Homology
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A6H5K1Q4_9PHAE (Protein xylosyltransferase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K1Q4_9PHAE)
HSP 1 Score: 760 bits (1962), Expect = 6.850e-267
Identity = 364/530 (68.68%), Postives = 432/530 (81.51%), Query Frame = 1
Query: 400 VPPTGILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADGVYHDLVAAFKDRPNVIMMDEGRLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPKDAEVFDVLDRVRAGDQPWRKGPTFDSVAIQSVARWSGSKG-EVSLCLSLEDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITSSKGACLDLLGEAKDPGAPAISYKCHNRWNQFFSFGEGKLKGHVLSIVPRHLAMADQLEGAALCLEAVPSDGGTVMVQTAECSPESPSQKFEIVQLQP 1986
+P TG++DP+EVRLVYVILAH+ PAQ++RLV+ALDD PG++RTWF++H D KAD V ++ F DRPNVI+M+EGRLDVAWGGFNVVQA+LNAV+LALE+E+PF+WLWILSGTTYPI SND IR +L+SHHPE+IFME K + HKPASTTWHYFVECDSALHRIGR++ PRG++M YVGSQWLAMPP+ ARWLMED LVPKYREY+KHIVVADENFLPT+ KNSPFCG+ V+SNLVHVQFD+YEHTLDREDRR DKCLMPNPDHCGRSPATMT+DYLSVLEHS MLFARKFDPKD++VFDVLD VR G Q WR+GPTFD ++I+S S S G + LCLS+ + + N EA MV+CS +P QIF LGPC SDG LELGEGG G+M+S+ G ++GR+PSCSI S G+CLDLLGEAK GAPAI+YKCHNRWNQFFSFGEG+L+GH+LSIVPRHL MAD L ALCLE+V G ++++TAECSP+ P+QKF +VQ+QP
Sbjct: 1 MPETGLIDPEEVRLVYVILAHDAPAQIVRLVDALDDTPGRDRTWFVIHIDAKADDVQQEIKKVFIDRPNVIIMEEGRLDVAWGGFNVVQASLNAVSLALEREIPFHWLWILSGTTYPIVSNDAIRGKLSSHHPESIFMEVKPSVHKPASTTWHYFVECDSALHRIGRNLIPRGLDM-----------YVGSQWLAMPPSVARWLMEDTGLVPKYREYAKHIVVADENFLPTVIKNSPFCGNLVSSNLVHVQFDKYEHTLDREDRRADKCLMPNPDHCGRSPATMTVDYLSVLEHSSMLFARKFDPKDSQVFDVLDMVRDGGQAWREGPTFDYISIRSPIIHSSSAGADEHLCLSVGPPPPKQPGSPPN---------TEAVMVKCSGADPRQIFKLGPCSSDGDLELGEGGNGYMKSARGSMSGRAPSCSIMSLVGSCLDLLGEAKGYGAPAIAYKCHNRWNQFFSFGEGELEGHLLSIVPRHLHMADDLTEGALCLESVDEGSGGIVIKTAECSPDRPAQKFSLVQVQP 510
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
D8LMY0_ECTSI (Protein xylosyltransferase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LMY0_ECTSI)
HSP 1 Score: 711 bits (1835), Expect = 1.340e-247
Identity = 344/491 (70.06%), Postives = 399/491 (81.26%), Query Frame = 1
Query: 124 ARDYSNVDPSFEATLEGSMTGGQAQLDVETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKRPDVPPTGILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADGVYHDLVAAFKDRPNVIMMDEGRLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPKDAEVFDVLDRVRAGDQPWRKGPTFDSVAIQSVARWSGSKGEVS-LCLSLEDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPC 1593
ARDY VDPSFEATLEGSMT GQAQ+D ET++A H+RLESLLRG RTEECR+EI+ AYQ YMGAQALER+LPFEG KF+ QC D KRPD+P TG++DP+EVRLVYVILAH+EPAQ++RLV+ALDD PG++RTWF++H D KAD V ++ F DRPNVI+M+E RLDVAWGGFNVVQA+LNAV+LALE+E+PF+WLWILSGTTYPI SND IR +L+SHHPE+IFME K + HKPASTTWHYFVECDSALHRIGR++ PRG++M YVGSQWLAMPP+ ARWLMED LVPKYREY+KHIVVADENFLPT+ KNSPFCG+ V+SNLVHVQFD+YEHTLDREDRR DKCLMPNPDHCGRSPATMT+DYLSVLEHS MLFARKF+PKD++VFDVLD VR G Q WR+GPTFD ++I+S S S G LCLS+ K + N EA MV+CS +P QIF LGPC
Sbjct: 55 ARDYDGVDPSFEATLEGSMTAGQAQIDAETKIAAHTHARLESLLRGARTEECREEIVTAYQRYMGAQALERSLPFEGEKFSPQCADPNKRPDMPETGLIDPEEVRLVYVILAHDEPAQIVRLVDALDDTPGRDRTWFVIHIDAKADDVQQEIKKVFIDRPNVIIMEEDRLDVAWGGFNVVQASLNAVSLALEREIPFHWLWILSGTTYPIVSNDAIRGKLSSHHPESIFMEVKPSVHKPASTTWHYFVECDSALHRIGRNLIPRGLDM-----------YVGSQWLAMPPSVARWLMEDTGLVPKYREYAKHIVVADENFLPTVIKNSPFCGNLVSSNLVHVQFDKYEHTLDREDRRADKCLMPNPDHCGRSPATMTVDYLSVLEHSSMLFARKFNPKDSQVFDVLDMVRDGGQAWREGPTFDYISIRSPIIHSSSGGAAEHLCLSVGPPPPKKPGSPPN---------TEAVMVKCSGADPRQIFKLGPC 525
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A835ZA88_9STRA (Protein xylosyltransferase (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZA88_9STRA)
HSP 1 Score: 314 bits (804), Expect = 1.860e-95
Identity = 176/383 (45.95%), Postives = 233/383 (60.84%), Query Frame = 1
Query: 178 MTGGQAQLDVETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKRPDVPPTGIL---DPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADG-VYHDLVAAFKDRPNV-IMMDEGRLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFD 1311
MTGG+ + + ++A AH RLE LL T+ CR ++ A+Q YM A E+ LP E +F SQC A + + P+ VR +Y+ILAH +P QV+RL++ALD EPG+ + F+VH D KAD V L AA R NV ++ R++V WGGF+V QA LNA+ A+ L F+W W LSGT+YP+ASN +RA LA+H P A+F + AP + + W+ +VECD LHRIGR+ P+G S+ + + GSQW PA ARWL+ED +LV + Y+ H+ VADE F PT+ SPFCG V NL HV+F R D R ++CLMP+P HCGRSP +T DYL VLEHS LFARKFD
Sbjct: 1 MTGGEVEREALIKIASHAHGRLEGLLANTNTQSCRDKVTKAFQEYMIAVLQEQPLPLERHRFESQCKAGAHSQGGGASKVGARGSPETVRFLYLILAHAQPQQVLRLIDALD-EPGQPHS-FVVHVDAKADAAVQTALAAAAAARANVHVLRGAERVEVQWGGFSVCQAMLNALRYAVSHSLAFDWFWNLSGTSYPLASNRALRAALAAHAPHAVFADVAPAPPRFSPLGWNRYVECDGRLHRIGRNFLPQG------SVALRT----GSQWFVGTPAYARWLLEDAALVAPFAAYAAHVAVADEIFFPTLLLASPFCGGVVHDNLHHVEFGRRSDGGDA--RAAERCLMPDPRHCGRSPIAITRDYLPVLEHSGKLFARKFD 369
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A8J2SSV4_9STRA (Protein xylosyltransferase n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2SSV4_9STRA)
HSP 1 Score: 321 bits (823), Expect = 6.020e-95
Identity = 195/549 (35.52%), Postives = 288/549 (52.46%), Query Frame = 1
Query: 205 VETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKRPDVPPTGILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVK--ADGVYHDLVAAFKDRPNVIMMDEGRLDVAWGGFNVVQATLNAVALALEK-ELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLM------EDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDR-EDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPK-DAEVFDVLDRVRAGDQP--WRKGPT--FDSVAIQSVARWSGSKGEVSLCLSLEDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITSSKGACLDLLGEAKDPGAPAISYKCHNRWNQFFSFGEG 1806
VET L RL+ LL+ TE+CR+E+ + Q E LPFE + + S C ++R + P L +++RL Y+++ HE P Q+ RL+ +L++ R FI+H D K + Y+ L+ R +V +++ GR V+WGGFNVVQATLN +A AL+ + F+W+ SG TYP+ASN IR LA H + F+E + P+ P WH FVECD + RI R + PR I+M Y+GSQW+ + A + + +S +Y Y ++ +VADENF T+ KNSP C N +HVQFD++E D+ E +KCL P+P HCGRSP T+TLDY+ VLE LFARKFD DA++ D +D RA + + P F+++ A+ V LC+S+ + A + E ++ C ++ Q F +GPC +DGH+EL G + ++ + P + + CLDL GE+ PG I + C+ RWNQ + G G
Sbjct: 51 VETALNEATRKRLDDLLKDTTTEKCREEVTSTFIDSYKRQISEDWLPFERTGYVSDC--PSQRDNAPRAPRLRAEDIRLAYLLVVHETPQQITRLIESLEEGT---RHNFIIHVDDKPQSQSTYNYLLNYASTRSHVHVLETGRQSVSWGGFNVVQATLNGLAYALDVLDGKFDWIVTASGYTYPLASNRRIREELARHPSDTEFLEIRPQPNDPMPRAWHQFVECDGKMRRITRLLPPRKIKM-----------YMGSQWMVITRDFAAYATGRESPRQRRSFASQYAPYGRYTMVADENFFTTVLKNSPMCHKHYNQNFLHVQFDQWE--SDKVEGPAQNKCLQPDPRHCGRSPTTLTLDYMPVLELGGALFARKFDATYDAKILDAIDANRALQDTAGYSEKPRQYFENIRFVREAQ-----NGVELCVSMSNQAERSIY--------------EVSLKPCDRRDASQRFNIGPCSTDGHIELRSGRQALVKPGDHSPSPFCPVAHVEGRRMTCLDLNGESIAPGTRIIGFPCNGRWNQLLALGTG 562
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A7S2AW29_9STRA (Protein xylosyltransferase n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2AW29_9STRA)
HSP 1 Score: 302 bits (774), Expect = 3.160e-89
Identity = 204/573 (35.60%), Postives = 283/573 (49.39%), Query Frame = 1
Query: 340 LPFEGSKFT--SQCVDSAKRPDVPPTGILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKA--DGVYHDLVAAFKDRPNVIMMDEG-RLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPK-DAEVFDVLDRVRAGDQP-----WRKGPT------------FDSVAIQSVARWSGSKGEVSLCLSLEDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITSSKG-------ACLDLLGEAKDPGAPAISYKCHN-RWNQFFSFGEGKLKGHVLSIVPRHLAMADQLEGAALCLEAVPSDGGTVMVQTAECSPESPSQKF 1965
+PFE S + C A R + +D VRL Y++L HEE Q IRL+ AL EP F++H D KA + Y+ ++ NV M+ R++V+WGGFNVVQ TLN + A++K +PF+WL LSG TYP+ SN IR LA + + F+E P++PA TWH FVECD+ + RI R P ++ +H VGSQWL + A A +L+ + KYR Y KH +VADEN+ T+ +NS FC +N VQFD +EH ++KCL PNPDHCGRSP + L +L VLE S +FARKFDP+ D D +D +R+ D W G F+ V I + A G S+C+ L A +K A + C+ Q F+LGPC SDG L+ + + + GE + P C + S G CLD+ E+ PG IS+ C N +WNQ F+FG G + +P + +CLEA + G +V A+C P Q+F
Sbjct: 1 MPFERSSIGRFANCDTRAHRSNK----FVDASVVRLTYLLLMHEEAYQAIRLIEALQ-EPQHN---FVIHVDGKAASNETYYQMMDYAASYSNVHMITGAQRVNVSWGGFNVVQGTLNGIMYAVQKGIPFHWLVTLSGYTYPLVSNQKIRETLAKYPVDTNFLEMSPRPNRPAPRTWHNFVECDNQMRRIARLATP--VDFSLH---------VGSQWLLISSAFANYLVSRGNFADKYRVYGKHTMVADENYFVTVLRNSEFCHTHENTNFAQVQFDEWEHDK-ANGPNVNKCLQPNPDHCGRSPTIIDLAFLPVLELSGAMFARKFDPEIDHRSIDAIDIMRSRDSSSNSGSWSLGXXXXXXDQGLKTRHFEDVVITTTA---GPLTSQSMCVDLSQQANSK-----------------ARVTSCTRGKLSQHFSLGPCSSDGSLDFSTEAEHQLLAQQGEFS--RPYCLVRSKAGNAETQTSGCLDVERESVQPGTKLISFYCRNTKWNQLFTFGPN---GSIQINIPLF-----RYRDRKMCLEAETGEVGAEIV-LADCDVTEPRQRF 522
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A7S2UAF3_9STRA (Protein xylosyltransferase n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2UAF3_9STRA)
HSP 1 Score: 278 bits (710), Expect = 2.910e-77
Identity = 206/627 (32.85%), Postives = 300/627 (47.85%), Query Frame = 1
Query: 172 GSMTGGQAQLDVETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKR-PDVPPT-------------------GILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADGV--YHDLVAAFKDRPNVIMMDEG-RLDVAWGGFNVVQATLNAVALALEKELP------FNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRI--------GRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDK--SLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPK-DAEVFDVLDRVRAGDQPWRKGPTFDSVAIQSVAR------WSGS----------KGEVSLCLSLEDSARNKS------FARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITSSKGA----CLDLLGEAKDPGAPAISYKCHNRWNQFFSFGEGKL--KGHVLSIVPRHL 1848
G A V ++ +R+ L T ECR +I + + ++ A E +PF ++FT+QC ++ D+PP I DP+ ++L Y ++ H P IRLV AL E G FI+H D K + Y+ LV R + ++D+ R+ V WGGF++V ATL + A + P F+ ++ T+YPI SN IR R+AS+ +A P+ W YFVECD A+HRI GRS G+++ Y SQW + A++L + + V + Y +H+ +ADE F T+ N+PFC N +H+QFDR+E+ +D E R KCLMP PDHCGRSP TMTLDYLSVLE S+ +FARKFD D EV + +D +RA ++ +G + A ++++R +SG EV LCL L D A+N+ F V G E V E H + +GPC SDG LE G+ M + G + P C +T G CLD E +PG P + C +RW+Q+ SFG G + +G + + +P +L
Sbjct: 111 GDANAETAAKQVVQRITSNLENRMAGLFEKATTAECRAKIGEHFSYFINAIGKEAPMPFANARFTNQCNETKYDFDDLPPNISIAEIQNKSYQPPKEEAEYIDDPENLKLCYGVMTHANPNATIRLVEALY-EVGHS---FIIHVDAKENSADTYNALVEYASSRDFIHILDDPFRVRVNWGGFSMVNATLQILRYAFAVDRPHMAPLDFHKFVHMAATSYPIVSNTQIRRRIASYPLDANMFSVVLKGMNPSPDVWQYFVECDDAMHRIYRLPPLTEGRS----GVDL-----------YTASQWFVLSREFAKYLADPLPGTFVFDFLPYVEHVAIADETFFGTVLMNTPFCHKHHNDNFLHLQFDRWENEVDEEKRDPRKCLMPKPDHCGRSPTTMTLDYLSVLELSEQMFARKFDDDMDPEVKNAVDIIRAREERALRG---EKEATEAISRETVNVSFSGHGVLIVAQETVNDEVPLCLGLGD-AKNQVRLVPCFFDWVPPTFVPGW---ETGAVIADETQWHNRWEIGPCSSDGTLERLANGE--MNMTPGAYSPGGPRCMMTQMDGLRTGRCLDAESEESEPGGPVQVFPCVHRWHQYVSFGNGDVAPEGSIHTSIPGYL 709
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A7S4EKK1_9STRA (Protein xylosyltransferase n=1 Tax=Pseudo-nitzschia australis TaxID=44445 RepID=A0A7S4EKK1_9STRA)
HSP 1 Score: 263 bits (672), Expect = 4.120e-72
Identity = 199/641 (31.05%), Postives = 295/641 (46.02%), Query Frame = 1
Query: 130 DYSNVDPSFEATLEGSMTGGQAQLDVETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSA-----------------KRPDVPPTG-------ILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADGVYHDLVAAFKDRPNVIMMD-EGRLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQ------YVGSQWLAMPPAAARWLM----EDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKF-DPKDAEVFDVLDRVRAGDQPWRKGPTFDSVAIQSVARWSGSK----------------------GEVSLCLSLEDSARNKSFAR-----RNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITSSKGA----CLDLLGEAKD--PGAPAISYKCHNRWNQFFSFGEGK--LKGHVLSIVP 1839
++S+VD S +A S+ +++ R L +T ECR+ I Y ++ A A E LPF ++F S C D R PP + +EV L Y ILAH+ IR++ A+D+ T F+VH D K + Y L R V+++D + R+ V WGGF++V ATL + +L F ++ T+YPI SN IR LA + +A M P +P + W+YFVECD LHRI H L I + + Y SQW + A +L E+ + +Y +Y +H VVADENF T+ +N+ FC N +H+ FD++E+ D R KC+MP+P+HCGRSP T++LDY VLE S L+ARKF D DA V D +D R ++ K + +++ I++ A S + + LC+ L + N + R + V + K E V E H +++GPC S+G+LE + G ++ + G P C++T G CLD GE+ D PG P Y C RWNQ+ SFG GK G + +++P
Sbjct: 60 NFSDVDFSGDAATAASLAVDAIAAEMKKT------GRFAELFEKAKTPECRELISKHYGYFLKAIATETPLPFASTQFDSSCEDERPWDFNNLPQGVHMGIVQNRTYQPPRNETNEDALYISAEEVVLCYGILAHDSAEATIRIIEAVDEPT----TTFVVHIDGKYEENYEKLKEYANQRDRVVVLDHQHRVRVNWGGFSMVNATLQILNYIDRNDLQFTHFVHMASTSYPIVSNRRIRNTLAEYPIDANLMHIILRPARPTESIWNYFVECDDQLHRI-------------HRLPIITKEQNNADFYTSSQWFIISKEFAHYLANPQEEEGIFLRQYLDYIEHAVVADENFFGTVLRNTRFCNKHHNWNFLHLMFDQWENEQDLSKRDQRKCMMPDPNHCGRSPTTLSLDYTDVLELSGDLYARKFVDSYDAGVKDAIDASRKIEEA--KLTSLNTIGIENSAEDSDRETAGKNMQLEGHGTLIVATETINSTMPLCMGLGE---NFNLVRLVPCFHDEVVPTLANKWETGAVILDEVQNHTRWSIGPCSSNGNLERLD--SGIVEVTPGSFMQTGPKCALTMMDGVRTGRCLD--GESLDNQPGGPVHVYPCTKRWNQYLSFGNGKDAPSGTIHTVIP 668
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A1Z5KH39_FISSO (Protein xylosyltransferase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KH39_FISSO)
HSP 1 Score: 261 bits (668), Expect = 2.500e-71
Identity = 210/629 (33.39%), Postives = 298/629 (47.38%), Query Frame = 1
Query: 148 PSFEATLEGSMTGGQAQLDVETQLAGEA-HSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSA----------------KRPDVPPTG----ILDPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKAD--GVYHDLVA-AFKDRPNVIMMDEGRLDVAWGGFNVVQATLNAVALAL------EKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLM--EDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKFDPK-DAEVFDVLD--------RVRAGDQP--WR-KGPTFDSVAIQSVARWSGSKGEVSLCLSL--EDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITS----SKGACLDLLGEAKDPGAPAISYKCHNRWNQFFSFGEGKLK--GHVLSIVPRHLAMADQLEGAA 1878
P E T + S+ A V LA E H RLE++ +T ECR +I + ++ A ALE+ LPF F+++C + R PP + DP +++L Y IL H+ P IRL+ AL EPG F+VH D K + H L A A K I+ R+ V WGGF++V ATL + +L + L F+ LS ++YP+ASN +IR +LAS+ +A F+ P +P WHYFVECD +LHRI + + S + + SQW + A +L E S V Y Y +H+VVADE F T+ +++ FC N +H+QFDR+E L R KC MPNPDHCGRSP MT+DY +LE S LFARKFD D V D++D ++++G +P +R K F+ + VA+ + + E LCL L +A + + V S + E V E H + + PC SDG L+ G + + G + P C + G C D + PG Y C +W QF SFG+G+ G + SI+P H+ Q G A
Sbjct: 87 PMLEDTDDPSL----AARKVSQHLASEGLHQRLETIFSKTKTAECRAKIAEHLSYFVNAIALEQNLPFSDLTFSNECGEPVYMWDDLPEDMHPGMIQNRTYQPPRNETEYLDDPADLKLCYGILTHDNPDATIRLIEALY-EPGHV---FVVHVDGKEEFESTQHALEAYAAKHEYVHILQHPNRVRVNWGGFSMVNATLQMLQYSLAVDDTTREPLEFHKFVHLSSSSYPLASNSEIRIQLASYPLDANFLNIVMQPIRPGHHAWHYFVECDDSLHRIYQLPA-------LASSTSNADMFTSSQWFIISRDFAEYLATPEPGSFVHDYLTYIEHVVVADETFFGTVLRHTSFCHQHHNRNFLHLQFDRWESELPAGLRDERKCPMPNPDHCGRSPTIMTIDYADILELSGELFARKFDDTIDPHVKDIIDDWRIKRENQIQSGMRPNDFRPKSMDFEGHGVLIVAKETVND-ETPLCLGLGPTGNAMRLTPCFHDYIVPSLSEEWETGAVIQEETPLHLRWQVSPCTSDGDLKRTP--SGLINVTKGAYSTTGPRCMLKQIDGLRAGRCFDGQQLSLQPGGDIQVYPCVQQWFQFVSFGDGEHAPIGSLYSIIPSHIVQQIQNLGHA 697
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
A0A1Z5KSA0_FISSO (Protein xylosyltransferase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KSA0_FISSO)
HSP 1 Score: 260 bits (664), Expect = 7.960e-71
Identity = 200/593 (33.73%), Postives = 280/593 (47.22%), Query Frame = 1
Query: 238 RLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKR----PDVPPTGIL----------------DPQEVRLVYVILAHEEPAQVIRLVNALDDEPGKERTWFIVHSDVKADGVYHDLVA---AFKDRPNVIMMDEGRLDVAWGGFNVVQATLN------AVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLM--EDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMDKCLMPNPDHCGRSPATMTLDYLSVLEHSDMLFARKF-DPKDAEVFDVLD--------RVRAGDQPWR---KGPTFDSVAIQSVARWSGSKGEVSLCLSL--EDSARNKSFARRNNGVVSGGGKVEATMVRCSEKNPHQIFTLGPCGSDGHLELGEGGKGFMQSSLGEVTGRSPSCSITS----SKGACLDLLGEAKDPGAPAISYKCHNRWNQFFSFGEGKLK--GHVLSIVPRHLAMADQ 1863
RLES+ +T ECR +I + ++ A ALE+ LPF F+++C + PD G++ DP +++L Y IL H+ P IRL+ AL EPG F+VH D K + V A K ++ R+ V WGGF++V ATL AVA K L F+ LS ++YP+ASN +IR +LAS+ +A F+ P +P WHYFVECD +LHRI Q +E + + + SQW + A +L E S V Y Y +H+VVADE F T+ +++ FC N +H+QFDR+E L R KC MPNPDHCGRSP MT+DY +LE S LFARKF D D V D++D +++ G P K F+ + VA+ + + E LCL L +A + + V S + E V E H + + PC SDG EL G + + G + P C + G C D + PG Y C +W QF SFG+G+ G + SI+P H+ Q
Sbjct: 107 RLESIFSKTKTSECRAKIAEHLSYFVNAIALEQNLPFSDMTFSNECGEPVYMWDDLPDDMHPGMIQNRTYQPPRNETEYLDDPADLKLCYGILTHDNPDATIRLIEALY-EPGHV---FVVHVDGKEEFASTQQVLEVYAAKHEYVHVLQHPNRVRVNWGGFSMVNATLQMLQYALAVAETTRKPLEFHKFVHLSSSSYPLASNSEIRIQLASYPLDANFLNIVMQPIRPGHHAWHYFVECDDSLHRI---YQLPALESSTSNADM----FTSSQWFIISRDFAEYLATPEPGSFVHDYLTYIEHVVVADETFFGTVLRHTSFCRQHHNRNFLHLQFDRWESELPAGLRDERKCPMPNPDHCGRSPTIMTVDYADILELSGELFARKFNDTIDPHVKDIIDDWRTKRENQIQNGMHPNNFRPKSMDFEGHGVLIVAKETVND-ETPLCLGLGPTGNAMRLTPCFHDYIVPSLSEEWETGAVIQEETPLHLRWQVSPCTSDG--ELKRTASGLINVTKGAYSTTGPRCMLKQIDGLRAGRCFDGQQLSLQPGGDIQVYPCVQQWFQFVSFGDGEHAPIGSLYSIIPSHIVQQIQ 685
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Match:
W7U9L2_9STRA (Protein xylosyltransferase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7U9L2_9STRA)
HSP 1 Score: 242 bits (617), Expect = 8.560e-67
Identity = 157/452 (34.73%), Postives = 226/452 (50.00%), Query Frame = 1
Query: 202 DVETQLAGEAHSRLESLLRGVRTEECRKEIMDAYQTYMGAQALERALPFEGSKFTSQCVDSAKRPDVPPTGIL--------------DPQEVRLVYVILAHEEPAQVIRLVNALDDEPGK----------------ERTWFIVHSDVKADGVYHDL--VAAFKDRPNVIMMDEGRLDVAWGGFNVVQATLNAVALALEKELPFNWLWILSGTTYPIASNDDIRARLASHHPEAIFMESKTAPHKPASTTWHYFVECDSALHRIGRSVQPRGIEMQVHSLQITSVQYVGSQWLAMPPAAARWLMEDKSLVPKYREYSKHIVVADENFLPTMFKNSPFCGHQVASNLVHVQFDRYEHTLDREDRRMD--KCLMPNPDHCGRSPA---TMTLDYLSVLEHSDM---------LFARKFDPK-DAEVFDVLDRVRAGDQPWRKGPTFDSVAIQSVA 1416
D T+L A RL ++L + EC +E+ AY+ ++ A E LPFE + +QC RPD TG+ + ++ ++Y+I AH + QV+RL+ AL D+ ER F+VH D K + +L + NV +M EGR++V+WGGF+VVQATLNA++ +LPF+ + LSG TYP+A+ IRA LA H M P+ P WHYF+ECD+ +HRI R PRG+ ++ GSQW + A +L+ D + V Y Y++HI++ DENF T+ K+SP+C H +N +H+ FD +E D + D KCL P+P CGRSP T +D+L +DM LFARKFD EV D +DR A + + +A SVA
Sbjct: 41 DATTRLHNHARDRLAAMLSRTHSVECAEEVTLAYEAFLTAHITETLLPFESTFVKNQC----PRPDGNNTGVASNDTNGPSIVHKLKEADDLHILYIITAHRDLDQVVRLIQALQDDAEDTRACLLTKSGASASSCERNHFVVHIDGKEGPLPANLPLLTYASTSSNVYVMQEGRVNVSWGGFSVVQATLNAISYGFYLKLPFDRVINLSGATYPLATPRQIRATLAQHPLNEQLMFIDPTPNVPNPRVWHYFIECDNQMHRIARFGLPRGVPLRT-----------GSQWFVISRDFAHYLLTDDNFVGPYTAYAQHILIPDENFFATVLKSSPYCHHHCNTNYLHLTFDVWE---DEKGAAADPSKCLQPDPRICGRSPLLVRTEEIDHLIPRPGADMPAEPKRETFLFARKFDSNVSVEVLDEIDRRLAWQRARERESLLAEIAAASVA 474
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1005.4.2 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 6.85e-267 / Id = 68.68 Expect = 1.34e-247 / Id = 70.06 Expect = 1.86e-95 / Id = 45.95 Expect = 6.02e-95 / Id = 35.52 Expect = 3.16e-89 / Id = 35.60 Expect = 2.91e-77 / Id = 32.85 Expect = 4.12e-72 / Id = 31.05 Expect = 2.50e-71 / Id = 33.39 Expect = 7.96e-71 / Id = 33.73 Expect = 8.56e-67 / Id = 34.73 Sequence A0A6H5K1Q4_9PHAE D8LMY0_ECTSI A0A835ZA88_9STRA A0A8J2SSV4_9STRA A0A7S2AW29_9STRA A0A7S2UAF3_9STRA A0A7S4EKK1_9STRA A0A1Z5KH39_FISSO A0A1Z5KSA0_FISSO W7U9L2_9STRA Pages
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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.D8LMY0 Preferred name XYLT2 PFAMs Branch,WSC,Xylo_C Model size 2647 Max annot lvl 2759|Eukaryota KEGG ko ko:K00771 KEGG Reaction R05925 KEGG Pathway ko00532,ko00534,ko01100,map00532,map00534,map01100 KEGG Module M00057 Hectar predicted targeting category other localisation GOs GO:0000003,GO:0000139,GO:0002009,GO:0002119,GO:0002164,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005794,GO:0005975,GO:0005996,GO:0006022,GO:0006023,GO:0006024,GO:0006029,GO:0006082,GO:0006139,GO:0006725,GO:0006790,GO:0006793,GO:0006807,GO:0006950,GO:0007275,GO:0007399,GO:0007610,GO:0008150,GO:0008152,GO:0008194,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009225,GO:0009266,GO:0009408,GO:0009628,GO:0009653,GO:0009791,GO:0009888,GO:0009987,GO:0010033,GO:0010721,GO:0010975,GO:0010977,GO:0012505,GO:0015012,GO:0016020,GO:0016021,GO:0016740,GO:0016757,GO:0016763,GO:0018991,GO:0019098,GO:0019321,GO:0019538,GO:0022008,GO:0022414,GO:0030154,GO:0030158,GO:0030166,GO:0030201,GO:0030202,GO:0030203,GO:0030204,GO:0030206,GO:0030210,GO:0031090,GO:0031224,GO:0031344,GO:0031345,GO:0031984,GO:0032101,GO:0032102,GO:0032501,GO:0032502,GO:0032504,GO:0033319,GO:0033554,GO:0034097,GO:0034605,GO:0034641,GO:0034645,GO:0035252,GO:0040025,GO:0042221,GO:0042285,GO:0042732,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043436,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044272,GO:0044281,GO:0044422,GO:0044424,GO:0044425,GO:0044431,GO:0044444,GO:0044446,GO:0044464,GO:0045595,GO:0045596,GO:0045664,GO:0045665,GO:0046483,GO:0048513,GO:0048519,GO:0048523,GO:0048569,GO:0048583,GO:0048585,GO:0048609,GO:0048679,GO:0048681,GO:0048699,GO:0048729,GO:0048731,GO:0048856,GO:0048869,GO:0050650,GO:0050654,GO:0050767,GO:0050768,GO:0050789,GO:0050793,GO:0050794,GO:0050896,GO:0051093,GO:0051128,GO:0051129,GO:0051239,GO:0051241,GO:0051716,GO:0051960,GO:0051961,GO:0055086,GO:0060284,GO:0060429,GO:0065007,GO:0070555,GO:0070570,GO:0070571,GO:0071704,GO:0080134,GO:0080135,GO:0098588,GO:0098791,GO:0120035,GO:0140096,GO:1901135,GO:1901137,GO:1901360,GO:1901564,GO:1901566,GO:1901576,GO:1903034,GO:1903035,GO:1903510,GO:2000026 Exons 16 Evalue 2.56e-251 EggNOG OGs KOG0799@1|root,KOG0799@2759|Eukaryota Ec32 ortholog description Xylosyltransferase, family GT14 Ec32 ortholog Ec-02_004080.1 EC 2.4.2.26 Description acetylglucosaminyltransferase activity Cds size 2067 COG category O CAZy GT14 BRITE ko00000,ko00001,ko00002,ko01000,ko01003
Relationships
The following UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866360.6562638-UTR-A-nodosum_M_contig1005:34313..34866 1680866360.6562638-UTR-A-nodosum_M_contig1005:34313..34866 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1005 34314..34866 - 1680866360.8566637-UTR-A-nodosum_M_contig1005:69217..69244 1680866360.8566637-UTR-A-nodosum_M_contig1005:69217..69244 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1005 69218..69244 -
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866360.6704226-CDS-A-nodosum_M_contig1005:34866..34936 1680866360.6704226-CDS-A-nodosum_M_contig1005:34866..34936 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 34867..34936 - 1680866360.6786242-CDS-A-nodosum_M_contig1005:35597..35672 1680866360.6786242-CDS-A-nodosum_M_contig1005:35597..35672 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 35598..35672 - 1680866360.688137-CDS-A-nodosum_M_contig1005:36180..36239 1680866360.688137-CDS-A-nodosum_M_contig1005:36180..36239 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 36181..36239 - 1680866360.7064273-CDS-A-nodosum_M_contig1005:36776..36903 1680866360.7064273-CDS-A-nodosum_M_contig1005:36776..36903 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 36777..36903 - 1680866360.7279649-CDS-A-nodosum_M_contig1005:37874..37993 1680866360.7279649-CDS-A-nodosum_M_contig1005:37874..37993 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 37875..37993 - 1680866360.738113-CDS-A-nodosum_M_contig1005:38778..38828 1680866360.738113-CDS-A-nodosum_M_contig1005:38778..38828 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 38779..38828 - 1680866360.751967-CDS-A-nodosum_M_contig1005:39251..39556 1680866360.751967-CDS-A-nodosum_M_contig1005:39251..39556 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 39252..39556 - 1680866360.7615626-CDS-A-nodosum_M_contig1005:40315..40452 1680866360.7615626-CDS-A-nodosum_M_contig1005:40315..40452 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 40316..40452 - 1680866360.7695522-CDS-A-nodosum_M_contig1005:41107..41300 1680866360.7695522-CDS-A-nodosum_M_contig1005:41107..41300 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 41108..41300 - 1680866360.777867-CDS-A-nodosum_M_contig1005:42074..42229 1680866360.777867-CDS-A-nodosum_M_contig1005:42074..42229 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 42075..42229 - 1680866360.7875156-CDS-A-nodosum_M_contig1005:44526..44701 1680866360.7875156-CDS-A-nodosum_M_contig1005:44526..44701 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 44527..44701 - 1680866360.8004313-CDS-A-nodosum_M_contig1005:45152..45296 1680866360.8004313-CDS-A-nodosum_M_contig1005:45152..45296 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 45153..45296 - 1680866360.8144066-CDS-A-nodosum_M_contig1005:46162..46317 1680866360.8144066-CDS-A-nodosum_M_contig1005:46162..46317 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 46163..46317 - 1680866360.8285413-CDS-A-nodosum_M_contig1005:47846..48017 1680866360.8285413-CDS-A-nodosum_M_contig1005:47846..48017 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 47847..48017 - 1680866360.8401122-CDS-A-nodosum_M_contig1005:50357..50441 1680866360.8401122-CDS-A-nodosum_M_contig1005:50357..50441 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 50358..50441 - 1680866360.8482456-CDS-A-nodosum_M_contig1005:69169..69217 1680866360.8482456-CDS-A-nodosum_M_contig1005:69169..69217 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1005 69170..69217 -
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_contig1005.4.2
>prot_A-nodosum_M_contig1005.4.2 ID=prot_A-nodosum_M_contig1005.4.2|Name=mRNA_A-nodosum_M_contig1005.4.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=689bp
MCLPRYPSLGHGDKLEKENRYGKSPKRFGSKPARDYSNVDPSFEATLEGS back to top mRNA from alignment at A-nodosum_M_contig1005:34314..69244-
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1005.4.2 ID=mRNA_A-nodosum_M_contig1005.4.2|Name=mRNA_A-nodosum_M_contig1005.4.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=34931bp|location=Sequence derived from alignment at A-nodosum_M_contig1005:34314..69244- (Ascophyllum nodosum dioecious)GGCTTAGGTATCGTACTGGTGCTAGTG ATGTGTCTCCCACGTTACCCCTC
TCTCGGCCACGGCGACAAACTGGAG GTGCGACAAATTTCCAACCAAATCC
GACCCTTCGGAAAAATGCGATTTTTGAGGCACATGTGTGGACGTGAAACA
ATCGAAGACTTGCGCCTCTTTCCGCGTTTTTTTATTTCAGTCCGCGTCTT
TCCCAATCGTTTTTCAACTGCGGTATTTTGCTGATTTTACTTCGTACGGA
GAGAGATGTCTTCCGTTTTGTTCCAACTCATCTATAACACTGACTCCAAC
AAATCACAAATAAAGGAAGGCGGGGTAATACTGTAATATATTATACTCTG
TATACGCGAGATAATTGGCAAAGTTAGCGTGTCCTTGACTTGCTGTCGTG
ACTTCTCCTATGGGACAGCGGCTCGTCCAAAGATAACAATCGTCTGATTT
TTCTTTAAACAGCTGGACGTTGGGTTGTAGAGATTAAGACAAGGCGTGGT
CTTTCAGGCGAGGCGCTCTCCCCCTATGCCCAAGGCTTCGTACTAAACAG
CGGCAGGAAATGTTTCCTCGTTCGGAAAATCATTCGACATGCTTGTGCAG
GTGCAAACTGTAACGTGCAAGCTTTTTCTCTTCCCCAGGCAGGCGCATCA
CCTACAGAGAGAACAGAGATAGCTCCTAAAACCAAAATAGCGCTTTGGTT
TTCTCCTTTACCCGCCCGAGCGTTGAAATGGGTCGACAGGCCAGGCTTTT
GGTTAGGAAGATGGAGATTTTTATATAAGAGAGGGCCGGCGCGGAAGAGA
TCTCCCGCTTCCTGATCGCGCCGCGCGTGTGACACTCCGCGTCTACTGTA
CCTTGTGTGTACGGTTCTCGGTCAACACGCCACGGCGTCCGGCGTCCTCC
TGCCCACTTCCATGACTCCAGTCCGGTTTTCTTTGCCTCGAAAGTTCCAT
TATCCTCGAACAGCCTGTTAACGCGAGCATGAACACAAACGTACGTTGTA
CATTGTTCTGTTTTGTACTGCGCGCCTCCGGTACTCCCTTTCTGTATTGC
ATGCGTCCACTGTTCCCTCATACCGTAAATGTTTTGACAGCTTTTCCCCT
TGGATGGATATAGATGCTCTGAAGGTTTAGATGCGTTCAAATTTTTCTTT
TAAAAATAGTGGATGTGGGAAAAAAGAGGCGCACGAAAAATGGTTCATGG
TAATACCTGAAAAGGCAGCACCTGTTTCTGGAGGTTGGCCCTGTGCCGGT
ACCCAATTGCGTGACCTGATAAACTCGGGACTGACTCAATGGCGGTTGAC
GGTATAAATAAATGGACGCCGTCGCGGAAAGTGGGAGGAATTCCGAGAGT
AAGCAAGATTCCGCCTGAGTGTGGAAAATGAGCAGGCTGGCGCGGGACGG
ATCGGCCGAACTTGTCTCGCGACAAAAAATTCTTAGGCACCAACGGAGAC
AGGGAAAATTAATTTTCCCTGTTCAGCTGACCACGAACAGGATTGGTAAC
CTTTCCCGGTTGATCCACACTCCTCTGCTGTAAGTTGTTGTTTAAAGAAA
AATCAGAGCACACCTAGACCTTCTGAGCATCCCTCGGTTATGGGGAGAAA
AATGTCAAAACGTTTAGGTGGGATCGAAGGCTGCAAATACAAAACCTCTT
CATGGCATTCAAACAGGTTCCCCGATGCAGATAAGATTGGGTCAACAGTA
TAATGTCGGGGAGAAGCCCACCGTTATACTGACTGTACATTTACATTAAT
CGCCATGAGGGACACCAGAAAAACATTAAAAACAAACCAGAGACAATGTG
GTACACCATCACACATGGTAGTAGTAATATACATTACAAAGGCTATAAAT
ACAAAGCCACTACATGGTATTTAAACGGGTTCCCCACTGGTAGTCACCTT
GGGTCAACAGAATGTAATGTCGGGGAGAAGCCCACCGCTATACTGTACAC
TTAGCTCTATATTAATCACCATGCACAGCCACCAATCATACCCCAACATA
ACCACAGTAATACATACGGTAGTTACGAGTACAGTACTACTGTCATCCTG
GATACGTGCAGTACCATAGAGATAATGATATGTCATCATAAGTAGTACAT
ATCAAAACGCGCCTGGACATTCTGGGCATACAAACGTTAAGGTGGGATCA
GAGGCTGCAATTACAGAACTTCTTCATGGTATTTTGTTGTTGTTGATTCA
CACATTCAGCGTATTGTCCTCGCAACTGAAGAAACTACGGTGAGACAATA
ATTTTAGCCATAGAACTATCCAATGCCAATCCCGCTCGTGGTCACTAAGA
GGTACGAAGGTCAGCGGGTCACATAAAGCCATACTTTCAACATACCCACT
TCATACCAATAGTGGGTGTGGGAAAGAGAAGCGAATATTAATTGGTCCAT
GGTGACCTGCCAAGGCAGCACTCGTTCGGAACTACCTTGAGGTTTACTGG
CCCCGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCG
TGACTCGATAAACTCGGGACTGACCCGATGGCGCATGGCGGTTATAAATG
AATAAATGGACGCCGCCGCGGAACTCGGGAGGAATCCCATAAGTTAGCAC
CAGATTCAGCTGATTATGGAGATGAGCAGGCTGACGCGGGGCGGGACTGC
CGAACCCGTCTCGCGATACCAAACTCTCAGGCGCGAACGCGGACAGGGAA
ATATTCATTTTTCCTGTTCAGCTGACCACGTGCAGGACTGGCAACCTTAC
CCGGTTGATCCATACTCTTGCTATATTTGTGACCATATATACAGCCCGCT
ACCCGAACCAACAGGGACCTAAATCCCGACAAGACCCTTGCCAGGTCCAA
CCAACCGAGAACATCGGAAACTTATCGGCATCAAGACGATGTCTTTGTCT
TTGGGTACGAACTACAGTTTCTATTGCCTGGAGTGCTGCCATTATTTCAG
AATTTGACTTATTAATACAAGCTACAGAGAAGACTGTCTGATGTGCTGCC
CAACCAACAAAGTCATCGAAAGTGATGCAAAAAGTTTTCTAGCTATCGGA
GGGTTACACGAAGACAAGTTATGCGACATTTTACCGGCAATGGCACCGAC
CAATGTCAAAACGGTTCATCAAACATCCTCATTCCATTGCGAGAGCAACC
CCGATCGATCCGGATTGTAGTTACCTACCCATGGCCAGCGTTCTCAGCAA
CAAAGCGGACAAATCACGCTCCAATCAGTTTTGATCAACAAATCCAAGTT
TCTAAACGCCACACATCATGCAGAAAAAGGAAAATTGAAATACCGAGGTC
CATGGTGGTGGGGCCTTGAGCTGGTGAAGCCGGCGCGCGAGCCAGCATCC
AGTCGTCCAAAGCCCTGTGCATCCCTGTAAAAGCCCCTCGAACCTTGCCC
GTTCACCGCTCCTTGTCGGCCCTCATAGGAAGAAAACAGACCGTGGTCAG
AGCAGCTTTTCCCTCAGAAAGCTCCCGGTTCGCGCCTTTAATTCTCGCGC
ACAGGGATTCAGTACTCGCCTGGCTCGTCGACGATTGAGTTGCCCTCCGC
CATCGCCTAATCTGGTGCGTACCCACCCGATAGAGCGCTACCAGACTCTC
CGCGACAGTGCTCATTGCCTCTCGCGTGCCGCCACCTCCCGAAGGGCACA
GAATTGGAGCTCGAAAGAGGCCCGCACCTGGGAACACCATCCTCAACCGA
CCATACCGCCGCGGCGTCTCAACCGATCGACTGAGTCGCAAAGACAGCCA
GTTGGTTGCATCTCTCGAGGGTGATCCCGGCCCTGCACCCGCCGGAAAGA
CCCTCCCACACTCATACCCCGAAACCAGGTTTCGGAGGGAGAGGGCGCGA
GATATAAGTGGAGCACACAAACTGTAGACAAATTGAGCCCCGACCCCACC
AATTCGCTCACCTGATGGCGAACACACAGCCGTGGCCCTGATGACTGTTT
CCCGTTGAGCCCTCGCAGACGAGCCTGCAGCATAGGAAATAATTCACGGT
CAAGAGTCCACGTAGACTTTTTGGGGAAGTTCTGGCTTTGCGGAGAAACG
GCACCACTGTCACCGGCGCGAACGCCGCAACCCTCTAACAGTGCCGCAAG
TGTCTCCTCGCACCCTTCACCCCCCCCTCCCCCCCAGCGAGCTCCAACCC
GTGCCCGGGCTGGCCAGCTCGCTGGAGCATCGACAACGCTTGTCCAGCGA
TTTGACAACGCATGAAAATGAACGCTCTTGCCCCTCAAAGGTTCTTCTCC
GCTAGAGAAACTCTGGATCATTATTAACAGATGACAAGCGTCCTTGCCAC
CGATCCCTCCTCATTATTGCTGCCCCTGCTCGCAAAGGAACGCCAAGTCG
GGAAAATCCCGCTCACTGTTAATAAACTAACGCTGCTCCGGGCATCGGAC
GGCAGGTTCCCCCGTGGGAATGACCTCGATGTCTCCGAAGACCTGCAAGT
GCATGTTGCACGCGGACACCGGATAAACCCATAGCACACCATATATGAAA
CCAAGTAATGACGTTGGAGTCACGTCAACGTCAAGTCAAAGCCATCAAGC
CTTCCTATGAGCGGGAAGAGGAGTCCCAAAATCCATCAACGGCATATTTA
CCTCTCTCTCTTAAGTCGAGACAAGCCAGCTCCGCGGGACGAAAAGGTGC
TATGGGTGTCCCTGTCAAGGTCGTGATATTCCTTCCAGGGACCCGGCTGT
CATCGCCGTCGCCAAAACTCGTCGCGCGCCTTCAGCCCGTTCAGCCCGTC
CACCCCGTGGAGAACGAGGGGCCACCGGGTTCTTTACCGGGTATGGTTGG
CGATTCTTTCGCCAGCAGGCGGAGCGCCATAGAAGGCCGCGCGGGTTTCA
ATATCCTCCAAGACGCCCTATCCAATGAGCGCGCACAAACGATTCTTGCA
CCACCGAACCTGCGCATTGCGATCCGCCCCCGAAGGAAAACCCAGACCGG
TGGAGTGCAGCGGCGTTCTACGGGAAGCGGTGAGCTCGGCGTCCTACAAA
ACGACTTTATTCACCAAAAGGTCGCGAACTGCTCCGAACCGTGCACGCGG
CTCGGAGTGAAAGCATTTAGTTGTACGGCGACCCTCGCCTTCCTTTCAGA
CCGAGGTCCACCCTCATTTTGTTCGACGGCATAAATCAAAAGCCTTTGAA
GGCCCGTTCGCCGCGTCCATTTTCTTAGCCCCTGGGCGAGATTATCTCCG
CTGGCACGACCTATGCTGCCCACGTCCATGCGCGCGGGGCCGCCCAAGGC
AATGTCCGCTGAGAATAGGTCATGAATCTAGTTTCCCGCCATTCCAGAGG
AGTTGCACACAACTGCAACTAAATCTTTGCTCCAGATTGCTTTTAATTCA
CTGTATTACGCTCGGCATCAAGAACCGCGGCAAAATAAAATGCCCTTGGT
TTTAGTACACAGGGTCGCTTCTCTACAGTCTCGGGCCGATGCCTTCCCGT
CAGTCTGAGGCACGCATCATCGGCGGATGTGCCATTCCTAGTCCTTCGGC
GTGTGATGGCCCACGGTTTACCAACCATCGCCGCGCTCACCGGTACCTCC
CGATGAGTGACGGCCGAACTCGGCCCGGTGGGCGTTGTACCACACCAAAG
CGAAGGATTAGTTGACCACGTTAGCGTAGGCCAGGAGGCCTTTCACAGTA
AGGGACTGTGACGTTTTGGACGCGGCGCAGCTCATGATTGCAGGGTTGTT
AATGTAGATATTGAGACTTCTGGTCGAGACTGGGAGGAGGCGGGGGGGGG
GGAGTTGAGTGCAACCCCACCATGCAGACGCCGGGAGGGCGATGAGAAGA
CTTGTGGTCAAATTTACAAATCGTGGTGAGAATTTTGATCCGCCTTCCAT
CCAGGCAATGCGCCTACCGGCGTCCCGTCTTCGCTGCTTGGTGTTCTCCC
CCCCGCTTGTAATCAGCCTGCAGTCTCACGCACAGCTCAACAAATCTCCT
GATTGAGTAGGCGTTAGGTTCAGCCCTCGCTGGAGACTCCCAGGCCTCGC
CCTTGGAGGACGCCGTCGAGCTGGAGACTCAGCCATGGGCCCAATGGCCG
TAGGTGCAGGCGAGACTGCAGATTGGGGGAAGGGTAGGGAGAGTCAGGGT
CTTCAGCCCCTGACGAACAGACGGCGCGCCCTACCAATTCAGGATTGGAT
GCCCATGCCACCCGCCTTTCGTTGCCATTGCCCCTCGGCGATTCCCCCAG
CAGCTGCTGTCCAGTCCCCATAGCAGAGAGCGGGTGGTCCATCGCCGAAC
TGCCTGTCAAAGAAGAAAAAGACCCCACTTCCCCCTAAAAAAAAATGCCA
ACTTTCACCTCGTCTGTACTCAGATAACCGTAACGCCGTAGAAATATAAT
GGACGCCACTAGCAGGAGGACTCCAGGCCCTGGCCACACGAGTAACGGGG
GGAAGCCTCCTCACCCCGAAAAGTCCAATTACCTGTGGGCAATGTTTGGG
CCAGTGGACAATGAAGCTCCACGGTCGCAAGAGAAGCAACGCTCTTCAAA
ACAAAAAGCTCTGATACGTGACGACGACAAAAATCTAACAGCCACAAATA
CGCGCTAGGGGGATTTCCATGTATGGAGGCACACACTATATGAAGTCCAG
TTGCGTTCGTCACGGCATTTGCGTAAAACGTGCGTCAAACCGAGTTACTG
TAGTACATCTCAACGTGTCGTTTTTCGTCTCATTTTCCTTTGTATGTTGA
TTCCACGTGTAAGCGTAATATTTGATCCCACTATAATAGCTATCCTATCG
CAAGAGGCCCCCTATCGCTTTCCATTTAAGTTTCGCGTGGAGGATGGAGA
GGTTCGATAGCAAATAGATGGTGTTAGTTTTTTATTTCAGAAAAATATAG
AAGCCCCCGGTTCGAAGCTCGAAGCAAGCCAAAACCGTCTCGGGGGCCAA
CGAAATGAATCGTTCGGGTACACGTATCTCTAGGCGAAAAGCGCTGTGAC
GTGGGGTTGTTGATGACATGGCGGCGACCTAAATCTACCCCCCTCCCCCC
CTCTCAACTTATTTTCTGTCGTTACTACTGTACTGAGTACTGACTATGAA
ACTTCAATGAATCATTGTGGTGTGGGGGATCGCGCGAAGAAAACTGTCGA
GGAAACAATTTTCTTTTCGCGCGAAAATGCGCATTGTATGGTCTCACATA
TACCAAGAGTATGGATCAACCGGGTAAGGTTACCAATCCTGCTCGTGGTC
AGGTGAACAGGGAAAATTAATATTTCCCTGTCCCCGTTCGCGCCTAAGAA
TACGGTCTCGCGAGACGAGTTCGGCAGTCCCGTCCCGCTTCAGCCTGCTC
ATCTCCATACTCAGGGTGAATCTGGTGCTTACTTATGGGATTCCTCCCGA
GTTCCGAGGCGGCGTCCATTTATTTATTTAAACCGCCATACGCCATTGGG
TCAGTCCCGAGTGTATCGAGTCACGCAATTGCGTACCGATGGCGTTCACT
GCCGAGAGTCCGCCGGCACAGGCCCAGTAAACCTCAAGGTAGTTCCAAAC
GGGTGCTTCCTTGGCAAGTCACCATGGACCAATTAATATGCGCCTCTCTT
TCCCACAGCCACTATTGATATGAAGTGGGCATGTTGAAGGTACCGGCGCT
TTCTGACGACTCGAACGTAAACGATCGAAAGAGAGAGAACAAAAACGGAG
TAGGGAACTGAGATTTTTTCCACATTTTTGGGAGCGTTCTCAGGCCGTGT
TTTTTGCGGGGGGCGGAAAGATGTCAGCTAAAGTTGCCTCGGGCCCCACG
AAATCCTCCACCCATAGCATCGACAAACCCAGAACGACGAGATACAATGC
GAAGGGCTGCCGCCTAGAGCGCGCTCGCAAAGCAGCGCATTCACACACGC
TCTCGTGCTCCCTCAAGAAAGGAGATCGGGGGAGGCCCTACTGTGCACGA
TCCACTGCGGTCTCTGCAAGCAAGCGTACTTACGCCGCATCTGCGGTGCG
GGGCGCACGCACCCGCTCACAGGCATCGAACGCCAGCGAGTGCCCACTCT
GTCGCGGCGTCCTCTTGGGCTCCGATGGCACCGTTTTGCTGGTTTTCGCT
GAAGGAAGGTTGAGTGCTTCCATTAGGAACTTCTTTTGGGAAGGCCGCCG
AGGCATGCTGTGATGTCATTCTAGTTTTTCGCAAAAGACTTACGCCTTAT
CCTCTCTCGCTTCTGGGCGATCGATAACTCTAGAGCTATAGGCGGTGTGT
GTGTGTGTTTTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGACATAC
CAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTGTCATCCACCTG
CTTTCTGCGGTGCGTGCCTTTATTTTTCTCGCGAGAAGGATTCAGCCATT
CCTTTCCCTTGTCGACCGTGAAGTCGAATTTTGTGTACTAACGATTTAAT
CGTTCTCCACCCGTTGGGCATTTTTATTTTTGTTTTTTAGTTTTTGAGTG
AGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAGAGG
GTTACGAGGTGTCTCTGAGCTACCGGGGCGACCAACGCGCCGAAAATTCT
CAAGCTTTTTCGCGCGACCCCAACATTGTATTATTGAAACTTGCGACCTT
GACCTGAACTGCGCCGCATCTCCCAAGAAACGGCGCGATTCTGCCCCCTT
CCGAGAGTGCTTTCCCCCCCCCCCGGCGCCCCACACGCCCTCGGGGAGGT
AAATAACAGAGAACCCTTTTGGCGTGCCGGATCGGCAGAATTTGACCCCT
AGCGTCCCTATGATAGTTCAACTGCTCTGCAACCATCGGCGTACACTTGG
TGAGCGGGGCGGTGGATCGCATGTCGATGCACGAGGTGTGGTGTAACTTT
AACGGAAATATGTACAGTGTACTGTAATGTATGTAGTTAGAGTGTGATAT
CGCAGGGGATGAAGGCACACAAGACGTACGCCTTCGAACACGCGAGAAAC
CTCCCCGCCCCCACCCCCGCTGGTTAGGAAACTGGGTTTACAAGTAAAAC
ATTAAGAGAAGGATTAGAAGTCATAATTTTATTGTCCCCGTTTGTCTGGA
AATATGTTTCCGTTCTTCTAGCAATGGCGCCGACGATGGTTGAATTACTT
CCGTGTTGTTCCTTTCTTCGAAAACGAACAAGTCATATGAAAATAGAGAC
TAGATAGTAGCGCGAACTTTTCTAACGCTTTCCTCCACACCACTGATGCT
GTAGAGAGTCCCAGGCTGTGCGGAACTCCGTGAGAGTTAGACTTCCGAAA
ATAGGAGACCTGGTCGTCGCTTAAGCGTCGGTCCTAAAAGAAGCCGAAAA
AATCCAAATTTTTGAAGACCTTCCAAATTTTAAACGTTTCTGATGAGGCG
TTTCTTCCAAAGTTTGAAAATAACGCCTGAACACGCCGCTTAGAAACACC
CTCTAGAAAGGTCTTGAAAGCCATCTTGGAGAGGTGCATGAGAGAGGCAG
GAGTAAAATGACAACCCACGAGCCATAGCCATCCCGTCGCCTGAAAGTCG
GCATCGACTATTTAGAGGCATCTATTGTGAAGGAAACTGAAACGCTGCTG
TCGATATGTAGCTCACAGCGCTTCGAAATTGGGACCACGTGAGTTGTTGT
GGAGATCATATCGCCTGAAGAGTCCCGTTTTGGCGGCAGTTGATCCCTCG
TTGATGGTGACTACACCGACCACTAGACCTTCTCTTCGTCTGAAATTTTG
CTTGTGTCCGTTGCCGGTGTGAGTTGGCGGCCCTCGTGATCAAGCGTTTG
AGTCCTTAGCCTGCGCTGTATAGCTGTACAGCTGAAGTTATCGGAGGTCG
AGTTGGCCTGACTCGTTGGGGAAAGTACCTAATTTTCTATACCTGCTCAA
ATCACTACGAGCACGTCCGGCGAATCATTTTCCAAATTTCCTGACAGGCC
TGAAACACCGGTACACTAGTGTTGCAAATTGTAGGGGAAAAAATAGGGTT
ATGACCGAAAATGTAACGGGAATTGCGTAACGGGATAACACAGAGCTCAG
AAGTCAATTTCCTGCCAGAGTTTTTACTTGCTTGAGCCTAAGCGCCGACA
ATGTTGGTGGATCTAGAGCCACGGGAACATTCCTCGTGGGTTGTACATGA
TCCCGTGAGTAAGGACCATATTCAGCCTGAGAGTTGCGAATGGGAAGGCT
GACGCGAGACGGGACGGCCGTCGCATCCGTCTCGCGAGACCAAATTCCCA
GGCGCGAACGGGGACAGGGAAAAGCTTTTCCCCGTTCAGCTGACCACCTG
CAGGATACCTTGTATTGAAAACAAGTGTGTTTTTTTCGTTCTGTACCGCT
GTACTTGTAGATCAGTGGATCTCGCGTCACGGTTCCGCCGGCCAACATGG
GCATGGACAAGACCGGAACGAGAAGCGAGATCCGTTGATCTCAGCCATGG
GGGACACTATACTGGACTGCTCCATGTAATTAATAGAACCGTGAACAAAG
CTGTCAAGCCTTCCAGGTCTCGATGAAAACCTTTTCTCACACTAATAATA
GTATTAATACTGTTTATACTATCAATACTGTTCATAGAACTGCCGCCGTG
GCAAAGGATAGATTGTGACCCTGGTTGGTACAGAGCACATCCTCCGCACG
AAAACCACCATATCTCAAAATTGTGGGCACTAGCTACTGCATAAAATTGC
GCGGCCTGGCCGCCTTTGGTATGTAAATGATTCGCCTAAATATCCGGCAG
GAAAAAACGTTACTGTTAACACGAGCGCAGCAGAGCGAGGGTAAGTAGCA
GCAGCTGTACTCGGCGTCCTAGCTATAGAGTTCTCGCATGAATCAATGTT
CCGTCATGATTTTGATTGATTTTTTTATTGAATTATCACATAAGCTGATG
TCAAAAATCCAGCCCGTAGAAAAACACAATCCGGAAGGAAAGAACGTACG
ACGTACTCTATAGTCCATACAAAGAGAAAGCGGAAATGGTACAAAAAAAA
AACTTAGAAAAAGTGACATCTCCAAATAAACAAAAGGAAAGAAACGTGTA
TGTCTATGGGGGCGCCTGCATATCGAACGACGATTGAACGAAGGGCCGCG
GCTTCAACGAAAGCATAAAGACGAAAAAACGAAGCAAAGCAAAACAAAAC
AAAGCAAAGTTAACTCCAGAGAAAGCCGTCATGACATCTGCAAACCAAAC
GCCCGGAGGATACAAGTTCGTGCCACTTGAGGCTAGTCAACGAAGCCGAG
CGAATCAGCACAAGCCCGCTTGCTTTGGGCTATCCTCTCCTTGGTCCTTC
CCGTCACGTTCGGGCATACCACTGCATGCCGTAGTCCAGCCTTGGGTTTC
TCTGCAACGATCCATTTTGCCATGAAATATTCCGCCCTTTGTTCTGCCGT
TCTGCGCCATTCTCCCTCGTCCCGGCCTGCAGTCGTCCACTGGTCGGCGT
TGATGCCGAAAGCTCTGAGGTCGTCCAGGAAACACCCCGCCCACCCTTTT
TCCTGGCCCCCCACACAGCCCGCGCCCCCCACCTTCTCTCCGAACATCAC
GCACTTCGGCAGTCTCGTATCCTTCATGCGCGCCACAAATCCCGCAAACA
AGATCCACCTCCTGCGTAAAGTTGCCTCGATGCTCTCAATTCTCGTCTTG
ATAAGAGTGTCTAGATAGGAAATCGGGTGGTCGGCACGATTGTGCTTTCG
CCAACCGATGCAGCGAGTCAAAAACCTATGGTGGGCTCGGCGCAGCGTGT
AGTGGCACGCGCGCGGGCTCCACGTGACGCAGCCGTACAGCATTGTCTCG
AGTACCTCGGCTCTTAGCATCCGGATTTTGAGCTCGAGGGGAGCGCTCGG
TAGGACGTAAAGTGCGAGGGTGTACTTCCGGAGTGCACCATGCGCTGCGT
ATGCGCCGATCGACTTCGATGGACAGGTCGGCATTGTGGCTGATGTTTCC
CCCGAGGTATACAAACTCGTTTGTCTGGTTGTACACCTGGCCCGCTGCCT
CGGCACTAAATGTGGCGGTGGACTCCGGCATCCCCTTCGCGCGTAAAGAC
ATGATCTCAGTCTTGGCCTCCGATACGGTGAGGCCAAACGCCGCGCACAC
GACCACGATCACCCCCATCATCTTCCTCAGCTGCTCGGGTGATTTCGAGA
CGACCCTGGCATCGTCAGCATAAAGCATGCCCAAGACGGCGTCGCGAGGA
CAGACTCTCCGGCAGTTGCTTCCTCCGCCCCCCTTTTCTCCTTCAGGTGT
ACCAAAGCGTCCATGATGCCTTTGTCCGTCTTGAAACGCGTGGAGGCCAC
GTTTATAACCGCCGTGAAGAAGATGTTGAATAGGAGGGGCGCCAGCACGC
ACCCTTGACGAAGGCCTTGTTCCACAGCAAACTACCTCGAGCACACCCTG
TCGTCGAGCCGCACGCATGCTTGCATGCCATCGTGGAATTGACGAATAAC
CGAGATCATTTTCTGTGGCACGCCAAAACGGGCGAGTACTGTCCAGAGGA
GGGTTCGATCAACGAAGTCGCACGCTTTGGTAAGGTCGATAAAGCATACA
TAAAAGTGGAATTAGTTTCTCCCGCGCCAGCTCCTGCAACCGACGAATCA
CAACCTCGGTGGTAGAACGGTTAGGTCGGAAACCACTCTGTTCCTCCGGC
AGGATCCCCACGCGCTCACAGTACTCACTGAGGCGGCGAGCGATGATCTT
CAGCAGTATCTCGCCGGCGTGCGCTACTAGCGAGATGCTTCTGTAGTTGC
CGCACTCTGTCCGATCCTTCTTTCTATGGAGTACCATGATGATGGTATCT
TTCCACTGCTGCGGCACCTCGCTCCCCACCCCAAATACGAACGACGATAT
CGAGCAGTCTCCGGCGCAGGGCGGGATCACCGTTGAGGGTATCTTAAACA
GCTCAACGGAGACTCCGTCCGGTCCGACAGCCTTTCCGTTCGCCAACAAG
CGGATGGCGTCTGTCAGCTCCTGCATCGGGGGCTGAACTCCTAGCGGCAT
GTTTTCGGGCCACTGGTCAAGGCCTTCTGCGATGTTCGGGTCAAGCCTCG
CTGACTTGGCGTTGGGTAGAGTGTGGAACCACCGGACCCATCGTTCGCGG
ATGAGCTCAACGTCCCTCAGGGGGACGCCGTTCTCGTCTTTGACGTACGC
CGAGCTGCGTTCTCGCTTCCCTTCCAGGTTCATCGTCTCAAGGTGCTTGT
AGAAGCCGGCCTGGTCGCCTTCTCGAGTGCGTGTTTCGAGTTTGCGAACG
AAGTCCCTAAAGAAGCTCAGCACGGAAGCCTTGCGCACCTTCCGAAGGTT
TTTCCAGCCATCTTCACGGCCTTTCGAAGGTTGCTGTTATGGGGTTCTGC
GCGTAGGCGCCTCCTCGCCTCCTCTCTCTGTTGCCATTCTGCGTTCATTT
CAGCTTCCACACCGGGCCCCGCGCACCAACCCTGTACTCCGCGTGGGTGC
TTAGAGCGCGGTACCAATTCGGCCGCAGTGGAAAGCATGACGTCGGCCAT
GTCGGTGGCGATGTCACTGATGCAGGTGCCATCGAAGATTGGTGGTAGTG
CGTCAACCATCGCGTTCGCAACCTAGGATAGAAGGTTCGGGTCAGTCATC
AACCGCCTAAGGTCGGCCAGCTTCGGAGTTTCCTTGGTACTGTCCCTCTT
CCTCCGGTTTGGTGCGGACCTGCGTGGGATGCGGACTTTCGCGTACACGA
GATTGTGATACGATTCTGGTGCTTCTAAGGGGGGCCGGCGGACATTAACG
CAGCGGATGAGTCGGCGGTCCGCCTGTCTTGTCAGAATGTAATTCAAACG
TGCTTGTCCCCTGCTGCGGTTGGCGCTTTGGAACGTATAAGACAAGCCAC
TTTTGGGGGTGCAAAAGAAAATGTTCTGAAGAGCGAGCTTGTTGTCTTCT
GCGAAACCCAGCAGAAGTTTGCCGTTTTCGTTGAGCTTGTATGGGCCATA
TGCGTCCAATACCTTGCTGCCTGTTTTTCCCCCGCCCTCACCTCTGTTCC
CTGTCCTGGCGTTCGCGTCTGTTAAAACGAAAACGTATTCCCGAGCGGGC
ACTGATGCTACGGTGCAGTTGAGGGCTGCCATGTATTTGGCCTTTTGCCC
CTCCGGCGCTTCCTCGCTCGGGGCGTAGGCTACCACGAACGCAACGAAAT
TTGATTTAATCGGAATTCGGGCCTTGAGGAGACGTGCGCTGATGCACTCG
ATTGTGATGTCGTCCTCGCCAGCCTTTTTAACGATCTTCTCTTTTATCGC
CAGTCCAACCCCATGCTGCCCTTAACCATGCTACGATCGCCATTAAAAAA
CGCGGTATCCACATGCCGAAATTTCGAAAGTTCCGTCCCTTTTGGTCTCC
TGCAATCCGATGACGTCACAACCCTCTGCAGCACAGGTTCTCAGCAGGGT
GTCGATGTGTCCGATACAGTCTACGCCGTTGACCGCTACTGTGCGAACGT
TGAACGTACCAAACGTGAGCTCCTCCTGCCGAGACCTCGCCCTGGTGGCC
TTGTGTTTCTTGCGGGCGTACTTCTTCTCCGCTCGCTTCCCCCGTCGCTT
TTTCCGAGCAAATGCCCTTTCGCTTTTCACTCAGTTCCATAGGTGGTTTC
TACCCAGGTCCTTGCCTTCGTTCTACCGACGTGTTGGGTGCGGCAATCCC
ACCACGCCTCGACTTCTCCATCGTCGACACTTCTGCTTACTCGCGTGCGC
CCTCGGCGCATTCGTCCTCTCCTCTCTTCGGGTCCCACGTTTTCCGCGGC
GGCGGTGTCCCAACTTTGCTACCGCAGGCACGGTTGCCGCGGGAAACGAT
TTCGCTTTGGTAGGGTTCACTGCCGCCAGCCGATGCTGTTGGCAGGCTTG
CACTGTCAGCATCGACGAGTTCTCGCGTAATTCCTAGAACTCGTCGATGC
TGACAGTGCAAGCCTGCCAACAGCATCGACTGGCGGTAATGAACCCTACC
AAAGCGAAATCGTTTCCCGCGGCAACCGTGCCTGCGGTAGCGAAGTTGGG
ACACCGCCGCCGCGGAAAACGTGGGACCCGAAGCGAGGAGAGGAGGAATG
CTCAGAGGGCGCACGCGAGTAAGCAAAAGTGTCGACGATGGAGAAGTCGA
GGCGTGGTGGGAGTGCCGCACCTAACACGCGGAAGAACGAAAACAAGAAC
CTGGGTAGAAACCACCTATGGAACTGAGTGAAAAGCGAAAGGGCATTTGC
TCGGAAAAAGCAACGGGGGAAGCGGGCGGAGAGGAAGCCCGCCCGCAAGA
AACACAAGGCCGCCGGGGCGAGGTCTCGGCTGGAGGTGCTCACGTTCGAC
ACGTTCAACGTTCGCACAGCAGCGGTCAACGGCGTTAACGGTATCGGGCA
CATCGGCACTGTGCTGAGACCCTGTGGTGCAAAGGGTTGTGACGTCATCG
GATTGCAGGAGACCAAAAGGGACGGAACTTCCGAATTCGTGGCATCCGGA
TACCGCGTCTTTTTCATCGGTGATTGCAGCAAGGTTAAGGGCAGCATGGG
GTTGGACTGGCGATAAAAGAGAAGATCGTTTGAAAGGCTACCGCGTTAAG
GGCAGCAAGGGGTGGGACTGGCGATAAAGAAGGAGATAGTTAAAAAGGCT
GGCGAGGACGGCATCACAATAGAGTGTCGTTACGTTCGTGGTAGCCTACG
CTCCGACCGTGGAAGCGCCGGAGGGGCAGGAAGGCCAAATGCATGACAGC
CCTCAACTGCACCGTAGCATCAGTGCCCGCTCGGGAATACGTCTTCGTTT
TAACAGACGCGAACGCCAGGACAGGAAAGAGAGGTGAGGGCGGAGGAGAA
GCAGACAGCAAGGTATTGGGCGTATATGGCCGATACATGCTCTACGAAAA
CGGCAAACTATTGGCGCGTTTCGCAGAAGAAAATAAGCTCGCTCATCTGA
ACACTTTCTTTTGCACCCCCAAAAATGGCGTGTCCTTTACGCTCCAAAGC
GCCAACCGCAGCAGGGGACAAGCACGTTTGGATTATATTCTGACAAGACA
GGCGGACCGCTGCGTTAATGTCCGCCGGCCCCCCTTAGAAGCACCAGGAT
TGTATCACAATCTCGTGTACGCGAAAGTCAGCATCCCACGCAGGTCCGCA
CCAAACCGGAGGAAGAGGGACAGTACCAAGGAAACTCTGAAGCTGGCCGA
CCTTAGGCGGTTGAGGACTGACCCGAACCTTCTATCCCAGGTTTCGAACG
CGATGGTTGACGCACTACCACCAATCCTCGATGGCACCTGCATCAGTGAC
ATGGCCGACGTCATGCTTTCCACCATGGTCGAATTGGTACCGCGCTCTAA
GCGCCCGCGCGGAGCACAGGGTTGGTGCGCGGGGCCCGGTGTGGAAGCTG
AGATGAACGCAGTATGGCAACAGAGAGAGGAGGCGAGGAGGCACCTACGC
GCAGAACCCCATAACAGCAACCTTCGAAAGGCCGTGAAGATGGCTGGAAA
AACCTTCGGAAGGTGCGGCAAGGCTTCCGTGCTGAGCTTCTTTTGTGACT
TCGTCCACAAACTCGAAACACGCACTCGAGAAGGCAACCAGGCGGGCTTC
TACAAGCACCTTGAGACGATGAACCTGGAAGGGAAGCGAGACCGCAGCCC
GGCGTACGTCAAAGACGAGAACGACGTCCTCCTGAGGGACGTTGAACTCA
TCCGCGAACGATGGGTCCGGCGGTTCCACACTCTCCTCAACGCCAAGTCA
GCGAGGCTTGACCCGAACATCGCAGAAGGCCTTGACCAGTGGCCCGAAAA
CATGCCGCTAGGAGTTCAGCCCCCGATGCAGGAGCTGACAGACGCCATCC
GCTTGTTGGCGAACGGAAAGGCTGTCGGACCGGACGGAGTCTCCGTTGAG
CTGTTTAAGATACCCTCAACGGTGATCCCGCCCTGCGCCGGAGACTGCTC
GATATCGTCGTTCGTATTTGGAGGGGGGGCGAGGTGCCGCAGCAGTGGAA
ATATGCCATCATCATGGTACTCCATAGAAAGAAGGATCGGACAGAGTGCG
GCAACTACAAGGGCATCTCGCTAGTAGCGCACGCCGGCGAGATACTGCTG
AAGATCATCGCTCGCCGCCTCAGCGAGTACTGCGAGCGCGTGGGGATCCT
GCCGGAGGAACAGAGTGATGATGGGGGTGATCGTCCCGTGATCGTGGCCG
TGTGCGCGGCGTTTGACCTCACCATATCGGAGGCCAAGACTGAGATCGTG
CGTTTACGCGCGAAGGAGATGCCGGAGTCCACCGCCATATTCAGCGTAGA
GGCAGCGGGCCAGGTGTACAACCAGACAAACGAGTTTGTATACCTCGAGG
GGAACGTCAACCACGATGCCGACCTGTCCATCGAGGTCGACCGGCGCATA
CGCAACGCATGGTGCAGCTTCCGGAAGTACACCCTCGCACTTTACGTCCT
ACCGAGCGCTCCCCTCGAACGTGACGGTAAGGACCTAGGAGAGGATAGCC
CAAAGCAAGCGGGCTCGTGATGGTTCGCTCGCCCTTGTACTACCACGCAG
CAGAACTGGAGGAAGTTTCGATGCTATCGCTAAGTCACATACCGACCAAA
AGACACCGACCAATGGGAATATATCAGCGAAACAAATCTACGTTTTTCAC
ACTGAACGTAGCGCCGATCAAGTATTCATAAGGCTGCTTCTGCCTACCCA
CGTCCAGCGCTGTCATCGACAGAGCGGAAGATTCACGCTCTGATCAGTTC
GATCAACCAAACCCGCGTTTCTCAAAGGTGACGTCATACAGAAAAAGGAA
AACTGCGGTACCCAACACCATGATGGTGCCAGCATCCGCCCATCTAAAGC
CCCGAGTTCCCTTGGAAAACACTTCAGGAATCTTGCCCGTTCGCCGCTCA
AGGTTGGCCCTCGTAGGAAGAAATCTAGCCGTAGTCGTAAGTCGGCTCTT
TCTCTCCCAAAAAACTCCCGGTTCTCGCCTTTGATTCTCGCGCACAAGGG
TTCAGCACTCCCTTGGCTCGTCGAAATGGCGCTACTTTTCATCGTCGCCG
AATCTCGTGCTTACTCATCCAACAGTACCTTCAGCAACACACTTTTGCGT
GCTATGGCACCCTGCCAGGCTTTCCACACGCTCCCGAAGGAAGCCATGTT
GGCGTTCGGGAGAGGCGCACCTGGTGAAACCGTCCGGACGCAACCAAGCT
GCCACCGCTTGTCACCAACCAACCGGCTGGGTCAGGTGGACAGTCAGCTG
GTGTCATCTCTTGAGATTGAATCTGGCCTTACACCTGCGCGGAAAGACCC
CCCGCCCCGGTTCAACTCATCCCCGAGAACCATGTTTCGGAGGGAGAGGG
CACGATTTGTATCAGTGAATGATGTAGGAGATAAAACTCTCAGGAGTCTC
TTGACTCCCGAGTGGCTGAACACGCTCACCTCCTTCCGACGGAGCAGCTC
TGATGTAACTTGCCTATTTGTTTTCTTCCGCACGAGGCACTAATAAATAT
TTATAGCTATATTAAAATATATACTGATATATAAATATATATAGATATAT
TTTTAAAGAAAAATCAGAACACACCTAGACCTTCTGAGCATCCCCCGGTT
ATGGGGGAAAGCATGTCGAAACGTTTAGGTGGGATCAAAAGGCTGCAAAT
ACAAAACCTCCTAATGGCATTTAAACATTATTACTAGATTATCAAAGGTG
GTAGGGGGAGGGGGGAGCTTTCCAGGTGTCCTTTACGTGTTGGCCGGCGC
TGACGACGAACAAAGGAGCTCGTTTTTGAACCCGTCTTTCGAGAGGGGAA
AAATACCAAAACATTTTGTAAAACACACGAACACACACATACACGTACAA
AACCACAGAAAAACTTACTTCCTCTTTTTTTTGTCTTTTTTGGTGCGAAG
CAGAAGGAAAACCGATATGGCAAGTCACCCAAGCGTTTCGGGTCCAAACC
AGCCCGGGACTACTCCAACGTCGACCCTTCTTTTGAG GTAAGCTATTGAT
GGGACATAAAATATGTAATACAGAAGCAAAGCGTGGACGAGATGAAGCGT
GTGTTAAGAGGGCTGGCGGTTAGAAGGAGCTCTTGGCGCTGAAGAGAGAG
ACATACAAGTTAGACAGAATCTCGTCAGGAGCTGTCAGAAGGGGCAAGCA
ACAAATACCCACACTTGTTTCAATATACTGGGGAATCCCTATTTGCACAC
CTGCCAAGCAAGCAATAGGAAACCCCGAAGTGTGACATGAGTTTTTTTTG
TCTCGCTCGTACTCTAGGGTTTGATCCCAAGGAGACTCATCGGCGTTTTG
AGCCTTTTTTTCGTTTGGAAGTTGTTTGTACTGTACCGTCAGTGGGGGTG
TAGAGCACAGGGGTATTAGAGCGCACTAAAGAGGCGATGCGCTGGCTGTG
ACGGAGGCCCAAGACTTCCCCTTCGCGCTTCGTGGTTGCTCCGTATTAAC
GGTCGAGGCAGCCCAGAGCGCTGCCGACTCGCTTGAGCGACCGCTACTCA
GCTGATTTTGTACCTCAAGCATGAGTACTTTAATTTAGTACAAGCCACAG
GTGCTACATACTCGTACAATAAAAGAGATACTACTATTAATAACAAGTAG
AATACACTTTAGGGCATGCCCTAATACACTTGACACACTACACTACACTA
TGGACACGCCATTGGCTTTTTAGAGACAAGACACTTTCAATTCTTGTTGT
ACACTTCAAACAAGTGAACATAAAGCACGGAGCACGACAGTACGAGCATT
ATCTTGTATTAATAGGTTCGACAGTAGGGTGGATGGATGTGTATATATAT
TATATACATATATATGTATGGTCATCACATATGGCAGATTGTGCATCAAC
CGGTATGGCTGTCAATTCCTGGTGGTCAGCTAAACAGGGGGAAAAAATCC
CTGCTCCCGTCCGCGCCTAAGAATCTATATACCACGGCACGACGTTACGC
TGATTTTTTATTTTTTATTTTTTTTACCGATAATTCAAGAAAAGTCTTTG
GCTGAGCAATGATAGCGTTACCGCGGCAGCGGGCGCTAGAACAGACGCAG
CAGCTTCGGCTGCCGCGACAGACAAGCAATCACGGCACCCTGGAGGGCAC
AACACGCTGGTGGGAGTCAGCGCACCGCTTTCCCAGCTCGCTTCGTGTTT
TGTTTATTTTCTTCTAGCTGGGCTTACGAGTGAGTTTCTTTGAACTTGAA
CCGAAGAAAAATTACCTGTACACCCAGGCAGGATCGTTATGTAGGAGTCT
TTGTGTCATTTCGGTGGGATCGGTAGCCCAGGTGCGCTAACTACGATTTG
GACCACCAGCGTGTTCCTGCCCCTCTGTGGGCGTCCTGATTGTAGCAACC
TACTGCTATAGCTAGCTCTATAGCGGCAACTCAGGTACTGTAGTACCAAT
GATTTTTTGCTTTCAACACGCGGGCTTAATACACTTGTACTTTCGATGTA
GACATGTACAGCAAGTACGCTTGAAATAATGTACTCGGGCTTTTATTATA
GGCTCTTAGGTAGATACTGAATGAACTGCACGCACTGTACCGGATAGCTC
TTTGTATACAAGTAACAGTATTTTATAGATCTTTTCGGGAAAACCCCGGC
ATCTCGAGAGAAGTACGGCAGTAGACTGCTGCTGCTGAGCAACCACGACC
CCCGAGAGTTTGGAATGTCCTATTAATGGCGGCCTTCCCCATCGCAGTCA
GCGCACCGCCTCTCCTTGGTGCGTCCTGATACACACCTGAGCCATCCCGC
GAGAGTACAAAAGGCTTCTTCGAACGGCTTCTTCGAACTTGCGTAATCGG
CAACCCGAGCTCCGTTTGCTCATGTAGTACAAATATTACTGTTCTTAACT
TGCACAAAAAAATGCCCAACGGGTGGAGAACGATTAATTCGTTAGTACAC
AAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTC
GCGACAAAAATCAAGGCACGCACCGCAGAAGGAAGGTGGATTAAAAATCC
TGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTTG
ATGTCCAGAATGGATGGGAAGAAAACACACACACACACTGTTAACCGTTT
TGTCAAGTCTCCTTGGGTTGATGACTCTTGAATCCAGAGACAGAAAGAAC
AACTTTTTGTTACATGTCGGGGTTTGCGTGTGTATTGTTTTGTTTGCTTG
GCAGGTGTGTAATATTTGGCATGCAAACCAGGGGTGCATACAGGGATTCC
CGAGATAGGCTGGGGGGGAGGTAATATGTTTCATGCTTGGCTGTGTGATT
TTTGCCCACCCTTGCGACGATGTGCAGGCAACTCTGGAGGGTTCGATGAC
TGGGGGCCAGGCGCAGCTGGACGTCGAGACGCAGCTCGCGGGCGAAGCTC
ACTCGCGGCTGGAGAGCCTTCTGAGGGGCGTGAGGACCGAAGAGTGTCGG
AAGGAGATAATGGACGCCTACCAGACTTATATGGGCGCGCAGGCGCTG GT
GAGCTGTGTCCGGGCGACGAATATGTATACGTACGATCGCATTTGGGGGG
GGGGGGGGGTGATTATAGCGATCGTTTCAGTGCGCGACCGACCACTTGTG
TATCGAGTATCGAGTATCGAGAGTACATCAGTTCAAAGGTGCGGCTTCGG
GAGTGATGCTGTTGGATGAGAAATACCGCAGGAACTCTTAGTAGAGAGAG
GAGGCGTGTGGACGACGGAAGGAAAATCTCGACCACTCCATCTCCCCCGG
CCGTAGAACGCCTCCCTCAGTCAACGATCCTGTATAAACCCCCGTCGTAA
TTACTATAGTGGGCGTGTCGTCGATGAGGACAAAACTCTTCGGCAATATA
CCGTAAGTATCGGAGTCTTGGCACACTCCCTAGACTGAATTTTCAGGCTC
GATTGCTCCATAACCAAGAGGATATGAACACCGACCGATACCTCTAAAGA
AAGCTCTCGACGAGATCCTTCGAAAACCACCCTCTTCGGCATTGTCAGCC
TCTTGGTTGTGGGGCAATCGAGCGTGGAAAGTCAGTCTAGGGGGTGCGCC
AAGACTCCGATACTTCCGGTAATCCCTTTCGCTTCCATCACATTCGAAAA
GTTTCGGCCTAATATATATAATAGTTTTGTGGAGAGATAAAAAAAGGGGA
GGGGGGGAGATCTCTGGATCCCCGAGATCGATTCCGAAACCGCCGTGATT
TTCTTCCGTGTCACGATATTTTGCCGTTTTGCCGGCCCTAAAATGTTACC
GTCGAGAAGAAGAGTTAAAGCATCATATCCTTCTTGGACAGTACAGCAGT
CAGTCACTTTCATCTATTTATTTTTTATCTACAGCAGATTGAAGAGAGAG
AAGAGTTGGCGAATTTGCTGTACGCACTGAGTATGTATGTATGTATGTAT
GTATGGTTATCACACATAGCAGAGTATGGATCAACCGGGTAAGGTTGCCA
ATCCTGCTCGTGGTCAGCTAAACAGGGAAAATAATATTCCCCTGTCCCCA
TGCGTGCCTGATAATTTGGTCTCGCGAGACGGGTTCGGCCGTCCCGTCCC
GTCCCGCGTCAGCCTGCTCATCTCCATACTCAGGCTGAATATGGTAGCTA
AGATGAGTAGCGAAGGTAGACTCAAGCTCTCTCTCACGTGCAGACTTTTT
TGCAAAAAAAAACAAACAAAAAAAACGCGAATTACCCACGCTCCACGCGA
GTCTCACCCTCGAGCATCTCGCCGCGACAGCAAAAACGCAGACCGGGGAC
GGGATCGGTTCCGACGCGGCGCGCGGAAACCCCGAGACAATATTTTACCT
GAATTGAGAACGCTTCGGATCCCCCGCCCCGCTCCAATATCTAGTACTCG
TTATTATTTTCCGAGGTGAGGTGACTCCTCTGTGGAAGGAAAAGAGCGTT
AAAAACCATTCGAGGGGGGGGGGAGGGGGAATGTGAAGTTATCGATGCAC
TTGTGTACCAGTATAGCAGTATGCTTATTCATCCAACGATGACCGTTGAT
TTTTTCTTGGTACTTTGTGTATATTAGGAGAGAGCTCTGCCATTCGAGGG
AAGTAAGTTTACGTCGCAGTGCGTGGACTCAGCGAAGCGACCAGACGTTC
CGCCGACGGGTATCCTCGATCCGCAAGAGGTGCGGCTTGTGTACGTCATC
CTGGCGCACGAGGAGCCGGCGCAGGTTATTAG GTAAGGTGAAAAACAACC
AACAAACACGAAAAACATGTGTGCTGAAGCACTGAGGTACGGCGTTCCTG
CAGTATTGAGGCGTGATGGTACGAGTACGTACTTGCTGTTGTGCTTACTG
TAGTAGGTAGTAATAGTAGGTAATGTAACGGTTTTAGCGCAAAAAATACT
TGCTGGTAAGGCTTAAGGCTTTAAAACCGCACGCTGTGACGCAGTAGAGA
GATTCAAAGATAATACTCCGACGTAGACACAAATATGGAACACATCGTGT
GCTTTGTGCTGTAGATAGAGAAAGCTACTGTAGATATTGTAGTGTCTGTG
TTTGCGGGGAGGGGAGGGATTAGTATGAACATTATTCAGATCATATTCTG
TCTTGTTTCTGTCTCTGTTTGTGTTGTTGATTTATTTCCTCTTCCCGAGA
AGTTGCCCATTTTCTTCGTCCTTTTCATACTATTAATACACAATATATGA
TATACTCATGGTATACTACTATTAGTATACATTACACTCCGTAGTGTGCT
GTACAGACAGAGTCCCTCCTTTCGTTTCGTGTTTTGTATACTAATATCAA
TATAAATATCAAAAGCGCCCTTTCGACTGTAGGTTAGAGACAAAGCGACG
GACGGCGCGAGTCATTTTCACGAGTGCGGTGCGATACGTACCGCTACGGT
CATTCCCGTGGATAAGTTCCGCCGAGTGTGGTTCGTCCCCTGGTTTTCGT
ATATGTATGCGCGCCGCCTACCGTCCGGGAGGGGACAGGGGGCAAGGGGG
AGCGCTGTCTGGGGTATCCCCGTGTCATCCCTTCCGGTGTTTCCGTACAC
GCATGGGGTGTGTGCTGTAATATCACGTTAATGTCCTCGTGTTTACAGGC
TAGTGAATGCTCTGGATGATGAGCCTGGAAAGGAACGCACGTGGTTCATC
GTGCACAGTGATGTCAAGGCGGACGGCGTGTACCATGACCTTGTGGCCGC
CTTCAAGGACAGACCAAATGTCATCATGATGGACGAGGGCAG GTGGGCGA
GCAAGGCGAAATAACCGTCCTGTAGATTTCGTACTAAGTGGGTTGTCGGT
TTGTTTGTTTGGTGAGGGGGGAACAGGGGTGCGCTATGTGTGAGGAACGA
ACTTCTACGGTGATGCAGTCCTTGCAGGGAAGGGGTTGACCCGGGTTGGG
CTTGGGCTCGGGCTTGACTTCGCTTTGGCGATGCAGCGCCACACAGTCCG
TGAACGAGCTGAATTTGGCGGTTAGAGGAGGGGGATGCTGGAAGCATGGC
AGACGATTGTATGCGATACAATATTGCGCCGCTTCAAGAACTCTCAGAAG
AGAAGTCTAGGCACCGCTTTTATGATGCAAAACGGCGGCGGACCTTTGCA
TCTCTGCCTTTTCTTTCTTTCCCCACCTCTCGGTTCGTCCGCCTTCATGT
ATCTCATTAAACTCCCTCTTTTGGAAAAAAAATACCATTCTAGGCTGGAC
GTCGCTTGGGGGGGGTTCAACGTGGTTCAGGCGACGCTCAACGCTGTCGC
TCTCGCCCTCGAGAAAGAGCTCCCGTTCAATTGGCTGTGGATCTTAAGCG
GGACCACGTATCCGATCGCTTCCAACGACGACATCCGCGCCAGGCTTGCC
TCTCACCACCCCGAAGCG GTCAGTATTTCTACTTTGCACTAAGGATTGGA
GTTCGTCAACACCCCAAAGGCGTTTTTGTTTGGGCCTCTTCTTGGCAGAC
TACGCGAAATATATGTACCCGCACATATTATCGCCCCTTGGAAGTGTACA
GTAATGGCAATGTTTTCTGTTGATATTTAAAACTCTTTTAGCCTCGAGAA
CCTCACGAACACATCGAAAGGTTTCAATTGCGTGCGCTCCTGTTATTACA
AATGCTTCGACGACTAAACTACCGAATCTAGGACACTTTGTGTGTAATCT
TGTCAATTATTACGTTATAAACTCTACTATCATGACAAGAAACACTGTTA
TAGCATCGATGATGACCATGTGGGTTACCAAAACTTTGGATTATAGTTTA
TACACACGAACGACTAAGAATACATTATTGTTAGTACTAAGGGGCCATCA
CACTTACGATCATATTTTACTACATTGTGGTTATTAGAACTTGTACTGTT
GATAGAAAATTGATTTTTATTTTATTATTTGGGGGGGTACAAGGACTTTT
CTTCTACGTTACTTGAAACAAAACGCTTCTTTGTTGCTGGGCACTATTGA
ACTCTAGTGCTTCTGAAGTATTTATGTTGGTAAATCACTTTTTAATAGGA
CAAGATCACGACATGGGCGATTTTTTGCTCTGTTGTTTAGTGTTTTTGTC
GAAAATGTAGAGGGAATGCAGTGGTTTTATCGGAATGTAGAGGGAGGATG
GGAACAGCGCGATTGACAGGAGCGTTCTTGTACAAGGCCTTAGCCTAAAT
TATAGAGTGGGGTTAGGCTAACAAAACAATTACCTGGTACTACATTATAG
AGTGGGGAGGGTTATTCAATGGGTCATACGTACGCGGACGGGGAAATATT
TATTTTCCCTGTTCAGCTGACCACGTGCAGGACTGACAACCTTACCCGGG
TGATTCATACTCTTGCTATATGTGTGACCATACATGCATACACACATATA
TAGAGAGATACGACCCTACGAAGAGGTGGAGGAGGAGGATTCAGCCTTGT
TCACACGCCGGTACTTTCAACATGCCCACTTCATACGAATAATGGGTGTG
GGAAAGAGAGGCGCACATTAATTGGTCCACGATGACCTGCCAAGGCAGCA
CCCGTTTGGAACTACCTTGAGGTTTACTCGCCTTATGCCAGCGGACTCTC
GGCAGTAAACGCCATCGGTACGCACTTGCATGACCCGACGAACTCGGGAC
TGACCCGATGGCGTATGGCGGCTTAAACAAATAAATGGACGCCGCCGCGG
AACTCGGGAGGAATCACTCAAGTAAGCACCAGATTCAGCCTGAGTATGGA
GATTAGCAGGCTGACGCGGGATGGGACTGCCGAACCCGTCTCGCGAGACC
AAATTCTCAGGCGCGAACGCGGATGGGGAAATATTCATTTTCCCTGTTCA
GCTGACCACGAGCAGGATTAGCAACCTTACCCGGTTGATCCATACTCTAG
CTATATGTAATGGCCATACATACATGCAGTGCACTGCAGTTCAGAACAAT
CCGAAATACTTTCCAAGTACTCACTTGTATTGCAGCTTGTACAAGACGTA
AGTAACATTGGTGGGGTGGTGGGCAATCGAAGTCCCATGTAGTTTGAAGC
AGGTCGGCGACGTGTGTGCCAACATCACAAGAGACTGCTCTCCCTTTTCC
CCACACGAAACACGCCAATATGCAACGCCTTCTGTTTATAGCTGTGGCAC
ACACCCGTATACCCAAAACTAACCCCCCCCCTAGACACACATGCCTCCTT
ATCTGCGAGAATCTTCTCAACCTTCCACGTCCCTGCACGAATGTATCCGG
CAGCTCGAAGTTATCTGAGTCCGTCCGTCTGTTTCGTTTATTTATTGGTT
GGCATGCTGCTCTTGGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTCAT
CATCTTCAATTCACATGATGATATCCTATGACCTGTCCTCGATAAATAGA
TTTATGACGCATTTGAAGCCATCACGCCGGCTGCTCTGTGTTGTGCCAGG
TACGTGGAAAAGGTGATGACGGCGAATGAACCAATATCACGGTACAAATA
CGCCTCCCAAGTATTAGAGGTACAAACAAGCTACCAAAATACCCTTGCGT
TCCCATCTGGTAGCTTCCTGTGGCACTGCACTCTTACCGGTAATAGAGTG
TTGTTTTGCTGGGCGATGTTGCTTGATTTTGCGTTCCTCGAGCGGGACTC
GCTCCCGCTCAACCCCCCCCCCCCGCGAACCGACCCGGGGATCCAACCCT
CCCGTCCCCCCCTAGATTTTCATGGAGTCCAAGACGGCCCCGCATAAGCC
CGCGTCGACCACCTGGCACTACTTCGTCGAGTGCGACTCGGCGCTCCACA
GGATCGGGCGAAGCGTTCAGCCGAGAGGAATAGAGATGCAAGTGCACTCA
CTCCAAATCACCAGTGTGCA GTATCAATAATTGGATGACCGCACAAAACA
AAACTATGTATAGTAAATAGAAGATAAGCCACAGCTCAGTGGCGGGGACA
GTGAGTGAATGATCATGTTCCATTCTATCTCTCTGTAATAAAATACGAAG
AACCTAATTTTGAGATAAGAGGCTGGACCTCGAGTGACAATCCTACCGCC
GCCGCCGTCGCCGCGTTTCAAAACGAAATCAAATGTCTTGTGTTGTTAAA
TAAAGACTAGTATAAAACCGGGTTTAAAATATCGCGAGCGCTCGTGGATA
TTTGTTTTCATTGGCTCTGCGGCAAGAGCGTAAGGTCTGTGTTGCTAGTG
CATGAAACCGTGCATGGGTTGGGTTTTTTGTTGTCAGGTGGCGATGGCTT
TCTTTAACGAGTATGTAACGAAAAGGTTGATTCTATTGGCACCATAATTA
TTGTACTTATAACTACTATCACTACAATAGTTGAAGAGGCGTTTTCTCGT
GGAAGAAACCATCCTGTGCCTCCCCGCGCACTACCGGGATGGACCTAGCG
CCTCCACCCCAGAAACCCCTCCTAAAAGCGCAACTTCCCCACAGGCTCGG
TCGGATACGGCAGTCGAAAAACGATACAAGAGTCCCCGCAAATTGACTAT
AGTTAAGGAGGTATCCAATGTGTTTATCGCCAGGCCGCTTCCTCAAGTGA
GCCGGTTCCATTCTCTCCCCCCACCCCCATGCTGTCCAACCAATGCGCTC
TAATCCTCTAATCGTTTTTCGTTATTTTGTAAATTTGACGTAAGGTACGT
GGGATCGCAGTGGTTGGCGATGCCACCGGCCGCCGCGAGGTGGTTGATGG
AGGACAAGTCCCTCGTTCCCAAGTACAGAGAGTACTCGAAGCACATCGTA
GTGGCGGACGAGAACTTTCTGCCCACGATGTTCAAAAACTCTCCCTTCTG
CGGCCACCAAGTGGCCTCCAACCTCGTTCACGTGCAG GTGAGATATTGTT
AACCTAGGAGCGAAATGAAAATGAAATGGAATGTAGCACAAGGGTGTGTT
ATGGGATGGGACAATATGATGGAATGAAGGGTGTAACACGGGGGATGAAT
AGATGTGCAACGAGATGCAATCATGGGATGGGATGCTGAGCACGATGATG
TCGTGTCCGGCTCCAGACGTCGGAAGGACGTCGGCGTCGGTCGTGCTTTC
GTGTCAGAAGCGTTTATTGCATTTTGTGGTGTTTTTCTTATGGTTTCCTG
GAGGGTTAGAGTTTGAGATTTTTGCGAGGGTTTTCCTTGTATGGAGGTGG
AGCGAAACGATCGAGCGGGTGAGCATCACGCGCGGCGTCGACCTCAACCT
CAACCGGTTTAAGGGCCCTCAAGTCTTCTCGTTAAGGCATCTGAACCCCT
CTCGTCATCGCAAGAGCGCGGAATACGGCAGACGCCCTCGCCTCGCCCCC
TCCCCCCCCCCCCCCATACTTCCGCCCACGGTATAATGTACAACTCCATA
GCTGTATTAATAATCGATTAAAATACATCTTCCCATTCTTGTACAAGGAA
ATTATTAATGAGTACGGTAAATGGTTATAAAGCAGCCCTGCCACCGACGA
AATATTTCTCCCCCGCATCCACCAAATGGACTCCCCGGGCAGTTCGATCG
ATACGAACACACTCTGGATCGGGAAGACCGCCGCATGGACAAATGTCTCA
TGCCAAACCCTGACCACTGCGGGCGGTCGCCGGCCACGATGACGCTCGAC
TACCTCTCCGTGCTGGAGCACAGCGACAT GTGAGCTACTATTAATAGTAA
TCATAGAAAGTTTTAGAACTATACTTTCCTATAACTACAGTACACAGCTT
TCTCTTATCCTGTTATTCTTTCGTTCGCTTGTTCTTCACATCATTAGTTT
TTTTTGTGTTTTTAGTGGTTGATTTTTAGTTTTTGATCTCGTGACACCTT
TCTAGTAGTTGAAAGTATGCGTTTTTGGGTGCTTTACGTTCAGCGGCTCT
GTCCTGCTGCAGTAGTGTGTGTCTGTGTCTGTGTGTGCATGTGTGAGCTT
TTTATTTCCAAGTGTGTTTACTGGTTGCTGGCATACTGCAGTTGCTGTAC
AGCGAGGAAAAAAACGATGGGCTTGATTTGATTGCGGTAACACCAAGACT
AATAAGATATGAATTCGGCGCCCAGACCCTTGAGGCCATCGTGCGTACTT
GGGGGGAAAAAGCGACCCCGTCACACACTCGTACTTGGGAGGAGAAGAAT
ATACAGAGGGACTAGTAGAAGTATGATTTCTTCAGATGTATTTCACGTGT
TACCTTTCCGTCACAGCCAAGTCGTCCAGCATGCGACACGTTTTCGCCTA
TCCCGAAAGGGCACCCACCCCCCTCCCCCAGCTTTTGTAGCTTCCGATGC
TTCTCTAAAAAGTGGCGATATTCAAAGGAAAAATACTAAAAAAAACTCCT
TCCCCCGCGCCCTTCCCCCGCAATCCCCCATTAGTCTATACACAAAATAA
TAATAATTTACCCCCACTCCGCACCCCCAACAAAACAGGCTCTTCGCGCG
CAAGTTCGATCCCAAGGACGCGGAGGTTTTCGACGTCCTGGACCGTGTCC
GTGCCGGAGACCAGCCGTGGCGGAAGGGACCCACCTTCGACTCGGTCGCG
ATTCAGTCGGTCGCGCGCTGGTCGGGCTCCAAGGGCGAGGTATCGCTGTG
CCTGAGCCTCGAAGACTCCGCCCGCAACAAGTCCTTCGCTAGGCGAAATA
ATGGCGTCGTAAGCGGCGGCGGAAAGGTGGAGGCGACGATGGTGAGGTGT
TCGGAGAAGAACCCTCATCAGATTTTCACGCTCGGCCCGTGCG GTAAGGT
TTCGATTTTTTTGGGGCGAAAAGTTTTAAAAACCCGGTTTCATATTTTGA
TAATTTTGAGCTAAACTTGCCAGATGTATTAAAGTAAGAAATAAAAGCGG
TAAAAGTTACGCCAATGTAGGGGACGTTGTTTTGGTACTTAATCGAGCTT
AACAAATTTAAAATTAACTACTTCCAGAAATTTTCTCGGACGGTGGTAAG
GATGGTGTGCATTAATTCGGCGCGGGCTTTCAAAACTTTTTTTCTTTTCC
TTTTTCTTTTTCAAGGCAAAAGTATGAAATAAATCACGAACTCACGTAAG
GCACACATTTACACACATAATGTATAATGTGTGTATAACGCGCGTTGAGG
TAAGCGCTTCCCAACCTCGCCCTATCTCTTTACCAAACCCTTTCCCGCAC
CCTAAAACACAAACAGGCTCGGATGGTCACCTGGAGCTCGGAGAGGGTGG
AAAAGGGTTCATGCAG GTGGGCGGGGTTGGGCAAAGGGGAACGCATGCCT
CAGGACAGACACGCAAAATGCTCTTTTGCGCTGCTGCTGTGCGCGTGACT
GTTTTAATCATTTATTTATTTTTACTTTTTTTATGCTATATAGCTATGTC
GCTCGAGAAATAAGTGTTTCGTGAATGTTTCTATTTAATAGTACTGCTGC
CGTCTCGAGGCTGCTCATGCTCATGTATTGTTTTAGCCTACGTGGCTGCA
GACAAGTCTTCCTTTGTAAGATCTCGCGCATTGCGTTATCTTCTACTTTT
TCGCACAAAGACAAACTAGCCGTAAATTTGATGAAGCCACGTCACGTTAT
GCTTGCTCTCTTTCTTTCTCTTTCTATATTGAACCTTTTTTTTTTGTCCC
TCAACACAGCTAGAATTTTTGAGTTTTTCGGTATTTTAGTCTTTATTTCA
TGTTTGGTTCCGGGACGTCAAGGATTTTTATTTATTTAAATACATTCACG
ATTTTGCGATGAGCACACACACGAGAGATTGCCGTCCTTTGTACGACAAA
CCATAGACTAGATACTTGAGTACATTATATGTAAAAGCTAAAACGTTGGC
TCGTCTTTCACTGAGACTATTTTCGTTGCTCAGTAACAAACTACGCTATT
GTATTTATTTATTTATTTATTCTTGCTTGTGGTTTGTGGAGCTACAGTGT
TAACACATATCCACCTCTGAAGAATATTATCGGATTTTTCTGCCCCGTCC
CCGTCCCCGCTATCGTAACGCCTCCCTTAACGTCGCCTCGTCTGAAAAAA
GTCCTCCCTTGGAGAGGTCACCGGCCGCTCTCCGTCATGCTCGATAACGA
GCTCCAAAGGGGCATGCCTCGACTTGTTGGGAGAGGCCAAGGATCCGGGA
GCTCCCGCAATCTCCTACAA GTAAGCAGCGCCTGTATTTATTATTTATTG
TGTTTTATCTTTTATTAATAGTTAGAGCTACCCCAACTCTCTCTGTGTCT
GTCTGTCTTGAGTTTTGTACCTACGAGAGCCTAGTAGTAGCAAATTTGGC
TTGAGATTCGGTAGGCTCTGTTGGAGCTCTTAATTTTTTTCGCTCGCGTC
TCACCCGCATCCGGCGTAGATATATCAGCTTTTGGGAACGGTCAATTCTC
ATACTAAAAGCTTCCTTCTTTAACCATGTAGTCTAGTGTATTACCAGCCG
CCCCCTTCACCTTCCTTTTGCGATTGCCGTCAGTATCGGAGTCTTGGCAC
ACCCCCCAGACTGACTTTACAGGCTCGATTGCTCCACAACCAAGAGGATG
CCAATGCCGAAAAGGGCGGTTTTCGAAAGATCTCGTCGAGAGCTTTCTTC
AGACGTAACGGTCGGTGTCCACATCCTCTTGGTTGTGGAGCAATCGAGCC
TGCAAAGTCAGTCTAAGGGGTGTGCCAAGACTCCGATATTTACGGTATAG
GCTATAGACACAGTCCTGTACTGTACACGAGGGATATATACCGTACTACA
ACTGCAGCCGCGCTTCCTTGGAAATTATGCAACAAAGATTGTCTATAAAC
CCTTGGAATAATGTGGAGAATGAGAGCGGACTGACGCGGGACGGGACGGG
ACGGCCGAACCCATCTCACTATCAACAGACCAAATTCTCGGGCGCGAACG
GAGACGGGGAAAACACATTTTTCCTGTTCAGCTGACCACGAGCAGGATTG
GCGACCATACCCAGTTGATCCATGCTCGTGCTATATGTGATGACCATACA
TACATATACATATATATATACTTTCTAACTATGCAAAGACTGTAACCGAG
CGCTATATGCAGTGTGTACTTCACCTCGACAGCGCGAGTCACACGATCTC
TCGCCTTTTTTTTTATTGTTGGTATGGTCGGACCGAGACAGGTGCCACAA
CAGGTGGAACCAGTTCTTCAGCTTCGGCGAGGGCAAATTGAAAGGGCACG
TGCTGTCGATCGTCCCGCGACACCTTGCCATGGCGGACCAACTCGAGGGC
GCAGCGCTCTGCTTGGAG GTGAGCCGACAAAAAAACGAGTCGCGCGTCTC
CTGCCGCGTCGAACACCAATGACTAATGTGACTAATGGTCACGTTGTTGT
GTATACTCATATCCATATATTCATTTTGATGTATTCATAGTGATGTGAAG
GTAGACGTGGACCACAGACGACTGGTATGTTCGCTCCTCTCCGCTCGTTG
TCTGTCTATTTTTGTTTGTTTTAATAATGATATAACTATTCTCGTGGGAC
AGCTTTTGCTCTCCAAACCGTACCGTAATAGGGCCATAAAGTTCGATCGA
GCGATAATGTAAGCTTCTAGTAATACTAGGGGGGGGCGTGAGTAGACCAT
CCCCGGGAGGGGTTGTCGTATATCACCACCCCCCTAAAGTTAACAACCCA
GTAGCGTCTCGATATGCACGGTCACAACTAATCCGCCGGTAGAAATATAA
TGTTGGCCGCGTGATGGAATGAGGGATGAGGGGTGACATCTTGCGCTTCC
TCACCGGTTCTCGTGTTCTAAACTGTGATGTGTTTGCCCACACGGCACAC
GGCAGGCTGTGCCCAGCGATGGTGGTACCGTCATGGTCCAAACTGCTGAG
TGCTCTCCGGAAAG GTATGCACAAACGGGATTTAAAAGAGGTCCATGAGT
ACTCTCGGCCAGAGAGAACTGGCACGTGTCCACACGGCTAGGTTGCTTTT
TTCGGCAAGGGTTGTTGCTCCTTTCCCCTTCTTCTCTCTTTTTTTTAAGT
CTCCTCTTTTTTTTATATTTTTCTCCCTGTTGCTCTTTTTGTTTATGGTT
TTGCATCTTTTCCCTCTTTTCCTTTTTTTCTGCTGTTTTCCTCTCTTCCC
ACTGTTTCCAAATCATTATCCCATTCTTTTCTCCATTTTTTCCCCCCTCT
TATGTCACATATAATATATATATATATATATATTTACCATATATTTATAC
ATTTATATGTCTTTCGGCGATCCTCTCTTGTATACTTACACTTTGTTGTA
CACTAAATTACACGATATCAATTATCCAGTTGTCCTTGACTAGTGTAATA
TAGTATATAGTATATACAGATTCAGTTTTATAATATTTTTGTTGTTTAAT
GCCTCCATTCCCTCAAAAACAGCCCCTCTCAAAAGTTCGAGATTGTTCAA
CTTCAGCCGCTCAGCAGCCCTGGAGACGAAGCAGCAGCCACCCTCAA GTG
AGCTTCGAACTCCTCACAGAGTGTCCTTCATATAATTCTAGTATATAAAA
GGGTCTGACAAACAGGGTAATACATATTTTTGCCAACCAAACCGCTGCTA
TAAGAGTGTTGTTGTGTGTACCTAGCAGCAGCTCCAGATTTTTAATTTTC
GTTTTTGAAACAAATTTTTTTTCCAACCTTTGTTTTCAATTAACTGTAAC
ACTTTATGTAAATCCTTTCGTTTTGTGACGTGCGAGTGTCTATTCTGCTA
TTCATGTATTTTCGGACGACGCAACGCCTCGTTCAACGAATGGGGGATGT
CGCAAATTTGTCCCCGTTTTAGCAGGGGATGTGGTTCCCTACTGAGACGC
TTCCGGGGACATATTTGACAAACCCCCTGGTGAAATGAGTTGAATTCGGG
ACAAGCTTGCCGACCATGTGGGGGATCATGTATTCCTATAGCCGGAAGGT
GCTGTTTTGATGACACCCCCGGGGACGAATCGTCGAACCCCCCTCTCCAA
TCGTTGAACAACTCCAACCACCGTGACCCCTAATGTGTGGCTAATGTCTG
ATGTCAACCTATTACAGCACCACTTATCAAGTTTTTTGTAGGTTTTATCT
AGAAGTGTATACTTTAGATATCATGATTAATGTTTTTTTGTTTGTTTGTT
TTTCTCAGCGATGACGGCGGAGAGGATGATGCGGCGGAGGACTGCACGGG
ACCTGAAGGAACGTGCCCAGCCAAGTAA ATCTCGGCGTCTCGCCTTTGTA
TATGATTGGTCAAACGAAGAGGTAGTCGAGCGCCATTGGTTGACGTTTGA
GCTCCACAGTGGAATGGTTTTTCACAGAAAAAACACGTAAAAAAAAATAC
TTATACACTGTACGATGGTACTCTCCTATAACACGTTTTTTATTGTAGAA
CGTAAGTTTTGACGGTGAAAAGTTTCTGGCAAGCTTCAACTTCTCTAGAA
AATAGTATGGAGAGGGTTTTGATGAGAGGGTGAACAAAGCGTGTACCCGT
TGGGTGACTTGCGACGGTACTTTTTGTCATCCTGCATCCAGGGATACAAA
CTGATACAATTCCTCCCACCTTTCAGGCTTTCGCTACTGTACGAACCAAA
AGCGATCGTTTAGTCGTTTTTTAAGGGCGAGACGGCGATATTTTTCCCTA
ATAAGCCTCAGCTGTTCTTTCGCTCGCTCTCGCGTGGGGTATTAGTGCGG
GGACAGTTCTAGCCATCCCCTTAGTGCGGGGACAGTTCTAGTCATCCCCT
TAGGGGGAGGGAGGGGGGGGGGGTTCTTAAT back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1005:34314..69244-
>mRNA_A-nodosum_M_contig1005.4.2 ID=mRNA_A-nodosum_M_contig1005.4.2|Name=mRNA_A-nodosum_M_contig1005.4.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=2067bp|location=Sequence derived from alignment at A-nodosum_M_contig1005:34314..69244- (Ascophyllum nodosum dioecious) back to top