mRNA_P-littoralis_Contig1.291.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1.291.3
Unique NamemRNA_P-littoralis_Contig1.291.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: D8LI15_ECTSI (Folate/biopterin transporter n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LI15_ECTSI)

HSP 1 Score: 840 bits (2169), Expect = 1.070e-290
Identity = 447/622 (71.86%), Postives = 496/622 (79.74%), Query Frame = 1 
Query:  268 MSRRPSVETGLKDNGG----RGGGGED--ERTPLLSGSPPFAGAGSTRGTGYNGXXXXXXXXXXXXXXXXXXXXXXXXXXXSSG----VKRRPSLPALKQLDPYA-------TANGVAIRTRNRLARALCCSTVVRWFGRVRNSPQHSNDDLNIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVELAYA 2082
            MSRRPSVETG++ NG      GG   +  ERTPLL                                              SSG     KRRPSLPALK+LDPY        TAN + +R R++L   LCCS V RW  R RN     +++LNIYS+ASLAI MSYFS+GVALELLYTPIAYYLID LGAESGVYTVW IL TLPWSFK  YGF+SDC PI GL+RKPYMLIGW VHI+SNSALAIMGTPG +AV+ILSF+S+CGYLLSDVMTDA+VVE+TQRESM+ MGNIQASGYIARY GSAIGAVGGAVLYN DTWGWGL+IS LFWI  L+PL LV+PLMPFL EDK+P+E GVLKRH+DELWTLVQKTAVWRPMIFVYLYNALMLPN AW NYLVE+LDFSDWDIG+VNI +Q+C  AWLGLVIYKKWMGDV WP LY+YTTFLTFV TIAQLLLILG+S+S GIP+LLFASGDEA+SEVILALQFLP+TRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGD+LTDLGGSW+ SN  L AGD+SGMWRLT+LTSCVAVTPM LVWLLPRNKKEQQELQKSS+++ LGG++FL V GLSILFTI+EA VEL  A
Sbjct:    1 MSRRPSVETGVRSNGSGXXXXGGRAAENGERTPLL---------------------------FDDEAADHDLDQDDRASLLSSGGRDPQKRRPSLPALKKLDPYPGDGLGARTANAM-VRARDQLVETLCCSPVQRWIDRHRNR----DEELNIYSLASLAIVMSYFSIGVALELLYTPIAYYLIDDLGAESGVYTVWVILVTLPWSFKAAYGFLSDCVPIRGLKRKPYMLIGWGVHILSNSALAIMGTPGEDAVVILSFLSACGYLLSDVMTDAIVVEKTQRESMSNMGNIQASGYIARYFGSAIGAVGGAVLYNKDTWGWGLTISELFWINALVPLVLVMPLMPFLLEDKKPREKGVLKRHSDELWTLVQKTAVWRPMIFVYLYNALMLPNGAWTNYLVETLDFSDWDIGVVNICSQIC--AWLGLVIYKKWMGDVSWPSLYWYTTFLTFVVTIAQLLLILGISASWGIPDLLFASGDEALSEVILALQFLPLTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDLLTDLGGSWSTSNATLLAGDMSGMWRLTLLTSCVAVTPMFLVWLLPRNKKEQQELQKSSANNRLGGQIFLVVVGLSILFTIIEAIVELIEA 588
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A835YTY0_9STRA (Folate/biopterin transporter n=2 Tax=Tribonema minus TaxID=303371 RepID=A0A835YTY0_9STRA)

HSP 1 Score: 442 bits (1138), Expect = 9.040e-138
Identity = 235/470 (50.00%), Postives = 317/470 (67.45%), Query Frame = 1 
Query:  673 NIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKR---PKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVEL 2073
            ++YS+ SLAI MSYFSVGV L     P+  YLI  LGA S  + V+ I+  LPWSFKV +GFISD +PI G+RR PY++IGW VHI     LA +  P    VI  +F+++CGYLLSDVMTD+++VERT+ ES    G +QASGYIAR  GSA+G+  GA++YN   WGWGLSI+ +  I  ++PL  V P +P+L E  +   P    V + H  E+W LVQK  VW+PM FVY+YNA+M+PNAAW N+L+E L FSD+ +G + I+  V   AWLGLV+YK++     W  +Y  TT    +  IAQ+LLILG +  LGIP+++ A GDE   E +LA+QFLPV  MYA +CP G+EGTSYA+LTT+SNVA  VA  IGD+LT+   +W+ SND+L   +  GM +LT+ TS + + P+ L+ LLP NK EQ  +Q+S+ SS  GG  FL V+  SI F++++   E+
Sbjct:  104 DLYSLPSLAIIMSYFSVGVVLTFTTVPVTVYLIQELGASSTQFAVYTIVCKLPWSFKVFFGFISDAFPICGMRRLPYLVIGWTVHIACYVTLAFLVQPTVEWVIGAAFVAACGYLLSDVMTDSIMVERTKLESTKHRGTVQASGYIARAFGSAVGSTAGALVYNQANWGWGLSIAQIMLINAVVPLACVSPFIPYLKETVKTSLPTARHVWRTHWQEIWALVQKRVVWQPMTFVYIYNAMMIPNAAWNNFLIEGLKFSDFYLGAIAIAGSVT--AWLGLVLYKQFYMQANWRSVYLVTTVFNLMVNIAQVLLILGWNKVLGIPDIILAVGDE---EFLLAMQFLPVVIMYAAICPEGTEGTSYAMLTTLSNVADTVALVIGDLLTE---AWDTSNDSLANHEWGGMLKLTLFTSVMQLLPLLLLPLLPANKTEQHAMQRSNDSSWWGGFAFLSVTLGSIAFSMLQPLYEI 565
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A6V1WMI5_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1WMI5_HETAK)

HSP 1 Score: 432 bits (1110), Expect = 2.360e-134
Identity = 215/464 (46.34%), Postives = 318/464 (68.53%), Query Frame = 1 
Query:  688 ASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWE--DKRPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVEL 2073
            A++AI +SYF VG AL  L TP+ YY++  L A     +V   + +LPWSFK+ YGF+SDC PI G+RRKPY ++GW ++++ +  LA +  P    +  L F+ + GY+++DVMTDA+VVER+Q ES  + G IQA GYI R++GS +G+  GAVLYN DTWGWGL+   +F +   +P  ++ P M +L +  D +P  + +  R   E+W  VQK  +W+PM F++ YN + +PNAAW ++L++ L+FSD+ IG+++++  V   +WLGLV+YKK+  +  W  +Y +TT +T   ++ QL+LI  ++   GIPNL FA GD+A +E ILA+QFLP+  MY  +CP G+EGT+Y++LTT SNVA  VAY IG ++T +   W+VSNDA  A D SGMW+LT+LTS + V PM L+WL+P +  EQ+ELQKS SS+  GG +FL V   S+++T++E+  E+
Sbjct:   64 ANVAIPLSYFCVGFALNFLSTPLTYYMVHVLDASPAQQSVVRTMQSLPWSFKLAYGFLSDCVPIRGMRRKPYFILGWTIYLLCHLTLAALIQPSIGPLTSLLFLGTVGYMMADVMTDAIVVERSQHESDDERGTIQAQGYIIRFVGSILGSAMGAVLYNRDTWGWGLTTPQMFALNAFVPFVVLYPAMAYLRDASDLKPIPVPIQCR---EIWGAVQKRNIWQPMAFIFAYNVMQIPNAAWSSFLIDGLNFSDFSIGVISVTGSVV--SWLGLVVYKKFFFNTNWRGIYLWTTLITMFFSVLQLVLIFQLNQKWGIPNLWFALGDDAAAEFILAIQFLPMCIMYLGLCPGGAEGTTYSMLTTFSNVAGTVAYDIGTLMTHI---WDVSNDAFAAKDYSGMWKLTLLTSVLQVLPMGLLWLIPGSPAEQRELQKSDSSNFWGGFLFLAVLFGSLVWTVIESIYEI 519
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A7S1FNC7_9STRA (Hypothetical protein n=3 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1FNC7_9STRA)

HSP 1 Score: 406 bits (1044), Expect = 1.330e-121
Identity = 203/469 (43.28%), Postives = 304/469 (64.82%), Query Frame = 1 
Query:  673 NIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVELAY 2079
            NI S+ +LAI MSYF +GVAL+LL TP+  Y I+ LGA +    V + +  +PW FKVLYGF+SDC PI GLRRKPY + GWV++++ N  L +   P     I L F+ + GY+L+DVMTDA++VER+  ES+   G +Q+ GYI R+ GS IGA  GAV+YN D W + L IS +F+I    P+  +LPL+PFL E +   E         +L+   Q  AVW+PM FVY+YNA+ L NAAW N+LVE L FS W IG+V I   +   AW G++ Y+K+     W ++Y + T +  +  IAQ++L+ G++   G+ ++ F+ GD+ + E ++A+QFLP+  MY  +CP GSEGT+YA+LTT SN+A  +A+ I   LT   G W+V+++ ++AGD SG+W+L++L   V   P+ L+ L+P++K++Q++LQ   + + L G +F+ V  LS+  T  E+  E+ +
Sbjct:  292 NISSLPNLAIPMSYFCIGVALQLLRTPLIVYFIEDLGATAAEVNVLFTVMAVPWCFKVLYGFLSDCVPISGLRRKPYFMTGWVLYVVCNLILCVAQQPSIQMCIFLVFLQTAGYMLADVMTDALIVERSAYESLENRGQMQSKGYIVRFFGSVIGATIGAVVYNKDDWKFYLPISLVFFINAAFPMIFLLPLVPFLMEIETQCEPRNFVTQCKDLFHTAQLKAVWQPMTFVYIYNAMQLANAAWMNFLVEGLKFSAWMIGIVGIVGSI--MAWFGIMTYEKYFFGSNWRIVYLWCTTIAAIIAIAQIILVFGLNRKFGLSDIAFSMGDDILIEFVIAVQFLPMCIMYLGLCPEGSEGTTYAMLTTWSNLAGTIAFDISTALT---GVWDVASETIQAGDYSGVWKLSLLCGVVGPLPLVLLGLIPKDKEDQKKLQDDGTRNWLCGAIFITVMILSLFVTFTESIYEIYF 755
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A1Z5K9Z9_FISSO (Uncharacterized protein n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5K9Z9_FISSO)

HSP 1 Score: 404 bits (1037), Expect = 1.430e-121
Identity = 207/468 (44.23%), Postives = 302/468 (64.53%), Query Frame = 1 
Query:  682 SMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWE---DKRPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVELA 2076
            S+ +LAI MSYF +GVAL+LL TP+  Y I+ L A      V + +  +PW FKV+YGF+SDC PI GLRRKPY + GWVV I+SN  L I   P     I+L F  + GY+L+DVMTDA++VER++ ES  K G +Q+ GYI R+ GS +GA  GA++YN D W W L I  +F+I    PL  +LP +P+L E   D  PK      R   EL+   Q  AVW+PM FVY+YNAL L NAAW N+LVE L FS W IGLV+I   +   +W G++ Y+++     W ++YF+ T L     + QL+L+ GV+   GIP++ F+ GD+ + E ++A+QFLP+  MY  +CP GSEGT+YA+LTT SN+A ++A+ I   LT +   W+VS++ + AGD SG+W+L++    +   P+AL+ L+P+NK++Q++LQ+  +     G +F+ +  L+++ T  E+  E+A
Sbjct:  211 SLPNLAIPMSYFCIGVALQLLRTPLIVYFIEDLNATPAEVNVLFTVMAVPWCFKVIYGFLSDCLPISGLRRKPYFMTGWVVFIVSNLILMINPIPSIPVCILLVFTQTAGYMLADVMTDALIVERSRYESQEKRGTMQSKGYIVRFFGSTVGATIGALVYNKDDWDWSLPIRLIFFINAAFPLIFLLPFVPYLLELETDCLPKNFWDQCR---ELFHTAQLRAVWQPMTFVYVYNALQLTNAAWMNFLVEGLKFSAWQIGLVSIVGSI--MSWFGIMTYERFFFASNWRIVYFWCTTLASAIALGQLILVFGVNRQWGIPDIWFSMGDDVLVEFVIAVQFLPMCIMYLGLCPPGSEGTTYAMLTTWSNLAGSLAFDISTALTSV---WDVSSETIAAGDYSGIWKLSLFCGLIGPVPLALLGLIPKNKEDQRKLQEDGTRHYFKGALFIALMILTLVITFAESIYEVA 670
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A835Z8G1_9STRA (Biopterin transport-related protein BT1 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z8G1_9STRA)

HSP 1 Score: 391 bits (1004), Expect = 8.320e-120
Identity = 204/471 (43.31%), Postives = 301/471 (63.91%), Query Frame = 1 
Query:  673 NIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDK---RPKE-IGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVEL 2073
            +I++  + A+  SYF VG+A+  L TP++YYL+  LGA      V   L  LPWSFK++YGFISD +PI G+RRKPY + GW ++ + N  LA  G PG  +V +L  + +CG+++SDV TDA++VER++ E     G++QA+GY  R+ GS +G+V G  +YN + WGWG++I  +F + GL PL +V P M  L E     RP +    L+   D ++T +   +V+ PM  V+ YN   +PNAAW ++LVE L F  +D+GL+ I   +  F+  GL+ YK+     GW  +Y  TT LT   ++ QLLLI  V+   G+ +L FA GD+A++E + A+QFLPV +MY  MCP G+EGT+YA+LTT+SNVA AV+++IG +LT L   W+VSN+A  AG   GMWRLT+LTS +   P+ L+  LP N ++Q+ +Q +  S   GG  FL V   S+ +TI+E+ + +
Sbjct:    3 DIWAAPNRAVPASYFCVGIAMSFLRTPVSYYLVHELGASPSQQNVVVTLAMLPWSFKLVYGFISDNFPIGGMRRKPYFIAGWFIYSMCNLLLAATGRPGVQSVALLQLLGTCGFMMSDVTTDAIIVERSKNEPEETRGSMQATGYATRFCGSLLGSVLGTCVYNKERWGWGMTIGEVFLLNGLFPLLVVAPFMWTLRESAYVPRPGDRAAALRAQCDAIFTALSLRSVFVPMAVVFTYNLFQVPNAAWRSFLVEGLKFESFDLGLIGIVGSL--FSSCGLIAYKRCFMGTGWRTIYRVTTTLTCFFSVVQLLLIFRVNQRFGVGDLAFALGDDALAEFVSAIQFLPVCQMYISMCPEGTEGTTYAILTTLSNVAGAVSFSIGTLLTHL---WDVSNEAFAAGQFGGMWRLTLLTSLIQPLPLVLMGYLPANAEQQRAMQGNKESYRWGGTAFLVVLFGSLAWTIIESLIVI 468
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A7R9U5H3_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U5H3_9STRA)

HSP 1 Score: 389 bits (999), Expect = 2.580e-117
Identity = 192/469 (40.94%), Postives = 299/469 (63.75%), Query Frame = 1 
Query:  670 LNIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDK-RPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVEL 2073
            L+++S+  LA+ M+YF +GV++  + TP+  Y+++ LGAE        IL +LPWSFK+L+GF+SD  PI+G RRKPYM++G + H ++  +LA+MGTPG   +  L+++++ G ++ DVM D +VVER + E  A  G  QA+ Y  R++GS +GA  G V +N   WGWGL+   +  I G LPLF V+PL  F+WE     K    +     ++W  VQ  AVW+PM FVY YN L +PN AW ++L   LDF  W +G+++ +  +     LG++ +K++     W  +Y  +T L+   ++ QL+LI  ++ + G+ +  FA GD+ ++  I  +QFLPV  MY  +CP GSEG +YA+LTT+ N+A  VA+  G +L+ +   W+VSN+A++  DV G+WRL++LTSC+ V P+AL+WLLP  ++EQ+ LQKS   + +GG +FL V G S+ +T   A + +
Sbjct:  134 LDLWSIEGLALPMAYFVIGVSVSFITTPLQVYMVEELGAEPEAQNTISILMSLPWSFKLLFGFVSDVNPILGWRRKPYMILGSMAHAVAYLSLALMGTPGIQVLSFLTWVATMGQIMVDVMADTLVVERAKFEPEATRGQTQATCYALRFVGSVLGASSGTVFFNAKAWGWGLTFGEVCLILGALPLFSVVPLAFFVWEKPIHEKGCKSVVEQCQDIWETVQLKAVWKPMAFVYTYNILQIPNVAWSSFLQIGLDFKPWALGIMSTAGAIMTL--LGIMAFKRFFFHTSWRYIYISSTCLSAAFSLLQLVLIFHLNRAWGLSDYFFALGDDVMAAYINGIQFLPVCIMYMSLCPGGSEGATYAMLTTLGNIASCVAFTFGSLLSHV---WDVSNEAIQGEDVGGLWRLSLLTSCLGVAPLALIWLLPHGREEQRALQKSREKTMIGGVIFLAVLGASLSWTSSHAILTV 597
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: W7TKM6_9STRA (Folate biopterin transporter n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TKM6_9STRA)

HSP 1 Score: 382 bits (982), Expect = 9.960e-115
Identity = 194/463 (41.90%), Postives = 297/463 (64.15%), Query Frame = 1 
Query:  670 LNIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGVLKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVE 2058
            +++YS+ + A+ MSY+++G A+    TP+  Y ++ L        +   +  LPWSFKVLYG +SDC PIMG RRKPY +IGW   +  N  LA +G P  NA+I + F S CGY+L+DVM DA++VER++ E   ++G++Q+ GY+ARY+G+ +GA  G +LYN   W WGLSIS+++ + GL  + LVLP    L +  +  E   LK    ++W +VQ+  ++ PM F+ +YN L++PNAAW N+L+  L F+ W +G++ I A V  F+WLG+  Y+ ++    W  +Y  +T LT   ++ QL LI  +++  GIP+L+FA GD+A +  I ALQFLP   MY  +CP G+EGTSYA+LTT+SNVA A+   +G ++T   G W+VSN AL AG+ +G+W+L++LTS +    + L++LLPR+   Q+ +QK       GG  F+    ++  +TIV+
Sbjct:  129 ISMYSLQNSALLMSYWTIGFAMTFTGTPLTAYAVNKLNVGPAQLNIAGTMLALPWSFKVLYGLLSDCVPIMGKRRKPYFVIGWSAFVAMNLGLASLGEPSLNALIGMGFFSVCGYMLADVMCDAIIVERSKLEPEGRVGHMQSVGYVARYVGNVVGATLGTILYNEKEWHWGLSISSIYLLNGLAAVVLVLPFTYHLSDPNQVLEARSLKEQLGDIWKMVQRRTIYVPMSFIAVYNMLLIPNAAWSNFLILGLKFTPWMLGIMFIVATV--FSWLGITFYRAFLMPYSWRWVYIISTSLTVFFSVLQLSLIFRLNARWGIPDLIFALGDDAAANFITALQFLPAVTMYIGLCPAGAEGTSYAMLTTLSNVAGAIGSDLGTLMT---GIWDVSNTALAAGEWTGLWKLSLLTSLLQPLGLCLLFLLPRDVAHQKAMQKCDKRDWWGGFGFVTFLVVAWTWTIVQ 586
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: D7G1P4_ECTSI (Biopterin transport-related protein BT1 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G1P4_ECTSI)

HSP 1 Score: 377 bits (969), Expect = 7.090e-114
Identity = 195/476 (40.97%), Postives = 304/476 (63.87%), Query Frame = 1 
Query:  673 NIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGV--------LKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVELA 2076
            NI+++ + A+ MSYF VG A+  L TPI+YY+++ +GA  G   +   L  LPWSFK++YGFISD +PI G+RRKPY ++GW+V++++N  +A    P    + + S I S G++LSDV TDA++VER++ E     G++QA GY  R++GS +G+  G +LYN D WGWGLSI  LF++  + P   VL + P++W  +    +          L++   E++  +++ AV+ PM  +++YN L +PNAAW ++LV  L FS++++G++ +   +   A LGL+ YKKW     W  LY +TT +    +  Q+LLIL V+   GI +L+F+ GD+ +++ + ++QFLPV +MY  MCP G+EGT+YA+LTT+SNV+ A A+ +G + T   G W+VSN+A   GD SGMW+LT+ TS +   P+ L+  LP ++ EQQ LQK+   +  GG V L V   S+  T+V +   L+
Sbjct:   69 NIWAVQNRAVVMSYFCVGFAIRFLTTPISYYMVNVIGASPGQQNIMLTLAQLPWSFKLVYGFISDNFPIGGMRRKPYFIMGWLVYVLTNLYVATKEVPSIQLLAVGSLIMSMGFMLSDVTTDAILVERSKHEPAETRGSMQAIGYSVRFVGSLLGSTMGLLLYNKDEWGWGLSIQQLFFLNAIFP---VLFMGPWVWSLRETAVVTDGNVPIEQRLRQQCTEVFRALEQKAVYGPMGLIFIYNLLQVPNAAWRSFLVIGLSFSNFELGVLGVIGSL--MASLGLLAYKKWFFHSSWRKLYVWTTLIVSFFSAFQILLILRVNKMFGIGDLVFSVGDDCIADFVSSIQFLPVVQMYIAMCPDGAEGTTYAILTTMSNVSLAAAFTLGTLFT---GIWDVSNEAFGRGDFSGMWKLTLFTSLIQPLPLLLIRRLPASQSEQQALQKTGLRNRYGGYVLLTVLFGSLFGTVVVSIKSLS 536
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BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Match: A0A7S1TWA3_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1TWA3_9STRA)

HSP 1 Score: 353 bits (907), Expect = 3.120e-104
Identity = 194/528 (36.74%), Postives = 304/528 (57.58%), Query Frame = 1 
Query:  496 SGVKRRPSLPALKQLDPYATANGVAIRTRNRLARALCCSTVVRWFGRVRNSPQHSNDDLNIYSMASLAIAMSYFSVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISDCYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYLLSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNTDTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGV--LKRHTDELWTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNISAQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSSSLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTTVSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAVTPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAVEL 2073
            +G   RP+   + +   YA A+G  + T + L R    +  +        SP  +    N+++  SL +  +YF +G+A   + TP+  Y++  L AE        +L TLPWSFK+L+GF+SD  P+ G RRKPYM+IG ++H +S   LA +G P   ++  L ++++ G ++ DVM D + VER++ E     G +QA+ Y  R+ GS +GA  G ++YN D WGWGLS + + ++ G+ PL  V+P    +WE K   E G   +     ++W  V   AVW PM FVY+YN + +PN AW ++L   L F  W +G++  +  +  F  LG+V +KK+     W  +Y  +T L    ++ QL+LI  ++  LGI +  FA GD+ +S  I  +QFLPV  MY  +CP GSEG +YA+LTT+ N+A  VA ++G++ T + G W+VSN A+E GD+ GMW +T+ TS ++  P+ L++LLP   + Q ELQ +   ++LGG  FL     S+ +T  EA + +
Sbjct:   88 AGTLLRPTPEYMPEPRAYAHASGGGLETDSLLPRHGKDAAAL--------SPPRAKL-ANLWAPVSLGLPAAYFFIGIATSFITTPLQVYMVQDLDAEPAAQNTLNVLTTLPWSFKLLFGFLSDVQPVFGARRKPYMIIGSLMHAVSFLMLAALGEPSMQSLSTLMWVATMGEIMVDVMADTLAVERSRYEPSEGRGQMQATCYALRFFGSVLGAGTGTLVYNKDAWGWGLSFAQVCFVLGVFPLLFVVPFAYMVWE-KPLSEAGAKSVPEQCRDIWNTVTLDAVWMPMTFVYIYNVMQIPNVAWSSFLQLDLGFPPWALGIMTTTGAIMTF--LGIVAFKKFFFKTSWRYIYISSTLLCTTFSLLQLVLIFHLNRGLGISDYFFALGDDVMSAYINGIQFLPVCIMYMKLCPGGSEGATYAMLTTLGNIALCVASSLGNVFTYIPG-WDVSNAAIERGDMYGMWHITICTSVLSTLPLMLLFLLPHGHEAQLELQANKHRTTLGGIAFLVALIGSLTWTSSEAVITV 602
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1.291.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LI15_ECTSI1.070e-29071.86Folate/biopterin transporter n=2 Tax=Ectocarpus Ta... [more]
A0A835YTY0_9STRA9.040e-13850.00Folate/biopterin transporter n=2 Tax=Tribonema min... [more]
A0A6V1WMI5_HETAK2.360e-13446.34Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S1FNC7_9STRA1.330e-12143.28Hypothetical protein n=3 Tax=Corethron hystrix Tax... [more]
A0A1Z5K9Z9_FISSO1.430e-12144.23Uncharacterized protein n=2 Tax=Fistulifera solari... [more]
A0A835Z8G1_9STRA8.320e-12043.31Biopterin transport-related protein BT1 n=1 Tax=Tr... [more]
A0A7R9U5H3_9STRA2.580e-11740.94Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]
W7TKM6_9STRA9.960e-11541.90Folate biopterin transporter n=2 Tax=Monodopsidace... [more]
D7G1P4_ECTSI7.090e-11440.97Biopterin transport-related protein BT1 n=2 Tax=Ec... [more]
A0A7S1TWA3_9STRA3.120e-10436.74Hypothetical protein n=1 Tax=Phaeomonas parva TaxI... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1contigP-littoralis_Contig1:1364837..1391617 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LI15
PFAMsBT1
Model size4028
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons12
Evalue1.23e-302
EggNOG OGs29S8M@1|root,2RXD7@2759|Eukaryota
Ec32 ortholog descriptionfolate/biopterin transporter
Ec32 orthologEc-04_002850.1
DescriptionBT1 family
Cds size1818
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789319.8667853-UTR-P-littoralis_Contig1:1364836..13667791680789319.8667853-UTR-P-littoralis_Contig1:1364836..1366779Pylaiella littoralis U1_48UTRP-littoralis_Contig1 1364837..1366779 -
1680789319.9968405-UTR-P-littoralis_Contig1:1374949..13751321680789319.9968405-UTR-P-littoralis_Contig1:1374949..1375132Pylaiella littoralis U1_48UTRP-littoralis_Contig1 1374950..1375132 -
1680789320.0049605-UTR-P-littoralis_Contig1:1391533..13916171680789320.0049605-UTR-P-littoralis_Contig1:1391533..1391617Pylaiella littoralis U1_48UTRP-littoralis_Contig1 1391534..1391617 -


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

Feature NameUnique NameSpeciesTypePosition
1680789319.880135-CDS-P-littoralis_Contig1:1366779..13669501680789319.880135-CDS-P-littoralis_Contig1:1366779..1366950Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1366780..1366950 -
1680789319.891837-CDS-P-littoralis_Contig1:1368123..13682181680789319.891837-CDS-P-littoralis_Contig1:1368123..1368218Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1368124..1368218 -
1680789319.9086626-CDS-P-littoralis_Contig1:1368656..13687661680789319.9086626-CDS-P-littoralis_Contig1:1368656..1368766Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1368657..1368766 -
1680789319.9209692-CDS-P-littoralis_Contig1:1369137..13692771680789319.9209692-CDS-P-littoralis_Contig1:1369137..1369277Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1369138..1369277 -
1680789319.929294-CDS-P-littoralis_Contig1:1370257..13703471680789319.929294-CDS-P-littoralis_Contig1:1370257..1370347Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1370258..1370347 -
1680789319.9371328-CDS-P-littoralis_Contig1:1371033..13711261680789319.9371328-CDS-P-littoralis_Contig1:1371033..1371126Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1371034..1371126 -
1680789319.9514601-CDS-P-littoralis_Contig1:1371976..13721871680789319.9514601-CDS-P-littoralis_Contig1:1371976..1372187Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1371977..1372187 -
1680789319.9600549-CDS-P-littoralis_Contig1:1372682..13728021680789319.9600549-CDS-P-littoralis_Contig1:1372682..1372802Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1372683..1372802 -
1680789319.9699628-CDS-P-littoralis_Contig1:1372974..13731861680789319.9699628-CDS-P-littoralis_Contig1:1372974..1373186Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1372975..1373186 -
1680789319.979274-CDS-P-littoralis_Contig1:1373534..13737301680789319.979274-CDS-P-littoralis_Contig1:1373534..1373730Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1373535..1373730 -
1680789319.989316-CDS-P-littoralis_Contig1:1374569..13749491680789319.989316-CDS-P-littoralis_Contig1:1374569..1374949Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1374570..1374949 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1.291.3prot_P-littoralis_Contig1.291.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1 1366780..1374949 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1.291.3

>prot_P-littoralis_Contig1.291.3 ID=prot_P-littoralis_Contig1.291.3|Name=mRNA_P-littoralis_Contig1.291.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=606bp
MSRRPSVETGLKDNGGRGGGGEDERTPLLSGSPPFAGAGSTRGTGYNGGS
QEDDDDDESPLLPSPAAAAAAQAATSSGVKRRPSLPALKQLDPYATANGV
AIRTRNRLARALCCSTVVRWFGRVRNSPQHSNDDLNIYSMASLAIAMSYF
SVGVALELLYTPIAYYLIDYLGAESGVYTVWYILFTLPWSFKVLYGFISD
CYPIMGLRRKPYMLIGWVVHIISNSALAIMGTPGANAVIILSFISSCGYL
LSDVMTDAMVVERTQRESMAKMGNIQASGYIARYLGSAIGAVGGAVLYNT
DTWGWGLSISTLFWIQGLLPLFLVLPLMPFLWEDKRPKEIGVLKRHTDEL
WTLVQKTAVWRPMIFVYLYNALMLPNAAWYNYLVESLDFSDWDIGLVNIS
AQVCVFAWLGLVIYKKWMGDVGWPMLYFYTTFLTFVATIAQLLLILGVSS
SLGIPNLLFASGDEAVSEVILALQFLPVTRMYAVMCPTGSEGTSYALLTT
VSNVAYAVAYAIGDMLTDLGGSWNVSNDALEAGDVSGMWRLTVLTSCVAV
TPMALVWLLPRNKKEQQELQKSSSSSSLGGRVFLWVSGLSILFTIVEAAV
ELAYA*
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mRNA from alignment at P-littoralis_Contig1:1364837..1391617-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1.291.3 ID=mRNA_P-littoralis_Contig1.291.3|Name=mRNA_P-littoralis_Contig1.291.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=26781bp|location=Sequence derived from alignment at P-littoralis_Contig1:1364837..1391617- (Pylaiella littoralis U1_48)
GACTAACACCCATCACGCATCGAGACTACAACAGGGCACCGGCTGCTGCT
TCACCGAAGCGTGGTTTTCCTTGGAGTGAAGGAGGTAAGTGAGAGCTTTC
GAGCACTCAAGCTGGTCTGATCTGCAGGTACGACAGGTTGCCGTAAAAAT
GTCGAATGCAGGATAGGTACTTCGCATCTCCTGTTCGAGGATCGGATCTC
TCTCGGGGAGCGAGGGATGGAAAATGAAGTGGGTCTGGCTTTGTACACAG
GGTAGTTGTTCCAGGTTCACTCCCCCTAGCTTCTCTACTCTATGTCGACC
CCCTCGCAGGGTGATCGCTGGAGTCATTCGCATCTGCTGTCGTGTTGGAC
TGCGTTGGCCAATCGACTGCTGTTTGCGAAGTTTGTATACACCGGCGGTA
CTTTTACCTACCTCACCTGCTGTATTGTTGTCCTTGACATAACGAAGTCA
CACAAAGATCTAATGCTTGCACGGCACTGGCACATTTCATGGATCTACGC
ACAGCAGTACGTACCGGTAAGTGAACGTTCGATACGATGCTCCGCATCCG
TGAGTACCTGTGCGCAGAGGTTCCTTGAGATGGTGAGGTTTATTTTTTTG
AGAGAGGTTGCTTCCTTCCGTGCGGGGAATGACAAATAACACACAAAGGA
TTGCTGAATCGCAGTTGTTGGTTGGAGTTGTGTCACAGCAGTATAGTGGA
TGTCCCGAAAGGTACGTAGTTAACGGGGTTTCGACCTAAGAGGACTGCTG
TGTCACAGTGTGTGGGTCCCGAAAGGTACTTCACCGGAATTCGACAGAGG
AGGATTGGACCGACAGCAGGAAAAGAATCCAGAGGAAGCAGGAGCAGGAC
GAAGGGCTGTGCGTGCACTGCCTCAGGAGTTCCTGTGTGTGTGTGCTGGT
TTTGCTTAGCAGTTGGTACGATTATAGACTGCTGTACGCTGCTGCTGCTG
CTGATGCTGCTGTAAGAAGCACGAGCACCCAGCACACCAGGCCGGAGCAG
GCCCGAGACACATCCGAAGATTAGAGGGGGGGTTTCCACACGGGCGCCTT
CATTATACCGATATTCTCGGTATTCTGCTGTTCGTATCCCCGGCGACATT
TTTGCATTGTAGTGGAGATGTATGTCCCTGACATGGGCGAGAGACCCTCC
CCCTATCCGCTAGAGTAGATATCTGGGAATCGATGATGACCGGCATTCAC
TGAACCCCCCTTTTTTTCGGGAGAACCCATTTTTTTCGGGAAAAGAGTGT
TGGTTGCTCCAGAAAGCACGCCCAAAAGCACGCACCGACCCATCCTCGTA
CTCCTCGAACCCAACCCGATCCATTCATTGTCACTTCCACCCAGCGAACG
CTCACAACCCAGCTGTATGCTATAGTCTGATGTCAAAGCAGCAGTAAGCG
CCAGTATTAGTTCCAGGAAGAGGACGGGAGAGGGCTGTGAGTGCTCTGCA
TATCGTTAGGGGCTCAAACCTGGTTGTTGTTACTGCATACAGCAGAGTAC
CAGTATTAGTTCCAGGAAGAGGACGGGAGAGGGCTGTGGGTGCTCTGCAT
ATCGTTAGGGGCTCAAACCTAGTTGTTGTTACTGCCTACAGCAGAGTACG
GCAGTGCCGTATGAGGTACGATTACTGCTGACTCCACGAGTACCGTAATT
GTGCGGGTCATCGCACCCCTCGGGGTTTTGGCACCCATCGGGGTTATGGC
ACCGGGGTGCGAAAAAAAACACGAGAAAAAAATATTTAATTGTATTTTCG
CACCCCCGTCGGGGTTATCGCACCCGGGTGCGAAAACCCCGACAAAAATT
CAAAATTGAGTGCTGCGGTGACGCGCCACGCCAACATCGTATGTATGTAC
CGTATGCAAACCTACCGTATGTTTCTTCCAGGTAGTTGCGATCGGTGAAA
GATCAATCCATCGCGTATCATTATCGCGCCGACGCACGCGTTCAAATACC
GCAAGTCATCGTATTAAAACTAGGTACCGGTACCTGCCAACCTGACAAAC
ACCGTTCCGACAACGAGGAGCGATTGGTTCAACACACACCGATACAAAAC
CGACATTGCACGGGACATTTACCTAAGGCAAACAACACTCCGCACCATCA
GTGTTCATCCTTGTGCCACACGCCGCACCCAACTACGCCGTTCATTTACA
ACAGAGCGGGTGGTAGCTGGGGGCCAGTGAGCCGCTGTGGTGGTATTCAG
TATCGCACCCATCGGGGTTATCGCACCGGGGTGCATGTGTGTAGCACCCA
TGCCCCAGTAGGGCCGGAATATTTGATTCAGCTCCGCACCCATCGGGGTC
ATCGCACCGGGGAGCGCAAAAACCACCAAGAACGAAACATTTAATTGTAT
TATCGCACCCCGCCGGGGTTATCGCACCCATCGGGGTTATCGCACCGGGT
TGCGAAAAAAAAATCAAGAAAGAAACATTTAAAATCGCGATCGCACCCGG
TGCGATGACCCGCACAATTACGGTAGGTAGGTGACCACACACAGCAGTAC
CAGGACGAGAAGGCCACACCACACACAGCAAATGGACCCTTGATACTCCA
GAGTAAGAAAGATAAAGAGGTTTTCGAACGATATCCCGACGTAACCCAAA
CGCCAACCCAACGAAACTACCCCAACCCAAGCCACCCTTACAATACCCCC
TAACCCAACTCAACCCAACCGACCCAACTCATCCGAACCCAATCCTAACC
AACCCAACACAACCCAACCATACGGTACCCCCCCCGACCTCCCCCAGAGG
GGGGGGCGCAACCCTACACAACTCAACCCAACCCAACCCTACACAACCAT
ACGGTACCCCCCCCAACCCCCCCCAGAGGGGGGGGCGCAACCCAACCGTA
CCCCCCCCAATCCCCCCCAGAGGGGGGGGTGCGCAACCCTACCAACCCAA
CCCAACCGTACGGTATCCCCCCCAACCCCCCCCAGGGGGGGGGGCGCAAC
CCTACACAACCCAACCCAACCCAACCGTACGGTACCCCCCCCAACCTCCC
CCAGAGGTGGGGGGCGCAACCCTACCCTACCCTACCCTACCATACGGTAC
CCCCCCCCAACCCCCCCGAGAGGGGGCGCAACCCAACCCAACACAACACA
ACACAACACCCAACACCACCCAACACAACCATACCCAACGAAACTACCCC
AACCCAAGCCACCCTTACAATACCCCTAACCCAACTCAACCCAACCGACC
CAACTCATCCGAACCCAACCCTAACCAACCCAACCCAACCCAACCATACG
GCACCCCCCCCAACCCCCCCCAGAGGGGGGGGGCTCAACCCTACACAACT
CAACCCAACAGACCCAACTCAACCGAACCCAACCCTACCCAACCATACGG
TACCCCCCCAAACCCCTCCCAGAGGGGGGGGCGCGACCCTACACAACTCA
ACCCAACCCAACTCAACCGAACCCAACCCAACCCAACCATACGGTACCCC
CCCCAACCCCCCCCAGAGGAGGGCGCGCAACCCAACCCAACCCAACACCC
AACACCACCCAACACCACCCAACACAACCATACGGTACCCCCCCCAACCC
CCCCCAGAGGGGGGAGCGCAACCCAACCCAACACAACCCAACACCTCCCC
AACCCCCCCTCCAAAGGAGCCCCGTGGTGTAATTTTGTTATCACAAATAC
TTCGAAGTAGATTTACAGTATTTTTAAAAAGCAGTGCTCCGCGCGGTAAA
GGTCGGGATGGGAAATAGTACGGGAACGGGAACGGTAATACCGTACCGTC
ACTAGCGATATTTCATTCCCGCCCGAGCGTTCCCGACCTCTCCCGTTGCT
GGTTTCTGTTCCCACATTTCCCGTCCCACCGCAACACAGAGTGCTCCCAT
CCTACTCTCTTCCCGTGCCACCATCTGCCCACTCTCTTCCCATCCCATTC
CCGACTTTGGCACTTTCTCTCCCGTCCAGCATTCCACTGGCTGTCCTCCC
AAATACCATCCCATTCCCGATTGTACATTCTATATTCCCATCCCACATTC
GACTGCGGCATGATTCATCTCCAGTTTCTCTCATCATCAGTTTCTCCCAT
CACCAATACAGCAGTACAAAGTACTTCGTTATATAACACGAATCATACCC
ACTCTGTATTTTCGTATTTTCTGCATCTATCTGGTACGACCTGCTACCAT
ATGGATCAGCTGATACTACTGCTGTGCTACAGGCTCAACAGACACCTAAT
TTCTGTGGGTTGGGTAAAGTTGTCAAAGAGTTGGAAGAACTCAAACAAGA
GCAGCGCGATGCAGCTGCTGAGGCATAATTTGCTTCAAATTCAAAGACTG
CTGCTGCTAGAGTAGAGAGCTGTAGCCGGAAATAAATGTGTTGTGGGTGG
AACAGACAAGACATTTCGATCTCCTCGAGGTCTTGCTGTGTCTTTAATCA
TTATTTTATTGTGTTCGTTCGGACGTTCGCTCGGGGAAGGGGCGAAGCCG
GTGGCAGTTTGAGTCGGCGATTGATTATATGATAGGTTGGTTCGTTTCGC
CTGCTGTTGTGGGGGGGCGGTTGGAAAATCGTTTGTATTTTTCTTCGTGT
TGTGCTCCGAAAAGTATGATTCATGAATACACTTCGTAGCTAATAAATAC
GAAAGGAATACAGAAAGAATGTCTCCTGGAGGAACCGGTTGATTGTTCAT
TTCATTTTAAGAGGGGCCAGATTTATTCGTATTCAATTTTAGAGTAATGT
GGACACCGGCTGTAGTGACATCACAACCATTGTACGCACATGCAACAAGA
TAGGAAGATACGAATCCTCTCGGGCTATTTCAGTCGAGTCCGCAGACCTC
CTGATAGCCCAGCGGACCTTTGGCTCTTCCTGTTGGTGGACAACGAGACG
ACCCTCCGGTCGCCCCGTCTGTCACTCTGACTTTTGCTCTCCTTGCTACA
TATCAACGAAGGAAACCGTTGCCCTGCCCTCGGTCGTGGGCTCATACGAC
CACTCCCTTGGGACCTTCGGAGGCTCCGTCTACTGGAGGTAGCCTAGGTT
AACATTGGCGTCGAACTTAGACACGACTAGCGGTGCTGCCGCGTCCAAGG
AGAGAGACAGCAGAGTAACAAACTTAACAAGAATGGGAAAAAACAAAAAA
TCGTCGTCGAAAAGGAAGATGGAGAAGCTGCAGGAGGCAGAAGCGGAGAA
TGGGCGCCTGCTCATTGAGCTCGCGGCGGCTCAGGCCGCCCTCATGGCGG
AACGGATGTTACCCGCGACGCGCACCGACACCCCTGCCGCCCAGGTTGAG
GACGCGTCGTCTTCTTCGCCGTTGTCTTTGTCACAGTCAGCTAGCGACTC
CAATCCGCCTACCACCTCTTCGGGTGATGGGGCTAACGGTCAGGACCCTA
CCGACGACGATGATGACGACGAAGAGGAAGGCGGCCGCTCCGACGCCGGC
TCTGTCGACGAGTGCGACGACGACGCTGATGGGAGCAACGTTCGCTCGGC
TGACCCAGGCATCGCTGGCGATCTCGTCGACAACCTGGCAACACCCACCA
CGTCCGGAACACCATCTCCGCAGGGGCTATGACCCCTGCCTACTCGGCCA
TGCTACTAAAGCATGATCGGAAAGGGACGGAACCACCAGCCTGGCTCTTG
AAGCTACTCATGCCCGTGACAGACGACCAGGTGAACACAGTTGACCGTAT
GCCTCGCGTCGAGTGCGGTAGCATTAGCCCACGTGTTGCCAGTAACAGCG
CTGACCCTGCAGCACCACAACAACCCCGCAATGTACCTCTGTTATCACAC
GTACCTTCCACGAACGACACTCTACCATCTTGCAATAACAGATCATCTAC
CGTACAACCTAGAGATCTTGAGAGCGAGACCCCCCATTTTGTCACAACAA
CAACGACAGCAGATCATCTGCCGTACAATCCAGAGACCTTGGGGTAGAAT
TTGTCCGAGTCAGGCCAGCCACCGTCGCTGCCACAGGAACGGACACTCCG
GTAGGTGCAAACGCTACACAAGGACTTAGCAACCCTGCTAGCGCACGCAC
CATGCGGGAGTCGGCTGCTCCTGTCATGACTCCAACAACCCCGCAATTTT
TCTCTCACACACAAGTCGGACCCCAACCGTCTGCTCACCAAGCAGGAACC
AACAGCCGATTTGTTTTGAAACCAACAGATTTGCCGAAGGACCTCGTTTT
TTCCGGCGAACAAACTCAGGACGTCGTTGAGCTTCTTACTCTTTTTCGCG
CTCGGGTAAAACTCAACTCAGTTGACGGTTGCCCAGATGACGTAGTTGAC
CAACGTGCCATCAAGTACTTGCCACTCCTCGTGCGAGGGGCTGCCAATGA
CAGTCTTTTGCAGTTGGCCGCAGGTACTCTTGAGTGGAGAACAGAGAGTG
TAATCTCGAATCTTCGGACTTCGGGACAAAGCACTCGACCAATCTCCCCA
ACTACTTGGACAGAGTGGTGCCAAGCATTCAGCTTCCTTTTTCCGCGCCA
AATCGCATTTCTATTTTAGCGCGTGAAATTACGACGATCAAACAAACAGA
ATCACAATCAGTGGACATGTATGCCCTGAAAGTCACGCAAGCGTGCACCC
GTCTGATCGCCGAAGCCACCCGCTCTGCCCCACCCACTACTAGCCCCCAC
GAACACGCATGGGATGTTTTTCTCACAGCTACGTTCGAAAATGGTCTCCT
TCCCGGGATCAGGCTTGAGTGTATCCGAGAAAACCCTGTTCTCAGTTTCC
AGGAGGCTCGCGTTCGCGCGAAAAAACATGAATCAAACAACTTACGAGGC
ACACCCCTTACACCCCAAAGCCCAACTACCTATGCTTCGGCCGTGTCGCA
CAACCCACAGCTGCGCTCATCAGTGGAGACCCACTCCACCAAAATTGCGA
GTCTGGTCTCCGCGGTCAAGAGTCTCCAAGAACAACGAACCCAACCTCCA
TCTCGGGGCCGCAGCCGCGACGGGAGTAAGAAGCGGGAGCACACCAAACA
CCAGGGGTCTGGCAGGACCAAAATCCTAAAGAAAGATTTTGCTCCATGCA
CATACCCCGGGTGCTACCGTCCGCACACTCACCCCGTTGAGGACTGCGGT
CACCGCAGGAACGACGAGAAGCACGGGTTCGTCCGCACCGCCGTCACGAA
GCAGGGATGACGGGGCCCGAATTGGGTCCCCTCGCCCATAGGGATTAGTA
GTACCACAGCGAGAGTCAAAACCGTAGCAGGTAGTTCGGTAACCTCCGTT
ACCAAAGTACAACCAGCAGCAGTTGCGACTCCTAGTAGTGGGAAGATGAG
GGACACACAACGCCGATCACGTAGCGTTGACCCTCGGGCAGGTACATCTA
CCGGGAAGTCTGAACCGCAGGTTGCTAACATTAGTAGCCCGGGTGTTGAG
ACGCAGGGTAGCAGTCGAAGAGAGAAACGTACTCATAGGTTGCGTTGTTC
GACCGTAGCCCCGCAAGCAAAACATGTTTCCCGTGTTCAACAATTTAAGA
AAGATGATCATTTGAGTGCCTCTGAGTTACATACTCCGCAAAACACCAAA
CGGTATGCGGAATTCCATGCATCAGCCTTGAGTAAATACCCCCAATACCC
AAGTGCAGTAAATGCGTCATCACAACGAGTACACATACCTGCTCGAGTGA
ATGATCACCCCGTATGTGATCTCACTATTGACAGCGCGGCGGACGTACCC
TGTATTTCCGCCAAATTTTTAAAAGTACATCCCACACTGAAAAACGAACC
TGTTCTACCGGTTCCCCCTGACGCAATAAAATTAAATAGCGCAGACGGTT
CTCCCCTCCAAATTCTGGGATACATACGTTTTAATCTGACCTTGGGGGAT
ACCACTTTACCTGTCGAAGCATTGGTGTTGCCGGATCTCGGACCCGACAA
AATGCTTCTTGACAACAGTATCATGAACGCATTTGGAGCTGTTCTGAACT
GGGCCACGGAGGAACTTTCTTTTACAAATTCCGTCCGAACCATACCGGCC
AAACATCGGAAAAATGGCACCAAACAACACCGCAGACAAATACCTGTACA
ACACTGTTCAGTAGTAACGTTGGACTCTACGACCGGAGCGGTGCCAGTAT
ACCTGCGTACAAAATGCTGTATCCCTCCCGGGCATGAAATTGCGGTTGAG
GTGGTCACAACTAATGCGCCCGACAAATCCATGCCTGCACTGATAGAGCC
TCGCATTATCACTGCTCACGATATTAATTTAGCTTCTTCAGACGATACAA
CGACTGCCGACAACGTGGTTGATAAGTCTGAACACATACCGGAAGCGTTT
CACCACATGGTAGTTGCAAGGACAGTATGCAACTGGTCCGCTGACGATAA
ATCTGCTGCTGTCCAAATTGCCAACCCATCCAATAAACATGTGCATATTC
CGCGTGATACAATTTTGGGTTATATTTCACCAGTGAACACAGTGGCCGCC
AAGACGGTCAGCGCAGTCAACACAGATCATAATTCATTCCGAGAGAAACG
TCATCAATTAAAAGAAGCCATGGGCAAAGCTTTTAAAGATACAACATTCT
CTCCCAAACAATGTTCACAAGTTCTAGACCTGTGCACCAGGTATAGAAAC
GTATTTTCGTTATCTGCAAACGAACTGGGGAAGTGCACTTTAACTGAAGC
AGACTTTCCGCTCGAACCCGGCACCAAACCAGTCGACCGTGCACCTTATA
GAACGAATCCCCGTGCGCAAGAAGTGATTGATACGTGCGTTGACCAAATG
GAATCTGACGGTATCATTGAACAGCGCCCCAGCCCTTGGGGATCTGCTGT
AACGATCGTAGCCAAAGCAGATGGTACCCCACGGTTTTGTGTGGACTACC
GACCGACGGTGAATCGCAATCTCATAAGAAAATCCTGGCCCATGCCAGAC
ATCGAAGCCCACATCGATACAGTCGGTGGAGCAAAATTTATTACGGTGTG
TGATGTTCAAAATGCATACCATCAAATTCCAGTCAAAACAACAGAGCAAG
ACAAAACGGCTTTTGTGACTCACAAGGGAAAGTATGTTTTCAAACGGCTC
CCCTTCGGGATCGCAAATGCTCCGTTTTTGTTTGCCCGTATGATGTCGTT
AGCTTTTGCGCACTTTGGACCCCGTAGTGGTTTACTAGTGTACATGGACG
ACATTATCTGCTGTAGTTCTAACTGGGAGAGTCATATATCACTGCTGGAA
AGTATGCTCCAAGCCCTACAAGCAGCAGGACTCACACTAAAACCTTCGAA
AGTACAGTTCGGGCCACGAGAAGTCAAATACTTGGGCCACATTCTGTCAT
CCGAAGGTATTCGTATTGGAAACGGCCGTATCAAAGCAATCGTGGATCTA
CCAACACCCACAACTATCAAAGAATTACGGTCGGTGCTTGGTATGATAAA
TTTTGTGAGAAAGTTTATACCAGACCTATCAACTGTAATAGCACCTCTGG
TAGAACTCACAAAGAAAGCAACAATAAAATCTATTAAGAAACACTGGGGG
CCGGCCCAAGATAAAGCCTTTGCAGAAGTTAAACAACTACTGACAAATGC
GCCGATTCTACATTTTCCGGATTTCAAAAAAGATTTTGTAGTACACGTCG
ATGCCAGTGAAGTAGGGGCAGGTGCATTTCTGGCCCAACGAAATGGTGAT
GACTTGAACATTGTTGCTTACTTCAGCCAACGCTTTAACGCTGCCCAACG
CCACTATGCAGCTACGTTAAAAGAGTGCTACGCCGTAGTGCTCGCCATAC
AACACTGGCGACCTTACTTGTGGGGAAAACATTTCAATGTAGTGACAGAC
CATGCTGCACTGCGATATTTATACACCATGCAAGACACGTCTAATATGTT
GACACGGTGGGCTATCGCCCTACAATCTTTCGATTTTACTGTGACACACA
AACCAGGACGGTTACATGTAGTCCCCGACACCCTATCTAGGTTATTTGCG
TTTGAGCATCAGCAACAACTTGACGCTCCAGCATTAGCACCTATTTGTAG
GAATGTACCAGAGGACCAGTCTTCGCATGCCACCATTCCTCACCGACAGT
TCCAACTGTCACCGGATCGCCTCCAAAATTTACAACCAGTACAAAGCGAT
CGCGAACTTTTTACGGTTGACTCAGTTCATATAAGTGCAACCAATGTCTT
TGAAACTATCAAGCAAGATGTGTTACGAGAGAAACAAGCCGCCGAGTATG
GTAAATATATTGACTATCTTGTCAACAAGAGTGCTCCTATCCCTGTCAAT
GAGACAACCACGACGATGTCATACTACTTCATGCAGGGCGGACTACTCTT
CAAATCGTACTTACCTGGTTATCTCCGAAAACGAAGCACCTTTGTCAACC
AACTCGTGTTACCACAAGCCCTCACAGGATTAGTGTTACACGCTTATCAC
GATCACGTTTTGTCTGGGGGTCATCTGTCGTCAAAACCAACGTACGACAA
AATCCGCCAAAAATATTGGTGGCCAAACATGAATCGCGACATTCGAAATT
GGTGTGTGGAGTGTCAAGCCTGTCAACGTCGCAAAACTCCACACAACCGC
CAAAAGATACCGACTGGACACGTACCAGTAACACGACCATTCGAACGCAT
ATCGGTAGACTTGGTTGAATACAAGGCAGACTCAGTTTCAGCAGCAGGTG
TCAAGTGCAGATACGTTCTTTCCATGATGGATCACCTGACCCGGTTCACT
GTGCTGACGCCCATCCCCAACAAATCAGCCACTACTGTCGCGCACGCGAT
TATTGATCGCATCATCGGCATCTTTGGATCGCCGGAGATGTTACACTCCG
ACCAAGGCCCTGAATTCGAAAATAAGGTAATCCATCAGTTACAGAGTATT
CTCAAGTTCAAGAAAACTCGAACGACACCATACCGCCCACAAGGCAATGC
CGTGTCTGAACGCGTACACTCAACCATGCACGCAATGCTTGCCATGCATA
GTTCGATGAATCGCGATAACTGGGCTTCCTTACTTCCATTTATACAACTG
GCACATAACACATCGTTCAGCTCCACCATGCATGAGACTCCTTTCTTCCT
CATGTTTGGTCGACAACCACGCTTACCAGTTGACATCATCCTTGGCATTC
CCCATGTGGGAACCACAGCAGAAACAGAGGACTTCACGAAAGATACACGT
GACAATTTGCAGATTGCTTTCGAACTGGCGCGTCGTAACCTCAACGAACG
TGCACAGAAACAAGCCGATAACAACGCTAAACTGCAATCTTACCCGGTAT
TCAAGCCTGGAACCCAAGTGCTTGTATACAGACCATACCAGGACTCTGAT
GGACCAAACCCAAAACTGCTGTTACCTTGGCGAGGACCCTATGTGGTGTG
TGCGAAACTCTCACCCATAGTATACCGAGTACGACGTCTCAACGAATCGA
GAGAAGTCTCAGTCCACCTTGCCCACATGAAACGTTACCACGCGCGGAAT
ACACCTCCAGCACCTGATTTTGACAAACTGTCCGAATTTTTCCTGGGACA
CACCATTCCGTTACCCGCGTTGGACCATCCTGACGACATACAGCCACAAA
TTGAGTCATATGTGGTGGATAGCATAGTTGACCACAAGAGTGGACGGGGC
CCGAAAACCCCGTTCAACTACCGCTACCGTATACGCCTGCGAGGATATGG
GCCTGAATCAGACCTCATGTACCGTGCAGAAGAAATTCCACAATGTCAGG
AACTTATAGCTGCCTACCGAACCCGCTGTGGTTTAGACATCGCGCCTCCT
AAAAATACCTTGCCTCGCAACCCTACACGGAAGGCTGATGCTTCATCACC
TCACCCGCCTAGCAAGCGACAGCGCACGCAAGAAGACAGGAGAAGATGAG
CAACAATAACAACAAATGGAGCGCTCCAGATACCCCGTATATTATACGTC
CGTTGCTCAGCAGCTCAATATTATTACGAAGAGATAAAATATTTTTATGC
GACATTTATGGCGGGTCCATAAACTAGCGACGGTGAAGAGGGTCATCACG
CCTTGTATGATACCCTATTAGCATCTTGTTGGGAGATGCTGGCAAGGAGA
AACACACAACTTTTTATATTTGACAAGCGCATTTCACGAACAAAGGGAAC
AATACACAACCACGTTTACTTATCACGTCTCCGAATTTCGGCAACCTGAC
TTTCAGAGAAGCAGGGGCGGCCCACTCATGTGAACATGCCCCGGATTTTT
GAAAGGTGGAAGCTAATAAGATACAGGAGACCACACTCACGTGAATTTGT
CCCCGGTTTTCGAGATACCAATAAAGCTGTCAATCCACCGTTCTCTACAT
GATTAACCATGATCTCCGTCGAAGGTTCTGTCCGAATCCTTCCACAGGAG
AGCCATTGTCGTTAATCACGCCAACTCGGTACGGCCACGCGACCTAACAC
CGAATACTACATCTCAACGAGATGCACTTACTTCCGACTGATGGACGATT
GATCACCGCCACGACCGGAAGCAAACCCGACCATAGTTACGACGTAACTA
TTAGCAAGATACTACTTGAGCTATCGCAGTTTGCGTGCACGCTGACTGTC
ACACATATAGCCAAGAACAATTTTTCTGCGCAAATCATTTTTTGATTTAG
CGGAACACGACCTGTGTGGGGCACCGCATAAGCTTGTTGTGTTGAGAACC
ATCTCCAGAATTATTATACACATTTATATTAACACCATCTTTTGTATGAT
GCATCATAGTTGCAACGTCCGACGACCACGTGTTTACTCAATGCGATAAC
CGTTACTTGGGCATTCCTCTATGATGCCGCTTACAATTTGGTAGTGTAGT
AACTACATCCGGTTCATTCCACAAAGAGTGTCATTCACTTACTTCCTTCA
TTTCGTCACAAATCATCCTTAGCAAAGATGGATTTGAGACGCATAAAGAG
GGGGGTGATGTGGACACCGGCTGTAGTGACATCACAACCATTGTACGCAC
ATGCAACAAGATAGGAAGATACGAATCCTCTCGGGCTATTTCAGTCGAGT
CCGCAGACCTCCTGATAGCCCAGCGGACCTTTGGCTCTTCCTGTTGGTGG
ACAACGAGACGACCCTCCGGTCGCCCCGTCTGTCACTCTGACTTTTGCTC
TCCTTGCTACATATCAACGAAGGAAACCGTTGCCCTGCCCTCGGTCGTGG
GCTCATACGACCACTCCCTTGGGACCTTCGGAGGCTCCGTCTACTGGAGG
TAGCCTAGGTTAACAGTAAGCTATTTTTAAGAATATATAATAATACGGGA
AAATGAACAAACAAAAAATCAGGAAAAAATACACAAGAATACATCGCATC
ATCTGCAAATAAATGCCATGCTTCGAAGTACAATAACTACTCAATCAAGT
AGTAGTTTGGTCGAACTGAATGTACGACGCGATCTGCTCTCATTATTTTT
GGTGTATCCTGTTTTTTTTTTTTCTGAGTCAGACATGTACATACATTACA
CACAAGCACCGCTGAAAAATAGCAGTGGAAGCGATGAAAGACACGAAGAA
TCGAGCTCTCTGTGCCCCCCGACATGTTACCGACTTCTTTTCCGACTATT
TCCCGACTCAGTTCCCGACGTACTTCCCAACCGTTCCCATCCCACCGAGA
AATTTCGAATTCCCATCCCATTCCGCCAGCCTACTGACTTCCCGCGTTCC
CATCCCATTCCCATCCCGCGGTACGCGAACGGGAACATTTTCCCGTACCG
TGCTCGGGAACGCCCACAAAAAATTCCGCCTGCGGCGGGCAAAACGTTAC
CGTACCGCGCGGAGCCCTGCAAAAAAGGCTTGAGGGGAGACTCCCCCGAA
AATGCGGCAGGACCAATCGAAAATCGATTGGGGACGGACAAGGCCGGTGC
TTAATAGCTCTTGTCACGCGTTTTGGGCCCATTCAAAAAGCAAAAAGCAA
ACTCAGAATATGTCACTGACCATCGCCCTGGTTTGCCTTCGCCTTGGTCT
GTCACGGCCCTGGGCCCTGGCTCGACGTACGAAGTACTTCGAAGTACTTC
GTATATGGTTATGGTTGAGGTTTGTCTTTTTTTTTTTTTTGTCGCACTGT
TTCCAATTTTTGGTTTTTCTTTCGAACCTGTTATTTTTTTTCTGTATTTT
GTTTTGTACTTTGGCCACCACAGACGGTACCCCAGCGGTACCCTATCTGA
TTTGACTGTGGGTGATCATAGTCCATATATTTTCTTTTTCTTTTTTTCCT
CCTAGCACGATATGTGCCTGGTTTGTGACCACGGGCTAGACTGCGGCGGT
AGTGGGCTTATGTGAGAATCAACAACAACAACAACTGATAGGTCAACAAT
CCATCCGCCCGCACCACGTTTTGGATTTCAGTTTATTCTTCCGAAACGGG
AAGGGAAGTAAAAAGCACTTTCCTTCCCGCCAATAGGTCAAAAACGCGGC
TCAAAAACGAAAAGACCTAGAACACGAGACAGAGAGGTGTTTGCTGTGCA
TTCCGGGAGCACATGGTGCACGCTATGATACATATGTTTGCTCATCTGAC
CACAGCACAACGTGTAGACCCCGGCTGTACATATGTACTAGCTGCGGAGA
AAGCTGGCATCAGGCAGAATACAGATCACTTTGTTTGAGCGAATTCCGAC
CAGAATCCGGAAAGCAGCACTCAAGTGTGTAGAAGTGTGCAGGAACTTTG
TTGCTCAACTGCTGTTTGCGGAGCTGACACAGCCGCTACCTCCAAAAAAG
GGCAGATGTGCAACACGTACATACTCATCCGCCGAGTTTTTCGGTCATCG
ATCTCAAACAAAGAACTACCAACGCGGCTGAGTCAGGGCGACGTGGAGCA
CCATCGTCCTCTTCGTTTGAGGCACGACAGCTCCCGCACGTGTCTTGAAA
TCGACACGGCATGCTCATATCACACACACCATCTGTCTGTGACTGCTGTT
TGGCTGCTGTTTTTTGTGCATCCACTTTGGATTTCGGACAAAGGAAAGCT
GCAGCAGATCGGACTCAACACGGAATCCAAATCCGAATCCAATTTTGTTA
TTGATTTTGAATACGGTCAAAAGAGTGACAAGAGCTACCCTGACGGCAGT
TTTGGAAGGGGAAAATCTGACCAGTATTTTGTTTTCATAAGACAAATGTA
AATTTTACTGGTGTTCAAGATACCAGTGGATCGGGATTGAGAAGCAGTGC
ATTGGAGGGCCGCTTCTCAGATCACTGCGTTAAGCCGTCTGCGTTGCTGT
TTCGTGGCGTATGATATGCCTGCTGCTTTACAGCAGTGCTGCTGCTGCAG
AACAGCTGGTGTGCGTGTGCGCCAGCACAACGAACACAAAACGCCCTCTC
ATCATTTTTCACAAAAAGAGACCCCAATAATAACGCGCCTCCGACAAGAT
AGCTGTGCTCACAGGACACGGGCTGCGGTGACCTCAGCAGCAGTGGGTAG
ATTATATTTACCTCATCAGTTCAAGCCCTTTGTCGTAGCGATCTGTGCTG
AACTGGTGCCAATTTGTTGCAAATTGTGGCCATTATCTCGGACACACATA
CAGGCGCACCGCAAATTCAAAAATTAAATGAAGGCACCTCTCCGATTTTA
TTTTATTTTTTTATTCGCACATACACTCACACGTGCACACTACGACAAGT
CGGTTTCAATTCGAAGCAGTTCGACAAGGAACTTACACTTCGCTTCGCTC
GTGGCCTGCTCCTCAATAAAACAGCTTATTTGGCTTCACCCGTCACTAGG
TCTGTGGTGCGGGGATTACAGATCAAACTGTTGTGATATCAGTAGAGGAC
CCCACCCATGAAGCGGCAACCCGCGCGTGTGTGTCGGCACTCGGCACGTC
CAGACATGATGCTGGGGCTGAGATATCGAAGGCTTCGGCAGAAGTGGCTC
GAAAATTCCGCAAGCTGGACCTGAGCTGGACCGACACCAAAAGTTGTTCA
CTACGCCGTGCTCACCGCCACGGACCCCAACCACCTGAACTGCATGCCAT
CCGAGGTAGCTTCTGCTGTCGACCCGAAGTTCAGGAGGGTGGGGCCTGTG
GCGGCGAGTACAGCAGTGGCACGCCTTTAGTTCCGGTCCAGTTCGGGTCT
AGCTTGCGTGCTCTTTCAGCCACTGCTGCAGCCTTCGATATCTTAGCCCC
AACACCGTGTCTGGACGTGCGGACGCACACGAAGCTGGCCCATAGTTTCC
TCTACTTGTAACACATCGTTGAGCCAAATAAGCTGTTCTAACTTAATTGT
AGAGGCGTTGAAGAAATTATCTTGGAATTTATGAGGGATATTGAAGGTAG
ACATGTAATATGCATGTTTGGAGAAGCCCCTGCCGCCGCTATGTGGGATG
ACCAACAGCAGTCTTTCCCTTTCCCCACGCATTCGAACTGCTGCTGGCCG
CTCTTCCATCGAGCCCGACCGGTATCGACGCTACGATAAGGCAGCCTTAA
TGCTCGCGAGGACAACCGTTATCTAGGCACGGACCCGTCTTCACTGCTCA
TCCCTTCTCGTCCACCCTTTCCCTGTCGATCACGACGCCTCTCTCTCACA
AACACCCACCCTCGCGCCGCCACCCCATCGTGCAGGCCTTCTCGTGTCGC
GCGGGCAGGAACGAGCACCAGAAAGTAACGACAGCAAGCGGCGCACATCA
CGGACGGCTGTGGAATACTATTTGCAACCTGGGGCGGTCGGCCCGGCGAT
CGACCCCGCCGGGCGAGTAAGGCGAGCGAGCTAGCTAGCTATCATTCCGC
AAAGGGAGGGTTTGGAGGATGTCACGGAGGCCGTCCGTCGAAACGGGCTT
GAAAGACAACGGAGGTCGAGGCGGCGGGGGAGAAGACGAACGAACTCCGT
TGTTATCTGGCTCTCCTCCTTTTGCTGGCGCAGGGAGCACGCGGGGAACG
GGTTACAACGGCGGCAGTCAGGAAGATGATGACGATGACGAGTCCCCGCT
GTTACCTTCTCCGGCCGCGGCGGCAGCGGCGCAGGCGGCGACGTCATCGG
GGGTAAAACGACGACCCTCCCTCCCCGCCCTAAAGCAGCTCGATCCCTAC
GCGACGGCGAACGGGGTGGCCATCCGGACGAGGAATCGGCTGGCGCGGGC
GCTATGTTGCTCCACGGTGGTCCGGTGGTTCGGCCGCGTTCGGAACAGGT
ATAGTCCATGCAAGACCAGTGGGCTAGTGTGCCCATTCACTTTTTCCGGT
GATTTGGTGATTACCTACCGAGCTAGTTGATTCAACCGAAAACGCCACAA
CGCAAGTAATCGCCAGGCTTTGGCTCACGAATGATACGGAGTATTTTTTT
TCATTTTTTTCAGACATTTTCAAAAAAAATAAAAAAAAATCAGGGAAACT
CTGAACCCCGTATGCTTTGCAGACTGGGAAATAATTTCTGTGTTGTGGAC
AAAATGCCGAATGTCTCGCGAACTTTCGTTTCTCTTGGGAAATAAAAGTT
GCAATTGCCGCGCTGGGGTTGTAACACCTCCACATAACATGATACAAACG
AAGTACACGAGATTTCGATTCTGTAGGTAGACGCGAAGAATCATTTGTCA
GTGATACCGTCCAAAGGGGGTACCAGGTACAAGTTTCTTCTGTACAGACA
AAAAAACAATGATCACAACAACGTATCATCGCAGTCCGAGAATAAGAAAG
AAAAAAAGGGGGAGAGGAAAGAAAAAGAAGATGATAGCGTCCCAGATCAT
TTTCGGGCGGGGGGGCGTCGTGTTTTTTCTTCCATCATCGCCGCGACCGA
CCCCCCCTCTTTTCTTTGCCGGTTGTATTACACATGTTGCTTGCATTTCA
GAGACTCATTCGCACCGATGTACGTATCGCAATAAAAAGCGAAAGCGTCC
TGGACTGTGGGTCTGCGCGCGATCACGGATCATCCCGAGGGATGGATTCG
TCCGCGCCGACCGTCTCTTCTCTCCCACGTGTTATCATATCATACGTTTC
CCCTCTCTTCTTTTCAATTTCACTCAATGTTGCACAGTCCGCAACACAGC
AACGACGACCTGAACATCTACAGCATGGCGTCGCTGGCCATCGCCATGTC
GTACTTTTCGGTTGGGGTGGCTCTCGAGCTTCTCTACACCCCCATCGCGT
ACTATCTGATCGATTACCTGGGGGCGGAGAGCGGAGTGTACACCGTGTGG
TACATCCTGTTCACCTTGCCGTGGAGTTTCAAGGTGACCTGACTGACCTC
GATACGTCATATATGATACATGCGCGCGTCCACGTTTTGTAGGCGTCGGT
GCCTTTGTTTGGCAGGACCTCTCTCTCAGCCTCAGCCTCAGCCTAAGCCA
CAAAAAAAAAATAAGGTGGCTTTCAAAATCGAAACGACGCATGACAGAGA
AATGCCACCAGCACGCGGTGGTGTAAGACGTCGCCCCAAAACGCTCGGAA
AACTTTGCCCACAGGTACTTGTATATCATATGAACGTACACCACTGTCTG
TCTGTCTGTTGTCTTCCAAACCTCCACCAACGCCACCCACAACATGGTTC
ACATGATGAAAAACACGCATCCAAAACGCAGGTCCTTTACGGGTTTATAT
CAGACTGCTATCCCATTATGGGCCTGAGGCGCAAGCCATACATGCTGATC
GGGTGGGTCGTCCACATAATCAGCAACTCCGCCCTGGCGATCATGGGCAC
CCCGGGGGCGAACGCCGTGATCATCCTGTCGTTCATATCGTCGTGTGGCT
ACCTCCTGAGTGACGTCATGACGGACGCTATGGTTGTAGAAAGGTGATTT
TTTTTTTTGGTTTGTTGCGTTTGTTGTTGTCGGTTACGGTGGTGATGCTC
ACTCAGTCTGCAAAGGGATGCATGGTCAAAGATGAGGTGATGAACACTGA
GGCAAGCAACAAATCAGGACCCTCCCCCCGCGCCCTCTTCCGCCCACCTT
CCAACCCTTGCGCAGGACCCAACGAGAGTCCATGGCGAAGATGGGCAACA
TTCAGGCCAGCGGTTACATCGCGAGATACTTGGGCTCGGCTATCGGGGCG
GTCGGAGGCGCCGTCCTCTACAACACGGACACGTGGTGCGTGAACGAACC
GATGCCTGCGCGTGTGCGCGTGCCGGTAAAACAGCCCACACACGGCGACG
TATTGTTGTGGGAGTCTGAACAAGGTTGTGTGTCTTGTTTTGGCAGACTG
ATCGGGGCATGCTTGTACATGCACACGACGTGGACAATAAATACTGCCAT
GGTCTTTCACCTACTCCGGTCTGTGTCTTGTCTCTTTCTCTGTCTGTCAA
CTCGTCTTCGTCCGGTCACATCACAAAGCCGGGACTAGACTTGGCACGCC
TCCTGCCAATTGATCATCGCAAAGCATACGCGATACTATTTAAACGTGAT
CAATTGGCAAGTGCTGTAGTAGTGCGACGTGAAAGGTTTCGCAGGTTCCA
CATCCGAGTTTTCGATGTACCATTCGTGCTTTGTCGGCCGACTTTTTCCT
GCATGCACGCGGGCTCACTCCGACAAATCAATCAAAACACTCCGTGTCCG
TTTACGCTCGCTGATTGAAAAAAAAAACAGGGGCTGGGGGCTGTCTATCT
CGACGCTGTTTTGGATCCAAGGCCTACTGCCACTGTTCTTGGTGCTGCCC
CTGATGCCCTTTCTCTGGGAAGACAAGAGACCTAAGGAGATTGGGGTCCT
GAAGCGGCATACGGACGAGCTGTGGACACTGGTGCAGAAGACAGCGGTCT
GGAGGCCCATGATATTCGTGTACCTCTACAATGCGCTCATGGTGAGTTGT
TGTTGTTGTTGTTGTTGTTGTTTGTTGTTATTGGCCACTGCTGCTGCAGC
TATTGCCATCTAATTGACAAGCCATGTGCGCACCATCACTCTCTCTCTGG
CTTCTCGTTGTTTCCTTCTCTTCTCATCTTTATTTTAGTTTGTTTCCCTG
GTCAAAATTGTGACACATTTGTGTAGCAGATCCCATTCTTGTTACTCCGA
AGTACTGTTTTGAGGAAAACACTGTGTGGAGAGATCATTCGCGCCACCAC
ATGAGTCCTTACCCCATACGCCGTCGATCGCGCAAAGTACCATCGGGGCG
GCTTTCAAAGCTCGATTGCGGTACAGTACTCGTACTCCAAAGCAGAAGTG
TCGGTGCCGTGTCGAAAAGGGCGACCGGAGATGAAACCACTGAACCAAAA
CCATACCGTTGAGAACTTTCCGAACCAAAAACTTGTGTTTGGATATACCC
CCACCGGAGCTGAAATCACTGAACCAGAACCACATTGTTGAGAACTTTCC
GAACCAAAAACTGGCGTTGGTACCCCCACCGGAGCTGAAACCACTTAGCC
AAAACCAAATCGTGGAGAACTCTCCGAACCAAAAAAGTGGTGTTAGGTAC
CCCCATCGTTCTGGAGTATGTGACGGCTATAATCGAGCCTTCGACACGAG
TCAGTGGGGGGCCGGTGTGGCGTCTTGTGCGACCCGGGGTGCGACAGCAG
CGCTCGAACCCATCTGGCCGGCGGCGTTTCAGTCGTTTTTCCCTCAAGCC
TCGCAAACCGACCCCCGCCCAACCCACCCGCTCCATCTCGCCTCTTCCTA
TGTTTCCGTGCCTCCGCTATGTGCTTTGTCAACAAGCGCAGCTACCGAAT
GCCGCGTGGTACAACTATCTTGTGGAAAGCCTGGATTTTTCGGACTGGGA
CATCGGCCTTGTGAATATTTCCGCGCAGGTGTGCGTGTAATTCTAGAAAT
GCCTTTTTTTGCTTCGAAAACGATGTTGTACTTGCTTCTTTTATTGCACG
ATATTTTATGAAGATTCCTGATGTTCGCGATCGAGCTACTGTGAGAACCA
TCAACAACAACAACAATCACGCATCGGACCAGAAGCGGGAGGGGCAACGG
TGTTGGACGTAAATCCGTCGTAAAGGTATTGGTTGGTTTATTTTTATATT
ACCTTTATATTATTGCCTCACTGCTGTCTATCGCGAGGAAATCATAGTGT
CAAGGTAGGCTTTGAACACATTTTCTACGCTGTGTATTTTCTTAGGGAAC
AAAAAAGTCCGTGGAAGTCACCGCAGTTGACTCGTCCGTACCAGAAATCA
TTCATGGAGGGTTTCTCGAATTTGCAGAAGCTTGTGCAGAACTCTTTTCA
AAAGGCGTCTCTGTCTCCAGGGAAAGCGTTTCTCTTGCCTCTTGCGTCTG
TCTGCGCGTACCCCCCCCCCCCCCAACACACATCTCAGTTCCCGTTCCAG
TTCCCCTCATCGGTCTGTTTCGCATGTTTAATGGTGTCGTTCTTCCTCCT
TCTCTGCTTGTCCTCTTCCTCCTCGTCCTCCTATCCCCCCCCCCTCCCTG
GTCTGGTGCACATTTTCGGTGATCTGTTGAAACAAATCAATCAATCGACG
GAATCCCCGGTGGGGACCAGGTCTTCGCGTGGCTGGGGCTGGTCATCTAC
AAGAAGTGGATGGGCGACGTCGGGTGGCCGATGCTATACTTCTACACCAC
CTTCCTCACCGTGAGTCGTACGCACCCGCACCCGCACCCTACTGTCCTAC
TGTTTGGGCGGTGTTCTATCGTACCACTGATAGAATAGAAGTGTGTGTGC
ATGTGTGTCTTCATCTATAATACAGTAGCACAATTTTTTTTTTTCGCATG
TGATTTGTTTTTTTGAGTCGTTACGGGCTACATACACACTTGGCTGCTCA
TGAACTGTGGTAATGTTGGCGTTGAGAATCAGCAACGACAAAAAGCAATC
CGTGAATGCATTCGACGTGTCGAGAACCGCAGCATCGCTGTCACGACTTG
GTGTACCCTTCACCACCCAAGGTTACGAGACCACCTGTGATGTATATTTT
GTTCAGTGTTGGGTTGAAAGCGCTCGTGCATGTATATCCATCTGCTAGTG
TTAAGGTGTGATGAGAGTATATATAAATGCATGCGCCGTCTGGCACTCTG
TTGTATTGATACTTTAAATTAAGGTATGCGCCGACTGGTACTCTGTTGTG
TTGATGTGCTCATGTGATGACCTGTTTGTCACGGAGTACGGCTGGTCGGT
CGTGTGGTTGGTGTATTTACACAGCCGGTTGCGGTGTGCGACAAGTCGCC
ACGAGGGACTTCTCTCCCGCGTCATGCGCACAATAGGGCTGCATTTGTGC
ATATCCCTAACTTGCAGTGAAAGCTGTTCTGGTTTTTACGGAACGCCATT
TTTTTTGCAAAAGTCTCCTTTTTTTTGGCTGGAAGCCAGCGTGGCCCTGA
GACCGCAGATTTGATCTGATCTGCTTTCGACCCATGCCGGGGGGGGAGGG
GAAACCCTTTACTTGTTTTGTTTTGTCAAGAATGTCTCTCCGCCAGGAGA
CAACGACTCTTTCGATATTCCAATCTACCTCGTGAGAGGCTGCTGTTGAC
AGGCTGCCATGTCCCACACTGCTGTGTGTATTTTTGTACCCTTGAATTAA
TTGCCCTTGAGTTGCTGCCTCCGTCCCCGTGTGGCCGCAGTTCGTCGCTA
CGATCGCGCAGTTGTTGTTGATCCTGGGCGTTAGCTCTTCTCTGGGAATC
CCCAACCTGCTGTTCGCGAGTGGCGACGAGGCCGTGAGCGAAGTCATCCT
CGCCCTTCAGTTCTTGCCGGTTACCAGAATGTGAGGTCTTTCAGGAGCAA
AGCGTATGCGGTAGCGGTAGATGCCGGCGGTCTGGCTCGTTGTTCCGAGC
TTGCCATCGCAATACAAGATGCGCAGCAGCTGAACAAACATCAGAGCGCG
GGAGCATAACGTGCATGATTATTCCCGTTATCGTGGTGCGGTTCCTGTAC
TTAAGCAGCACCTTGTCTTTCATTACCCTCCCTTTTTTTGTTGTTCGCTG
TGTCCTTTTCTTGGAGTCACAGATGATGAAATGATTTTTTCGCTTCGCCC
TCACTATGCCGTACCTCTGTTGCCACACGCGATGAACCGGGCGCCTCGCC
TGCCCCCCCACCCCGTACCCCCCCCATTTATTATATTATGTGATGGAACA
GGTATGCGGTGATGTGCCCAACCGGGAGCGAGGGGACTAGCTACGCGCTG
CTCACGACCGTGTCCAACGTCGCCTACGCCGTGGCGTATGCTATCGGCGA
TATGCTGACCGGTGAGCATCATTTGTACGAAAAATGCCTGTTGTATAGCA
GTATGCATGTCACGAAAGCGCATGCGCGGAAAAGCGTCCCGTGTGGGAAC
TGGAAGGGCGAGGGGGGGGGGGTTGGCGGCAGGGATCCTCACCAGCAAAG
GAGCGAGATGCAGTGAATACTATTCACGATTGTAGGAGGGGCATGTCACG
TGGGCAGCCTGCGCACGCGCACGCTCACACGCTTTCGTGATTGCGGTCGC
CATCTCACAAAATGTAAATCAAGCACTGCTGCACAGCAGTATACAGTGTT
TCCGTATTTCTTCTTCTTTTGGAAACAAAGCAAGCCCCCCCCCTTCATTC
GCAAAGATAGCAACCTAAAAACAAAATGCGGACGAGTATACGGCCTGGTT
TCTCCTCCCTCACGCTTCCTCCGTTTGTCTCCCCCCCCCCCGAAAAAAGA
CCTGGGTGGCTCATGGAACGTAAGCAACGACGCGCTAGAGGCTGGGGACG
TGTCTGGAATGTGGAGATTAACCGTGCTGACCAGCTGCGTCGCGGTGAGT
CTGTGATACGGGAGAGGAGATGTTTCGCACTCGATCGACAGATAGGGCGT
ACAGCAAGATACTGTATGGCAGAAGTGTCAAGAAAAGAGCCCAAACGTTG
TTCGGTGGTGATACTTTTGGGGGTGGGATCGGTGCTCCACCTGGGAATTT
GTGGTCAATGGTATGCGTTTGCTGACTCGAAAGACAAAGCAACAAATAAG
GTACTGTACCCCCGACGTTCTCGTCGCTGAGTGTGACGTGTGGTACTGTG
CGTGCCTCTGTTGCACTCCGATCAACAGCGAAACTATTTCGTTTCAACAA
CAGCAGCGAAAAATATTCAGAGCGTGTTCTTACTTTGTTATTAGTTCCTC
CTTCAGCGGGAGCAATAGGCGTTCGTGATTAACGTTACCTGCTTTCCTGT
TGCGCACGATTCTAGAGATAGCTTTCGTGTGTAGTCCGAAATGTTGGATA
AAAACAAAATGCACGACCCACGCTTTCCGTTAAGATGGAAATCCCTGCTC
CGGAAAGGTGTGGCGTGGTAGCTTGTCTCAGCTCCCACGGTAAGGCCTGT
TTATTTCATATGCCGTTATTTGGCGAGGAGTGCCAAGCGTGCCCGTGAGA
ACTCGGACAAGCTCGAGGGTGAGGTGTGAGGGAAAGGGGTCACACCATCG
TGGACTGTTTTATTCTGATCCCAAAAGATTCCGTCGGCCGTTCGCGTCAG
CTGATGGCGCTCCTTTGTCCAGATATATTTCCAATAGGGTCAGATTACCC
CCCCCCCCCCCCGAGGGTCGCCACATCTGTGCGGTCTGCATGGTGTCTAT
CCTGCTATGATATGGAAGAGGATTCAATATCATGGCGAATGTAGTGCACT
ACACTTACCGTGTTTGGCTCGCTTTACCGCGGCATATCCATGCTGTTTGT
GTAATGTGTTTAGACACTAGTAAGAAAAGCCTCCTGTTTTTCTTTTGTTC
CAGGTATCATGTCACAATCGAGGCATTAAAAAACACACGAAAAAAACTTG
TTCGTGTATCTGGTATCATATCGTGCTCACGAAAACAAGTCAGTAGTGCC
GCAAATCCTCTGAGCCCTTATCTACAGCAACGCACGTTCCTGCACGATTT
CGCGGATGATAACGAACCGCTGTTCTCGTCCATGTGACATCGTATGATTC
CTTGTTGTTGCCGGCAGGTGACGCCGATGGCCTTGGTATGGCTCTTGCCG
CGCAACAAGAAGGAGCAGCAGGAGCTGCAGAAATCATCCTCCAGTAGCTC
TCTCGGAGGAAGGGTGTTCCTTTGGGTGTCCGGGCTGTCGATCCTCTTCA
CCATCGTCGAGGCGGCGGTAGAGTTGGCGTACGCCTGACGTTTTTCGATA
CGGTTTTACAAGATTTTTTTTGGGAGGACTGACGCGCACGTGCTGCACCC
CGCTGGATTTGGTGCCCCTCGCCCTGTGACTTGTTCACGACGCCTTGTCT
TTGGTGTAGTTTTACGTTTTTCGCGGGATGGACGTATACACACGTGCTGT
ATGCTGCTGGATGAAGTGCCTCTTGCTCGCCCTGACTTGGTCAGTACGCC
TGGGTTTTGACAATGATTCAACTTTACGGCTGTACGCCGCGTGCTCTGAC
TTGTTCAAGTTTGGTGTTGTGGTGGTTTCTCCTGACCCCACGTCACGCCC
TCTCAACGGCAGTCCACCTGCCGACCCAATGTTTTTGTTTCTACGCTTGT
TTGAGATCGATTTTTTTTTTGAAGCAACGCGCGACGTGGGACGGGTGGTG
TCTGCTCTGTAGCTGTGCCGTCCGATTTTTGGTTGGTGTGTTGAAGTAAG
TAGAAGCATTTTCCCTCAGAACGGGCACACGTGGTGTACGACGTTCGGGC
ACGTCTTTTTGCGGCTGGTCTGTGGCCACGGGCTAGACTTTGACGATGAC
GAGGTCACTGAGTTGAATTCTTCCCGTTGTTGCCATCATATGTGGCCGTG
CTTTTTACGCACCGGAAAAAGCAGTACCAGTCATCACATACACGATTGAA
ACGTTCTTCGCTCCCCTCTTTCGGATCGAGGTATGTATGATATCTCGCAA
GTGTTATCCAGGACGGGAACTTAACGCTGGTCTTGTTTTTTGTATACTGC
TGTAGCGAGCTGTAAGGGTGTATCGGTTGTGTTTTTCGTACCACAGGGGT
TGTGGGTATGCCTGTGCGCAACAAATATCTCACGCGTATGTCCGTCTCAA
AAGCCGGTAGTTGGTCGTGTCTTTGTTTCTTTAGTGCGCTTGTCATGACT
GCTCGCTGTTTTTTTCGTTTGTTTAAGTGCTCGTCAATCATGTAAGCATT
CATTGTTGAGGACGGATGTACAGGGCACAGGGCACAGCCTCTCTCTATGC
TGTGTGCTGAATTGCCTGTCTCTGTTTGGTAGGCCTCCCATGCACGCGTA
GTTTACCGCAGACCCTGGGGGGTCCCGATGTATGATATGTGTGGATCTAT
CAGGTACGTATGATACGATACGCAGGATGTGTTTTGTGTTTTGAGTCGGG
GTGCAAGCGAGACAGATGTAAACGGTACATTTGTCTTGCTAGTGCTATAC
TGTACGTGGTTGCCGCGCGCATAGGTAGCGCCATATGATAGGTATCGTAT
GCCGTCCGTGTTGTGACTGAACTTGGCTGTGAGGGTGAGCTCTAGGCGTT
TCTCCCCGGGGGGGTAGCTGAAGGCAGAATTCCCGCAAGTTTGGTTCTCT
GATTTGTACCTCGAGTTTTGTTTTTGTTTTGTTGTTCATTCTACTGCTGT
GGTGGTGATCTTCGGAGTACAAAATGTGTTGTGTACTGTCTTCGTATGGT
TTCCGGGCCGGGTAGGGGGGGGAGTGGTGTGTTTTTGTTGGCAAATACCG
CGTGCTCTCGCCAAATAAAAGAGACTGTTCTTCCCTCCTGCTTTTGGACA
GTATTTCTTTTTGTGCTGGTGTGTATCACATGACTGTCTGGTTTGTCCCG
AGATAAATCATATGTACTCGAAGAACCCGCCCAAGAAACTATTTACTAAA
GTAGTGTATGAAAGAGGTGTGGGTTTGTACTGGCCATTTTCGCCGTGGAA
ACCCTCAGCGGCGTTTCACGGCCAGTCTCTGCGTAGCCCCCCAAAAAACA
GCGGGACGCACAACAAGTAACGTGGGTTCGTGTCCTGTACCTACCGCTCG
ACATGCCTGGTGAATGTCTTGACTATACTGTAGCGGTTAACGAGAACTAA
CAACGACAGCAATAATTCCATGCTGCCGGGCAATAACAATAACAAAAAGT
TCTCGAAGAGAACCCATTAGGTTCTCTCTAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig1:1364837..1391617-

>mRNA_P-littoralis_Contig1.291.3 ID=mRNA_P-littoralis_Contig1.291.3|Name=mRNA_P-littoralis_Contig1.291.3|organism=Pylaiella littoralis U1_48|type=CDS|length=1818bp|location=Sequence derived from alignment at P-littoralis_Contig1:1364837..1391617- (Pylaiella littoralis U1_48)
ATGTCACGGAGGCCGTCCGTCGAAACGGGCTTGAAAGACAACGGAGGTCG
AGGCGGCGGGGGAGAAGACGAACGAACTCCGTTGTTATCTGGCTCTCCTC
CTTTTGCTGGCGCAGGGAGCACGCGGGGAACGGGTTACAACGGCGGCAGT
CAGGAAGATGATGACGATGACGAGTCCCCGCTGTTACCTTCTCCGGCCGC
GGCGGCAGCGGCGCAGGCGGCGACGTCATCGGGGGTAAAACGACGACCCT
CCCTCCCCGCCCTAAAGCAGCTCGATCCCTACGCGACGGCGAACGGGGTG
GCCATCCGGACGAGGAATCGGCTGGCGCGGGCGCTATGTTGCTCCACGGT
GGTCCGGTGGTTCGGCCGCGTTCGGAACAGTCCGCAACACAGCAACGACG
ACCTGAACATCTACAGCATGGCGTCGCTGGCCATCGCCATGTCGTACTTT
TCGGTTGGGGTGGCTCTCGAGCTTCTCTACACCCCCATCGCGTACTATCT
GATCGATTACCTGGGGGCGGAGAGCGGAGTGTACACCGTGTGGTACATCC
TGTTCACCTTGCCGTGGAGTTTCAAGGTCCTTTACGGGTTTATATCAGAC
TGCTATCCCATTATGGGCCTGAGGCGCAAGCCATACATGCTGATCGGGTG
GGTCGTCCACATAATCAGCAACTCCGCCCTGGCGATCATGGGCACCCCGG
GGGCGAACGCCGTGATCATCCTGTCGTTCATATCGTCGTGTGGCTACCTC
CTGAGTGACGTCATGACGGACGCTATGGTTGTAGAAAGGACCCAACGAGA
GTCCATGGCGAAGATGGGCAACATTCAGGCCAGCGGTTACATCGCGAGAT
ACTTGGGCTCGGCTATCGGGGCGGTCGGAGGCGCCGTCCTCTACAACACG
GACACGTGGGGCTGGGGGCTGTCTATCTCGACGCTGTTTTGGATCCAAGG
CCTACTGCCACTGTTCTTGGTGCTGCCCCTGATGCCCTTTCTCTGGGAAG
ACAAGAGACCTAAGGAGATTGGGGTCCTGAAGCGGCATACGGACGAGCTG
TGGACACTGGTGCAGAAGACAGCGGTCTGGAGGCCCATGATATTCGTGTA
CCTCTACAATGCGCTCATGCTACCGAATGCCGCGTGGTACAACTATCTTG
TGGAAAGCCTGGATTTTTCGGACTGGGACATCGGCCTTGTGAATATTTCC
GCGCAGGTGTGCGTCTTCGCGTGGCTGGGGCTGGTCATCTACAAGAAGTG
GATGGGCGACGTCGGGTGGCCGATGCTATACTTCTACACCACCTTCCTCA
CCTTCGTCGCTACGATCGCGCAGTTGTTGTTGATCCTGGGCGTTAGCTCT
TCTCTGGGAATCCCCAACCTGCTGTTCGCGAGTGGCGACGAGGCCGTGAG
CGAAGTCATCCTCGCCCTTCAGTTCTTGCCGGTTACCAGAATGTATGCGG
TGATGTGCCCAACCGGGAGCGAGGGGACTAGCTACGCGCTGCTCACGACC
GTGTCCAACGTCGCCTACGCCGTGGCGTATGCTATCGGCGATATGCTGAC
CGACCTGGGTGGCTCATGGAACGTAAGCAACGACGCGCTAGAGGCTGGGG
ACGTGTCTGGAATGTGGAGATTAACCGTGCTGACCAGCTGCGTCGCGGTG
ACGCCGATGGCCTTGGTATGGCTCTTGCCGCGCAACAAGAAGGAGCAGCA
GGAGCTGCAGAAATCATCCTCCAGTAGCTCTCTCGGAGGAAGGGTGTTCC
TTTGGGTGTCCGGGCTGTCGATCCTCTTCACCATCGTCGAGGCGGCGGTA
GAGTTGGCGTACGCCTGA
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