mRNA_P-littoralis_Contig1011.4.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1011.4.3
Unique NamemRNA_P-littoralis_Contig1011.4.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A6H5K385_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K385_9PHAE)

HSP 1 Score: 542 bits (1396), Expect = 2.450e-179
Identity = 311/455 (68.35%), Postives = 353/455 (77.58%), Query Frame = 3 
Query: 1188 MDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIAIGVEDKPPLSKANTKKLIEAAASTAVGHFTGQ--SLAESIASKYREKLDEVIDEGSRACYAAQERQVLNAMNQVNRLRSESRLQVGKKASGILASFPMEVNELIRRWVRLCADVHGQLQSSVEQHLGSGILEDLQGALPTPQQFEDSVSDHLSNLIASNQSQLKSEQDTTILKKGLHEMKEAAAEAKNQADAMQEGIKQLR-------------QESRKNREDEERSQMWKDLASLTMGALHASRSWTAGASGSSGETTDSGSVRTATQATAARSRPARDVDVGPIDNQEHAERKAKDYIAKHPDQEWTGHWKTTS-GGTSVINVRDKA 2504
            M+LRN IRRDL  SFQSIRVC LP PH++INGDRQIAQGEVSPAFAAKV  LR  LAT+L+A+PHSFGN  +VGGEVLSSLLTGVC  VNGGLSNF PLSLMQSIQQGRAETVLSESK LF QS+A  VE KPPLSKA T K+IE A STAVGHFT Q  SLAES+ SKY EKL+EVI+EGS+ACYAAQERQV +A+NQVNRLRSES   V K+A  ++ SFPMEV+EL+RRW RLCA+ HGQLQ SVE+++G GILEDLQG LPTP QFED VSD LS LIASNQS LKSEQ   IL++ L E K+A+ EA  + DAMQ+                   Q++  +RE    SQMW+ + SL +GAL A+RS   GASGSS E TDSGSVR AT ATA R RP RDVDVGPI +Q+HAERKA++YIA+HPD EWTGHW TTS G  SVI VRDKA
Sbjct:    1 MNLRNGIRRDLTRSFQSIRVCSLPLPHDEINGDRQIAQGEVSPAFAAKVNNLRQFLATDLLARPHSFGNEAIVGGEVLSSLLTGVCGAVNGGLSNFFPLSLMQSIQQGRAETVLSESKKLFKQSVAKSVEGKPPLSKAATMKVIEVATSTAVGHFTEQARSLAESVTSKYWEKLEEVIEEGSKACYAAQERQVSDAINQVNRLRSESLQHVDKEAIKLMLSFPMEVDELMRRWQRLCAEGHGQLQRSVEKYMGGGILEDLQGELPTPHQFEDEVSDKLSTLIASNQSLLKSEQGNKILEEVLRESKDASEEAGKRVDAMQKXXXXXXXXXXXXXXXXXRAQQATIDREAS--SQMWQAIGSLAIGALDAARSRVTGASGSSDEATDSGSVRVATPATATRRRPTRDVDVGPILSQDHAERKAREYIAEHPDLEWTGHWTTTSVGRASVIGVRDKA 453
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A6H5JVK0_9PHAE (GBP domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JVK0_9PHAE)

HSP 1 Score: 362 bits (930), Expect = 1.300e-106
Identity = 272/745 (36.51%), Postives = 377/745 (50.60%), Query Frame = 3 
Query:  624 QKPLNLITIWGGARTGKSFFMNALAGV---------AEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTL--------------SSSMSGMNLGAGVQ--PEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQRKDVFGHLIVLLRDVAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIA-IGVEDKPPLSKANTKKLIEAAASTAVGHFTG--QSLAESIASKYREKLDEVIDEGSRACYAAQERQVLNAMNQVNRLRSESRL-QVGKKASGILASFPMEVNELIRRWVRLCADVHGQLQSSVEQHLGS--GILEDLQGALPTPQQFEDSVSDHLSNLIASNQSQLKSEQDTTILKKGLHEMKEAAAEAKNQADAMQEGIKQLRQESRKNREDEERSQMWKDLASLTMGALHASRSWTAGASGSSG----------------------------------------ETTDSGSVRT----------------------------------------------ATQATAARSRPARDVDVGPIDNQEHAERKAKDYIAKHPDQEWTGHWKTTSGG-TSVINVRDKA 2504
            +KPLNLITIWG ARTGKSFFMNAL            +E DVFAV GGS PCTVGA +S TTRSL                          SS+   +   +  Q  P+IGFVDVEGQGDK  +Y+ KL  PLLLLSKVV++NW GLPN+ T L+ L  M  AA+ +   +R+D FGHLI+LLRDV   +E+ AY  IF++ED+     +A   +  RN  R+ L  SFQSIRVCCLP PH  I G+R+I Q EVS  F  KV++LR  LAT+L+ +PH FG+ P+ GG  L++LLT VCE VN G ++ VPLS+M+S+   RAE    ESK +F  +++ +GV+   P S+A+TK L++ A STAV  +T   Q LA +   +  E LD  I + +  CY  Q+ Q+  A  +V+RL  +++   + K+   I    PM   ++   W  +C ++H +LQ  V + + +   +  DL   LPT   F+ S+   L  L+A N                     +  A  + +A+ ++  I+  R+     R+ EE +QMW + A    G     R ++  +    G                                        +T ++ S+ +                                              A  A A  SR   DV+VGPI +Q  AER+A+++IA+HPDQEWTG W TTS G  SVI VRDKA
Sbjct:    8 KKPLNLITIWGNARTGKSFFMNALIAPERDDNNNASSEKDVFAVEGGSWPCTVGASMSTTTRSLEQISXXXXXXXXXXXXXXXXXXXXXRSSTEQALTGASQPQQLPDIGFVDVEGQGDKGDSYDTKLVAPLLLLSKVVIYNWQGLPNRATTLDKLSAMTYAASLLSPEEREDSFGHLIILLRDVTSMQEQSAYDRIFEQEDETVRNTKAGDALKERNEKRKLLQQSFQSIRVCCLPRPHGAI-GEREILQAEVSAEFTEKVSELRRELATDLLVEPHRFGDRPIEGGVALATLLTKVCEAVNDGSNDIVPLSMMESVHVERAEGAYEESKKVFFSTLSQLGVDR--PKSEADTKTLLDKAGSTAVECYTRETQGLARAAVDRGGEMLDLAIAQRAGECYDRQKDQIDAAQAEVDRLIDQAQTCHINKQLVAIRRGLPMRKGQVKSAWNGMCIELHKKLQGDVVKKVDAYKDLSGDLPRELPTLAAFKSSIQGKLDLLLAEN---------------------DRLAAERAEAERIERAIQLERERQACLRQQEEEAQMWWEEAHRERGRGRGRRGYSPSSRARYGYDHTLSPPPTRWHTLSPPRDHGTRYYDNXXXXXXXRRTRCDTLETCSICSXXXXXRGGRSRRASPPPVPYDPXXXXHHRAGVREDISAAXXXXXXXAPAAVATPSRRTHDVNVGPIWDQADAERRAREFIAEHPDQEWTGQWTTTSEGKASVIGVRDKA 728
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: D7FYG1_ECTSI (GBP3, guanylate-binding proteins n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FYG1_ECTSI)

HSP 1 Score: 192 bits (488), Expect = 9.830e-48
Identity = 164/516 (31.78%), Postives = 253/516 (49.03%), Query Frame = 3 
Query:  618 LPQ-KPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQRKDV--FGHLIVLLRDV--AEKEEKEAYSV---IFDKEDDYC-ITDEAEKQ-MDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIAIGVEDKPPLSKANTKKLIEAAASTAVGHF--TGQSLAESIASKYREKLDEVIDEGSRACYAAQERQVLNAMNQVNRLRSESRLQVGKKASGILASFPMEVNELIRRWVRLCADVHGQLQSSVEQHLGSGILEDLQGALPTPQQFEDSVSDHLSNLIASNQSQLKSEQDTTILKKGLHEMKEAAAEAKNQA 2129
            +PQ +PLN++TI G AR GKSF MN L G     +F  +  + PCT GA +S    SL+DF   SG    SS  SG +     +P I FVD+EGQGDK   ++++LA P LL+SKVV++NW  LPNK  ML  L  M +AA  +     K    FGHLI+L+RDV  AE E   A  V   + D E      T  A+++ MD RN IR  L   F SI +  +P PH    GDR +A+ E+   F   V +LR ++A  L   PH+F    + GG     ++ G+C  VN    +  P S++++I   RA   ++++   F++++     D   LS  + K  IE A   +   F    + +++ IA  +R  L++ +   +      QE +     N++  +  E++  + KK   +    PME   L+++W  L           V  H      EDL+         +D++ + L   +  + S+ K ++    + + + E+   A E KN A
Sbjct:   37 VPQDQPLNIVTIVGNARKGKSFLMNQLTG--HDGMFRASANTEPCTAGADLSSIVMSLTDFRRGSGS---SSKASGPSPS---EPAIVFVDMEGQGDKSTDHDVRLATPFLLVSKVVIYNWMSLPNKHRMLEELEVMVQAADKVSTQNNKGERDFGHLIILMRDVGRAESESDRAEEVRRLVLDSEQAGAGRTKLADRRAMDERNTIRDGLREGFASITIHAMPRPHPDC-GDRVVAKAEIDSKFNVSVDQLRDIIAGHL-GTPHTFAGKKIAGGTHTHEIVDGLCAAVNS-TEDVSPPSVLEAIYIRRAAQAVADALVTFDETLTSVFGDNLVLSTQDIKSAIEGARVYSFEEFGDATKGISDDIAQAHRTALEKQMLPKAEVVLRNQEEKRRELDNKLEAMVHEAKASISKKVGEL--DIPMEDAALVKKWDEL-----------VNSH-----FEDLENDTKKMVTLDDTIDEDLLAELKWSVSEAKFKELIEGIHEHVQELNRMAIEGKNNA 523
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A836CEI3_9STRA (GBP domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CEI3_9STRA)

HSP 1 Score: 192 bits (489), Expect = 2.550e-47
Identity = 146/420 (34.76%), Postives = 206/420 (49.05%), Query Frame = 3 
Query:  468 SPTSHRACRNVNIRARPVVEMSVSLLEITASPSGSECVSVSAEGSSAVEKLPQK----PLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQRKDVFGHLIVLLRDVAEKEEKEAYSVIFDKEDDYCI---------------TDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLS-----ESKNLFNQSIAIGVEDKPPLSKANTKKLIEAAASTAVGHFT 1655
            SP++    R  +  A P     V LL ++   SG E + +  +G  A++ +P      PL L+TI G AR GKSF MN L G    D F V+G   PCT G  IS    +++ F +      LS   S    G  V       DVEGQGDK+  Y++KLA+P+LLLS VVLFNW G+PNK TM+N L  M+ AA  +DRS RK+ FGHL+V+LRD       E + +IF  E   C+               TD+AE  M  RN  R  L  +F S  +  LP PH +      +   + +  F      LR  + + L   PH+FGN  V+   +    L G+ + VN G  +  P ++++++   RA    S      S   FN      ++  P L+ AN ++ IE A + A+ HFT
Sbjct:   16 SPSASPGTRAKHDEAVPAA---VPLLRLSRGTSGKEELKLQEDGLDALQHVPAADAALPLRLVTILGAARQGKSFLMNYLQGS---DSFTVSGAVAPCTCGVDISSAALTVAAFANGHSTSRLSVDSSPPTEGGLVM----VADVEGQGDKNNGYDLKLAVPMLLLSNVVLFNWLGMPNKDTMVNQLALMKAAADIVDRSNRKNAFGHLVVVLRDCTSSRH-ECFDIIFGMEASGCVYLPLPDSVISPEDADTDKAEAAMRDRNCAREALKRAFTSTALFTLPVPHPEATRRGALPISDATQDFVDAAEGLRAHIVSCLARPPHAFGN-EVITSAIACGALPGIVKAVNDGAKDLSPPTIVEALHMSRAPCTPSIQWRRPSNFKFN------LQCMPSLA-ANPRRSIEDARAAALDHFT 416
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: D8LML6_ECTSI (GBP1, guanylate-binding protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LML6_ECTSI)

HSP 1 Score: 180 bits (456), Expect = 4.870e-43
Identity = 140/439 (31.89%), Postives = 225/439 (51.25%), Query Frame = 3 
Query:  627 KPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTI--DRSQRKDVFGHLIVLLRDVAEKE-EKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIAIGVEDKPPLSKANTKKLIEAAASTAVGHFT--GQSLAESIASKYREKLDEVIDEGSRACYAAQERQVLNAMNQVNRLRSESRLQVGKKASGILASFPMEVNELIRRWVRLCADVHGQLQSSVE 1928
            +PLN++TI G AR GKSF MNAL G    D+F V+    PCT GA IS    SLSDF    G  T  S +  +      +P I FVD+EGQGDK   + ++LA   L++SKVV++NW  LPNKTTML  L  M +AA  +     +R+  FGHLI+LLRDV  +  E EA+  +   ED   ++ EA K    RN+IR  L  +F+SI    +P PH  I     +    V+P F+A + +LR ++A  L A  H+F    + GG+ ++ ++ G+C+ +N       P S++++I   R +  +  +   F++ +         LS   T   ++ A    +  F+   + ++  I    +++L++ +   +      QE +     +++  +       V +KA     S P++ N L  +W +L A   G+L+  ++
Sbjct:  154 QPLNIVTILGAARRGKSFLMNALTG--HDDLFPVSPNVAPCTAGADISPFLASLSDFERAGGSQT--SHIPPVTP----KPTIAFVDMEGQGDKSNEHGVRLATTFLVVSKVVIYNWMFLPNKTTMLQDLLVMVKAAEKVVNGEGKREHAFGHLIILLRDVTGRAAETEAF--VMGIEDTEDLSFEAAKDGAERNLIRTTLKKAFESITFHTMPSPHANIERGA-VPLSAVTPEFSASLGQLRRIIAGYL-ASSHTFAKKEIAGGQRMNDIVGGLCKSINE-TGKICPPSVLEAIDIARVDQEVQRALVEFDKMLGSTFGGHFALSTLETNTALDEARKHVLQQFSVASEGISVGIVEDAKKELEDRVSPKAEVVSRNQESKRHELKSRMRAIACGHEANVAEKARAF--SLPLDQNVLEDQWNQLVASHFGELELDIK 577
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: D8LML7_ECTSI (GBP2, guanylate-binding protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LML7_ECTSI)

HSP 1 Score: 174 bits (441), Expect = 8.170e-42
Identity = 121/315 (38.41%), Postives = 176/315 (55.87%), Query Frame = 3 
Query:  633 LNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDF--GSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQRKD--VFGHLIVLLRDVAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIA 1565
            L+++TI G AR GKSF MNAL      +VF V+   +PCT G  +      LS+F  GS      L SS          QP IGFVD+EGQGD+    +++LA P LL+SKVV+FNW GLPNK+T+L  L  M +AA  + R + K   +FGHLI+++RDV +K   E  ++I D ED     ++AE   + RN+IR+ L + F+S  V  +  PH  I  D  +   EVSP F   + +LR  +A  L   PH+F   P+ GG+ L  ++ G+CE VN    +  P S++++I     +    ++  LF+  I+
Sbjct:   34 LSVVTILGAARQGKSFLMNALT--RSDNVFRVSPEVYPCTEGVDLFPILMPLSEFKRGSARNITHLPSSSP--------QPTIGFVDMEGQGDRSDERDVRLATPFLLVSKVVIFNWLGLPNKSTILERLVVMIKAAEKVSRRKNKGEPMFGHLILVMRDVKQKA-AEIEALIMDDEDGGLTHEDAEGVTE-RNLIRKRLRAVFKSTVVHTMHRPHPDI-ADEAVPLSEVSPGFTTSLDELRDTIAEHLTT-PHTFAGQPIAGGQRLHDIVRGLCEAVNS-TGDICPPSVLEAIDMRCTQEEKEKALVLFDAMIS 333
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: D7FYG2_ECTSI (GBP4, guanylate-binding proteins n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FYG2_ECTSI)

HSP 1 Score: 152 bits (384), Expect = 1.000e-34
Identity = 123/391 (31.46%), Postives = 183/391 (46.80%), Query Frame = 3 
Query:  549 ITASPSGSECVSVSAEGSSAVEKLPQKPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGS----ESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQ------RKDVFGHLIVLLRDVAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGD--------------------------------------RQIAQGEV---------SPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLF 1550
            ++ +P     VS +A         P  P+NL++I G AR GKS  MN L G    D FA++     CT G  +S +   L+DF +    +S   T  S+    N G      + F DVEGQGD+   ++++LA P LLLSKV++FNW G PNKTTML  L  M  A   I +         + VFGHLI+L RD++  E+ E    +   ++D   + +  K    RN IR  L +SF+SI V  LP PH  I G                                       R  A+ E+         +P F A V  L+ +   E++  PH FG  P++GG+ +S+++T +C+ VN    +  P SL+Q+I   + +   +++  LF
Sbjct:   10 VSTNPEAKLKVSPAATNLLVSSTRPAAPVNLVSILGPARNGKSSLMNTLVGTG--DTFAMSDSVKACTKGGDLSRSVVRLADFENTDRYQSDWATFRSTP---NRGPDEDIYVAFADVEGQGDECEEHDVRLATPFLLLSKVIIFNWLGRPNKTTMLEKLEVMVLATDKIKQQDGDGGCFHEKVFGHLIILARDLSGPEKAEEIRELLLNDEDAGPSKDR-KGATNRNTIRAGLRNSFESIVVRTLPVPHPSITGTFLCRPPHVVADFHHSYHNYRELFTIKTLFPSPSHPVCLRSAARSELGTAIPLSDFTPKFKATVKDLK-VDIVEMLRIPHFFGGSPILGGDTISNVMTSLCDAVNDA-KDISPPSLLQAIDLQKVQKAKADALVLF 392
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A1W0A876_9STRA (GB1/RHD3-type G domain-containing protein (Fragment) n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1W0A876_9STRA)

HSP 1 Score: 147 bits (372), Expect = 2.960e-32
Identity = 102/317 (32.18%), Postives = 165/317 (52.05%), Query Frame = 3 
Query:  621 PQKPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTID--RSQRKDVFGHLIVLLRD--VAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPH-EKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQ 1556
            P +P+NLI+I+G AR GKSF MN LA   + D+F ++    PCT G  +S     L++F  ++GCP + S M            +GFVD EGQGD+ ITY+ +L  P+LL SKVV+FNW        MLN L  + +AA  ++    + + VFGHL ++ RD        ++ +  +F KE           ++  RN+ R +L  +F+SI++   P P         +I   ++ P+F  ++  LR  LA++L  +P  F N   + G  LS ++  V +++N      +P S+  S+++  A+ + SE +    Q
Sbjct:   29 PDQPINLISIFGAARQGKSFLMNLLAN--QQDLFRISNEKEPCTQGVDLSSHFVPLTEFSRQNGCPPVQSKMM-----------VGFVDAEGQGDRDITYDSRLVSPVLLSSKVVIFNWKDSLQVDRMLNLLAVLAKAAQNVELAEGENRKVFGHLHIVFRDWNFINTTPEKVFDSLFKKEKGVS------SEVSTRNLARHELIDAFESIQIWLFPVPVVSTAQLSERIRFEQLQPSFQTQLRDLRKTLASQL-KEPMPF-NQQALTGRTLSEMIPFVADILNEN-KVIMPESIYSSMRRAEAKKLQSECEEEMQQ 323
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A024FXK7_9STRA (GBP domain-containing protein n=1 Tax=Albugo candida TaxID=65357 RepID=A0A024FXK7_9STRA)

HSP 1 Score: 145 bits (365), Expect = 1.690e-31
Identity = 111/340 (32.65%), Postives = 174/340 (51.18%), Query Frame = 3 
Query:  588 SAEGSSAVEKLPQKPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTI--DRSQRKDVFGHLIVLLRD--VAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKINGDRQ-IAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSI-AIGVEDKPP 1589
            S  G   +  L +  +N+I+I+G AR GKSF MN LA   + D+F ++    PCT G  +S     L  F + +GC  +S+        +G   +IGFVD EGQGD+ ITY+ +L  P+LL SKVV+FNW        +LN L  +  AA  I  D+ + K VFGHL ++ RD    +   KE Y  +F +E+         ++M++RN+ R +L  +F+SI V   P P E     R+ I   ++   F  ++ + R  L+T+L  +P  FG  PV    +LS ++  + E +NG     +P S+  S+ +  A+ +    +        AI +E+  P
Sbjct:   31 SEAGQKVLSPLGESEVNIISIFGAARQGKSFLMNLLAN--QQDLFKISNLREPCTQGVDLSAHFVPLEQFSTFNGCSKVSTE-------SGKSIQIGFVDAEGQGDRDITYDSRLVSPILLASKVVIFNWKDSLQADRILNLLAVLARAAQGIEVDKGRGKKVFGHLHIVFRDWSFVDSTPKEVYHDLFKQENGRA------EEMNVRNMARINLIEAFESINVWLFPVPVENTAILREKIRFDQLQRPFQQRLREFRTCLSTQL-RRPMLFGQKPVTA-RLLSQIVPLLVENLNGE-EVIMPESIYSSLVRAEAKGIKDNCETTITAHCEAISIEEVLP 352
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BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Match: A0A067BQ42_SAPPC (GBP domain-containing protein n=2 Tax=Saprolegnia TaxID=4769 RepID=A0A067BQ42_SAPPC)

HSP 1 Score: 145 bits (365), Expect = 1.930e-31
Identity = 104/320 (32.50%), Postives = 170/320 (53.12%), Query Frame = 3 
Query:  579 VSVSAEGSSAVEKLPQ-KPLNLITIWGGARTGKSFFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLSSSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNWSGLPNKTTMLNSLGTMREAATTIDRSQ--RKDVFGHLIVLLRD--VAEKEEKEAYSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPH-EKINGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSSLLTGVCEVVNGGLSNFVPLSLMQSIQQGRAE 1520
            ++V+      ++ LP+ +P+NLI+I+G AR GKSF MN LA   + D+F ++    PCT G  +S     L++F  ++G  ++ SSM           ++GFVD EGQGD+ ITY+ +L  P+LL SKVV+FNW        MLN L  + +AA  ++ +    + VFGHL ++ RD        ++ Y  +F KE         +K++  RN+ R +L  +F+SI+V   P P         +I   ++ P+F  ++  LR  L+ +L   P  F N   + G VLS ++  V E++N      +P S+  S+++  A+
Sbjct:   19 MAVAPAAEQVLKPLPEAQPINLISIFGAARQGKSFLMNLLAN--QQDLFRISNEKEPCTQGVDLSSHFMPLAEFSRQNGNTSIPSSM-----------KVGFVDAEGQGDRDITYDSRLVSPVLLTSKVVIFNWKDSLQADRMLNLLAVLAKAAQNVELADGDNRKVFGHLHIVFRDWNFVNTTPEQVYDTLFKKEKG------GDKEVGNRNLARHELVDAFESIQVWLFPSPVVSTAQLSERIRFDQLQPSFQTQMRDLRKTLSNQLKT-PMQF-NDHTLTGPVLSEMIPLVAEILNDNRV-IMPESIYASMRRAEAK 316
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1011.4.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K385_9PHAE2.450e-17968.35Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A6H5JVK0_9PHAE1.300e-10636.51GBP domain-containing protein n=1 Tax=Ectocarpus s... [more]
D7FYG1_ECTSI9.830e-4831.78GBP3, guanylate-binding proteins n=1 Tax=Ectocarpu... [more]
A0A836CEI3_9STRA2.550e-4734.76GBP domain-containing protein n=1 Tax=Tribonema mi... [more]
D8LML6_ECTSI4.870e-4331.89GBP1, guanylate-binding protein n=1 Tax=Ectocarpus... [more]
D8LML7_ECTSI8.170e-4238.41GBP2, guanylate-binding protein n=1 Tax=Ectocarpus... [more]
D7FYG2_ECTSI1.000e-3431.46GBP4, guanylate-binding proteins n=1 Tax=Ectocarpu... [more]
A0A1W0A876_9STRA2.960e-3232.18GB1/RHD3-type G domain-containing protein (Fragmen... [more]
A0A024FXK7_9STRA1.690e-3132.65GBP domain-containing protein n=1 Tax=Albugo candi... [more]
A0A067BQ42_SAPPC1.930e-3132.50GBP domain-containing protein n=2 Tax=Saprolegnia ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1011contigP-littoralis_Contig1011:16596..54649 -
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.D7FYG1
PFAMsAerolysin,GBP
Model size3437
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons13
Evalue5.02e-50
EggNOG OGs28VNJ@1|root,2R2E7@2759|Eukaryota
DescriptionGuanylate-binding protein, N-terminal domain
Cds size1980
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789353.8572385-UTR-P-littoralis_Contig1011:16595..175251680789353.8572385-UTR-P-littoralis_Contig1011:16595..17525Pylaiella littoralis U1_48UTRP-littoralis_Contig1011 16596..17525 -
1680789354.022576-UTR-P-littoralis_Contig1011:53683..537001680789354.022576-UTR-P-littoralis_Contig1011:53683..53700Pylaiella littoralis U1_48UTRP-littoralis_Contig1011 53684..53700 -
1680789354.0306177-UTR-P-littoralis_Contig1011:54139..546491680789354.0306177-UTR-P-littoralis_Contig1011:54139..54649Pylaiella littoralis U1_48UTRP-littoralis_Contig1011 54140..54649 -


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

Feature NameUnique NameSpeciesTypePosition
1680789353.8856614-CDS-P-littoralis_Contig1011:17525..177541680789353.8856614-CDS-P-littoralis_Contig1011:17525..17754Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 17526..17754 -
1680789353.9030833-CDS-P-littoralis_Contig1011:18648..187131680789353.9030833-CDS-P-littoralis_Contig1011:18648..18713Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 18649..18713 -
1680789353.9181645-CDS-P-littoralis_Contig1011:19519..197251680789353.9181645-CDS-P-littoralis_Contig1011:19519..19725Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 19520..19725 -
1680789353.9332778-CDS-P-littoralis_Contig1011:20266..204501680789353.9332778-CDS-P-littoralis_Contig1011:20266..20450Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 20267..20450 -
1680789353.941979-CDS-P-littoralis_Contig1011:20887..210491680789353.941979-CDS-P-littoralis_Contig1011:20887..21049Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 20888..21049 -
1680789353.9517267-CDS-P-littoralis_Contig1011:21858..219411680789353.9517267-CDS-P-littoralis_Contig1011:21858..21941Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 21859..21941 -
1680789353.962382-CDS-P-littoralis_Contig1011:22412..225041680789353.962382-CDS-P-littoralis_Contig1011:22412..22504Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 22413..22504 -
1680789353.973736-CDS-P-littoralis_Contig1011:23365..235671680789353.973736-CDS-P-littoralis_Contig1011:23365..23567Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 23366..23567 -
1680789353.9827287-CDS-P-littoralis_Contig1011:23873..240921680789353.9827287-CDS-P-littoralis_Contig1011:23873..24092Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 23874..24092 -
1680789353.992932-CDS-P-littoralis_Contig1011:24531..246371680789353.992932-CDS-P-littoralis_Contig1011:24531..24637Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 24532..24637 -
1680789354.0014615-CDS-P-littoralis_Contig1011:39446..396211680789354.0014615-CDS-P-littoralis_Contig1011:39446..39621Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 39447..39621 -
1680789354.0102031-CDS-P-littoralis_Contig1011:53426..536831680789354.0102031-CDS-P-littoralis_Contig1011:53426..53683Pylaiella littoralis U1_48CDSP-littoralis_Contig1011 53427..53683 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1011.4.3prot_P-littoralis_Contig1011.4.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1011 17526..53683 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1011.4.3

>prot_P-littoralis_Contig1011.4.3 ID=prot_P-littoralis_Contig1011.4.3|Name=mRNA_P-littoralis_Contig1011.4.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=660bp
MSVSLLEITASPSGSECVSVSAEGSSAVEKLPQKPLNLITIWGGARTGKS
FFMNALAGVAEYDVFAVAGGSHPCTVGAFISITTRSLSDFGSESGCPTLS
SSMSGMNLGAGVQPEIGFVDVEGQGDKHITYEIKLAIPLLLLSKVVLFNW
SGLPNKTTMLNSLGTMREAATTIDRSQRKDVFGHLIVLLRDVAEKEEKEA
YSVIFDKEDDYCITDEAEKQMDLRNVIRRDLNSSFQSIRVCCLPPPHEKI
NGDRQIAQGEVSPAFAAKVTKLRHLLATELVAKPHSFGNGPVVGGEVLSS
LLTGVCEVVNGGLSNFVPLSLMQSIQQGRAETVLSESKNLFNQSIAIGVE
DKPPLSKANTKKLIEAAASTAVGHFTGQSLAESIASKYREKLDEVIDEGS
RACYAAQERQVLNAMNQVNRLRSESRLQVGKKASGILASFPMEVNELIRR
WVRLCADVHGQLQSSVEQHLGSGILEDLQGALPTPQQFEDSVSDHLSNLI
ASNQSQLKSEQDTTILKKGLHEMKEAAAEAKNQADAMQEGIKQLRQESRK
NREDEERSQMWKDLASLTMGALHASRSWTAGASGSSGETTDSGSVRTATQ
ATAARSRPARDVDVGPIDNQEHAERKAKDYIAKHPDQEWTGHWKTTSGGT
SVINVRDKA*
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mRNA from alignment at P-littoralis_Contig1011:16596..54649-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1011.4.3 ID=mRNA_P-littoralis_Contig1011.4.3|Name=mRNA_P-littoralis_Contig1011.4.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=38054bp|location=Sequence derived from alignment at P-littoralis_Contig1011:16596..54649- (Pylaiella littoralis U1_48)
CAAAGATCACTACACAACAGCAGACAGCAACAGAGACCGAAGACCTCCCA
AGTCCTCATTCTTTCGGAACGTAGGTCTACATGGTGGTGACCCTCGGTGT
TGTTGCCGCTGCGTGGTTGTGGTAGCTCGTGTGAGGCTCACCGAGGGACG
CAAGAAGATGGTGTGTGCTGTTAGACTCTTCAAAATCGCGCTGGTGGTGT
TTTTTGGCTGCAGTCACAAGCTTCACTTGACGGCATCAGATAGCATCAGA
GCTACAAGGCCTCCGAACTCCTGATTCTTTTGGAACGGGCGTCTACATGA
TAGTGGCCCTCGACCACGCTGTCGGTGCTACGCGGTCGTCGCAGCTTGAT
TGCTGGCTTCAAAGGGGTTGCCAGCAGGGTGTGTGTTGGAGGAGCAAGAA
AAAGAGGCAGACAAGCGGCGAAATCAAGGATTCCGGTTCCTTCTCGTCGC
TACTGCTCTAATTTTGTTCACCAACCTCTCACCGCGCCTGCCGGAATGTG
AACATCAGGGGTGGGTTTGCTTGCCAGAGTGATTGTCTCGGGTACCCTGC
TCTTTATTTTGCTATCTGCACTGCTGTTGCTGCTGTAGGGCGAGTTTGGT
GTGTGTTGTGTACGTTTCTGGAAATGGTTGGAAAAATTCACCTTTCGGCG
AACTCGAATATTCGCCTTTTTTTTGCTGTCGCTCAATTTCACCTTTCGGG
GGAAGAAAGCCTTCATGTTGTCGACCATTTCGTCTATCGGTGAAAAAAAA
TCTGTTCGGCGAAATCAGGCCTCCTGATTAAAAAGGGCCTCACTGCTGTG
TCCCTGTGTTGTTCTCTAGGAATCTCCATTTGTGCTCCTTCCTGCCTAGC
CTCTCACAACGACGTTTCAAGCTACCACCATTGTTCTCTAAAGCCGCAAC
ACCCTATTTTCTTCTGCATATTTCTGCCTCTTCCGCTTGTTGCATCCAGC
ACGTCCAGTCGTCGAGATGTCCGTCAGTCTGCTCGAGATCACCGCGAGTC
CTTCCGGCTCTGAATGCGTGTCGGTGTCAGCCGAAGGATCTTCGGCGGTA
GAAAAACTGCCGCAGAAACCGCTGAATCTGATAACCATTTGGGGTGGGGC
GAGGACGGGCAAGTCATTCTTCATGAACGCGCTTGCCGGGGTTGCTGAAT
ACGACGTTTTCGCGGTCGCCGGCGGAAGCCATCCTTGCACTGTGGGAGCC
TTCATCTCGATCACCACGCGCAGGTACGCTCCATTTGAAGGACTGATGGT
CTTTTCACGGGGGGGGTAGATTGCAGCAGTAGTTGGAAGCAAGGTTCTTC
AGCTTTTCCGTCCTTTCCTTTATTGTAACCCTTCTGGGACTTGGGAGGGA
ATTATTGTTTAAAAACTACCAGTATTCATTTTGTTTTCTTTTTAGAACCC
GGTCCATTCGGGCTCACCCGAATCCACCGAGAGGAATACAGAATACTGGA
CGTAGGCAAGCTTGTTCACCACCTGCACTATACTATTACTATTACTGACG
CTACCACTACTACTGTACTGCTGCTCTATTTGAACAAGGTGCGCACACAG
CAGGAGCAGCAACAACAGCAGTCAGTCATTCGTTTGGTACACTTCTGCTG
CTGTTGTTGTTGATTCTCACATTAGCTCATCGCCAAAAGCTACAAGTAGC
CCGTGGTCACAAAAAGTGCTGAGCCCTAGGAAGATCCAGAAAACAGAAAG
AAACTACTTGTACTCCGGAGTACAAGGGAATACCCAAGAAAGGCCGAAGA
AGATGCACCTTCCTACGCGGTGTGCATCACTGAACTACAGCAATAACAGC
AGTAAGAGACAGCAAACGTACTTCCAGCGTCGTTCATTTGACTACAATAT
CGTGTTCAGTCTCCTCCCGCCTCACTTAAAACTAATAAGCAGGTAGCTGC
AGACACAGCAGTTGCTGTCTGTAGTGCTGCCAGCAAAGTACAACTAGCCC
CGGCAATCGGAGAAGACAGAAAAAGAAAAAACACAAAACACACACGTATC
ATCAGATGTTGTCGAGGATGGTGGTGTCTCCATGCCGTCCTTGCGACGCT
GGTGATGATGTCGCCCTGAACATGTCCTCCTTGTCTGAGGGCCCACGTCG
CTGTTGGCGTTGCCCAAGGCCGCATCACCAGCACCATGCCCTCGTAACGC
TTCTTCACTGCCGGTCACCTCCATGACCGCCGCTCTCTCACATAACAGCC
CTTTCTTGTTGCGCAGTTGCTCAGTGTTCCTTTCCAGTCAGTTCCCTAAA
AAACTCCGCTGTGCACATGAGGTGGTACAAGTCTTCTGAAAAAAAAGTTC
ACGCTCGGAGTGAGATCGACCAAGCTCTTCCCCGTTCGTCGCTGCTCGTC
TACCTCCGTCCTTGGCTGCGAAACTGGTTGCTGGACGGCACAATCCCTCT
GTGCATCCTAGATCGTACAGTCTTTTCACCTATGGTGTCGCCTGCCTCCG
CGCACAAATGCTTGTGATGCACATTGCTATACTGCCGCTGTGACCAAAAG
GCCCGCGAATCCGCACATTTGCACCTGGCACACCAACTGCGACCCAACTC
TACCGCCACGCCCGTTGCGTTCGACCACAGCGCAGCACCAAGAAGGTATC
ACTCCTTGAGGGTGAGTCCGGCCTTACACCCGCCAGAAAGACCCTCCCAA
CTCGCTTTAGCTCATGCTTACAGCAGACCTTGCCTAGGCAGCGAGGTAAC
GGAAAGTCTGTGCTCCTGTACAGCTTCTTTACATGACATCCTTTCGCCTC
TCTCTTACACACACACCACACACACAGGCAACCAGCACACTAGGACAGCA
GTACATCCACAAAACATATACTGCTGTACTTGTACCATCTATCATGACCA
AGTACTGCTACGGCAGTACACCACCAGCACAGCATAGTTGTATACTTCGT
ATCATAGTAGTTTACACACCACAGCAGCACAGCAGCGGCAGCAGCAATCA
GGCCATCATGCGTTTTGTGATGTAGAGGGGAGACGGTAAACGAACCCCAC
GGGTTCCCTTCCACGAACTGCACAAACTGTGTGTGGCAAGCCTGAGTATT
ACCACCCACATAGCCAGCGACGTCTAGCATGGGTAGCTGGGACATGATTT
ATCGCTGTTCGTTTGTTGGTGTTGCCGGTTGACTTCCCAGCTAGCTGCTC
GATCCCAGGCAGAAGGGCAACTTTGATACGTGTATCCTGCTGTGCCCGAA
ATTGACAAATTTACAAATTGTAGGTTGAGGGCTACAGTGGGGAAAATGCG
CTAAAAAAAAGCGCCATTATTCCTGAATTGTCTTGGTTTCATTGGGGTAT
TCGAGAGGAAGGCCTGTGATGACCAGTCATCCTTTCGAGATATTTCAAAG
CAGGAGGCGGCATCGTGATCATCAGTTAACTCTACTAGTGTCTCCAGGGA
GGCTACCAGCCTGTTGCGAGACCTTGTTAGTGACCCTGGCTGAATAACTG
TGAGATGCTCACATGTCAATTTTCTCATGATTTGTGCACGCGGAGCCAAG
AGCTGGCTTTCTTTGTGTCTGGTTCTCGGGCGGTGAAATACCGGCTGCTT
CAGTTTTTTTCTGTTTGTTTTTAGAACCCGGGCTATTCGGGTTGCCCCGC
CGATTTAACCCTGGTCCCAGAAGGGTTGAATGGGTTCTCCAGAGGTGAGG
AAATTTGACACTTTTCATTGTCCCTTTTTTGCTTCATATCGGCATGAATA
ACCGGCACTTCGTGGATTTGAAGGCGTTTCCGAGTGCCGCAGAGCGGACT
AGGCGATTAGCGCCCAAAAAAGTTAGGAAAAAATAGAATTGTGTTTCTTT
TTTCTTTTTTAGTGCAGTTTTTAGTTCAAATGTTCAGCAGCTTTTCGGCG
AAAAGGGTGCTTTTGGTGATATAGAAGCTACGATAACTTTCGGACATTAG
CAGTCAGCCAGGTTCTTTTTTTTGCTATATAGAGCCTCAAGCGTGAAGAA
ACTTTTTGTGTCCGGACAAAAAACATCGTATCTGTGTTGCGAAATCACGA
AAAACCCCGTCGGCGTATATGAACACCCGCAAAGATTATGCAAATAAAAA
GATCGCTAGAACCGCTGTAACAGATGCTGTGGTGCATGGATTGCCTCATA
TTTTTGCCACAGCCCGTCTGACTCATAGCCGAGCCCATCCGACTCTACTT
CACCGCACAATACACAGACCTCAACGTTCCAGCGTACCATCAGGGTGACC
GCTAGCCTATTGCGCCGCATTTTGTTTTTTTTGTAGAAAAAACACACGCG
CGCACTCGCGGGAACTTTTCCGCGGTGACGCGGATCCCGCAGGACACATG
GCCGATGTTACGACCCCTGAAGAACTTGTCTATCTAGTCCTGGCACAACA
GCATATCTATTCTGCATATGCCTTGATTTGTCTATCAGCGTAGAATCGAA
CTTTCGAGCCGACGCGTGATTTCTCTTTATTTGTGCTGCATTTTATGAAA
CCAAAGGCAGTGGTGAGAGCCAAGGAGCATGCGGTTCTTTTGGTACCTCC
TGCAGGTTCCACGGTGCCTTGATTACATTGCTATGCTTCGTGAAAGGCAG
TGAAGTCATGAGATTTCTACATCCCAAATTTTCCGATTTCCAAGTTTTGA
AAGTCAATGGAACCCCCTCAATTGGCTCGAAGTTTTTTTCGGAAAGTCAT
ATACCATGTACGGCACTGCTGTATGATCATCATGTCATGATTTTCAAAAA
TACTTTAAATCTATTTGTGATAAAACATTCCGCCACCGGGGTTGGGTCGG
GTTGGGTTGGTTGGGTTGAGTTGGGTTGCGCCCCCCCCCTCTGGGGGGGG
TTGGGGGGGGTACCGTAAGGTTGGGTTGGGTTGGATTGGTTGGTTTGGTT
GAGTTGGGTTGCGCCCCCCCCTTTGGGGGGTTTTGGGGGCACCGTAAGGT
TTGGTTGGGTTGGGTTGGGTGGGAGATGATAAAGACGTACACGTGTGTGT
CGCTTTATTCGACATACATGGATAATATAGTTGTGCAAGAGATGAACCAA
CAAATTTTCCCCTGTTTAGAGGATTTTTAGATCTGAAAGAAAGTTCGACT
TCAGTTCAGCACACGAACCATGACATACACACGTACCCACCCCAACCCAA
CCCAACCCACTCCAACCCTAACCCTAACCCTAACCCTAACCCTCACGACC
GACCGAGGAGAGCCGTAGCGAGCACAACCGCGGCTGCGCCGCGGTCGTGG
AACGCCGGTGGTCCGCAAGACAGAACGCGGTGTGCTTACGTACACATGAG
GTTGACCAATCAGAGGACCCGGGGAGGGTGACATATATATCATCCCTGTA
TGTCGAATGAATGACACACACTTGTACGTTTTTATCATTTTCCTGGGTTG
GGTTGAGTTGGGTTGCGCCCCCGGGGTTGGATTGGGTAGGGCTGGGTTGG
GTTGGGTTGGATAGTTTGGTTGGGTCGGCTTTTGGGTTGCTTCGGGATGT
CTTTCTGAAGTTCTCTGCCTACCTTACTGCGGTCTCTGGGCCAAGGGTCA
ATCTGCTCTGTGTGGTGGCCTTCTCTTCCTGGTACTGCTGTATGTGGTCA
CCTACGTGCTGTAAGCAGCTACTCTCGTATGTACTCGGAGTAGTTTCACA
TGCAAACTACAACAAACAAGCAAACAGCACTCTTGAGCTCCTGATACAGT
GCACCCACAGCCCTCCCGTCCTCTTCCTGCAACTACTGCTGGCGCTTCCT
GCTGCTACTCTGACGGCAGACTACAGCACACAGCTGGGTTGTGAACGTTC
GCTGGGTGAGAGTGTGAGTGGATGCGTCGGTGCGTGCATGTAGGCGCGCG
CTCTCCAAGATTTTCTACTTTCCCCGGGAAAAGGGGGTTCAGTGAATCCT
GGTAATCCACAATCGCCAAATATCGACTCTAGCGGGTAGCTGGGGGTCTC
GCCCATATCAGGGACATATCGGTATATGTCCACTAGCTCGTGACACCAAA
AATGTAGCATGAGACACGAACAGCTAAATCCCGGTGTTTAGGCGCCCGTG
TGGAAACCCCTCCGATGTTAGAATATGTCACACCATGGTTTATGACCCCT
TTCAAAAGGAATTGGAGGCTGACTCTCCAAAATTCAGTGGTACCAACTCA
GTGCCGGGTGTTCAAAATACAAAGTCTTCGTGCCAATCGGGGACGATGTT
TTTGGTCCTGTTTTGGGGCGTTTCTGGGCTGCTGGCAAGTACCACACCAC
AACGAGTTGGTCTCGCAGTCTCAGCAGAGTGCTGACAGTCCTCGACACTA
CCCCAAGGAAGCCTTCAGGCGAATGAAGTGTCCACGCTTGTCATTTATTA
GTCCAGAATACCAATTTCTGCATCGCGGGATAGCCGGGGCTGGTCCGTGT
ACATTTCGCATGCCCTCCGCGCCACCAGAGACTGCTCGTCACAGAGATGA
GAATAGTCGTCAGGGATTCAAGATAGCGATTTGTCCATATCTCTGGGTCT
GTCGTGCAACAATCCGCTTTGCAGTCTGCGGCCTGTGCGCCGAGCATTGC
AGAATCTAGAGGCTTGAAAAGTTCCAGCGGGCGGCTGCTGTGCCAACCAC
TGCTGTGCTGCTTCGGGATGTCTATCTTAGTATCTCTGTCTTTATGAGCT
GCTCTGCTGCTGCCTCTGGGTCAAGTCTTCTGCTCGTGCTTACAGCATTT
ACTCGTACTCGTACTTCGTACGAAAAACTGGTTTCTAGTTTCACCTGCAA
ACTACCAGCACACAACACTCTTTGAGCTCCTGATGCAGTGTACCAACAGC
CCTCCTGTCCTGCCCTGCAACTACTGTCGCTTCCTGCTGCTTCTCCGACG
GCAAACTTCAGCATACAGCACCCCCTGGTGCCTCTGCTTCTGTATTGGAT
TCTTGTGCTCCATCGGGACCAACCCACTGCTGCTGTGCTGCTGTGTACAA
TAATTTATCCACCAACACAAATGCTGCTGTCATTGATGAATCTGCCCCGA
TATGCTGTGAAACAACAGTCCTCTCCTCTAAAACCTTTCGGGACCCACCC
ATTGTGACGCGGCAATCCTCCTCGCCGGATTCCCGTTGAGTACCTCTCTG
GACCCGCCAACTATTCTACAGACAGCCAGCTGTCCACCTTGCTCGAAATC
CTTTTGGAACCCACCCACTCTGTGACACATTAATCCTCCTCGGTCGAACC
CCCGAAAATGAGTACCTTTCGGGACCCACCCACTTTGACACGGCAATCCT
CCTCGGTCGAATCCGCAACTGTGACTGATCAATCCGCTATGTGTATTTTT
TTAATTATTTCCAATAATGATGTTCCGACTTTCGGAAAGGAAGAATGTGG
TGACATGAACAGAGGAAGAGCTGAGATTGGAGATGGGAGATTTCTCAAGA
AGCGGATTCCCCTCACAGGCGTAGTGCTTGGGTCTTTTTCGCCCAGAGTG
ATTTAGATGATATTCGGATGACTTCGTTCTTGGATCCTGGTTACCGGGCG
GTGAAACCGTGAAATCATGGTGATGTGGTGATGCCGATGCGCACCTGCAT
ACAGTACAACAAGTGTGCATTCCCGTGACAAATGTCCATACCAGCAGCAA
CGTGCGCTCTGAGGGAGAAAAAAAACGAAGTGCGACACATCGGAACTGTT
TCTCACCTCCTCAAGCAGACATCTTTCCGGGTAGCCCGAGACAAAGCACA
ACCCTCCCCATTCCAGCCCCCCCACTCTCTCAAGCCGCACCCAGCACTAC
AGCAGCACTACAACAACAGTAGTGCTGCTGTTCACAGAAAGGTGACGAAC
TGTCACGAGAAAATGTGCGTGTGTTGTCACAAAGCTGCTGCTGCTGCTGC
TGCTGCTGTGGATTCTTCTTCTGCTCTGCTGCTACTGCTGCTGGCGTGGT
GATGTCTGATGATGTAGTACAGAGTTGGTTGCACCGACATCACATCACAC
CCCAGCACAAGCAGCGGCAGCAGCAGCATCCGACCTTGCATATCGTCGTG
TTCTTCGGCTTTTGAGGCGAACATGTCGTCGTATAAAGGGGCTGGCAGAC
GGATGGTTTGACACTACTGCTGCTGCTTTAGCTGTTGTGGTGTTCTCGAA
ACGCCAAGTGCTGGTTTTGCTCTATGTGTTAGTGTGTGTATAGGGTACAA
CATCAGTAGCAGGCAACACCCATTGCGTTTTGTACAGAGGGCGCCCGCAA
GTAAGAAACGTAAAATATGGGTTGAGCCTCGATTTCCTATTTGCTGGCCT
GTGTACCAGCCTTGGTGCTGATTTTTCCTATTCGCAGTTTCTTATTGTTG
GGGCCTTGCAGGAATTGCACTCTCTCTTGAGGAGGTGCTGTTTGATATCA
GTGACTTGGCCGCTAGTCAGCTGATCTGTTATGGCCAACAAGTCGTCCAA
GCTGCCGATCGAGGCAGTGGGAAGGGCCATCATGCCCGACCATGTGTCGT
CACACCAGTACCATCATGCCAACATGGCGCCCGGTCTGAACAGGGGGGTT
CGCATATGTTTGTACCATACCCATAGGTCACCAAAAATACACCCACCATG
TGGTAGGGGTGGGCACTGGGCTCCAACGGCCGTCGTTTCATATTTTTCTA
ACCCTGTCCTATGCGCTTCGTTTCTTGTGGTTTGGAGCGGTCTTGCCCTC
AGTTTCTTGTTGGGGTGTTTCTTACTTGATGGCCCAGGTTGAGGTGTGTT
TCTTAGCGGATTTTCCTTATTTTTCGCAGAAATCTGAGCCTAAATTTCTT
ACTTAAGTTTTTCTTACTTGCGGGCGCCCTCTGTACTAGGAACTGCCAAG
ACCCATACACTTAGCGAACGACCAACCGGCACAAAGGCATCATCATAACA
TGAAAAACACAAAAGCACGAAACCACAAAGTTTTTCGGACTTCTTGCGAT
GTTTTTCAAGTTCAGAAAACCCTGTTTTGACGAAGTTTGCCGTCTCCATA
AAATCCAGTCTAAAAGGCTACTTCTTGTAGCTCGGAAACGCCCTCCTAAG
AGTTCGCCTAATTCAATAAGAACAATTCCAACAGGATCTTCGAAAGCGCC
GCTTCTTATAAGGAACCGCAGTTGGTTTTATTTTTTCCTTGGGTGACTCA
TTTTTTTTTTATCTTCCAAAAATAAATTTATCTGCCTTCCCTCTGCTGTT
GTTCGATGATTGACAGACAGACGGTGTTGACATCGTTTCAACAGGCTACT
GCTGTAGCGTATTCGTTGATCACCCTCGAATGAATGAAGCCACGGCAATA
TCAAAGCCATGCCCCGTAAGCTGTGCGTATGGTCGTGCTCCTCTGATTGT
TGTTTAAGGCTGCGAGGCAGCAACAGGCTCACAAAAAAGGTTGCAGGTAT
CGATGACGTGTGAAAAAAAATAGGAAAAGAGAACAAAACCCGCAGCAGTG
TGTAGCGGGAAGCAGCAAGGTGTTGCACAGGTACACCAGTTTGGTTTCCC
TTCCATCACTATCGAACCAATTGAGCCACAGCAACACCAACGCCATCGAC
CGTGAGCTGTGTGTCTAGTCCCCCTCCTTCGTTGGTATTCTGGGGCCGCA
AGGCATCAATAAGCTAGCAACCTAGCAATGGAAGCGTTGCAGAAATCGAT
CACTTGTGAAAAAAAAGAAGAAATCACGGCCGTCTCTCGGTAGTGCTGTA
TGCATGTGCTGGACTCAGCCTGCATCATCAACGGCCTTCTTTCCTCTTCG
ACTTTTTAAATTTTCACAACTCATATCGATTTCTGCAACATTTCTATTGC
TAGCCAATTGATGCCTTACGGCCTTAGATGACAACCGGAGGACAAAGACC
AGAGGCATAGCTCACGGGCGATGGCTTTGGTATTGCTGTGGCTCAATTGG
TTCGAGAGTGATGGATGAAAAACCAAATTCATGTAGCGGCGCAAAATACG
AAGTACGTGCTGCTGCTGCTGCTGCGGCTCCCTCCTCCTGCGGTGAAATA
TTAATTCCATCCACACACATCTGCCAGCTCTCCGTCATACACTCTTGAGT
TTCGTCCATTGCTGTCGAACGAATGAACCCACGGCAACAACAAAGCAATC
GCCCTTGAGGTGTGTGTCTGGTCCCTCTCTTCCGTAGGTCATCTGCGGCC
GCGAGGCATCGATAGGCTTGCAAAAATAGTTGTTCAAGTCACCCGACTCA
TCGTGAGAGTCTGTGTGAGGGAGGGCTCAAACGTTTCCAAAAAGCGTTTT
CTGATCGATTCGGTCGATCAGAAAACGTTATTGGAAAAGTTGAGATAAAA
AAAGGGGTTTTACTGATCTACGTACAGAATAAGATAGAAGATGTTGTCAA
AACGCCCAAGATAAAAATAGGCGAAATATGAGGAGGGCCTTTTCAGCTAT
AAGATGTAGGCGAACGCGCGGTCTTTTATTATGAGCGCGGCGGATTCCCC
GATTACACCACCTATCAAAGTCAAACCTTTCCGGCTGTCACCTCTATTCA
CAGCTCTTTGTCAAAAGGGTGCAGAGGTGGCCGTGCATCGGTTCAATCGG
CCGAGAGAAGCATCGCTCCTGGGTCAGACCTGCCAACAAACTGAAAATAC
AACCTATTTTCCTCATTTTTATACTTCGAAATAGAGCTCACAATGTTGTA
CCGCGGAAATGATTCTAAAGCAGATGCTCGATGCACAGCACAGCGAGCGA
TGCTTCTCTCTGCTGATTGCATGAGCCGACGGCCAGTTCAAAGTCTTCCT
GGCGCATAGCGATGAATGGAGATGGTAGCCAACAAGGTTTCATCATGACT
GGTGGTGAAGGGAGCCAGAACACAACTGCTGTGGTATTCTGATATCTCGC
CTTCAACACTGCTGCTGCTGCTGCTGCTGCTGTGTGAGCCTGAGGTGTCA
CAAGCACGTCAGTCCACACATACCTGCCTTTTGAAGAGCCTCTATTCAAA
TAAAATTTTTTGCATGCCTGGCGAGCTTCCGCCATATACCAGGAGTAGAG
GTGTTGGCACAGTGACTTTAGGGTTGCACAGAGCCTTTCACCAGCTCGCT
GCGTTCAGATTTCATGGCGGAGTGGCTGGTGCTGCTTTCTGAAGCGCGAT
ATATCGTAATCTCACCGCTTCCGACAATATATTTGCGACTGCTGGGATGG
TCAGATGTTGAGCCAACTTTAAACGATTTGGTCCAGTTTGGGCCGGTTTG
GAAACGTTTGACGACATTTTGGACGACATATTTACCCATAGGCAGTAATA
TACATCTTGGTTTGATGTTGACAAACTTGTACTTTTACCGCCAGATATGG
CAACCGTAAACATGCTTATAAGGAGCGTTTTACTCATGAACTTTCATGTC
AAAAAAAAAGAAAAAGCGACGCAAAGTTTGTCATTAAAATATGACATGCG
TTTCGTCCGTATTAAACAGGCGGCGCAGACCTCAACATTTTTGCCTCCTT
TCCTGGTGTTGTTCGCCGCCTGTCCGAGTGGATCACTTGCTTCATTTGCT
CACCGAGACATCACTTCCATACATACATCTGATGCTATTTCGCCCAAAAA
GGGATGAGACTCGGTGCCGAGTTCACCCCTAGAGAGGTGGGCTCCTTGGT
CTTCGGAAATGGCAAAGGTTTGAGGCCGTTGGGTGCTGTACGCAGCGAGG
TAAGAGATGCCAAGTACCCCGCACCCCGGTTCCACTGCTGCTGCTGTGGA
GAGCATATTTGTTGACTTTTCGAGCCCTTTTTCAGTTCAGCACAACAGTG
ATCTCTTTCATTCCATGCTCGCCGAACAAAAGACGAAACTCTCTGAAACC
TGCAAGGCAGGCGATATATGATTATCCTCTGTCATGCTTGGCCAAGGTTT
GGGGCTGTAGGGCGTCACACATCTGACGGGAAAAAACGTTTTGCGATCAC
TATCAAGCACACGTTTTTTCAGTCATGCCCCTGAAAAAAAGAACAAAAAA
TCTACTCTCCGTCACCACAGCTGGCGGCTGCTGCTGCTGTCGAGAATTTA
GGGACGAAGCCGGGAGAAACATTAATTCTGCTGTCGGTCGTGGCACAGCC
ACACCTGAGGCTATCTTTTGGGGTGAGCTACCACTGCTGAGCCCTCTGCC
AGCAGCGTCTCGGCCTCGCTTCGGGATGTAAAGAAAATGTCAAAGAAAGT
GTCAAAAAGTGTGAGCCAAGTCGCTCACATTTTTGGGCTGCAGATTAGAT
TACACTTTTTGAAATAAATATGTGTCGACATGTTTCACACCTCGGATATC
GTAGTACGATATGTTAAATACGTTACGTTTTTGTCGCAGGTTGGAGGGTG
TGGGGTCATGAGTAACCCGTCCTACGGCTAGGTCTGCTAGCGTTTGATTA
TTGGGTAACCTGTGTTGTTGTAACCGAGGCTCGCCGATCGATTAACAGTG
CAGGTTAGTATTAGGTCTCGAGTGTAGCTGTTCGTAGTACGTTGGTATTG
TGTTATTCCTCAGGTCCGGGGCAGGCACCACGTAGTAGTACGGTCCCAAC
GTGGAGGCTCCCAATTTTCCTAATACAATGGTTTAGTCCTAAAATCGGTT
CTTTCTCCAATTTTCCAAAGATATTAACACTTCGAAGTAAAGCTCTACAG
GTTGGGTCCGCCTTTGGTGTCAGTCGACAACAACCCGATCCCAGTCGTCA
GGTTGCGAAAAGAATTAACATAAAAGTTCACTGGTTACACGTCGTGCTGG
TGATTTCTTATATTTCGAGGCATACACACAGCAGGTGCATACCGAGTACT
GCTCTCGGAGTATATTTTTTGTTTTCAAGAATACTAAGTCGGTGTTCTTC
CTTTTTTCTTTGATATTCTTTTTCCTCTCTTAAGAATATTACGGAAAATG
TTCATCCCATTCATTTCGGGCACCACCTTCCACACCTACCTTTGGGTAAA
AAGTAGATGCACCAGTTGGGGTTATACAGGTGGTGTTCTGTACGAATGGG
ATGCTTTGAAAACAACACACAAAGATAATAACAGAGCATCACACGACGCA
ACGGGCATAACGCATACCGAAGAGATCGTGGCGAAACAAAAGTAACTCAG
TAATAAAATACGACATGAGATAATGGAGGGACCCTGGGACAATTGAGGGA
CCCTAAATATATATAAATACAATGTGGCCATGGTAGGCGCACAGGGCGGG
ATTGCGGATGGTCTCGAGCTTTATTTGCTTGCAGATCGGTGCAAAGAGGT
TAGAGTTTGGAAGATATTCTCCTCCGTTCGTTGCGGTCTTTCTTGAGCTT
TTTTGCTGTACCATTGATGTTTGCGTCTACTGTCTCGTACAGTTTGTGCG
TGCATGTTTATTTCTTTTGACAGGATGTTTATTATGTGATGCTCCAAGTT
AAAAATGTCATCTTTTCCGCGGAGTTCGTTCATGAGCACGGGCCTCATAT
ATCGGTCGGTGTGTCCCGACAACAGCAGTGAGTGATCAAGTGCGGGGTGG
TGAGACACCTCACCGCGCTCGCGCTGCAACCTCAATTTCTGTGGCACTTT
CTACAGACAAGGCAATATAATCTGCAAACAAACGCAGATTAACACCCCCA
GACAACACAGGGACCTTGCGGTATGTTATCAATAATGACTTTTTTTCACA
GCAAGACATTGGGCGCAGTGTTATTGGTGGCCCGCTCACAACAGCAGTAA
CATGGTCAAATGGGGTTAGTACCAACATGCGAGTGAGCGTAACATGTTCA
TGGAGTACTTACCCGTCAAACGCCATTCAACATACCAGGTACTGCAATAA
CAAGATGTTATTGGTGGCCAGCCCACAACGGGTAACTTGGTAAAATTGGG
CTACTACCAAAATGACGGGTGAGCGTAACGTTTTAGTATCGTGTTTTCCC
ATGTAACCCCAAAAACATTAACACTCCTACTACACACTAGACCATTGCAT
CCCATCCCATATTTCATAACATGAATAACCTATGCCATGTTGTCCCCGTT
ATTCTTGGATAACACAGATAAGTCACATTATTTCTTGGGGCCTTAGGCTC
TTTCCAATCACCTCGCGAAATTACAACGTTTGTTGTAATTTTACAACAAA
CGTTGTAATGTCGGACACTATGGAGGCTTTCTTACAACGATCGTGGGAAT
TGAACGCCGCCAAAAAATCGTGGGATATTCAATTACAACAATCGTGGTTT
TTTTTTCAAACATACCTATTACACACCTACCTCGCCCATCAGCAGCAACA
GCGGAGTAGACAGGCAAAGAAAGATCAGGGCACCAAAGACAAACACTATG
GCAAGCAAATCCACCCCTGGTCTGCGCATTCCAGCAGGTGTGGCGATACG
TGTGGTGAAAATATACAGCAACAGCGACCACATGAATCGGAATCCTTTAT
TTCGCCGCTTGTCTGCCTCTTTTTTCTTGCTGCACCAACCTACACCCACT
TCTGGCAACCCGTTTTAAGCCAGCGACCGAGCCGTGACAACCTTGTAGCG
GGAGCGCTGTCGAGGGCCACTATCACGTAGACCTCTGCTTCGAAAGAATC
GGGACTTCGGGGGCTTTGTAGCTCGGATGCTGTCTGATGCCGTGAATTAT
TGTTTGTGATTGGCACCAAAAAACATCACCTTCTCAATTTGGGGTCGCAT
AAACAACACACACCCTCTCCTTGCGACCCTCTTTTCTCCTCACACAACCT
GTGACAACTGCTTAGCGGTGGCGGTATCGAGGGCCACCATCACGGAGACT
TCTGTTTCGAAATAATCAGGACTTGGGAGGTCTCCAAGCTCCGTTGGTGC
CCTGTGTTGTGAAGTGTAGTTTGTTCGGATTTCTCACGAAAAAGCATCAT
ACCCAAGACGATTAGAAACGCGGAAATATTTTTTCTCTTTTCAGTGAATC
CAATCAAACGTTTGTTGTAATCAAGCGAGGTGATTGGAAAGAGCCTTATT
CCAATTAACCTTACAAATTGATTAGTTGTTACGTTGTCCGAGGTGTGAAT
GTTTGACATGTCGAAATATTTCACATAATTAAAAAGTCAATGATTAAAAC
GACCCTAATTGTCGGATGACAATCGAATTGATGATAATCGTATGATACAG
CTTGACGAACCGACACAGAACGCTGACGATGACATACTCTCGATCCACCG
AATCGATTTCTGCTGCCATCCTTGCCAGCCTGTCCGACTTCGGCAGCGAG
TCGGGATGTCCTACTCTGTCCTCGTCAATGTCGGGGATGAATTTGGGGGC
TGGCGTGCAGCCGGAAATCGGGTTTGTGGACGTGGAGGGACAGGGAGACA
AGCACATCACTTACGAAATCAAGCTGGCAATCCCGCTCCTTCTGCTCTCG
AAGGTGCGAAATGTGCTTTTAAGATTATTTCTTAATCCTGGGATAAAACT
GGAGTCTAGGTTTTTACGCACACCCGAAGAATTTGTAGACTATCTTATCT
GGCTCGTACAGCATTGGAAGCTTATTCCGAAGTGCCCCTCGATCAGTCGT
TTGGATCAATCATGGCTTGTGTCTGCCTTTTCGCTGTTGAACCTGTGGTG
TGGTGGTGTCTCTATTGGCGCTGTGGTTGGGAAAGCATGCGCGTGGCTGT
CACAGCTCATTGTCTATACTATGTACGGAGTATTTGTTTTCCCATGTGAT
TGGCGGGGGCAGAAAAGTAGCATATCATGCATGTGCTGTTCCCGACGATA
CACACCGTCCGCGTGTTATATTTCCGCAAGGGCTTCATAATTGAAGCGTT
TATCGCTCTTTCCGTAAAAGAGGGCGGAGAAAATCACAAAATGTATACTG
TATACAAGGGGGCTGCGCCGGCGCCTGAGGGGGCGCCGACTGGTCTTAGC
TCATGTGTGATATATGGAGGAAGAGGGAAGGCGCAGCGTTGAGTAAGGAA
GGTCCTAAGATGATGCCAAGTGATGAGGAAAAGGGGAACAATCCGGGCAC
ATAATCTGAGAGGAGAGAGATCAAGAAGAGATTTAATATGATTTAAATCT
CGGAAGAAGAAAACACATCATGGATGCAGGTTTGCTCCATCGCGAAGAGT
GAATCGTACAAACCTTACGTACATACTACGGAAAACATGAAAATGGGCAG
ACACGGCAGAATTAACTACTTCGCAATACCACAGGAGGAGGGGCTGCGAG
ACACCGATAGTTGGGACACAGCCAGCTATGTAACGGTGACCACGCATAAA
ATCGAGCGCAGTGTGCACTACAGCCTGACGTAGCGGGGGGAGGTCACAGA
AGACACAACTGTATGGTATCAAACTCAAATTGAAATGGAACGTGAGTTGA
TGTGAGTCTCATACCTGAGATTTAAAAAAAAAAAAACTGAATAGACGGCG
CTCAGAACATACGCTGTGTAGCATGCACAAACTGAAATCACATCATCAGT
CGTGCACACTTCATGTGCTATTCCGTGGAATCGTGATCCTTAAGCACGAC
CGACCGAAAAAACGCAAGTACATGAAGAGAGAAATCACAGAAATATTGTT
TCCTGAAAGGAAGGCGATCCCAAAATTAGTGGACCATCCGGGAAGGAAAC
GCAGGGTGAAGGGAGAATACTCGAGACGCAATCGAGAAGGAGTGTGCCGC
AACGAAGAAATATTCGTTTCGCAGCACACAAACACTGTACTTGAAATAGC
CGCAGAAGGCGTACACACTTCTCGTAGAGTTCAATGTGTTGCCAGCTTAG
AGTCCGATAGTGACTCGGGGTGTGTGTATAGAACGTGACGCAGACCACGT
GTTGTTTAGAAGAGAGGCAAAATAGGTGGTGGTACACTATCCATCACCAC
CGTGTGACTGGCACATGCACGTCGTGACTAATTTTGTTGTTGAATACCTT
TTGGGCTGCTGCAGTTTCTGCATGGTGAGTGGCATACGAATTAGGACCGG
ACATGAGTTGCAGGTTCTATGGTACAGAATAGTATGTGAGAGGAAGTGAG
TCTTGGATGATGATGTGACCATTCTCTTGTAAATTCCTCCGCCCTGTATG
CGATGAAAAAACGTCAAACCGTCGGATCCGAGAAGCTTGACAGAAATGAA
TGTGATTGATAGTTTATCACCATCAGGATCACCATAAGGATACGTGATGG
ATGGTCGGGGGAACCACAGAGAGAGGTGCCGAGAAATGCAACGAATTTAG
CATGCTCCGTCGCCTAGCTCGTTGATAACAACCCAACGGTCTTCGACAAA
AGGTTTTGATGCACAACATTCGCAACAAAATGATGAACGCCGTTCATGGC
ATAGTCTGCATACATACATACTGGTACATGTTTTGTGGTTAGGGGAGGTG
AGGCACATGCAGCCATACATACAAGTATGTACAACATACAAACATGCATA
CATAGCGAGAATGGCAAAACGTCTCGGGGCTCGACTAGAGCTCTACGTAC
AAAGTCGTCCGTGACCGAAGACAGACGCCGGAGCGAAATTCTAAGCCTAT
GAGTTGGATAGCGTCTGGCCTTCGATTTATTTATTGCGAGGGAGTACAGT
AGGCTATACGCCAAGGGAATTGGACACGCCGAAAAATGGTCACGTTTTTC
CCACCAATCCGCGAGTCAACATTTGTTTTCAGAATTGACAACCGATATCT
TTGGTACGATATTAGTAATGTGCAAACAGATACTGCTGCACATATACTTC
CTGGCAGACTGCTGATCGGAGTACACACCATCTCTTCAGCAGTGCAGCGT
CTCTACTGCGAAGTGTGCGGCAGACTGCTGAGAGGAGCACACACCATCTC
TTCAGCAGTGCAGCGCCTGAAAATTATTGTAGCACACTCACTCAGCAGAA
GATAGCAAAAAAATGCAACCTACTTTGAGTTTGATTATCACACAGCAGCA
GTGAGAGGGGAAATTCTTGACTCCGCTGGGATGAACAGACAGGGCAGCAG
TCATTATAGACACGAGCTTTTTATGAGTAACTGGGGTCATGAGTAACCCT
TCCTACGGCTAGGTCTGCTAGCGTTTGATTATTATTGGGTAACCTGTGTT
GTTGCGGCCGAGGCTCGTCGATCGATTTACAGTGCAGTTTAATATTAGGT
GTCGTGCGTTGGTATTGTGTAATTCCTCAGGTCCGGGGCAGGCACGACGT
AGTAGTACGGTCCCACCTTGGAGGTTCCCAATTTTTCTAATACAAAGGTA
TTGTCCTACAATCGGTTCCCCAATTTTCCCAACATATTGATATAGCTCTA
CAGTTTGGGTCCGCCTTCAATGTCAATCGATAACCCGATCCCAGTCGTCA
GGTTGCGAAAAGCATAACATAAAAGTTGACCCGTTGGCCTCGAACAATAA
CAGGAAAGTGAACCCTTTGGCCATGCATAATTAACGACTCTCAACGGCTG
CGACCCTCCAAAATAACATTTTTTTTGCTATAAGGTCGGAAAACGTAGTA
TTTGACAGAAATTACTGTGTTCCTGGCGTTGTTGAAACTCACCGGTAACT
TAAGTTATTGCAATTTAACAGGTAGCTACCAATGGAAACGTATAAGTTAG
ACCGCTTAAAACGGCAGTATCCAAGAAGATAGCTAGTGAGCTACAGCAGT
AGTAGCGCGCGTAGCTGCAGAGTAGCATACAACACGGTGACAAGAAAAAT
GGGAACGAACTTTGAAATGAGAACGAAGCGAAAGCGTTTTTTCTCATTCA
GATTCGAAGTTAGTATTCTATGAAGGCACCTGGCGGAGGAGCGATGGAGG
GGGGGGGGGGGGTAGATTTTTGAGATTCTTCACCCGGGAGGGGGAGGGGG
GCATGGTGCACCCCGAAAATGGAGGTGGCGGCGGCGGGGAGCGGGGGGGG
GGGGGGGTTGTGACGCCACACATCTCGGTTCGCAAAAGCCAGACAATAGT
TAGGGGTCGAAGGTGCCTTCGAGGTCTTCTATTTGTCGAGTTGAAACACA
AAATGTTGTATCACTTCGTTCTCATTTCAAAGTTCGTTCCCATTTTTCTC
GTCACCGTGTTATACACGTACATATACTTGGTACGAAGTATGGTGTATTT
TTTTAGTAGTCCATGAGAGATGAACGGACCTGATGTTGTGCGATCCAGAT
ATTTCTGATAATATTCTGTCGGTAGAGCTATCACTTAGTACTGTGTACCG
TTGAGGCGTTCTGGATGCGTACGTACATTGTCCTGATGCAGATATCAGAA
CAATCTGTGTTATTGTTGGTACACTCAGTACTTGATGATAAAGGGTCTCC
GGAAGAACTCAGCAAGTATATTGCAGGTTGCTGTATTTAGTATTTGTTGG
TTCTGTGTAGGGTCATGAGTATGATAGTTTTGTTGTCAGGGTCATGAGTA
TTGTTTCTGAGTTTTTCAGAGCTGTGACACACACCGCGCGTGCTCACGCC
ACATGTTTTCACTCCTCTTCATCACCAAACCTGGCCCCGGAGTCAGCCAG
TAATAAGCAAGTCATATTTCGAATCTTACTTCCAACGGACGCACAGTACA
TCGAGCTGTAGCAGCAGACCCGTGTACAACCTCTGCATTGTGAGCTGTGC
ATTTTCATTGTAACAGCTTGTGACAAGCTTCGCAGCAGCAGTAGCAGTGC
ACTCAGCTACGAGCCAGCACTATCACTGCCCACTGCGGACGCTAAAGTCA
AGATGTACTGTCTTGTGCAGTTTGTGCGTGCATGTTTATTTCATTTGACA
AGATGTTTATATGATAATCCCAGTTAGTTGTCAATGTTATCTTTAACCGG
AGTTCGTTCATGAGCACGGGCCTCATATATCGGTCGGTGTATCCCGACAA
CAGCAGCAGTGACCAAGTGCGGGGTGGTGAGACACCTCACCGCGCTCGCG
CTGCAACCTCAATTTCTGTCGCACTTTCTAAAAACAAGGCAATATAATCT
GCAAATGCAGATCAACCCCTCCAGACAACACAGGGACCTTGCGGTACGTT
ACTAAATGACTTTTTTGCACAACAAGACATTGGGCGCAGTACGATAACAA
TAATAATATGTTATTGGTGGCCGGCTCACACCAGCAGTAACATGGCAAAA
TTGGGTTAGTACCAATTGACGAGTGAGCGTAAAATGTTCATAGAGTACTT
ACCCGTAAAACACCATCCAACGTACTGCAATAACAAGATGTTATTGGTAG
CCGGCCCACAACTGGTAACTTGGTAAACCTGGGTTAGTACCAAAATCACG
GGCGAGCGTAACGTATTAGTATCGTGTTTTCCCATGTAACCCCAAAAACA
TTAACACCACTACACTCTAGACCATTGCATCCCATATTTATTTCATAACA
TGATAAACCTGTTATGTTGTCCCCGTTATTCTTGGATGACACAGAAAACT
CAAATTATTTTCTGGGACCTCATTCCAAGTAACTTAACATGATTGATTAG
TTGTTACGTTGTCCGAGGTGTGCAAGATTCGTCATGATTGTAGTAAAGTA
AAAGATTTGGAGGAATTCGACCGATACAAAGATTCAATATTACAACGATT
AAGATTCAATATAGCAAAGATTAAAATCTTGCCACGAGGTCGTGTGATGT
GTGTGTGTGTGTGTTGTCCTCCCATTTATTCTGGGTACCAGTCTACACCT
TTCGGTATGAACTGGGTGCATCAGCCGGGGTCACACAGGAGGAAGGTCAC
GCACGAGATTTTTGTTTTTTACTCTTGTTTTGTTACCAACACCAGGACCT
TCCTCCTGCGGTACGTGCATTTGGCTTTGAATGCGAGTCAGGTACAGCAA
TCACTTCCCTCTATTTACTCACGAGTAATCGCTTTCCACTGTCAAGCCGC
AAGAAACGCTCTCAGAGAGAATCGAACCTACGACCTTCCAACTAGTACGT
TAACGAGGGAATCACTAGAGACCACCGGGGCGACCGGTAGGATTTGTCAT
TATTTTTCCATAGTTTTAAATAGATGTTTTCTCAATAATAATAGGATGAA
ATGCATGGACAGATTCAAATATTTCAAACTATAATTCTTGTACAAATAAC
AATTGATTGCTCTTGTTGCGTTGCTGACCGTGACATGAAAATCGCAGGGC
GCCAGGATAAATAGGCGCGCAAAATCGACGGGAACTACCTGTACAAAACA
CATAATACTTTAGTCCATACTCCGGAGTATTACAACACATGCACAAGCAT
CGTGAAAGACAAACACACGGTATAATTACCTGGCACATGCACATAAATTA
TTAATTCGTGTGCATACAGCAGTCAGCACAGATCCTCTGATTGAACGTCC
ATCAACGGCGAACACCGGTGAAAAGGAATGCAAGCAAAAAAATCGTTTTC
GACAGACTCTCGGATAGTAGTAGTAGTGGCAGAGGGCTCGACGACGGCAC
GAACCGATGAAAGCCAGGCATGAGAAAATACCCCGACTCGCAAGCAGCGG
CCGAAAATTAATGTTGAAAATGCAACATTTGCAACATCATCACTGAACAA
CAGCAGTGGAGGCGGCGCACGTTAGCTCAAACATCGAGACGGAGGCAAAC
CAGCGAAGAACGAAAAGGTATACCCAAAAGTGAAAATACGTCGCTCGTTG
TTTCCGCTTTGTTTGGGGTTCGGCACCCCCAAGCACATGACGTCGGGCGC
GGTGGAGTCGAGGCAGGTCGAGCACGGCGGCGACGCTTTCGAAAGGACGG
AAATCTTATGCTCCGTATTTTTATTTACGGTTCGGGTAGTTGGCACAACC
CCCAAACGGACGTAAAGCAGCAGCAGCGAGTGATGGGCGCACCGTCACAA
CCTGGCATTGCAGAGACAGACAGGTGGTGTGCCGATCTTTTCGCCGAAAG
TGAAATCGACAGTGCGACGCTAGGTGTGGCGGGAGGAGTCGCCGCAGCAA
AGATGTTTCTAGAGGCCATCTAAATTGAATGCTGCTTGCGTTGATTATGC
GATAAAATAAATAAATAATAGCTCAACCAACCAGAGGAATGAAAAGAAAA
AAAAAGGGCGAACCTTCATACATAATCAAACCAATAATCAATAATCAGAT
TCAAGATCTTGGTCTCGATAAGATAAGCCCTGGCACAGTCAGTCAGAGTT
GATTTATACCACTGCTGTATGATATACATTTAGTATGGGATACATCCACA
ATCAATCGTATTTGTCTCCAGACTTTTTTTACGCTGTGTGGGTGCCCTGA
AAGCGAACTTTGAAAATGCAGTTTCAACACTGCTACTACTGCTGCTGCTG
TATCGCCGAACAAAGGAGAATCCATCTGCAGCAGACTGCTTTGACTGCTT
TATTTATCATTAAACAACGATTACCGGATGGAGTGCATCAGACGCGGGTG
GGTGCGCAAGCTCATGATGTATGTGCAGAATCTGATATAATGATGTGCAG
AATGCTTCTTACAACCATGTAACTGCTGTACTGCTGTACTGTATAGACTA
ACTGCAGACTTTGCGGTGATGCTGTGTCATGTAATTGCCACAATAGTTGA
TGTGACGCGGGTGGGTGCATAAGGGGCAGAGAAAGTAACCTGTCTGTGCG
TGCTGCTGCGGAATGCTGTCGAGTGCTGAGAGCGCAACGAGAGGTCTCGG
GGAGGGTCCAAGGCGGAATAAGAGTGTACCCCCGGTGTGCGTGGGAGCGG
GAGACACGATTATTATGCTTCTGCGGATTGCTGTGCCGTGTTCAATGAAG
AGCGCTCGACAGAAAGGGAGACTGAAGATTGCTTCACGCTTCTTCTTCTG
CAGACAGGCTGCTTCTCGCTCGCGAAATTTCACGAAAATCAGACGTGGTG
CCATGAATGATGTAGGACGCGGTCGCAGAGAGAAAGAGCAGTTAGATAAA
AAGCAACAGCGCGTGTTACCACGCAACGAGAGGTCTCGGGGAGGGTCAAG
GGCGGACTGAGAGCGCGCTCCGATGTGCGTGCGTGCGAGAGACACGCTTA
CGCTGCTGCGGAACGCTGCGAGCGCTGGAGCGTAACGAATCGACCCTGAA
TTGTTGTTGTTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCT
AGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAAAAATAT
ATTTATATATATATACAAGATCCCCTTCCAGAGTGAGCTAATGAATGAGG
GTATAGAGAGTGCGATAGGGGGTGATTCAAGACTAACGAAGCCGAAGACA
CATTTATTTTGCGGAAGCGCCTGCTGTGGTGTGGTGGAGAGACAAATAAA
AAACGGGAGACTGTAACCATTCACGGTTGAACCCCCCCCACCTCTTTAAA
AGCTGGGTTTTTTTACACCCACCCGCCCCCCACCCCTCGAGGACCTAGAA
AATCCACACCACCACCGACGACCCCCAATCACAAGTAAAAATAAAGTGTT
TCGGACCTTTTTTTTTGCAAAAAACGAAAACGAAATGCATGCATGGAGTT
TAGTAACAACCTGGGAGGCTTGCCCATGAGCCTCCCAGGCAGCGAACTCC
TTCACAGAGACTGCGACTGCGGTACACGGCGGCGGTGCAATAGGCACCAA
GCCGAACAGAGCGAGGCCCAATTCACACACTACTACAGCAGCGCAGCAGA
CAGCGCCAAGCCGTCATACCTGCCAGTCAGTGCAACAGACAGCACACGGC
CGTCTACGATACCCACACGCTGACACGATGCATTCCACCGCGTTGTTATT
TGAAATTGGGCCCCGCGCGCTCTGGATTTGAATCATTTTTGGCGTTATCT
CCTCTATTCCGCTGCTGCTCCAGCTCCTCGCAGCAGAAACGCGATGATAC
CGAAATGGAGTTTTTAATTTTTTTCCTGAAGAACGAAGTTATTTCGTTTT
TGTTTCCGCTATTTCGTATTTTTTTGCCTTCCGTTAATCCCCGCTAAAAA
AAAACGAAATAAATAGCGGAAACAAAAACGAAATAACTTCGTTCTTCTGG
AAAAAAAAAAAAACTCCACTTCGGTATTAACGCGTTTCTACTGCGAAGAG
CTGGAGCAGCGGAATAGAGGAGATAACGCCGAAAATGATGTAAACTCAGA
ACGCGCGGGGCCCAATTTCAAATAACGCGGTGGAATGCATCGTGTCAGTG
TGTGGGTATCTATCGTAGACGGCCGTGGTGTGCTGTCTGTTGCACTGACT
GGCGGGTATGACGGCTCGGCGCTGTCTGCTGCGCTGCTGAAGTGTGTGGA
TTGGGCCTCGCTCTGTTCGGGTTGGTTGGTGCCTGTTGCACCGCCGTGTA
CCGCAGTCGCAGTCTGTGTGAAGGAGTTCGCTGCCTGGGAGGCTCATGGG
CAAGTCTCCGAGGTTACCAAACTTCATGCATTTCGTTTTCGTTTTCGCAA
AAAAAAAGGTCCGAAACACTTTATTTTTGCGAAATCGAAAACGAAGGAAC
GCCTCCCTGGAGGACGTTGAAACGAAAACACGCCTCTTTCGTTTTTTTTT
CCCGACCAATCAGAGCTCAATATCGTTTTCGTTTTCGCTACAGGCGCCAT
CCGCAGTTAACAGCAATTTGCTCTCCCAAGCTGAAAAAAAAAGAAAATCA
AAAATCGTTGTTTTTTCTCGCTTTGAAACGCTCAAAACCGACGTCTAAAA
AGTTGAACAAAAAAATTGGTGCGGGAACCCCTTCATTTTCTTTTTCGCCG
CATTCCCGAACTTTTTTTTCATCGTTCACCGCGGCAATCGCTTCCGCTTG
GCCGATTTAGGGGGGTATAGCCACTCAGAAAGTTGCTCGGACCAAAACTC
AGGGGGGCCGGTCAATTTTAAGAAAACGAGATTGATTATGGCTGAATCCT
TCAGGAATACGTCAATTTTCTCCGCCTTTTTCTCAAAGACAATAGAGAAG
TGAACCATTCTGACTCGATATTCGTGATCCCCACCCACAAATTACCCCGT
ACTGAGACTTTCATCTCTTAGAACCGGTTTTTTGAGGTTTCGAGGGGGAG
GGGATGGCAGCCTTCCATCCCCGCCTCTTTGGCGTGTTGGGATAGCTGTA
ACTCGGTGCTATCGATGAATGAATTTGGAAAATCTGACGACGGATTCGTA
ATCCCCACCCCATGATTACCCTGACCTAATATTCCCAGATCAATCTGACA
ACTAACTTTTCAAAAGCGGGGATGCTTCAGGAACATCCCCGGAGTATTGC
GTTTTTAGAAATTCCCTATTGAAAAACGGAAAATGAGTTGAAACCCGGCC
AAATACAGTACAAAAAAAAAATTGAATCCACCATTTACATGTCCGGCCAT
GTATGTAATAAAATTGTCAGACCTTAGTCGGGGATGGTTCATCACCATCC
CCGCCCCGCCAAAAAAGTACGGCTGTTAACTGCGGATGGCGCCTACAGCA
GTATTTCGTTTTTTCGGCCTTCCGTCAATACGGGCTCTTTGGCCTTCCGT
TAACCCTTTGAACCCCCCAATCGCAATTGGGGACAATTTGGGGACACTTT
TTTTTCTTACTTAGGTTTTAAAGGCGCCTATCTACAGGTATTTTGGGTGT
GGACCAACTAATAGTTGGCTGCCTCCGTGCCACATTTGTTTTTTATTATT
ACTATGGGAGACCAAGAGCGCCCGGCTGTTAGGTTTGTTGTGTGTCGTTC
TCTTCCCTCGACAGCATGGTAGACACAACGGCGATCGTCTTGTTGTATCA
CACTTCATGCCGGCAACCCTCCCTGCATTGCACACAACATGCACACATAC
ATAAGACATGATACATAGACTACATGTTAGACTACCGCTCATATCATACG
AAACGCTGATGCTGACGTACTGCTGTACTCACATACATACCCTTATTTCT
GCAACTATTATTGTACTGCTGCTGCTGCTGCTGCTGCTGCTGTGCATGCT
GCAGCAAGCAGCTAGCTGATGATGTGTCGTGCGATGGGTTGGTGAGACAC
ACACTACGCACACGGGGGCCGACACTACAAATATAGACACATCACGCCAC
GCACGTTTGAAAGCTCACAAACATACCCGGCGATCCCGGACGAGTATCAT
TACATGGATGGGTACCATTACATGCCGACACCCTTGCGTTGATCACATAC
ATCCAACATACAGATGATGTGTTTGACTTCAGTACTTGTAGTAGGCTAGT
AGTGCAGCTGCTGCTTGCTGCTGCTGATGAGATGCTGTAGATCCTGATTG
AGTGTCGTGCGCGGGTACAACCTTGCGGAGTGGAACCCTACTGCTGTGTG
GTTATCGAGCGGGGTACCCTGATCTGCCATGCTAAGTGGCGGTGTTGCTG
CGTGCTACCTTGCATACAGCAGTATCCCTTTGAAGTAAACATTCTGCAAA
ACTAAACAAACAACTTTTGTTTAGTTGACCCCGCCGAAAAAGTTTGTGTA
GCTTTTACTTGTAAGACTGAAGTCTGTCCCCATTTTTTTCAGGGCAAATT
GGGGACAGATTTCTGTGTACGTATAATAACCAAGTCATACCCTTTTATCA
CCGGACAGAGCCAGCGAGACGTCAGTCCCCTTTTTTTTTGAGACCGCCCA
CCATTCGCCAATCATCGGCGCACCGGAATATGTTAATTTTGGGCTCCATG
GTTATTTTTTTCAGACCCCTGGGGGGTCAAAGGGTTTAATCTCCGGTCTC
ATGCCACGAGCTCACAACCGCAAGCCTCAACCAGCCAATCCGACACTCTC
AGACATGTGCAGATAGATATGGAGCTCCGGCGCGGAAGCACTGAAAGCAG
CATTTGTCTATCTATCTGGTTGTTGTCTCACCATTACTATCGCAAAGTAA
AAACAGGTCTCACACAGCAGTCACCCGTCCGTACGTAGTGCGTTTGACTT
TTCTTTTTCGCTCTGACTGGTTGTCACAGCAGTGTAGCATCAGGTACGCG
ATGCTGGACATCGAGCGCGGCAAAAGTGAGATGCGAGGCGATCTGGGCTT
GCTTGCTATGTACACAGGTGTGCATGACTATACTACTGCTGTGCCTTTTG
TACACATACGTTGCGTGCGTCCATATATGTAGTCTGGCCGCCTGTTTGTG
GGGCCAATCAGGCGCACGTAAAACATTCATCAGCTAGCTGGCGTACTGAC
GTTTTTTGTGGGGCCAATCACCAGCTGGTGCTGCTGACGTCGGTCTTGTT
GTTTCTCACATTAGCTCTTTTCTAGTATCTAGCGCCCGCGGTCACACCAA
ATGCTGGAGCCATAGGAAGATCCGAAGAACACAGAAATCAAACAGAAGAG
CGCCTACGCACGTCGAAGGAAGGCACTTCTTTGGACGTATTGTCCCTGTG
TCCAGACTACTGAACTACGAACCACGGACAATCCTTCGGCTACAGCAGTC
ACCCCCGATCCCAATCCCTCCTCCAACCAACTCTCGGCTGCTGGCTACAG
TAGAACCTACTGTCTGGAGTGCTGCCCGCACCGTACCACGTACGGTAGTT
AAGTGGAGAGAACAGCATCGAAGACTGTTCACCCGTCAACAGCTGTTGAT
TTGCTACTGTTCACCGAACAGCTGTTGGGCCTGACGTTTTTTGGGCCGTT
CGCTGAACCGCTCACATAGAAACAGTCAGCTGTCATCTCCGGCCGTTTTC
AACCCAAGGAATTGAGAGAATTTTCCGAAGAAGGATTTACAAAAGCTTAA
GTGTACTTATATACATACATGGACTATGATCACCCACAGTCAGATCAGAC
GTGGTACCGTTGGGGTACCATCTGTGGTGGCCAGAATACCAAACAAATGC
AGAAAAAAGAATAACAGGCTCGAAAGAAAAATAAAAGTTGGAAACAGTCC
GACAAACAAAAATAACCAAGACAAAACTCAACAATAACCATATACTTCGA
AGTACTTCGTACATCGAACCAGGGACCAGGGCCATGACAGACCAAGGCAA
ACGCATGCAGGGCTGCGAACCCTCGGAATAAAAAACGGGGATTGTGCAGA
ATCCTAGATCTTCGAAAATGCGCTTTCATCTCCGGATAAGAAAATCTCTC
TGCAGACTGCTTTGTTTGACTGCTTCTTACGACCTTGCATCAGACGCGGG
AACGCGGGTGCACGAATGAAGCGCAGAGAGAAAGCAACGCGTATTTCCAC
GCAACCTCAAGTCTCGTCGAGGGTCCAGGGCGAAACGAGTATGCCCCGAT
GTGCGTTCGAGCGAGAGACACGCTTCGAATTCGCTCAGGCCGCTGCGAAC
ACTCCGGAGCCCTGAGAGAGAGATACCGTTTTGAGAAACGTACTGTTTAA
TGTAGAGGTCCTGAATGCAGGCCTGTGAGTCTGAATGTTGTTTCTCACAT
TAGCTCTAGTATCTAGCGCCCGCGGTCACACCAAATGCTGGAGCCATGGG
AAGATCCGAAGAACACAGAAATCAAACAGAAGAGCGCCTACGCACGTCGA
AGGAAGGCACTTCTTTGGACGTATTGTCCCTGTGTCCAGACTACTGAACT
ACGAACCACGGACAATCCTTCGGCTACAGCAGTCACCCCCGATCCCAATC
CCTCCTCCAACCAACTCTCGGCTGCTGGAGTGCTGCCCGCACCGTACCAC
GTACGGTAGTCAAGTGGAGTGAATGCAGGGCTGCGAACCCTGAGAGAAGC
CGTTTTGACAATCGTACTGTTTAAAGTATGGTCCCTGAATGCAGGTCTGT
GAGAGCTAGACAGAGAACGAGATCTGCAGACTGCTTCACGCTGAGCAGAA
AGACAACTGATATAAAGGTTACAGATTGAGGGCGGGAAGAGGAGATGGGT
TCGAAGGCGGCATATTTGAAACGGCATATACTCCCAAGACTGCTGCTGTA
TGTGCGTGTTAATCCCACCTTTTCTGGGCACCGGTCTGCACCTTTCGGTA
TGAAGTGGGTGCACGAGCCGGGGTCACACAGGAGGAAGGTCACACACGAG
CTTTTTCGTTTTACATTTTGCTTTATTGCGCACACCTTTCCTGCTGCGAT
ACGTACTGTACTTGCCTTTGATTTTTCATGCGAGTGGGGTTCAGCAATCT
CTTCCCTCTGTTTTATTTTCGCTTTCCACACAACAGCAGTAAAGGTGCGA
GAAGAGGCTTCAGAAAAAATCGAACCTGTAACCTTACAGTACTGACAGTA
GGTTGACGAGGGAACCACTAGAAGACCACGGGGGCGACCGGCTTCTGCAC
CATCATGTATTATCTATTCCGGGGTATTTCTTATGCTAAGACGTTTTTTT
TTTCTTGGATTTACACATACATTTATAAATGACGATAGTGCTGCTGTATA
ATAGCTTTCTTTCTTTCATTGCGGGCCGCCACAGCATTTTTACATTTTAC
GCACAGCAGCAAGACTTGCAGTTTGAACGCCATTTTAGAGGCGGGGGGCC
ATTTGCGGACCTTCTTTTTCATCACTTACTTCCGAGTTGCGGACCCTTTA
GACGTTTTGTGCAAGAGGACCTTTTTATTATTATATTGAAGTGATGCAGA
CTTTCCTCTCACAACTTAATACTACACTGCTGGATGGACCCGCTTGCTAT
GTCCTGTTTGTGGGCCGCCACAGGGTAAAGTCAGTGTAGCGAGCATCAGC
GCCGGGAATTTTCCCGTGAATGTCGCGAGCGAGCATTTTGGCATGCGTTG
ACGCTTGACGCGCCTGTGCCTCGGTCTTCGGAGAGAGAGGCAGTCTCCGC
GCCGGAAATTTTCCCGAAAATGTAGCGAGCATTTTGGCACACCTTTACGG
TGCTGTAACTCGGCTCGCCCGTCGAGTCTCGAGCCCGGGACAGGCGCATC
GCGCTGGAAACATTTTGCTCGTCCGGGGCGCGAAAAAACGTTTTCAACAA
ACGGGGCGCGAAAAAACTTTTTCAACAAAATTTGTCTGCAGCGGCTGCGT
GGTAGGGCGTCAAAACGTCTCGATTCTAATGGGGTGGCAAATCCCCCGCT
GCGCTCTGAGCGCTCCGAAAGCATTAGCTCTCTATGTGTGAAAAGAAGAA
GAATTAATTTATTATATTTATGTAACTCTATATCGCCTCTTGCTGCGGGA
ACCGTGGGACACAGCGCGCAACCTCTCGTCGCGTGGTGATAACTCGAATC
CGCCATGAACTTGTGGTAAATTCAATTGCGCGGTATCGCACCACATGTTT
GACTACCGCTGGGTTTCGAAAACGATGGCGTAAAACTGCGCTGCTGCGAT
ATCGTGACCTTCAAGCTATCGATACCGCAGTATTTGCTTCCCAGTGTGAC
GGTTCCAAAGTGTGCCTCGCAACGGTTGCGCCATGAACAAAGTATATGAA
TCCCTGCACCCATGGCCTCTCTCCTCTTGCTGCGCACCATCGGTGTGGAC
TAATACTTCAAGGTGGTCCTCTTCAATTGGTCCGGCCTGCCAAATAAGAC
TACCATGCTCAACAGTCTGGGCACGATGAGGGAAGCGGCTACCACTATCG
ACCGTTCACAGCGCAAAGGCGAGTACTGAAGGTGTATTCGCTCAGCAGGT
AGTCACATGCGGTGCTGGCCTTTACCAACATGCACATGTTTTCTGGTAAC
ACCGATATTCTCGATGAACGGGTTCCTAGGTAGGTACGTGACCGATGCAA
GATATTCTCTGCCTGCACACCGGGACGAGGGCCAGCTGAGCTTCCCTTGG
TCCGTGTTGATCGGGCGTGGATGGGTCTATCCCAACACCTCATTGGAAGC
ACGTCCTCCATCCCGACTGCTAGATGAGTCTCAACTGAGAGGCTTTCCCT
CAGGCCGGGTTCGTGCGGGAAAATGCCAGGTGTTCATCTACCCCCATGCA
ACCCGCGTTAACCTCGTCATGACACGACGGCCCTCTCCTGCCACGCGCGT
CGCCGGTCGCGCTGTGATCCCATCTACATACTGTACGTGCCTTTTTCGCG
CGTCTAGACGTCTTTGGTCACCTGATCGTTTTGCTTCGTGACGTGGCTGA
AAAAGAGGAGAAGGAAGCCTATAGCGTGATCTTTGACAAGGAGGACGACT
ACTGCATCACTGACGAGGCGGAAAAGCAGATGGATCTGCGCAACGTCATC
CGGCGGGACCTCAATTCGTCTTTCCAGAGCATTCGTGTGTGCTGCCTGCC
TCCTCCTCACGAGAAAATAAACGGAGGTGTGTACGTTCTTGAACTGTAGT
GTATTATATCGCCAGAGGTAGCCCCACCCTCGTCTGAAGCCACATTGTTT
TTGGTGATTGACAGAGAGGGGAGGGAGAGGTAAAAGGAAAGCGTGCGTCA
TGATGCTAGTAGGCAAGTGTTATGGGCCCGCCGAGTATGACTCAATACCT
CGTAGTAGTCTGCATGCGATGCTGTGCGGTTTGGCAGAGACAAACACCGA
CCCAAATTGGATTTGAACAAACTGATAGATGGCGATTTTGGATTGTACTT
AGTCTCGTTGGTCCATCGACGCATGTGTGCAGACCGGCAGATCGCTCAGG
GTGAGGTGTCTCCAGCATTTGCGGCCAAGGTCACGAAGTTGCGACACTTA
CTTGCGACGGAACTTGTCGCGAAACCGCACTCCTTCGGAAACGGACCCGT
CGTGGGAGGTGAAGTGCTCTCCTCGCTGCTGACCGGGGTGTGCGAGGTGG
TCAACGGCGGGCTTTCGAATTTTGTACCTCTCAGGTGGGTGGCTGAGGTT
CGCCTTTGTCCTCCCTCTTGCCGCGGCTTTGTTTTTGTCGGCGTGTGCAT
GCTGGCGGCGCAGCATGTTCTGCTAGTTGTTGACCCCGTTTGCACTGCGT
TGGAAGCAGCGTTGTGAAAAGTGATCGGGGTGTTCATGTGCCTGTTGCGG
GGAGCTTCGAGGATGATTTGACCGGGTCCTCCGATGCGGTTCGACGTCCA
TGGTAACACCACCCGCTTCGCCTTCTAGAGAACACAATTGCACCGGATGC
GCGGTAGCCATCGTGTAAAGTAACGTTTCGCAGTCGGGGGATCGTCTTGT
AGGCTTTAAGGATTTCAACCGAGTTGCTGCTTGCAGCAACGCATGTCGTC
GGGGCCTGACTCCCCTGTTCCGCCACCAGCGATCAACGCGCGTTTCCTCG
TTTACCGCAACGATTTGTAGCGGTTTTTGGAAATCGCCCAAAAAGTACCC
TGTTCCAGCCGTGGCACTTTTTCACCTCACGCTTTGTACCCCCTCTCTCT
CTCCGCCACCGGCGACAGCGTTCAATAAGTTAAAATGCCCACCACAGCGG
TCGCTCGGCCCCAAAAGATTGGTTTGAGCCAATGGCATTGACGATCGATA
TGGTCGTCTTCATTGATCGTATCAATCACCTGACCGCCTACCGCGGCTCC
GGTGAATGCAAGATCGCTCTGGTTTTGTTGAGGCGGTGCCGCAAACGGAC
AATACACACGGCAAGAGTCGGCAACTTCTACAAATGCGCCACGAAGAAAA
CCGACCCCGCTCCCGTGCGACCCAATCTTCGTATTTTTTTCGTACACTTG
CTCGGTGCTGTCGGCACCCTTCTGCTGTTTATTTTCGCCTTGAAGCCTGA
TGCAGTCCATCCAGCAGGGGCGTGCGGAGACCGTGCTATCGGAGTCGAAG
AATCTGTTCAACCAGAGCATCGCAATAGGCGTCGAGGGTAAGCGGGTCCG
GCTGTGGTGGTTTGATGTTGCAATGCTCTTGTAAACGCAAAAGCAAGCAG
GAGCCTTGACTCACGCAATCACGTTGTTTTCCGCATCTGAAGGGAGATAC
ATTTTTGGGTGTTAATGCTTGTGAAAGAACCCTGCAATTGTCGAATGACA
AAACTACAAGAATTTATTTTCCTTGCGGATATTGTTTTGCTTTCGGGACT
TTGATGGTGGAGCGCCGATTCATCAGGCCACTATATCCTCGCATCACAGA
ATGTTTTCCCTTGGTTTGACAGCGCTCGCTGTCCCGCCTTTTCCTAGATT
GTATGATCTAAACAACGCCTCAATGACCCTCCCAATTCGACTCCCCCTCC
AAATCTCATTTCAGACAAGGCGCCATTGTCGATTTCCCTAGATTGTTTGA
TCGAAACAACGCCGCAACGACCCTCCCAATTTGATCCCGCCTCCCAATCT
CATTCCAGATAAGCCACCATTGTCGAAAGCCAACACAAAGAAATTGATCG
AGGCGGCAGCATCCACGGCCGTCGGGCACTTCACGGGGCAGGCACGTGTG
TGTTTGTGTGTGTGTTGTCATCCCTCTAATTGGACGCCACTCTACGTCTT
TCGGGTAGGTAGACGCTCCAACCGGGGTCACACAGTAGGGAGTCAACACA
AGATTTGTTTTTTCTCCACTTTCCACCGCGGTACTTGCCTTAATTCTTTA
TCGCGAGAAAGGGTACGGCCATCCCTTTCTCTCGTCGACACTACGAGTTT
TGTTTAGTCACGAACTGATCGCTTTCCACCCTCATGAATCACATGATGAA
AATCCCAGATCGTCTTACTGCACCGGCATTCGAGCTCAAGCCTAAATGTG
GGAAGATTTCGAGGATAATCAACTGAACCATCAGGGCGACCGGTTACGTG
CATATTGTTTATTGTCGTGATCGCAACTGCTGCTGCTGAAAATTCCTGGG
TGTTCTTGGTGATCCTTTAGTTGTTCATGTGCATAGTTTAGTGCAGATTT
CAGCTGAGAGGTATCGCGAGCGAGCACCACGAATAGTTTGAAAGGGTGCC
CCCCGTCTCTCGCGTCTCTCCGACCCGGGGAAGCGTGGTGAGACAATGTA
CCCACCGCAAGAAGGGAGCCTCGACACAACAAAGCAGACCGCTCCCCACT
AAAACATCACATAACTCCAGTGAAACTTGTATCAACTTTACGAGCCACGG
TAAATCTCTTCGTCATCGCGAGGGTGCGCGGCGGAACGACAACTGCCCCC
TTGAGATGAATCCTCACAAATAGCACTTTGGGTTGATTTGAAGGAGCTGA
GCGTACCTCGTGATCGATCAACTGGTGCTCATTTCTTGTTCTGCGGGCAG
AGCCTGGCCGAGTCCATTGCGAGCAAGTACAGGGAGAAGCTCGACGAGGT
CATCGACGAGGGTTCGAGGGCGTGCTACGCAGCACAGGAGCGGCAGGTTT
TGAACGCCATGAACCAGGTCAATCGCCTACGCTCCGAGAGTCGCCTGCAG
GTCGGCAAAAAGGTACGAGTTGTTGCTCCCCGACAACCGGCCCGAGGACA
TTGCTGTAGACTATCTCGTGCCTATGGCAGGACGTCGGCGAATGCAACTC
GGGGGCCGCTGAGTCTGCCGTACCACATGATTCAAACACTCAAGCAGGGC
ACAGCCGAGCACCTCGAACGCGTTACTCGCGCGTTTGGGTAGAGACTCGT
AGTCCATGAGATGGCGAAGGCCCAGAGACATGTGGCGCAGCTGGCTGAGC
CGGCCAAAGTGTTCCGTCGCCCCATGCTCTACTACAGCAGAGGCGCACTT
CGAAGCATGCCTGCAAGCAAGCATGACACAGACCCTCCCGGGCCCCTCGT
TTGGTGATTTTCCGAGCTCGTTGCGTAGCACAAGAATTGTAATAATATCG
TCGTTGGTGGCGCAACGTCGACCCCTTTCGGTGTTGGTGGCGCGAGCAGG
CGAGCGGAATATTGGCCAGCTTTCCAATGGAGGTCAACGAGCTAATTCGC
CGCTGGGTAAGACTGTGCGCCGACGTCCACGGACAGCTGCAAAGCTCCGT
CGAACAACACTTGGGCAGCGGCATTCTCGAGGACCTGCAGGGGGCGCTGC
CCACGCCGCAACAGTTCGAAGACAGTGTCTCAGGTACGTTGCTTGGTGGC
TCACGATGACCATAAAATTGCTTTTAGTTCCTAGTCGTGACCAGCTTTTC
GATGGCAGATTTTGTCAAGCGTACGGCCGACAATGGATCGACAGCGGAAA
ACTCTTGCACTTGTGGACCCCTATATACGGATGTATGACGCTCTTGGGTT
GCGTTGTCCTCTCGTGGTAGACCGAGGCATAATCAACCTCGCCAGGCAAA
ACCTGATCCTTTTGTTTTGGCGAAACGGGTGAAGTTTTTCTCGTGCAGTC
AGTAGCACCTACGCGGCAGTTTGAAGCAGGGCCGGAGCACGGCCGTTCGC
CGACGAAAAGTGTGCTACTTCGAAGTACTATACAAGCATCAGAGGGCCCT
TCGTGACGAGTAAAGACGTAAGGTGCGCGTACTCCCCGGTTGGTATTTTC
GGGCAAACAGGTTCCGTGCTGCATACCTTGTGCTACCACAGTGAGACGCG
GGTGTGTTTCTCCGACCAGCACAGCTACAATACATCGTTTCCCAACGTCA
CCTTGTCCGTGTTTGCTTCCTTAGACCATCTCAGCAACCTGATCGCTTCG
AACCAGTCACAGTTGAAGTCGGAGCAAGACACTACGATCTTGAAGAAGGG
GCTCCATGAGATGAAAGAGGCTGCTGCTGAAGCGAAAAACCAAGCGGACG
CGATGCAGGAGGGAATTAAGCAGTTGCGGCAGGAAAGCCGGAAAAATCGG
GAGGATGAAGAGAGGTCACAAATGTGGAAGGTTCGCGAATTGTTTTTGAC
CTGGTTTTTGGACGTTTCGGGAGGAGGGAGGGAGGGAGGGACGGGGCGGC
TTTTGGCAAACCTTCCTGATACCGTGGTATCACGTAGTGTCGGCGGGGGC
TGGGACCGTCCTGCGACCAGTGTAACAAGGTTTCCGAGTGTTTACTACCG
AAGAGAACCCTCGATGGTTGACCAGGCGTAGCTTCATGCCCAATCGAGAA
CGGTACAACGAAGCTCCTGGACCTAATTCAGGGGTTATGCATGCCCGTCG
CTGCCCCTACCCCCTTTCGCTGGGTTGGCACGCCGAACTCTCCTCAAGAT
ACGCTGGCTCGCTTGCTTGGCGTTTTGGAAAGTCCTGATGTACTATGCAT
GACGCGTTTCGCGAGAGGCCTCTTCCCCTGTTTCGGCGTACCATGTCACG
ACAATCACCCCCTTCCTGTTTTACTTTGAGTTGTAAATTTCGTTTTTGCC
CAGCATGTCCGCACCTTGGGATGCGGAAAAAAACGTCCAAATCCGGCAAA
CACGAACATTCTTACTGAAACAGTTGCTTCCGAACCGTAAATTTCGTTTT
TTGCTCAGCATGTCCGCGCCTTCGGATGCGGAAATAACGTCCAAATCCGG
CAAACACGAACATTCTTACTGAAACAGTTGCTTCAGAACCGTAAATTTCG
TTTTTTGCTCAGCATGTCCGCGCCTTTGGATGCGGAAATAACGTCCAAAT
CCGGCAAACATGAACATTCTTACTGAAACAGTTGCGTCCGAACCGTACCC
CCCCCGTCCCATGTGCTGTTTCGGCGCATGTATCAGGACTTGGCATCATT
AACAATGGGTGCCTTACACGCTTCCAGATCTTGGACAGCGGGAGCGAGTG
GGTGAGCGGGTTCCATATGTTTTGTTTCACATGTCTTGTAAATTTCGTCC
CGGCGTCCGGTTCTTCGTTGGGCTTTGAGAGCCTTGCGTTTCTTGATACA
GAAGCGGAGGTTAAGGGACATGCAACCTGACGCGTGTCGTAGGCATTAGT
GCCTCACTCAAGGTTCCTGCCAGTGAATATAAGGAACAGTGCTAGAAATG
AGACTCCAAATCGGTGAGTGCAGTGTCCACACGGGGATGTTGCCACTCAT
AATGACGTAACGCCTCAGAGGGAGGTAAAAAATCGGCGGTCACGTGTCGG
ATGTGCTGGTGTGTATCTGATGCGCGTGAGGTGCTAAAGCCTACGCTTGA
GTTCTACGATGTGCTTCATGTTGTTTGCCTATAATGTCCCAAAGCCAGGA
ACGCCTTGTTCACGAAGGAGAGTTTCACGTGAAGCACTCAAAGCGTCACA
CGATACGCCAACGAAGTTGTCGCTTTGGAGCTATGAGCTATCACAGCGAA
TACAACCAGATCTCTGCGCTTGTGGTAGAAATATTGCGCTTGATAAGTGT
GCTTCTTGGAGAAAGTAGACAACGCTCGCGTCCTTGCAACGTGGTGACAG
GGGTTCTGTACGTGTGTGTGCTTTGTACCTACGTATAGTCTATACCTCAC
GCGTTCCTCGTTCCTTTCTTCGCCAACGAATATATCCAGATGGCAACGAA
TCGGTTGGCCGTCATTGGATACGCTGGTTCCAACCCTTTACTCGCTATTC
TCGTGCATACTTGATCACTTTATTTGTTCATGGATAGTAACACCCCCACT
AACCCGTGCAAGCAATCATTGCTGTCTATTCTTGTCGCCTTCTGTCGATA
AACGTGTGCCTTATTCTCCGCTCGGGCCCGCACTTCTTTGACCAGGTCCT
CCGGTGAGACCACAGATTCCGGCAGCGTTCGTACAGCAACGCAAGCAACA
GCAGCTCGAAGCAGACCTGCGCGTGACGTCGATGTGGGACCGATCGATAA
CCAAGAACACGCCGAGAGGAAGGCGAAAGACTACATCGCTAAGCATCCCG
ACCAGGAATGGACCGGACACTGGAAGACCACGTCGGGGGGGACATCAGTT
ATCAACGTACGCGACAAGGCGTAACTCCTTCCTCGGAGGGTAGATGACTT
GCTGTTGCCTCTTCAGATTCAACAGCAGTCAGCCGAAGACAGGACGGTGG
TCAAGAGGCTGGTGTGCTTTTGTCCAGCACGCCCTTTGGAAGATATAGCT
TGGAGTGTCGGAATCCCCCACCCCTGCAAGTGATGACAAAGGTGTCCACT
ACATTGGGGGAAAGGTGCAGTGGGCGCGGGTGGAGAGAGCAGCGTACAGA
GGGCAACGAGGCCATGTTTGTTAACCAGTCAATTTTCTTACCTTGTATCA
TGTCTGCGGTACAATCGGTGGGGTGGACCCGATTCGTTTGTTTGCCTGAC
CGGCGAGAACCCGGCACGGAACACCCCCCGGCATTGTAGGAGTACCCAGA
TAAAATATACCCGGTTGGTGATTTTGACGTTTCCATTTTTGTTTCTACAT
CATTCAGCGTGTACTCGAAGAGGGGAGCGGAGGGCTCCGCACTGTTTCTT
CCTGATTTTTTCGCTTTGCTGTCCGTTCGGGTCTATTTTATTTCGGTATA
TCTTCTCCGGATAAGTTAGCCTGTGGCCACGGGAATCGACTGTGTCAAAG
TGGTGGATTAGTACGGACAGAGTGGGACAGATGGACGTACTGGACAGAGA
GATCGGAACGGTTGTTAAATGCGAAGACAGCAACAAAAACAAGTGGTTTG
TGTGACTGAATGCCTAACAAGAGGAAGGGACTCCTACTGCTGTACCGCCC
CTTCTAGTGTAAGTAGTTGAAGGCAGGCATCCCATCAGGAAGGCGAGGCA
AAAAAGAAAGTTCCCTTGCGTACTTCCTCCTTTGTGACCCCGGCCTTCAC
GCCACACGTGTGCATCAGAACGAGAACGCAGAACAGATTTATTTTACGGG
ACGAAAAACACCACAAGTACCCACTCTCGGGACCCTGAGAAGACCCTTTA
GGCT
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Coding sequence (CDS) from alignment at P-littoralis_Contig1011:16596..54649-

>mRNA_P-littoralis_Contig1011.4.3 ID=mRNA_P-littoralis_Contig1011.4.3|Name=mRNA_P-littoralis_Contig1011.4.3|organism=Pylaiella littoralis U1_48|type=CDS|length=1980bp|location=Sequence derived from alignment at P-littoralis_Contig1011:16596..54649- (Pylaiella littoralis U1_48)
ATGTCCGTCAGTCTGCTCGAGATCACCGCGAGTCCTTCCGGCTCTGAATG
CGTGTCGGTGTCAGCCGAAGGATCTTCGGCGGTAGAAAAACTGCCGCAGA
AACCGCTGAATCTGATAACCATTTGGGGTGGGGCGAGGACGGGCAAGTCA
TTCTTCATGAACGCGCTTGCCGGGGTTGCTGAATACGACGTTTTCGCGGT
CGCCGGCGGAAGCCATCCTTGCACTGTGGGAGCCTTCATCTCGATCACCA
CGCGCAGCCTGTCCGACTTCGGCAGCGAGTCGGGATGTCCTACTCTGTCC
TCGTCAATGTCGGGGATGAATTTGGGGGCTGGCGTGCAGCCGGAAATCGG
GTTTGTGGACGTGGAGGGACAGGGAGACAAGCACATCACTTACGAAATCA
AGCTGGCAATCCCGCTCCTTCTGCTCTCGAAGGTGGTCCTCTTCAATTGG
TCCGGCCTGCCAAATAAGACTACCATGCTCAACAGTCTGGGCACGATGAG
GGAAGCGGCTACCACTATCGACCGTTCACAGCGCAAAGACGTCTTTGGTC
ACCTGATCGTTTTGCTTCGTGACGTGGCTGAAAAAGAGGAGAAGGAAGCC
TATAGCGTGATCTTTGACAAGGAGGACGACTACTGCATCACTGACGAGGC
GGAAAAGCAGATGGATCTGCGCAACGTCATCCGGCGGGACCTCAATTCGT
CTTTCCAGAGCATTCGTGTGTGCTGCCTGCCTCCTCCTCACGAGAAAATA
AACGGAGACCGGCAGATCGCTCAGGGTGAGGTGTCTCCAGCATTTGCGGC
CAAGGTCACGAAGTTGCGACACTTACTTGCGACGGAACTTGTCGCGAAAC
CGCACTCCTTCGGAAACGGACCCGTCGTGGGAGGTGAAGTGCTCTCCTCG
CTGCTGACCGGGGTGTGCGAGGTGGTCAACGGCGGGCTTTCGAATTTTGT
ACCTCTCAGCCTGATGCAGTCCATCCAGCAGGGGCGTGCGGAGACCGTGC
TATCGGAGTCGAAGAATCTGTTCAACCAGAGCATCGCAATAGGCGTCGAG
GATAAGCCACCATTGTCGAAAGCCAACACAAAGAAATTGATCGAGGCGGC
AGCATCCACGGCCGTCGGGCACTTCACGGGGCAGAGCCTGGCCGAGTCCA
TTGCGAGCAAGTACAGGGAGAAGCTCGACGAGGTCATCGACGAGGGTTCG
AGGGCGTGCTACGCAGCACAGGAGCGGCAGGTTTTGAACGCCATGAACCA
GGTCAATCGCCTACGCTCCGAGAGTCGCCTGCAGGTCGGCAAAAAGGCGA
GCGGAATATTGGCCAGCTTTCCAATGGAGGTCAACGAGCTAATTCGCCGC
TGGGTAAGACTGTGCGCCGACGTCCACGGACAGCTGCAAAGCTCCGTCGA
ACAACACTTGGGCAGCGGCATTCTCGAGGACCTGCAGGGGGCGCTGCCCA
CGCCGCAACAGTTCGAAGACAGTGTCTCAGACCATCTCAGCAACCTGATC
GCTTCGAACCAGTCACAGTTGAAGTCGGAGCAAGACACTACGATCTTGAA
GAAGGGGCTCCATGAGATGAAAGAGGCTGCTGCTGAAGCGAAAAACCAAG
CGGACGCGATGCAGGAGGGAATTAAGCAGTTGCGGCAGGAAAGCCGGAAA
AATCGGGAGGATGAAGAGAGGTCACAAATGTGGAAGGACTTGGCATCATT
AACAATGGGTGCCTTACACGCTTCCAGATCTTGGACAGCGGGAGCGAGTG
GGTCCTCCGGTGAGACCACAGATTCCGGCAGCGTTCGTACAGCAACGCAA
GCAACAGCAGCTCGAAGCAGACCTGCGCGTGACGTCGATGTGGGACCGAT
CGATAACCAAGAACACGCCGAGAGGAAGGCGAAAGACTACATCGCTAAGC
ATCCCGACCAGGAATGGACCGGACACTGGAAGACCACGTCGGGGGGGACA
TCAGTTATCAACGTACGCGACAAGGCGTAA
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