSGIGRVLEFYDTDKKFPVIGFGGKLGPDLPANHAFAVNFQEDAPEVEGMAGVLQAYYQSLRRVQLSGPTLFQAIINQAAQIANSTKHRNSVGQKYHVLCIMTDGIINDMDATVSAIVDAADAPLSIVIVGVGQGDFTAMDHLDGDRQRLTSPFTGKVASRDMVQFVPFRDFNGFGSAAQHALAKHVLAEIPGQFISYMQSNGIDPANKRPPGSIV--TGGGGVGPAMV-------PPMPPQAAGYGAGG-GAANDLPPAYTEY 629
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A1Y1ISA7_KLENI (Calcium-dependent phospholipid-binding Copine family protein n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1ISA7_KLENI) HSP 1 Score: 461 bits (1185), Expect = 2.320e-143 Identity = 258/563 (45.83%), Postives = 360/563 (63.94%), Query Frame = 1
Query: 187 EDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQ-LKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLT-SSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREF------SGFGSAAQHALAKHVLAEIPGQFISYMESNGIAP 1851
E+A+ A +GL S V ++ ++L+ +D SKSDP V+ ++ + WREVGRTE+I+N P F Q Y FEE Q ++++++DVDT TN + VDL +QDF G E LAEV+ GQ T P++ L+ + Q TV++R +EV + VTL+LRA +VD+KD+ SSDP+L L+R+ E G Q+ +FK+EV+ TL+P W I+ ++Q L NGDL RPL V D++R+G HD IG CS S+ D+Q + AR P+ K +N Y DSG+LVVD ++T RPSFL++I GG E+SF +AID+TASNG+P DP SLH+V P N Y +A+ +G VLEFYDTDK+FP GFGGKLG E P +H FA+N + +P V+G+ GVL AY +++R+V L+GPTLF +I+ A + A Q Y+VL ++TDG+INDM++T+ AIV A+ PLSI+IVGVG DF+AM+ LD D + L+ G A+RD+VQFVP G G+ LA +LAE+P Q + YM SN I P
Sbjct: 24 EEAQDAAALMGQARGLASPVDISISARNLKNLDTFSKSDPMAVLLTQSAAGQ-WREVGRTEVISNSTEPRFVKQLRALYAFEERQLMKVQLWDVDTQIGTNVSQKVDLSRQDFIGEVEFVLAEVITTAGQKLTRPVRNLQRPERAQGTVTVRAEEVTGSNANVTLRLRAESVDRKDVVGSSDPFLFLSRLNEDGTQSPVFKSEVKHNTLHPAWNPIRISLQHLCNGDLDRPLAVRVSDWNRSGKHDVIGECSTSLRDLQARAAST---ARLPLKNERKAVANKGYVDSGKLVVDEASVTPRPSFLEYIRGGLEVSFLVAIDFTASNGNPNDPASLHFVSPDG-RFNPYQQAIVSVGEVLEFYDTDKQFPAWGFGGKLGTE-PVSHCFALNGTDRNPTVDGVRGVLDAYSSAIRQVALAGPTLFTPIIHTACEYAGREPSAPDA-QAYYVLLIITDGVINDMESTIGAIVHASRLPLSILIVGVGAADFSAMDVLDADERWLSH--NGVAAARDIVQFVPISRLLAQNQRPGAGTGFSQQLATELLAELPQQVVGYMTSNNILP 577
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A6H5LMQ8_9PHAE (C2 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5LMQ8_9PHAE) HSP 1 Score: 459 bits (1181), Expect = 3.920e-142 Identity = 266/591 (45.01%), Postives = 365/591 (61.76%), Query Frame = 1
Query: 112 MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSD-DAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQT-STLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDR---AGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRRPP 1869
MGC S E+D +AT + D +NY D AE + + L +R+ ++ CK L +D++SKSDPFV+VK + SD + +E+GRTEIITN +P F +T+ FEEVQ +R EVYDVDTA+ ++DA+++D KQDFQG AE LA+V+G QT L + G+ V +R +EV + + L + L +N+ +L+++R+ E G FKTEV + W I+ ++Q LANGD RPL +E + + + +G H +G C AS+ D++ + D ++ + K G + V C +T +PSF D+IAGG +I+FT+AIDYTASNG P+ P SLHY DP N+Y +A+ +G VLE++D D++FPV GFGG PA+H FAVN E+ PEVEG+AGVL Y SL RVQLSGPTLF VI+QAA +A ST + Q Y +L ++TDG+I DM+ TV AIV AAD P S+VIVGVG+ D+ +ME LDGD RL + G+ A RD+VQFVP R+F+G S HALAK VLAEIP Q I YM++N I P N P
Sbjct: 1 MGCAGSKEDDTDATKVRDMGTNYADM-AEDAASMLSASGPLYTRLQLSISCKQLVNLDQLSKSDPFVLVKLHSPSDGNESKEIGRTEIITNSLDPKFVTIVPVTFKFEEVQTLRFEVYDVDTAYSSSDATHIDPSKQDFQGAAECALAQVVGGRDQTWEGLLSGARRGKGDSPKVVVRAEEVANSNALAEITLAGSNI------GHGSFLRISRLSEQGPPIPCFKTEVAKGSPPRPWAPIKISLQVLANGDPYRPLLIEAFTWKKRVLSGNHVLLGSCKASVNDIK---SKADSGSQNLMLD----------KGQGSITVSSCILTPQPSFFDYIAGGMQIAFTVAIDYTASNGDPSQPGSLHYHDPTGHTNNEYGQAIQSVGGVLEYFDDDRRFPVFGFGGCPVYRAPASHCFAVNGNENDPEVEGIAGVLDLYRQSLTRVQLSGPTLFAPVISQAASLAASTMSKDPSQQYYTILLLITDGVICDMENTVEAIVAAADYPFSMVIVGVGDADYTSMEQLDGDDVRLVNR-AGQRAGRDIVQFVPMRDFAGKSS---HALAKEVLAEIPAQVIEYMKNNHIPPGNPHRP 567
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A6H5L3T5_9PHAE (C2 domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L3T5_9PHAE) HSP 1 Score: 443 bits (1140), Expect = 4.030e-136 Identity = 271/610 (44.43%), Postives = 368/610 (60.33%), Query Frame = 1
Query: 112 MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSD-DAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQT-STLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDR---AGGHDYIGGCSASITDMQRWS-TGVDEAARGPVFINPKKQSNPNYKDSGR--LVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGG--KLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRRPPGSVIPTRAGAGMGS 1911
MGC S+END+++T L D ++Y D AE + + L +R+ ++ CK L MD S SDPFV+VK + SD + +E+GRTEII+N +P F +T+ FEEVQ +R EVYDVDTA+ ++DA+++D KQDFQG AE LA+V+G QT L K G+ G V +R +EV + L + L +N+ K P+L+++RV E G FKTEV + W I+ ++Q LANGD RPL +E + + + +G H +G C AS+ D++ + TG+ D GR + V CTIT +P+F +IAGG +I FT+AIDYT SNG P+ P SLHY DP N+YA+A+ +G VLE++D D++FPV GFGG K P Q +H FAVN E EVEG++GVL+ Y SL+RV+LS PTLF VI++ A +A ST + Q Y +L ++TDG I D++ TV AIV ++D P S+VIVGVGE D+ +M+ LDGD RL + GK A RD+VQFVP R+F+G S HALAK VLAEIP Q I YME+N I P N P R G G GS
Sbjct: 5 MGCMCSTENDKDSTKLTDQKASYADM-AEDAASMLSESAPLYTRLQLSISCKGLVNMDAFSNSDPFVLVKIHSPSDSNESKEIGRTEIISNSLDPKFVTIVPVTFKFEEVQTLRFEVYDVDTAYSSSDATHIDPSKQDFQGAAECALAQVVGGRDQTWEGLLSGAKRGKGGSPKVVVRAEEVANCDGLAQITLAGSNIGKW------PFLRVSRVSEKGPPIRCFKTEVAKGSPPRPWAPIKISLQVLANGDPYRPLLIEAFTWKKRVLSGNHVLLGSCKASVNDIKSMAETGLQNL----------------MLDKGRRAITVRSCTITPQPTFFGYIAGGMQIGFTVAIDYTLSNGRPSQPDSLHYHDPTGRTDNEYAQAIQSVGGVLEYFDDDRRFPVYGFGGRPKKAPRQ-TSHCFAVNDNEKDAEVEGISGVLETYRQSLKRVELSLPTLFAPVISKVASLAASTMTKDPSRQYYTILLLITDGAIMDVENTVEAIVASSDYPFSVVIVGVGEADYTSMKRLDGDDVRLVNK-AGKRAGRDIVQFVPMRDFAGKSS---HALAKEVLAEIPAQVIEYMENNQIPPGNPHRP------RTGGGQGS 580
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A835ZFM3_9STRA (Copine-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZFM3_9STRA) HSP 1 Score: 437 bits (1123), Expect = 4.660e-135 Identity = 258/586 (44.03%), Postives = 357/586 (60.92%), Query Frame = 1
Query: 112 MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASN-VDLGKQDFQGFAETTLAEVLGKNGQTSTLPL-QLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRR 1863
MGC +S+ENDR+A N + D + AA A+ + L S + ++ C LR D+ S SDPF VV DS W EVGRTE++ N +P F +TY FE+VQR+R+E+YD D+AFKT DA++ + L KQDFQG+AE T+AE++G+ GQ L + K AG+ V I +EV + + LV + +RA+ + + +D +L L+R+ E G +KTEV P + I + LANGD LRPL++E +DY ++G H IG C S+ D+ +T + P +++ + DS L+ D CT+ +PSF D+IAGG ++F +AIDYTASNG DP SLHY P+ L +YA+A+ G+G VL +YD+D+ +PV GFGG E ANH FAV E P V+G+AGVL+AYYASL+R++L GPTLF VI QA +A ST Q Y VL +LTDG+I DMD + ++V AA+ P+S++IVGVG +FA M LDGD QRL S G+ A RD+VQFV +F G G LA+ VLAE+P Q +SY + GI P R+
Sbjct: 1 MGCAASTENDRSAVG-----GNVQTVDEASLAAALASGRKLFSNLQLSISCSMLRNKDKASLSDPFAVVYLMADSGH-WTEVGRTEVVANSLSPEFVKLILVTYHFEKVQRLRVEIYDADSAFKTADATDRLQLDKQDFQGYAEITIAEIIGRKGQCWEGDLVKGKPPTAGRGRVRIVAEEVANSNSLVQIDVRASGLPR----GADAFLVLSRISEMGAAARCYKTEVVKSGKTPSFARISVALSTLANGDTLRPLRIEVFDYKKSGRHILIGMCELSVNDIISRATSQE-----PAYLSRSQNGRGAGSDS-MLIFDACTLVPQPSFFDYIAGGCSLNFVVAIDYTASNGPVNDPTSLHYQHPSG-QLTEYAQAIQGVGQVLAYYDSDQLYPVYGFGGCPPGEAVANHCFAVTGNEADPCVQGIAGVLEAYYASLQRIKLHGPTLFAPVIAQATALAASTLDPER--QNYWVLLLLTDGLIYDMDNCIDSLVAAAEYPISVIIVGVGRENFAPMRTLDGDDQRLRSS-RGQYAVRDIVQFVAMSDFVGRG---YEELAREVLAELPRQLLSYFTTKGIMPGKRQ 563
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: D7G7Q5_ECTSI (C2 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G7Q5_ECTSI) HSP 1 Score: 429 bits (1102), Expect = 1.250e-131 Identity = 259/629 (41.18%), Postives = 355/629 (56.44%), Query Frame = 1
Query: 112 MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVT--LKLRATNVDKKDLTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPV-WKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRRPPGSVIPTRAGAGMGSNSAPTHSEAPPMMPAQAPGYGGGEVG 1989
MGC SS + + G +E A+ + A GL +RV ++ C L +D SKSDPFVVV K+ SD W E+GRTE++ N+ +P F T+ FEEVQ +R +VYDV+ +F T+DAS +D+ Q QG AE LA ++G +GQ S PL+ +++++IR ++ ++ DLV L +RA K + + +++R E G +K+EV + V W + + + LANGD RPL VE + Y ++G H +G C S+ M V A +N +G+LV++ C + +PSF DF+AGG E+ FT+ IDYTASNG P SLHY D LN YA+++S +G +LE YD+DK+FPV+GFGG P PA H FAVN +ED PEV G+ +L Y SL+ VQLSGPTLF +INQ A +A S + + QKYHVL ++TDG+INDM T+ A+V AAD P S++IVGVG DF+ ME LDGD R+ + G+ ASRD+VQFVP REFS G HALA+ VLAEIP Q + YM +N I R PP+ P + GY GG G
Sbjct: 1 MGCASSKPEEDYDSAGGGLGGTIGNEAADEAASVIAGA-GLTARVHLSLSCDGLANLDVGSKSDPFVVVSMKSGSDTGWSEIGRTEVVANNLSPRFVTLVPATFRFEEVQMLRFDVYDVEGSFTTSDASRLDVRMQTSQGTAECALATIMGAHGQMSVEPLRSPHLPHQKASITIRAEQAKNSSDLVVFDLGMRACPRGNKSV-----FFRISRTAEAGAPIPCYKSEVAKVSGGSVLWSQSKVGLPVLANGDPHRPLVVEFFGYRKSGSHVSLGSCELSVDTM------VSRAGEPGGVLNISS-------GTGQLVIESCKLVPQPSFFDFLAGGLEMQFTVGIDYTASNGDPNVADSLHYHDSTGRTLNQYAQSISSVGKILEHYDSDKRFPVLGFGGCPIPGAPAIHCFAVNGREDDPEVHGVESILDVYRESLKWVQLSGPTLFAPLINQVASVAASERTLDPENQKYHVLMIVTDGVINDMGNTMDALVAAADLPFSVIIVGVGRADFSLMEQLDGDDIRIANA-QGRKASRDIVQFVPMREFSNLGF---HALAREVLAEIPQQVVEYMANNRINACQPR-----------------------ARPPVPPPRQAGYAGGXGG 583
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A2B4SHL0_STYPI (Copine-8 n=2 Tax=Stylophora pistillata TaxID=50429 RepID=A0A2B4SHL0_STYPI) HSP 1 Score: 425 bits (1093), Expect = 3.990e-130 Identity = 243/546 (44.51%), Postives = 334/546 (61.17%), Query Frame = 1
Query: 238 SRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPL-QLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTS-SDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNPN-YKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFGSAAQHALAKHVLAEIPGQFISYMESNGIAPANRRP 1866
++V +V C+++ MD SKSDP VV+ + WRE GRTE I N NP+F F++ Y FEE+Q++R EVYD+D ++ L DF G E TL ++G+ G PL K + G T+ + +E+ D+VTL+ + +DKKD SDP+L R E T + +TEV TLNP WK + L NGD R ++VEC+D+DR GGHD IG S++I ++ EA INPKKQ+ YK+SG +++ C + ++PSFLD+I GGT+ISFT+AID+TASNG P + SLHY++P N Y KA++ +G + + YDTDK FP GFG +L P +H F +N +P EG+ GVL AYY S+++VQL GPT F +INQ A+IA++ + G++Y VL +LTDGII+DM T AIV+AA P+SI+IVGVG +F AME LDGD RL+S G+ A RD+VQFVPFR+F G A L+K VLAE+P Q +SYM+ N I P +P
Sbjct: 28 TQVELHVSCRNIADMDVFSKSDPMVVMYTQGMGSKEWREFGRTEHIMNTLNPDFVKTFTIHYFFEEMQKLRFEVYDIDK-------NSAKLSDHDFIGAVECTLGSIVGEFGGRLQKPLVNPKVKKPG--TIIVTAEELSDCKDVVTLQFKGQKLDKKDFFGKSDPFLVFYRCNEDNSYTAVHRTEVIKNTLNPTWKAFTIHARALCNGDYDRSIRVECYDWDRDGGHDLIGIFSSTINELNGTPGLTFEA------INPKKQAKKKGYKNSGMIMLMQCKLEQQPSFLDYIRGGTQISFTVAIDFTASNGDPRNASSLHYINPYE--QNQYVKALTAVGRICQDYDTDKLFPAFGFGARLPPTWKISHEFPLNGNLQNPMCEGIDGVLSAYYHSIQQVQLYGPTNFAPIINQIARIASAAQRQKP-GEEYFVLLMLTDGIISDMAQTKEAIVNAASLPISIIIVGVGAAEFDAMEELDGDTVRLSS--RGRSAERDIVQFVPFRDFQTRGILAPDLLSKEVLAEVPDQLLSYMKKNTIKPKPPQP 553
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: UPI0014581C47 (copine-8-like isoform X1 n=5 Tax=Pecten maximus TaxID=6579 RepID=UPI0014581C47) HSP 1 Score: 423 bits (1088), Expect = 7.580e-129 Identity = 246/557 (44.17%), Postives = 338/557 (60.68%), Query Frame = 1
Query: 205 TAAFATRQGLGSRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKD-LTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGG-HDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNP-NYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSG--FGS---AAQHALAKHVLAEIPGQFISYMESNGIAP 1851
T T S+V +V CK+LR D SKSDP VVV K +++ E+GR+E++ N NP F +F++ Y FEE Q+++ EVYDVD+ + DA DF G E TL E++ G P+ G G ++IR +E+ + VT+ AT++DKKD L SDP+L R E T + KTEV TLNP W+ T + L NGD R ++VEC+D+D GG HD IG + ++ +M R T INPKK++ NYK+SG++ + C I PSFLD++ GGT+++FT+AID+TASNG+P+ P SLHY P N Y A+ +G +++ YD+DK FPV+GFG KL P+ +H F VNF +P G+ G++QAYY +L++VQL GPT F VIN + A+S + G Y VL +LTDG+I D+ T+ AIV A+ PLSI+IVGVG +F AM+ LD D +RL+S GK A RD+VQFVPFR+F G FG+ +Q ALAK VLAEIP QF+ YM++N I P
Sbjct: 3 TFQAGTAVAPSSQVEISVACKNLRDKDAFSKSDPIVVVFTKDVRTNSYYELGRSEMVKNCLNPQFVKKFTMNYFFEESQKLKFEVYDVDSPSQRLDA-------HDFLGRLECTLGEIVSALGGKLEKPMTGLKGTPG--LITIRAEEISTCKESVTMHFCATHLDKKDFLGKSDPFLIFYRANEDKSYTTVHKTEVIKNTLNPTWRPFMITARALCNGDYDRAIKVECYDWDGDGGSHDLIGEFTTNLREMTRGGTSGSFQPFTREVINPKKKAKKKNYKNSGQVTLTSCKIEIHPSFLDYVKGGTQLNFTVAIDFTASNGNPSSPTSLHYNSP--YQPNQYGSAIQAVGEIIQDYDSDKMFPVLGFGAKL-PDGSVSHEFPVNFNSANPYCAGIQGIMQAYYGALQKVQLYGPTNFAPVINHVTRFASSMRD----GNNYFVLLILTDGVITDLPNTIEAIVHASGLPLSIIIVGVGNAEFDAMDVLDADDRRLSS--RGKQAVRDIVQFVPFRDFMGGKFGNNMQISQAALAKEVLAEIPDQFLQYMKANNIKP 541
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: UPI00106B72FF (copine-8-like n=1 Tax=Dendronephthya gigantea TaxID=151771 RepID=UPI00106B72FF) HSP 1 Score: 417 bits (1072), Expect = 1.040e-127 Identity = 241/552 (43.66%), Postives = 331/552 (59.96%), Query Frame = 1
Query: 238 SRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTS-SDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVF--INPKKQSNPN--YKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGF----GSAAQHA-LAKHVLAEIPGQFISYMESNGIAPANRR 1863
++V +V C +L MD SKSDP VV+ K WRE GRTE I N NP F +F + Y FEE+Q +R +VYDVD+ S+ L DF G +TTL ++G++G L+ K S + + ++EV D+VTL +A +DKKD SDP+L R E T + +TEV TLNP WK + L NGD R + VEC+D+DR GGHD+IG S ++ +M D +G + ++PKKQ+ Y +SG + + LCTI ++P+FLDFI GGT+I+F +A+D+TASNG+ +P SLHY++P N Y KA++ +G + E YDTDK+FP GFG +L P+ +H FA+N+ +P G+AGV+ +Y+ ++RVQL GPT F VIN A+IA + N G Y VL +LTDGII+D+ T AIV+AA P+SI+IVG+G DF AME LDGD RL+S G+ A RD+VQFVPFR++ G G A LAK VL E+P QF+ YM+ I P R
Sbjct: 32 TQVEISVKCTNLADMDVFSKSDPIVVLFIKATDGSEWREFGRTEKIMNTLNPIFVKKFVMDYFFEEIQHLRFQVYDVDS-------SSASLSDHDFIGRLDTTLGSIIGEHGGHFESKLENKEMPKCGSII-LTVEEVSDCRDVVTLHFKANKLDKKDFFGKSDPFLVFYRCNEDSSFTAVHRTEVIKNTLNPTWKAFSVLSRALCNGDYDRSILVECYDWDRNGGHDFIGQFSTTLREMN------DNGQQGITWDVVSPKKQAKKKKKYTNSGTVTLMLCTIEQQPTFLDFIRGGTQINFVVAVDFTASNGAQDNPNSLHYINPYE--QNLYVKALTAVGRICEDYDTDKQFPAFGFGARLPPQWQVSHEFALNWNPSNPHCNGVAGVIHSYHECIQRVQLYGPTNFAPVINSCARIAGDSVRRNH-GDDYFVLLILTDGIISDLAQTKEAIVNAASLPMSIIIVGIGPADFEAMEVLDGDVIRLSS--RGREAERDIVQFVPFRDYLGGHNNRGDVMSGARLAKDVLEELPDQFLEYMKKRNIKPREPR 564
BLAST of mRNA_P-littoralis_Contig122.153.1 vs. uniprot
Match: A0A3S1A0E1_ELYCH (Uncharacterized protein n=1 Tax=Elysia chlorotica TaxID=188477 RepID=A0A3S1A0E1_ELYCH) HSP 1 Score: 414 bits (1064), Expect = 1.920e-126 Identity = 237/545 (43.49%), Postives = 331/545 (60.73%), Query Frame = 1
Query: 238 SRVTANVWCKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQFSLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVLGKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKDLTS-SDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGDLLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINPKKQSNP-NYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNGSPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKLGPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVINQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLSIVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSG--FG---SAAQHALAKHVLAEIPGQFISYMESNGIAP 1851
++V +V C++L D SKSDP V+K EVGRTE I + NP+F +F + Y FEE Q +R E+YD+D + L DF GF E +L E++ LQ +T AG T+ +R +EV D V L ++ ++DKKD SDP+L RV E T + KTEV TLNP W+ +V+QL NGD R +++EC+D+D GGHD+IG + ++ ++ AAR V INPKK++ +YK+SG L V C+I + SFLD+I GG +++FT+AID+TASNG+P+ SLHY++P N YA A+ +G +++ YD+DK FPV+GFG ++ +H FAVNF +P +G+ G+LQAY+++L RVQL GPT F VIN A+ AN+ + G Y VL +LTDGII DM T+ +IV A+ P+SI+IVGVG +F AM+ LD D L SP TGK A RD+VQFVPFR+F G +G + ++ LAK VLAEIP Q + YM+ G+ P
Sbjct: 15 TKVEISVSCRNLTDNDVFSKSDPMCVLKLTDPKTRGIFEVGRTETIKDCLNPDFVQKFMMDYFFEERQMLRFEIYDIDNQSRR-------LEDHDFLGFMECSLGELVSAPNSCFERRLQGRT--AGYGTIKVRTEEVSSCKDEVVLHMKGMHLDKKDFFGKSDPFLMFYRVNEDRSFTLVHKTEVVKNTLNPTWRPFCLSVRQLCNGDHDRSIKIECFDWDSDGGHDFIGETTTNLREL------TQAAARYEV-INPKKRAKKKSYKNSGELEVIRCSIQPQYSFLDYIKGGLQMNFTVAIDFTASNGNPSQSSSLHYINP--YQPNQYASAIQAVGEIIQDYDSDKLFPVLGFGARIDNSGAPSHEFAVNFNPSNPYCQGVGGILQAYHSALPRVQLYGPTNFSPVINHVARFANAVQD----GSNYFVLLILTDGIITDMHQTIESIVQASTLPMSIIIVGVGNAEFDAMDELDADDNMLRSPTTGKYAERDIVQFVPFRDFIGGRYGGDLNTSKVYLAKEVLAEIPDQVVLYMKKRGMKP 537
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.D7FKI8 |
| PFAMs | C2,Copine,Dev_Cell_Death |
| Model size | 4273 |
| Max annot lvl | 2759|Eukaryota |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0001101,GO:0003674,GO:0005488,GO:0005543,GO:0005544,GO:0005575,GO:0005623,GO:0005886,GO:0005911,GO:0008150,GO:0008289,GO:0008361,GO:0009266,GO:0009270,GO:0009415,GO:0009506,GO:0009628,GO:0009987,GO:0010035,GO:0010118,GO:0010941,GO:0016020,GO:0016043,GO:0030054,GO:0032535,GO:0042221,GO:0043167,GO:0043168,GO:0044464,GO:0045793,GO:0048519,GO:0048523,GO:0050789,GO:0050794,GO:0050896,GO:0055044,GO:0060548,GO:0065007,GO:0065008,GO:0071840,GO:0071944,GO:0090066,GO:0090332,GO:1901700 |
| Exons | 14 |
| Evalue | 0.0 |
| EggNOG OGs | KOG1327@1|root,KOG1327@2759|Eukaryota |
| Ec32 ortholog description | C2 domain |
| Ec32 ortholog | Ec-12_001900.1 |
| Description | negative regulation of response to water deprivation |
| Cds size | 1917 |
| COG category | U |
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 |
|---|
| 1680789529.4017222-UTR-P-littoralis_Contig122:453632..453706 | 1680789529.4017222-UTR-P-littoralis_Contig122:453632..453706 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig122 453633..453706 + |
| 1680789529.4176104-UTR-P-littoralis_Contig122:454003..454040 | 1680789529.4176104-UTR-P-littoralis_Contig122:454003..454040 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig122 454004..454040 + |
| 1680789529.577766-UTR-P-littoralis_Contig122:485885..486345 | 1680789529.577766-UTR-P-littoralis_Contig122:485885..486345 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig122 485886..486345 + |
| 1680789529.5879302-UTR-P-littoralis_Contig122:486451..488236 | 1680789529.5879302-UTR-P-littoralis_Contig122:486451..488236 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig122 486452..488236 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789529.4316514-CDS-P-littoralis_Contig122:454040..454204 | 1680789529.4316514-CDS-P-littoralis_Contig122:454040..454204 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 454041..454204 + |
| 1680789529.445937-CDS-P-littoralis_Contig122:476199..476282 | 1680789529.445937-CDS-P-littoralis_Contig122:476199..476282 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 476200..476282 + |
| 1680789529.4577181-CDS-P-littoralis_Contig122:477158..477329 | 1680789529.4577181-CDS-P-littoralis_Contig122:477158..477329 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 477159..477329 + |
| 1680789529.4692724-CDS-P-littoralis_Contig122:478189..478356 | 1680789529.4692724-CDS-P-littoralis_Contig122:478189..478356 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 478190..478356 + |
| 1680789529.481063-CDS-P-littoralis_Contig122:480277..480412 | 1680789529.481063-CDS-P-littoralis_Contig122:480277..480412 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 480278..480412 + |
| 1680789529.4914622-CDS-P-littoralis_Contig122:480805..480931 | 1680789529.4914622-CDS-P-littoralis_Contig122:480805..480931 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 480806..480931 + |
| 1680789529.5052004-CDS-P-littoralis_Contig122:481192..481343 | 1680789529.5052004-CDS-P-littoralis_Contig122:481192..481343 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 481193..481343 + |
| 1680789529.5152557-CDS-P-littoralis_Contig122:481872..482031 | 1680789529.5152557-CDS-P-littoralis_Contig122:481872..482031 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 481873..482031 + |
| 1680789529.5279176-CDS-P-littoralis_Contig122:482578..482709 | 1680789529.5279176-CDS-P-littoralis_Contig122:482578..482709 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 482579..482709 + |
| 1680789529.5436072-CDS-P-littoralis_Contig122:483545..483653 | 1680789529.5436072-CDS-P-littoralis_Contig122:483545..483653 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 483546..483653 + |
| 1680789529.553764-CDS-P-littoralis_Contig122:484616..484673 | 1680789529.553764-CDS-P-littoralis_Contig122:484616..484673 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 484617..484673 + |
| 1680789529.567792-CDS-P-littoralis_Contig122:485420..485885 | 1680789529.567792-CDS-P-littoralis_Contig122:485420..485885 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig122 485421..485885 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig122.153.1 >prot_P-littoralis_Contig122.153.1 ID=prot_P-littoralis_Contig122.153.1|Name=mRNA_P-littoralis_Contig122.153.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=639bp
MGCGSSSENDRNATNLGDPNSNYRDEDAEATTAAFATRQGLGSRVTANVW
CKDLRKMDRMSKSDPFVVVKWKTDSDDAWREVGRTEIITNDQNPNFTAQF
SLTYLFEEVQRVRLEVYDVDTAFKTNDASNVDLGKQDFQGFAETTLAEVL
GKNGQTSTLPLQLKTGQAGQSTVSIRMDEVEHQHDLVTLKLRATNVDKKD
LTSSDPYLKLARVLETGKQTYIFKTEVQSRTLNPVWKEIQGTVQQLANGD
LLRPLQVECWDYDRAGGHDYIGGCSASITDMQRWSTGVDEAARGPVFINP
KKQSNPNYKDSGRLVVDLCTITERPSFLDFIAGGTEISFTMAIDYTASNG
SPADPRSLHYVDPAAIMLNDYAKAMSGIGSVLEFYDTDKKFPVIGFGGKL
GPEQPANHAFAVNFKEDSPEVEGMAGVLQAYYASLRRVQLSGPTLFQSVI
NQAAQIANSTKHHNSVGQKYHVLCVLTDGIINDMDATVAAIVDAADAPLS
IVIVGVGEGDFAAMEHLDGDRQRLTSPFTGKVASRDMVQFVPFREFSGFG
SAAQHALAKHVLAEIPGQFISYMESNGIAPANRRPPGSVIPTRAGAGMGS
NSAPTHSEAPPMMPAQAPGYGGGEVGDPNDLPPQYTAY* back to topmRNA from alignment at P-littoralis_Contig122:453633..488236+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig122.153.1 ID=mRNA_P-littoralis_Contig122.153.1|Name=mRNA_P-littoralis_Contig122.153.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=34604bp|location=Sequence derived from alignment at P-littoralis_Contig122:453633..488236+ (Pylaiella littoralis U1_48)
CTGGTATCCTGCCGCAAACAGCCAACGACCCGGAGTTCTAAAAGAACTAA
AAACCCGCCGTCGCAGCGCTTCTGGTGAGCCGCCAGCTTTCCAAGAGCCT
TGTCCAGTATACTGAGTGTCCAGTATACTGAGTATACTGAGAAGCATCTC
TAGCCCTGAAATTCCTCTGTTGAAGTCGTGATCGGATTGAACGATTGAAC
AAGACTGCTTACTCCCGGGTCGTTGCACACATCAACAAAGAACCCAACCG
AAGAAGGCACAGCTCAAAGTAAAAAAAAGGGCACTTTATAAAAAAAAGAC
ACTTGCCAGCTTGCTTCTACAAAAAGGCGTTGTCGATTGTTGAACACAAC
ACCCATCTCCATCTACCTCAGGCACGCTCAACACAAAACCAGTCCCACTT
GATACAGCATGGGTTGTGGAAGCTCGTCGGAGAACGATCGCAACGCGACA
AATCTGGGAGATCCCAACAGTAACTACAGGGACGAGGATGCGGAGGCGAC
AACGGCAGCGTTCGCTACTCGGCAGGGGTTGGGGAGTAGGGTTACCGCAA
ACGTTTGGTGCAAGGACCTAAGGTGAGTTTCTGAGTTTTGAGTTTTGGCT
TTCATATTGCCGGAAAACACAACATACCATAATGTACGACGCCTATCGTC
TCCCGACTGCGGTAAAATCCTTGTCCAATATTATCGTGTAATCGTGTGCG
CCTTGTTTGCCAGATAATAAGTAGAACTACGAACTTCTACAGAGCATCGT
TCCGAGAGGAAGTTGTCACTGAGTTGTTCAGTCTCATGAAGAATCCGGTG
ACACCGGCTCTCTCCCTTCGGTTCTGCGAGACACACATGACATTACTGCT
TTACATAACAGCAGCGAAACGTGAGCGGGAAAGCTGCTGCGTTGCTGATT
TATACTCCGGAGTACGTACGTTTCGTATAATACGAAGTGCGAATGTACTT
TGATCTTCGAAGTACTTCGGTATAATACAGCAGCAGTGACGTGACGTTCG
GAGATTTGCGGAGAAATTGCGGAGAACATGCTTGCAGGGCCGATAGCGAC
GCAGGCAGTTCCAACGAACAGACGGCATACAGAGTAGTCACATCCAAAGA
CGCAAACTGGGTGTCGGCATTTGTAGCGATCGACTCGTCTCTGTACAGCA
TATCATATCATACTTGTCATGATATTATACGGCACGTGCCCTACACACCT
TCCTGTCACATCACATTCATACGAAAAAATCCGCGTAAAATCCCAGTAAA
CTCTCACGCAACAACAGCAGTCTGATATTTGTGCGCTGCTGGTGTACTTG
CCATTTTCCATTTTGCTATTTCCCTTTCTCGAGGTTCCACTCAAACATAA
TACTCCGTATATGTTATCATACGCACCAGTTTTATCGGCACTCGCCCTGC
GAATCTTTGGGATGCATCTACCCGTAGCATAGGAGCATTCTCTTTAGTAC
TGCCGTACCTACCTCTTATTCTAGGGAGATGTGGGAGCAGTGGATCGATC
GGTCGGGTCGTGTTGGTGCTGGTGTCGCAGCCACTTTCGCAACCTCATCC
GGGAATGTTACTCGTAGCGTTCGGAACGAATTTGCGTAAATTCTCTCTGA
GAGCGTTTCTCGCGACTTTACAGGGTGGAAAGCGAATTAATCGTGAATTA
GCAGAGGGAAGGGATTGCTGTACCCGACTCGCATTCAAAAGCAAAGCACA
TACCGCAGGAGGAAGGTTTGGGCAATAAAACAGAAAAAAAAACAAAAAAG
CTCGTGTGTGACCTTCCTTCTGTGTGACCCCGGCTGATGCACCCACACTT
CATACCGAAATGTGTAGCCTGGTGCCCAGAATAAATGGGATGACAACACA
CACAAGTACAGAGCTTGGCTTCACTGGACTTCAAGTTTCAAGTCGAGACT
TTGCCTTTTATTCAGCAGTATATGATGCAACTGATAACCTGGTTGTATCA
ATATGTTTGACATGGTATATTCTACAACAGCAGCAGCAGTGGTACTCGTA
CCCTGTGCGCGGCGCCTCGGGTACAGTGGTCGTGCTGCTGCAAGTGTCGT
ATTGATTGTTTCACCGACCGAGATGACGCTGATGCAGTTAACCGGTGGAG
TTACCGTCACATGTTGCATTGCTTCCATGAGGTCGGATTTTCTTGTGTCA
TGTTGGTCTTAAAAAAAACACCGCAGCGATTATTTTCCCGCGCGGGGTGA
CAGCAGTCTACCAAGACCATTACCTATATTTCCAGGGATCGTCTCGGTGC
AGTAATGTTATTTGACGTATGTTGTTTGTAGCTGGTGGTCACGTGACTAG
GTGGACAAATACTCCTCTCTCTGTACTCAGCATGTGATACAGCAGTGCCC
TCTTTTCAGTCGTCGGGAGATCCCTTTTTGCGGACCACAATAAAAACAAG
GGCAGACGCCAGAAAGCGGTATACCGCCATGGTTCCGCGCCAGCAAACGG
TACACCAAAATACACCAAGGCGTTTGTCCCTCATCAGCGTCGCTGATTGG
CCGACTTAAGCCCTGTACCGTCTACTGGCATCAGAACGTGGCGGTACCGT
ATACCGTTCCATGGCTTCTCAGGTCGGATTGTACCAGGGCCTGGCATGGG
ATGTACCGACTTCTGGCGCCGGCCACGCGGGACAACAGCACCCCCAGCGG
AATATTTCGCAGCCCGTTCGTGCCGAAAAGAGTTTGGGAGCGATTTATAG
AAGGGACGAGAAATTTCACTCCACAACCAACAAAGCCACGTCATGTCTCC
GTCGTGTCACGGATGTACAGTAATCATGCGAAGGTTCGCACCCATCGGAA
GGTTCGCACCCATCGGAGAGATAGCACCGGGGTGCGATAAAAAACACAAG
GTAGAAACATTTAATCGTGTTTTCGCACCCCTATCGGAGAGATCGCACCC
CGGGTGCGATCTCTCCGACATAAGTAGAAATTTGAGGGCCACCGCAGCGG
GTCTGTAGTAGGTAAATATTAACGTGTTTGCGCAGAGCAAATTTTGGCAG
CTAACGACCGCTTCAGGGTATTCAGAAGTTCCTCCTACCAAAATTTTGTT
GAATTTTTTCTTCAAAATGGGCTTCGTAGAAAGACTTGATAGCAAAATTT
GGCACCCTAGCGACCAGTGATGCTGGTTGGCCAACCTCGTATGGGCGGAC
TTTTTGAGGTCCGACACGCAGCAGTAACGTGTTTGCGAAAATCACAAAAT
TTTGCAAAGTGACGCCACTGCAAATAAAATCAGATTCAGCCCTTCTTCGG
TACGCAGAAAAAAACTCGGATGGAAGATCTATCTTGCGAAAGTTGCAAAT
TGGAAACCATATTTGACCAACCAGGGAGGGCCCTTCCGGGACGTCTGCGT
CGTGTTGCGGTCGTGTCCCTATATCTAGATGCATATGATATGAAGCTTTG
AATCATATCATACAAGTATGTACAACACAAGCAACACGTATATTACAACA
GAACATGCATGCGTGCATGGGTGCATGCCCGGTCGGGTGGTATCGCCGCG
GTAATCTACAACAATCACGCAGCAATGACAGCGAAAGAAGTGCGGTAGAT
AGCTGCAAGAGCCGGAAATATTTCAGCCAGAGCTCATGCCGTGAAAGCAT
CGACTTGTCTTCCGTCAGTGTCTCTGCTCTCCTCACGGATGCATCGCATA
CATACATGCTCCGTTATGTGTTCTGTACCCTCAGCCCTCTCTTCTTCCTC
TTTTCTGGAATTGCCATTTGAGGAGTCGATATTATGTTCGCAAGCCGTAT
TTTTTTGTACGGTATGCTGTATGAATGTCTATGCCCACGCAACCAGCGTC
CCTGCCCAGCCCTGCTTCCTAGAGGTCCCTTTCCTCGATATGGTAGTAGT
CAACATCCACAACCAAGCCGGGAGCCACAGCTGTACCGGGCCTTTCAAAT
CGCCGACGTCACGCGACTGTGTCATGAGCGCCAATTACAGCCTGTAGTGC
GAAGAGCGCCAACCACAGCTCGTGGTCGTTATTATTACAAAATTTTCTTT
GAAATCGAGCAAATCCGGCCGGATTCGCTCAGATTCGAGCAAAATTTTGT
CGGAATCATTTTCCGGAGAAACATTTGGGGCTCCAAACTGGTCGTTAGCC
ATGAAAATTTTGTTTCGCAAACACGTTAGTAGGAATAGTTTTTTTTTTGT
AGCGAACGTTAGTGAGCTCTTTGTTTTAATAGCTTTTTTTCTTGTAGTGA
ACGTTACAGTGAACGTTAGTGAGCTTTTTGTTTAAAAAAAAAAGCTGTTT
AGATACCCCCCCCCCAAGCCTCGCACCCACATCATGATCACACACGCAAA
AAAAAAAAAAGAGTCAGGGGGCGTTAATTTATGCCGAGGCTGTCCGTCCG
TCCGTCCATCCGTCCGTCCGTCCGTCCGTCTTATGGAGTTTTTTCGGCCA
CCTTTTTGTTGAAAACGACACACATACTGAACAGCTTCACGAATCCTTGG
GTGTGGCCGACAGAGCTAATATAGCCCGAGCTCTCCCAACTGCTTCCTGC
TCATCTCGTGGCGAGACCATCGAGATAGCAGCGGTGATGTGTGTTTATTT
CTTCGCCGAAATTCGCCCTTTTCCCGGATAAATGAAGGGAGGCATGCATG
TCAGGTACTCTGCAGAGAGCACATCCTCACACACATCTCACACAACAGCC
ACTTAGCTACTGATGTACTGCTGGTATACTGGTGTATGGCTAGGAGAGGG
AGGGAGTGAGAGGGAGAGAGAGGCAGGGAGGGAGATAGGGTGCTACTGCT
GCTGTCTCCTGAGTGTGAACATGACTCTACTGCTGCTGCTGCTGCTGTGC
ACAAGGCAGGCAGAACAACAACGCACAGCACCAGCAGTGTAGCAGCAGTA
CTCGTACAACGGTACGCCCCTGCTGCGGAAGCTGCAGTCCAGCACACAGC
TGTTGTACCTGCTGTTGCGCTGCAGCAGTGAGACACACCACGCTGCGTAC
TAGAGGGTGGCGGTAGACGGTGCCGCAATGTTGAAGATTGAGTCACAGAG
TCTTTTCTCTCTCTCGCCCGACTGACGGGCGATAATTTTTAGTCATCCGC
AGTAGATTTGTTTTCGTTTTTCTCTTGATCATGGCGATCTCCTCCTTATC
TTCCGTGTGATGAACACAGCCTGCTGCAGGTACTTTTTTGGCGGGGAGTG
TTCGAAAAAGCTACGGAGTATTACTTTAACCAGTTCTAGTATAGAAATAC
AGAGTGTTCGCAGACAACAGGTCGGTGCGCTCGTGCGTGTACCCCACGAC
ATGTCAGACGGCTCCCTTTTGCAAGTATCGACCGTGAGATCATGGCAACA
AGAAGGGCCACTGCTGCTGTTGTTGTATTGGATGAGCGAATCTCAAGCGT
TGCTACTATACAGCGCCATGGCCACAGAAAGGAGAGTTCATTACCGAGTA
CAAACCACGTCCGTCATGCTTTACACGTGCTCATCATCAAAAGTTGGGCT
GTGAGAGCGAGAGACATAAGATTGGAAGAATAACATATCTACTTCGTATC
TAGTTTTGCACTGCGTTGATCTCGCTAGCTGTGGCAGATGTGGGGATCGA
TAGTACGAGGGTGACCAGTTAGAGGGGGAGGGTGGCCCTCGCACAGTCAT
CTACGACCTTTCCAAGGAGATGCATAATGGGCTGGTGATTTTTCTTGTTG
ACTTTGAACGAGCTGTTTCGAACAGCAGACGTACGGTGGCTGCCTGGCGC
GGTTTGCTGGCTGTCTGGTTCATGACGTCGGTACTGCATCTTTCGCCATT
TCTCCCATATCTTGGGTCAAAAAAGAATCTCGTTCTGCGCACGACGGAAA
GACACAAATCGTACCAAGATGCATTAGCATCACCTGGCAGCCAAAAATCG
TTCTGCGCAAACAAATATTCTCATTTCTTTCGTACTCCGATGAGATATCA
CCAGTGCGCCACTCTTCTCAAACGTACTTTACCAACGCATGGTATTAAGG
TCAAGCCGTTTTAGGTAGCTTTGAGTCATTTAATTTAAATGAAAAGCATG
TACGCAGCACCGTTGCCCCAGTGCGGCCCGGTGTATTTCGATTCAGCAGC
GCACCCGTCGGAGAGATCGCACCGGGGGTGCGCCAAAATAGAAGAACGGC
ATGATTTAATTGTGTTTCCGCACTCTCATCGGAGAGATATGATAGCACCG
GGGTGCGATAAAAAACACAACGTAGAAAGATTTCAAAACGCGATCACACC
CGGTGCGAACTTTCGCATGATTACGGTATGCAAGTTGCACGTATTGCACG
GCTATTATCGTGCAAGGATGGCACGGCTCTCTCGATCTCTCCATGCTGCT
TAGGAAAGACGGCCGACAGTCCTGCCGGCATCAAAGCTGCGACGCTGTGA
CCGCACACCTCCAACACTGGCGGGGTGACTGCACACACCACAATCGCCAT
CGCGACCCCCAACTAGTACGGGCTCTATACCCACCCCGCTGTAACCCTCA
CGTGTCCCACATATATACTTCAAATACCCGAATGACCAACACGGCCCGTG
CGCCCCTCGTTTGTCACACAACACGTGCTTGTTGTACATGCCTGTACATG
CCTGCTTGCAACAACAGCAGTCCCGAGGCGGACCGCTCTATCTCACAGCA
CATATTATCGGTACTAGCCTGGGGGGCCATGTCGGCATTGCTTTACGTGT
GCCTAACCTCTTCCTTCTTTCTTTTTTCCCCTGACCCATCTCAGATTTCA
CAGGGGTAAGTCCTCCACTGAAACGCAATACGAAGTACGTCAAGCCTTTA
ATTAACAGGTTACTGCTGCACAAATTCGTACTTGAACCCTAAAGCCGCCG
CATGGATGGAGAGGTCGAGAGAGCCGTGCCATCCATGCACGACAATAGCC
GTGCAATGCGTGCAACGTGCATACATCCGTGACACGACGGAGACATGACG
TGGCTATGTTGGTTGTGGAATGAAATTTCTCGTCCCTTCTAGAAATCGCT
CCCAAACTCTTTTCGGCACGAACGGGCTGCGAAGTATTCTGCTGGGGGTG
CTGTGGTCCCGCGTGACCGGCGCCAGAAGTCGGTACATCCCATGCCAGAA
ACCGGTACAATTCGACCTGAGAAGCCATGGAACGGTATACGGTACCGCCA
CGTTCTGATGCCAGCAGACGGTACAGGGCTTAGTCGGCCAATCAGCGACG
CTGATGAGGGTCAAATCCCTTTGTGTATTTTGGTGTACCGCTTGGTGGCG
CGGAACCATGGCGGTATACCGCTTTCTGGCGTCTGCTTTAAAAACGAACT
TGTGGGCCGCTATCAAACCGAGTCGTGCGTTACGCAATTGTCGTGAACAA
GAAAAATATAGGAAACTTCCGCATTGCACTGTCACTGTACAGCAGGTTTT
ACCATGGGCCGGCGATACACCGTTAAGTATCACAGAGAGCGCGGTTCGAA
ACCATGATCGACGCTATTTTGTACTCGTTTCGTGTTTTTGTTCACCGGTT
TTACCCAAACCCCAACCCTAACCCTAACCCTAACCCTAAACCTCAACGGA
GGGACAGCGCCGCGCGCGCTGTGAGGTTGCTGTGAACCGGTAGGGGTATT
TTTCCTGAGAACCACCGGAGCTTTGTTTTGAAGAGCTGGAGACCGTGATT
ACGGCAATTAATTGCGTAAGCTCTATCTCAACACAGGGCGTGTCTTGGAA
AAAGAAACGAGGTGTGGGACGGGGAACGTGGAACCTAGATTCCTCGTTCC
CTGTTCCACGCTTTGTGTCTTGGAAAAAAGGCTCTTTCGAAATGAAGAAC
GTAGAACCGTTTGCAAGCGAAAAGCCTGAGGGTCGCTGCTGTGGTGCAAG
TACAGAAGTAAAGTAGCAGTACAACAGCGGCAGGAGTACCGTGGCCGTTG
AGAGTTGTTCAACACCGCACAAATACGCACGCACGAATCCGGCCATCTCC
CATCTCTCGCCCACAGAGCTTACACAGACATACACATACACACAGCACAC
ACAGCATACCACACAATGGTGTGAGAGATGGTCCGCAGTCGTCCGGCGGC
AGTCGTCCGCGCGCCCGTTTGGCCAAAAAGCGGAGGAACAAACAGACGGA
GAGGGGTGCGATGAGATGTGATCATTTTTTCATTGTTGCTCTTCTTGCTG
CTGCAGCGCGGTGACTTTGTTCATCCGAGTGAGAGGGCTTATATATTACG
GTTAATTCTACGCGTGGCGCTAGGCGGGGTGGCATGATTGTGGGGGGAGC
TAGTTGTGCATGTGTGTATGTATGTGTTTGTTTACCTTGTGTGTGTGGTA
TGGGTTTTGTGGCCAGATAGAGGGAGAAAGCTGCCGGAAACTTCTTGCCC
CCCGGTAGCCCGTTCCACACAGGCTTTTGGACAATTTTAAGGAACGGAGG
CCTTCCATTTATTTTGGAGGAGGGAACGAGAAATGAGGAACCCCGGTGGC
CGAAATTCTTTCCAGGAACGTTTCTTGCTGAGGTTGGCCAATCAGGGAAT
TATTCTAGGTTCCACGTTCCACGTTCCACACCTCGTCTTGTTTTCCCAAG
ACACAAATCAGGCAAAAAACGTTGCCAGTCTCCCTCGGTTTCCCGTACTG
ATTCGGTCGACCTGTGCGAGAATACCTCGGCCGTGGGACCCCGATGTTGG
TTTAAATTGTCGTCTGAAAAAGCAAATGCATCTTGCAAGTATGATATCAC
GTCGTTCTTGTACTTGTATCATACAATAAGGGCGGGTATTTAGATACAAA
AACTGCGACTGGAACTTGGATCGTGGAACTGAGAATTCCTCTCTCATTGG
CCGACAACAATATCAAAATTTCCTGGAAAATCCTGCCGCCGTCGGAGCTC
CCTCTTTGTCGTTCCCTCCGCTCAGGGCTTGTATTAGATAAAAAAAATGC
GACTGGAACTTGGAACTTGGAACTGCGAATTCCTCTCTCATTGGCCAACA
ACAATTACAAAATTTCCTGGAAAGTCCTGCCTCCGTCGGAGTTCCCTTTT
TCTGGTTCCCTCCGCCGAAATAATTTTAATCATCTCGTTCCTTAAAATCG
CCCAGTAGCCCACATGGTACTTGGAACTGGGGAGAAATAAGGTTCTGATG
CCAGAAAGCGCTTTCTTGCTCTCTGTGACAACGACCAACAGCATAACACA
ACAAATACAGATGACCAGAGACACACACATGCAAGCAGCTCCCCACAAAC
TCACCAACGCCGTCTAGCGCCATGCACGGAATATAAATCCCTCTCGTGTC
TGATGATACAGATCATAGCAGTGCAGCAGCAGCGGCAGCAGCAGCGGCAG
CGGCAGCGGCAGCGCAGCACAGCAAAAACAAAATCACCACAACATGCACA
CAGCAGTCACAGCGCGTCCGCCACTCACGTCCCTCCATTTTGTTCATCCG
ACTCTTGTTCAAGACAACCCCCAAGCCTGCTACTTTGGCCGATCGACAAC
AAAAGCAATTGCAATGGAGTGCTCTGATGTGTGTGCCGTTTGTGTGTGTG
TTTGCGTGCTCTACCTTTACTGTGCGAGATATAGCGATGCATGTGCGTCG
GTACGTGCGTGCGGTGTTGAAAGGAAAAAACAACTGCCAAAAACTCAACG
GCCACGCACGACAGCAGCAGGGTCGCTTGGGCTTGTCGCCAAATTCAGGT
TCCATGTTTCCATGTTCCAGTGCACGTTTTTTTATCCAAGACGCTACATG
TATGCAAGGAACTTGGAACGGGGGATCCAGAGTTCCAAGTTCCAAGTTCC
AAGTTCCAGTCGCATTTTTTTATCTAGTACAGGCCCTCAGGGTCCCTCCG
CTCAGGGTGGCTCTTGTCCCCGAGGAATGCCCAAATCGAAAATCGAAAAT
CGACAATCGAAATTAGATTTCGATTTTAGAAATGGGGTTGGGTCCACGCA
GCTGCAGGTGCGTTCATCTAAAATCTAAAAAACGGAGGTACAAAAAAATA
AAAAAAGGAAGAGGCACGACCAGCAAGTCAGAGGATAGACGGTCGTAAAA
TGCATGCAGTGACCATTGTAATGCTAGTGCGAGAGCTACCATGCCTCTAA
CGCAGTGCATGGTAGTGCCCTTCATCGGCCTGACTCAGGCGCGTTGGTTG
TCCTTAGTTTGAGATCGATAACCGAAAAAACTAGGAAGAAATGTGTGTTT
GACTGCGTGTTGCACACCAGCATACCCTACATACTCCTGACCCAATTTCA
ACCGTTGTACGTATTCTGCAGAGCGACACCATGTTATTACTCGGATGAGC
TCGTCAGCGTCTCAGCAGACTCCGCTCAGACAGAGTTCCCTTCTTTGCAG
TTGGCGATACCATCTTCGTGTGGAGGTACCGTTTGTGTACAGCAGGCAGC
TGCAAGTTGTGTGGTGAGTAAAAGCATACCGGTGTTGTTATCGAAATGCA
CAGCAGCACCACCGGTATGAGAGTAGTGAGTAATAACAGCACTTTATCTG
CACACTTCTGCACACTTCAGTGGTGCTTTACGGATTCTTATCGGAATCCG
CTCAAACAAGGTGATCTGTATTCTACGGGACACCAGCCTTCTGCCGAGGT
CACACATACGTACAATAGGGGGATACAAGTTGGGCTGTGACCAACTAAGC
AAAGACACATCGATGTGCACCGATGTGCTCCCAGAAAGCACAGTAAACAC
CTCTCTGCTCGTGTTCTAGGTCTATTCGATTTTTGAGCCGCATTTTGGAT
TCTAAACCCGGATTTTTTCGATTCTACCCTTTCCTTTAGCTTTCGGAATA
ATAAGGGCGAAATCGAAAATCTGCTGGATGCGCCGCATGTGCGGAGGGAA
GTTTGTCCAACCAGTAAATTTTTAGATTTCGATTTTCGATTTCTATTGGG
TTTTTTTCGGGGACAAGAGCCACCCTCAAATATTTTTAATCATCTAGTTC
CTCAAAATTGCCCAGTAGCCCACATGGAACGGGCTGGTTGAGGGCAATAA
TTCTCGCAGAAAGTTATACACCGTAGAAGTAGGGCAAGCAGCGACCATGA
CGCGGCATTAATGTTTGTGTGCACATACATCATGTATATAAGATCTTGCA
CACGTCACGCAGCAGTATGACGTCACAGTCCCGGGCTCTTCACCTCAGTT
CATGTTCCCAAGTTCCGCATTCCAGCACAGGATTTTACATTCAAGACAGA
ACGACTGGAACTTGGAACGTGGAATCCTGAGGAATTCTCAGTTCCACGTT
CCAAGTTCCAGTCGCAGTTTTTGTATCTAAATACCCGCCCTAAATGCGTT
GAGCGAAGCGATGAGGTCGAACAAGAATTTTCTTTGGAACAAAAACCCGA
AGACAAGGATTTTCTTTGGAACAAGGAGCGGAATTTATTAACTTTACCAA
AAACCGCAAGACAATAACGTGTTTGCGCAGAGCAAATTTTGGCAGCTAAC
GACCACTTCGGGGTATTCAGAAGTTCCTCCTACCGTCGTCGTAGAAAGAT
TTGACAGCGAGGTTTGCTACCCTAGCGGCCAGTGATGCCGGTTGGCCCAC
CTCGTCTGGGCGGACTGTTTGAGGTCCGACACGCAGCAGTATAGTCACAG
AGTGTTCGCAGACAACAGGTCGGTGCGCTCGTGCGTGTACCCCACGACAT
GTCAGACGGCTCCCTTTTGCAAGTATCGACCGTGAGATCATGGCAACAAG
AAGGGCCACTGCTGCTGTTGTTGTATTGGATGAGCGAATCTCAAGCGTTG
CTATTTTGCGGCGCCATGGCCACAGAAAGGAGAGTTCGTGACCGAGTACC
AACCATGTCCGTCATGCTCTAGCAACCTCATGCTCACGAAAAATGGGGCT
GTGAGAGCGAGAGACAAGAGATTAGAAGAACAACCTTCTATCTAGTTTTA
CCCTGCGTTGATCTCGCTAGCTGTGTGTGGCAGATGTGAGGATCGATAGT
AGGACAGTGACCAGCTAGAGGGGGACGGTGATCCTTTCCTTGCAGAGTCA
TCTACGACCTTTCCAAGGAGATGCATAATGGGCTGGTGATTTTTTGGGTT
GACTTCGAACGAGCTGTTTCGAACAGCAGACGTACGGTGCCTGTCTGGCG
CGGTTTGCTGTCTGTCTGCTTCATGACGTCGATACTGCATCTTTCGCCAC
TTGCCCCATATCTTGGGTCAAAAAAGAATCTCGTTCTGCGCACGACGGAA
AGACTTCAAATCGTACCAAGATACGGTAGCATCACCTTGCAGCCAAAAAT
CGTTCTGCGCAAACACGTTAATAAAAATTTGGAACAAAGGAACGAAATAA
TTTCTTGGTTTTTTATTTTCGCCGTTTAAATCGTAGAGAGGAGAGCTGAT
CCAAAAACATTGGAAAAAAATATTCAACCACGGACCAGTAGGCTCGAGGC
ATCAGAGAGCTACAAAGTGAAAGGCCTCCCAAGTTCTGACTATTTCAAAA
AGGAGACCTACAGAATACCTAAACGATGGCCCTCTCTGCGGCGCCGCCTC
CACGCACTGTGACAGCTTGTGTGCTAGCCAGAACCGGGTCGCGAGAAAGG
ACTCACGTGTGTTCGTCACGTCCAGTGGTCCAAAATCCCCCGACATCATG
TATTTGCGTCACGATTCCCGACGAAAATCATTGTGTCGGGGATTTTTGAA
CGAGCTTACTCTCCAGCAGGCATACTTTGTAGACGAGCTCTAAATCTTGA
AAAGGCGCCTTCCAAATCTAGATTTCATTCGGAAAGGAGCCTGCAAGTAG
CATGATTCAGACCCTTTCGGCGCTGCCGCCGCAACGCACCCTATCATTCG
CAGCTTGTTGTGTGCTGGCCAGAAAAGGGTTGCGAGGAGGGTTGTCTTGG
TGAGGGGAAACTACAACGAAGGCCGAAAGGCCGCGCAGAAAGGGCTCGTG
CAAGTTCTGATTCGTGTTTCGCAATTCCCCGTGATCGATCCCTGGCCGAG
CCGCACCTGCTGAGACGCGCAAACCAGGGGTGGATTCGCTCGCCCCAGTC
GGTAGTGTGTTGATTTCGGGTGCGCTATTATTTTCGCTATTATGACTACC
GGCCGATGCACCTCGCGTGCTACGCCGGATCGGCCGACATGATCGGGCTG
TTGGCGCGGAGAGGCGCAGACGTGTCATACTGTCTTCACTGCTTTTGCTG
CTGTGGGTTTGTAGCGGTGGAGGTGAGAAACATGCGAAATTTCCTAGAAA
ATTCTTCGCTCGTCGGAGAATGTGAGCTTTCAAGATTCTGTGATGTGACG
TGGTTTTTTTTCGTACGAACGGGGGATCACAAGAAAATTGGGTTGTTTCC
TCGTTTTTCGGTAAGAAAATCCTGTTTTCTAGTTGATGTGCTCCCTTGTA
AAAAAGTCGCTCCCTTTCAAAACATTTCAGTACCGCACGGAGCCCTCGGC
CTCGATTTCCTGTGACATATTTATTCAATCTGCTGGTTCATCGGCTGTAG
AGCTGCTCCCGAATCCCGCAAACTGGCTTGGTGTAGCATAAACACCAAGC
TAAATTCCCTGAGTGTTTCAGCCGATTTGGTCCATTCCACGAGTACACAC
GTTTGACTGAAAGTTTTGTTGGGAACCGTCTGATATGATGGCGATATTTT
CGGAGGTAGACACATGATTACCCTTGGCTCAAAAATTTCAAACTGATAAC
TACGGGAGTCTGAACTTAGTTCAGGACGATTTATGGCAAGTTTTGCAGAC
CCATCGCCAGCGCTGTAGTGCTGATTTCGAATTCTACAAAGTATTTTTGG
GTAGTATATCCACCAAGCTACACACCCTCCGAGTTTCAGCCGATTTGGTC
CATGCCAACGAGGGCACACATTTGACTAGAAGTTTTGTTTGGAACCCTCT
GATAGTATGGCGATATTTTCGGAGGTGGGACAAATGGTTGTCCCTGGCTA
AAATATTTCAACCGGTTACTACTGGGGTGGACGTTATTCATGTCGATTTC
AGGCAAGTTTTGCAGGCCCATCGTCAGCGCTGTAGTGCTGATTTCGAATT
CTACAAAGTTTTTTTGGGAAGTATATCCACCAAGCTACACACCGTTCGAA
CTTCAGTCGCTCGTCTTGAAGTAGTTTGTCTTCCCAGAGCTAAAAACGAG
CTCTGGAGGCACAGAAAACCTTGATAAAACGGCTTGCTTTTAGTTGCGAT
CGCGCAGCAGCATTCTTGCAGTTTGAAGCAAAACCATGGCATGTGGACTA
CTGGAAGAGGTAGAAAGGACCCTCTTTGCTCGTGAGATCTCCGGTTCATT
TCGTAGCAAGCCGCGGTCTGTGCGAGGAACATCAGTGGTGACAAAGGTCA
TGACCCCAAACGTTGTTGGCAGCACCAATCTGGGCGAATATGGGAGGGGC
TCCGAATTTCGTTGTGGCACCGCATGGTACCCATCACCAACTTGCGTGGA
CAAGAGACTAAAAAGTGCCAAACCAGCGCATGGGCCGCCTCCGTTTGATT
TGGCTCATACTGCGAGTAGTATTTACACTCTTTTAGAGGATCTTCCTTAC
TGAGGCATTTGCGCCGTCTGATTGGTCAACCTCATGTGTACCTGAAGAAC
ACCGCGTTCTGTCCTGCGGACCACCAGTGTTCCACGACCGCGGCGCAGCC
GCGATTGTGCTCGCTACGGCCCTCCTCGGTCGGTCGTGCGGTTTAGGGTT
AGGGTTGGGGTGGGTTAGGTTGGGTCGGGGGTGGGTAGGTGTGTATGTCT
GGTTAGTATGCAGAACTGAAGTGCGAACTTTCTTTTCAGACCTAAAGATC
CTCTAACAGAGTGAAAACAGACCTCGATACTGCTGTAGACTGCTGTAGCC
AGAAAGCCAGGAATTTTCGCCCGAAATGAGGAAATCGATCTTCCCCCTGT
TTTTCATGGCGGAGGCGATGGTGGTACTTAAAAAGAAACGAGATTTTATT
TTTGTAAGCAGGCACACAGAGCACACACACGCTCAACGCCAACCAACCCT
AGGCGCCCGAACAACCGCAGCAGCAGTCGTGCAAAGCCCGCACGCATCAT
GGACGAGAGCGAGAGGTCGGCAGGCCGCCTAGGACGTAGACTGCTGTCCC
TCTCAAACTGCAAGTACGATACGTATGTCGGTGAGGCTGGCGCTGTAGCA
GGGCAGGGCCCTGGTGCTGCTGCTGCTGCTGCTGCTGCTGCCGCGCTGCC
ACCTGGCACATACCGGGAATGGCGCGATCGGCATGCAACGTTTTAAGCCG
TTCGCATCGCCCGTCGGGTCGTCAGGTCCAGCGGGGCAGAGCCACTGACT
ACCGAGCCGCCGCTACAGCACGAAACCTGCGGCAAAATCTCTGCTGGAGA
GCCCACCCTGGCGACACACTCGGGTTTGCTCCCAGGTTCGATGGCGACGT
CGATGTCTACGGTGGAGACAATCATCGACGCAACCAGCGGTGAGGACGAA
GACGACGACGATGACGCGGAGGTGCTGCAGTCCAGCGGGACGGCGCACAC
GGACGTTAGGAGCGAACGACGACGACGATGACGACTTGTGTCCTCGAAGG
ATAGCTTGTTGCAGTTGGGCGATGCGGACGAAGACGAGTCGGCGTCCGCG
ACGAACAAGACCAACGCCGAGGGGAAGGGGAAGGGGATGGAGAAAACCCA
GGACCAACGGCGCCTGAGATTTAAAAACCCGTGCATTAAGCGAGTGCTGA
CAAAGCTCAAAGGTTGGGGTAAGGGCTGCACTTTCTGGGCTCTAAGAAAA
CGTCGATTCAGCCGACATGCGCGCACCGCAACATCTCCGAGATGTCAAGC
GGGAAGATCAAGGACGTGTTGGGCGCGTGCGTTGCGAGCTCTTATACAAG
GGCCTGAACAGGTTGCCTCTGTTCCTCGGCGACCTTCAGGCAGTTTGACG
GTGAGGCAGCGTGAAGTCGTATGGTTCTTCATCGCTTCATGCACTTTCGT
GTCTGAACGTGAACGATTGTTTTTTCAATATTATTTGCAAGTTGTTTTTT
CGAGCGCACAAATATTAGTATTGCGCCTCTCTTTTTTCAAGACATACGCT
CCGGAGTATGTACTCTCTGAGTATACCATGGTGCTGGTATTTTGCTGTCG
CAGCGAGGAACGAATGTACGAGCCGGGCTACGTGCATGATGCACGGTGTT
TTTTCGAGTTAGATTTCCGCACGTGAAAAGGTGAAGCACCTGCGTGTGGT
AGCCCCTGCTCCCTCGTTTGGTTAATTTTTTGTCACCAAGCGTTTTTCAT
TTCTCAATACAAAAATGCGACTGTCATGTTTCAACAACTGCTGTACATAC
ATGTAACCTAATCATGCCCACCCTTATCGTATGTTCATCGTCGCATCCCC
AACGTATACGTGTTGAAACTCGATCCAGGAAAAGTCCACAAAAAAGATGC
GGAAGATATCACCCCCCCCCCCTGGGGGCAGTTCCTGCTCTCCGTCCTGC
GATGGGTGGGTCTCATCGACGTTGATCGGTATGATACCCTGTCTGTCAAG
ACCCGTCAGTCTCGGACGGAAGAAGAGGAGTAACAGCTGGCTGACCTTTC
CGCCGTGGTGCTTGACGCGGAGGACGCGGCTGCCGGTTCGGTTCGGTTCG
GTTCGGTCGGTTCGGTTCGGTTCAGACCTTCGGGGGATGGATGGAGGCTC
CTCCGCAAGTGGCGCAGACGGATCGAACCGGATCGTGGCGGCGCAGCTTG
AGGGGGGCGGTGCACCGCAGACCCGTGGGCGCAAAGGGGCCGCACCCACA
CTGCGCGCATGCATGATGCGGGTCGTTGGGACCCTCGGGCGAAGACGATG
TTCGCTCCTTTCCTCGTGAGCAGCCGGCCGCAGGCGAGGCTCGAGTACCG
CTGGACGTGCTGGCGGCGGGATGTCGAGGCAAGGTGTGGTGACTCGTCGC
CCGACGCTTTCGGGACAGGGACCTTGAGGTGATGAAATGGTGGGGAACAG
CTCACCCGACAGTGCAGTGGTTGGTCGGAAAGGTTGAACAATGTATGGTT
GATCAGCATTTGTACTCAACGGACACGATTATATACGGTCGGCAGGTAGT
GTAGTACTTGCAAAAGATACAAATCGTACAATGATCGCCGTTAGCTCTTG
TCTCTGACTCTGCGTTCATTCCAAATGTCGTTTATCGATCGTTTCCAGAC
TTGCTGCCTGTGTGTGTCACATCACCCTCCTGGTAGAACCTACTTATACA
AGCTTTTCAGATCAGTACAGCAAAGAGTACTGGCACCCAGTACGATACAA
GCGTTGAAGAACGTTCACGACGAGGAGAGCAACGTACGCGTGACAGATGC
ATTTTTTGTACTTCATGTTCATCGTCGCCGAGGAGACGGCCCCAGTCCCG
TTTTTTTTTTCATCCGGTTGTCTTGACGAATTCTGCCGAATTTATTGGTG
TACATGTAGATTGGGTTAAACGTGCCTACAACTACTCATGCGCGCGAAGA
CTCACGTCGGCAACCCCCATCAACACACCGCTCTTTATTTCTGCCCCACC
GATCGTCGTGGTGGTTCTCAGGTGAGGCGCAGTCGTCGACCATCCGATGG
TGGCCCACTGCAAACCCAAACATCATCCATCGACCCAACATGTCGGGTGT
ATGGGCTCTACGAGATATGAGTGGCAAGGCGAGGCCAAGCGGAACCAGCC
GGATACAAATTGGACGGGCGAATCAGGCAAACCGCGAGCCAGCCGCGGAC
CAACTTCTGCCAAGGTTCAGACACGGGAAGCGTGCATATGGGAATCATAA
ATGTTTCGGTATATCCTTCGTCTATTGGTGTTGGCTGCAGCAGGGTGTAC
GCTCATTGCCGCCGCGGCAAGTCAAGATGACGGTGCGGGCATTTCTCTCT
CCCATCGCAATACGAGAAGGGGACTGTATGTATGATACATCGAACCAGCG
CGCCTTTTCAACCCGGAGTGACGGACAGCGGTGGCCCATCGGTTGAGATT
CGTGCCGCACACGAAGTGTTTGCCCCCGCCCGCCCCCCGCCCGTCAACCA
GAAGACAGACGAAACCTTCCTCATCGGAGAGGCCATACGAATAGAACAGC
ACTCATGACTTTGGTTAGCTGTCCGGCAGTCTCCTCTCCCATGGCACCCG
GCGAGGGGACGGGACCCTGGGCGGGCGTTGGAGAGACAAGACAGAAGGCG
CGGATCGCAGGACGGCCACAAAGCGCGCGAGGGTGGGTGACCGGCTCCAC
GACCTCAAAAGCAGGAAGCGGGAAAAAAGCAGGTCAAAGAGTGGCGGGAA
GTACGCAGCAGGCCGTGAAAGCCCGTCGTCGCCGAAACGGCACCGACGAT
GTCTGCCTTTACGCCGGAGAGGGGGCCGAAACGGCGCCAGGAAACGGGGG
GAGCGAAGAGCAAATCCTCGGCCATCGATCGATCGCCCCGCCCGAGGATT
CGCTGACGGCCCACGCGCGCAAACTTCGTGGAGAAGCTCGAGGCCGAACA
GGGCGCTGGGGGGACGGGGGGAACGCCGAAAGAAATGCTTCGTGTAGAAA
AAGTATACCAGCGCTCGAGGAGCTCTGCTCGATGTTTAACACGGAGCTGG
CCCGGGCACGAGTTTGATCCATTTTCACCGGCGGCTACCTAGGCTCTTTC
CCGGGTATGGTATACGTTGCGTGTCGGGAGCTTTTTGCTGATCGGGTGAG
CGGCGTCACGTCATTTGATGTGTTTCCCTATGGCGGACAGCGATTGGCGA
GGGAAGACCGAAACCTTGCCACCCAGTCGTTGTTTGTGGACCCGGGAGCT
ATCGCCGACATGGCGCAGAATCGGTGCAGTAGTAGTTCGGCTGTACACAT
CCATCGCCTGTACGCTGACCCAACACGCACGCCAAGCTGTCGCCAGAGAT
GTGCGCGGTTTGATCGCAGGTGCTTCTCGTAGCAGACGGGGCCTTCGTCT
TGTGATGAAAACCCACCTAGATGAACAGCGGCGGCAACCCAGGCGAAAAC
GCCAGCAGTGCTCTCGGGCTGTCTTTTTAATGAACGCGCGCAAACAGCAC
AGCAGGAATACCACAGGGATCGGGCAACATGTCAAATTAAGAGCAGACTT
AAGGGAGAGCTGTACCTGCTATGTTTTTCCGCGCAGGGTGAGCACCATGA
CCTGTTCTTGACTACGTGACGCCCGCCACCTCAGCCGTGGCCGTCAAAGC
GCTCGTCAGCGCGGCCCTCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCT
ATCGGGCGGGGGCGTCGGTGCGGTGCTATCGCGTCCTTTTCCGACTCGCA
GACGAGGGTCCGGGAGAGCCCCTGACGCTCCTTCCCATCATCAGCCATGG
CCTTCGAGTGGCCTTGGGAATCCGCTGGAGTGGCCCTTTTTGGGGGGTGG
CGGGCTTACGACGGGACGCGTACTCTCAGCCCTGCTGCATAAGTTGTGCC
CGAAGTTGGCGCCAGTTTTCGTCGTCCGTTGATGACCAGACTCCCACGAT
TTATGGAGAATGACGTGGGTTTTCCCCGAGAACGAGGGAAGAAAAAGAAT
TCCCAGGAACCGGCTGCTTTAGACCAGGCGCTCGCCGTCCAAGCACGGAC
GGTTTTAGAAGCCGCACTTCACTGGGTACGCGAAGAGCTCCGTAGGATTC
ATTCTGGAGGTTTGGCCTTTATTTCGAACAAAATATAAGCACGGACCTGG
TACTGCTGTACAACATTTAACGTCAGCGCTGGTGTCGTGGTCGATCGACT
CCTGAGACATTATTAGCTCATCGCCAAAAGTCTGGCTCGTGGCTGAGTGA
TCTGTTTAAGTGGATGAGTCGATTGAACGAATAACATACTTCTTTTTTTA
CAAACTTTTTCGGGAATTCAATTCCCATCTCATCGGAAGCAGTGATCTCT
ACCCTCCCCGGGGTCCGCGGGTCTTCGGTGTCTTGAGCTGCTCTCTCGCC
GGCAAGCAACCCGTGCATTGACCACTGACCACCACCGCTCGGCTGCGCCG
TTACCCACAGCGCATCTTCCCGCAGATCCACCCTGAGCGTTCTCGCAAAC
AGCAGTTCCGAAAAAATGCTGGGTAGGCCTGTTTTCCCGGGCAAGTTGGT
GACAAACAGGTATGACGATTTTGGACTTGCCGGTGGTGGAGTTTTTCTTT
CTCCCGACCTGACCGGGTTTAGTTGTTTAGTTCTCTTGTGCTCTGAGTCT
CTTCCGGTGGGCGTCCAGTCATCATAGAAGCTTGAACGCTACGAGCGATG
CGTCTCGGCGAACCCGATGGACGTGATAGACGCCCACCGGAAGAACTAAA
CAACTAAACCCGGTCGGGTCGGGAGAAAGAAAGACCCCACCGCTGATGAC
TAGAAAATCGTTATATCCTGTTTGTCACCAACCTGCCCGGAAAAAAAAAG
GCCCACCTAGCATTTTTTCGGAACTGCTGTTGCGAGAACGCTCAGGGTGG
GTCTGCGGGAAGATGCGCTGTGGGTAACGGCGCAGCCGAGCGGTGGTGAG
TGGTTAATGCTTGCCGACGAGAGAGCAGCTCAAGACACCGAAGACCCGCG
GACCCCGGGGAGGGGAGAGATCACTGCACCCGATGAGATGGGGATCGAAT
TCCCGAAAAAGCTGTATTTTGTTCGTTGGATCGACTTTTGATATCCAGGA
GAAGACTACTCCGTCAGCCGCCTCACCACTACTGTCGTACTTTTTTTTGT
GAATGATAACAGTACATGACAACATACACAAAAGTTAAATGGACAATTTA
TCCTCGATGAAGCATGCAATAAAATGTCTAGGCGTACCTACGATTCGGCT
CGGTGCGTTGTATTGATTCTCATACGAATACAAGCGAGGTGTGTCTATGG
CGAAAACAAAGTTTTTGGCCTGGCGGAAAAACCGGGGTAAAATTGGAGAT
TGGCCAGCCAAATCAAGGGTAACATCATCAGGCATTTCGGGGTAATTTCG
GCCAAAAATGGCACCCATTTTTCGAGGTGATAACTCCGCGGCTATCGACG
TACCTCGATCCTGCCATCATGAATGCTGTTGTTTCACTTGACGAGTCGTT
TTTCTCAAAAATCTACTTGACGATAAAGTAAGTACCTCGCGTGTACGAGG
CGCCTACCGACCGCTAAAGTACGCCAATGCGTCCGAGGACACCGGGAGCC
CATGCTGTGGAGGCGGTTTTATTGTTCATTCAACACAAGGCAGCTAGCTC
CTGTTTGTTAGCGTACCTTCATTGGGTAGCCCCGATCTTCCCGCGAATAA
TTCACCCTTGTTTTAGTAGGTGGTAGCGTTAGACCACAGAGAGTATCCCC
TTGGCGGATGATCAGCAGCAGAGACACTGGTGGGTACCGAGAGCGACTCG
TGAGCAAGTAAACCTTGTGGCGAGACATGTATGCGACTGACTGACCTGCG
TGACGTACACCCATGTATTCCCCCCCTTTTCTTTTCTTTTCTCTTTTTTT
CTCTTTTTCCTCCTGTCTCTTCTTTCTCGCTGTGTTGACATCGTCGTTTC
TTTTGTCCTCCGACTGCCGTGATTTTTTCTGTTGGAGGGCCTCACGTTTG
TCGCTTGTGTTTGTTCTCGTTTCTCCGAGCCCGCATTGAGATGTGTTTTT
GGTCTTCTGGCTGGCCATGGCAGAAAGAAGTCGTAGGTTAGTTCGGCGGT
ACCTTTGCCTGTTTTTTCTTTCTTTTTTCTGTTCTGCTTTTTATCCTTCT
TTTCTTCCTTTCTTTTCCGCTTTTGCTTTTTTCTGTTGAGCACGATGGGT
GCCTGGTTTGTAACCACGGGCTACACTTTCACGGTGAGCTGCTGTGAGAA
TCAAGAACAACAACCTTGGGCAAGGATCGGAACGTTTTTAAGTGTCAAGA
TAAGACCTTCGTAGATGTTTGGGTCTGAAGGCCACAATCCTGTGTCCGAA
ATGGCCGTGGCCACGTTCCCAGTCAATCTTCGCAGGGCAAACTACCCATT
AGGCCGTACCACCAACAAACATATTTATATATTTTTTCCGATAAATGCAT
GTCGAAAAGCAGAGTTATTTCGCGAGTAACCAAAATTCGACTCGTCAAAA
AGAAAAGTCGACTTTCGCGTAGAAAAAGTGAGAGCACGCACCGTACCGCA
AGAGGAAGTAAGGAAGGAAGGAAGGGAGGTGGAGATATCCAAGACGAAGA
AACCCCTGCTGTGTTGACCTACCTTCCTTGTCTGTTGTGACCCCGGCTGA
CGCTCCCGCCTTAAGGTTTACTGAAAGGTGTGGACTACTTGTCGTCCAGA
ATACAGACAGGATCTCAACACACACTTAACACACAATGTTTTTTTTTTTC
CTTGGAGCCTGTTTTTAGTGTATTTTTGTACTGTTGGCCACCAGAGATGG
TGTACCCCAACCGTACCCTATCTGGTTTTGATTTTGATTTGATTGGGTGA
CCATCGTTAATTTCCTTTTGCTTCTTATGTTCCTCCTAGCACGATACTAT
GTGCCTGGTTTGTGACCACGGGCTGGACTGCGGTGGTGGTGAGCTAATGT
GAGAATCAACAACAACAACAACAACAACGACGTGGATGTTGGCGATCGAT
CACACCATTTCGAGCGGCAGTGCGGACTCTGCGTTGATGGGGTGTGAAGT
CATTTTTTTTTTTTTATGTCTTTGCTGCCCCGTTACAGGACCTGACTGCT
ATTATATACCATACGAAGTACTCTGGAGTATATGATTTTCTGTTTGGTGT
CACCCCAGGACCAGAACCACTTGTAATTAAGGCTTCCAACCTTTTTGATT
TTCCGCCACGGCGACAGGAAAATGGACAGAATGAGCAAGTCGGATCCGTT
CGTCGTTGTGAAGTGGAAAACAGACTCTGACGACGCTTGGCGAGAAGTAG
GTGAGCCAGCCTTCCATGCTTTTCAACGATGCGTGCAGGTTCAAGAAAGT
GCTCTCCAACCGAAAAAGAAGAAAATAAATGCCGCACCCTTCGCTGTCTT
TTTTTCTTTCTTCCTTGCTTTCTTTTGACATGGGGGTTTCGTACGCGTGT
CTCATGCGGGAGATCTCCGTTTATGCGTACGTGTGCGAGGAAAAAACCAG
ATACTCGCGAGGTATCTACGAAGATCTCCCGTTTACGTACGTACGTGTGC
GAGAGACATTATCGACTTGGGTCTATCACATCTACGTTTACTTCGGGCAA
TTGAAAATTCGCACGTCTTTGCTTGGATGTCGTACATCGAGTCGATCCCA
TCACTGGCTTCTTGTATACATGGCGTCCTTGTCTTGCCTCTCTTTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTGTCTTGTATCTTCTGTCGTGCATCTTCTCTCATCATTCTCGCTAC
ACGCGACGAGCTTGAGCGTCGGTTCGCGGCTACAGCGGTGGTAGCGCTCG
ACCAGGCGCATTTCACGTTCTTTCGGGCGCAAGCGACCATGGATCAGTAC
AAGCAGCCCTGCTGTTTTTTTTTCGTCTTTTTCTGTCTCGTGCCTGCCCT
GACCTACTGCATCTCCCTCCCACAACCCTCCCCCTCGTCCCCCGTCCCCC
GTCCCCCGTCCCCTGCCCCCTGTCCCCCGTCCCGTCCCCCGTCCCCTGTC
CCCTGCCGCGCGCCCGCTTGCATCGAACGCGCCCCTTTGCGTCTACTCCG
GCTACCTTCATCGGAAACCCAACCCAACCCAACCCCACGCTACGATACAC
GGTAACCACGTGCTGTCTCTCGAAAGGCCGCACGGAGATTATCACGAACG
ACCAGAACCCGAACTTTACCGCGCAGTTTTCGCTTACTTATCTGTTCGAG
GAGGTGCAGAGAGTGCGGCTCGAGGTGTACGACGTCGACACGGCTTTCAA
AACCAACGACGCGAGCAATGTGGACTTGGGAAAGCAGGACTTCCAAGGTT
TGAAAATAGTGAACTCGATGAGAGGGGAGGGAGATTCTGCTGCTGTCGAG
AGCTCACTTTTTTTTTTTTTGTGTTTGATGTACTTGTGTCTTGTCTTCCC
ACGCGCTTCTTCCTCTTTTGTGTACATGCAGCGGTAGCTGTAGCTGCCGG
AGTATGCTCTTTGGGCGTTTCGAGACATTCCCCTGTACAAACATGCACAG
GAAACGTATATACTCCGTATCTATCTTGAGAGCTGTCTTCGTGCGTAATT
TCAGCGAAAAACAAGAAGAAACTTTGCAGTAGCAATGGGCAGGCGGGCAG
GCGTAACGGGCACTCTGTCGTTTCGTGAATAAGGGTACCAGTCAGTCATC
CACACACCCTCACTCGGTTGTTTTTCCCTTGGTCCCTTAAACTGCTGTCG
TCAGTTCTCGCTGCCGTCCGTTTTTTCTGTTCATTTCTCCTGTGCTTTCT
TTGTCGACCGCTCGACGATGGCGTGCACATTCGATTCAGACACCTCCCCT
ATTTTTTTCACGTTATAAAATAGTCGCTGCCGCTGCTCCCACTACTGTGT
GTTTTCCTGTCTACTGTTGCCTGTCGCGTCACCCTCATTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTGTCGTTGTCGTT
GTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTCGTTGT
TGTTGTTGTGTTGTTGTTATTGACTTCGTTGCTTCTGTACTTTTTGTTGT
CGTGCAGGTTTTGCCGAGACTACGCTGGCGGAAGTTCTGGGAAAAAACGG
GCAGACCTCGACGCTGCCGCTGCAGTTGAAGACCGGACAAGCCGGACAGT
CAACGGTGTCCATCCGCATGGACGAAGTGGAGCATCAGCACGACTTGGTC
ACCCTCAAGTTACGCGCGACGAACGTGAGGATGGAGGGGGGGGGGTACGG
TTGGGGGTGGGAGGTGGGGGGGTACTTATTTTTTGCTTGATCATTTACAT
TATTCAACTGCATGCCTAATAAATACTGGTACACCTGTACAGCTGTGGGG
CCGCGACTCAGCGTATTGAGTTCCCACGGACAGGAGGAGAGGGAAGCAAA
GGGAAggcgGGGGGGGGGGAGAGGAGATAGGAAGAGACTCTTCCATCCAC
TTTTTCCGTTCTCTTCCCAGCAGTTGCGGGGATATTCTGTATCAGCATGG
AAGACAATATGCGAGGGAGCCACCCCCACACCATCCCACAGCACCGCTAA
GTCACATCCTCCGAACGAACGGCTCAACTTTTCCCCTCGTACGTCGAGGT
AGTCAAATGTCGCCAAATTATTGTTTGTCACTGGAAATATCACGTGACTC
CCAATACATCAACTTTTATCTCGCAAACCGCTCAATTTTAAAACGTACTT
CGAAGTATTCTTTGAGCAAGTGTAACGCGTCGCCAAAGAAAAAAGGCGAC
GCGTTACACTTGCTTCCATATGACAGAGCTTTTGCTACAAAATGTTCTTC
TTTTATGATTTCTCACTCACAGGGGGGGTAAAAGGGTATACTTTTCAAGA
TTGAGACGCGCGGGAATTCCCTCCTCTCTGTGCGGGCGCTCTTGGCGCTA
TTTTTGACCGACGCCTCCTCTGATGACTTTGACAAACATTCGGTTTTTGT
TTGTTGAGTTAATTGCTGCTGCCTCTGCTGCTGCTGCTGCTGCTGCTGCT
GCTGCTGATGATGATGATGATGATGCTTGTGCGCCCTAAGTTGGCGAGTA
CGAATTGTTGTTGTCTTGGTTTTTGATGCGCCGCTGGTGGTGGTGGTGGT
GGTGAGTAGTAAAGTGAGCCGGCGCCCGCTTCTGACGCGTGGCTGTTGCG
CGTCGTGTGACTGAACGTTTTCTCCTTTTTTTCTAGAAACGTCCGCCCCC
GCGCATCCCTCGGCGCGAGTCGCATCACCGCTGTTTGCTAAACGAGTGAT
GATATGACGTGGTCTGTGTGGAAATTACAATTTGGCTTACTGCTCCTCGT
ACCGCTGTGCCGGTCATAGCGTACGTTGATTCATGCCTTTCTTGGATGCG
CGTGTTGTCTTCACATTAGAAACCATTCCGATCTCTCGTCAGTACCTTCT
AATGTCCGTACTCCTCCTGTCATGAACGATTTCCGTCGCCACGGGCTGCT
TACCCAAAAGGGGTATATCGTACGCGAGAGATCCCATCAATCCACGAAAG
GTACGACAATGAAACTCCGGCAAAACAAAACGGACCCCGAAATATCACAC
AACGCTACAAAAATCGAAACAAGAAAAGGGAGCCCGGTCCAGAGAAAAGT
CAACAATGAAACAGAAAGGGACAAAAAATATCGAATTCAGTTGCCAAAGG
TGCCGAGAAAAATGAACATCGGGCTTGCAACTCTCTTCACCGGTCCAGCG
ACAAAATTCCAGGCAACGCAAGCAGGCGTGAAAGGGTAAAAGGCAGAATA
TTCCCGTGCTTTTCGCCAAAAACCTGGACGCGTTGGCAAGAACGAAAGGA
AGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAG
GAAGGACAGGCAGACAGTCTCGAAGCAAAATTGAACCGGTTTTTTTCTTG
TCCGACAACTGAAGCGTTTTTTTTTGTTCGTCTTGCTTTTGTCTCGACCA
CCCTACCGCTATCGCTGCCCGCGCTGCGCAGACGAAAGTACATACTCCGT
ACTTGTACGTGGCAACCAAAAACAGACGTGCTGTATGAAAAACCAACCAA
CCAACAACCAACCAACCAACCAACCAACCAACCAACCAACCAACCAACCA
ACCAACCAACCAACCAACCAAAACCGCCCCCGCCTTTTCCGTCAGGTTGA
TAAAAAAGATTTGACGTCGAGCGATCCGTACCTGAAGCTAGCGCGGGTGC
TGGAGACGGGGAAGCAGACTTACATTTTTAAGACCGAGGTGCAGAGCCGC
ACGCTCAACCCTGTGTGGAAGGAGATACAGGTGCCCGCCTGCCTGCGTGT
CTGAGTGTGGCGTGACGACAAGTTGCGTTGCGTTGCGTTGCGTGACATGG
AGGAAGGGATTTCGCGACTGTCCAAGGCTGGCTGGCAGTGCTGTTTGCCT
GGCTGCTCAATCAGCAGGCTGTCTGTGTCCTTGTTTTGCATGCGTGCGTG
CTTGCGTTGCGTCGCCCCTGGCGCATGTGCCAAAGCAAAGTACGGCCGTC
GTTGCACATGGTACCGATCACAAAAAAAAAATTGACCGCGGCTTACACCC
CCCCCCCCCTCTTTTTCTTTTGTTTTTTTCCGTCCCCCCGCACACCCTTA
CGTTTTGCTGCATGCACATATCGTCTTTGCCCCGTCTGTCACCACCGTCG
TGCGTGTATATACGTGCGCACAGGGTACAGTTCAGCAGTTAGCCAATGGC
GATCTCCTGCGGCCCTTGCAGGTGGAGTGCTGGGACTACGATAGGGCCGG
CGGGCACGACTATATAGGCGGTTGCTCGGCGTCCATAACCGACATGCAGG
TGTGTGCGTGTTCTCGGGGGGGGGGGGGTCCAGTTAAAGGCCAGGTTTTC
TCCAGAACCACCGCGCGTTGCGGTCTACCTCACACACATGTGCACAACAC
GGTCTCATGCGATTATCTCTGTTCGAGGAACAAAGTGACCTGAACGATGG
ATACGATATTCCTCCTCCCCCTCGTGTGTGCGTCCCCTGTCCCCGATTCT
TCCTCTCTCCCCTCCCTGCTTGCTCGTTCGTTGTTTTCGCTCCTCTCGGA
CGATGATCAGAGATGGTCCACCGGCGTCGACGAAGCGGCAAGAGGGCCCG
TCTTCATAAATCCGAAGAAGCAGAGCAACCCGAACTACAAGGACTCTGGC
AGGCTGGTGGTTGACTTGTGCACGATTACGGAGCGCCCCTCGTTCTTAGA
CTTCATTGCAGGTTGGTGCTGTCTGTCACACTGCTGGCATACTGTACTGG
CGGCCGTATGCGGCACACGGCACACGGGGGGGGGGGGGGGGGGGGGGGAG
GGGGGGGTCATTGATTGGGCTGTCGATTGATTCGTGCGTTGCGTGATTTC
CACATGCATGCGTCGTCCCGCGGCAACGTACCGTATACCGCATATGACGG
CGTATATCACCCGTGCACGTGTAAAACCCACGCCCAAAGTATTTGGAGAG
TAATTTGTTGGGCGGGGGGGGGATGAATTATGTTCCAAAGACGTCGTGAA
GTCTTTGCCGATTTAACAGGCACACATAGTGGCACCGCCCTGGATGAAAG
TCACCGGTCGACCAGGGATTTTTCCACCAACCGGAAATTTCCTTGAAAAA
CAAGAATGACCAATCAGGAAACTGCGGGCAACCTTTCTCTCTCTTCTCTC
TTTTCGTAAGTACTTCGTGCGTGATATCATCTGGCCTCACCTGATGCGGT
GGGCGATGTAATGGTGCCTGCATTGGTTTCGGAACATCAGGTGGGACAGA
AATTTCCTTCACGATGGCGATCGATTACACCGCGTCCAACGGGAGCCCCG
CCGACCCCCGCTCCCTCCACTACGTCGACCCGGCGGCGATCATGCTGAAC
GACTACGCCAAGGCGATGAGCGGCATCGGGAGCGTGCTGGAGTTCTACGG
TGAGAGATGCTACTAAAAAACTCGAGACTCAAGTACTGTCTGTACCATTA
CGAAAAGCATGTCGTAGATATGCACTGGACGTGATGATATAATACGCTAC
CGGGATTCCCTCCGTAGTATTGAAACCCCATGGTGTTTGGGTTCGGGTCG
AGCCGGGCGCGTCACCTGATAGTCTCTTAGCGGCAGGATGGACGGTCGGT
GGGTAGGTGGGCGACTATCGCAGGAAGAACCCACACGTGCACGCGAATGT
ATGATTCTCCTTTTCATTCGACGTGACGAATAAAAAAAAGAAAACAAGAA
GGAAGATCCTTCTTGTTGGCCTCAAACGGCAGGCACACACACACACACAC
ACAGAAAAGTCACCGGCGAGCAAAATCCCAAGGAAAAACAACTCAAACGA
AAACTTCACGTATTCCCAGGCCGGTAGGCGCCAACCACATGCCCACCAGT
GAACGCATCCCATTGTCCGGGCCACCCCGCTCGCCTCGTTTTTCCTTAAC
AATACCCATCATACCATATGTGATATCGTACCGGACTGCTGTGTAGACAC
TGACAAGAAATTTCCGGTGATCGGATTCGGGGGAAAGCTGGGCCCGGAAC
AGCCGGCGAACCACGCGTTCGCCGTGAATTTCAAGGAGGACAGCCCCGAG
GTGGAGGGCATGGCGGGGGTGCTTCAGGTGCGAGAGAGAGAGAGAGAGAG
AGTCAGTCGCGGGCTGCCGAAGCGCGGTTTGGTGCACAAGTGCAACGACG
CGGCCGGTCCGGTGGGAGCGAAGTGACCACACCCTGCGGTAAATAAAATG
CACCAGTATCATTTCGTGTGCGTAAACAAAATCAACCGCGGGGTATGATG
TGCATGCACGAGCACCGGCACATGATATCGAATAATCTAATTCAGTCAAA
CGTTGGGTTTTCCTGCACCTCACCAAGTTCTCGCGCCCAAGGATACTGTA
ATGGTGATATCATATGATATGGTGGTGTTTCCATATTTTATTTCGGAAGG
AGCGGACCCCCCGCACCTCGCACCTTTCAGAATCTAGCCTGTGGTGGGGG
GGGGCGTCTTTTGGACATGGTCGTACTCGTTTCTGTCGCTCCACGGCTCG
CCGGGGGGAGCTTGGTGTACACGGGGGTCTCGAAACGGATCTATGTGGTC
TGTGGGGTTTCCATGTATTGTATGCGGTGGAGCCATGTGGTACGTGGTGT
CGAGTAATGATGTGACGTGCCCCCCCCCCCCCCTTTGCGCGGACCATTTC
TGTGTTTCTTCCTCTCTGGGTAATCAAGTGATCGGGTCAACCAACCTTCT
CCCGGCGCTTCTCTTTGACTAGGAGCTGTCTCCATCATGCTAACACGATA
TCATAGGAGCGCCTCCCCCCGCCCCCTTCAAAGTCGAGCCCTACGGTGGG
GGGCGTTTTGTACGCACCTGATGTGATCACATCCGTTTCTGTTCCCTCCG
CGTTTGTTGTGTGCGGTTGGTTTGATTGATTGATTGTTCGTTTATACGCG
TGTCACCGCAAAGGCTTACTACGCGAGCCTGAGGAGGGTGCAGCTGTCCG
GACCGACGCTTTTTCAATCGGTCATCAACCAGGCAGCTCAGATAGCCAAC
AGCACGAAACACCACAACTCTGTGAGGATGCTGTACGGTCGAGAAAAATG
GTGCCCTTCGTTTGAGACTATGGCCGCGCATTACTTTCGCATACTGCTGT
ATCATGCGTTTTCGTTTTCGTTGTTTTCTTCCGAGTACTGGCGCTGGGCA
AAAGTAGCCGTGGTTTGTCTCTCTGCTGGCGGAGTGTTTTTTTGGCGTGT
GTAGAAAGCGCCGGTTTTGTGTGTTTCAAGGAGCGCGGTATCGTATGTTG
CTTTCGCACGGAGCATTGCTTCTCCTCCTCGCACGTGCTTCTCGCGACCA
AGAACGACCCAGGCATTGTTGTGTAATTGACCAGTGTAAATATCTACTTC
AACAAGCACGAGGTAGGAAGGATATAATTTTGTTGCTTGTTTTTGTCATT
TATGGGCGGTTCTGTTCCCTTCTTTTAACGCATCGACGTTTTTTTTTTTT
TTCAAATCGGTACTGCAGTATTCTAGAGGCTTTGTGCCGTCTCGCTTTTA
CCGTAAGCCAATGCTAATGTGCACGTTCACGAAGACTGCTGAGAGGGAGG
AGAACGCACAGCAGTACCGCAGGCCTTTCAAGACACAAAGAGACAAAAAA
TGGCTGTTGTGTTAAATATTCTGTGTTCCCGGCGCGCGTTATAACCCCCC
CCCAACTCTGCTCGTTGTTTCGTTGTTTCCGCTGGGCACGGCGGCGACCA
TGCTCGGTGACGTGGACGTTTTTTTTTTTTTCTCCTAAAGAATGAAAAAA
ATCGTGTGTTGACCTTCTTCCTGTCTGTTGTGACCCCCCACTGGTATTGC
GCCCAACTTTTACCGAAAAGGTAGGTGTAGAAACTGGCCTCGACAGCAGT
AGATGGGAGAACAACACACACACGCATACATACATATCTACACACAGAGA
GACACACACACAGGCACACACACTACTGCTGCTGCTGCTGCTGCTGCTGC
TGCTGCTGCTGCACGTCCTCTTGCTCGCGCGCAGGTTGGCCAAAAGTACC
ACGTGCTCTGCGTGCTGACGGACGGCATCATCAACGACATGGTGAGGCAG
CTAGCAGTGCTCTTGGGCGATAAAAAAAGACGCAAAAACTTTTTATCCCG
TCGTTTCGTCTTGAACACGCACAATTACTTGCGCGTGCGTGCTATGCACG
AGTTCGATTGTAGTTCCGGGCTTCTGCGACGAATTCAATTTCGTTCGGCA
TCGTCGCACTTTCTACAGCAGCGGCGAAGCCAAAATGGCTGTCATGCTCC
TTGGCGGCGAGCAACGCTCTGATTTTTTGTTTTTCCCAGGGGCAGCGGAC
GAGAAGCAAAACGCGGGTGGGGTCCAACAGTTCCAGCCGAACCCCACCCA
ACCCACCCAACCCTACCCTACCCAACCCAACCCACAACGCCCTTACGATA
GCTGGTCAGCACCCGGACGAGCAAAACGACACGCTGTCGTTCCGACACCC
AATCACCCAATCACAGATGATATCTTCCGCGTCGGATTTCTTGCCTCGTT
TTTTGTTACCCATTGTTTAGTATCTTTGTCTCTTCACACGCACGTGTTCC
TTGCTTTCTCCTCGCGTTGATTCGTTACTGATAACAATCATTTATTTACT
TTTATGTTTTGTGTGTGTTTGTGTGTGTCATTTGTGTCTTTTGTATCTTT
TGTGTCTTTTGTGTCTTTTCGTCTCCTTCTCGACCACGACGTGCACAAAA
AACGATCGCATCGCATCGCATCGCGTCGCGTCGCGTCGCGTCGCATCGCA
TCGCATCGCGTCGCATCGGCGTCGCATCGGCGTCGCAGGACGCGACGGTC
GCGGCCATCGTGGACGCGGCGGACGCGCCGCTCTCGATCGTGATCGTGGG
CGTGGGTGAGGGCGACTTCGCCGCGATGGAGCACCTCGACGGCGACCGCC
AGCGGCTCACGTCCCCCTTCACCGGGAAGGTCGCCTCCCGCGACATGGTG
CAGTTCGTGCCGTTCCGAGAGTTCAGCGGTTTCGGGTCCGCGGCGCAGCA
CGCCCTCGCCAAACACGTCCTCGCGGAAATCCCGGGGCAGTTCATCTCGT
ACATGGAAAGCAACGGCATCGCCCCGGCCAATCGGAGGCCGCCAGGAAGC
GTCATCCCCACGAGGGCGGGGGCGGGGATGGGTTCTAATTCTGCTCCTAC
TCATTCGGAGGCCCCTCCCATGATGCCGGCGCAAGCACCGGGGTACGGCG
GCGGAGAAGTCGGGGATCCGAACGATTTGCCTCCACAGTACACTGCGTAT
TGATCTTGCTTGAGGTCTAGGCGGGAGGGGTGGTGTATGGTGTATTTTCT
TTTTTTTTCCCTGGTTTTGGTTGTATGCAGGCCTATTGGCGTGTATGAGA
GGGGTGTTTTTTTTGGGCCAGCGATTGGTGGGGTATGATCTCCGTCTGTT
TTTTGTTAGTTCCTTTGGTTTGCTGCTCTCTCTTCTCTCTCTCTCTCTCT
CTCTCTCTCACTGTCCACCAAGTAATCAAGGCAAACTCACCCCCTGGTCC
TTTCTGACATTGCCGGCCGATACAGCAGTGACTGTAGAGCACCTGGATTC
AATTTCTCGCCGATATAGTTTTCTGGGTTGGTTTGCTTGACTTCGCCCCC
CTCACGGAGCAGCGTAGTTGCACGGTTTGACGGGACGCTGCCGTCGATAT
CACTGTGGTGCGACAAAATATGTCTGGCGTCACGGGAGAGGTGGTTTTTT
CTTTGCAACATCCCTTTTTTTTGTACAACAACGTTGCCTGCAGTAGACTT
TCGGTATACAAACACCCTGTGCGGCCAAAGGCGTTCCTTTTTTTTCAGCT
GAACGTATCGCTCGCTCTTCCGAGGTCACACAGGCAGATGGATTTCGGTA
CCCCCCCCCGCCCCCCTCCCCGCCCAACTGTTCTGCTGCAGCAGTTTCCC
ATCCTAGCGTTGGTCTCGAGTGTATGGCTGGATTTTCTTTTTCGACGATA
ACAAATCGTCGACAATATTCTCCCCCCCAGTGAGTGAGATGCTCTCATGA
GTGGGTGTTCGGCAAAAACTCTTACCGTTCTGGTCAACGATGTGAGGCGT
GAAGGTCGCAGAGAACTTTTACCTCGGCATGGAGACTCAGAGAGTATTCT
CAAAGATCAATGACACCCCTGCCCTGTTTGTGGTTATTTGGTTTTTACTC
GATTTTTTCGGGTGGGTTTGGTTTCGTAATTTTTGCCGCACTGACAGAAG
AAACCTCTTGATCTCTTGGTCGGTTTTGTTTGCTCACTGTGTATTGACTT
CTTTTTAGGAAAATCAAAAGAAATAAAACATGGAATAATCGAGTTTTTTT
TTTTACTTGTGCGTACGTCGTAGCACGACATGTGCCTGATTTGCAACCAC
GGGCTATCATATGCATAGATAGACATTGGCGGTGAACTCGTAGTTTGAGA
ATCGCCAGCATCATCAGCAATGAACGAAAACAACAAAGCAACACGCACGA
CCTGACCTGTCCATCTATCGCATCGATCGAGGAGAGGGTAGGTCTCACAT
GAAGCGCGGGGGGGCGATCGGCTTTCGCAACGCATATTGCGTAGAATAAA
CGTACTTGCTAAGTTATGGCTTGGTACAACAGTAGGAGAATGCCTGCGCG
GTCAAGGAAGTGCAGGGACGCAGCCAATGCCGACAGCAGTTGGAGTAGCA
GCTGTAGTCGTTTTGTGGTAGTTTTGTTTTGTCTTGTTGTATTCTATGTT
GTCATACGTCTTGTATAGTTTTGTTTTCATCGTTGCCATTCGCAACACGC
ACGTACGCCAGGCAGTCTAGTAATATTGGCTTGATTGATCGTCAGCCGGC
ATATTTTAGGGGGGGGCCGGCGGCGGTGCTCGCTCGTCATGTTGTACAGT
GATTTTTTCGTCTGCAAGAAGTAAAAATAATAACAGTATTTAAAATACGA
TAAGAATAGTGCAGCCTGAGGCAAATAATGATGGACCAACTTTATCTACC
GCAGCAGGCTCGGTTTTGAAATGGATGAAGACGGTGCTTCTTCTGCTGGA
TGTTGGTGTGTACCCCTGCTGGGTATAAGCTTGTATGTATCATACTTCAA
AGTGCGTGCAGCAGGATGATACTTGTTGGAATAAATTGTCTCTGCAGCGC
TGCAAAAGAGCGCACACGGCTGTTGGTTTTTATTCAAGTAACAGGGCACG
GCGCAGATCAATGCGTGCGTGTGTTCCTGGCACCACCACTGTGTTGAGAT
TACGGACGGACGGACGAGACGGTCGGTCTTGGTCTGGCACGTACACGTGA
TCCCTCCGTCCTCCTCAACATACAAGGAGACATTGCTTTGCTTCTGTATT
TTCTGCCCGGTTTTACTACTCTGCTGTGAGTGAAGCGCAGCACACCTGCT
GTGAGTAAAGCGCAGCACGCCTGTTGGATTTTTGCTCAGGGATGCTCCCC
CCCCCCGCTCCGCATCCTCCATGATTGCAGTCCGAATAATCGACCCGATT
TTTTTTTTTGGTTTTAGTCGTGACAGATACCAATCTTTTCAAGGATTGGA
ATATACTTGCAGGTAAAACGAAGGAAGCCACGTGGATATCATACCACCAT
CTGAGCCAACCAGCAAAAATAAAATATAAGTTGAAACAGTGAAATGGGAG
GGCC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig122:453633..488236+ >mRNA_P-littoralis_Contig122.153.1 ID=mRNA_P-littoralis_Contig122.153.1|Name=mRNA_P-littoralis_Contig122.153.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1917bp|location=Sequence derived from alignment at P-littoralis_Contig122:453633..488236+ (Pylaiella littoralis U1_48)
ATGGGTTGTGGAAGCTCGTCGGAGAACGATCGCAACGCGACAAATCTGGG
AGATCCCAACAGTAACTACAGGGACGAGGATGCGGAGGCGACAACGGCAG
CGTTCGCTACTCGGCAGGGGTTGGGGAGTAGGGTTACCGCAAACGTTTGG
TGCAAGGACCTAAGGAAAATGGACAGAATGAGCAAGTCGGATCCGTTCGT
CGTTGTGAAGTGGAAAACAGACTCTGACGACGCTTGGCGAGAAGTAGGCC
GCACGGAGATTATCACGAACGACCAGAACCCGAACTTTACCGCGCAGTTT
TCGCTTACTTATCTGTTCGAGGAGGTGCAGAGAGTGCGGCTCGAGGTGTA
CGACGTCGACACGGCTTTCAAAACCAACGACGCGAGCAATGTGGACTTGG
GAAAGCAGGACTTCCAAGGTTTTGCCGAGACTACGCTGGCGGAAGTTCTG
GGAAAAAACGGGCAGACCTCGACGCTGCCGCTGCAGTTGAAGACCGGACA
AGCCGGACAGTCAACGGTGTCCATCCGCATGGACGAAGTGGAGCATCAGC
ACGACTTGGTCACCCTCAAGTTACGCGCGACGAACGTTGATAAAAAAGAT
TTGACGTCGAGCGATCCGTACCTGAAGCTAGCGCGGGTGCTGGAGACGGG
GAAGCAGACTTACATTTTTAAGACCGAGGTGCAGAGCCGCACGCTCAACC
CTGTGTGGAAGGAGATACAGGGTACAGTTCAGCAGTTAGCCAATGGCGAT
CTCCTGCGGCCCTTGCAGGTGGAGTGCTGGGACTACGATAGGGCCGGCGG
GCACGACTATATAGGCGGTTGCTCGGCGTCCATAACCGACATGCAGAGAT
GGTCCACCGGCGTCGACGAAGCGGCAAGAGGGCCCGTCTTCATAAATCCG
AAGAAGCAGAGCAACCCGAACTACAAGGACTCTGGCAGGCTGGTGGTTGA
CTTGTGCACGATTACGGAGCGCCCCTCGTTCTTAGACTTCATTGCAGGTG
GGACAGAAATTTCCTTCACGATGGCGATCGATTACACCGCGTCCAACGGG
AGCCCCGCCGACCCCCGCTCCCTCCACTACGTCGACCCGGCGGCGATCAT
GCTGAACGACTACGCCAAGGCGATGAGCGGCATCGGGAGCGTGCTGGAGT
TCTACGACACTGACAAGAAATTTCCGGTGATCGGATTCGGGGGAAAGCTG
GGCCCGGAACAGCCGGCGAACCACGCGTTCGCCGTGAATTTCAAGGAGGA
CAGCCCCGAGGTGGAGGGCATGGCGGGGGTGCTTCAGGCTTACTACGCGA
GCCTGAGGAGGGTGCAGCTGTCCGGACCGACGCTTTTTCAATCGGTCATC
AACCAGGCAGCTCAGATAGCCAACAGCACGAAACACCACAACTCTGTTGG
CCAAAAGTACCACGTGCTCTGCGTGCTGACGGACGGCATCATCAACGACA
TGGACGCGACGGTCGCGGCCATCGTGGACGCGGCGGACGCGCCGCTCTCG
ATCGTGATCGTGGGCGTGGGTGAGGGCGACTTCGCCGCGATGGAGCACCT
CGACGGCGACCGCCAGCGGCTCACGTCCCCCTTCACCGGGAAGGTCGCCT
CCCGCGACATGGTGCAGTTCGTGCCGTTCCGAGAGTTCAGCGGTTTCGGG
TCCGCGGCGCAGCACGCCCTCGCCAAACACGTCCTCGCGGAAATCCCGGG
GCAGTTCATCTCGTACATGGAAAGCAACGGCATCGCCCCGGCCAATCGGA
GGCCGCCAGGAAGCGTCATCCCCACGAGGGCGGGGGCGGGGATGGGTTCT
AATTCTGCTCCTACTCATTCGGAGGCCCCTCCCATGATGCCGGCGCAAGC
ACCGGGGTACGGCGGCGGAGAAGTCGGGGATCCGAACGATTTGCCTCCAC
AGTACACTGCGTATTGA back to top
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