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Homology
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: D7FSC3_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FSC3_ECTSI) HSP 1 Score: 1617 bits (4188), Expect = 0.000e+0 Identity = 812/1023 (79.37%), Postives = 893/1023 (87.29%), Query Frame = 1
Query: 1 QAIDIPQRSSQTLLDAGMNVRSNQQPA--GGGGQHSVATFSNPAGVTNVSVPPDTGSQSGRSVRMAPEPDIYDIIEADNTAMERVHKAKVREMANSTPTHSSNTSMIGRGLSRGILKRGKS-RRQGADSVHAGFSDVKSVSRFDPDEPPRSYLHSREESMLNDNDGSMAASPGTMLGRHLGRLNFPGHKSAPSSNSPRASEVSGLQTPGTPNPGPWNRAPSSVGSRFSVRRFMTGSRMGSFKRASGMDEDDQDSNLFFDRVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVLANLLE 3060
Q ID+PQR+ QT+LD GM VRS+ P+ GGG S+A FS G++NVSVP D R VR A EPDIYD+IEADNTAMERV K+K R++ANSTPTHSSN S+IGRG ILKRGKS RR G+DSV AGFSDVKSVSRFDPDEPPRSYL SREESML + GS+AASPGTMLGRHLGRLNFP H VGSRFSVRRFMTGSRMGSFKRASGM++DDQDSNLFFDRVYCANPQE RLFPSA+LVR+LA AN LG LYLHWR+T+TFP + RWDYM W YWWW FF AE FLAIAVW+GLAQRLFPVQRIKVTMDDITSVDDQVGYNARV ILLPTAGENLEVVFKALVG++SQRLWDSGLP QTLRV+VLDEKRR+EVYRV AG+HRIGELLAGRR+QQILMAEGVTELT KGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPI+AAAWNAA++ K+N+ ++E MAE+++AARSEAEAKMLGASAMN+TPGF+E++G+ +N + + ++ KGLPTL+YYSRK+AGTPKISPKAGNMNAAIFP+DDP PL G++TIVVVNDARHQLE NFLQRTVPYFFEL GG PTVASGGRYRWAKVAFVQTPQRFRMEL+NDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQ+PDGK+VDDP +L+LVG KLGFRSEMLIEDTHTSI+LFRQGWRSVY+NEPGEVLAWCTHQP+SLTWRIKQVLRWHQGAVQLLLFKG+RYTS GG++PT+WHRLYAFD ATYYLQA+PGYVLL+MPIVYGVTG PPFVT LKDYF YFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQI+AF+QV+WT +TR+S ENAWVAKVPTWPL VF GQ+ +V GGVYWV+ KGFV+WYANFFSI+VVAGLAMHALWPMVSLSLGWS+PSFYYIKLFLWVFLGFSAVVL N+
Sbjct: 29 QMIDVPQRA-QTMLDDGMQVRSSAAPSENGGGAPASLAMFSTAGGISNVSVPRDGSVSGDRGVRAAQEPDIYDVIEADNTAMERVTKSKARDIANSTPTHSSNHSIIGRG----ILKRGKSSRRPGSDSVRAGFSDVKSVSRFDPDEPPRSYLQSREESMLGE--GSVAASPGTMLGRHLGRLNFPSHHQ------------------------------KGVGSRFSVRRFMTGSRMGSFKRASGMEDDDQDSNLFFDRVYCANPQEKRLFPSAHLVRVLAVANAGLGVLYLHWRYTSTFPPTVGRWDYMSWKLYWWWLFFSAEFFLAIAVWVGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVCILLPTAGENLEVVFKALVGALSQRLWDSGLPGSQTLRVIVLDEKRRLEVYRVAAGVHRIGELLAGRRIQQILMAEGVTELTQKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPITAAAWNAAAQAQKSNKPSVEAMAEMSDAARSEAEAKMLGASAMNITPGFFEVYGTHLDPDNMETSKEVQKGLPTLIYYSRKNAGTPKISPKAGNMNAAIFPVDDPTMTPLTGESTIVVVNDARHQLEGNFLQRTVPYFFELAGGHPTVASGGRYRWAKVAFVQTPQRFRMELSNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQRPDGKIVDDPTELDLVGKKLGFRSEMLIEDTHTSIELFRQGWRSVYVNEPGEVLAWCTHQPSSLTWRIKQVLRWHQGAVQLLLFKGIRYTSFGGHFPTMWHRLYAFDQATYYLQAIPGYVLLIMPIVYGVTGTPPFVTSLKDYFQYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIYAFLQVVWTGLTRKSPENAWVAKVPTWPLTFVFLGQVFAVAGGVYWVVQKGFVIWYANFFSIVVVAGLAMHALWPMVSLSLGWSIPSFYYIKLFLWVFLGFSAVVLTNVFN 1014
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: D7FSC4_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FSC4_ECTSI) HSP 1 Score: 809 bits (2089), Expect = 1.670e-273 Identity = 425/769 (55.27%), Postives = 525/769 (68.27%), Query Frame = 1
Query: 760 FFDRVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSG----LPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVLANL 3054
F R NPQ F S++L+R + NV G Y+ WR+ T E KW FF+ E+FL A+W+G +QRLF VQRI+ TMD I S+D VG NA VAILLPTAGE L+VV K L+G+ SQR W S + LRV+VLDEKRR EVY + +G+H + + ++IL AEGV LTP F +WC G+ + H++ D L+ AV ++R +D + + D + L+ S +SK+ E + + EL +L ++++TPGF+++F K ++YYSRKDAGTP+ISPKAGNMNAA+FP+DDP PL+G +TIVVVNDARHQL+ FLQRT PYFF++ A +Y+WAKVAFVQTPQRFR +L +DPLGNHA SQYDVIN GKDGIGAVSSSGQGSLWRVEALKG+ PDGK DPKDL LVG KLGFR+EMLIEDTHTSI+LFRQGWRSVY+NEPGEVLAWCTHQPT+LTWRIKQVLRWHQGAVQLL KGLRYTS GG +PT++HR+YAFD ATYYLQA+PGYVLL+MP+VYGVTG+PPF T + YF YF PFIVTA+LPT IS+QWR IDSHRLTRDEQTWLSTTYVQI+AF+QV WT + R + ++AWVA+VPTWPL LVF Q ++ G VYW + GF +Y N SI A L M LWPM++L +G PSF++ KL +V LG S V+L ++
Sbjct: 72 FVQRGEKINPQTKESFSSSFLIRGVVVLNVASGFTYMVWRFLKTQDVPPEY----KWXXX---VFFMVEVFLLFAIWLGHSQRLFAVQRIRTTMDQIVSIDPAVGANAVVAILLPTAGERLDVVLKCLLGASSQRSWPSSSAAKMGRGDGLRVIVLDEKRRKEVYMLTSGVHALSTQILAPSTRKILQAEGVRNLTPLAFYEWCHEKRGFGKVHIFKDVGLSRAVAMVRQMDDLVTGDDGGDLYRLDRNQSFLNQGLDE--------DISKSKEG--DEVEELTHG------VSLLADESVHITPGFFQVFRGQAKQ------------AACMIYYSRKDAGTPRISPKAGNMNAAMFPIDDPTSPPLIGPSTIVVVNDARHQLQPEFLQRTTPYFFDVD------AITQQYKWAKVAFVQTPQRFRKDLPDDPLGNHAASQYDVINIGKDGIGAVSSSGQGSLWRVEALKGRSPDGKTGVDPKDLGLVGKKLGFRAEMLIEDTHTSIELFRQGWRSVYVNEPGEVLAWCTHQPTNLTWRIKQVLRWHQGAVQLLYTKGLRYTSFGGSFPTVFHRMYAFDQATYYLQAIPGYVLLLMPVVYGVTGQPPFNTDITSYFSYFVPFIVTAVLPTVISAQWRSIDSHRLTRDEQTWLSTTYVQIYAFLQVSWTRLIRGNPDHAWVARVPTWPLTLVFAAQFVAIAGAVYWTLHNGFDTYYKNTLSICAGAFLGMFYLWPMMALQVGLGRPSFWFFKLGAYVVLGVSMVILGSI 799
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A836CP13_9STRA (Glyco_trans_2-like domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CP13_9STRA) HSP 1 Score: 786 bits (2031), Expect = 3.430e-261 Identity = 419/808 (51.86%), Postives = 534/808 (66.09%), Query Frame = 1
Query: 670 FSVRRFMTGSRMGSFKRASGMDE--------DDQDSNLFFDRVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTT-FPTDIERWDYMKWIFY-----WWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLT-DAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMEL-TNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVL 3045
+ +R + +R+ F++ASG+ D D N F ++ +PQ PSA+++R + N+C+ C YL WR T T F D DY I + W W F+ EI L IA+WIG QRLF VQR+++TMDDI DD VGYN+RVAILLPT GE L+VV KAL+G +S R WD+ + +C RVVVLDEKRR V + A ++ + ++ V IL AEGV +T KGF +W + G GY RKHLY+D LN+A ++L ++ + F LE P A V + ++ T + +A S +A +G + + PG+ + F N++ A LPTL+YY+R+DAGTPK+SPKAGNMN+A+F LD P PL+G +TIVVVND RHQL+ FLQRTVPYFFEL A G RYRWAKVAFVQTPQRF + +DPLGNHA QYDVINHGKDGIGAVSSSGQGSLWRV ALKG DG D K+ LVG +LGFRSEMLIEDTHTSI++FR GW S Y+NEPGE L+ CTHQP S+ WRIKQVLRWHQGAVQLL FKG+ +T GG +PTI+HR+YAFD ATYYLQA+PGY+LL+MPI+YGV G+PPF T + ++F++FTPFIVTA+LPT IS WR +DSHRLTRDEQ WLSTTYVQI+AF+ + W I + +AW + PTWPL VF G+ ++IG + WV +GF W AN ++V A LA+HALWPMVSL +GW +PS YY+KL W+ +G V++
Sbjct: 290 INAKRLPSQTRITEFQKASGVKAYGVMDGGVSDVDPN-FLTKMNKPDPQGMTPLPSAFVIRAIVVLNICVSCAYLWWRVTRTIFQID----DYFFGIPFLPVQGWAWAFYAVEICLTIAIWIGHTQRLFAVQRVRLTMDDIVREDDSVGYNSRVAILLPTNGEKLDVVMKALLGVVSLRGWDTSVEKCAAQRVVVLDEKRRKGVLNMAAAVYALATIVRHPNVLSILQAEGVHAITAKGFYEWWKTGGGYARKHLYNDHFLNQACRLLEYMEEEASTEAVAMSVFGLEELP----------AGVKGKQDVKRNSKKTTQA------SANSMLQAMNVGN--VTIEPGYVQTF-------NTNVA------LPTLIYYTRRDAGTPKVSPKAGNMNSALFALDYPDMPPLIGSSTIVVVNDCRHQLQPEFLQRTVPYFFELD------ADGQRYRWAKVAFVQTPQRFTNNVQADDPLGNHAAVQYDVINHGKDGIGAVSSSGQGSLWRVAALKGVDADGNSYADVKERGLVGHRLGFRSEMLIEDTHTSIEMFRAGWSSRYVNEPGEHLSICTHQPNSIAWRIKQVLRWHQGAVQLLFFKGIGFTVWGGKFPTIFHRIYAFDQATYYLQAIPGYMLLLMPIIYGVCGQPPFNTTVGEFFLFFTPFIVTAMLPTVISGSWRGVDSHRLTRDEQVWLSTTYVQIYAFLSMCWQQIRCKGTADAWAVRAPTWPLFAVFAGEFGAIIGALVWVSQEGFERWAANLICVIVSASLAIHALWPMVSLQMGWQVPSLYYLKLLAWLLIGIFIVLI 1055
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A835YSM9_9STRA (Cellulose synthase, family GT2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YSM9_9STRA) HSP 1 Score: 755 bits (1949), Expect = 1.280e-252 Identity = 402/813 (49.45%), Postives = 528/813 (64.94%), Query Frame = 1
Query: 634 PWNRAPSSVGSRFSVRRFMTGSRMGSFKRASGM-------DEDDQDSNLFFDRVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLT-DAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRM-ELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVL 3045
P +R P S+ +++R M+ +R+ +++ASG+ D D F +V +PQ PSA ++R + N+ + YL+WR T T T+I+ ++F +L + RIK+TMD++ DD VGYN+RVAILLPT GENL+VV KA++G IS R WD+ + +C + RVV+LDEKRR V + A ++ + ++ V IL AEGV +T KGF +W + G GY RKHLY+D LN+A ++L ++ + F LE P A V + ++ T + A + L + + PG+ + F N++ A LPT +YY+R+DAGTPK+SPKAGNMNAA+F LD P PL+G++TIVVVND RHQL+ FLQRT+PYFFEL A G RYRWAKVAFVQTPQRF+ + +DPLGNHA QYDVINHGKDGIGAVSSSGQGSLWRV ALKG DG+ D + +L+G +LGFRSEMLIEDTHTSI++FR GW S Y+NEPGE L+ CTHQP S+ WRIKQVLRWHQGAVQLL FKG+ +T GG +PTI+HR+YAFD ATYYLQA+PGY+LL+MPI+YGVTG PPF T + ++F++FTPFIVTA+LPT IS WR +DSHRLTRDEQ WLSTTYVQI+AF+ + W I + ++AW + PTWPL +VF G+ A+++G + WV +GF W AN SI+V A LA+HALWPMVSL +GW +PS YY+KL W+ +G VV+
Sbjct: 57 PQSRGPGSM----TLKRVMSATRIVEYQKASGVKATGLAGDGGPHDEPNFLTKVDKPDPQTMTPLPSAMVIRAIVIINIGVSLAYLYWRVTHTI-TNID-------------SYFFGITWLPV--------------RIKMTMDELVREDDSVGYNSRVAILLPTNGENLDVVMKAMLGCISLRGWDASVEKCISQRVVILDEKRRKGVLNMAAAVYALATIVRHPNVLSILQAEGVQAITAKGFYEWWKTGGGYARKHLYNDHFLNQACRLLEYMEEEAANEAVAMSVFGLEELP----------AGVKGKQDVKRNSKKTTQATAN--------HMLQALNVGNVTIEPGYVQTF-------NTNVA------LPTFIYYTRRDAGTPKVSPKAGNMNAALFALDYPDMPPLIGNSTIVVVNDCRHQLQPEFLQRTIPYFFELD------ADGQRYRWAKVAFVQTPQRFQTNQQADDPLGNHAAVQYDVINHGKDGIGAVSSSGQGSLWRVAALKGVDADGQQYADTQQRSLIGHRLGFRSEMLIEDTHTSIEMFRAGWGSRYVNEPGEHLSMCTHQPNSIAWRIKQVLRWHQGAVQLLFFKGIGFTCWGGKFPTIFHRIYAFDQATYYLQAIPGYMLLLMPIIYGVTGEPPFNTKVGEFFLFFTPFIVTAMLPTVISGSWRGVDSHRLTRDEQVWLSTTYVQIYAFLSMCWQQIRCKGTDDAWAVRAPTWPLFVVFAGEFAAIVGAMIWVSKEGFEKWAANLISIIVSASLAIHALWPMVSLQMGWQVPSLYYLKLMAWLIIGIFIVVI 800
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A835ZCE1_9STRA (Cellulose synthase, family GT2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZCE1_9STRA) HSP 1 Score: 753 bits (1943), Expect = 1.620e-249 Identity = 405/815 (49.69%), Postives = 524/815 (64.29%), Query Frame = 1
Query: 682 RFMTGSRMGSFKRASGMDEDDQDSNLFFD------RVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKW--IFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSG-LPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEA--------KMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRME--LTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVLANLLE*AR 3069
R+++ R+ SF A+G+ + + D + + NPQ S L+R++ ANV LYL+WR T+T T + +K+ + W W F+ EI L I + IG QR+FP++R V M+D+ DD VGYNARVAILLP+AGE L++V AL+G++SQ W G Q LR+++LDEKRR V + A ++ +G L+ V IL AEG+ KGF DW + G GY RKHLY+D LN+A +L ++ D+ L + PI AAA + A+ K E +M + +A V G+ F S+P LPTL+YY+RKDAGTP++SPKAGN+NAAIF +D P+ PL+GDATIVVVND RHQL FLQRTVPYFFEL A G Y WA+VAFVQTPQRF+ + +DPLGNHA QYDVIN GKDGIGAVSSSG GSLWRVEAL+G DG+ DP ++ +G LGFRS+MLIEDTHTSID+FR GW S Y+NEPGE L+ CTHQP S+ WRIKQVLRWHQGAVQLL +KG+ YTS GG +PT+WHR+YAFD ATYYLQA+PGY+LL+MPI+YG+TG PF T + D+F+YFTP+IVT +LPT IS W +D+++L RDEQ WLSTTYVQI+AF+ ++WT++ + HENAW K PTWPL VFFGQ+A++ GG++WV GF W N S+ A L MHALWPMVSL +GW +PS Y IK+ +W LG V++ +L + A+
Sbjct: 169 RWLSRGRVNSFAAAAGLRPSEAAGGAYADDAVVLKQQFKPNPQAFFALGSTPLLRLIMAANVGFSALYLYWRATSTITTIDTYFYNIKYFPVQIWAWVFYGVEICLTIGILIGHTQRMFPIKRAIVAMEDLVREDDCVGYNARVAILLPSAGERLDIVMLALLGAMSQSTWRGGNRTTSQMLRIIILDEKRRKGVLNMTAAVYALGTLIRNPEVVTILQAEGIDAENVKGFYDWWKFGGGYARKHLYNDPWLNKACLLLEYMEKHAGNGEDADSIFL------LSDMPIDAAAGSKAALHGKDVEEFARSMLQALNIPTPSPDAGXXXXXXXXXXXXXXXXVDAGYVHQFSSNPD-------------LPTLLYYTRKDAGTPRVSPKAGNLNAAIFAVDYPEDDPLIGDATIVVVNDCRHQLNPTFLQRTVPYFFELD------AEGQHYGWARVAFVQTPQRFKPDQMTLDDPLGNHAAVQYDVINRGKDGIGAVSSSGHGSLWRVEALRGADVDGRRYADPTVVDNIGKTLGFRSQMLIEDTHTSIDMFRHGWTSRYVNEPGEHLSICTHQPNSIAWRIKQVLRWHQGAVQLLFYKGISYTSFGGRFPTLWHRIYAFDQATYYLQAIPGYILLLMPIIYGLTGNSPFETRVADFFLYFTPYIVTGMLPTVISGSWGDVDANKLQRDEQVWLSTTYVQIYAFLSMLWTSLRCQKHENAWAIKAPTWPLFTVFFGQVAALGGGLFWVGKYGFRAWAQNLISVFASALLCMHALWPMVSLQMGWKIPSMYIIKILVWALLGGFIVLINHLSKLAK 958
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A835YVP7_9STRA (Cellulose synthase, family GT2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YVP7_9STRA) HSP 1 Score: 711 bits (1836), Expect = 1.650e-236 Identity = 370/754 (49.07%), Postives = 486/754 (64.46%), Query Frame = 1
Query: 784 NPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKW--IFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTL-RVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLT-DAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMELT--NDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLG 3027
+PQ T S L+R + AN+ LYL WR T+T T + +K + W WTF+ EI L I +WIG +QRLF V YNARV ILLPTAGE L++V AL+G ISQR+W G + +V+VLDEKRR V ++CA ++ + L + QIL AE + KG +W R+G G+ R+HLY+D LN A Q+L + + L G + F L P +P + ++ + +E + +A + A + P F + F ++ LPTLVYY+R+D GTP++SPKAGNMN+A+FP+D P LVGD+TI+ VND RHQL+ NFLQRTVPYFF+L SG Y W +VAFVQTPQRF ++ +DPLGN+A QYD+INHGKDGIGAVSSSG GSLWRVEALKG DG DP + L+G ++GFRSEMLIEDTHTSID+FR GW S Y+NEPGE L+ CTHQP S+ WRIKQVLRWHQGAVQLL +KG+ +TS GG +PTIWHR+YAFD ATYYLQA+PGY+LL+MPI+YG+TG PF T + ++F++FTP+IV+A+LPT IS WR +D+++L RDEQ WLSTTYVQ++AF+ ++ TA+ + HENAW K PTWPL VFFG+ ++ G ++WV GF W N S+L A LA+ ALWPMV++ +GW +PS Y++K+ +W LG
Sbjct: 10 DPQRTTPMSSHLLIRCVILANLAFSVLYLWWRVTSTITTINSYFFGIKALPVQAWGWTFYAVEICLTIGIWIGHSQRLFAVS----------------SYNARVCILLPTAGERLDIVMLALLGCISQRMWACGRKSKSAMFKVIVLDEKRRKAVLQMCAAVYALATLARSPSIVQILQAENAASIDAKGLYEWWRDGGGHARRHLYNDSHLNRACQLLEFMLRLSLCEGNEGNLFNLTEMPEDQLQSP---------DQKKRSARHLVEGL----------LQALNIPQGAAKIPPAFMQSFSTNG-------------ALPTLVYYTRRDPGTPRVSPKAGNMNSALFPIDYPDDESLVGDSTIIAVNDCRHQLQPNFLQRTVPYFFKLQQSAND-GSGLEYTWDRVAFVQTPQRFPKDMNAEDDPLGNNAAVQYDIINHGKDGIGAVSSSGHGSLWRVEALKGLAADGTRYADPTNRALIGSEVGFRSEMLIEDTHTSIDMFRHGWTSRYVNEPGEHLSTCTHQPDSIAWRIKQVLRWHQGAVQLLFYKGITFTSFGGKFPTIWHRVYAFDQATYYLQAIPGYILLLMPIIYGITGESPFNTEVAEFFLFFTPYIVSAMLPTLISGSWRGVDANKLQRDEQVWLSTTYVQVYAFLSMLATALRCQKHENAWAVKAPTWPLFAVFFGEFCAIGGALFWVARYGFDRWSQNLLSVLASAALAVFALWPMVAMQMGWRIPSAYHLKVLVWATLG 714
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A835YHN4_9STRA (Cellulose synthase, family GT2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YHN4_9STRA) HSP 1 Score: 633 bits (1632), Expect = 6.620e-205 Identity = 360/831 (43.32%), Postives = 476/831 (57.28%), Query Frame = 1
Query: 787 PQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIE------RWDYMK----WIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCL-ANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMELT-NDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIG--GYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGF-------------------------------------------------------------VLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVLANL 3054
PQ R YL+ N+ YL+WR T TDI+ +W W+ + W FF +E L I + IG +QRLF VQR V MDD+ VD + YNARV++ LPTAGE +VV KAL+G ++QR W + + +R++VLDEK+R V + A +++ E + +Q+IL EGV L W + G G+ R+ L+D L E ++ L+D + NG + PS + + + + N T+E + N + + PG+ + + S +DLL P ++YYSRK+ GTPK+SPKAGNMNAAIFP+D P++ PL+GD+TIVVV+D RHQL+ +FLQRTVPYFFEL T Y WAKVAFVQTPQRF + +DPLGNHA QYDVINHGKDGIGAV SSG GSLWRV AL+G +G+ DP +L LVG KLGFRSEMLIEDTHTS+++FR GWRSVYINEP E L+ CTHQP ++ WRIKQVLRWHQGAVQLL FKG YT+ YPT+WHRLY FD TYY+QA+PGY+LLVMPIVYGVTG+ PF + D+F+ F PFIVTA+LPT I +D RL+RDEQ WLSTTY+Q++AF + W T +AW K PTWPL + F+G+ +++GG++W+I F + W+ NF S++ A +A+ ALWPMV++ GW S Y KL +V +G + ++ +
Sbjct: 43 PQGKRFLRREYLIWATVLLNLATAAYYLYWRVTGGSITDIQNGMPGDQWVPDNPGPIWVRIYAWLFFASEACLIIGIMIGHSQRLFAVQRTVVNMDDLALVDSNITYNARVSVFLPTAGEKPDVVLKALLGCMAQRGWGAA-SKLSYMRIIVLDEKKRKGVLALTAAAYKLAECMLNPELQRILQFEGVLSLNAIDVFAWWKTGGGHARQFLHDHDLLYEICAIMELMDDIAKNENGGKGTWGKPKDPSKVRHFNLEVGDKSYFEK----NRATLEDIIMPN----------------VTIDPGYIKTYES----------SDLL---PRVIYYSRKEPGTPKVSPKAGNMNAAIFPIDYPEQVPLIGDSTIVVVDDCRHQLQPDFLQRTVPYFFELHKPSNT------YTWAKVAFVQTPQRFPFQKEKDDPLGNHAAMQYDVINHGKDGIGAVGSSGHGSLWRVAALRGLDANGRCYADPSNLRLVGHKLGFRSEMLIEDTHTSLEMFRAGWRSVYINEPNENLSVCTHQPDNIAWRIKQVLRWHQGAVQLLWFKGPWYTTFSPCAQYPTMWHRLYGFDQCTYYMQAIPGYMLLVMPIVYGVTGQAPFSATIFDFFVRFIPFIVTAVLPTVILGNRPGVDMDRLSRDEQVWLSTTYIQMYAFFSMTWQIFTCAKAGDAWTVKAPTWPLFVAFYGEFLAILGGLFWLIYNNFQNNRIQNNSSNAAEAFNINSNKEQIRINNLRPDLINEATKNSTQLRMTNEFIISNLIGYPQIQWFLNFISVVASAAMAIFALWPMVAMQKGWKPLSLYQSKLVAYVIVGGMIIAVSGV 833
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: D7FIF6_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FIF6_ECTSI) HSP 1 Score: 519 bits (1336), Expect = 9.520e-152 Identity = 308/773 (39.84%), Postives = 446/773 (57.70%), Query Frame = 1
Query: 715 KRASGMDEDDQDSNLFFDRVYCANPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRF--RMELTN-DPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALK-GQQPDG-KVVDDPKDLNLVGDK--LGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFG-QIASVIGGVYWVIDKGFVLWYANFFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLF 3009
+ +SG D + +++ + R + PQ T PSA+ +R + N+ YL WR T + ++ D++ W F F AE +AI + +G + R FP R KV MDD+T +D+ +G +VA+L+PT GE V+ KAL G++ RLW S TLR++VLDEKRR EV+++ + ++ + E++ + V++ILM EGV ++ KGF + NG +R +YDD ++V+ +D + N + + ++P A ++ + E AR + + PG +++ + K +PT+VYYSR DAG P+ISPKAGNMN AIF + PQ PL+G+A ++V+ND RH+L FLQRTVPYFF T P Y+WA +AF+QTPQRF R + + DPLGN A +Q+D++N G+DG G S GQGS+WRV+ L+ G +PDG K V + VG + LGFR+E+LIEDTHTSIDLFRQGW+SVY+N P E LA CT P ++ WR KQVLRWHQGAVQL ++KG Y +G + T + +++AFD +Y+LQA G +LL+ PIVYG T PF T ++ +YF PFI+T +LPT + W+K S ++ RDEQ W +T++VQI+A + +W ITR+ NAW K P WPL L F IA W W + S + A A+H+LWP+VS LG ++P +Y ++F
Sbjct: 1295 ENSSGSDHSENETHFYNRRRHVFEPQHTESAPSAWWIRTIGVINLLCMAAYLWWRITRS----LKGVDHIIWAF----IFLSAECIMAIGMIVGHSSRSFPAHREKVYMDDLTDIDEAIGA-LKVAVLIPTCGEKTAVMLKALFGNLQLRLWKSKNARRDTLRILVLDEKRREEVHKLVSLVYTLSEVVLDKTVREILMREGVAPISAKGFYEHFANGEHGQR--MYDDVNFIRGIEVVSEIDKLIAEND----------DNISRFSPSVA-------------------ISRIKERAR-----RASCFDRKEIQPGQKKVWNRN-------------KYIPTIVYYSRIDAGQPRISPKAGNMNRAIFSFN-PQEEPLIGEAAVIVINDVRHELYPEFLQRTVPYFF--TFDKPRRC----YKWANIAFIQTPQRFHDRTDWNDPDPLGNQAATQFDIVNSGRDGAGGALSCGQGSVWRVQVLRDGIRPDGTKFVKKGMPEDQVGQQGGLGFRAEVLIEDTHTSIDLFRQGWKSVYVNFPNERLACCTLPPDTVKWRWKQVLRWHQGAVQLAMWKGWGYAVLGENWGTTFQKVFAFDAVSYFLQAFAGEILLIFPIVYGFTNSAPFNTWNIEFALYFFPFIITGVLPTVAALGWQKTPSAKVMRDEQIWFATSFVQIYAVMHAVWGTITRKDPSNAWECKCPVWPLYLHFVAITIAVCFNTADWAARSYEEPWV--WVSCIGSALFALHSLWPVVSFGLGVTMPEAFYTRVF 2000
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: A0A835YIK8_9STRA (Cellulose synthase, family GT2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YIK8_9STRA) HSP 1 Score: 474 bits (1219), Expect = 1.270e-146 Identity = 296/716 (41.34%), Postives = 398/716 (55.59%), Query Frame = 1
Query: 940 WWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLN--EAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNA--------ASRVSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFR---MELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALK-GQQPDG-KVVDDPKDLN-LVGDK--LGFRSEMLIEDTHTSIDLFRQGWRSVYINEP----GEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFV---LWYANFFSILVVAGL-AMHALWPMVSLSLGWSLPSFYYIKLF 3009
W + FF AE+ L + + + R FP+ R +VTMD++ D Q G + +VAILLPTAGE L+V+ +AL G + RLW S C TLRV++LDEKRR +V ++ + ++ + E++ + V+ IL E V T + F + +G R+H + L V ++ +D + L + L+ +++ P A R S +NT ++PGF + + + + LPTLVY+SR DAG P++SPKAGNMN AIF D L+ A ++VVNDARH L+ FLQR +PYFF G Y WA VAFVQTPQRF DPLGN A +Q+D++N G+DG V S GQGSLWRV AL+ G +PDG K +D D L+G LGFRSE+LIEDTHTS+DL RQGWRSVY+ P GEVLA CT P S+TWR+KQVLRWHQGAVQL L G Y G++ + W R++A D TY LQA G +LLV PIVYG T + PF + + YF PF++TA LPT + W K S R+ RDEQ W +TTYVQ+ A VIW + RR +AW A P WPL F A+++ + I +GF +W + + AGL A+H+LWP+VS LG +LP YY ++F
Sbjct: 27 WGYIFFGAEVLLIVGLLVSHVSRAFPIHRERVTMDELVDSDPQTG-DLKVAILLPTAGEKLQVMLQALFGVLQLRLWSSSRARCDTLRVIILDEKRRWQVQQLASLVYTLAEVVLDKGVRDILRREEVPASTARAFYELFSDGL---RRHTMNTDNLMFVRGVAIVDEIDKL-LHDSDGSVHRLDGTATTSLAPPXXXXXXXXXXXXXXVRARRASCFVQNT--------------------------ISPGFTKTWAKNAR-------------LPTLVYHSRTDAGMPRVSPKAGNMNCAIFRKDGKGET-LIAGAAVIVVNDARHALQPEFLQRALPYFFTRDA-----RRAGAYVWADVAFVQTPQRFDDVPQWADPDPLGNQAATQFDIVNPGRDGASGVLSCGQGSLWRVAALRDGIRPDGSKYIDTKADREGLIGRTGGLGFRSEVLIEDTHTSLDLLRQGWRSVYVVSPASSKGEVLARCTLPPDSVTWRVKQVLRWHQGAVQLALSHGFAYVFGSGHWASPWQRVFALDAITYVLQAFAGQILLVFPIVYGFTNQSPFNALNLQFATYFFPFLITAALPTMAALGWLKTSSDRVMRDEQVWFATTYVQLQAVCNVIWCKLLRRDPADAWTATCPVWPLYAQFLAIAAAMVANTGYWIQRGFTSPWVWVSC-----MGAGLFALHSLWPLVSFGLGVTLPPAYYNRVF 687
BLAST of mRNA_A-nodosum_M_contig100.20.2 vs. uniprot
Match: D8LMC3_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LMC3_ECTSI) HSP 1 Score: 463 bits (1192), Expect = 1.310e-134 Identity = 289/765 (37.78%), Postives = 417/765 (54.51%), Query Frame = 1
Query: 784 NPQETRLFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWTFFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILLPTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVCAGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDDKKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASRVSKANENTMETMAELNEAARSEAEAKMLGASAM-NVTPGFYEIFGSDPKSNNSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPLVGD-ATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVAFVQTPQRFRMELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVEALKGQQPDGK-VVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSVYINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGYYPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFMYFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIWTAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGG-VYWVI-----DKGFVLWYANFFSILVVAGLAMHALWPMVSLSL-GW-SLPSFYYIKL-FLWVFLGFSAVV 3042
+P + P+++ +++ A NV G Y+ WR T + P + + W W FF E+ L VW QR FP R +MDD+ +D V A V I++PTAGE ++ + L+G+ SQRLW S LP LR+ VLDEK R EV + + G R P + R+ + + K + + LD AF + R + T +++++A+ + S K A A+ + GF ++F S P +P+++Y +R + GTPK+SPKAGNMNAAIFP + P P++GD A +VVVNDARH+L+ FLQRTVPYFF+L +G +Y WA V FVQTPQRF DPLGNHA+ + V N KDG+G V+S GQGSLWRV+AL+G DGK VVD ++VG GFR+E+LIEDTHTS++ F+Q WRS Y+ E GE LA C QP ++ WR+KQV RWH GAVQLLL G+ + PT H+++ D TYY+QA+ G+ +++MPI++ + PF T+ ++ +F P+I+TA +PT ++ W+ ++ +R+ DEQ WLST YVQI+AF +W IT + +NAW P WPL L+F I S I VYW + G ++ A+F + +VV M+++WPMV L GW SLPS Y+ K ++ +F+ ++V+
Sbjct: 825 DPARIKHHPTSFWIKLSAVLNVVAGAAYIWWRATRSMPDNPKS-------VVWNWLFFAGEVILTFGVWTSHLQRSFPSVRDVCSMDDLVEIDSNVSNEATVCIMVPTAGEKMKNLKHVLLGAYSQRLWVSRLPTSSQLRIAVLDEKGRREV----SVTTLVARGAMGERKSATSWRRCTVWPRPSSSPPYSRSCAPSFDEPFITPKIFMDYFNQMDALDQYVFGPECHPAFDMAVRMENYTGQ----------AKLARASSS-------------SGVPGKKKAAKALPRLEEGFKKLFRSSPN-------------IPSMIYSARANPGTPKVSPKAGNMNAAIFP-NSPGEEPVIGDPARVVVVNDARHRLKTEFLQRTVPYFFKLDR-----RTGKKYEWADVGFVQTPQRFEDLGDGDPLGNHAVLTFFVSNVSKDGVGGVTSCGQGSLWRVDALRGMAADGKQVVDSVAKPDIVGHDCGFRAEVLIEDTHTSLEFFKQQWRSAYVCEAGETLAVCVEQPNTVAWRVKQVFRWHIGAVQLLLKDGVGFLCTSRM-PTPLHKMFGLDSLTYYIQAVGGFFIILMPIMFSIFQETPFNTVDLEFVYFFFPYIITATIPTILAVGWKNVNPNRVLTDEQFWLSTCYVQIWAFALGVWNRITCANPDNAWNLVCPVWPLGLLFGLLIVSAINTTVYWAFYLSFDEDGIWIFLASFGACIVV----MYSIWPMVKLWWPGWVSLPSAYHQKFCYILIFIALTSVL 1531
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.D7FSC4 |
PFAMs | Cellulose_synt,zf-RING_4,zf-UDP |
Model size | 4445 |
Max annot lvl | 2759|Eukaryota |
KEGG rclass | RC00005 |
KEGG ko | ko:K00694,ko:K10999,ko:K20924 |
KEGG TC | 4.D.3.1.2,4.D.3.1.4,4.D.3.1.5,4.D.3.1.6,4.D.3.1.7,4.D.3.1.9 |
KEGG Reaction | R02889 |
KEGG Pathway | ko00500,ko01100,ko02026,map00500,map01100,map02026 |
Hectar predicted targeting category | other localisation |
GOs | GO:0000271,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0005829,GO:0005938,GO:0005975,GO:0005976,GO:0006073,GO:0008150,GO:0008152,GO:0008194,GO:0009058,GO:0009059,GO:0009250,GO:0009653,GO:0009987,GO:0010927,GO:0016020,GO:0016043,GO:0016051,GO:0016740,GO:0016757,GO:0016758,GO:0016759,GO:0016760,GO:0022607,GO:0030154,GO:0030243,GO:0030244,GO:0030435,GO:0030587,GO:0031150,GO:0031154,GO:0032502,GO:0032989,GO:0033692,GO:0034637,GO:0034645,GO:0035251,GO:0042244,GO:0042546,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043934,GO:0044042,GO:0044085,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044262,GO:0044264,GO:0044424,GO:0044444,GO:0044448,GO:0044464,GO:0045177,GO:0045179,GO:0045229,GO:0046527,GO:0048646,GO:0048856,GO:0048869,GO:0051273,GO:0051274,GO:0051703,GO:0051704,GO:0070590,GO:0070726,GO:0071554,GO:0071555,GO:0071704,GO:0071840,GO:0071944,GO:0090702,GO:0099120,GO:0099568,GO:0099738,GO:1901576 |
Exons | 20 |
Evalue | 2.06e-280 |
EggNOG OGs | COG1215@1|root,2QQSH@2759|Eukaryota |
EC | 2.4.1.12 |
Description | Cellulose synthase |
Cds size | 3012 |
COG category | M |
CAZy | GT2 |
BRITE | ko00000,ko00001,ko01000,ko01003,ko02000 |
Relationships
The following UTR feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1680866356.1236176-UTR-A-nodosum_M_contig100:316853..318235 | 1680866356.1236176-UTR-A-nodosum_M_contig100:316853..318235 | Ascophyllum nodosum dioecious | UTR | A-nodosum_M_contig100 316854..318235 - |
1680866357.1199617-UTR-A-nodosum_M_contig100:353564..353615 | 1680866357.1199617-UTR-A-nodosum_M_contig100:353564..353615 | Ascophyllum nodosum dioecious | UTR | A-nodosum_M_contig100 353565..353615 - |
The following CDS feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1680866356.1344562-CDS-A-nodosum_M_contig100:318235..318295 | 1680866356.1344562-CDS-A-nodosum_M_contig100:318235..318295 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 318236..318295 - |
1680866356.1429052-CDS-A-nodosum_M_contig100:318545..318670 | 1680866356.1429052-CDS-A-nodosum_M_contig100:318545..318670 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 318546..318670 - |
1680866356.1524146-CDS-A-nodosum_M_contig100:318845..318981 | 1680866356.1524146-CDS-A-nodosum_M_contig100:318845..318981 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 318846..318981 - |
1680866356.1678338-CDS-A-nodosum_M_contig100:319153..319313 | 1680866356.1678338-CDS-A-nodosum_M_contig100:319153..319313 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 319154..319313 - |
1680866356.1795576-CDS-A-nodosum_M_contig100:319507..319581 | 1680866356.1795576-CDS-A-nodosum_M_contig100:319507..319581 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 319508..319581 - |
1680866356.952664-CDS-A-nodosum_M_contig100:319751..319973 | 1680866356.952664-CDS-A-nodosum_M_contig100:319751..319973 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 319752..319973 - |
1680866356.969119-CDS-A-nodosum_M_contig100:320363..320576 | 1680866356.969119-CDS-A-nodosum_M_contig100:320363..320576 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 320364..320576 - |
1680866356.9780786-CDS-A-nodosum_M_contig100:320912..320990 | 1680866356.9780786-CDS-A-nodosum_M_contig100:320912..320990 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 320913..320990 - |
1680866356.9881263-CDS-A-nodosum_M_contig100:321207..321397 | 1680866356.9881263-CDS-A-nodosum_M_contig100:321207..321397 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 321208..321397 - |
1680866356.998439-CDS-A-nodosum_M_contig100:321551..321693 | 1680866356.998439-CDS-A-nodosum_M_contig100:321551..321693 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 321552..321693 - |
1680866357.0072446-CDS-A-nodosum_M_contig100:322102..322340 | 1680866357.0072446-CDS-A-nodosum_M_contig100:322102..322340 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 322103..322340 - |
1680866357.0176668-CDS-A-nodosum_M_contig100:322520..322634 | 1680866357.0176668-CDS-A-nodosum_M_contig100:322520..322634 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 322521..322634 - |
1680866357.0320184-CDS-A-nodosum_M_contig100:322821..323047 | 1680866357.0320184-CDS-A-nodosum_M_contig100:322821..323047 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 322822..323047 - |
1680866357.0442243-CDS-A-nodosum_M_contig100:323354..323407 | 1680866357.0442243-CDS-A-nodosum_M_contig100:323354..323407 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 323355..323407 - |
1680866357.0555346-CDS-A-nodosum_M_contig100:323589..323748 | 1680866357.0555346-CDS-A-nodosum_M_contig100:323589..323748 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 323590..323748 - |
1680866357.0667586-CDS-A-nodosum_M_contig100:324000..324081 | 1680866357.0667586-CDS-A-nodosum_M_contig100:324000..324081 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 324001..324081 - |
1680866357.0796192-CDS-A-nodosum_M_contig100:324528..324760 | 1680866357.0796192-CDS-A-nodosum_M_contig100:324528..324760 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 324529..324760 - |
1680866357.0886524-CDS-A-nodosum_M_contig100:337005..337149 | 1680866357.0886524-CDS-A-nodosum_M_contig100:337005..337149 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 337006..337149 - |
1680866357.1002338-CDS-A-nodosum_M_contig100:352686..352932 | 1680866357.1002338-CDS-A-nodosum_M_contig100:352686..352932 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 352687..352932 - |
1680866357.1099963-CDS-A-nodosum_M_contig100:353445..353564 | 1680866357.1099963-CDS-A-nodosum_M_contig100:353445..353564 | Ascophyllum nodosum dioecious | CDS | A-nodosum_M_contig100 353446..353564 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig100.20.2 >prot_A-nodosum_M_contig100.20.2 ID=prot_A-nodosum_M_contig100.20.2|Name=mRNA_A-nodosum_M_contig100.20.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=1004bp
MNVRSNQQPAGGGGQHSVATFSNPAGVTNVSVPPDTGSQSGRSVRMAPEP DIYDIIEADNTAMERVHKAKVREMANSTPTHSSNTSMIGRGLSRGILKRG KSRRQGADSVHAGFSDVKSVSRFDPDEPPRSYLHSREESMLNDNDGSMAA SPGTMLGRHLGRLNFPGHKSAPSSNSPRASEVSGLQTPGTPNPGPWNRAP SSVGSRFSVRRFMTGSRMGSFKRASGMDEDDQDSNLFFDRVYCANPQETR LFPSAYLVRILAFANVCLGCLYLHWRWTTTFPTDIERWDYMKWIFYWWWT FFLAEIFLAIAVWIGLAQRLFPVQRIKVTMDDITSVDDQVGYNARVAILL PTAGENLEVVFKALVGSISQRLWDSGLPECQTLRVVVLDEKRRVEVYRVC AGLHRIGELLAGRRVQQILMAEGVTELTPKGFIDWCRNGSGYERKHLYDD KKLNEAVQVLRLLDAMCLANGLTDAFALEARPSSATYNPISAAAWNAASR VSKANENTMETMAELNEAARSEAEAKMLGASAMNVTPGFYEIFGSDPKSN NSDAANDLLKGLPTLVYYSRKDAGTPKISPKAGNMNAAIFPLDDPQRAPL VGDATIVVVNDARHQLEANFLQRTVPYFFELTGGLPTVASGGRYRWAKVA FVQTPQRFRMELTNDPLGNHAISQYDVINHGKDGIGAVSSSGQGSLWRVE ALKGQQPDGKVVDDPKDLNLVGDKLGFRSEMLIEDTHTSIDLFRQGWRSV YINEPGEVLAWCTHQPTSLTWRIKQVLRWHQGAVQLLLFKGLRYTSIGGY YPTIWHRLYAFDLATYYLQALPGYVLLVMPIVYGVTGRPPFVTMLKDYFM YFTPFIVTALLPTAISSQWRKIDSHRLTRDEQTWLSTTYVQIFAFVQVIW TAITRRSHENAWVAKVPTWPLVLVFFGQIASVIGGVYWVIDKGFVLWYAN FFSILVVAGLAMHALWPMVSLSLGWSLPSFYYIKLFLWVFLGFSAVVLAN LLE* back to topmRNA from alignment at A-nodosum_M_contig100:316854..353615- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_A-nodosum_M_contig100.20.2 ID=mRNA_A-nodosum_M_contig100.20.2|Name=mRNA_A-nodosum_M_contig100.20.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=36762bp|location=Sequence derived from alignment at A-nodosum_M_contig100:316854..353615- (Ascophyllum nodosum dioecious) CAGGCGATAGACATCCCCCAGCGATCGTCTCAAACGCTGCTCGATGCTGG
AATGAACGTGCGATCCAATCAACAGCCGGCGGGTGGAGGTGGTCAACATT
CCGTCGCCACCTTTTCAAATCCTGCCGGCGTTACCAATGTGTCTGTTCCG
CCTGACACCGGATCGCAGAGGTACGTAAGTTGCGTCCGCGCCCCTTATAT
TTTATGCGTTCAAAGCAGCAAGTTACCGCCCTCTTTACCCCGTTCCTTTT
ACCCTGCTGTCTGGTAATGGTAATAATTTTTTCCTCTCCAGATGTTCCTT
GGCACCAGAAGTTATATCGTAGACCATTTAGACTATTAATACTATGATTA
TATACAATAGTAGAACGACAAATTTCATAAGTCGCACAAACAACTGTAAC
TTACTACTGTATTTAGTACAAGTACTTATAATACTGGAGAACCTGTAACG
TATATTTTCTCGTACAGCAGTACACGGTGCAAAGTCCTTTCACGACGCTG
GATAAAGTGCCTGCAAATCTCGCGATGCAGTTACCTTTTGGGAATGAGGA
GCATGCACTTTACAGCTCGCTCCATTGTTTCCCATCGAGCCCTAATTGAG
TCTGTTGTTCCCGGCGTGATTTGTGTGCTTCATTTCTAAATTGGTGTGGT
GTTTCACGAAAATTCTCCTGCGCGTTTTTTTAGTGGCCGCAGCGTAAGAA
TGGCCCCCGAGCCGGACATCTACGACATAATCGAGGCAGACAATACGGCC
ATGGAACGGGTACACAAGGCCAAGGTTCGCGAAATGGCTAACTCCACGCC
AACGCATTCGAGCAACACGAGCATGATCGGTCGTGGACTGAGTCGAGGCA
TCCTGAAGCGTGGAAAGAGTAGGCGTCAAGGAGCGGACTCGGTCCACGCC
GGCTTCAGCGACGTCAAATCTGTCTCGAGGTAGGTGATGGTATGGTCACA
AAAGAACACTAACCCTTTTTTATGAATTATTTCACTTGAGATCAGACTTT
TTGCATACCAGCGGGCGGCCCTTGGAAAAAAAAGGTACAACATAACGCAC
TTTAAATAACGTATCAATTGTACTGTATTCTGAAGATGTAAAAATATACT
GTACTGGTAATATGTACTACACAGTAACAACCCTTCAGCATAAGTGCTCG
GCACACCAGTCGTATCATTGTACTGAAGCACCACCCCAAATTAAGATTTT
AGCTACAGGTGCAGGTACTGAAAGTTTGTCCGAGGTCGGGTCTATGTTTT
ACGGGCTTCGATACGATGTACGAGGTTGTAAGGCTGAGAAGCCGGTTTAA
TTGAGTAGGGGTGCTTAATCGAAATTGTCCAAGCCCGATGTTGCACTAGC
GGGCTCAAGGGTGCAGGTCGTCAGGTCAGCTGATTCTGAAAGACCATCCT
CCCTACAAGTAGCAGCTGTCCCCGGGGTCAGCCCTCGGCATTGCCCTTCT
ATCGTACTGTATGTACATAAGGTTTTGGGCCTCAGAAGGTATTCTCGAAG
GGCAAAGAGCAGTGACCTCAAGACGTCAACTTTTAGTCGACTGAATTACA
GCAAAACGAAGCCTTATGGCCTTTACATCCACTATCGACGTGACAGTATT
TATAGTACCACACCAAAGGAGCTCTACTGTACTGCAAGTATACTTCCGCC
TGAGCTACAAAACGATGCAACATTCCGCATTTTTTACAAAGTCCTCTGAA
CATGAGTTCAAAGTTCTCCTGTATCAGTTCGTAGTCTGTATACAAGTGCA
GCTTTTGGTTGACCAGATGTTGTATATACTCCGTATAAAATATTGCTGAA
TCTGCGTCGTGACGAGTCGAGTCGAGTCGAGGACCGACCGCACGTGGAGA
GATTAGGGATGGAAAGATCCTTACTTACTATACTGCCTACTGCCTTAGCC
TTAGCGATCTCCGAAAGGATAACAACGCTGCGTGTTTCTGTTTAAAAAAA
TCTGAACGCATCTATAAACCTTTTGAGCATCCACTTTCAGGAGAAAAATT
GTCAAAATGTTTAGGTTGGAACATTGACTGTAGGGACAAAAACTCTTCAT
GGTATTAAAAGGGTTCCCCAATGTAGTCACATCGGGTCAACAGGATAATA
TCGGGGAGAAGCCTACCGTTATACTGTACACTTACATTAATCGCCATGCA
GGGACACCAAAACCACAAAGTTTTAAAAGAAAAATCAGAACGCGCCTAAA
CCTTATGAGCATCCCTCAATCAGGGGGAAAAATGTTCACATCGGGTCGCA
GGATAATATCGGGGAGAAGCCTACCGTTATACTGTACACTTACATTAATC
GCCATGCTCACCAAAACCACAATGTTTTAAAAGAAAAATCAGAACGCACC
TAGACCTTCTGAGCATCCTCCAGTCAGGGGGGGAAAATATCAAAACGTTT
AGGTGGGATCATAGGCTGCAAATACAAAACCTCTTCATGGCATATAAACG
GGTTCCCCTATGGTCGTAACATCGGGTCAACAGTATAATATCGGGGAGAA
GCCCACCGTTATACTGTACACTTACATTAATCGCAGGGACACCAGAAAAA
CAGCGAAGACAAAACTACTACATAATGATTGATGTACTTGTACAGTTCCC
TCTCTGACCCTAATTTAATTTCCCCTATGTCGCCTCCCATCAATTTATAT
CAATAACAAAAAACCTCACCTATATAGTAATATTAATTTAATTTTACTTT
AATTTCTTTTAGATCATTTAAGACCATATTACTACACTGTAGTCCAGAAC
TCTTAGATTGAAAGGATTTTGGTTTTGGTGTCCATGCATGGAGATTAATG
TAAGTGTACAGTATAACGGAGGGCTTCTCCCCGATATTATACTGTCGACC
CGATGTAGTTACATTGGGGAACCCTTTTGATACCATGAAGAGGTTTTGTC
TTTACAGCCAATGTTCCCACCTAAACCTTTAGACACTCTTCCACTTGAGG
TGGATGCTCAGAAGGTTTAGATGCGTTCAGATTTTTCTCAAAAACAGTAC
ATCATCAAACATAATAATATACAACAATTCAGATTTTTCTTTAAATAACA
TAGGCTATAAGTACGAATTCACTACAGATTTTTCTTTAAACATTGAAACG
AGAACAGAGAGGACCATGATGTAGATATCATATCTTCATAATCCAGAAAC
TACAAGGCACCGTTATTCACCTGGAAGTAGACGAAGAAGAGCAGTGGGAG
ATCACACAAGGAAGTAAGAGGCAAGCAGAAAAAACTGGGTTCCTCGCTCA
ATACTTGTCAGGGCTACGACACACAGATGCTCCTCTCTAATGTACTAACA
AAAACAAAGCCGATTGGCCTTAACGTGCCATTAACAGGTGCCCAATTCCA
CCGCCGCCATATCCTACCGAAACTTTATTTATACTGAAGTAGCATTGTAG
ACTAACGAGAGAGGGTGGGGGGGGGAAATACAGGCGTACAAAAGTGGGTC
CATGGTGATGCCTGAAAAGGCAGTATGTATGGTCATCACATATAGCAGAG
TATGGATCAACCGGGTAAGGTTGCCAACGTGGTCAGCTGAACAGGGAAAA
TAATATTCCCCTGTCCCCGTGCGTGCCTGAGAATTTGGTCTCGCGAGACG
GGTTCAGCCGTCCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCAGGCT
GAATCTGGTACTTACTTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCC
ATTTGTGAAACCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCGGGTC
ACGCAAATGCGTACCGATGGCGTTCACTGCCGAGAGTCCGCCGGCACAGA
GCCAGTAAACCTCAAGGTAGTTCCGAACGGGTGCTGCCTTGGCAGATCAC
CATGGACCAATTAATATTCGCCTCTCTTTCCCACACCCACTATTGGTATG
AAGTGGGCATGTTGAAAGTACCGGCGTGAAAAGGCAGTACCCGTTAGTTG
AACTACCTTGAGGACTACTGGCCCGTGCCGGCGGACTCTCGGCAGTTAAC
GCTATCGGCACGCAGTTGCGTGACCCGATAAACTCGGGACTGACCCGATG
GCGTATGGCGGTTGAAATAAATAAATGGACGCCCCGCCGAAATCGGGAAG
AATCCCGTGAGTAAGCACCAGATTGATGGTTGATGATTCAGAATGAGTGG
GCTGACGACCGAATCTGTCTGGCGAGACACGATGTATTCATACCATCAAT
TCTCAGGCGCGAGTAGAGGAAAAAATCTATCTTGTTCAGCTGACGACGAG
CAGCAGTATGAGGCGCACAAATGATTATTAATATTATACTGAAGTAGCAT
GATAACCCGAAAAGGCAGCACCCGTTACTGAACTGAACTAACTACCTGGA
GGAATATTCCTGAGCAAGCGGTCTCTCGGCATTGAACGCCATCGGCACGT
AATTGTGTGACCTGATAAAACTCGGGTCTGATCCGAGTGCGGTGGACGGT
GTAAATAAAAGGACGCCGTCGCGAAAAAAGCGGGCGAAATCCCGCGAATA
AACACCAGATGGCTTGAGTGTGGAGGATAAGAAGGCTGATGCGGGGCAGG
ACGACTGAACCCGTCTCTCGAGACCCAATTCTCAGGCGCGAACGGGGACG
AGAAAAAAAATCAAGCGTATCACAAGCTGCAAAATTAGGTCCATGGTGAT
ACCTGGAAAAGCAGTAGCTGTTACCCGAATGCGCCGGCGGTCTATCGGCT
GTGAACGCCATCGACACGCACTTTGTTTGACCTGATAAATTATGGACTAA
CCCAATGAACCCGATGGTGGTGGACGCTGTAAATAATAGAACGCCGAAAG
CGTTACCAATCCCACCGTGAGTAAGAACCAAATTCAGCCTGAGTGTGGAG
AATGAGCGGACTGAGGCGAAAACGACAAATAAAAGGAATTAACAACTAAA
CCAAAAAATACGAAAGAGGATAGGCAGGTCACCCAGAGGCGTAGGGAACC
CATAATTAAAGTATGTCCGCTCCATTTCAGGAGCCCTTAGGTCGGTCTGT
CGGTCTCAAGCTACCTATAGTCACCACGGGTACGACCTAAATCTTACCCA
TGTCCTCTGCCTCTTTCTTCCTTTACCGATTCGGGACGCCTTGTGTTCTT
TCCCTCACCCACGCGGCGACTACCCTGCAATCCCATTCTCATCACATATA
GCAGAGTATGGATCAACCAGGTAAGGTTGCCAATTCTGCTCGTGGTCAGC
TGATCAGGGAAAATGAATACTCCCTTGTCCCCGTGCGTGCCTAAGAATTT
GGTCTCGCGAGACGGGTTCAGCTGTCCCGTCCCGCGTCGGCCTGCTCATC
TCCATGCTCAGGCTGAATCTGGTGCTTACTTACGGGATTCGTCCCGAGTT
CCGCGGCGGCGTCCATAAGGAGCCCTTGGGTCGGTCCATTCAACGCGTCC
CCTAGACGTCTTAAGCTACCTATAGTCACCACGGGTGCGGCCTTAACCTT
ATCTGTGTTCTTTCTCTTTCTTCCTTTGCCGATTCGGGACGCATTTTCAT
CTTTTCCCTCACCCACGCGGCCACTACCCTGCAATTCCATTCTCATACCG
CGGTGTGAGAGCCCTCGGGTCGGTCCCTTTAACGTGGCTCCTAGACGTCT
CAAGCTACCTATAGTCACGGGTGCGACCTTAACCTTATCTGTTTTCTGTC
TTTTCTTCTTAGCCGATTCGGGACGCCTTTTCCTTTTTTCCCTCACCCAC
GCGGCCACTAGAGACTACGCTACCACCCTGCAATTCCTCTTTTCCCTTAC
CCACGCGGCCACGCCCCTGCAATCCCTCACAAAACCTTACATACAGCAGA
CTGGGCATGAACCAGTGTGGTTGCCAATCCTTCTCGCGGTCAGCTGAACA
GGGTAAGCTGAGTTTTTCTTTGTCCCCGGTTGGGCCTGAAAACGTCCAAA
TACGCTGTTCACGCAAATGCGTACCAGTGGCTTCACAGCCGAATTTCGCT
GGCACAGGCCAGTAGTCCTCTAATTAGCTCGAGTAATAGGTGCTGTATAT
TCAGGTATACCCATGGACCGATCGATCAATGTGCCCCTCTTTCGGACATC
CACTTTATCTTTATTTTACTATAATGTGTATATATGCTTTGTCATGTCGG
ATATTGTGCATGATCCCGTATCGTCGACAATCCTCCTATTAATAGTGGTC
AGCTAAAAGGAGGAACATTTTTTGTTCGCTTTCCCCGTTGGCACCATAGA
ACATAAAACATAGAATTTGATCTCGCAAGCCCTCGTCGCCCGAGTGGTCT
AGTAGGTAACCTGCACACCTGCTAGTGCGGAAGCCGTGAGTTCGATTCTT
ACGAAAGTGGGATTTGTGTTCTTTCTTTCGTAACGGAAAGCGTGGGAACG
TGAGTAAGTAAAATTCAACCAGTGGTTGACGAGTCGTAAGGCGTGAACCG
AGGAGCGATGGGAAGATCCTTAGTGACCACAGGCAGGATGGTAATGATGA
GGTCCATCGGCTATAAATGCCGCTCGTTCTCCGCACCCAAGGCTAAATCT
GGTGGGTTACTCACGGGTTTCTTTCCCGGCGTGGATCGATACCGTCAACC
GCCGTCGGGTTATTCCCGAGTTTATCCGGTGGCACAATCGCGTACCGATG
GCTTTCACGGCCAAGAGTCCGTCGGCACAGGGCCGGTAGTCCTCAAGGTA
GATTTAGTAACGAGTGTTGCCTACACAGGAAATCCGATGGACCAATTTAT
GTGCGTCCCTATTTTCCCACGTCCTCTACTAGACTAAAATCAGTGGACAT
ATGCAAAACTAAACAGTATCTGGCGGATTGGGATTGAAAACCAATTGAAA
GCTCATTGATGTACTCGTAGGCATAAACGACTCCGATCGTTTGAAGAACA
GCACCCTCCTAATGTTGGAAAATGTCTCATGATAGTTTGGGTTGCTGATG
ACATAAAGGTATTCTCTCTTTTACAAAATACTGTACAGGGAAATTCGTCC
GCCATACGCGTGTAGAGGTAAAGTAGTTAGTACAGGAAAGGAAGACAGCA
GTAAGTAGCGAATTTTGGTTGATGCCCTCGTACTCCGTGCTAACAAGATG
TTTTGACTTGGTATTGTATATTATTTTATTGTGAGAGATAGGAAATCGGA
GTGTCTAACGACTGTTTGAAAATAGGACTAGACTAAACTTGCCCGTGATA
AATATGTTGTCGGGTACTGCAGACAAAAAGAAAACTGCTCTATTTCGCAA
GTTGTTACTGTTTCTTTAAAAATCAGAACGCACCTAGACCTTCTTTTAAA
GAAAAATCTTTAAATTGTTTTATCATATTCAGTGTGTTGGTTGCCAACCC
CCAAAAATCTATCTCGGTTGTGGTCTGCTTAACAGGAAAAAGAGAACACA
AAAAATGAAAGCCTGGCAGCACACCTCCCCTCCCCCTCCCCCCTCCCCCC
CCCCTCCCCTCCCCCCCTCCCCCTCCCCCTCCCCCCCCCCCCCCTCCCCC
TCCCCCTCCCCCTCCCCCTGCCCCCACTTTCGCGCTGCTGGTGCTGCTGG
TATGAAGAAAACCCAAAACAAAACCCCAAAGGTGTACTTGGTAGCAAATA
AAACTGTGTGTCTGCGTGATTTGTATATATTTTGAATTGGCTTATAATCG
CGCAATCCGACCGTGTCATGCTATTAATAGTCGTTCTATGGTACACTCCC
TTGGGTCCTCTTGGATATAATATAATATAATACCTCCCCAAGAAGGATCA
ATGACCCTGTGTGTGTGTGTCTGTATTTATTTAATTGCACATACGTCCAA
CGAACTTGATGTCCAGAATGAATGGGAAGAGAACATAACCGCGCAATCCG
GCCCTGTCATTCTATGGCACTCGCATTGATTTTTCCAAGGGGGGATCAAT
GTGTGTGTGTGTGTTCTTCACATCAAGCAATCGGGCCTCAGCCATACAAA
TATACACATAGTTGCCAATACCATACGTGGTCTGTTGGACAAGAAACGGT
CAGAGGAACATCTACAAAGCTCCAATGAGAGCGTAAAAAATAAGATCAAC
GAAACGAACTAGAACAAAAAAACGTCGGGCGCAGAAAAGCGCAGGGAACC
GATGCATTAATCAAATCCGATGCGTCTTGCATAATACATACTCGCACGTG
CGGAAAAACTAAAGCAAAGAGGGGCAGGGCACTCGCTATCAAATACTGAA
GTAGTTATATTAATAGTGTTTGGTGTTGCATCTACCGCCAGCGCATCCAA
TGCCGTTGCCGTCCTTCCCCCGCGGATCGCAACTTCCTTGCATTTAGATC
CAACCCTCTCCAACAAAAGAATAACCAGGATATCCTGGCCATCATATGAG
CTCTCAGTTTTTCTATTCTGTCGGTACTTCCTAAGTTGGTGAGGGAAAAG
GGTGGCGCACAAATGGAGTTACCTGAATAGACAGCACCCGTTACTCGAAA
GCTACCTTGAGGGCTTATGGGTACGAGTACCCACGCACATACGTTTACCA
CCGGCAGTTCGCCGGCGCAAGACCACTTGAGGGCTTATGGGTACGAGTAC
CCACGCACATACGTTTACCACCGGCAGTTCGCCGGCGCAAGACCATTTAT
CCTCAAGATAATTATACAGCAACGGGTGCTGACTTTCCAGGTAGTGGACA
GATTCAGCCTGAGTATGGAGAATGAGCAGACTGACGCGGGACGGGACGGC
TGAACCGTCTCGCGAGACCAAATTCTCAGGCGCGTACGGGGCCAGGGGAC
TACTAATTTTCCCTGTTTAGTTGACCGAGCTGGATTGGCAACCTTACCCA
TCTGATCCATACTCTAGCTAGAGCTAAATGTGATGACCGTACATACATAT
TACATACATCACCATTGACCACTTTCCGTGCGCCCTTCTTTTCCCACATC
CACTATACAGTATTAATATATAGTATAGTAATCTATACTGTTATTGGTAC
AATACAGTACAGTACAATGGCATGTATGGGTGATACAGGAAGACTGAATG
GGTGTGTTTTAACCCCAACCCTAACTACAAATTGTTCCAACTGCGTCATG
GTCGCATCACGGCTGTATCCCTCAAATCAAGATCAATGATAGCATCGGAC
TAAGATTTACCCTCCTACACTCGTGTTGGTCTGTATTCAATAGTGATTTG
ATAACAGTACCAGAACAGTCAGTGTTCTTGGACACTTCGTATGTACGATA
TCGCATCGTTCTATCGTATGGTTTCTGAGATTCCTGTTCTGCACTCTACT
AGATTGTACTGCACTCCTCTCATTGAGATGACCGTTAACGAATTGATTGG
TGCTTCCTTCACACTCTAACCCAATCCTTTCCCCGTATTGATTGTGATGG
TGATAGTGACCACTTGTACTGCAGGCAGGAAACATGAAGCATGGTCTCAC
GTTCTGACGTGGACTCTAGACCACGTACAGCAGTAGTTTTAATATAATAG
TAACTGGCAGATAGGGAGTATGCATACAGCAGTATTAGCTGTATTGATAT
TGATTGTAAGAAAGTGCTCAGAATAATTTTATCCATGCAAGCAGTCACAT
CGATCCACTTCATGTATGTATGCAGTATGAATGTATAGTCGACACTTTCA
GCAGAGTATAGCATGGCATGGATACAGTTGGATACAGTAAACCAGGTAGA
GTTACCATAATATTACTAATCCTTTTTGTGGTCAGCTGAAAAGACAAAAG
AGAAAAATATTTTTCCCTGTGCCCGTTCGCGCGTGAGAATTCGTTCTCGC
GAGACGAGTTCGACCATCTCATCCCGCGCCAGCCTGCTCATCTCCATACT
CAGGCTGAATCTGGTGCTTCCTTACAGGATTCCTCCCGATTTCCGCGGCG
GCGCCCACTTATTTCATTTAAACCGCCATACGTCATTGGGTCAGTCCCGA
GTCTATCGGGTCACGCAATCGCGTAGCGATGGTGTTCACTGCCGAGAGTC
AGCCGGCACAGGGCCAAAAAACCTCAATATGGTTTCAAACGGGTGCTGCC
CTGGCATGAAGTGGGCACTTCGAAAGTACCGACGTTATTACTACAACACC
GACTTGTGTACAACTCTGTAGTACCTATTCGTATATGTGGATCTACTATT
GTATACTGAGTATTATAGTACATGCACGTGCCTTGGCTTGTGTGTGTTGT
CATTCCATTTATTCTGGACGTCAGGATTGTGGACGTACCAGCCGGGGTCA
CACAAGATTTCTCCACCTTCCTTCTGCGGTTCTTGTTTTAATTTTCTCGC
GAGAAGTATTCAGCCATTCCTTTCCCTCGTCGACCGTCAAGTCGACTTTT
GTGTACTGACGATTTAATCGTTCTCCACTTGTTTGGCATTTTTTTATTTA
TTTCATTATGTTTAGATATGCGAAGTATATGTACATATTTTTTGTGAGGA
AAAATCCCAGTTCGTGTGACGACACCGAGAGTCGAAGTCACGTTCCGACG
TCAGAAGGCTTCGAGATTACCACCTGAACCACCGGGGCGACCATACAGTA
TTAATGCAGGACCAGGTATTATCTTGTTAATACAAGTGCGGCATTACTGC
TTTAGAAAAATTCGAACGCATCTAAACCTTCTGAGCGTCCGTCCACCTTC
AGGGGACGAAATATCTAAAGGTTTATATGGGAATATTATTGGCTGTAGAG
ACAAAACGTCTTGGTGTCAAAAGGGTTCCCCAATGTAACCACATTGGGTC
AACAGCATAATATCGGGTAGAAGCCCTCCGTTACACTGTACACTTACAGT
AATCTCCATGCAGGGACACCAAAACCACAATCTTATCTTTTTTATCGAAG
AGTTCCGGACTACAGCAGTAGTAATATGGTCTTACATGGTCTTCGAGAAG
TTAAAGTTGAATTTAATTAATATTGGTATATAGGTGAGGTTCATTGTTGT
TGATATAAATTGATGGGGGGGTAACACAGGGGAAATTCAATTAGGGCCAG
AGAGCGAACTATACAAGTACATTAGCTAATCATCATGCAGGGACATCATC
AAAAAGCAAGTAGTAAAATTATATTAGTACAGATGTACAATATATTTAGA
CTATTCAAAGGAGTACCGGATTACAGTAGTGGGGTCATTGAGAAAAACAA
AAATTATAGATAGGTTCATTGTTATTATTTCACATGGCCCTAAAGGTTAA
TATGCACTAACAACGGGTAAAAATAGGGTCTAAATAAAAATCTGAACGCA
TCTAGACCTTTTGAGCATCCCCCAGACCATTTTTGTTTGTATCCCACTTA
TGGCCAATTGGCCTGAACGTGCTAGGTTACCAATGCTACCTACTGCAACG
TTGCCATCCTGCCTATCTTCCCAGCCCGAGTGATCCCGATCTAGTTGGTA
ACCACGTATACCACCTACTAATATAGTGCGGAAGTGTGAGTATGTATGTA
AGACTCAACCATTAGTTGACAAGTTGTGAGAGTGCTCAACTTGCATCGCG
ATAAGAATGCGTAGTCGAGAACCAGGGAGAGATGTTGAGATCCTTAGTGA
CCATTAATACAGTACAGTACAGTATAGTACAGTACAGTATTAACAGGAGG
TGGGATTGGTAACCTGTCACGTTGAGGCCCATCGATCATAAGTGAGATAC
ATACAAGTAAACAACATCTCTCCCCGGCTCTCGCCTTAATTTTTATCGCG
ATGCAACTCGTCAACTAATGGTTGAATTTTACTTACTCACGTTCTCACGC
CTTCCGCTACGGACTATAAGCCAGAATACAAATCCTCCTTGGCAAGCATC
GAACGCACGGCTTCTAAAGGCCATGAGGTTTTGTCTTTACAGCCTATGTT
TCCAACGGAACGTTTTGACAATTCTTCCCCCTGTTTGGGAGATGCTCAGA
TGGTTTGGATGCGTTCATATTTTGCTTCAAGCAGGTGCGCGAGGTTGGGT
TACCTACTATTAATAGATTACTAGACCACTCTATTATTCCAAGTATTAAA
ATACGATACTTTTACAATACCCCAGATGGGTCTCGACCAATCCCAAGTAC
TGCGCGGGACGGGACGGACGAACCTGTCTCGCGAGACCAAATTCTCTGGC
GCGAAATGGGACAGGGAAAAAAACTATCTCCCTGTTGAGCTGACCACTAC
TACTGAAAAAGTAGCAGATTTGACAAACCTCACACGGTTGATCCATTCTC
TGCTTTGAAGTGGCTCGTTTTTTATCGCGATGCAAGTTCAGCAAACGTGA
CAGAGCAGGCTACAGACACGCCCTGTTGTAACTGTCACCAGTGACAGATT
GAGACATCGCTACTGGACCAAAATTACACAAGTGGAGGCCACTGTAAGTT
AGATTAGTGTACGTTAGATGACCGTAGAGACCTCAAGCAAAGTTCTCACG
ACACCTGTCGACGGTTGTGTTTGTGCCGAGGAGTGCGCTTTTTTTATAAC
GGAAGCCTCCGTATGACTTTGTTTATCATCTTCTCCAGACTTTGTAATTC
AACAGACATTATGGAGATTGGCCACTACTGTGTATGGAGAGTATACGTCG
TACGTTCTTTCCTTCCGGATGGTGTTTTTTCTACCTTGTGACCACGGGCT
GGATTTTCGACGTCAGCTTATGTGAGAATTCAATCAATCAATCAATCAAA
TCAATGTCTCTTGTGTTTGGACTACCCCTATCCCCTATAATTTGTTGTAT
TAAATTGCTACCTGGTAGTACACAAGGTTCGACTTCCCGGTCGACGAGAA
AAAGGAATGGCTGAATCCTTGTCGCTTGAAAAATTAAGGCACGCACCGCA
GAAAGAAGGTGGATGAGAAATTCTGTGTGACCTTCCTCCTGTGTGACCTT
CCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGGAT
GAATGGGAAGAAAACACACACACACACACACACACACATGGTTCGATTGC
ACTATTATCGTAGGTACTTCAGTATAGCCTATATTATTACTACCCTGTTC
AATATTGTACTATGATAAATTGTTTTTGTTTTGTTTTTGTTTGGTGTCCC
TGCATGGCGATTAAGTGTACAGTAAAACGGTGTGCTTCTCCCCGACATGA
TACTGTTTACCCAATAAAACTACCATAGGGGAACGAACCCATTTAAATGC
CATGAAGAGGTTTTGTTTTCGCAGCCTATGATCCCACCTAAACGTTTTGA
CATTTTTCCCCCTGACTGGGGGATGCTCAGAAGGTCTAGATGCATTCAGA
TTTTTCTTTAAACACACATGTCGGGAATGCTTGTGTTCGTGTTCTTGTTT
GATTTTTACCGATCTGTCCTCAACAAGAACCAGCCTCCGATACTGTACTT
CATATGTACTGTATTGTACTGTATCGGACACATCCACTGTACTATTAATA
GTATGTATGTATATAGTATGTATGTATGTATGGTATCACATATAGCAGAG
TGTGGATCAACCGGGTAAGTTTGCCAATCATGCTCGTGGTCAGCTGAACA
GGGAAAATGAGTATTCCCCTGTCCCAGCACGTGCCCGAGAATTTGGTCTC
GCGAGACGGGTTCAGCCGTCCCGTCACGCGTCAGCCTGCTCATCTCCATA
CTCAGGCTGAATCTGGTGCTTACTTTCGGGTCATGCAATTGCGTGCCGAT
GGCGTTCACTGCCTAGAGTCCGCCAGCGCAGGGCCAGTAAGCCTCAAGGT
AGTTCCGAACGAGTGCTGCCTTGGCAGGTCACCATGGACCAATTCATATT
CGCCTCTCTTTCCCACACCCGCTATCGATATTAAGTGGTTATAGCATTAT
TAGTGTTGAAAGTATCGGCAGTAATAGTATTAGTAGTGGGTGTAGGAAAA
AAGAGAGGCACAAAAATTGGTTCACGTATCCTGATGGTTCATGTATCTTG
AAAAGGCAGCACCCATTACTCGACTCAACCTATTTTGAGGACCATGACTA
TTGGGCCTGTGCCGGCGGACTCTCGTCATTTAACGCCATAGGTCTGCAAT
TGCGTCCTCTGATGTACTCGGGACTGACCCGATGGACGCCGTCGCGGAAA
GCGGGAGGAATCCTTCCTGTGAGTAAGCGCACACAATATTTAATCTGAGT
GTGGAGAATGAGCAGACTGACGCGGGACGGGACGCGGCCGAACCTCTCTC
GCGAGACCCAATTCTCAGGCGCGGACGGGAATATGGGAAAATCTTTCCTC
CTGTTCGGATGACCACGAGCAGGATTGGCGACCTTACCGAGTTTATTAAG
TGATGACCCAAATAAAATACATGACGTTTATGCGGTTGCCAATCTGGTTC
ATGATCTTGAGGACAGAAAACGTATAAATCTATGCAGTTCGAATGGCAGC
AAAACATAAAAACAAAGAAATATTTCAAATATATAAATTATTTTAGAACT
AAGCATAGCGCAGAAAGGCACAGGATAGAAATGCAAAACATCGGCATTCC
TCATAACCACACACACATCGCACAACACGGAGACATTATTATGCAAACTC
TACTTGTAGGGAGTACTGGACGACACTTAATGACAATCAAGCCAGGTCAT
GGGCTGCACTTTTAGTAGAGCACCAGTCGAAAGTGCATCCGATGTCCTCC
CCCTTGGGTCGCAAGGGAATAGCAGCTCGGTGTACGCTTACTTGTAGTGT
TCTAAGGCTTTCTATCGGTGCGACGCCGCTTCGAGGGCATCTTAGGTGGT
CCAACCAATGCTGCCCCGAAGCATATCATCCTTCTTACGGTCACCCCAGT
TGCGGCCCCAGCCCCTTGTTCGCCTCTCTCTTCCTACGCCGGTTTTGGTA
CAATATGCTTTCTCCTTTTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTT
CTCCTTCTCCTTCTCCTTCTCCTTCTCCCTCACCCACGAACTCGAATTCA
AAGCACAACGGAAATATTTATGTATGTTCTTTAGTATGTATGGTCGGTCA
TCACGTTCAACAGCTCGGGCGTCAACCGTGCATGATTGCGAATTCTTCTC
GAGGTCAACTGAACAGGGGACCTTTGCAGGGTAATAACTTTTTTCTTGCC
CCTGTTCGCGCCTAAGGATTTGGTCTCGCGAGACAGGTTCGGCCGTCCCA
TCCCGCGTCAGCCCGCTCATTCACCATACCCAAGCTAAATCATCAATATG
GCGACTCCTTTTCCTTGCGGGCGCCTCTCCTTCCTCCCTTTTTATTTTTA
CTATTAATATTAATATTAATAGTCCTATTAATATTAATAATCATATTAAA
TTAATAGGCGGCGCCTTGTCTAAATGCCATCAACTGCCATCGGGCTAGTT
AAACGTGTAACGCAGGTGCCTACCGATGGCGTTCACTACCGAAAATTCCC
CTCCACAAAGCTAGTATTACGCGAGGTAGCTCGATAACGGTTGCTGCCTA
CCAGGTATATTGAAGTAACCCCATGGACCAATCAATATGCGCCCCGCCCC
TACTTTCCCACACCTACGGTTGGTACTCGTATTGATATGAATATAGTATG
CATGTGCAAGTTACTCGTGTGGTGCGCACCCTCTGGCGGCGAGTTTTGTG
TTGTCTCTATTAATACAGTACTGAAGTACCGTAATCATGCGGGCCAGCGC
ACCCATTGGCGTTATCGCACCCATCGGCGTCATCGCACCAGGGTGCGAAA
AAAAGCAAGAACGGCATGATTTAATTGTATTTTCGCACCGGTATCGGCGT
TATCGCACCCCGGTGCGATAACGCCGATATAACATTCCGCTTCGGGGTTT
GTTGCGTGCCGCAAGTACGGTAGTGGCTCCGGGCCAAGTCTTGAACTATT
GGGACGGGTATTTGCAGTAGGTAAAATTGCCGTACTACATGCGGCTGTAA
GAGTATATCAGGGCGCCCACTCCTTTCGTTTTGTGTGTTTACACCGTCGA
GGTGCACGCGTAGAAATGAGTCAAGTTGTTTTCTTTACGGTAATTGGTAC
AATGGATGCACTCCACCAAGCACACAACACACATCCCGCCCTACAACCGA
CCGATTGCAGAAGAAACCCATCTGTAACTATCGTGCTTGCTGAGGAAGAC
AAAATCGGCCGAGGGAAGCACACCAGACAACGGAGAGGCTGAAAGACAAT
TGATACCGTACTGTGCGTACACTTCTTTCGTCCCTGGCATACGCCATACC
CTAACTCGCATTCGATTCGATCACTGGTTACCACGCGCTGCACGGTACTA
AACTCAAGCTGCTCAGTACGCACCATGCATGATTTACAGCGCACGACAGG
ACAAGACATTCAACGTACGTATTCTAAACTGGTAGTGATGTATCGCACCC
ATCGGATTATCGCACCGGGGGTGCGGAAAAAGACATAACGAAATGATTTA
ATTGTTTTTCCGCACCGGTATCGGCGTTATCGCACCCATCGGCGTTATCG
CACCGGGGTGCGTAACAAAAGCAAGAACGGCATGATTTAAAAAACGATCG
CACCCCGGTGCGCTGGCCCGCATGATTACGGTAGTCTACCGGTATATGGA
ATATTTGACGGTCTCTTTTTACGACTGTCTTTCTGTCTCGTGCTGATTGT
TGTGCCCGGTCCTCAGGTTTGATCCCGATGAGCCGCCGCGGAGTTACTTG
CACAGCCGCGAGGAGAGTATGCTCAACGACAACGACGGATCCATGGCTGC
ATCCCCCGGAACGATGCTGGGCAGGCATCTGGGACGACTGAACTTCCCAG
GCCACAAGAGGTGTGGTTACAGTTGTCAAAATAGTTTTTTTGTTGAACAT
GATACTCGTTCGAGTACAAACTCAAGAAGGCTAAACCTAGACCTATAGCT
CGAGCTCCCCCTGTACCCCCTATAATCAATAATCCGTGGAAGAAGATGTA
CATTATTACTTGTATTAAACGTCTTTCGGCTTCAGGAGTCTCTCATCTCA
GGAGTACCAGGTTTACACTACTTGGTCTACAGTAGGACTATACAGCCTAC
AGCTCTACTGAATACTTGTATGAACTGAGTACTTTTGTGTCAGTTTTACG
TTTTAAGATGAAGACAAAGTAAGTCTACGCGGAGATTCGTTTCTTGTTTT
TGGTCGTTAGGAAATAGAAAAACGTTGCGTAGATCTACAGCAGTACGAGG
TACATAGTTCGTACTTTTATTAGTATTTCAAGCATTACCAACGAACATTT
TTGTAACACTGCAGCCCCCTGACTGTGCTGCCTTCTCACTCAAGGGTCCA
CTGCCCTAAGATTAATACCGTCGTAATGTACATGAGTTTAACCACGGAGA
GCGCAAAGAGTACAGTACCACTGGAACGCTTTTTGTACTGTTATAATTAT
TATATTGGGTCGTATTCAGTCATAGTGGCACTGAATTACCTTGTCCCGGC
AGGGAAAGTACCCGCGCTTGTCAGGGTGCTTTCCGTTAGGCGCGTTAGGC
ACGGGGTAGCTAGCGGCCTGCAGCGGAGTTGGAAGGACATCTGACATGAA
AAAAAATGTTATTTAAATTTCATACCGGAGTATTCCGTTCTGTAGAAGTA
TAATAGACTATCCGTTGGAATGCGCGAAAAGTTGTGCAATTCTCCAAAAT
ATTTTCCAAAATGTCGGATCGAGTTAAGCGCGGTAATAACTATTATAACA
GCGATGCCGATACTCTTCGCGAAGCAGCCTTAACGACCCCCGTATGTTCC
CCTGAAAAGCTTCGCTCTCACAGTAAAATATGATTGTTTCGGTTACTAAA
TCACACACACGCTGTTGCTGTTGCTACAGCAGTCATGGTTCGAGGCTTGA
CGTGAAGACGCCTCCCGAGTACGAGAATTATAGCGGAAGTACGTACCAGT
GCTAAGTAATACATAACTATATGTGTGTGTGTTGTCATCCCATTTATTCT
GGACGTCAGGTTTGTAGACGTACCAGCTGGGGCCACACAGGATTTCTCCA
CCTTCCTGCTGTGGTGCTTGCCTTAATTTTTCTCGCGAGAAGGATTCAGC
CTTTCCATTCCCTCGTCGACCGTCAAGTATATCAAATTTTGGTGTTGTTT
ATCTCACATTAACTGATCCGCTACGAATCCAGCCGTGGTCACAAAATAGA
CGGAACCAAACAAGTCAAACCGGAACACGTTCGGAGAAAAGCAGGGAAAA
CAGACAGAAGACAGCGGACAAGAAAGTAGCCAGCAAAGGATGAACCCACG
AATTCATCGTTCTCCACTTGTTCGGCATGATTTATTTATTTTTGTGAGGA
AAAATCCCAGTTTATGTGACTGCGTATAGATTCGAACTCACTTTCCAACG
TCAAAAGGTTTCGAGGTTACCAACAGAAGTAATCCTTTATTATATAATAT
TATAATATTACAGAAATATTACAGACAGTATTAATAGTCGGGGGGAACTT
TGCCTGACGTGGACATTTGGCGTCTTTATGGGTACAAAGCCAGAAGTTCA
TATTACTGTATATATAGACCTATTAATTATATTTATTAACTCCGAAGTAT
ATTACAAGTTACTGTACTCATAACTCGACCGATGTACTCTTCCTGCGTGA
ATTATTGTGCAAGTTATTTGTATTCTAGGAGTAGCTTTTAAGGGTTACCA
GGTATCTTATTGTTATTGTCCGAGTTATTGTTATTGTATCTGTATCCGAG
TATGCTTGCTCCCATATCGGAGTTAAACCAAGGCGAAATCACGCGTTTTC
CTCAATACTACTATATAACTAATGCTAAACTAAAATGCTTGACTAAAACT
CTTTTCTTGCAAACTCGCTTAAGGGTTATCCGAGTCTTCTCCCGTGCATT
CGGATTTTGACCGAGGCGGATTCCTACGGATTTTGGCCGAGGCGAATTTC
TCCGGATTTCGCCTCATCTATTTCCCCGCGGGATACACGTCACCCTTGCC
TTAAGACGACAGCTAATTGTATTTCGTCGCACAGGAGCCGAAACGGGAAA
ATTCCACGATAACTTTATTCTGTACCTGGACTGCTCAAAGTATCAATCCT
TGTGCAAGTATCTTGGTAAGATTTTACGCGAGCCTTGCTGTGTGTGTGTG
TATTCAAAAAGAATATGAACGCATGTAGACTTGATCTTCTGAGCATCCCC
CAGTCAAAAGAAAAATGTCAAAATGTTTTTTGATATTTAATCGGGTTCCC
CGATGGTACTATTATAGCTTAGGGTCAACAACAGTATAATATAATGTTGG
GGAGAAAGAAACCCACCGTTATACTAAGCACTTCCATCAATCAGAACGGG
TTTTAATGTGAAGACAACAATCGTTATGCAGGGACACCAAGCTAAAGCTA
AAGCTAAACAACCACGAGACACGATAAGCCTGTATTACCGCCGGTACTAT
CGACATGCTATAACCACTTCATATCAAAAGTAGGTGTGGGAAAGAGAGGC
GCATATAATTTGGTCCATGGTGACCTGCCAAGGCAGCACTCGTTCGGAAC
TACCTTGAGGTTTACTGGCCCTTAGCCGGCGGACTTTCGGCAGAGAACGC
CATCGGTACGCAATCGCGTGACCCGATGGCGTATGGCGGTTTCAAATAAA
TCAATGGACGCCGCCGCGGAACTCAGGAGGAATCCCGTAAGTAAGCACCA
AATTCAGCCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGACTGCC
GAACCCGTCTCGTGAGACCAAATTCTCAGGCGCGAACGGGTCATATTTCC
CTGTTCAGCTGACCACGAGCAGGTTTGGCAACCTTGACCCGGTTGATCCA
TACTTGTTGCTATATATGTGACCATACAAATACATATTACCATATTATTA
GCCATCACGCAAGTTACAGATTGACAAGGCAGTAGACAAGGTTTGCTTTC
TGATAATTATCAGGTGAATCGAACTACTATTTAATAGATGTCAGAAAACG
AAGAAATATTATCTTCTGTATGCAATGTATTCTTCAGATTATTAACCGAT
TGGGCCTCAACTATACTAATGCCCAGTACAGTAATACAGTATAATATAAT
ATAATATAAGTGCTTGACAATCCGGTACGTGATCTGCTGAACAGTGAAAG
ATCAGAGGAACATCTCCAAAGCTCCTTTCTAAGCATAAAAAACAAAAATA
AGGCAAAACACAGAGCCCCTAGAATAAAGCATATGCATGGCGCCTGCATG
GCGATAGCATGGCATACACACGCGCGCAACAAGAGGGGCATTAGGCATTC
GCTATTAATAGGGTAAAGAGGGTTTGATATATAGCCAGCCGTGAGCTAAG
CCATCCGATACCCCCCCCCCCTCCGGATCTGTTAAGGCATAACATCTACA
ATCACCGTATTCTCAGGGTTTTCAGGCTTCTCTATCGTGGCACCCCGGAG
TCCTTAGATAGGACCAATCAACGCGATTCTAAAACGTCCAAAGCTTGCAA
CGTTTGCCCCAGGTGCAACCTCAACCTCAACCTCGTCCGCCTCCTCCGCT
TCTCTCTCCTCTGCTGGTTTTCAAACGCTTTTCGAACGCTTTTTTCTCTT
CCCTCACCCAAGCGGCCATAAACCTACAGCCCATTTTGCACAATGTGCTT
TACTATTAATAAGTCGAAGGGTGTATGCTCTATTAATAGTATAAGGTCTA
TAAGGTCTAGTAATAGTGCGGCGGTTGCTCCAGTCCCCCGTGATGCCAAA
AATTCGACGATTCTCTGCCACAGCACAGTAAAGTTTTCGCTATTATCTCA
TTATTAGTATTAGTTGGAATATAGTACCAGGTACTGAATACAGTATAATA
GGTGCTTTTTGTTTGTTCCTTAGCCCAAGGGCGATGCTCTTTGATGCTTT
TGGCTTAGCAAACCGACTTATTGCCATCACATAATATGTATTACACATAT
TATATAGCGGAGTATGAATCAACCGGATAAGGTTGCCAATCCTGCTCGTG
GTCAGCTGAACAGGGAAAATTAATATTTCCCTGTCCCCGTTCGCGCCTGA
AAATTTCTGACTCGCGTCAGGCTGCTCATTCTCCACACTATAATGTATGG
TCATCACATACAGCAAGAGTATGGATCAACCGGGTAAGATTGCCAATCCT
GCTCGTGGTCAGCTGGACAGGGAAAACAGGGAAAATGAACATCTCCCTGT
CTCCTTTCGCGCCTGAGAATTTGGTCTCGCGAGATGGGTTCGGGAGTCCC
GTCCCGCTTCAGCCTGCTCATGTTCATACTCAGGCTGAATCTGGTGCTTA
CTTACGGGATTCCTCCCGGGTTCCGCGGCGGCGTCTAATTATTTATTTAA
AACCGCCATACGCCATCGGGCCAGTCCCGAGTTAGTCGGTCACGCAATTG
CGTACCGATGCGCTCACTGCCGAGAGTCCGCCGGCAAAGGGCCAGTAAAC
CTCAAGGTAGTTCCGAACGAGTGCCGCCTTGGCAGGTCACCATGGACCAA
TTAATATGCGCCTCTCTTTCCCACACGCCCTATTGGTATGAAGTGGGCAT
GTTGAAAGTACCGGTGGTTATGTTTAACGAAAATTCTGAACGTATCTAGG
CCTTCTGAGCATCCCACACAGGGGGAAAAATGTGAAAACACTTATGTGGG
ATCATAGACTGCAAAGACAAAACATCTTCATGGCATTTAAACGGGTTCCC
CGATGGTAATAATAGTAACATTGGATCATCAGTATAATGTCGGGGAGAAG
CCCACCGTTATACTGTACACTTACATTAATCGCCATGCAGGGACACTAAA
AAACTTTAACAAACAAAAACATTGTAGTACATACCACAACCAAAACCTAC
CAAAAACAATGTAATACATAATTAGATAAAATAGTAAAAATATGGTAATA
TTAATAGTTCCATCGCACCATACAGCAGCAGGGGCTATAACACAAGGAAC
GTTATGAGATTATAACTGATGTGGTACATTTTGGTTTAAGGTGTAGGACA
CCTAGTGGGGGTGGTGAATACATAGGGTTTGGGTTAAGGATTGAAACAGG
AGCAAAGAGTTTAAAGAACAATCTGAACGCATCTAGACCTTCTGAGCATC
CCCCAGTGAAGGGTTTGTTTGATCATGCATGTCACGTCTGATATCTCGAT
TAACATTTATCATACAGTTCATACTGTCACGAATTTCGGCCAACATGCTC
CCAGTATATGGAGTATTTAGGTGCAGTAACAATGTCTTCGTTGAGGCCTA
ATTTTTTAAAAGCTGTGAAAAACACTTGCTCGCCAGTCTCAGGCTGCTAG
TCCGGATCAGGTCTGCAGCAGTTTTGCCAGGCCCAGAAGTCAGTTTCCCC
ACAAAAGTATAAGTTACGACCATTCTCCATAACTGTTCATTCGTTTTTGG
TGTTTTAACGTATTTGCGTTCGATATTCGCATCTTCCACCATCTTCCACT
CTATCCACATCATATACTTTCGAGTACGACACGATCTGTGGCCTTGAGAC
TCTTGGACTTGTTGATCGAAACTGGTTGGAGCGTAATTTTGTCCGCTTTG
TTGCTGCGAACGCTGGTCGTGGGTAGGCGACAACAATCCGAGTCGATTGA
TGCTGCTCTCGATATGGAGTCAGGAGGTTTGATGAATCGTTTTGATATTG
GTCGGTGCCATTGCTTGATAACTTTTTGTCGCGATTTGTATCCCTGTTGG
TCTGAGTGGCGGGTTGTCACCATGATGTGATCCGTTGGACTTGGTACCTC
TTTGTGACCACGTACCGGATTGGCAACCACGTATATTACTGAGTATGGCT
GAATGTGAAGAATACAACAACAGGTTGAACTAATACTGGATAGGGTTCAG
GGCTCCTCCAAAGCTTCCGAAGCACGGTATAGTGCATAGCATTAATACGC
AACTTTTGTTGGCGATACTAACAATAGCATGATTTCAGCAAAATGTAGTT
TCTATGATAGTGCCTAAATAACATAAAAGCCTTGACTTGTAGGTGTCACG
GTGTCCAGGTCGTCTTTTCATTAGTCTCATATGCACATCTGTTTTTAAAA
TATATGAACGTATCTAAACTAAACTAAACTATTGTCGCACATCCTATTCT
AATAGCTCGAAACGATTCAGAACACATAGACTAAACTATTGTCGCACATC
CTATTCTAATAGCTCGAAACGATTCAGAACACATAGACTAAACTATTGTC
GCACATCCTATTCTAATAGCTCGAAACGATTCAGAACACATAGACTAAAC
TATTGTCGCACATCCTATTCTAATAGCTCGAAACGATTCAGAACACATAG
ACGGGAGCATCTCGTAAGGTCTAAAGTGGCGCATATTTTTGTACGGCAGT
ACCATGAATACGTGACCAAATTCCAGTTTTTTGTCGAAAAACTCATTGGT
TCTAAATCAAACCGTACTGATTCCGCTATCGGTGATAATACATTTTGCCA
TCTAGATCGGTATTGGATTCTGACTTCTGATGTAGCTCACATTCATCTAC
TACGGAAGTACTGTACTGTACCATGAATGTAATACGCCACCTGCAAGTTT
TGGTTGAAAGTTGATTCTGCGATTATTGGTCAAGACGAACTGAATCCGGT
ATCATTGGTGAGTACATTTTGCCGTCTAAGTCGGTATTGGATTCTGACAG
CACATTACTGTTGTTGTTTCTCACATTCAGCGTATTGGTTGCCAACCCGA
GAAAAACTACTTTACACGGTGGCCAATCCCGCTCGTGGTCTGCTGAACAG
GGAAAAGAGAACAAAAGAAAAAGTCTGGCCGCATACCCCCCCCTCCCCCA
CCACACACACACACTGCTCGTTATTAATAGGAGAAAAATAAAATAATTGA
AAAGCACGCGACGTATCTACAGGCGCTACGCAGGTCTTGGTCGGTCTTGC
GTCCGTTCAAGGATTTATTCGGCTCGTCGACTAGGCCAATGGGTGTTGCT
TCGCAAAATTCTACACTCCCGTCTGCGATAACAAGTTTCCCAGTCTCGTT
GCTTCTCTCTTCTCCTGGCAATATCTAGCCGCGTCTTCCTCTTCTTTCCT
CCACGCGGCCATGAACCTCTGCCTACCCAATGTGACAGTCTCAGTCCACA
CCTCAGCCTATAACGCCGTTGCTTTCCAGTCCCCCGCTATACCAAACGCC
CGGATGTCGCTCTGGACGCAATCGGCCCACTCGTTCTCCTTCCCACCCCG
TCCTCTCCGCACTGCACCCTCAAGGTTTCCAGACACGGTTTGCTTCGGCA
GCCGCCCGCCGCTCATTCGGAGGAGCGTCCCCGCCCACAAAAGTGTTCTC
GTTCGCAACGTCGTCTCGACGCTTTCACACCGGATTATCCCAAGGGCATG
GTTGTACAAAGTCATCCGATGGTCTGGTCTCTTGCGCTGTGGCCCGATGG
TATGCGGAGTTTGGCTTAGTGTTCCTGGCGAAGGGTCCACGTACTGCATC
GGCCTTTACCATTCGAGTCTTGAGGGAGAGCGCGACTTTCGGTTGGTCGT
AGAGCTCCCGTAGCTACCGCCTGATGCGTATCCAGCATGCGCGGGTCCGT
CTGACATTAACCTTCCACCAAATATTTATGGGGGATGTGTGTGTGTGTTT
GTTTACATTAACTAACCGATAACTTACCGATCGGGTCTCCCGGACAGCAA
CATATTTCAGAGGAACATAAACAGTATAGTTCTCCAACCAGAGCTTCAAA
ACAAAAACAAGGCAACAGCGACAAAAATACTATATTATAGGATACTAAAT
CAAAAATGGAGTATTTATGAGGTCTACAGTGATGAAATTGCTTGAGGTAG
AAATCCTGTAGCGCGCAATATACAGTACATGTACAGTATTTCAAACGTTG
CCCTTTGGCCATGCAGCTGGCAGTCCGCACATGTATATCTTTGGTGTTAC
GTTTGTTTCGTTTTCCTTTTTTTGCTTTGAATGAACAGTGAAGCTGAGGC
CCTTCGCTCAACCGCCTTCGACGTGCATGCGCCCCGCCCCGACAGCCACA
CGCAGTTACCGAACAACTCTCTGCGTTCTTATTTTTTTTTCTTGGAACGT
TCGTTTTGTTTTCTTCCGGGTGTTGTTTTTCTACCTTATGACCCGGGCTG
GATTTTGACATAAACTTATGTGGGAATTTATCGAAATCATAAGACGGTTT
TTTGTCTGTCGTCTGCATCTAATGTTTAATGTTGAAATAGTATTCTGGGA
AAAAAATACACTTGCGTATGCGTGTGTTCTAAAAACTATCCGATCAGGCC
TCAACCATGGTCACTAGTATACGTGGCTGCCAATCCGATACGTGATCTGC
CAGAAAAAGGACAGAAGAAGGCCGAAAGAACACCGACAAAGCTCCAACGA
GAGCTTAAGAAAAGGGTCATTATACCAGAAAAGCAAACGCCACAAGGGAC
TAGTATAAATAATAATAGTAATAGTACAAATAGTATAGGTTGGAAGCAGA
GACGCGCAGGAAACCCATGACTAAAACGAATGCATAGCGCATACACGTGC
GCGCGACACAAAGTGGAGCCCTCGCTGGGGAAGGTTTGGTATGTGGCAAG
CTGTGAGCCATCCGATACCCCCCTGGATCTCTAAAGGCGCAACATCTAGA
TTACCGTATTCTCAGGGTTCTCCGGCTATATATACCCTATCGGCACAGCG
GACGCCGCTTGGGGAATCCTAGGGTTGGTTCGATCAACGCGGCTCTAAAA
CGCCTCAAGCTTGCTACGGTCAACCTAGGTGCAACCTCAACCTTGTTCGC
CTCTTCCACTTCTCTCCCTCTGCCAGTTTTCGGACGCCTTTTCGGAGGTC
TTTTTCTCTCCTCCCACCCACGCAACCTCGAACCTGCAACCATAATCCTA
ACCCCCTTCGCAATCTCTGCTGTGCTGTACTGTAGTACTATTAATAAGCC
CCAGGGTTTAGTGCGGAGGTGCTCCAGTACCCCATGCTGTCAAGAACCGG
TTGATCCTCTGCCACGCAGTCGGTCCATTTCGTTGTCCCTTCCCCCCGTC
CCAGGTTGCCCCTTTCCCCCGTGTTTCCAAGCGCTCTCCTCCGCCCGACA
TGACCCTCTTGAGTAACCTGTGGTCGCCCATGCGGAGCAGCGCCCCCGAC
CACAACAACCTCCTCGTGCGCACGGCTGTTGTTTTGTGTTGCTCCACGAT
GCTCTACTTGTGTCTCTTGGGCAGAGGTGTTTGTTAGAGTATTGGCGTAA
AAGGGATACGTGCGTATGATTTTTGGTCAAGAACGGAGGTCCCTTATAAA
GCCAGAGAGGTACGTTGGCGTTTTCCTGGTCGATGTTTGGAAGCGATACA
TATTTACGATGGTGCTCACTGAATTTTTATTCTTAGAAGGCAATCCCGTG
TGTACTTAATTAGGGGATTTTGTAATCGTACTGTAACAATGGTATATGTA
CCTTCGTACGATGTCAAGACACATCGCGGCATCTTGCACAGAGAGACGAG
GGCACTGCCTGCCCCATGGTGACGGTGTCGTGCTAGGTGGAGCAGCGTCT
GTGCCGACGAATGTCTTGGGACTTAAGTGCTATGGAAGATATTGCACATC
AGGTCAAGGATGCGCTGATGTCTCAAAGAGCAACAGAAACACGCGACACA
TGGATCTTTATCGGAAGTGGGGGGATATACACGCCGAGGGCGTCTTCACG
GAGCACATTCTTACAAGTCATGCAGTAACTCAGTGCCTCTCAGCCGAGGG
AATTACTACTAAATTACCATTACTAATGACATGAGACAAAAAACGATCTG
CAGTAAAATATGTTGGGTATGGTATGGTATGTGATGTTTTCACAAGTGTG
GCAAGGCTTGTGCCTTTGGAGGTGCCTTGAAATCGTTCAACATTTTTCTT
CTGAACGTCTATTATTAATAAAAGATCAGTTATCTTCGGGATGTCGATTT
GCCGAGTCTGCCCCAAGCACGGAAATCGGGAGGAATCCCGTAAGTAAGCT
CCAGATTCAGCCTGAGTATGGAGAATGAGCAGGCTGACGCGAGAGGAGAC
GGCTGAACCCTTGTCGTGGGACCAAAATCTCAGGCGCGAACGGGGACAAG
TAAATCATGTTAATTTCTCCTGTTCACCGATTGCATACATACTGATTCTA
TCTTTGTCAAAAAGAAAAATCGACAGCGTTTCAGGTTGCCCACGATGGAA
TATTTCTAACGGGACCTTACGTGCTTTGGTCGCTCGAAACGTTTTTTGCG
CGCATGATAATTGCCGTATATTTTTCATACTGCAAAACTTCCATACATCG
CAATGTCCGAGATGACTCGGGTTATGCATAAAATGCCGCCCCCTGTATGA
GGGAACCTTTGAGTGTAGCCTTACTCGTGTTGTAATGAATCATATACATT
AGACTAATAATGTTATTGTCTGGCCATTCTATAATACTATAATACTATGC
TTGATGGGGTAATATTTTGCCTCTGGTTTGGTTTTTCTTGTGTACTTACG
TGACGATTAAGGTCACTATAATATATACTGTTGACCCAATGCCATGAAGA
AGTTCTGTAATTGCAGCCTCTGATCCCACCTTAATGTTTGTATACCCAGA
AGGTCCAGGCGCGTTTTGATATGTACCTGGTACTACTTATGGTAACGTAT
AATTATTTCTATGGTACTGCACGTACCCAGGATCACGTCTACATCTATCT
ATAGATGTAATGTAACAAACTCTAAAAACTGAGTTGTATCCCAAGCTTCC
CGTGTATTCTGTGTTTGTTTTTCCCCCCCACAACCGGGGGATGCTCAGAA
GGTCTAGATGCGTTCTGTGTTTCAATCTTAAAATACCCTTGCATGACAAT
TAATGATATTATACAACAGTATACTAATGTACATTTTACTATTGTCTCAA
GTATACTAATGTATTCATGTATGTCTCGATGGTACTAATATCGACAGTAG
TACTATACTCGTAACTATGTATTACTGTGGTTATGTTGGAGTATGATTGG
TGGCTATGCATGGTGATTAATATAAGTGTACAGTATAACGGTGGGCTTCT
CCCCGACATTATACTGTTGACCCAAGGTTACTACCAGTGGGGAACCCGGT
TAAATACCATGTAGTGGCTTTGTATTTATAGCCTTTGTAATGTATATTAC
TACTACCATGTGTGATGGTGTACTACATTGTCTCTAGTTTGCTTCTAATG
TTTTTCTGGTGTCCCTGCATGGCGATTAATGTGAATGTACAGTATAACGG
TGGGTTTCTTCCCGACATTATACTGTTGACCCAATGTTATCTGCATCGGG
GAACCTGTTTAAATGCCATGAAGAGGTTTTGTATTTGCAGCCTTTGATCC
CACCTAAACGTTTTGACATTTTTTCCCCCATAACCGGGGGATGCTCAGAA
GGTCTAGGTGTGCTCTGATTTTTCTTTAAATACGTAACCACATATTTACA
ACACATTACCTGGTATTGTACAACAGAGCCTATTTAATTATCACATTTTT
CTTACTAAAGAGTAGTAGAAGACACGTTCTATACAGTATACTCGTTTTTT
TTTAATCTCTCTAGTCTATACAGGTATACGGAAATGGAGAGAAATCTCTT
TAGTAAGCACCAGATTCAGTTTGAGTATAGAGATGAGCAGGCTGACGCGG
GACGGGACTGCCGAACCCGTCTCGGAGACCAAATTCTCAGGCGTGAACGG
GGACAGGGAAATGTTCATTTTCCCTGTTCAGCTGGCCACGAGCAGGAATG
CCAACCTTTCCCGGTTGATCCTTACGATTGCTACTGTGTATGTGATGACT
ATACATACATATATACTATGTAACATCATAATGTACCTTGTCCACCTCCT
ACTGATACTGCGGAAGAGCGTAGATGACTTTACTTACAAACAGCAAACAT
GACGTATATTTAATATTACACTTGCGCTCCGATCTTGCGACATTATATTT
TTAGAACAGCTAACATTACAAAACATGCGTTTCCATGGAGAGCAAGTTAA
GCGTTACAATATACATCCCCAATTCCCTAACAGCTTACTGTAGCCTGCCT
TTACGTTTCTGCTGGTAAACTGCTGTTTGACCGCCTGAGAAAATGACTCC
CGTAATGCGCTCCCCGTGCGTGTCTTGACGTGACGTGATGGCCCGTACTC
GGAAGTGCCCCCAGCAGCAACAGTCCGAGGGCTTCCGAGGTCAGCGGGCT
CCAAACACCCGGGACTCCCAATCCCGGTCCTTGGAACCGGGCTCCCTCGA
GCGTGGGGAGCCGTTTCAGCGTCCGTCGCTTCATGACGGGGTCGAGGATG
GGATCGTTCAAGAGAGCCTCCGGTATGGACGAGGACGATCAAGATTCCAA
CTTGTTCTTCGACCGCGTCTACTGCGCCAATCCACAGGTGCGACATGGGG
TTTCTTAAATGTAGAAGATTTTTTTCGTGTACGGGGTTGGAGGAACGGTA
TGCTGAATGAAATATATGTGTACAGAGTTCGATTTCGAGACGCTGTAAGT
GATATCAACACAAGGACGGTCTTGGTTAGTTATTATAGTAACTTATGAAA
GAGATTTGAGAGAGGGTTGGATAGAGTACGGCAGCTCTCACCAGCTTTGC
AGATTACCTTGGTACAAGTATCACTATTTTTACATTTATGTTTTTTTTTT
TATCATGACCATGACGTTTGGTGAGTATTTTTTTATTTTTTGGGGGTTGA
TATCTTACGCTGCCGCGAGCTTTTGCCTGCACGGCACCTATCGCATTCGT
TCCTTCTTCGAAACTCTGAACCGCGTCTTCCGCTACACTCTACACGTACG
TGACTGGTATTGCACTATTGTATATTGTATACAGGAGACGAGACTTTTCC
CGTCGGCGTATCTGGTCCGCATCCTGGCGTTCGCCAACGTCTGCCTGGGC
TGTCTGTACCTCCACGTGAGTCTCGCTTTTGATACGACTGAGAGTCTTCA
CAGCAAAGTTCTTTTACTACTGGGCGTTGCGAGGTTAGGTCGGAGTTGTT
CAGTGACTCGCCATTCGCGATCAGACGGTACATCAAACGGCGAGGGGCTA
TGATACGTGGCTGCTATATCGATGTCGTGATATTGAGGCTAACGCTGCTG
ACATCTACCATACCGTGCTTCCGTTCTACTCCTTCTGTTGTCATCCATTA
TGTCAATTCCATTTTAGTGGCGCTGGACCACGACCTTCCCGACGGACATC
GAGCGCTGGGATTACATGAAGTGGATCTTCTACTGGTGGTGGACATTTTT
CCTGGCAGAGATTTTTCTTGCCATCGCCGTTTGGATCGGTCTCGCGCAGC
GTCTTTTCCCGGTGCAGCGGATCAAGGTACATACCTTACCTTATGTATAC
TAGCGAAATAATAACCCGAACGGGTGAAATGGTGATTTCATGTGTCTTCT
GAAAAAAATATCTCTGCAAACCTTTTGATTTACTATTAATATGAGAGCTA
GGTGTATGTTCCGATACATAGACTTCGTTTTATTGTGGGGCACGTCTGAC
TGTTTCAGGTTACTATGGACGACATCACCTCGGTGGACGACCAAGTCGGC
TACAACGCACGGTGGGATAATAGACTGCGCAGGCATACGAGTATTCATCC
GGGGATATACTCATCATTGAAATATCCATTACAGTTATTTTTCGCAAAAA
ATGGAATGAAGACGGAATGAGCGCCCGCCTCTCGCGGATGAATTTGGATG
AAGTCGGGGCCATGGCCTTTTCGCTGCGGCACGCACGCACGCACGTTTTT
GTTTAGTCTCTTTTCTAGAGGTGTGCGGTGATTTTGTCAGTCAGTATTAA
GCTTTAAAAGACTCGCGCGCTCTCCGTCTTTTTGCCTAACATGCACTTGA
ATGACGTATCAATAACAGGGTCGCGATCCTCCTCCCAACTGCTGGAGAAA
ACCTGGAGGTGGTCTTCAAGGCTCTAGTTGGTTCCATCTCGCAGCGTCTC
TGGGACTCCGGCCTGCCCGAGTGCCAGACTCTGCGCGTTGTCGTTTTGGA
CGAGAAGCGTCGCGTGGAGGTGTACAGAGTGTGCGCGGGGCTGCACCGCA
TTGGAGAGCTGCTGGCGGGCAGGCGTGTTCAGCAGATCCTCATGGTACGC
CCATGTGCCGCCGTGTAATTTTTTATGAACCGCCGACGCCCTCCTAAAAA
GATATGCCGGGCTCTTATGATTATTCCTAATGTACTTGTTGCGCCAATGC
CGTTAACGCATGGAATTATACAAAATATGGCGTTTTTGTGCCGTTTTTGC
CTTTTGTATCCGTCCGAAACCATCACATCAGGCCGAGGGCGTCACAGAGC
TGACTCCCAAGGGATTCATCGACTGGTGCCGCAATGGAAGTGGCTACGAG
CGCAAGCACTTGTACGATGACAAGAAGCTGAACGAGGCTGTGCAGGTCAG
TACCGATTTTGCAGAAGCCAACGTCTCTTCTCCGCCCCCAAACCTTCGTG
CGACAACACATTTACGTTACATCACGCCTCTCGTACTTGGAAACCTCCGC
TGATATTAGGCCACCCGGGCTGTCCTTTTTGACGATGTCTTGGTCTTGTT
CGATACTGATACCGATATCATGCAGGTGCTGCGTCTTTTGGACGCCATGT
GTCTCGCCAACGGTCTTACTGACGCCTTCGCGCTCGAGGCGCGGCCTTCA
TCGGCAACCTACAACCCCATCTCGGCGGCCGCTTGGAACGCGGCCAGTCG
TGTGTCTAAGGCTAACGAGAACACCATGGAGACGATGGCGGAATTGAACG
AGGCTGCTAGATCCGAAGCCGAAGCAAAGATGTTGGGTGCCAGCGCGATG
AATGTGACTCCAGGTCTGTCCCATGGGGGGGAGGGGGGCATGGCATCTTA
CCGCCGTTTCCCGCCGTTTTTGTAATACATAATACACATACTTGGTTCCC
AGCGATCCAAAATGCGAAAACTTCAGCATGAACAAACAAACAAAACATAC
TTTTTTTTAGTCGTATGCACTGTGTAAGATGTACGAAGAAGTGCTGGATT
GTACTATTGTATTAATACTAATGCCGTACTAATGATATCATAGGTATATA
TAACACTTGGCATGATCCAATGATCCATACAAGATTCCTCTCTTGGAAAC
AAATTGAAAACGGGGAAGAGTCAAAACACCAGGAAGGTGTATCTTACATC
GACCTCAAGGATATTCGGTCGAAAACTCTTTTGAACCCTGCTGACCTTTC
CGTTGAAAACACGCTTCCGCAGGGTTTTACGAGATCTTTGGCTCGGACCC
GAAATCTAACAACAGCGACGCCGCCAATGATCTGCTGAAGGGATTGCCTA
CTCTTGTATACTACTCTAGAAAGGACGCCGGTACTCCCAAGATCAGTCCC
AAGGCTGGTAACATGTGAGGCTCCCGTAGCGCTGTGCCGTGCGTCGATGT
GTACGATACTTCGTACCACGTACAGTACTATTAGGTCTCATCAACTGCAT
GTTGAAATACCTAATGCGCAATGCTAAGAGAAACAATACGCTATTTCATC
TCAATGTATCTCCGCCAGGAACGCGGCCATCTTTCCCTTGGACGACCCCC
AGCGAGCTCCCCTCGTAGGAGACGCCACTATCGTGGTTGTCAACGACGCC
CGACACCAGCTGGAGGCCAACTTCCTGCAGAGGACCGTGCCTTACTTCTT
TGAGCTGACTGGGGGCCTCCCGACGGTAGCCTCTGGCGGACGTTATCGGT
GGGCTAAGGTGCGTCTCGTCCCGATATGTGTAACACTACAGTTAGTGTCC
TATTTGCTCAGAGACATGTATATAAATGAGACGTAGGTGAATGTGGTACA
GGTGCTGAATGTCATAATGTGCAAGTGGTGGAAACAAATCGACTTTATTC
TTGTCTCTGGGAAAATGTAGCGATCGTTTTCCTCATGCGAGTACTGTTTG
TCAATGTTTCATGGTGTCAACGCAGGTTGCGTTCGTGCAGACGCCGCAGC
GTTTCCGAATGGAGCTCACCAATGATCCGCTCGGCAACCACGCAATTTCG
CAGGTACTGTTAACACTGAAGTGACGGTATTTATACTTCTATAAAGATTA
TGTACTGTATATATAAGTGGTGCCTTGCTTTTCGCAGTCAGGTTGTCAAA
ACCTTTTTACCGGTCCTGGTGACACGGTACAAATATCACACCTCTTAGCA
CTTGCGTTCAATACAATTTTGCGATTGAGAATCCAGCGTCTTGCTGCCGC
TAAGGAGTTGTACTGTACAAAAGTGTCATTATGCGAAATGAACGACTCCA
TACAGCACACCACCACCGGATTCTCTTACTAATACATCAATACTGTCGCT
ACTCGCCTTGCTTTGCCTTTCTTTGCCTTGCTCCGGCAGTATGACGTCAT
CAACCACGGCAAGGACGGGATCGGTGCCGTGTCCTCTAGTGGTCAAGGCA
GCCTCTGGCGCGTGGAGGCTTTGAAGGGTCAGCAGCCTGACGGCAAGGTG
GTTGATGATCCCAAGGATCTCAATCTGGTCGGGGATAAGCTTGGCTTCCG
CTCCGAAATGCTCATCGAAGATACCCACACGTCGATCGACCTCTTCCGAC
AGGTGAGGTGCAATTTAAGGCCATACTTTTTACTTTTTACTCGAGTTCAG
TGTTGAAATAATACGTAACGAAATTCGCTTGCACCTCTATAGACTGAAGA
GGTAATTTAGTTTAATACACTAGGGCTGTCTATCGTACACTCTCGCTGTC
GGCCAGTCGCTGTCGGCCAGTTTGGCCACCTGAAAGTCACCTGAAGGTCT
GGATCTGCTGCAAATACTGGTGACAACTGTAGGATTGATATCTTTAGAGA
TGCTGTATTATCTTCAGTTTTACTCTAATTTGAAAAAGGAAGTACTGTAA
ATTGTATACTGTAGTAGTCTGGACGCGCCAACTTCTACTGAAGCCCTCGT
GCCCTACATTCTATGATACATTGTACTGCCATTTATTACCAGGGATGGCG
CAGCGTGTACATAAACGAGCCGGGCGAGGTTCTGGCATGGTGTACACACC
AGCCGACCAGCCTGACTTGGCGTATCAAGCAGGTGTTACGGTGGCATCAA
GGAGCCGTGCAGCTGCTGCTGTTCAAGGGCCTCCGTTACACGAGCATCGG
CGGGTACTACCCCACTATTTGGCACCGTCTCTACGCCTTTGATCTCGCTA
CCTACTACTTGCAGGTGAAAAACATCTCCCCATCTTTCCATAGAGTACTT
GTTATAGTAAACCAACCTCACTGGGGTCGACGTCATTCGACTACTATTAA
TAATTACCAGTATAATACTGCATTGCGAGAAAAATATTTAAAATATTTTG
TCTGTTTCCGCGTCTGTTTTGACTTTCGTTGCAGGCGCTTCCGGGATACG
TGCTGCTGGTTATGCCGATCGTCTACGGTGTCACTGGCAGGCCGCCGTTT
GTGACAATGTAAACTCTCAATTGTATAAAACCGGCGGTTTGCACGTGCCA
TCGTACGTTGTATGTTATTTTCTGCACGATTTGTCTCATGTTTTGGGATG
TCTTCCGCCGTTTCATTCTGATTATGATTTGTCTTGTCTCCAGAATGTTC
CGTTTCGTCTTCACCTTGTGGCGTCGTTTTCGTGTCACTTCCGTTCCCGC
AGGCTGAAGGACTACTTCATGTACTTCACCCCGTTCATCGTGACCGCGCT
GCTTCCCACGGCCATCTCCAGCCAGTGGCGCAAGATCGACTCGCACCGTC
TCACGCGAGACGAGCAGACCTGGCTGTCCACCACTTACGTACAGATCTTC
GCTTTCGTACAGGTATGTCTGTCTTCCGACCCGTCTGAGACATTCCCCCG
GCAGTGATGAAAGGAAAAGGAATCTATTATCATTGTGTATTAGTTGTGTC
CCACAGCACTACGAGATATTTTATGCACAGTAACTAACTGTGTTTGTCGT
TCGTCCTGCTGGCGTCATTACTCCCAACGCGTAGGTGATCTGGACAGCAA
TCACGCGCAGGAGTCACGAGAACGCCTGGGTCGCCAAGGTTCCGACGTGG
CCTCTGGTGTTGGTTTTCTTTGGTCAGATTGCCTCCGTCATCGGTGGCGT
TTACTGGGTCATCGATAAGGGTAAGCACATGCGCCCCATGGTGCCGAGGA
CCCGCGATTCGTTGTTCCTGTGTTTTAATGTTTTAATTTTTGATAGCTGT
AGCTGTAGCTAGCTATCGTAGCTACCTACCTATTATAGCTTGCCTTGATG
CTGATGACTGAAGGTGTGAGCCACGTACTATCGTTTCGTGCTCAGGTTTT
GTGCTGTGGTACGCGAACTTCTTCTCTATCCTTGTGGTGGCCGGCTTGGC
TATGCACGCGCTGTGGCCTATGGTGTCACTCAGCTTGGGGTGGTCCCTTC
CGTCGTTCTACTACATCAAGGTAAGGAGGTACACTGCACTAGAACACTAG
TACTACTAATACCAGTAGTAATTGTCTACATGTTCATTATTGGGTTGGTA
CAAAGAAATACAATAAATACATTTACACTGGTTCAATGGTTCGCCCTCGT
TATACTGAAAACGTTTACGGAGTATCTTAAGTTGCTTTTACGTTTTTACG
AAGCGATCCTTGTCCTTTTGCATATTGCCCCGTGCTATTCTTGTCCATTG
CCGCCTTCATACTACCACAGCTGTTTTTGTGGGTCTTCCTGGGCTTCTCT
GCCGTTGTGCTGGCAAACCTTCTCGAGTAAGCACGCCCAGCTGCGTCCTT
CATCGATCTACCGGGGAGCGCGCGGCAGACGTCGATTATTGGAGTTTGAG
ACAGTACAGCGTCTCTATTTTTTGCTTTTTGGTTATAAGGGTTAGCACCA
TGAGCCTCATTCATCTTCCTCCCGATGCAAGTCGGCGGAAAATGTTATGC
GAGGGCGGTGTATGAATTGAAAATGTGCAATCAAGAGGTGTCTTCGCGCT
CAAAAGCGTAGCTTCCTGCCGTAGGAAGTATTGCAGCATCTGCGTGTGGC
AGGCTAGGTGTAATGTATGACTTGAGTGACCGTGTGTTGTGTTCACTTGA
ATGATCGAGTGGAAGCTGAAATAATGGTGAACGCGTAGACGGTAGGAGCA
TTACCGAGCTGTTCGCTGCACCCTCTAAGGCAGTGGGCAGCTAGGGGCTG
GAGGCCTTGATGCGCCACGTTCGAAGACCGACCCATGGGCAGTACTATTA
TTAAACGTTTATAATTTACTCCATTGGTCGTGCGATGAAAGGCAAGAACA
ACCCTGTCAAATATACACCCCGCGCTGTTCACTTGGCGTTGCCGTGGATA
CCCACTCCTTTCTCTCTATTTCTAGTATATTGTGTTTTGGAACTGAAGCC
GCTTGTTGTGCGAATGGTTTAGGTAACAGTACTGAAGAGCCTTGGCAGTA
CTTTACCCTAGGGTGTCGTCTGCGCAGCCTTTTCGAGAGTATTCGAGTGC
ATTACTTTTGACTTATTTTGGCGATTATTTTCCCATCTCGATAGTTGTTC
AGCCTTGAGTCAAGCTCGAAGCTCATAAGTAGTGTAGAGGTATGCAGTTC
CTCGTTCCTGGTACTTTTGGACATGTGTCTTCTGTTTTGTTTTTTGTGTA
CTATTCTAACCGTGTCGCTGTTTTAACACAGTTTGTGTGCCTGAGATAGT
GCTCTCGATTTTGTGAAGTATTAATATTAGTTGTGTGTTTGTACGGAAGT
CGCGGTGGATTCACCGCCGCGCGGAATTTGTACTTAATATTCTCTACCAG
GATGATTTGGAGGCGTTTCGGCTGTTCGACTGTTTGAAATGGTTCTGCCT
AGCTCCACCGTACAATGTGGATCGAAGGCAATTCTTACAAAGCCGAAAGC
TCTAGAGCTAGTTGTGTAAACTTGAAGGCGCGCATACAATAAACATTTAT
GAGAGATGATTTTCACTATGGTCTTATTTATTTTACCCGAGATCACGGAA
GGGCGTCTCTAAATTAGACTATGCTAAATCACCCTTCGTTCATTTGAAAG
CGCTCTTGTCTGAGGCACAGGCGTATCGCCCTTACCCTCTTTCCTTTTTT
TGTGTCGTGCGCTGACTTAACCCCCTCCCCCCCCCCCCCGGTAGTTGTCT
TCCACAGTGGCC back to topCoding sequence (CDS) from alignment at A-nodosum_M_contig100:316854..353615- >mRNA_A-nodosum_M_contig100.20.2 ID=mRNA_A-nodosum_M_contig100.20.2|Name=mRNA_A-nodosum_M_contig100.20.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=3012bp|location=Sequence derived from alignment at A-nodosum_M_contig100:316854..353615- (Ascophyllum nodosum dioecious) ATGAACGTGCGATCCAATCAACAGCCGGCGGGTGGAGGTGGTCAACATTC CGTCGCCACCTTTTCAAATCCTGCCGGCGTTACCAATGTGTCTGTTCCGC CTGACACCGGATCGCAGAGTGGCCGCAGCGTAAGAATGGCCCCCGAGCCG GACATCTACGACATAATCGAGGCAGACAATACGGCCATGGAACGGGTACA CAAGGCCAAGGTTCGCGAAATGGCTAACTCCACGCCAACGCATTCGAGCA ACACGAGCATGATCGGTCGTGGACTGAGTCGAGGCATCCTGAAGCGTGGA AAGAGTAGGCGTCAAGGAGCGGACTCGGTCCACGCCGGCTTCAGCGACGT CAAATCTGTCTCGAGGTTTGATCCCGATGAGCCGCCGCGGAGTTACTTGC ACAGCCGCGAGGAGAGTATGCTCAACGACAACGACGGATCCATGGCTGCA TCCCCCGGAACGATGCTGGGCAGGCATCTGGGACGACTGAACTTCCCAGG CCACAAGAGTGCCCCCAGCAGCAACAGTCCGAGGGCTTCCGAGGTCAGCG GGCTCCAAACACCCGGGACTCCCAATCCCGGTCCTTGGAACCGGGCTCCC TCGAGCGTGGGGAGCCGTTTCAGCGTCCGTCGCTTCATGACGGGGTCGAG GATGGGATCGTTCAAGAGAGCCTCCGGTATGGACGAGGACGATCAAGATT CCAACTTGTTCTTCGACCGCGTCTACTGCGCCAATCCACAGGAGACGAGA CTTTTCCCGTCGGCGTATCTGGTCCGCATCCTGGCGTTCGCCAACGTCTG CCTGGGCTGTCTGTACCTCCACTGGCGCTGGACCACGACCTTCCCGACGG ACATCGAGCGCTGGGATTACATGAAGTGGATCTTCTACTGGTGGTGGACA TTTTTCCTGGCAGAGATTTTTCTTGCCATCGCCGTTTGGATCGGTCTCGC GCAGCGTCTTTTCCCGGTGCAGCGGATCAAGGTTACTATGGACGACATCA CCTCGGTGGACGACCAAGTCGGCTACAACGCACGGGTCGCGATCCTCCTC CCAACTGCTGGAGAAAACCTGGAGGTGGTCTTCAAGGCTCTAGTTGGTTC CATCTCGCAGCGTCTCTGGGACTCCGGCCTGCCCGAGTGCCAGACTCTGC GCGTTGTCGTTTTGGACGAGAAGCGTCGCGTGGAGGTGTACAGAGTGTGC GCGGGGCTGCACCGCATTGGAGAGCTGCTGGCGGGCAGGCGTGTTCAGCA GATCCTCATGGCCGAGGGCGTCACAGAGCTGACTCCCAAGGGATTCATCG ACTGGTGCCGCAATGGAAGTGGCTACGAGCGCAAGCACTTGTACGATGAC AAGAAGCTGAACGAGGCTGTGCAGGTGCTGCGTCTTTTGGACGCCATGTG TCTCGCCAACGGTCTTACTGACGCCTTCGCGCTCGAGGCGCGGCCTTCAT CGGCAACCTACAACCCCATCTCGGCGGCCGCTTGGAACGCGGCCAGTCGT GTGTCTAAGGCTAACGAGAACACCATGGAGACGATGGCGGAATTGAACGA GGCTGCTAGATCCGAAGCCGAAGCAAAGATGTTGGGTGCCAGCGCGATGA ATGTGACTCCAGGGTTTTACGAGATCTTTGGCTCGGACCCGAAATCTAAC AACAGCGACGCCGCCAATGATCTGCTGAAGGGATTGCCTACTCTTGTATA CTACTCTAGAAAGGACGCCGGTACTCCCAAGATCAGTCCCAAGGCTGGTA ACATGAACGCGGCCATCTTTCCCTTGGACGACCCCCAGCGAGCTCCCCTC GTAGGAGACGCCACTATCGTGGTTGTCAACGACGCCCGACACCAGCTGGA GGCCAACTTCCTGCAGAGGACCGTGCCTTACTTCTTTGAGCTGACTGGGG GCCTCCCGACGGTAGCCTCTGGCGGACGTTATCGGTGGGCTAAGGTTGCG TTCGTGCAGACGCCGCAGCGTTTCCGAATGGAGCTCACCAATGATCCGCT CGGCAACCACGCAATTTCGCAGTATGACGTCATCAACCACGGCAAGGACG GGATCGGTGCCGTGTCCTCTAGTGGTCAAGGCAGCCTCTGGCGCGTGGAG GCTTTGAAGGGTCAGCAGCCTGACGGCAAGGTGGTTGATGATCCCAAGGA TCTCAATCTGGTCGGGGATAAGCTTGGCTTCCGCTCCGAAATGCTCATCG AAGATACCCACACGTCGATCGACCTCTTCCGACAGGGATGGCGCAGCGTG TACATAAACGAGCCGGGCGAGGTTCTGGCATGGTGTACACACCAGCCGAC CAGCCTGACTTGGCGTATCAAGCAGGTGTTACGGTGGCATCAAGGAGCCG TGCAGCTGCTGCTGTTCAAGGGCCTCCGTTACACGAGCATCGGCGGGTAC TACCCCACTATTTGGCACCGTCTCTACGCCTTTGATCTCGCTACCTACTA CTTGCAGGCGCTTCCGGGATACGTGCTGCTGGTTATGCCGATCGTCTACG GTGTCACTGGCAGGCCGCCGTTTGTGACAATGCTGAAGGACTACTTCATG TACTTCACCCCGTTCATCGTGACCGCGCTGCTTCCCACGGCCATCTCCAG CCAGTGGCGCAAGATCGACTCGCACCGTCTCACGCGAGACGAGCAGACCT GGCTGTCCACCACTTACGTACAGATCTTCGCTTTCGTACAGGTGATCTGG ACAGCAATCACGCGCAGGAGTCACGAGAACGCCTGGGTCGCCAAGGTTCC GACGTGGCCTCTGGTGTTGGTTTTCTTTGGTCAGATTGCCTCCGTCATCG GTGGCGTTTACTGGGTCATCGATAAGGGTTTTGTGCTGTGGTACGCGAAC TTCTTCTCTATCCTTGTGGTGGCCGGCTTGGCTATGCACGCGCTGTGGCC TATGGTGTCACTCAGCTTGGGGTGGTCCCTTCCGTCGTTCTACTACATCA AGCTGTTTTTGTGGGTCTTCCTGGGCTTCTCTGCCGTTGTGCTGGCAAAC CTTCTCGAGTAA back to top
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