mRNA_P-littoralis_Contig786.3.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig786.3.1
Unique NamemRNA_P-littoralis_Contig786.3.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: D7FTG6_ECTSI (MFS domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FTG6_ECTSI)

HSP 1 Score: 840 bits (2169), Expect = 2.830e-292
Identity = 451/599 (75.29%), Postives = 500/599 (83.47%), Query Frame = 1 
Query:  820 MGGASSSRRSGGSGSTV---YDVVEREEPLLGEEAVNGEAKQPRDQSKATDLLWTAGDSASLRPGGDASLGPAFVRHGRCGGGEEGKDGQVWLSDGKGRSSSSGSSSRGGKW--------TISGRPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITADLASSSPPSLPGSRGLVAEGGPRHVPLAGSDEE 2583
            MGGASS    GG        Y+VVEREEPLL E    G  ++  D+S A  LLW+AGD+ SLR GGD+SLGPAF +HGR G         V  + G+G S  +    RG           T+SGRPLVYLCA CSSLCSILLGYDVGVMSGAKEFI+PDLGLSTVQNEVMVGSLNIVAAFGGL+AGK ADRLGRKPTTALAC VFITGAT+M++SH FW LL+GRVVTG+GVGCAMVIAPVYITELAPPDVRGMLVSLTDICIN+GI+FGY ASL+CS+VF +DSAKWRSM+GIGMLPPLLILACLSLMPESPRWL++ GR+A AL VLKRVMD +++AE  L+TIS AT+T EATWRDVL P D TV+AAMVLG+GLGFWQQASGSEAAVYYTPEVL++  K W    IL+GN+GVGGFKLLGEV+AFMLLDRIGRRPLFLVSSVLVTLCL MVG AFL +W+S+LTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQS+S A+TP GSFYFFAALSA+SVAFYY  VPETRG+TLEEITADL SS PP++PG R   A GGPRHVPLA  DEE
Sbjct:    1 MGGASSRNGRGGGADXXXXXYEVVEREEPLLRE----GGPEEQNDESMAAGLLWSAGDNPSLRLGGDSSLGPAFGQHGRSG--------SVQNNGGEGLSDRNSYRGRGXXXXXXXXXCCTVSGRPLVYLCAACSSLCSILLGYDVGVMSGAKEFIRPDLGLSTVQNEVMVGSLNIVAAFGGLVAGKAADRLGRKPTTALACVVFITGATMMTLSHTFWFLLLGRVVTGIGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINVGIVFGYAASLLCSDVFNSDSAKWRSMIGIGMLPPLLILACLSLMPESPRWLVAAGRNADALHVLKRVMDDEDDAESTLQTISDATTTTEATWRDVLAPSDRTVKAAMVLGIGLGFWQQASGSEAAVYYTPEVLKD--KGWANRAILRGNMGVGGFKLLGEVVAFMLLDRIGRRPLFLVSSVLVTLCLLMVGFAFLLNWTSMLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSMSEAMTPEGSFYFFAALSAISVAFYYFWVPETRGRTLEEITADLGSSLPPTVPGPRAGPANGGPRHVPLARDDEE 585
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A835Z5D9_9STRA (General substrate transporter (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z5D9_9STRA)

HSP 1 Score: 528 bits (1360), Expect = 2.420e-173
Identity = 279/440 (63.41%), Postives = 334/440 (75.91%), Query Frame = 1 
Query: 1150 ISGRPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATS--TQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGK 2463
            ISGRPLVYLCA CSSLCS+LLGYDVGVMSGAKE+I+PDL LS  Q  V+VGSLN+VAA G L+AGK AD LGR+ T ALACTVFI GA +M+ S  F  LL GRVVTGVGVG AM++AP+YI ELAPPDVRG LVSLTDI IN+GIL GYG +++  +V T +SAKWR+MVG G +PP L+L CL  MPESPRWLI+KG   A   VL R++   + A   L  ++++ S   +EA W+DVL P D  + AA+ +G+GLGFWQQASGSEAAVYY+PEVL++S   W    +L GN+ VG FKL GEV+AF LLDR+GRRPL LVSS+  TLCL  +  AF   W     LF L  FM  FSLGLGPVTFVVASEIFP+A+RGKAMS+V+F+NR MSG+IALSY +L+ AL P+GSF  FAALS +SV FYY  VPET G+
Sbjct:    1 ISGRPLVYLCAACSSLCSVLLGYDVGVMSGAKEYIQPDLELSDSQTAVIVGSLNLVAALGALMAGKAADALGRRVTIALACTVFIVGAAMMAGSGSFGALLTGRVVTGVGVGAAMMVAPIYIAELAPPDVRGALVSLTDISINLGILLGYGGAILFDSVLTGESAKWRAMVGAGAIPPALVLMCLVCMPESPRWLIAKGNPRAGYSVLLRILADAKAARTSLHEMTESISHHAREARWKDVLCPSDRAIAAAVSIGLGLGFWQQASGSEAAVYYSPEVLKHSG--WDGRDLLLGNMAVGTFKLAGEVVAFFLLDRVGRRPLLLVSSITSTLCLMAIALAFHLQWGGGAVLFLLSSFMLCFSLGLGPVTFVVASEIFPLAVRGKAMSLVVFINRAMSGIIALSYTALATALAPSGSFLMFAALSGISVLFYYWKVPETNGE 438
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: D8LJ49_ECTSI (MFS domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LJ49_ECTSI)

HSP 1 Score: 471 bits (1212), Expect = 1.160e-148
Identity = 251/460 (54.57%), Postives = 330/460 (71.74%), Query Frame = 1 
Query: 1150 ISGRPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATST-----------QEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITADLAS 2496
            IS   L+YLCA+CSSL S+LLGYDVGVMS A   I+ D+GLS +Q E++VGSLN++AAFGGL+AGK +D LGRK   A+AC +FITGA  M++S  +  LL GR++TG+GVGC  V+APVYITE+ PP +RG LV+LTDI INIGIL GY     C  +      KWR M+G+G+LPP +I+  L+ +PESPRWLIS+GR      VL RV+D   EA+  L+ I ++  +           +E  W +VL P D+ V AA+ +G+GLGFWQQASGSEAAVYY+P VL  +        +L G   VG FKLLGEV+A +L++R+GRRPLFL+SS+  TL L ++  +F   WS++ TL  LC FMF FS+GLGP+TFVVA+E+FP+ +RGKA+S+V+FVNR++SG+IA S+ S+S ALTP G+F  FA +S  SV FYY  VPET+GKTLE+I  DLA+
Sbjct:   86 ISATALIYLCALCSSLTSVLLGYDVGVMSAAILDIEEDMGLSPLQAEILVGSLNVIAAFGGLIAGKASDALGRKTAIAIACGIFITGAGGMTLSMTYAQLLTGRLLTGLGVGCGFVVAPVYITEITPPHIRGKLVALTDIMINIGILLGYITGFACQELIPPVWLKWRIMLGLGILPPAVIVISLTFLPESPRWLISRGRIREGYQVLGRVIDDPIEAKETLQAIVKSVQSHGNAANGGDNNEEPGWMEVLWPSDKVVGAALFVGLGLGFWQQASGSEAAVYYSPHVLEAAGMT-SRGLLLAGTCMVGVFKLLGEVLAAVLIERVGRRPLFLLSSITSTLTLLLIAQSFFLEWSAIPTLVVLCAFMFCFSIGLGPLTFVVAAEVFPMQVRGKAVSLVVFVNRLLSGLIATSFLSISQALTPGGAFLMFALISLASVFFYYFCVPETQGKTLEQIADDLAA 544
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A4D9D9C2_9STRA (MFS domain-containing protein n=3 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9D9C2_9STRA)

HSP 1 Score: 423 bits (1087), Expect = 9.420e-132
Identity = 218/444 (49.10%), Postives = 315/444 (70.95%), Query Frame = 1 
Query: 1159 RPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQE---ATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEIT 2481
            R LVYLC   +SL SILLGYDVGVMS A++++   L L++VQ+EV++GSLN+VAA GGL+AGKTADR GR    ALAC +F+TG+  M+++  F +LLVGR++TG+GVGC  VIAPVYI E+ PP++RG++VSLTD+CIN+GI+ G      C      D AKWR M+G+G +PP++IL+ L  +PESPRWL+ + R   A  VLKR++  ++EAER+L  I +A   +      W +VL P+   +   +++G+ LGF+QQ+SGSEAAVYY+P++L  +      ++ L GNI +   K  GE++A + +DR+GR+PLF+ S++     L + G++F +     L +  LC+FM  FS+G+G +TFVVASEIFP+ +RGKAM++ +FVNR++SG++AL++ SL  A+T A +FY FA +S +S  FY   +PET GKTLEEI+
Sbjct:   21 RRLVYLCGFVASLTSILLGYDVGVMSVARKYVDMQLSLTSVQSEVIMGSLNLVAALGGLIAGKTADRFGRNRAIALACLIFLTGSACMTLAWNFRVLLVGRIITGLGVGCGFVIAPVYIAEITPPEIRGLMVSLTDVCINVGIVLGSVVGFFCELTIADDDAKWRVMLGLGTIPPVIILSFLRCLPESPRWLLLQDRVPEARHVLKRIVGHEQEAERELVAIEEAIQMERDVTTDWSEVLCPRHRAILLPVLMGLALGFFQQSSGSEAAVYYSPQILAEAGMSSTAHQSL-GNIAICLCKFAGEIVAMLSMDRVGRKPLFVSSALGSGFFLVLAGASFQYSLPPSLLMTSLCLFMAFFSVGMGAITFVVASEIFPLPVRGKAMALAVFVNRLLSGIVALTFLSLVDAVTYANTFYLFAVISFISTIFYAGFLPETMGKTLEEIS 463
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A6H5K3W8_9PHAE (MFS domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5K3W8_9PHAE)

HSP 1 Score: 407 bits (1046), Expect = 8.590e-126
Identity = 218/449 (48.55%), Postives = 314/449 (69.93%), Query Frame = 1 
Query: 1165 LVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDL---ETISQATSTQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITADLASSS 2502
            +VY+ A  SSL S+LLGYDVGV+SGA ++I+ D GLST+Q  ++V SLN+VAA GGL+AG  +D LGRK + A AC VFITG+ I   +  F +LL+GR+VTG+GVGC  V+APVYI E+ PP +RG L SLTDI IN+GI+ GY  +   ++    DS KWR+M+GI ++PP +IL+ L L+PESPRWL+ KGR+  A  VL  ++ + + A+R+L   +TI+    + +++W +++      +++ ++LG+GLG  QQASGSEAAVYY+P VL ++  +  ++  L GNI VG FKL GEV A+ L+DR GRRPLF+ SS LVT  L  +G  F     + +TL  LC+FM++FSLG+G +TF+VA+EIFP+  RG+ +S+ + VNR+ SG++AL++  L    T  G+F+ F+  S  +V FYY  +PET+ +TLEEI+A  A  +
Sbjct:   64 IVYMSAFVSSLTSVLLGYDVGVISGAIKYIQEDFGLSTLQKAIIVSSLNLVAAGGGLIAGSVSDTLGRKRSIAAACLVFITGSIIKIAAQSFGVLLLGRIVTGIGVGCGFVVAPVYIAEITPPHIRGRLTSLTDISINMGIVIGYLVAFGVASTVEDDSGKWRTMLGISIVPPFIILSSLCLLPESPRWLLGKGREVEAFAVLCTIVPTGDVAKRELAEMKTIAGEEDSAKSSWSELVCTASPALKSTVLLGLGLGIAQQASGSEAAVYYSPSVLSDAGLK-SDSAELGGNILVGLFKLGGEVFAYFLVDRTGRRPLFIASSSLVTFFLVFLGLTFSASAPAWMTLSGLCLFMWSFSLGMGALTFLVAAEIFPLRYRGRGVSLTVCVNRLTSGLVALAFPLLERGFTAGGTFFLFSIFSVGTVWFYYTKIPETKDRTLEEISAGAAKEA 511
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A6A7G7L9_9CRUS (Polyol transporter 4 n=1 Tax=Hirondellea gigas TaxID=1518452 RepID=A0A6A7G7L9_9CRUS)

HSP 1 Score: 355 bits (911), Expect = 1.510e-106
Identity = 192/452 (42.48%), Postives = 303/452 (67.04%), Query Frame = 1 
Query: 1168 VYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQ-----EATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITAD--LASSS 2502
            +Y+    +SL +ILLGYDVGVMSGA  FI+P+  L+T + E++V SLN+++ FG L AGK +D  GRK T A+A  +FI  + +M++++GFW+LLVGR++ G+GVG A+V+ P+YI E++P   RG LV+ ++IC NIGIL GY +    +N+   D+  WR M+G+G++P +++L  L +MPESPRWL+ +GR   A   L R+   D+E    L +I QA   +     +  W D+L P    V+  ++ GVG  F+QQASGSEAAVYYTP++L  +    GE   + G I VG FK    +IA +LLD+IGRRP+ + S+++V + LS++G +F+ +      +  +C++M  F +GLGPV +++ +EIFP+ +RG+AM++   VNR++SG +AL++ SLS +++ AG+F+ ++ ++  ++ F    +PET  KTLEE+  +  LA+S+
Sbjct:   34 LYVLTALASLGAILLGYDVGVMSGAILFIEPEFNLTTFETEIIVSSLNLISLFGALFAGKFSDSFGRKKTIAIASVIFIAASVLMALANGFWMLLVGRLIAGLGVGAALVLPPIYIAEISPARFRGKLVTFSEICQNIGILLGYISGYSFANL--PDNINWRVMLGLGVVPAIMMLLSLLIMPESPRWLVKEGRLEEAETTL-RLTFYDDEVNDALASIEQALKEERILLADVGWMDLLRPTP-AVKLMLIAGVGAAFFQQASGSEAAVYYTPKILAEAGIE-GERNAIAGAIVVGAFKTTTLIIASLLLDKIGRRPMMITSTIVVMIALSLLGMSFMINAPPFAMIGGMCLYMIGFGIGLGPVGWLLIAEIFPLQLRGRAMAIGTAVNRLVSGTVALTFLSLSESISQAGAFFMYSGIAFCALIFSIVFIPETTNKTLEELIVEFQLAAST 480
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A7R9Y9S9_9STRA (Hypothetical protein (Fragment) n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9Y9S9_9STRA)

HSP 1 Score: 352 bits (902), Expect = 1.240e-105
Identity = 179/453 (39.51%), Postives = 292/453 (64.46%), Query Frame = 1 
Query: 1189 SSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQE--------------ATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITADLASSSP 2505
            S++ +  LGYDVG+M+ A E IK    +    NE+++GSLN V+AFG LL G  ADR+GRKPT  L C +++ G  +M+ +  + +LL+GR++TG+GVG +  + PVY++E+AP ++RG L +L DI IN+GIL       +C    +   AKWR+M+G+G++PPL++  CL+L+PESPR+L+ +G+   A++VL   + S+E A  + E+I  A   +               A+W D+L+P+   ++ A+ + +GL FWQQA+GSEA +YY+   L  +  +    ++L GN+G+G  KL+ E ++ + +D++GR    ++S+V +T+ + ++G A++  WS +  +F LC FM +FS+ +GP T+VV SE+ P+ +R K   + IF+NR+ SG +AL+  S + +L P+  F+ + A+SA+S+ FY+  VPET GK+LEE  A LA   P
Sbjct:   23 SAITATTLGYDVGIMADAAEGIKTHFSIDDATNELIIGSLNFVSAFGALLGGPMADRVGRKPTVLLCCILYLIGTVLMAGAPSWQVLLLGRIITGLGVGVSFTVCPVYVSEIAPAELRGRLTTLFDISINVGILXXXXXXXVCEEAISNSEAKWRTMLGLGLVPPLMVCLCLALLPESPRYLVMRGKMRKAVEVLTLTLGSEERAREECESIRYALHGESKPATPDEDSGGHAPASWSDILMPRTRLMQRALFIVLGLSFWQQATGSEAVLYYSATFLEKAGLQSKSQRLL-GNMGLGVCKLIPEAVSLIYVDKLGRVKPLILSAVAMTVLIFLIGFAYVQDWSGMTVVFLLCGFMLSFSIAIGPFTWVVVSEVLPLQMRAKGTMLGIFLNRLTSGTVALTALSTADSLGPSTFFFLYTAVSAISIMFYWRCVPETAGKSLEETEAMLAEMPP 474
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A9V0M3_MONBE (Predicted protein n=1 Tax=Monosiga brevicollis TaxID=81824 RepID=A9V0M3_MONBE)

HSP 1 Score: 343 bits (879), Expect = 7.120e-103
Identity = 206/438 (47.03%), Postives = 284/438 (64.84%), Query Frame = 1 
Query: 1174 LCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITAD 2487
            +C   ++L S+LLGYD GVMSGAK +I+ DLGL+  Q +++VG L+ V+A G L AG  AD LGR+     AC +F+ G  +M++++ +  L+VGRVVTG+GVG  + IAP+Y+ ELAP  VRG LVSL +I INIG+L GY  S   S +  + S  WR M+G+G LPP++I+  L  MPESPR+L+ +GR   A  VL R    DE A+  L T++        +WRD+L P     R  ++ GVG+ F+QQASG EA +YY PE L ++     E+++L  N+ VGG KLL  +IA    D+ GRR L + S V + L   +V  +F       LTL  + +FM TFS G GP+T+VV+SEIFP+ +RG A+ +  FVNR++SG+I  +Y S++  LTPAGSF+ FA LS LSVAF   +VPET GKTLE+I  D
Sbjct:    1 MCMFVAALTSLLLGYDQGVMSGAKLYIRRDLGLNDDQVQLVVGILH-VSAVGALCAGWIADTLGRRMAVGSACVLFLAGGLLMALANEYTTLIVGRVVTGLGVGTGLTIAPLYMAELAPASVRGALVSLNEISINIGVLLGYLNSWAFSGLPVSQS--WRWMLGLGCLPPVVIMVALFFMPESPRYLLRRGRRDEAFRVLARSCPVDE-AKATLATLADEAQQPLGSWRDLLSPSMRGARWLILAGVGVAFFQQASGLEALLYYVPETLAHAGITSLEHQLLI-NMAVGGVKLLSVLIAMCFTDKYGRRTLLMGSGVGIMLSCLLVAISFEAGDILGLTLLGIFLFMATFSFGFGPLTWVVSSEIFPLQVRGPALGLATFVNRVVSGIITSTYLSMAQGLTPAGSFFLFAGLSLLSVAFVKFVVPETGGKTLEDIERD 433
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A1Z5RFR3_SORBI (MFS domain-containing protein n=5 Tax=Andropogoneae TaxID=147429 RepID=A0A1Z5RFR3_SORBI)

HSP 1 Score: 341 bits (875), Expect = 3.360e-101
Identity = 204/487 (41.89%), Postives = 305/487 (62.63%), Query Frame = 1 
Query: 1159 RPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQATSTQEAT------WRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAFLFHWSSLL--------TLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEITADLASSSPPSLPGSRGLVAEGGPRHVPLAGSD 2577
            R  V+ C++ +SL  +LLGYDVGVMSG   FI+ DL ++ VQ EV+VG L  ++  G L AG+T+D +GR+ T  LA  VF  GA IM+++  F LL+ GR++ G+G+G  +++APVYI+E++P  +RG L SL +I I+ GIL GY ++L  + +   D+  WR M+G G+LP + I   L ++PESPRWL+ +GR   A  VL +V DS+EEAE  L  I +A     A+      WR++L P    +R  +V G+G+ F+QQA+G +A VYY+P + R+S     E+++L   + VG  K    VIA +L+DR+GR+PL  VS+  +T CL+++ ++     S  L         +  +C F+  FS+G+GP+  V++SEI+P+ +R +A++    +NRM SG +A+S+ S+  A+T AG+F  FAA+SALSVAF +  VPET GKTLEEI          SL G  G+   GGP  V L  ++
Sbjct:   50 RRYVFACSVFASLNHVLLGYDVGVMSGCIIFIQKDLHITEVQQEVLVGCLGFISLLGSLAAGRTSDAIGRRWTIGLAAAVFQGGAAIMALAPSFALLMAGRLLAGIGIGIGIMVAPVYISEISPETLRGSLASLPEIFISFGILIGYVSNLAFAGL--PDNINWRVMLGAGILPSISIACVLLVIPESPRWLVMQGRAGDARAVLVKVSDSEEEAEERLAEIEEAARASTASGNGKEAWRELLRPSP-VIRRMLVTGLGVQFFQQATGIDALVYYSPTIFRDSGITT-ESQLLGATVAVGVVKTAFIVIAIVLVDRVGRKPLLYVSTAGMTACLALLAASLSLLKSGALPGGVAVGLAILTVCGFVAFFSVGMGPINMVLSSEIYPLRLRAQAVAAGFALNRMASGAVAMSFLSICRAVTVAGAFAAFAAISALSVAFVHLCVPETSGKTLEEIE---------SLFGGGGVHGHGGPGEVELGDAE 523
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BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Match: A0A368QA60_SETIT (MFS domain-containing protein n=12 Tax=Paniceae TaxID=147428 RepID=A0A368QA60_SETIT)

HSP 1 Score: 335 bits (860), Expect = 3.890e-99
Identity = 193/453 (42.60%), Postives = 296/453 (65.34%), Query Frame = 1 
Query: 1153 SGRPLVYLCAICSSLCSILLGYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRLGRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVYITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMVGIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERDLETISQA---TSTQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVYYTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFLVSSVLVTLCLSMVGSAF-LFHWSSL-------LTLFWLCMFMFTFSLGLGPVTFVVASEIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALSALSVAFYYCLVPETRGKTLEEI 2478
            S R  V+ C++ +SL  +LLGYDVGVMSG   FI+ DL ++ VQ EV+VG L+ ++ FG L AG+T+D +GRK T  LA  VF  GA IM+ +  F  L+ GR++ G+G+G  +++APVYI+E++P  +RG L S  +I I+ GIL GY ++L  + +   D   WR M+G G+LP + I   L ++PESPRWL+ + R A A  VL +V DS+EEA   L  I +A   T++ +A WR++L P    VR  ++ G+G+ F+QQA+G +A VYY+P + RNS     E+++L   + VG  K+   VIA +L+D +GR+PL  +S++ +T CL+++ ++  L    +L       L +  +C F+  FS+G+GP+  V++SEI+P+ +R +A+++   +NRM SG +A+S+ S+  A+T AG+F  FA +SALSV F +  VPET GKTLE+I
Sbjct:   46 SSRRYVFACSVFASLNHVLLGYDVGVMSGCIIFIQKDLHITEVQQEVLVGCLSFISLFGSLAAGRTSDAIGRKWTIGLAAAVFQAGAAIMTFAPSFAALMTGRLLAGIGIGIGIMVAPVYISEISPATLRGTLASFPEIFISFGILLGYVSNLAFAGL--PDHINWRVMLGAGILPSISIAFVLMIIPESPRWLVMQSRAADARAVLDKVSDSEEEAHERLAEIEEAARVTASDKAAWRELLRPSP-VVRRMLITGLGVQFFQQATGIDALVYYSPTIFRNSGITT-ESQLLAATVAVGVSKVAFIVIAIILVDHVGRKPLLYISTIGITACLAVLAASLSLLARGALPGGVAIGLAMLTVCGFVAFFSVGIGPINMVLSSEIYPLRLRAQAVAIGFALNRMASGGVAMSFLSICRAVTVAGAFAAFAVVSALSVVFVHLFVPETSGKTLEQI 494
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig786.3.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FTG6_ECTSI2.830e-29275.29MFS domain-containing protein n=2 Tax=Ectocarpus T... [more]
A0A835Z5D9_9STRA2.420e-17363.41General substrate transporter (Fragment) n=1 Tax=T... [more]
D8LJ49_ECTSI1.160e-14854.57MFS domain-containing protein n=1 Tax=Ectocarpus s... [more]
A0A4D9D9C2_9STRA9.420e-13249.10MFS domain-containing protein n=3 Tax=Monodopsidac... [more]
A0A6H5K3W8_9PHAE8.590e-12648.55MFS domain-containing protein n=2 Tax=Ectocarpus T... [more]
A0A6A7G7L9_9CRUS1.510e-10642.48Polyol transporter 4 n=1 Tax=Hirondellea gigas Tax... [more]
A0A7R9Y9S9_9STRA1.240e-10539.51Hypothetical protein (Fragment) n=1 Tax=Pinguiococ... [more]
A9V0M3_MONBE7.120e-10347.03Predicted protein n=1 Tax=Monosiga brevicollis Tax... [more]
A0A1Z5RFR3_SORBI3.360e-10141.89MFS domain-containing protein n=5 Tax=Andropogonea... [more]
A0A368QA60_SETIT3.890e-9942.60MFS domain-containing protein n=12 Tax=Paniceae Ta... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig786contigP-littoralis_Contig786:31025..58383 +
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.D7FTG6
PFAMsSugar_tr
Model size3675
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons12
Evalue8.97e-301
EggNOG OGsKOG0254@1|root,KOG0254@2759|Eukaryota
Descriptionglucose import
Cds size2130
COG categoryU
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791611.9825573-UTR-P-littoralis_Contig786:31024..314751680791611.9825573-UTR-P-littoralis_Contig786:31024..31475Pylaiella littoralis U1_48UTRP-littoralis_Contig786 31025..31475 +
1680791611.9960008-UTR-P-littoralis_Contig786:39045..390561680791611.9960008-UTR-P-littoralis_Contig786:39045..39056Pylaiella littoralis U1_48UTRP-littoralis_Contig786 39046..39056 +
1680791612.1362467-UTR-P-littoralis_Contig786:57300..583831680791612.1362467-UTR-P-littoralis_Contig786:57300..58383Pylaiella littoralis U1_48UTRP-littoralis_Contig786 57301..58383 +


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

Feature NameUnique NameSpeciesTypePosition
1680791612.0060365-CDS-P-littoralis_Contig786:39056..395441680791612.0060365-CDS-P-littoralis_Contig786:39056..39544Pylaiella littoralis U1_48CDSP-littoralis_Contig786 39057..39544 +
1680791612.017069-CDS-P-littoralis_Contig786:40211..405481680791612.017069-CDS-P-littoralis_Contig786:40211..40548Pylaiella littoralis U1_48CDSP-littoralis_Contig786 40212..40548 +
1680791612.0271866-CDS-P-littoralis_Contig786:41540..418481680791612.0271866-CDS-P-littoralis_Contig786:41540..41848Pylaiella littoralis U1_48CDSP-littoralis_Contig786 41541..41848 +
1680791612.0368276-CDS-P-littoralis_Contig786:45890..460741680791612.0368276-CDS-P-littoralis_Contig786:45890..46074Pylaiella littoralis U1_48CDSP-littoralis_Contig786 45891..46074 +
1680791612.0510387-CDS-P-littoralis_Contig786:47416..474861680791612.0510387-CDS-P-littoralis_Contig786:47416..47486Pylaiella littoralis U1_48CDSP-littoralis_Contig786 47417..47486 +
1680791612.0648699-CDS-P-littoralis_Contig786:48144..482451680791612.0648699-CDS-P-littoralis_Contig786:48144..48245Pylaiella littoralis U1_48CDSP-littoralis_Contig786 48145..48245 +
1680791612.0755196-CDS-P-littoralis_Contig786:50894..509411680791612.0755196-CDS-P-littoralis_Contig786:50894..50941Pylaiella littoralis U1_48CDSP-littoralis_Contig786 50895..50941 +
1680791612.0864-CDS-P-littoralis_Contig786:52115..522051680791612.0864-CDS-P-littoralis_Contig786:52115..52205Pylaiella littoralis U1_48CDSP-littoralis_Contig786 52116..52205 +
1680791612.0990314-CDS-P-littoralis_Contig786:54037..542151680791612.0990314-CDS-P-littoralis_Contig786:54037..54215Pylaiella littoralis U1_48CDSP-littoralis_Contig786 54038..54215 +
1680791612.1107976-CDS-P-littoralis_Contig786:55101..552781680791612.1107976-CDS-P-littoralis_Contig786:55101..55278Pylaiella littoralis U1_48CDSP-littoralis_Contig786 55102..55278 +
1680791612.125146-CDS-P-littoralis_Contig786:57150..573001680791612.125146-CDS-P-littoralis_Contig786:57150..57300Pylaiella littoralis U1_48CDSP-littoralis_Contig786 57151..57300 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig786.3.1prot_P-littoralis_Contig786.3.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig786 39057..57300 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig786.3.1

>prot_P-littoralis_Contig786.3.1 ID=prot_P-littoralis_Contig786.3.1|Name=mRNA_P-littoralis_Contig786.3.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=710bp
MQRNGGTGQGHTATTTTSANGSTNGNTNGSATSTSNGNSGSTNGDRALSP
AKKSAKNSPAHARTARNGSGAGGSSSSSRHHSHRRISLEEGIELSREPWR
QAEVGPGWESVENEEVGVVMGGASSSRRSGGSGSTVYDVVEREEPLLGEE
AVNGEAKQPRDQSKATDLLWTAGDSASLRPGGDASLGPAFVRHGRCGGGE
EGKDGQVWLSDGKGRSSSSGSSSRGGKWTISGRPLVYLCAICSSLCSILL
GYDVGVMSGAKEFIKPDLGLSTVQNEVMVGSLNIVAAFGGLLAGKTADRL
GRKPTTALACTVFITGATIMSVSHGFWLLLVGRVVTGVGVGCAMVIAPVY
ITELAPPDVRGMLVSLTDICINIGILFGYGASLMCSNVFTTDSAKWRSMV
GIGMLPPLLILACLSLMPESPRWLISKGRDAAALDVLKRVMDSDEEAERD
LETISQATSTQEATWRDVLLPKDETVRAAMVLGVGLGFWQQASGSEAAVY
YTPEVLRNSNKRWGENKILKGNIGVGGFKLLGEVIAFMLLDRIGRRPLFL
VSSVLVTLCLSMVGSAFLFHWSSLLTLFWLCMFMFTFSLGLGPVTFVVAS
EIFPVAIRGKAMSVVIFVNRMMSGVIALSYQSLSGALTPAGSFYFFAALS
ALSVAFYYCLVPETRGKTLEEITADLASSSPPSLPGSRGLVAEGGPRHVP
LAGSDEEAD*
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mRNA from alignment at P-littoralis_Contig786:31025..58383+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig786.3.1 ID=mRNA_P-littoralis_Contig786.3.1|Name=mRNA_P-littoralis_Contig786.3.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=27359bp|location=Sequence derived from alignment at P-littoralis_Contig786:31025..58383+ (Pylaiella littoralis U1_48)
AAGCCCACAACCCTCTGGCATATCAGCATATCGTCACGTCTGAGTGGTTC
GAGCGCGCTTTCCACGTCATCGGGGGCACAAGCGGTTGAGTATTCCAATA
TCGTGCGCCCCATTATTGCGATTCACGAAACCTCGGGCGAGGCAGAGAGA
CAAGAACACAAATACACAGAGCAAGGGGCAATCAAACAACGTAGAGCCCG
CGATTCGTATGCACCCACAGCACGTGGAAGGAAGACATCTCGGTGGTGCG
ACAAGGGTTTGTCAAAAGAGGGCGTCTCTTCTCTTTCTTCGAGCGCGGTT
CATCAAAGAACGGAGCTCAACAAAAACACCCCTCGGCTGGTGTCACAAAT
CGGAGAGTCCGATACCCCGGTAGGAAGAAAGCGGATTTCGGAGCTAAATA
AATAACTACCATCATTGGGATCTCGTGCTTGGGCATGCGTGGCTAGAATA
GGTGAGCGGAAGATAAAGGAAGTCGTCTGCTACCCTCTGCCGCTTGAGCG
TGCCATCCGCGACAAATAACAGATGTTGTGAGCGGACTGCTCGCTCACAC
ACTTTTGCTGTACCCCCATTCTTTTAGTCTTGCGTTTTTTTCACTTTTTC
CACAACTTTCCGCACATGTTTATCATGATGCCTTTTGCATCGGCCAGCCC
CGCCTAAAAAGGGAGTATCACCCGCTGGGGATACTCGTCCCCAGATGACG
AAATGTTAAGTGTGGAGTGTAGTGTGTAGTCGTTGGTGTCGCCCCCTGAA
CGCAGTGAACAGGCAACAGGCACATCATACGTCATACTCGCTGGTAGTTG
ATAACCCCGCCCCATTCTGGCTGATTTTTTTTTGGCAGTCGAATGTTACA
GCGGTAGTGAGCTTTCCTCGTTGTGTGACTGCGCGTGATTTTAGTTTATT
CTTGTCGCCCTGCACTTGGTAATCCACAAAACCTTCTGACATCCACGCGT
GAGTTCGAACCCCAGCAGTGCAGTAACACGATCTGCTTTTTCTTCTTACA
ATGCGCGTGGAAGTGGAAAGCGATTACTTCGTGAGTAAACAAAATTCGAC
CGTACCATCGACGAGCGAAAGGGTTGCTGTCCCCTTTCCCGCGATAAAAG
CTCCAAAACGAGGCAAATCTTGCTGGATCCTCGTCAAGGGAGAGGCGGAC
ACAATGATGTCTTGGTAAGAAAAATAAAAAGAGGGCAAACCCCAAAAAGC
GGTACAGTATACCGCCATGGTTCCGCGCCACAAAGCGGTACACCAAATTA
CACATTGGCATTTGAGCCCCGTTCGCGTCGCTGATTGGCCGACTCAGCCT
CGTATCGCTTTCTGGCACCAGCAACCGGCGGTTTATCACTTTTGGGCCTC
TCAGGTCGGCCTTCACCGCTTTTTGGCGTGTAACCCACACCGCTTTCTGG
CGTGATATCCCGCAGACCATTCGCCGAACAGCCCTCCTCACTTTCATATC
ACACGTCACACCACCGATCAATCAAGGGAAGGGATCAACCAAGAAAGCTA
CGGTACGACGTGAGCTCCACGTCGTACCCCCACACCCCACACCGATCCCT
GCAGGATGGTTGGTGCCGATGTGCGTGACAGAAGACCAGATCGATCACCA
ATTATTCGAGTACAAGGAAGGGGAATGCAACGCTCCAAAATGAAGTGTCA
AATTTGTCTACACTGAAGTCGATGCAATCCAGGCCTCTCAATGAATGCGC
AAAGGATGTACAAGTTGTAGGCATAGCATGTAGGTAGGGTGGAAGGATGT
AAACCGAAGAGTCTGTCCAATCAGCGGTGCGTCATTAATGTGTGCAGGTG
CTTGCCCTCATGTGCTTGAGACACCGCAGGGCGGTGTGGCGATCGCGTGC
GCCATCACTGGCACGTATGTAGTGTACACGTGCCCCCTGTGCGATCATGA
GGGTGCCTGGGGTCACGGCTTGACAGCAGTGCCTCGATATTGGTGATCGA
TTTGGTATTTGGTATTCTATCACGCACATCGGCACCAACCATCCTGCAGG
GATCCGTGTGGGGTGTGGGGGTTCGCGTGGAACCGTGTGGCTTTCTTGGT
TGACCAATTCCGTTGATTGATCGATGGTGTAACGTGTGGTATGAAAGTGG
GGAGGGCTGTTCGGCGAATGGTCTGCGGGATATCACGCCAGAAAGCGGTG
TGGGTTACGCCAAAAAGCGGTGAAGGCCGACCTGAGAGGCCCAAAAATGA
TAAACCGCCGGTTGCTGGTGCCAGAAAGCGGTACGAGGCTGAGTTGGCCA
ATCAGCGACGCGAACGGGGCTCAAATGCCAAGGTGTAATTTGGTGTACCG
CTTTGTGGCGCGGAGCCATGGCGGTATACCGCTTTTTGGCGTTTGCCCTA
AAAAAACAAGGCAAGCACCGCAGAGGGAAGTGGAGAAAAAAAAAAAAAAA
CTCCTGTGTTGACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCGACCTAC
CCGAAAGGTGTAGAGTGTCGTCCAATTAAAGGAACAAAAACACACACACA
TACACACACCGGGGTGATGATCAAGTTCGTTTACACGCTCTCGCTGTCCT
CGTACTACGAGTACTTGTCAAGTGTTCCGAAATTATGCATATCATATCAC
ATCCTTGGTTAAGCAGTCCTGCTGTTGGCGTTTGCCCTAAAAAAACAAGG
CAAGCACCGCAGAGGGAAGTGGAGAAAAAAAAAAAAAAATCCTGTGTTGA
CTTCCCCCTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGTA
GAGTGTCGTCCAATTAAAGGAACAAAAATACACACACATACACACACCGG
GGTGATGATCAAGTTCGTTTACACGCTCTCGCTGTCCTCGTACTACGAGT
ACTTGTCAAGTGTTCCGAAATTATGCATATCATATCACATCCTTTGTTAA
GCAGTCCTGCTGTCTGCACTGCTGTAAGCTGGAACTTGTATCATTCTGTT
TTTATCATACTGGCTGCCTGCTGTAGCACGCGAGCAACCACTGGATATGT
TTATGCATTGCATCGGGGTCCAGCTCCAATAAAGTGACTGGAACTGGCGG
GTGTGCCAGAGGCATGCGCGTGATGTCGTGTGTCTTGCTGCTGCTGCCGT
GCCGGCGAGCAAGCCTTCATCAAATGTTTCTTACGTAGTGGTACACCTCC
GCCTGCGAAGTAGAGCAAAGGGCAATACTTGCACACCGAAGCCTGTACTC
ATATGCACAGCAGTATTGTGTACATGAAAAGTACTTCTTTTGTACTTCGG
AGTACTCCTGTACTGCTGTATCATACTGTTGTTTAGCAACGATTCCGATG
CGCTGCAGCCGGCGCTGTGCACGCGCGCACCCATTTACGAGAATTTTCTA
AATGCGCCCAGCAGCCAGCAGCAGCAAAAAACATAAAAAAATTGGTGCGC
ATTTTTTTTTTTCGCTTCGTTTTTTAGACACATTTTCGCCTAGTCCCCGG
TGGGCGAGAACAACCATGCACCGCTGTGCTTGAGCGAAAATATAAAATAT
TGCTCCGTTAAACCTCAAACTTGAAGTACTTCGTACCAGGTAACAGCAGT
AGCATTATCTATTCACACAGCGCTAACTTTTTTGGTGTCAGGCTTCTCAC
AGGCTTGCTTGTCGAGCAGGCCCTAATGTCGGCGACATGGCAGCGGCCGG
GTGACCCTTCAATGATCCAGAACAGTGCCTGCCACGGACCTTTGTAAGAG
CGGCGCCTGCGTGTATTTAGCTAGTGCTGGCGCTGGTCGACCGGTGCCCT
TCGGCAGCAGATTTTCTCTTCTTTGAGAGCGGCGAGATCGCGTTGTATTA
CTGCTGTGTGCGCTCCTTTGAACCCACGAAAAGGAACCTGGCTTGCCCCA
CGTCCCACGAAGCTAAATATGTTGTCCACTCCTTTCTCCCACAGGTGCAC
TGCGGATACATATGTAAACACCTATGAGGGTACAGAGGTAAATTGACGAT
TGAGAACAAACTACATCACTTTGGACCATCACGAGTCGCTATTTGCTGCC
ACGCTGACAAACAATCTACCATACATAGGCATGAGTAAGTAGAAACACAG
GTAAATGTATCCTATTCTTTGTGTTCGTTATTAATCTACTCCAGATCATC
CTTGTCTGGAGAGAAACGGACACACTCATGTGTTTGCAAGAGAAATAAAA
AAAAGAAAAGCTGGCAGCACACATAAAAACTAAGAAAACTTCCCACATGG
TGTTTCGTTACACACAAGAGCCCAGTCACTTCAGGGGAGTTGCAGCGGTG
CTTTGCCTGATGAGTTGTAGAAATACAGGTACAGCAGTAGATGGAACGCT
CTTCAGTTTTCGGTGCGAATCTACCACTCTAGATCCTCGTCTGGAGAGAG
GCGAACACATTGATGGTTTTTTTTTTCCCTTCAAACACATCAATGTAATC
GCGTCTCTCCAGACGACGATCTCTCCAGACGAGGATCTGGAGTAGATTAT
CAACGGGCACGATAATAATATGCGCCTATCATATCATATGATTCTCCTTC
ATTCTCGTCACTCACCAGACGATTCGTCGTTGCGGCCCCCCTGGGGTGAT
CAGACTCAAACGAGAGACAATTTGGTGCTCGTCTTGTGCGAAGGACGTCC
CACCATATCTTTGAAAAAAGAAAAGGAAAAAACAAAACACACCCAAGATA
AAAAAAAAACGACATGGCGAAAACGAAAACGAAATTGGGCTCTGATTGGT
CGGAGCAAAAAAAGGAAAAGAGGTGTGTTTTCGTTTCAACGCCCTCCGGG
GAGGCGTTGCTTCGTTTTCGATTTCGCAAAAATAAAGTATTTAGGATTTT
TTTTTTCGAAATCGAAAAACGAAATTCAACATGGAAGGCTTTTGGCGGGG
ATGATTCAGCTCTGCGAGGCACATCCGGTTGACCTTTGCACAGCAGGCAA
GTTCATATGCTGATTGATATCTCGCCACACAAGGGACGACACTCCCTACC
AACTGGATGTCTAGAGAGATGAGCTTAGCGTCAACTAGAAACGCCCACGG
TTTGGGGCAGTGGGGTGTCAAGCGGAACGGGAAAAAAATTTCAATCTACC
CACGTTGATCCGCTTGTGTTCTGAGCCGATTTTCAGGTGAGGTTTGCAAG
CAGCCAAGTTCACGTTTTCACTGGTAACTCAGCGAAATATGGACGAGATT
CCCTGCCAACTGCGTCCCTATCGAGAGCTGATCTTACTGGCCATCGGTAC
AGTCCAAAATTTTGGGCAGCGGGGTGTCAAGCGTGGCGGGAAGCAAGGCA
TCAGTCGTTGCAAAAGTTCAAACAACAAGCAGTCATTTTTGCCTCTTTCG
AGAGAGAGAGGGTTCCTTCGAAACTCATTGTCCGTCGTGTCCGTGCGTGG
CGGTGCTCCGAACCTCAGCCTTTTCCGATAGAGGGTAGACATATCTCTGT
ATCGGTGCAGTTGAAAGGGGATTTCGTCAGGACTAGGGCAAGACATCAGT
GAAAATGTCAACACTGCTGCTGCTCGAAGAGTCAATGCAAATGGTGTTGC
TCTCGTTCATCCCCTCTTCTCCAGGACCCTGGTGACAGGTCCGTCGTCAC
AGCCCGAAAAAAAAAATATATACCTTCTGTCGTTAGTACCCAACACTTCG
TTTTCCTGCGAAAACGAAGTTAATTTCGTTCTGCAGTCCTGATTTCGTTT
TTTCTTGTCTACCGTTAATCCCCGCTCTCAGTTCTCGCTACTTGTATTTC
CTGGCGCTCCTGCCAGTCAGCTGCTCTCTGTTTTCAGTGTGCAGAGTCAG
TTGTCCATCTCAGATGCTCACTTCTTTTACTTGAACGTTTCTCTGCATCT
GCACACCTCTGAAGCCTCTCGAGCGCACCAATGGCTGCTGGTGCTGCTGG
TGCTGCTGCTGCCTGCTGTCGTCTCTCTCTCTCTCTACACACGAAAACAT
TTTTATTTGACTGCGTTACGGCGTACTCCAGTACATTGTGGGAAGTCCTC
GCCGGCGTTCTCCTGTAGGCTGTTGTTGGGGTGTTCGTTTGTTCTCTTGT
GGAATGTGATGTGCTACTGCTGCTGTATCATATAGCTCTTACACCCGCTG
CCTGCGTGTAGCTCTTCCATCCACTAGCCTGTCCTACTCTGTTGTTGCTG
GTCTGTGCTGTTCTATGAATCACACCTCTTACAGCTGCACTGCTGTATGA
TACACGATGTGAGGAGGCTTCGGCTTGAACTGTCTTTTGTACCTTTTACT
GACATTGCGACGTTACTTCGTTACAGGAAGTGCTCACCGGCTCACCCACC
CCTTGTGTGGTGATTACCGTAGGTGACAGTAGATAACACACCCCTGTGAT
AACATATTTCAGTTCAAAAAACCTATCACAGGGTGTGGTATCTACTTAAA
AATCATATCACAGGGTGTGGTATCTACAGGGGGGTGTGCTATCTTCTGTC
ACCGTGTGATGAAGTGCCCAATATTGCAGCTCGCTCTCAGGGGGTGTGAT
AAAAGGGAGTGTGTTAAATGAAGGGTGTGATAACTACTATTGCTACCAGA
TTGCAGCTGCTAAACAACTCCTGCGAGGGATGTGGTAAAACCAGGGGGTG
TGATAAAAGGGGTGTGATATCTCAAATGCAAACAAGGTGCTGCTGTGTAA
GAACTCCTACAAGGGGTGTGATAAAACCAGGGGGTGTGATACAAAGGGGT
CTGATATCTCAATTCCCAACAGATGCTGCTGTGAAACAAATCCTTCAAGG
GGTGTGATAGCTCTATGCCGCCGAGCGAGAGGGCGCAGGTAGGCCAGCGC
GCGTCGTTGTGCGAGTCTCAGCACGCTCTGCTGTGCGGGCCTCAGCAGGC
TTTGCTGCGCGGGCCTCAGTAGACTCTGTTGTGTGGCTTTTCGCAGCAGC
TCGTGCGGAGGCAGGCGCTACTGCTGCTGGCGTCTGGCCATCCGTGGGCT
TGGCGGCGGGGTCTCCAAAAAATGACGCAATCCCGCGTGAAGGCGCCGTT
GCAGATGCAGCCGGCGCTGTCTGAGCCGTGATGTTTCCAGGAGGGTTGTC
CACCTCCATATGGTCTGGAGGTGTCTGCATACCTGCCCAGCTGGGTATAA
CTGAATGCTTCGTGTGTGTCTGTGTTGGTTACCACACCCGTTGCGCGTGA
ACACGGGGGCTCCGTGTTTCGGGGGTGTTGTATGTGGCACGCCGAAAAAT
CATCTCTGGGGGGTGTGGTATCTTCTGTCACCGTGTGATAATGGGCCGTG
TTTTTTCGTGCCCAAAAAAAGTATCACAGGGTGTGGTTTCTAGTTGGGGG
TGTCGTATCTTCTGTACGTGTGTTATCTACTGTCACCTACGGTATTGCTG
GCACACGAGTTTCTTCATGCTTGCATATACGAAGTACGCCAGTAGTTGGC
TCCTGCATGCCGGCTGGGTAGGCAGCACTACCGACATTGATTCGCACCGA
GTAGACCGAAAAAACAAAAGTATAGATTCTCTGCTCTAATGCCCATCCCC
CATATGATATGGGGTGAAGCTCAGAAGGGTTAAAGCTAACCGAACGGATC
GACGATTCGCAGGTCTCCTGTGATAAAAGTATTTACAATCTAGGAAAGGC
CTGGTTTTGTTCTGTTTTCCGTACGAGTGTCTGTCGTACTTTGTACGAAT
CTACCATCGCATGGCATTGGCCCAATGCAGGCCCATTGGTCGAGGATCCC
CCGTCCAAGTCCTTGTGAAGTACATGTACGAAAGTACAGGTTCGCCTTTT
GTGCAACCTGAAACGGGCACTCCTTCATCGAGTACTGCTTGTGAGCCTAC
AAGTAAGCAAGTGCAGATGTGTAACCATCTCGACACGCTACTGTTCAGCA
AATGATGATTTCAGGCGGAGCATGGCGGAACTTCCGGAGGCAGACCTACC
AAAAGCATGTCAAGGCTCCTCCGTTATTTCTGGGTGTGTCTAGACTATCG
CGTTTTTTTTTTTTTTTCAGAAAGTGCTCGCTTTTGTCATGTTCTTTTTT
CAAGCGTTCTCGACTCCTAAGTGGTGCTGTCCTCCTTTCTTGCCCCACCT
GCCCAACCTCCGACCGAGAAGAACCTTCATTCATGCAGAGGAACGGTGGC
ACAGGACAGGGGCACACGGCCACCACCACCACCAGCGCCAACGGCAGCAC
TAACGGCAACACCAACGGCAGCGCCACCAGCACCAGCAACGGTAACAGCG
GCAGCACCAACGGCGACAGAGCTCTATCCCCCGCCAAAAAGTCGGCGAAA
AATTCCCCGGCCCACGCCAGAACCGCGAGGAACGGCAGCGGCGCCGGGGG
CTCCTCGTCCTCCTCCCGCCATCACAGCCACCGCCGGATCTCTCTAGAAG
AGGGCATCGAGCTATCCCGAGAGCCTTGGCGCCAGGCCGAGGTTGGGCCC
GGCTGGGAGTCCGTCGAGAACGAGGAAGTCGGGGTCGTCATGGGCGGAGC
CAGCAGTAGCAGACGCTCCGGTGGGAGCGGATCAACGGTGTACGATGTGG
TGGAGCGGGAGGAGCCGCTGCTGGGCGAGGAGGCGGTAAATGGGGAAGCC
AAGCAACCGCGTGACCAGAGGTTTGTCTCGTGTTTTTGCGTGTGTGTGCT
GTCGGTGTAGTGTGTGCCGGTGTCTTGGGGTGTTGTTGATTATCATATTT
TACCTCACCCCTGTACATTCAGCCACCCCGTGGCCACAAGCCAGGCACAC
ATTATACATGTTCGTATCGTGGTGGGAGGAAAAAAAATACTTCCCAAGCA
TTAAAAAGTCCTACTCGTAAAAAACAAGAAGAATGTCCAATTCACAAAAT
CAGGCAAATACACGATATGATACCGCCTCACCAGTAAGGTACTTTCTGCA
GTCGTCGCCGAAGTACGAAAGATACAGAAATATGGACTCGACAAAACATT
ACTAAATGTGAACGTGTTTGTGTGTGTTATTTTTGTAAGTTGTACACTGT
GTTGCGGACTTCTTCCTGCGCGAGTTGTGAAGAGCTCAGCCAGCACATGT
GGTAGAGACGGGCCGGACGAGCTCGTTGGTCCCCGTCGCCACATGCATGC
ATGCATGGGCACGACCGTTCGAGTTTTGCCGCAATCCCCGTTGGTTTTGC
CGGTCACCTAGCCGTTACCCCCCCCCCCCCCCCGACGTCCACGATCAATA
CCCCCCCCTCAAAGCACCGACATGAACCTTCTCGTTACCGCTGCCCCCCC
CCCTGACGTCTACGGTTCCCCCCCCCACTCTTTTCAGCAAGGCCACGGAC
CTCCTGTGGACCGCGGGGGACAGCGCTTCCCTGCGGCCGGGAGGAGACGC
GTCTCTCGGCCCCGCTTTCGTCCGGCACGGGAGGTGCGGCGGTGGCGAAG
AGGGCAAAGACGGCCAGGTCTGGCTCTCAGACGGCAAGGGCCGCAGCAGC
AGCAGCGGCAGCAGCAGCAGGGGCGGCAAGTGGACCATCTCGGGGAGACC
GCTGGTGTACCTGTGCGCCATATGCTCGTCGCTCTGTTCTATCCTGCTCG
GGTACGACGTCGGGGTCATGTCCGGGGCGAAGGAGTTCATCAAGCCCGAC
CTCGGCCTCAGCACTGTGCAGAATGTGAGGGGAGCGAGAGCCGTTGCATG
GGGGCAGGAGGAATGTGTGTGTGTGTGTGTAACTGACTCGTGCGTGTGTG
TGTGATTCCAGCGAATGTGATCGAGGGGAGCGACAGGTGTTGTTTTCGGG
AGGAGGAACGTGTGTGTTCGTGTGTGTGTATTTACGAGTTTGTACGCCGG
CGGACTCGTGGTGCGCTTGCACTTTCCAGGCAAGGATTCTGTTCCCTGTG
TCTGACGAGAAATAGGAGCGGAGGGGGGCATACAGACGCACACAAACACA
CACACACACACATTCCCCCTCCTCCGGTGGGGTTCTCTGTGGCCGCTTGT
TGTTTGCACAACCCCTGTCTTGTGCATGGGGCGTATTTTTGCACCGCACA
CACAACAATCGAGCTAGCACTCGGTAGATTGAGCTTCGCTCGGGCCCGGG
AAGCGTGCACCTTGAAATTCCCGTCCACCCCCCCCCCTTCCCAGGAATAA
ACACCAAGATGCATGTTTTTTTTTTCAGAAAAATGACGGGGGTATTCCGA
GCATCAACCGTTGCTGTGTTTGATCTGAGTTCGATCGTGGACAGCATCTC
CTCCTGCGGCTCCTTGGGGCAAACCAATACCCGCCGCGTCCACCACCGAC
GACTTTGCTGACTTCCGCGACGTCCCTCTCACCCACCCACCCACCCATCC
ACCCACCCATCCACCCACCCGCCAACCCACCAACTTGTCAGGTGCCCTTG
TTATCACTCACCACCAGTTTAAAAACTATTGTTGCCCAGTAGCACTACGC
AGCAGTACATGCGGCGGTGCTGGTATGTAGTAGGTGAAGCAGAGGCTACG
TGCAAAATATCATACAAAGCAAACCAAATAAGTCCTTCATCCACGACAGA
GGTGGTGGTCATGTGAGGAGGTGGGCAATATCAAACATTTAGGTGAAACC
GTCCTCCCTTCCCCACGTGCTTTCGCCACCCCCGATCCCCTTGTTTCTTG
CGATCCTTTTTTACAGGAAGTTATGGTGGGGTCCCTCAACATCGTCGCGG
CCTTCGGCGGCCTCCTCGCGGGCAAGACGGCGGACCGCCTGGGTCGAAAG
CCCACGACTGCCCTGGCGTGCACCGTGTTTATCACGGGGGCCACCATCAT
GAGCGTGAGCCACGGCTTCTGGCTCCTGCTGGTGGGCAGGGTGGTGACCG
GGGTCGGGGTGGGATGCGCCATGGTGATCGCCCCGGTGTACATCACGGAG
CTGGCGCCCCCGGATGTCCGGGGCATGCTCGTGTCTCTCACGGACATCTG
CATCAACATCGGCATACTGTTCGGGTGAGCAAAAAACAAAAAGCGAGTGT
TGTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTG
TTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTT
CTTGTTGTTCTTGTTGTTCTTGTTCTTGTTGTTCTTGTTGTTCTTGTTAT
TCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGCTTTGT
TGTTGCTTTGTTGTTGTGTCTGTTGTTGTTGTTGGTGTTGTTGATTCTCA
CATCAGCTCGAACCACCGAAGTCTACAGCCCGTGGTCACAACAACCAGAC
ACATATCGTGCTGTAACATGATGGGAGAAAAATTGAAATATAAAGGAAAC
GAACGATTTTTGTCACCCAACCAAATCAGATACTGTTAGGGGTGTCATTC
GTATTTTTTTTGTGAAGGTTTTTTTTCAAAAAGCGTCCGGATCTTCCTAG
GTAGAACATATTTTCAAGCCAAAGATATTTGGTTCTTCGAGCGACGTCGC
TCTTCTATTGTACTGGGCAGCCGACTTGCTTCACCTTCTGCTTTCTTGAA
CTGACTGATCGTACGTAGCACCACGAGCGCGGACACTAGTGGCTTAGAGC
TTGGTCCGTGCATACCGGGGTAATGGCGGTGTGATTTCTCCCGTCTCTTT
GTATAACAGCAGCAGCAAAAACGACAGCAAAACCACTAGCAAGAAACGAG
AAAACATAAGGGCTGAATCAACGTTGAGGTCGCCTGTCGCGTACGCGTCT
CTCCTGATTTCACACCCTTCCCAGCTAACTTTCCCTGCAGCAGCCGTGCA
AGTCATCGGGAATGCAATGGCCACGGTCGCTGATCGTGCTTCACATCGCT
CAGCACGCGTCGCATCAAGCGGTCTCACAACGAGGGCGTGTCATGCTAGC
GCTTAGTACAAGTTTAGTCATCTAGCAAGCAGAACAAGAATAATCTGGAA
AAGTTTTTTTTCGGTCGGCCAACCCGGACTAGGTTCCATCTGTCGTTTGG
GGTCAGAGTAGGTCATTTTAGGATGGCCTATCCTCCTCAGCGGTGCGTGC
GATTCGAGTGCCGTTTCTTGCATCGCGTGCTCCGAGTCCCACCGCAACGG
ACTGTAAACTCGTTTTTTTAGAGGCTTTTTTCTAAATACGGAAGCAGCTC
CGCTCTTACGGGAGAAAACACCCAAAAATGACCCTTTGTTTTTTGCTTCT
CATCGCTACTCTGAAAGTAAATGAAATTCGGAGTTTGCAGTCCGCTGTGT
TATCACCCATGCACAGGGGTGGGCATCGTACACATGAAGATTCAGGTCGT
GATGATGCTGGAGTACTTCTCGATATGAAACGTGCATGGTGGTTCTCTCA
AATCAAGTGATTTTGGAAATAATTATTTTGTTACCTGGGTACCGTATTTT
TTTGGTTTTTTTTTTTGTAGCACTTTTTCACGCGCATTCAAGGCACAAAT
GACACCCTTTCCTGTAGTACCGTTGGGGTACCTTCTGTGGTGGCCAAAGT
ACAATAATACAAAAATTGCAGCACGGGGAGTCGTTGGCGGGAGTGAGTGT
CGGGCAAAGCACTGTTGTGCACAACACGGGGACAGTGGCCGTGTTGGAGG
AATAATGACGTGCGGCAGTTGGAGACGCCAAGTAAGAGGGCCCTTCATTC
GTCGACGAGCTGCGGAAGACGCGTGCTCCTCCGCCAGCAGCAGCAGCAAA
AGGAAGTAGGGGTGTGACAGAGGGTATGCTGTTTCTCTCACGGCATGTTA
CAAGCGTGATCTTTACTGTTTGTTGTCAACAACACCCAACACAAGGCCCA
ACACACGTTGGCAACAACGCATGTAGCAGCTTGTTGTCTGCTCGCAAGGG
GGGTTCGTGTTTGTCGCGCGCACGGGCACAGACTGAACTGTTTGGCTGAT
TGATTTCAAGCCGAAGACCTGCGTGCGGATCGACACCCGTTTCAGGGCAC
CAGTTGGTGATATCCGGAAGCGGACGGGGTACTTCGGAAGCGCGAAGCAA
GTTGGTGCAGATCGATACCCTTCTCAGGGCATCAGCTCAAAATGTGAAAC
CTGAGGGGGGTTGTTCCGAAGCATCAATAGCTGGTGCAGATCGATACCCT
TTTCAGGGCACCAATTCAGTAGCTGCAACCCCTAAGGGTTCGTCCGGAGC
ATGAGGACTGGTGCCCTGAGAAGTATCTGGCTCGTTCTCTGGAAAGAGCC
ACCTCAGGTCCCAGCTTTTGAAGCAGTGCCCTGAAAATACCGAAAAGAAC
CACCTCAGGTTCAAGCTTGTACACTGGTGCCCTGAAAATATTTCATGCTT
CTGAAAGGTCCCTTCAGGTCCCAGCATTTTGAACCCGTGCCCCGAAAAGG
TGTTACTGTACATGTTTTCAGGGCACCGCTTCAAAATCTGGAACCTGAGG
GGGTTTTTCCGAAGCAGTAGCGTACCCCAACAACGATATCAATCTTTTCA
GGGCACCAGTTCAAAAGCTTGAACCTCGGGAAGTTCCTCTGAATCATGAG
GCTCCTCATGCGTCGGGAGAACCCCCCGAGGTTCGAGCTTCTGAACCATT
GCCCTGAAAAGGGTATCGATCTTCACCAGCTTTGTTCGCGCTTCGGAAGT
ACCTTCATCGCTTCCGCAGGGTACCGATGCGTCCTTACGTCTTTGGGCTC
GAATCGATCAGACAGCTCAACCTTACGTGGAGACACATGACCCCCCCTGG
GAGGAGACACGCTGCCACCGCTGTAGCACGTACCGACACTCGGTCTTGTC
TCGTGCCGAGTGTTGACAAAATAACGAACGCTTGCAATACACCGTGGGAC
ATCCTCTGTCGCACCCCTACTACTACCAACGTCTGCTGTTACACCTCTAC
TTTCTCTTGTTGTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGGAGGTGTC
TTCGCAGCCCGTTGACGCTACGCACACACGAGGGTCATTTTCTTGTCACG
GTAACTGCTGTGTGTAGCCTCTTCCGCCGATGCCTCGGAAAATCGGGAAC
GTCCACGGGAACGCTCCGGGAACGTTCACGGGAGCGCTCCCGTTTTTCCT
CGGCAGCTTCTTCCGTCGGTGCCTAGGAAAAACGGGCACGCTCACGAAAA
CGTTCTCGGGAACGCTCCGGGAACGCTCCGGGAACGCTCCAGACAAAACC
CCACCACGTCAAAGAGCACGATTTTTCGTTTTTTCGGTTACCTTGAGTCG
CAACGGGAGGGGATAAGGGTCTGGCTGTCATGATAGCGCCCGCTGCTCCG
GAAAAAAAAACGGAAAAAAAAACGGGAAAAAAGAGGACGCATCATTCAGT
CACCCGAAACCGAGGAATGGAGAGCGCTTTTGTCTTCTGGAGTGTCCACG
GTTTGACTCGGAAAAATTCGGCGGTGTAGAGGGTCGGTCGAACCCGTGAC
GCGGCACGGTAAGGGCAAAGTCAAGCGCCGCGGGATGAAGGTGGAGAAAA
GGAGAAGGTCCTGTGTCGGCCTTCCCCCTGTCTGGCTTTTCCCCGGAAGG
CGAGCACCGCAGGAGGAAGGTGGAGAACAGGACGAGCTCGTGCGTTGGCC
TTCTTCCTGTCTGCCGTGACCCCGGCTGGTGCTCCCGCACACGTGATATA
CCGACAGGCGTAGGCTGGCGTCCAGCAGACAGCTGTGCTTCGAAGTTTAT
TACAACACACGCACACACAGCAGTCCAGATGTTGGTGTAGTTTGGGTTTG
GCGTGGTTTGGTTTGGTTTGGTTTGGTTGTGTTTGCTCTTTTTGTTTTCA
ACTCCGCTCCCCATCTCTTGCATGCTACTCTTCTTGCTCTCGAGAGCGAC
CACCTTTCGATTGTGTTGCGCCGCGGTGTTAACCCCTGGCTCTCTTCTTG
CGCGTTTTTTTGTTTTTTTCGTACTGGTTCTGATTCGTTTCGTTGCTTCG
TTCCCTTGATCTCGTTCCGTTCCGTGTTGTTCCGTTTCATCTCGCTCCGT
TCCGTTTCGTTTCGTGTTGTCTCATGTTTTGTTTCGTTTCTTGTTTCTTG
TTTCTTTGGCGAAAAGATACGGCGCGAGCCTGATGTGCTCCAATGTGTTC
ACCACCGACTCCGCCAAGTGGCGCTCCATGGTCGGGATCGGAATGTTGCC
ACCCCTTTTGATCTTGGCCTGCCTTTCGCTCATGCCGGAGTCACCTCGGT
GGTTGATATCCAAGGGAAGGGATGCGGCGGCTCTCGACGTGCTGAAGAGG
GTGAGCGTTTATCTTTTTGCAATTACTCTGTTTTACTCTAGTGTTGAAAC
AGTTGTTTTTTTCTTCTGTCATCAACAGCTGCCTGAACCGGCACACCTAC
CCGACCGATCAACCTACCGACGACCGACAGACAGCCCGACAGCCAGCCAA
CAGACCAACCGAGATGGGGTGGGTAGTTAGGTAGGCGGGTCGATTGGTGC
GATCGGAGAGAGGGGGGGGGGTTGAAGTGTTTTTGACCCCCCACTCCAAT
CGTGTCGTTTATCGTTCCGGAAATGTATTTCTGGTTGGCGTCGGTCGGTG
GTGGCGGTTCAGGGCTGGTGCCGATAGAAGTTTTCTTCGAAATATTTTGT
TTGCGTTGTTCGTGTACGAACGACTCTGCTCCTTGGACCGCCCCGCACAG
GCAGTACCTCCTCCTGTGGTTTTCGTCTGCCACATCTTGGTCGAGGAGAC
TGCCGGGGGCTTCCAGATTGGTTTTCGTGCAGCCTTCTTCGATACCATCC
TGGTCGTATCATACCGAAAGGCTTTCTTTCTTTGTTCTCGGGGAAGCCGG
GGGCACCGGTTCCACCAAGGCGCACATCACATGCATGATGCAATGCGTCA
CGTTTTCCTCGGCGTTAATTTTGCGGGCTAAAGGTTTATTGCCGTACTGC
GTGAAATTGGTCACGTTCCGCTCATGGCTTGCTTTCGTCCCCCAACAACG
CACACAACTCGGCGCGCGTTCAATCGAGTTTTTTTTTTTATTGTGAGTAA
AACTTTCCCCCCCCCCTTTTTTCTTTACCCCTGGTTTGGATTGTGTGCGT
GCGCGCGAGTGGGGTCCGGCCCCATGGAGAGTGCTCTTGTGTCTTGCGTT
AGCGTGTGTGGAGAGGCTGTCCTATTTTCTCGTTTCCGAGCCGGCGCCCA
CCTTTCAGGACGTCGCCTCGTGAGATGCGGGTTCGAGACCTCGTTCCTTT
TGTGTACCCTTGCATGAAAGCACACCATTCTCACTTGCTGTGAGTTTGGT
TTTCGCCCCTGCTGCTACTGCTCATGCCGGCCGAGTCCGTGTTCGTAGCT
GCTGGCCCGGCCCTTGTAGAGTTTCAAACGACACGTGCTTTGGTGTTTGT
TTCGTCACCTTATGGTGTGGTAACACTGCTGGTGCTGCTAGTGGTGGTGG
TGGTGGTGGTGCTGCTGCTGCTGCTGCTGTGTGTGTGAGATTGTTTGCAA
CCCTCCTGTCTGTCGGGCGTGGATTTGCCTTCACCACCGCCCACCGCCCC
TTTGTTGTGCTGTGCTGGTGCTTTTTTGTGTTGTGCTGTGCTGTGCTGTG
CTGTGCTGTGCTGTGCTGCGCTGTGCTGCGTCCCGTCCAAAGGTGATGGA
CAGCGACGAGGAGGCGGAGAGAGATCTGGAGACCATCTCGCAGGCCACGT
CTACCCAGGAGGGTAAGAAAGACCGCATCGCGGCCAACACCCAAACTTGC
CGCGAGGACACATTGCAGCTGTCTCTCACGTACACCCCATCATGCCGAAT
CAATCACAATTTGTTGCCTTTACGTAGCTCTGCGAGAACAACGGTCTTGG
ACAAGCAACCTTCTACGTGCATCCAAACAGCTGTTGGTCTGATAGCAACG
GTGTCTGATAATTGTTACCCTCGTGGCCACGATACAGCAGTACACGCGCC
GACAAGATTTCCGTCCCTTGTTTCGCGAAATCAGTGGTGGCGTGAAGTCA
GCCTTGAGACCGTGGCAGACACATATTACATCGTACACGAAGAGAGAGAC
ACGATTTCCGTCTCTTTTTTTGTTTTTTTCTTGGCAGACATATCATATAG
CATACACGAGGAGGCACAATTTCCGGGGGGGGGTTTCTACTTTTTGCTTG
GCAGACAAATGGTCGGAGAATGTGAACGAACCAGTCTTGGTGTCCGCAAT
AGACGTGGCAACTTAACATGTCCACCATTTGTTCTCCGCGAGATCTGTGT
TGTCGTGTCCAGCCCACGGCAAGCCCCACAGCACACTCCCAACAGACACG
ACGCTCATCGATGCCCCCCCTATTTGCCCCGCCCCTCCGGGTTTCCACGC
CTTTCTGTTGGCGTGTTCAGCCACATGGAGAGACGTTCTGCTGCCGAAAG
ATGAGACTGTGCGGGCGGCGATGGTGCTCGGGGTCGGGCTAGGGTTCTGG
CAACAAGCCAGCGGGAGCGAGGTGCGCCTGATTTATTTTTTTGCTCGAGT
TTTTTTTTCGGCTTTACTTCTCACTTGTGGTATCGTGCTTCACGATTGTT
GTGGTGGTCTTGTGGCTAAAAAGCTCAACCATTGTGGCTTCATGCTTTTA
AAAATACTACAAATCTATTTGTGATAAAACATTCCGCCACGGGGCCCCTC
TGGGGGGGGGGGGGTGTTGGGGGGGTGTTGGGTTGGGTTGGGTTTTGAGT
TGGGATGGGTTGGGTCACCGTATGGTTGGGTTGGGTTGGGTTGTGTAGGG
TTGCGCCTTCCCCTCTGGGGGGGTACCGTATGGTTGGGTTGGGTTCGGTA
GGGTTCCGCCCCCCCTCTGGGGGGGGTTGGGGGGGTACCGTATGGTTGGG
TAGGGTTGCGACCCCCCCTGAGGGGGGTTGGGGGGGGTACCGTAAGGTTG
GGTTGGGTTGGGTTGGGTTCGAGGGGTACGAGGATGGGTCGGTGCGTGCT
TTTGGGCGTGCTTTCTGCAGGAAGCAACACTCTCTGCTTTTCCCGAAAAA
GGGGGGGGTTCAGTGAATGCCGGTTATCCTCGATTCCCAGATATCTTCTT
TAGCGGGTAGGGGGTGGGTCTCGCCCATGTCAGGGACATGCATCTCCACT
AGCGAGTGACATCGAAAATGTCGACGGGGATATGAACAGCAAAATCCCGA
TCTTAAATAGCGCCCGTGTGGAAACCCCTCTAATCTTCGGATGTGTCTCG
CTGGTCTCGGGCCTGCTCCGGCCTGGTGTGCTGGGTGCGTGTGCTACTTA
CAGCAGCAGCAGCAGCAGCAGTAAGTGCCTTTCGGGACACACACACTGTG
ACACAGCAATCATCCTCGGTCGAATTCCCGTGAGTACCTTTCGGGACATC
CTCTACTACTGTGACACAACTCCAACCAACAACTAACTGTGATTCAGCAA
AATCCGCTGTGTTTTTTGTTTGCTGTACTTGCTGTGAATTCCATTAGCTT
ATTTCTCGGTCAAGTGGAATTTTGCCCTCCCCGCTTTTGTGTGCTGTTTC
TGGTGGTTTGGTTTGCCCGTCTCAATTTTTGTTATTGGATTTGCGGGTCA
AGTTGGGGGTGAATTAATTCGTCATCACGAGGTCCTCCTGCTTTCGATAT
TTCAGCCGTCGTGTGGCGTGGTGGTTGGCCTTATGGGCTTTGTTGTAGGC
AAACGTACACAAGTATATGTAGGCCGTGTTCCGCGGTTCGTGCCCGGATG
TGTCCACGAGGTTTTTCGAGGCGCACTCTTTGCTCCGTGGAAAGCGATTT
ATTCGTGAGTAAACAGAGGAAAGGGGGTTTTGCTGAACCCGACTCGCAGT
AAGAACCGAAGGCAAGTATGATATGATATGATACCCCAGGAGGAAAAGGT
GTGCGCAAATAAAACAAAATAATAGTAAAACAATTTGTGAGTGGTCCTCC
TCCTGTCTGTGTGACCCCGGCTGGTGCACCCACTTCATATCGAAAGGTGT
ACCGTATATGACACAAGATAACACACCCCGTGTTAGGTTTTTTGCATTCC
GTATTACTCCACAACCAGGAGGGTGCGAACATCAAACAGCCCGTCATACG
AAAGCTCTCGACGAGATCTTTCCAAAACCACCCTTTTCGGCAGTGGCACC
CTCCTGGTCGTGGAGCTATACGGAATGCAAAAAGCTTAACACGGGGTGTG
TTATCTTGTGTCATACACGGTAGACTGGTGCCCAGAATGAATGGGAGGGC
AACACACACACGCACACACTCACGTGTGCCATTTCGCGCGCTAAATTTGG
CTACAACATGCACGGTGAAGACCCGAGCAATGGCTCGCGACCCATCTGTG
GTTTCGGCTCAGTAGCGGGATCCGCCGGGAGGGGGTTCGCTTTCCCTTAA
GGGCTGTTGCTTTCATTTCCGGCTGTGATCCCGGAAGTTCCTCGTTTCCA
TTCATCCGTTGTTCGCTAGCCGTTTACCAAGAGCGGATGGTAAGACACCC
CAGCGCCTGCTCCACGCCAATAGAAGACAATTCCCCGCGCCATCCGACTT
GTGTCCAAAGCGGTGGTACTGCCTGCAGTCTTCCGCCTCCCCTTCCGCTG
TTTTTTTGCGGTTTGCTTTCTTCGCTTTTTTTTTTTTTTTGCGCTCGGGA
GACAACCACCAGACCACCACGTTTTTTCCGTGTTTTTTCTGCTGCTACTT
TGCTGTCCTCGTGGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTTTGCTGTTGGCTGGCGGCACACCTTCGTTCTCGGATGTG
ACCGGCCCGTCTTTGACCTGTTCCTCGCTGTACACTCTTGCCCCACCTCT
TTCGCCCCTTGGGGTTGCTTGCTGCATACGATACGAACATACGTGATATA
CATTCATTCACATATGCGTCCATGCATACATGCATGCATACATACATACA
TACATACATACATACATGCAAACATGCAAACATGCATGCATACACCGCGG
TCTCGCTCGACAGAAACCCCCATCCCCTGTTCGGTCCGGTTCGCCTCCCG
CTTTTGTCCTCTGGTCCTGCATGACTATCGCCCTGGACTGCGGACTTGTG
CGATGCTGGTTCTGGCTTTGACTCCCCGGTGCACGCCATGGAAACCTGGA
ACGGCGTTCTGGTCAACCAGGCAGCGGTCTACTACACACCAGAAGTCCTC
AGGAACAGCAACAAAAGGTAAGGACCCCCCCACCCCCTGGCCCTCTCCGG
CTTTCATACAAACCTCCCCTCCGTAATAACACTAGCTCGTTCTGGTGAGG
TAAATTACGGCTAGAAATGTGACCATTCCCCTCACCCTTGTTGGATGCCT
TACAAATGTGGTTCCGCCGTTGTTTGTCTCGTCCGTGCTCAAGTCGCTCC
TCTGGCTGGTTTTTGGTTTTGGTTTTGGTTTTGGTTTTGGATGGTTTCGG
TTTGTTTTGCATGTGCGGCCATGTATCTAGGATGTGCAGAATCATACTCC
GTATATAGCAGATCATGCCGCCGCTGTGGCCTTATTTTACTCTCGCCCGT
CGCGGACATGTTCGTAGGAGCCAGGGGGGCGGGTGGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGCGTGTGTGTGTGCAGTTCCCGGCCACCGCT
CGCCGTGTGTTTGCTGTCTTCGTGCTACAAAGCTTCCCCACCCCGCCCGA
CCACACCCCACCCAACATCTTGCTACCAAGCCGCCCCACCCCAGCCACTC
CGCCGCCGGCTAACTCGTTCGTGCCGAACCTCTCTTCTCTCTGTACTGTT
TCATCCTCTACGGTATTGTTGTTGTCGGTCCTCACATTGGCTCACCACCC
CCACAGCGTAGCACCGTGGTCACGAGCCAGGCACATATCGTGCTCGAGGA
GCAAAATAATGTGTGTACACGTGTTATATTAATGTTTATGTATGTACGGT
ATTGGTGTTGTTATTGTTGCCGTAGTTCAAGGTGGGGCGAAACCCAGATT
TTGTTCGTCAGAGAGCTGGTGGTAATACCGTATTCTACACAAGATACCAC
ACCCCGTGTTAAGCTTTTTGCATTCCGTATAGCTCCACAACCAGGAGGGT
GCCACTGCCGAAAAGGGTGGTTTTGGAAAGATCTCGTCGAGAGCTTTCGT
ATGACGGGCTGTTTGGTGTTCGCACCCTCCTGGTTGTGGAGCAATACGGA
ATGCAAAAAACCTAACACAGGGTGTGGTATCTTGTGTAGAATACGGTAGA
TCATCACATCCCACCACGCATACACCGGGGTCCCCGTAGATCAGTGTCTA
GTGCCGGGTACCCCAAATATATTTGTATCTTAATTCGTTGCCCAAAAATG
TGTGTTTTTTTCTTTTATTGTTGTTGTTGATGTTGTCCAAGGTGGGGCGA
AAACAAGATCTTGAAGGGGAACATTGGCGTCGGCGGGTTCAAGCTGCTGG
GCGAGGTTATCGCCTTCATGCTGCTCGACAGGTGCGTTTTTTTTTTTTGC
TCTTCTTTTTTTTAATGTCTTGAGCAAACACTTGGGCTCGCACCCGGCTC
AAGAAGTTGGAACCGGATACCCGGTGGGGCTACTCGCTTCCGGGTACCTG
AGGAGGTCGGGTACCCGGGAAGGAGCAGGGTCATACCCGACTCAAAAAAT
GGAACTGGGTACCCGGTGGGGCTTCTCGGTTCCGGGTACCCGGGTAGGAG
CAAGTCGGGTGCGAGCTCAAGCGTACACGGTGTGCAGGGTTCAGGCAAGA
GAAGGTCTACTTTTTGTTTCAAACAAGAACGGAGAGATGAAGACAAGACG
TGGTCAAAAAATGTTATGTGTATCAGATCAGACCATTTATACTCGTACAT
AAGTTCGAAGTACAACGAGCACATACATTCTTTTTATTCCCAATACAAAG
CATGATGTTCACACGTCACATCGCGTGCATTTTCACCTTTCGATGTCCAA
AATCCACGCACCCCGTGCGTGAATCACGTGTCCAGACACACGCACACCCG
GCAGACTAGGCGGAGAGAAGCCATGAACGAATGGTACACGTCGTATCGTA
GACCAGTACAACAGAATAGCGTACCGAAGGTCCCGCAAGACATCACGGAA
CCACCGCGGGTCGAATTTTGACGTTCGGTTACGCAACATCGAAGAGAGTG
GTTGCCAACGTCGAACGGTGACGAGAGGGCGGTTGCCAACATTGAACGGT
GACGGGGAGGCTGCCAACACCAATATCATAAACTAACGACCTACACTGTA
ACGGCTATCATCAAAGGCACGCAAAAAAAACGACGGCACCGGCCGTGGTT
CGATTTTGGACGTTTGATTACGCCACACTGAAGAGGTTGCCAACGTCAAA
GTCATAGGTTTTCGGTATGTTCTCAACGATATACATGGTTCCGAAGCCAA
CCCCACTGCTTTTCAGTTTCGGGCACGCCAACGCCCCTTTCCATTTTTCA
AATCCAAAACACCTTCTTTCATTTTCCAAGTCCAAAACGCCTCTTTTCAT
TTTCCAACTCCCAAACGCCCCTTTCCATTTTTCAAATCCAAAACGCCTTC
TTTCATTTTCCAAGTCCAAAACGCCTCTTTTCATTTTCCAAGTCCAAAAC
GCCTCTTTTCATTCTCCAACTCCAAAACGCCCCTTTCCATTTTTCAAATC
CAAAACGCCTTATTTCATTTTCCAAGTCCAAAACGCCTCTTTTCATTCTC
CAACTCCAAAACGCTCCTTTCCATTTTCCAACTCCAAAATGCCTCTTTCC
ATTTTTGGCACTAATACTCTTTCTGCCGTGAATTGTATTGTAGTGGGGCT
TTAAAAATCGGGCAAGGGCGTCCCGTGTGGTATTTTTGCGTCCTCTGGTA
CTACTACTTAGGCTTGTGATATGTTTTCTTGTTTTGTTTGTGTGCACAGA
ACTTGTACAGCAGCAGAGCAGCAATGGCATAAAACATCCGCACGGCAAGT
CGTTTCGATGCTGCGGTTCTCCCCAGATTGTCTCCCCTGTCGTGCCAGCA
TCCATCCGCTCTCAAGATCGGCGTGTTTTTGTCGTCGATACCGAATAGTC
TGCGTGCGTGTGAGCATCAGCATGACTGCTGTGTTTCCCTTGCGTGGTAT
ACATACCACAGCAGTAGTGTTATTTAGGCTGCAACGCAGTCAGTCAATAC
GTGAAAGAGGAAACTAACACACAGGTCAGAGTCTCTGATGCGTGAGGAGC
ATGTGAAAAAACCCACCGAGAAGAGGCAGAGCCCCGATACACACAGCAGT
CCCCCCTCCCTCCCTCCCTCCCTCCCTCCTTCCCTCCTCTTCCCGAACGC
TGGTCGAACACAGGATCGGGCGCCGCCCTCTATTTTTGGTGAGCAGCGTG
CTGGTGACGCTTTGCCTGTCGATGGTGGGGAGCGCCTTCCTCTTCCACTG
GTCAAGCTTGCTGACCCTCTTCTGGCTGTGCATGTTCATGTTCACCTTTT
CGCTGGGGCTGGGGCCCGTCACCTTCGTCGTTGCTTCTGAGGTGCGTAAA
CTAAGCCTGGCCTGCATATGGAAATTTCCGCGGAAGTTTCCGCGGAAGGC
ATGTCCGCAGGAGAGGGGGGGGGCGGGGAAGGGAGGTCAACTCTTGAGGT
ATTGTGTTGTTCGGATAAGCCTAGCCTTAATCGAGTGTACATCGTATTTG
CTGTTAAACCTTTACGCTGGGGCTTGTGCCCGTTACCTTCGTCGTTGCGT
CCGAGGTTCGTTAAATATCCTTGACCCGCAAACGGAAATTTCCGCGGAAG
GCAAGTCCGCAGGGGAGGCGGGGGGGGCGGAAGAGAGGTGTATGATAACC
TTGAAGAACTGTGTTGTCCGAGTAAGCCTCGCCTTGTACGAGTATACACC
GTTAAAACCGTCTTGATTTGTGGACTCTGTGGTTGCTGTCAAACTCGCAC
TTTACCGTGAACCCATGCACTGCTGTTCCAACGACCAAGGATATTCAGGC
GCAAGGGTAACCAACAGCGGAACACCCTCTTGGAGACGGGGCGTTTCAGC
TGCGCGGTCGGCCGGTTGAAAAACGTTTTTCGCATGGCATGGCGTGGCGT
GGCGTGGCGTGGCGTGGTGTGTGTGTGTGTGTGTGTATGTGTGGTTGTCT
TCCCATCTATTCTGTACGCCACACTCTAAACCTGAAGGGATAGCAGTCAG
ACTCCTCCGGCCGGGGCCACACAGACAGGAGGAAGTCTACACCTTTTTTT
GTGGTATATACACAATACATATTGCCTATCATATCTGTGCACTTTTTTTA
CAACGGATCCTCCTGACCCACCGCGCGGCCCCTCTCCCCTCTTCCCCGAC
GTTTCTTTGTTGAAACCCCCCTCTGGCATTTTTTGTTTTTTTTCTTCGCG
CGCCATGTATCTGGATACCATGTATAGATATTCCCGGTGGCGATCAGAGG
GAAGGCAATGTCGGTGGTGATTTTTGTGAACCGCATGATGAGCGGGGTGA
TCGCGCTGTCCTACCAGAGCCTGTCCGGCGCGCTGACGCCGGCGGGATCT
TTCTACTTTTTTGCGGCGCTGTCGGCCTTGTCAGTCGCCTTTTACTATTG
CCTGGTGAGTTTTATTTTCCTGAACTCTCTTGCGGAGTGTTGGCTCCTCA
AGTGAGTAGGGGCGGGGTCCGATCGGCCTCGCCGCCCGACACCGTGTTCC
ACACACTTCGGAGTTTTTTTTTTTTTTAATCTCCCTCGAGGAGGGGGCCT
TCATGGTACAGGGTAGGGGCAGGGCCGGCATCGGCCCGATTTATGTTCCT
GAAACCTTCAAAAGTGTCGGTTTCTTTCTCTCGACTCAAGACTCAGGCGG
ATGTTGCCAGCAGTGCTAGAAGAAGATGTCCAGCGGATGAGTTTTGTTGA
TTGCAGGTAGAGCACGAGAGGAAGAGCAAGAAATCGAAATCAATCAGCAG
GGTGGGGTGCGAAATGGATTCGGGTGTCACGCGTTAGATTCTATTTTTCG
CGGGCGAGCGCCTACCCAACCGGTCGCCAACCGGCCGATTGGTCGAAAAT
ATAACTGAGCCAAAGGTTGATGAGAAGGGTCTCGGGAAGGGTAGCGATGA
AAGCGCGCGTGTGTTCCACAGGGCATTTCTGTTTCTTGTGGAGGGGGCCT
TTCGTGGTGAAGGGTTTCATGCACTCCCACGAACGTCTGCCGAAAGAAGA
CAGATACTACAAGAGTGTCTACCTCTGGACGATGAGTGGCGTCGGCGAAG
AGGTAGTCTGGATTTCCCCATTCACACCCTCCTTTTTTTTTTTTCGTCAG
TAGAGGGTACATACATACAATGATGAGAGAACAATCATTGCGTGTTGTGA
CTAACAACGATGGTTCGATAATCTGGTATGAATGATGTCCGGGCTGTTTC
AGGCTGATCATCTTGAAGATTATTCTTGTCAAGTACAGCATTGTTCCATG
CTTTCCTTGATGTCTTAACTAAAGCAGTAGCCTGTGTCGTTTCTTCGATT
TTCCATCTTTTTTTTTTGTCACATGCCAATAAATATGAAATATCTACATG
GCTGAACAGTGGATTGAATCAAGCCTCTCACCGACGTCGTTTTTCTGTTG
TGCCCGATAATGATAAGCGAAAGCCCTGGTCGACGGAAATCTTGTGTATG
CTGGCCTCGTAGACACCGGTGAATTTGGGGGCCGCCCACTCCTGGAACGC
CCGGACAACTTCCTGCAGGGCTGTATTAAAGAAATTTTGGGTTGTCGTGT
CCATCACCTGATCCAACTGCACGATGGCTTTCTGGAGCTGGGTGTTGAGA
GTCACGCGTATCGAGGCCTTGGTGGAACCGATGACGCCCTTGATGTCGCG
GACCTTCCTATCCAGGTCTTTTGTACACAAAGTGCCCATGTCTTTTTCGA
CGATGTCGGAAATAGTGTCGGTGGACCTCTTTAGTGGAGGCGGCACGCAC
CACAGAAGCGAAAGTATGATGTTGGGGGGGTGCACGGAGAGGAATTCTTC
TGTGTGACCACCGCTCTGCCGAGTGAAAGAATGGGAGACTAGACCGGCGC
AAGAAAAAAACAAAAGGCTCAAAAGTAGCCGGCGCGGACAATGGCAGACG
ATACGCGCGGCTCCAAAAAATCGTGAATGCAAGAAGTGGTCGCTGTGGTT
GCGTGAAACTCACGCACTTGTCAGAGGAATGCTTGATGATAATTGCCGCC
GCCACGGCATTCGCCAACAGCAGCAGCAGCAACAACAACAACAACAACAA
CTACTACTACTACTACTACTACTACTACTACTACCACTACTACTACTACC
ACTACTACTACTACTACTACTACCAAGAAGCATGGCCAACGTTCGTCTGA
TTTTCGGTCCCTGCCTGTCGAACCGCATGTCTATCGTGTGTGTCGGCGTG
TCTGCGTGTCTTTTCATCCCACGTATTATATGATACCTCTACTCGTGTGA
ACCTGTACGAAACTTCTTTGATACAGGTGCCCGAAACGCGTGGGAAAACC
CTGGAAGAAATCACCGCCGATCTCGCATCATCGTCGCCCCCCTCGCTGCC
CGGGTCGAGAGGGTTGGTCGCCGAGGGCGGGCCGCGGCACGTTCCATTAG
CGGGGAGTGACGAGGAGGCGGACTAATTTCGAGCCAAGCGAAGCAAGGGA
ACGACGACGATATGGTGGGGACCGACTATCTCGGAGAAGGGAGCAGCAGC
AACGAAAGAGACCGTTCGCACAAAATATCACTCGAGAGAAAAAAGCTGGA
AAAACTTGGAAAAAAAAAGCTTTCCGTTTTCGATCGATACGATATCGTGG
ATTTGTTTCTTGTTTTTTCTCTGATTTTGTGTGTTGGCCCTTCCTTTTCG
TGTGTTGCGTGCGCGAATACGATGTAGTCGACTAGCCCTGTGCTCAGGCA
GCATCATCGGCGAAAAAGAGGGAGTTTGAGAGACAGAGAGACACTGCCAG
AGAGGTGGCTGTCATATTGTTGTTCAATTTTTGTTGTTGCTCAACGGTTG
TCAGGCTCGTTGTGCAGCTACGACAGGCGTTGTTCAGCTAGTCCGCTGTA
TACTACAAGTAGTGCCATGTTTTTGTGTTAAATCCTGTTTTTTGGAGTGT
ACGACGTCAGCCGAAGGATGTGTTACAAATGAGCTTCGAAGCATGTCGTG
TCGTGGTAGCTTTGCTTTTACAATTTGTCTTCGGAACGTTCAGAAAACGC
CAAGCTTCGTGTATATGATACCGCCTATCGTAGCACGGCTAAGCGCGGGT
TTTTGCTGGTACGTACAGTAGCCGTTTTTGTTTTTGAAATTCTGTACAGC
GGTGATTTGATACAACAAAGTGTGTTATCATGCGATCATGGTGTATATCC
GAGTATTCGTCTCGTGAATATACCAGTAATATATGCATGTGTAAAGCGTG
AGTATTGGCAGTTTTTCCGTCGTTCGCAAGACGAATATTTTAATTTCGTG
TTTTTTTCCTCTGTCCAATCTGAAATCGATATGTACACCTTGTTTGTACA
GTACCTGTGGGCAATGAAAGCAAAATGAAAAAAGAAAGAGCTCGTGTGTG
ACCTTCCTTCTGTGTGACCCCGGCTGAAGCACCCACATCATGCCGAAAGT
TGTAGACTGTTGCCCAGAATAAATGGGATGACACACACACACAGCAGCGG
GATCCACGTGAGAATAAATAATAAAATCGCCCTTTGCTGCTGTCGGCGAG
GGCACGCAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig786:31025..58383+

>mRNA_P-littoralis_Contig786.3.1 ID=mRNA_P-littoralis_Contig786.3.1|Name=mRNA_P-littoralis_Contig786.3.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2130bp|location=Sequence derived from alignment at P-littoralis_Contig786:31025..58383+ (Pylaiella littoralis U1_48)
ATGCAGAGGAACGGTGGCACAGGACAGGGGCACACGGCCACCACCACCAC
CAGCGCCAACGGCAGCACTAACGGCAACACCAACGGCAGCGCCACCAGCA
CCAGCAACGGTAACAGCGGCAGCACCAACGGCGACAGAGCTCTATCCCCC
GCCAAAAAGTCGGCGAAAAATTCCCCGGCCCACGCCAGAACCGCGAGGAA
CGGCAGCGGCGCCGGGGGCTCCTCGTCCTCCTCCCGCCATCACAGCCACC
GCCGGATCTCTCTAGAAGAGGGCATCGAGCTATCCCGAGAGCCTTGGCGC
CAGGCCGAGGTTGGGCCCGGCTGGGAGTCCGTCGAGAACGAGGAAGTCGG
GGTCGTCATGGGCGGAGCCAGCAGTAGCAGACGCTCCGGTGGGAGCGGAT
CAACGGTGTACGATGTGGTGGAGCGGGAGGAGCCGCTGCTGGGCGAGGAG
GCGGTAAATGGGGAAGCCAAGCAACCGCGTGACCAGAGCAAGGCCACGGA
CCTCCTGTGGACCGCGGGGGACAGCGCTTCCCTGCGGCCGGGAGGAGACG
CGTCTCTCGGCCCCGCTTTCGTCCGGCACGGGAGGTGCGGCGGTGGCGAA
GAGGGCAAAGACGGCCAGGTCTGGCTCTCAGACGGCAAGGGCCGCAGCAG
CAGCAGCGGCAGCAGCAGCAGGGGCGGCAAGTGGACCATCTCGGGGAGAC
CGCTGGTGTACCTGTGCGCCATATGCTCGTCGCTCTGTTCTATCCTGCTC
GGGTACGACGTCGGGGTCATGTCCGGGGCGAAGGAGTTCATCAAGCCCGA
CCTCGGCCTCAGCACTGTGCAGAATGAAGTTATGGTGGGGTCCCTCAACA
TCGTCGCGGCCTTCGGCGGCCTCCTCGCGGGCAAGACGGCGGACCGCCTG
GGTCGAAAGCCCACGACTGCCCTGGCGTGCACCGTGTTTATCACGGGGGC
CACCATCATGAGCGTGAGCCACGGCTTCTGGCTCCTGCTGGTGGGCAGGG
TGGTGACCGGGGTCGGGGTGGGATGCGCCATGGTGATCGCCCCGGTGTAC
ATCACGGAGCTGGCGCCCCCGGATGTCCGGGGCATGCTCGTGTCTCTCAC
GGACATCTGCATCAACATCGGCATACTGTTCGGATACGGCGCGAGCCTGA
TGTGCTCCAATGTGTTCACCACCGACTCCGCCAAGTGGCGCTCCATGGTC
GGGATCGGAATGTTGCCACCCCTTTTGATCTTGGCCTGCCTTTCGCTCAT
GCCGGAGTCACCTCGGTGGTTGATATCCAAGGGAAGGGATGCGGCGGCTC
TCGACGTGCTGAAGAGGGTGATGGACAGCGACGAGGAGGCGGAGAGAGAT
CTGGAGACCATCTCGCAGGCCACGTCTACCCAGGAGGCCACATGGAGAGA
CGTTCTGCTGCCGAAAGATGAGACTGTGCGGGCGGCGATGGTGCTCGGGG
TCGGGCTAGGGTTCTGGCAACAAGCCAGCGGGAGCGAGGCAGCGGTCTAC
TACACACCAGAAGTCCTCAGGAACAGCAACAAAAGGTGGGGCGAAAACAA
GATCTTGAAGGGGAACATTGGCGTCGGCGGGTTCAAGCTGCTGGGCGAGG
TTATCGCCTTCATGCTGCTCGACAGGATCGGGCGCCGCCCTCTATTTTTG
GTGAGCAGCGTGCTGGTGACGCTTTGCCTGTCGATGGTGGGGAGCGCCTT
CCTCTTCCACTGGTCAAGCTTGCTGACCCTCTTCTGGCTGTGCATGTTCA
TGTTCACCTTTTCGCTGGGGCTGGGGCCCGTCACCTTCGTCGTTGCTTCT
GAGATATTCCCGGTGGCGATCAGAGGGAAGGCAATGTCGGTGGTGATTTT
TGTGAACCGCATGATGAGCGGGGTGATCGCGCTGTCCTACCAGAGCCTGT
CCGGCGCGCTGACGCCGGCGGGATCTTTCTACTTTTTTGCGGCGCTGTCG
GCCTTGTCAGTCGCCTTTTACTATTGCCTGGTGCCCGAAACGCGTGGGAA
AACCCTGGAAGAAATCACCGCCGATCTCGCATCATCGTCGCCCCCCTCGC
TGCCCGGGTCGAGAGGGTTGGTCGCCGAGGGCGGGCCGCGGCACGTTCCA
TTAGCGGGGAGTGACGAGGAGGCGGACTAA
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