mRNA_H-akashiwo_Contig1.13.1 (mRNA) Heterosigma akashiwo CCMP452

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

Overview
NamemRNA_H-akashiwo_Contig1.13.1
Unique NamemRNA_H-akashiwo_Contig1.13.1
TypemRNA
OrganismHeterosigma akashiwo CCMP452 (Heterosigma akashiwo CCMP452)
Homology
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: W7T9G6_9STRA (Serine/threonine-protein phosphatase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7T9G6_9STRA)

HSP 1 Score: 597 bits (1539), Expect = 5.250e-207
Identity = 307/501 (61.28%), Postives = 377/501 (75.25%), Query Frame = 3 
Query:  189 PSEAAKAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRL-PE------AEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISD--QAP-----------LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGGAGMFGL 1631
            PS+A K  A A K+ GN  L + H+ QA E YT A+AL    AV Y+NRA A +K E YG+AI DA+ AI L+P Y K +YRRGSA YAL KYK+AL+DF+ VV + P+DR+A AK +EC+   +  AFAAAI++E + PLSQT ++DAIVVEDSYDGPRL PE      AEG  G+T  F++ + ERF+ QKL+H +YV +IL  A++LF ALP+++ +   D  + P           +TVCGDTHGQF+DVLRIFE+NG+PSP  PY+FNGDFVDRGSFSFEV+T LLAYK  YP SMHL RGNHE+ +MN++YGFEGE+K KYD  MMGLFTEVF  MPL   I+  V +VHGGL  +DGVTL  I  + R R+PPE GLMSDLLW+DPQP+PGR+PSKRGVG SFGPDVT  FL  NGL+++VRSHEVK+EGY+  H GKCVT+FSAPNYCDQMGNKGAFIRFGPD  P++TQF+AAPHP I+PMAYA  + M GL
Sbjct:   19 PSKATKETATALKEEGNRALHDNHFEQATEYYTQALALHP-TAVLYSNRAMAAIKMENYGIAIQDAEEAIALDPGYLKAFYRRGSAKYALGKYKEALRDFKHVVKVHPRDRDAVAKLRECEKCVKIAAFAAAIQTEDSMPLSQTINVDAIVVEDSYDGPRLGPEGGEEGMAEGELGVTPSFLEDLTERFKAQKLLHTKYVIRILLAALRLFQALPNVMELRTRDIPRTPDAEAGREEGNVITVCGDTHGQFFDVLRIFEMNGKPSPTNPYLFNGDFVDRGSFSFEVITLLLAYKVAYPSSMHLVRGNHESKSMNRIYGFEGEIKHKYDEAMMGLFTEVFCAMPLCATIDASVFIVHGGLAAQDGVTLADINKIYRFREPPESGLMSDLLWSDPQPMPGRLPSKRGVGLSFGPDVTNRFLETNGLKMVVRSHEVKEEGYQVEHDGKCVTVFSAPNYCDQMGNKGAFIRFGPDLVPRYTQFQAAPHPPIRPMAYA--SNMMGL 516
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: A0A2D4BSX5_PYTIN (Serine/threonine-protein phosphatase n=2 Tax=Pythium TaxID=4797 RepID=A0A2D4BSX5_PYTIN)

HSP 1 Score: 590 bits (1520), Expect = 2.030e-204
Identity = 307/496 (61.90%), Postives = 371/496 (74.80%), Query Frame = 3 
Query:  159 PSSTPVAAAEP---SEAAKAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISD--QAPLTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            PS   V   EP   SE  KA A A K  GN  LQ F +A A++ YT AIAL+   A++YANRA AH+K+E+YGLAI DA  A+EL+  Y K YYRRGSA  AL  +KKA+KDFR V  LRP+D++ARAK K C+   +E AFAAAI+SE  +PLS+T D+D+IVV+ +YDGP LP    A     +F+ A+++RF+  KL+HR+YV QIL     + ++LPSL+ V + D   A +TVCGDTHGQFYDV  IF LNG PS   PY+FNGDFVDRGSFSFEVV TL A K +YP+ +HL RGNHE+ NMNK+YGFEGEVK KYD  +MGLFTEVFN +PL  VI N+V+VVHGGL  +D V+L+ I  +DRNR+PPE GLMSDL+W+DPQP PGR PSKRG+G SFGPD+T+AFL  N LELLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRFG D +P+FTQF A  HP I+PMAYAG   GMFG
Sbjct:    5 PSDVKVTVGEPHAVSEETKARAEALKAQGNEALQHFKFAAAVDLYTQAIALFP-TAIYYANRAAAHMKNESYGLAIDDASAALELDSTYIKAYYRRGSANLALGHHKKAVKDFRLVAKLRPQDKDARAKLKLCEKIIKEAAFAAAIQSERNRPLSETIDVDSIVVDPAYDGPHLPADLSAT--KHDFLVALMDRFKRGKLLHRKYVIQILLAMKTMLSSLPSLLRVSLGDGADAHITVCGDTHGQFYDVCNIFALNGMPSESNPYLFNGDFVDRGSFSFEVVMTLFAMKLVYPQHVHLLRGNHESKNMNKIYGFEGEVKHKYDETVMGLFTEVFNWLPLAAVIENRVLVVHGGLFSDDQVSLEDIEKIDRNREPPESGLMSDLMWSDPQPFPGRGPSKRGIGLSFGPDITKAFLAYNNLELLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFGKDMQPKFTQFTAVEHPPIRPMAYAGNMGGMFG 497
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: D0MY18_PHYIT (Serine/threonine-protein phosphatase n=40 Tax=Phytophthora TaxID=4783 RepID=D0MY18_PHYIT)

HSP 1 Score: 578 bits (1489), Expect = 9.090e-200
Identity = 296/472 (62.71%), Postives = 355/472 (75.21%), Query Frame = 3 
Query:  225 KDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISDQAP---LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            K  GN  L  F +AQA+E YT AI L    A+FYANRA AH+KSE+YGLAI DA  AIELE  Y K YYRRGSA  AL  +KKA+KDFR VV ++P+DR+ARAK K C+   +E AFAAAI+SE   PLS+T D++++VV+ SYDGP LPE    +    +F+ A+++RF+  KL+HR++V QIL +  ++  ALPSL+ V +    P    TVCGDTHGQ+YDV  IF LNG PS   PY+FNGDFVDRGSFSFEVV TL A K +YP+ +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  VI NKV+VVHGGL  ++ VTL  I  +DRNR+PPE GLMSDL+W+DPQP PGR PSKRG+G SFGPDVT+AFL  N L+LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRF  D +P+FTQF A  HP I+PMAYAG   GMFG
Sbjct:   26 KAQGNEALSHFKFAQAVELYTKAIELVP-TAIFYANRAAAHVKSESYGLAIEDASAAIELEASYIKAYYRRGSAELALGHHKKAIKDFRLVVRIKPQDRDARAKLKLCEKIIKEAAFAAAIQSERNLPLSETIDVNSLVVDPSYDGPCLPE--DVSKTKPDFIVALMDRFKRGKLLHRKFVIQILLKLKEMLCALPSLLRVSLPTDDPDAHFTVCGDTHGQYYDVCNIFSLNGLPSESNPYLFNGDFVDRGSFSFEVVMTLFAMKLVYPQHVHLLRGNHESKNMNKIYGFEGEVKHKYDETVMQLFTEVFNWLPLAAVIENKVLVVHGGLFSDENVTLADIEKIDRNREPPESGLMSDLMWSDPQPFPGRGPSKRGIGLSFGPDVTKAFLELNNLDLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFERDMQPRFTQFVAVEHPPIRPMAYAGNMGGMFG 494
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: K3WPM4_GLOUD (Serine/threonine-protein phosphatase n=2 Tax=Pythiaceae TaxID=4782 RepID=K3WPM4_GLOUD)

HSP 1 Score: 575 bits (1482), Expect = 1.040e-198
Identity = 298/482 (61.83%), Postives = 361/482 (74.90%), Query Frame = 3 
Query:  192 SEAAKAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHV--PISDQAPLTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            S+A KA A   K  GNA L +F +A A+E Y+ AI L+   A++YANRA AH+K+E+YGLAI DA  AIE EP Y K YYRRGSA  AL  +KKA+KDF+ VV ++P+D++ARAK K C+   +E AFAAAI+SE   PLS+T D++ IVV+ SYDGP L  A        +FV A++ERF+  KL+HR+YV QIL     +F++LPSL+ V  P +  A +TVCGDTHGQFYDV  IF LNG PS   PY+FNGDFVDRGSFSFEVV TL A K ++P  +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  V+ +KV+VVHGGL  ++ VTL  I  ++RNR+PPE GLMSDL+W+DPQP PGR PSKRG+G SFGPD+T+AFL  N LELLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRF  D KP+FTQF A  HP I+PMAYAG   GMFG
Sbjct:   16 SDATKARAEELKTEGNAALAQFKFAAAVELYSKAIELFP-TAIYYANRAAAHMKTESYGLAIDDASAAIEAEPSYIKAYYRRGSAELALGHHKKAVKDFKLVVRMKPQDKDARAKLKLCEKIIKEAAFAAAIQSERNLPLSETIDVNGIVVDPSYDGPHL--AAEPTATKPDFVVALMERFKRGKLLHRKYVIQILLAMKNIFSSLPSLLRVSLPETADAHITVCGDTHGQFYDVCNIFALNGMPSETNPYLFNGDFVDRGSFSFEVVMTLFAMKLVFPNHVHLLRGNHESKNMNKIYGFEGEVKHKYDDTVMQLFTEVFNWLPLAAVLEDKVLVVHGGLFSDENVTLADIEKIERNREPPESGLMSDLMWSDPQPFPGRGPSKRGIGLSFGPDITKAFLAYNNLELLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFEKDMKPRFTQFTAVEHPPIRPMAYAGNMGGMFG 494
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: A0A0P1B6C1_PLAHL (Serine/threonine-protein phosphatase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1B6C1_PLAHL)

HSP 1 Score: 574 bits (1479), Expect = 2.970e-198
Identity = 299/483 (61.90%), Postives = 356/483 (73.71%), Query Frame = 3 
Query:  192 SEAAKAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISDQAP---LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            S+A +  A A+K  GN  L+ F +A AI  YT AI L    A+FYANRA AH+KSE+YGLAI DA  AIEL+  Y K YYRRGSA  AL  +KKALKDFR VV ++P+DR+ARAK K C+   +E AFA AI+SE  +PLS+T D++ +VV+ SYDGP LPE         +F+ A+++RF+  KL+HR++V QIL +  ++  ALPSLVHV +    P    TVCGDTHGQFYDV  IF LNG PS   PY+FNGDFVDRGSFSFEVV TL   K +YP  +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  VI  KV+VVHGGL  +D VTL  I  +DRNR+PP+GGLMSDL+W+DPQP  GR PSKRG+G SFGPDVT+AFL RN L LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGA IRF  D +P+FTQF A  HP I+PMAYAG   GMFG
Sbjct:   15 SDATRTQADAYKAQGNEALEHFKFATAIGLYTKAIELLP-TAIFYANRAAAHVKSESYGLAIDDASAAIELDATYAKAYYRRGSAKLALGHHKKALKDFRLVVRMKPQDRDARAKLKLCEKIIKEAAFATAIQSERNRPLSETIDVNTLVVDPSYDGPCLPE--DVTQTKPDFIVALMDRFKRGKLLHRKFVIQILLKLKEMLCALPSLVHVSLPADDPDAHFTVCGDTHGQFYDVCNIFSLNGLPSESNPYLFNGDFVDRGSFSFEVVMTLFVMKLVYPNHVHLLRGNHESKNMNKIYGFEGEVKHKYDETVMQLFTEVFNWLPLAAVIEKKVLVVHGGLFSDDTVTLADIEKIDRNREPPDGGLMSDLMWSDPQPFLGRGPSKRGIGLSFGPDVTKAFLERNKLNLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAIIRFERDMQPRFTQFVAVEHPPIRPMAYAGNMGGMFG 494
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: F0X0B2_9STRA (Serine/threonine-protein phosphatase n=3 Tax=Albugo TaxID=65356 RepID=F0X0B2_9STRA)

HSP 1 Score: 567 bits (1462), Expect = 1.080e-195
Identity = 287/484 (59.30%), Postives = 360/484 (74.38%), Query Frame = 3 
Query:  192 SEAAKAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPI----SDQAPLTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            SE +K  A + K+ GN  LQE+ Y  A+E YT AI ++   A++YANRA AH+K+E+YGLAI DA  AI ++P Y K YYRRGSA  AL  YK ALK+FR VV ++P+D++AR K+K C    +E AFAAAI+SE   P+S+T D+D+IV++ SYDGPRL  A+       +F+  ++ERF++ KL+HR+YV  IL    +LF++LPSL+ + +    +D A +TVCGDTHGQFYDV  IF LNG PS + PY+FNGDFVDRGSFSFEVV TL A K +YP  +HL RGNHE+ NMNK+YGFEGE+K KYD  +M LFTEVFN +PL  V++N+V+VVHGGL  ED V+L+ I  ++RNR+PPE G MSDL+W+DPQP  GR PSKRG+G SFGPD+T AFL  N L+LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRF  +  P FTQF A  HP I+PMAYA    GMFG
Sbjct:   13 SEESKREADSLKNEGNQSLQEYKYRNAVELYTAAIEIYP-TAIYYANRAAAHMKTESYGLAIKDATNAIGMDPNYVKAYYRRGSAELALGHYKAALKNFRLVVQMKPQDKDARMKYKLCDKLVKEAAFAAAIQSERNLPISETIDVDSIVIDSSYDGPRL--ADDVQSTLPDFIPELMERFKKGKLLHRKYVILILLEMKKLFSSLPSLLRITLPDADADDAHITVCGDTHGQFYDVCNIFNLNGMPSEENPYLFNGDFVDRGSFSFEVVMTLFAMKLIYPRHVHLLRGNHESKNMNKIYGFEGEIKHKYDETVMQLFTEVFNWLPLAAVLDNRVLVVHGGLFGEDDVSLEDIEKIERNREPPESGYMSDLMWSDPQPFAGRGPSKRGIGLSFGPDITRAFLEYNKLDLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFEKNMVPIFTQFTAVEHPPIRPMAYAANMGGMFG 493
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: A0A835YLG0_9STRA (Protein-serine/threonine phosphatase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YLG0_9STRA)

HSP 1 Score: 566 bits (1459), Expect = 3.290e-195
Identity = 292/475 (61.47%), Postives = 348/475 (73.26%), Query Frame = 3 
Query:  225 KDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPI-SDQAP-----LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGGAGMFGL 1631
            K+ GN  L + H  QA+E Y+ AI L    AVFY NRA  +LK E YGLAI+D+D AI L  +Y K YYRR SA   L KYK ALKD R VV   P D++AR KFK C+ AARE AFAAAI  E  +PL     +  I+V+ +YDGP L E      +T +FV AM+ERFR QKL+ +RYV  +L++A  L  A PSL+ + + +D A       TVCGDTHGQFYD+L IFELNG P+PD PY+FNGDFVDRGSFSFEVVTTLLA K   PE++HLTRGNHE+ NMNK+YGFEGEVK KYD  +M +F EVF  +PL   +N+KV +VHGGLP  DGVTLD    +DRNR+PPE GLMSDL+W+DPQP  GR PSKRG+G SFGPDVT+AFL+ NGLELLVRSHEVK+EGY   H G+C+T+FSAPNYCDQM NK AFIRFG DCKPQFTQ+EA+PHP I+PMAYA     FG+
Sbjct:   25 KEQGNKQLADGHLIQAVELYSQAIDLVP-TAVFYGNRAFTYLKMENYGLAISDSDEAIRLNSDYVKAYYRRASANMVLGKYKLALKDLRQVVKTHPGDKDARLKFKACEKAAREAAFAAAIMQEEEEPLCTRVVVQDILVDPAYDGPALGED---LTVTMDFVRAMIERFRAQKLVAKRYVVAVLQQAFALLRATPSLMRLRVPADGADGKTGAFTVCGDTHGQFYDLLHIFELNGLPAPDNPYLFNGDFVDRGSFSFEVVTTLLALKVACPEAIHLTRGNHESKNMNKIYGFEGEVKHKYDAAVMTMFAEVFCWLPLCATLNDKVFIVHGGLPSTDGVTLDDTEGIDRNREPPESGLMSDLMWSDPQPFEGRSPSKRGIGMSFGPDVTKAFLDGNGLELLVRSHEVKEEGYLVEHDGRCITVFSAPNYCDQMANKAAFIRFGHDCKPQFTQYEASPHPPIRPMAYATNFSGFGM 495
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: H3GA00_PHYRM (Serine/threonine-protein phosphatase n=8 Tax=Peronosporaceae TaxID=4777 RepID=H3GA00_PHYRM)

HSP 1 Score: 565 bits (1457), Expect = 6.380e-195
Identity = 288/472 (61.02%), Postives = 352/472 (74.58%), Query Frame = 3 
Query:  225 KDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISDQAP---LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            K  GNA L  F +A A+E YT AI L    A+FYANRA AH+KSE+YGLAI DA  AI+L+P Y K YYRRGSA  AL  +KKA+KDFR V   +P+DR+AR+K K C+   +E AFAAAI+SE   PLS+T D++++VV+ +YDGP LPE    +   A+F+ A+++RF+  KL+HR++V QIL +  ++  ALPSL+ + +    P    TVCGDTHGQFYDV  IF LNG P    PY+FNGDFVDRGSFSFEVV TL A K +YP+ +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  VI ++V+VVHGGL  E+ VTL  I  +DRNR+PPE GLMSDL+W+DPQP  GR PSKRG+G SFGPDVT+ FL +N L+LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRF  D +P+FTQF    HP I+PMAYAG   GMFG
Sbjct:   26 KTQGNAALAHFKFATAVELYTKAIELVP-TAIFYANRAAAHVKSESYGLAIDDASAAIDLDPSYMKAYYRRGSAQLALGHHKKAVKDFRLVARTKPQDRDARSKLKLCEKIIKEAAFAAAIQSERNLPLSETIDLNSLVVDAAYDGPCLPE--DISQTKADFIVALMDRFKRGKLLHRKFVIQILLKIKEMLCALPSLLRISLPSDDPDAHFTVCGDTHGQFYDVCNIFSLNGLPCETNPYLFNGDFVDRGSFSFEVVMTLFAMKLVYPQHVHLLRGNHESKNMNKIYGFEGEVKHKYDDTVMQLFTEVFNWLPLAAVIEDRVLVVHGGLFTEENVTLADIEKIDRNREPPENGLMSDLMWSDPQPFQGRGPSKRGIGLSFGPDVTKDFLEKNNLDLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFEKDMQPRFTQFANVEHPPIRPMAYAGNMGGMFG 494
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: A0A484DSB7_BRELC (Serine/threonine-protein phosphatase n=1 Tax=Bremia lactucae TaxID=4779 RepID=A0A484DSB7_BRELC)

HSP 1 Score: 558 bits (1437), Expect = 6.810e-192
Identity = 291/478 (60.88%), Postives = 352/478 (73.64%), Query Frame = 3 
Query:  204 KAAALAHKDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPIS---DQAPLTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMF 1625
            +A A A K  GN  L  F Y  AIE YT AI L    A+FYANRA AH+KSE YGLAI DA  AI+L+  Y K YYRRGSA  AL  +KKA+KDFR VV ++P+DR+ARAK K C+   +E AFA AI+SE   PLS+T D+ ++ V+ SYDGP LP+    +    +F+ A+++RF+  KL+HR++V  IL +  ++   LPSL+HV +S     A  TVCGDTHGQFYDV  IF LNG PS   PY+FNGDFVDRGSFSFEVV TL A K +YP+ +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  VI +KV+VVHGGL  ++ VTL  I  +DRNR+PPE GLMSDL+W+DPQP  GR PSKRG+G SFGPDVT+AFL +N L+LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGA+IRF  D +P+FTQF A  HP I+PMAYAG   GMF
Sbjct:   19 RARADAFKAQGNDALAHFKYVTAIELYTNAIELLP-TAIFYANRAAAHVKSENYGLAIDDASAAIQLDIAYVKAYYRRGSAELALGHHKKAVKDFRLVVRMKPQDRDARAKLKLCERIIKEAAFATAIQSERNLPLSETIDVHSLTVDPSYDGPCLPD--DCSQTQPDFIIALMDRFKRGKLLHRKFVIIILLKLKKMLCVLPSLLHVSLSADESDAHFTVCGDTHGQFYDVCNIFTLNGLPSETNPYLFNGDFVDRGSFSFEVVMTLFAMKLVYPKHVHLLRGNHESKNMNKIYGFEGEVKHKYDETVMQLFTEVFNWLPLAAVIEHKVIVVHGGLFSDENVTLADIEKVDRNREPPESGLMSDLMWSDPQPFHGRGPSKRGIGLSFGPDVTKAFLEQNNLDLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAYIRFERDMQPRFTQFVAVEHPPIRPMAYAGNMGGMF 493
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BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Match: M4B6M7_HYAAE (Serine/threonine-protein phosphatase n=2 Tax=Hyaloperonospora arabidopsidis (strain Emoy2) TaxID=559515 RepID=M4B6M7_HYAAE)

HSP 1 Score: 555 bits (1429), Expect = 2.560e-190
Identity = 292/496 (58.87%), Postives = 350/496 (70.56%), Query Frame = 3 
Query:  225 KDAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAIADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREARAKFKECQAAAREQAFAAAIESEATQPLSQTWDID------------------------AIVVEDSYDGPRLPEAEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHVPISDQAP---LTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFSFEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMGLFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGGLMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEVKDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAPHPQIKPMAYAGG-AGMFG 1628
            K  GN  L  F  A AIE Y+ AI L    A+FYANRA AH+KSE+YGLAI DA  AI L+  Y K YYRRGSA  AL  +KKA++DFR VV ++P+DR+ARAK K C+   +E AFAAAI+SE   PLS+T D++                         +VV+ SYDGP+LPE    A +  +F+ A+++RF+  KL+HR++V QIL +  ++  ALPSL+ + +    P    TVCGDTHGQFYDV  IF LNG PS   PY+FNGDFVDRGSFS EVV TL A K +YP+ +HL RGNHE+ NMNK+YGFEGEVK KYD  +M LFTEVFN +PL  VI +KV+VVHGGL  +  VTL  I  +DRN +PPE GLMSDL+W+DPQP PGR PSKRG+G SFGPDVT AFL  N L+LLVRSHEVKDEGY   H GKC+T+FSAPNYCDQMGNKGAFIRFG D +PQFTQF A  HP I+PMAYAG   GMFG
Sbjct:   26 KTQGNDALAHFKVATAIELYSRAIELVP-TAIFYANRAAAHVKSESYGLAIDDASAAIALDEGYVKAYYRRGSAELALGHHKKAVRDFRRVVRMKPQDRDARAKLKLCEKIIKEAAFAAAIQSERNLPLSETIDVNIMGAFGVIYTRRERAWALMDVAVTVVVVDPSYDGPQLPE--DVAQLKPDFIVALIDRFKRGKLLHRKFVIQILLKIKEMLCALPSLLRISLPRDNPDAHFTVCGDTHGQFYDVCNIFSLNGLPSETNPYLFNGDFVDRGSFSLEVVMTLFAMKIVYPQHVHLLRGNHESKNMNKIYGFEGEVKHKYDETVMQLFTEVFNWLPLAAVIEDKVLVVHGGLFSDQNVTLADIEKIDRNHEPPESGLMSDLMWSDPQPFPGRGPSKRGIGLSFGPDVTSAFLQHNKLDLLVRSHEVKDEGYLVEHDGKCITVFSAPNYCDQMGNKGAFIRFGTDMQPQFTQFVAVEHPPIRPMAYAGNMGGMFG 518
The following BLAST results are available for this feature:
BLAST of mRNA_H-akashiwo_Contig1.13.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
W7T9G6_9STRA5.250e-20761.28Serine/threonine-protein phosphatase n=2 Tax=Monod... [more]
A0A2D4BSX5_PYTIN2.030e-20461.90Serine/threonine-protein phosphatase n=2 Tax=Pythi... [more]
D0MY18_PHYIT9.090e-20062.71Serine/threonine-protein phosphatase n=40 Tax=Phyt... [more]
K3WPM4_GLOUD1.040e-19861.83Serine/threonine-protein phosphatase n=2 Tax=Pythi... [more]
A0A0P1B6C1_PLAHL2.970e-19861.90Serine/threonine-protein phosphatase n=1 Tax=Plasm... [more]
F0X0B2_9STRA1.080e-19559.30Serine/threonine-protein phosphatase n=3 Tax=Albug... [more]
A0A835YLG0_9STRA3.290e-19561.47Protein-serine/threonine phosphatase n=1 Tax=Tribo... [more]
H3GA00_PHYRM6.380e-19561.02Serine/threonine-protein phosphatase n=8 Tax=Peron... [more]
A0A484DSB7_BRELC6.810e-19260.88Serine/threonine-protein phosphatase n=1 Tax=Bremi... [more]
M4B6M7_HYAAE2.560e-19058.87Serine/threonine-protein phosphatase n=2 Tax=Hyalo... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-akashiwo_Contig1contigH-akashiwo_Contig1:1433232..1468725 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Heterosigma akashiwo CCMP452 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog4787.PITG_03608T0
PFAMsMetallophos,PPP5,TPR_8
Model size1850
Max annot lvl4776|Peronosporales
KEGG koko:K04460
KEGG Pathwayko04010,map04010
Hectar predicted targeting categoryother localisation
Exons7
Evalue8.96e-202
EggNOG OGsCOG0639@1|root,KOG0376@2759|Eukaryota,3QC3G@4776|Peronosporales
Ec32 ortholog descriptionProtein phosphatase 5 catalytic subunit
Ec32 orthologEc-15_004180.1
EC3.1.3.16
DescriptionPPP5 TPR repeat region
Cds size1557
COG categoryT
BRITEko00000,ko00001,ko01000,ko01009
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-akashiwo_Contig1.13.1prot_H-akashiwo_Contig1.13.1Heterosigma akashiwo CCMP452polypeptideH-akashiwo_Contig1 1433448..1468490 -


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

Feature NameUnique NameSpeciesTypePosition
1681387033.2747111-UTR-H-akashiwo_Contig1:1433231..14334471681387033.2747111-UTR-H-akashiwo_Contig1:1433231..1433447Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1 1433232..1433447 -
1681387033.393011-UTR-H-akashiwo_Contig1:1468490..14685021681387033.393011-UTR-H-akashiwo_Contig1:1468490..1468502Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1 1468491..1468502 -
1681387033.4014466-UTR-H-akashiwo_Contig1:1468660..14687251681387033.4014466-UTR-H-akashiwo_Contig1:1468660..1468725Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1 1468661..1468725 -


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

Feature NameUnique NameSpeciesTypePosition
1681387033.3379433-CDS-H-akashiwo_Contig1:1433447..14339001681387033.3379433-CDS-H-akashiwo_Contig1:1433447..1433900Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1433448..1433900 -
1681387033.3481836-CDS-H-akashiwo_Contig1:1434288..14350691681387033.3481836-CDS-H-akashiwo_Contig1:1434288..1435069Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1434289..1435069 -
1681387033.3565774-CDS-H-akashiwo_Contig1:1442911..14429701681387033.3565774-CDS-H-akashiwo_Contig1:1442911..1442970Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1442912..1442970 -
1681387033.3663304-CDS-H-akashiwo_Contig1:1453511..14536001681387033.3663304-CDS-H-akashiwo_Contig1:1453511..1453600Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1453512..1453600 -
1681387033.3743896-CDS-H-akashiwo_Contig1:1462233..14623291681387033.3743896-CDS-H-akashiwo_Contig1:1462233..1462329Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1462234..1462329 -
1681387033.3823464-CDS-H-akashiwo_Contig1:1468411..14684901681387033.3823464-CDS-H-akashiwo_Contig1:1468411..1468490Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1 1468412..1468490 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-akashiwo_Contig1.13.1

>prot_H-akashiwo_Contig1.13.1 ID=prot_H-akashiwo_Contig1.13.1|Name=mRNA_H-akashiwo_Contig1.13.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=519bp
MAELITSNPELNGGKMEEDESNGNGPAPSSTPVAAAEPSEAAKAAALAHK
DAGNALLQEFHYAQAIEQYTLAIALWDGNAVFYANRAQAHLKSEAYGLAI
ADADRAIELEPEYTKGYYRRGSALYALTKYKKALKDFRAVVALRPKDREA
RAKFKECQAAAREQAFAAAIESEATQPLSQTWDIDAIVVEDSYDGPRLPE
AEGAAGITAEFVDAMLERFREQKLIHRRYVAQILRRAIQLFAALPSLVHV
PISDQAPLTVCGDTHGQFYDVLRIFELNGRPSPDRPYMFNGDFVDRGSFS
FEVVTTLLAYKCLYPESMHLTRGNHETTNMNKVYGFEGEVKAKYDLQMMG
LFTEVFNQMPLVYVINNKVMVVHGGLPVEDGVTLDQIAALDRNRQPPEGG
LMSDLLWADPQPLPGRMPSKRGVGKSFGPDVTEAFLNRNGLELLVRSHEV
KDEGYEEAHGGKCVTIFSAPNYCDQMGNKGAFIRFGPDCKPQFTQFEAAP
HPQIKPMAYAGGAGMFGL*
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mRNA from alignment at H-akashiwo_Contig1:1433232..1468725-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-akashiwo_Contig1.13.1 ID=mRNA_H-akashiwo_Contig1.13.1|Name=mRNA_H-akashiwo_Contig1.13.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=35494bp|location=Sequence derived from alignment at H-akashiwo_Contig1:1433232..1468725- (Heterosigma akashiwo CCMP452)
AAAGGCACGTACGTCCGCTCCCCTCGTGGCTTTGCGGTTTCCAAGAGCTT
GCAGGTACCAAGAAGGTGAGTGAATTAGCGCCCGTGAGCTCGAAAAGAAT
ATACGAGGTAGAAATCAATTTCTGTATTAAAGGATTCCAGGGACGTGGTG
GCCAAAGCCATGGGGTCAGATACAACGAAGGCTTCCTTGACTTATCGTCC
AATCCTTCCACAAAATACTGCAGACCTGACCATAGATGGCCGAGCTGATC
ACCAGCAATCCGGAACTAAACGGTGGTAAGATGGAGGAGGACGAGAGCAA
CGGAAACGGCCCAGGTCTGGAGGAGTGCAGTTTCCAACCCTCCCTTGTGC
CCCCCCTCCTCCCCTACATTTATTTATCATGTAATGTCACCCTTCACTAC
ACGGTGACACAATGTACTGATTCTCTACATCTAGCCAAAGTCTAGAAACC
CTATCGGAGCAGGCGCAGGAAGATGTTTTGAGAATACTATAGGCTCGCCA
GGCCCCAAAAAAGGTTCGGCAGAGGTTTCATAAAAGGTTAGGCGAAGTGG
AAAAAATCTGAACCAAGAATTCCTCTACGTATGATGTTGTTAGTGTAAAA
GTGAAGAAATTGTAGTACGATGTAAATTTAATTTTAAACACACAATTCGT
CATAATAAAAGCTCACCTAGCTGGCTGCTCCTCATCCACATTTCAACAGC
TGCCCCCCTTGTGCCCCCCCAAAATGAACTGCAGGGGCGTCCTTTGATAC
GTGCCTCGCATAACGAACATACACATTCAAAAATCGGGGGAAAAAGGAAA
GGGGGAAAAAAAAATCCCGGTAAAACAAGGAGCGCACAGGTTAGGCGGTT
AGGAAGTAATGCTTTGGCGCTTTGGGTCGTGGGTTCGATTCTACGTACAC
GGTTTTTTTCCGCGTAGTCCCAGGGTTTGATCCTTTTAGCCCTTAACCCA
AAAAAAAATAAAATTTATAGCATACATTTTTTGAGAGGCGAGCAGACAAG
AACCAGTAGAACAAACATACACTTTTTTTGTATGTTTGTCGCCAAACATA
CACTTTTGGGCCTATTTCTAATATACAAATGATGTCTATATTTCTAAAAT
TTAAAATTAATTGCTTTTTTTGCCTTGTTTCTCTAAATATATGCGAAATA
AGTATTATGTTTGTTCAGTTCTTCATACCTTCATATTTCTCTGTGATTGT
GTCTTAGCAATCTTCTCTCTCTTGTGTAGAAGGGTATGCTTTTGTATGCT
GCCGTTTTCTGCTTCTTCTCTAAAAATGAAGGAGAAAAAAAAAGATATTG
AAGGAGATGGAACAGACGACAACGGACGTGTTTCCTCCTCTACCTCGCAG
CAGCAGCAGCAGCAGCAACAAACCCATTAACAAAAATTCACAATTGCAAT
TGCAATTGGAAGAAGAAGTCGAACACATATCAATCTGCAATGGCCCTAGT
CGGGCTTGTACTTTTTTGTGCAATGGCATGACCTCAAGCGCTTACAGATT
CTGATCTCTTCGAACAGGTACCAGCCGGCGTTCAATGTGACATTGTTTTT
TTTTTCCCTGACAAGCCCAAGTTTTTTCCCGACGCAGTAATGGCATCGCC
TATACCTTCCCATAAACTTTCAGTTTCTATGGGAAACGAATAAATCTCGC
TGCTCCTTCTAGTGCCTTGGAAAAAAACGCAATTTCTGAGGTATTCATTC
AACTTGAGGTAGGTCATGGACATTCTAAATTTCTTTTATAGTACCCTACC
TATGTACAGTTTTGTTCAGTACCAGGCAGCCAACAAACAATTGCTTTATG
AAAGGCCTCAGTAACTAAAACTACAGGAATTAAGCCACGTTACTGACCAT
CATACCAGCATTTTTTCAGTACAATTGACCTCCATATGACTCCTAAAAAC
TCACAAATTTTCGGGGGGCTCCGCCCCCTTTCTTCCAGCTGAGGGGATCC
TCCCCTCAGACTCCCCTGCTGGGGTTTCCACCCCCAGACCCCCAACATAC
ACATTCACTGAGGTCAAAGGACGCCCCTGAACTGTGACAGCAAATGAGTT
CTTCGTGCTCTGTAGGAGAGTTACAGAAGAAGCTGGGGAGTGAGAATTCC
TCACTCCACTGATACCGCCGTCCCACGCTATCTGGTCCGCCGTCCATAAA
CGAATTCCAAGATAATGTAATTGTCCCAAGATCGAAACGAATCTCATTTG
TGAAAATACGCCAATAATCATGCATATCTCAAACCAACCAAAAAGCAAAA
TTCAGAAAGTATGCAAAAATAGTTGTTACATGTCCCCATCCAATCAAAAA
GCGAAGCAAACAAAAAAAAGTAGGTTGAATCTCATGATTATAATGATTGG
TGTAAAACAAATACCATTAATGATTCGATCGTAGGCGAAAAACATCATGT
TGAATAGTTGATTTGCTGATCATGGATTTGTATTCGGTGTGAGCCATTGA
AGATTTTCTTTCTCCGAGAAAGTTTTCGAGTCTCATTGGCTTTTTTTTTT
TTTTTTTTTTTTTTTTTAATACGTTCTCATGCCTCGTCATATCCTGAGGA
AGGTCCTCTACTCCAGCCGCGACCCTTTCTGTCATGTTGAGCCATCTCTG
AGCTTTTGTCGATTTGAATCTTGTAGTGTTGGCGCTCGCATCATCGCGCC
TTCCAATGCTCGCAACTTCTCTATGATGCACCTCGGACGACCATCCTTCG
CTGACGACCTCCTTCTGTTACCGCTCTGTCAGGTCGTTGTACCCTTCCGT
AAGTCGCCCACTCCTGGAGGTTTCGACTCCTCGCCAGCCACGCCACTCCT
CCAGATCATCGTCACCGTATCCAATCCTTGCCCTTCTCCGACTACCGAAA
TCCGATGATGACTGGGCCCATGGTCCAAGCGTTTCGAGAAATTGGCTAGA
CGGGCGCTCGATTACTAAAGTTCGAAGGTGAGATTCGAACCCGGGGCACA
AGCTTCGTTGCACCGCTAGCTGAACTCTTTAACCACTCGACTTAAGGTTC
ACACTTTTGATTGGTGTGACGGAATTCATCTCGGCACACTGAAACCTTTT
GTACCCTTGTTATTATTCAAGCTTTAGATAAGTAAGTTGTTGAATTTCCC
TCTGTATCCTAGTGTGGTATACCAAAAGTCCAAAATTTAAAAATATTACA
GTTTTTTAACCACAAATCAAGGTTTTGGTCTCATTTTTATGGATCTTTCT
GATTATTGAACAAAAAAACACTTTTTGAAACAGTTTATGCTTTTGGAGCA
ATGGTTTTGTGAAAATAGGGTCTCAGATGACCCTATTTTTGTTTTTTCTT
CTTCTTCTTTTACTAACTTCAAGCTAAAACAATTTTGAAGAATCTAGAGC
AAGTAGCACGGGAGGAAATTTTTTCCCAGACTCCTATGTATGGTGTTGGG
CATGACATGGAGGAACATCAACAACAGTATATGTTAGGTGACTTGGGTCA
TTTTTTAATAATTTGTGGGTGCTTGTGCCATACAGTTCGCCATACGTGGC
GCATGCGCCAGTTGGTTCTAGAAAGGTTAAAGGGATCCTCGATATAAGCT
CGTTCACGATGATGATGGTGATGATGATTTTAATTTATTTATATTTAAGG
TCCAGCCTTTTTGGAGAATTACAAGGGCCTAGGCCTCGGCCTCCATACAC
TGACTGTTCCACTTCTAGATCCCACTTCTAATTTTCTGGTTCATCACCAA
AACTCAAGATACTAGCCTGTGCTGGTTCCCAACTGCACACCTTCCCATTT
GCCAGTCTTCCCCCCTCATCCCCCTACTCTTACCCCCTAATATACTCCAC
TCACTGCCGATCCATGGCCCTCGGTTGTGCCCCCAAGTATGCCTCCCTTT
CTGCTACCCCTTCTTCGGCCCCAGCTTGCCCATCCACTGCTTCCAAAGAC
AGAACACCCAAAGCTCCGTTGGCGGGTCAGCAACCATAGCCGTGAAGAAG
GCCTGCCCCTCCAATCTGCAGCCCCCTCCCCTGCGCTCCCCCTGCCGGCA
GCAGACGTTACATCCCCAATTTCTTTTACACTGTCGAACTTGCAACCGGC
TCATTTTGAACTGTCGAACAGACACCTCCTCATCTAGCAGCTCGATAACA
GCGATTAACATATATGATGAGGAGGAATCTTAGTTCATGATGACTCCTAC
ACTGAGTTTTTTAGTACACCAGAGTAAAAATTTAAGGGCACATCGTTTTG
CAGGAAGTTGTTGCAGTGGGGTCATATCCTTGGCTATAGATTTCTACCGA
CATCCTAGTCCTGTGATAGTATCTTATACTATCACTACTATTCTGCTAGT
GGCCGTCACGATAAAGGGGGGTATTTTGCGACGAAATTCACCGAAAATAC
AAATCGTGTTCTACAATGGCGCCGTTCGAGATAAATAGCTCAAAATGCGC
AGAGGAATCCTCCGAGAATTTTGATGTATTGACCACTGACAGCGCCATTT
TAGTTTTTGAGTTATATAGCTTTTTAGTAGGCAGTTTAAATTTGTTTAAT
CGAAGGTCATATTTTTTAAACCTTTGCGATCGTACAAGGACAACTGGCCG
TACGGCTAAGGCGCGTACCTTGGTTGTTTTTTACGTCAGGTCTGGGTTCG
AGCCTCATCGCGCGAAATCTGGCGAAATCTGCCGTACCGTACCTCCCATG
AAGCGCCGCCCCCTTTATCGTGACGGCCACTTGCTTATTACTCCCTAAGC
GCGCCAACGAAGGCCCCGCCGTTCATCATGCCCACAATCATGTTTTCCCT
GTATCAGTCTTCTTCTTGCCTCCCTTGTTTTTTTGGGGGGGTTGAGCGAA
TCTTTGCTTCTTTTTACTAAATGGATATAATATTCAAAGGCAGCCTGATG
AAGGCTGGCGGAGGAAGGAGAGAGCCGCCAGTCGTGGCTTATAGTAGCCG
AAATGCAGCATAGTTGTCATGGACTTAATGATTAAAAACCTTTGACATAT
ATTGCCTTCTTGGCAGTATGGAGCTACACTCATTGATCAAGGCGGTTTCT
GTTTAGACCCAACACCCTGCAATTCAATGATGGATTGACAAGGACACTTT
TTATATTTTTATTTTTTTTTGTATACGTTCTACTTGCAATGCGCCCCTTC
ACATCCTGAGCCACACAACCACCGTCTATTCGCAAGTCGCCTTGACATCT
GATGCACTTCTTTGGATCAAGTCTGATTACTGACCAACTTTGGAAGTTCC
AGCTATCCTTAACCCTACATGCTCTATTGCCCTTTTGGCCTCATCGCCCT
CTTTCAGTTGTCTCTACCGTAGACGCTCTTCCGACAACTCACATCCATCG
ACGAGTGCATCTTCTCCTTCCCGGGTCGAGGGTGTATCATCTAGACAGAT
GCAGTCACCCTCTCGTTTCGAGCACGAGTGCTCCTTCCTAGCCCGCTTTT
TCAAGCTTATGGAATGTAACTTCCACAAACCGCCTCATGAACAGTAGGTG
ATATTCATGTTTAGTCCAACAGAACTTCATAATTCTTTTGGAATATATAT
ATATAATATATATATAAAGTTTCCCTATCAATCTGTCCCTGACTATTCTC
ATGAATCCAAATCTGGTGCCATAAACTCAATATGTAAATGGATAATAGCA
TGGAGAATTTCTCATGCAAACGAAGGAGGGGGGAAACATCAAAATCCCGC
TGCACGTTATGCAAGAAGGGGAGGAGAAATTAAAACCACATGTATACGTA
ATAATAAACGACTGGCTCCGCAAATACATCCACCAAAGGGGGTGGGGAAC
AGAAAATATGCAGACTATATATACATACAAGCTGCTGCGAAGAACCAGAA
AACTCAAAGAGAGCACCCTCTACCCCTACGGGCTTGGCACCAGGGAGGCT
CCAACAACCATTCACTTACATACCACCAACTCCCATCACACGCCCTTCTC
AGGCTACGCATAGCGCACAGCCACAGCTGCGGGGGCGTTTGTACAAAAGA
GACAGTCAGCCTCAAGTGACCCCCGCCCCACCATCTGAGTAGGAGCAAGA
CAAACACACTTAGGGATGAATGAAATGCCCACGCTTTTTTATGGATTTCC
CCAAAGCAGGTGGCATTTGGGGGATTCATTAAATGGCCGCCATATTCCCG
CGGCGATTCCCATGAAAATGATGGAAACCCCACAAAAATCCAACCTATTT
TTGAGGGGTTTCCCATTTACACTTCCCCTTCTACTTTTTCCCCTCTTCTT
CCCCAAAAATCCCATGAAAATGGCCCAAATCCCGAATGGGAATTTCATTC
ATCCCTAATACAAACACACACACACTCACGCACACCGCACTTCTTCACTC
TTCTTGCTCCCCCCCCTCTCCTCCCCTCCTCCTTCGGGCGGCGGGCGGGC
GGCGGGCGGCGGCGGCGGGCGGCGGCGGGACCCCCCCCCCGGCCAGCGCC
CTCCTCCACCCCGGTGGCGGCGGCGGAGCCGTCCGAAGCCGCGAAGGCGG
CGGCCCTGGCGCACAAGGACGCGGGCAACGCCCTCCTGCAAGGTGCGAGG
GAAAGGCGGCAACAAAGTTTAGGGGCACTCGCACCTGACGACCTCTCCTT
GATACTACCTATTATGTTTTGTAGATAGGGCCCTAAATGTTTTTTATACG
CTCATTTTTTCCCCCCTAGATCTACATTTCCAGAGTGGAATGCTTTTTTT
TTTTTACCTGTCTACATTTCGAGAGTAAAACATTTGGGGGCCCTACTTAT
CTACAAAACAAAGTAGGTGGTATCTAGATTAAAGGTTAGTTAGATATAAA
ATTACCCCTAAACTTTATTTTTCCCCCTTGTCGTCTGGGTACTTGTATCC
AACCTTTCCTTGATACTGCCTACTTCTTTTTGTAGACATATATGATCGTA
CGGCCCCTAAACATTTTACTCTCAAATTTTCCCTCCTTCTTTGTCAGCAG
ATAGCCTGCGCCGACCTCCGGCATCAGCTACTTTATGTAAAGTTAAGGGG
TTATTGTATATCTAACTTTTTCATGATACTACTGCCACTGCCTACTTTTA
TTTTGTAGATGGGTCCCCTAAAAAATATATGATTACTTTCCACTGAGTAT
GAACATAAATATAATCCAACACCTGTTTATTAATAAAATCTGTAGTATAT
TCCAAGAAGACATTACAGAGTATTATATTGCCAGTATACGCTGGCAGCCT
TGCAGGAAGGAGGATTATTATTCAGCCATACAGAGGTTGCACAAGAATAT
ATTGACCGATAGAAATACGACATATAGCAGTGATTACATATATACACCAA
GTTCCTATCACTACGCGCCATCCACACGGTCAATATATCATGTAAGACTA
ACGGTGTCAGCCCTTTTTCCTCCGCAACTGGCATCGGGCTGTACACATAG
CCATCAGCGGCCGGGGCCGCCTTGTCGTCCTCGGATCAGCGCCGTCGGCC
ATCGTGTGTACTCAGGAATATAATTTACCCCCTCAGCGAGTACTTTTTCC
AAGGAGGCTGAGCTGCACTGCTAAGAGATTCTTGAGGACACTGTCACCAT
GTGGTTGCTCTTGCTCATGGTACCACACGCACTCAGAGGAAGCTTACCAG
GGCAGAGGCAGGTGGTGGCAGAATGAAAGAGTACCAACATTGTTGACTGC
AGGACATATACTACCATCTGCAGTGGTGGATCTCACTGGAAGATCACTTG
CCACTCCCCTTGATTCAATTAATCATGGGGAACACATCTGTTGTCCAGCA
CAGACACGATGAAAGACGCGATTGGTGCTTGTACACCCGGGCACCCAGGC
GCATGAATCATTGCTGGTTCTTGGGGTATAATACAGCGAATTTCATCATG
GTGCAGCTCTCATTTGTCTTGTGGCGGTCGGTCAGTGGACAGGTAAGGTC
ATCTGACTGCTGTAAGCCGCAGCTGCCTGGCATATGGTGAGGTTTCAAGG
TCATACTCCCCCTGATCCAGCCATCCATGGCCTTCCAGGTCATCGGCCAT
ACTTGGCTAACGTTGAGGAACGGGGAAGGGAAAACATAATCACCATCTTT
CTAGGCTCAATCTTCTCTTCTGCAAGTATAGATTTCCATTTTGCGGTCAC
ACCTGTCCACAGCAGCTATTATTACCCCCTTTTCTCGGGCCATGCTCTGG
CAAACCTCCAAGGCAATGCCCAGGCATTCCTCCCGAGGACTCTCGGACGC
AATATTGATATCTGTATTCCAAGAAGACATCACAGAGAAAAATATTGCTA
GTATACGCTGGCAGCCTTGCAGGCAGGAGGATTATTATTCAGCCATACAT
ACAAAGATTGCGTCCGAGAGTGACGAGCACTCAAGGAGCACACCTCCTTG
CTGTTGTTGTACGACACGAGATGAAGAAGTTCTCCACATGGCACGCACGT
TTCTCCTACCACAAGAATATATTGACTCTCAATAGAAATACGATATAGCA
GTAGTGGACGAATATATACATAGCACTTTTGGTTTAGTCGGTAGAGTGCT
CGGTTTTGATGTGCGCAGTCACTGGTTCGATGCCCAGGCTTTAGCTCCGC
CTTCGGGCAATTTTCGAAGCTTGATATTTCGGTGTTCTCCGTTTCGTGAA
TCGAGGTCTATCGCTGGCAGGCGCTTACTCAGTGAAAATTCCAGGGACTG
GAAAGTTCTTCGGAGCTTGTGAGAGTTCTTCGGAAAATTCTCTGGGGGCT
GCGCGGAATGTCCTCGCGTTAGCTGTAGACGATCGATGGTCCACGTAAGT
GGCGGTTGTTGAAACATGAGCATCACCTACTGTTCATGAGGCCGGTTTGT
GGAAGTTACTCCCATATCTTGTACAAATTAGAAAAACGGGCTAGGAGGCA
GCACTAGTGCTGCGAAAATAGGGGTGGACTGCGCCAGTCTTGGTGATACC
ATCCCGACCCGCGGGAAGGAGAAGAAGCACTCGTCGATGAATGTGAGTTG
TCGGAAGAAGCGCCTACGGTAGAGACAACTGAAAGAGGGGGATGAGGCAT
GAGGCCAAAGGGCAATAGAGCATGTAGGGTTAAGGGCAGCTGGAACTTCC
AAGTTAGTCAGTAGCCAGACTTAGCCCAACAAAGTGCATCAGATGTCAAG
GCAGCCTGCAGATAGACGGTGGTTGTGTGGCTCAGGATGTGAAGGGGTAC
ACTGCAAGTAAAAACGTAGAAAAAGAAAGAAAAAATACACCAAGTTCCTA
TCACTGCGCTCCATTCGCACGGTCTATATCATGTAAGACTAACGGTCTCA
GCCCTTTTCCCTCCATGTCTGGCATCGGGCTGTACAAGTAGCCATAAGCG
GCCCGCGCCGCCTTGTCCTTCGATCAGCGCCATCGGCCGTCGTGTGTACT
CAGGAACATAATTTCAACATTTATTCTTGATTAAAAGCCATCTGGCCATC
CTGGCCTAGGCTCATCGGATCTTGCGTCTTGCGGTGATGAGTGAAAACCT
AGTATTAATAGCGCGCTAGTACGCTACCAGGCATTGTGAGAAATGCCTGT
GCAAAGTTTTGTAGAGGAAGACTTTTTTATTTGAGGAGGAATAATATTAA
GAAGGAGGGGGCGGCGCCCCCACCACGCTAACTATAGCTCCACCACCACC
ACGCTGCTGCTGGGGAGAAATTTTCATGTACAAAAGTGATGAGGAGTCAA
CACCAAGAAGAACTTTCCGAGAACGATCTCACTGGTCAGAAGAACTCCAC
TGATGATTGCCAGCCAAGTAAAAACAATGCGATTGGCTGAACACAAAACC
AAAAAACTTGCTTTGACTGTTCTCGTTCACCAATCACTGTAGCAAGCTTT
CCCTTTTGTCAATAAATTGACAATCCAATTTGGGCCTTCCTATACCTTTG
AGAGCCAGACGCTTTTGAAATGGAAGAATTTGAGTTGGATGATGAGGATG
AAGGGTATTGGAATGATGCTGACAATGCGGCGGCAGCGGAAGATGCTGAT
TATTTCGATGGTGCTGGGAATTGGGCCTGGGAGGATCCGGATTTCTGGAA
CCCTTGCTGGGATCTTTTAGAGGAGATGAGTATGAAAAGATTGACCAATT
CGAAATGGAACACCGTCATTGATTGCCGTAATCATTTGACCTCTTCTCTA
AGAGCTGATTTCAAAGAAAAAGCTCCGATGACCTCCAGTGGCGAAATACT
GGATTGCACGGATTCTGAGCTTGTTGAGCGTTTTGAGCTTTTAGGGGGGC
GGATCAGACAGCTGCTGAAGAAATGGCCACGTTTGGTGAATGAAGTCAGG
GTTTTTGAAACTTTGGCTATACTAGTGGCTCATTGCTTTAGGTTTATGAA
GTTGTCAAGCAGAGGAAAAAAGGAGGAAAGAAAAGGCCGGTTTCTCAGCT
GCTATTGACATTACTTGAGGAGTACGAGACTGTGTCCGAACACGGATCTT
ATCTTCTTGCCGAAGCGACTCTGGGGCAAACGAATGTTGCCAGGAACACT
TTGCCACCCTCTTTGGTGAAAGGAGGGCCAGTGATATTTCCAACCCAAGA
AAAAATTCTGTATGCCTTTGGTGTGAAGGGTACTCAGTTGACTGAGTTGG
CAAAGGGGGGGTCGAATAGGGAGAAGGTGGGGAACCTTGATCAGGAACAC
GGTCAAGTGCGTCTCTGGATTGATATGGCGGTGCAGGAGGAGGTGGAGAT
TGCCCTCGATGAGCTGGTCGACAAGGTAGAGTGCAATATACCTCAGCCAG
TGCCAGTTGATATTGAATTCTTGCTTTATGAGATGACTGAGAAAGTTCAG
AGAATGGGGTCTCATGATCAGGCAGTGGGTGGGCCTTACACGGTTGGTAA
AAAGTTGGTTTACATACCTAGTGATTGGTTCTCTCCAGAGAGTGCGGAAT
ACGAGGGGTCCTGCTAGGAGGGAGGACTTTCTCATTCTGCCTCAGGTTGC
GAGCTAGAAATCTGCTTCTATAGTACAATCTTTACTCAGTTTGAAGATGC
CATAATAGTTTGATGAGTAGTTTGTGTGTGCTTATTAGGCTTTTTGACTA
CAGGTTAGTTTTTTTCCTAATAAGATTGTTTTATCACTGTAGCAAGCGGG
ATTATCCAAAAACACATGCGCATAGCTCGGCAGGTAAAACCCGTCAGGTT
CGGGGCCTCGCATCTTTTTAGCAGGAAAGTGTCAATCATCAGAAGACCCT
CACAACATAGTTATCGGGCCGCTTCTTGAAAACCCAACTTTTATTACTGA
ATATTTCGGGTCGTTTGGTGACCCTTCATCAACAAAGTGCCAAGCCTTAA
GGTTCCTGGGCACCACTCAGTGGTATTGACAGGTATTATCACTGCACTTC
TTCTTCTTTCCACTATATCGATCATCATCACCAATGACTGGAGCAAAAAT
ATTTAACGGCCACCCATCAGCAGTTCTTCTGGCTGCTGCTGCTGCTGCTA
TAATATATATCAGTCTTGGCCCGCATGCGCATAACTAAAAGCAAAATAAA
ATAAATAAGTCTTGGTCAAAATGATGGAATGCAATATCTGTCCTTTAAAT
GATGTACTCTCAATGTTCCCCCCCTTCTTCATGAGCAGGTAGCCTGACCT
CCGGCGCCAGCTACTTCATTTTGAGAGTAAAACATGTAGGGCCCTATCTA
CGAAGTAAAGTAGGTATTACTAATCTGATCCGCTGATATTGTCCACTTTT
GGTGAAGATTTTTTTTAGTGGGAAAGAATTGATGTAACAGATGTCTCTTT
GCACACATCATTAGCATGTAAAAAAACATATTCCAATGAATATTGTGTTG
TCCTACATGACTGAATTAAGGTCTCAACGGAAGGCACACATCCAGCCCTA
TTTCAAGTACATTCACCACCATCACTGAAACAGGAGGTTAGAGATTGTTA
GAAAAAGTGTTTCCAATGTTAGAGTGAAAAACTGGTGGGAGTATATATAT
GGTGGGAGTGTGGGAATTCGGTGGAAGCCAAAAACACAGATTCCTCCTTC
CTTCCAATATTACGAGGTACGGCCATTGCCTGGCAAGTGTTCTCCATTCA
ACAGCAGCGCATAGAAGGTTTCATCCCACTCAGCAAGCAGCTTCAACGTC
ATATTGTCTCCCAGCCACATCAGAAGTCTTAGAAAAAGAAGGGGGGGGGG
AAAAGAAAAAAGGGAAAGAAAGAAAAATGCAAATGACATGAGCAGAGGTA
GCATTATAGCCTAGCTGAACTATTTTCTCCACTTTGTGCTTATACGTAAA
CAAAAAAAAAAAAAATTGAAGTTATGCCGAATTTAAACCTCAACAAGCAA
GAGGGAATGAAGAATCTACAACCACAAAAAGCATCTCCTGCTTCTCCTGA
TTCCCTATTTTCCACTTGCTATATATATATATATCTAGTATTATACTTCT
GCTTCATTACTTGCTTCTAGATATACATGATATGATAATACATAAATGAT
CGACGACACGTTAAATGCGTGACTTTTTCCCAAATACTAGATCGATGCAA
TACTCCTGGAGTCGCAATAAAAGAGATCGATTGCGTAGCAGTAGTGAATG
AAATGGATACGAAATCAAACATATCTTGGGTAATTCACATTCAACTGGTC
CAACAAGAAGAAGGGAAGTTTTTGAAAGGTCCATTCGGAATCATTCGGAA
CACTTTCACAATCAAAAAATGATGTTCTTGGTCATACCACATTCCTTGAC
CTTGAACAACTTCAGACGATGGACAAAATGAATTTCACCCATAACAAATA
TAAATGTCGACAGGAGGAACAACGCTTTCTGACTGCGAAAGAAGATAATG
CCCCTGTTTTTTTATAATGAATGGCATTACACTTGATCATTGATTTGAAT
AGGGTATGGAGGGTTTCTGAAGACTTTAAGCGTTCGTTTTAGATGTATCA
TCACATGAATCAATGCAAAACTAAAAAAGAACGGGCTCGATCGGTTAGAA
ACTGCTTGCAATCCTTCATTTCGTATTTTGCGAGCGAAACAGAGAAAGTA
AGAACAGCTTCGAAGCTGGCTTTCCATGGCGTTTCATCCAGAGAAAATTG
CAGAGGAGATATTACATGTACCGATATTGAACATAGTTTGATTTGACTCG
GTTTCGTCAGGTTTCAGTCTTGCTTTGCTCAGCTTTCCTGCAAGTCCAAA
TGCTTTCATTTTGCGGCAAGGAAGCAGCAGAGCTTCGGCTGCAGAGTATG
TGCTACTACTAATTTGCAAGTAGTCTGTTTTTTAAGACCGGGGTAAATTA
TGCTAAAAATAGCTTTTTATTGCTTTTCGCATTCTTAGAAAAACTTTATC
AGGTCAAAATATATTATTGGCGTGGTGATGCCTAAAAATCTAAAACCTAA
ACCTAATTATCACCTTTTGGTGATCTTTTAAGACGCTGCAAAAATTGGAT
TTTATCAAACTTTTCGATCATATCTGAAACATACTGAAGTGATTTATTTA
ACGAAACGTTCACAGCATATTTCAAGATAGCCGAGTTCATTTAGATCGAA
CTTTTCATTTTTCAAATATTTTCATTCTCATGAAGGCTTCGGCTTGTTCG
ATTCTTGTGGTGTTGCTCTATTGATTCAAATGGTTTGGTGGTTGTCCGTT
CTACTGTTAGGTGAGCCTGTTGAAGTTCCTTTTCATTTGAACATGAGTCT
GATTGGGCGGATTTGACCGCGATGTTCGGTTTTGTCCTTTGACGTCAGTG
GTATGAAACGTATCATCTGCATTTTTGCACTCCGCGAAACGTAAAACAAC
AACCAAAGAAAAACTGCACAACTTTTTCCTTTAACAGTCTTAAAAATAAA
AAAGAAGCAGGTATTTTACTTTTTGAAAATACAATTTGATGTCATGGATC
AGTTAAATTTTTGCTGTGGATACGTTAGCTACTAGTATTGAAACTTATCA
ATAATAATGCCATTTCTGCTGGATCAGCCAGGGATCAGACGCCGTTTCTG
CGAGAACTAAACGCGGCGCCTCTTGTATTATTTGCTACAGTCCACCAGGG
CCTTTGGGCCCATGGATGACCGAGATATGGCGGCAATCCAACGTAGCGCC
CCGGAGCGCAAAGGGGGGAGGCAGGTCCTTGGCCCACGACCGTCATTCAA
TACTCAGAGCTAATCGGTGCAATATAATAATGTTTTATTGATACGATTGT
GGTGGTTTTTGCCATTTTCGGGATTTCCCGGGTTTTTTATCAATACTACG
ACGAAACTATTTCAATAACGATCGCGTTTATTGAATCGATCAAAGTATTT
GGAAAATCGGGGGTAAAAGTCACGCATTTAACGTGTCGTCGATCATTATT
ATAGTGTACGCGGAATCGTCCCCGATTGTGCCCCCACATATGTGCGGTGT
GCGCTCAGCCTGCGGGCCCACGCACCACCACTATAGTAATCAGAGTATGA
AACATAAACACCTCTCCCGATTCACTGGATCTGAACCCTCCGCTCACCCC
TTTTTTCCTCACCGAACCTTCCATCCCTTCTTCAAACTTGGTCCATCCGT
TGTTCTTCCCTCCCCCACTATATGAGCAATACACCTCCTTCTCTTCTCTC
CTCCCCCCCCGTCCCATCGCCGCCGCCGCCGCCCTCCAGTACACCTCCTC
TTCCCCACCAAAGAGAGGAGGCGGAGGTGTACAGGTTGCCTTGAGAAAAG
GGGGAAGTCTGAAGGGCACCCGGCCCGTTAAAAGCAACTGTTCCACATTT
GTAACCCTGTCTTATTGTTCCCTCATACCTGTCTTATTGTTCCCTTATAC
TACCTGTCTTTTTGTTTTTTGTTTTGTTTTTTTGTCTACGTAGTACACAC
CATGCTTCATGCTCTTTGTGGTGCCGGTTCATCCCCATATCCTTGACAGT
AGGTGTTTCTTTCGCGGTTATTCACCGAGGCCGCACCGGTCCGATACTTG
CGGGATAGTTCCGTCAGCCGTGGCGTATTTCCGGGTCTAGGGCCGCCTCA
TCCGTGTTCATTCTCGTGCCACGTCCACATTCCCCCGCCATTCTTTCAAT
TGTTCTTGTTCTCGAATTTCCAAGCACTGCGAGCGTCGAGAGTTGCCGCC
TCTCGAGGCTCGAACACACAACCTTTTGCTTACTTTTCCCTTATACCTGT
CTTATCGCTCCTGTCTTATTGTTCCCTTACACCTGTCTTATTGTTCCCCT
ATACCTGTCTTATTGTTCCATTGTACCTGCCTTACCGTTCCCTTACACCT
GTCTTATCGCTGCCTTATATAACAGAGTTCCACTATGCCCAGGCCATAGA
GCAGTACACGCTGGCCATCGCGCTGTGGGACGGGAACGCTGTCTTTTACG
CCAACCGGGCACAGGTGGGTATGGTGTGATGAGGGGGGCAGCTGCGTCGA
TGGAGGCTCTCCCATTGCATTTTGGGTAATGCTAGATGCTTCTGCGGCTA
CTGCTGCGTGCATTTGTGATTTCAAGTACATACTAAGTCCGTCCGTTTTT
TGTTGTACGTTTTCCCTGGAACAGATATACGGGTGCGATCTGAGATAATT
CAGAGTTTTTACCGCTTTCGTGGAAATAACTTTTTAAACTAACCTTTTGT
GATCATAATAACTCGACGTCCAAAACCCGATAAAAAAGGATGATTCCCGT
TGAACGAAATTTCAATTTTCAGTGGCAATGATTAGCTATATGACGCACGA
GAGCCCAATTGGAGGGTTTTGAGTCGAGAACCTTTGCATTGACATAACTC
AACGCACAAGCAAAATCAACCCATACTTCTTTGTATGAAATGATCAGCTG
AATGAGCTCTATCTCATCGTATCATGAGAAAGGATGTGTGTAAAGGCTGG
TACGAGAAAGAAAAGAACGTAGTAGAAATCGCTATTCGTTGTCTGCACAA
GTGATTACTAAAGGGGGGAGTACTTCCCCTGGCTGGCCTGTTCTCTCAAA
TTGCTGCACTACTGACTCAATAGCAGCCACATATATATTATCATATAGAC
AACAATCCATCATCAGTGGTCAAAATCATATTTTTTTTATCTAGCAAGTA
TGTTGTACAATGTGTGTGCAGGCAACCAGATAATGAACTGCATGCACCAC
CTTGTTTACCATTAACCACCAGCCCTTGATACATAGGTAGATAACCACTA
TGTAAAGGTTGGATAGAGCCTCCATTAGGAGGCTCGCTGAAGTAGCCATT
ATTCTTATGGTAATGATTAGTACAACAGTGATGATAGTAGAAGAAGAAGA
AGTAATGATGGTGATGATGATGAAGAAGAAGAAGAAATAATAATAGCAGT
AGGGATGTGCTGGGAGACAAACAACGCCCCCCCAGACCAGTACAAACACA
CAAAAGCAAGAAAAGCATGTCATGTGTACATTCAATCAAAGCCATTATGA
AGCACATGCTGGTGCCTTCCAAAAACTTCAGCATTCAGGGCCTTGGTGAA
TATGTCAGCCAACTGGTCACGGGTCTTGGCATAGTGCATTTTGATGGTCC
CAAGGTTGACTTGTTCTTTAGCCAGGTGGTATGACACATGGAAATGCCTT
TTTTTTTTCTTGAAACCACCATGTCTCTTGCCCACTCAATACAGGCAGAG
TTGTCCTCAATTACTGGTGTAGGCTCAGCCTGAGGGCAGCCAAGGTCCAC
AAGAAGATGCCTCAGCCACATAATGTCCGTGAGGCCAGACCTCAGTGCAA
GATATTCTGCCTCCACAGTAGAGGTACTAACTGCAGTCTGGAGCCTTGAG
GCCCACACAATAGGTGAGTCCCCAAGCATGATTACATAGCCTGTGACAGA
TTTGCCCTTGACTCTGTCTTGACAAAAGTCAGCATCAGTGTAAGCACGGA
GAACAAGGTGTCCACCAAGTCTCAGCTGCTCGGCCTGGGTGCCTTTGAGG
TATCTGAAAGCTCGCTGGGCTGCCTCAAAATGCTTGGGCTCAGGATTACT
TTGATAGCGCTGGAGCTTGTGCACTGTGAAGGCAAGCTTAGGTCTGGTCC
AGTTGGCCACCCAAGCCAGGGTCCCAACCATGGATCTAGATACCTGTTCG
AATCAGGCAAAAAGGACTTGAAACCAGGAGTGGGCGCCAGATCGGCAGTG
TGGTCCATGGGGGTGCGAACAGCCGAAAGGAAATCTAGACCGAACTTGGA
GATGGCGTCCTTAATGAACGAGGCCTGACTCAGGAAGAAGCATTTATTAC
GAAGGTCTCTGGTTACTTTGATGCTAAGGATCTGGTTGAGAGGACCTAGA
TCTGTGATTTGGAACTTAGACTTCTTAAAAGACAACTGCACACACATGGA
CGATAATGGGTAGCGATAGCAACAGTTACAACAAGCAATTTTTGTCACTT
AAATGCTAAAACGTAGAAAAAAAAAAGAAAAAAAAAAGACGCAAACGAGG
CTTTGAGACCGGTGACAACGGAAGGAAGATTGCTACTCAGGATAAGATCA
TCAACATACACCGCAATCATAGAATCCTCACCAGTGACGGGATTTCTGCG
GGTGTAGAGACAAGATTCATAGTCACTGCGGACAAAGTTTTGTTGGATAA
GAAAGCCGTGTAGCGTAAGGTACCAAATTCTGGGAGACTGGCGTAGGCCA
TAGAGGGCCTTTTTAAGCTTCCAAACCTTGTTAGGATGGTCCTTGTCCAC
GAATCCAGGAGGCTGCTTGACGTAGACTTCACCGTCGATGTCTCCGTTCA
GAAACGCGGTAGATATGTCCAAAGACTCCACAGCGTGCCCTTTGTTAGCA
GCTATAGAGAACATAAGCCTAAGGCTAGGCGCTGCTATCCCGGGACTGTA
GGTGGTGGTAAAATCGACACCTTCATGTTGGGTGAAGCCTTGGGCCACCA
AACGCGCTTTGTATTTGACAAGATTTCCATTGGCATCGAACTTTTTGAAA
AGAACCCATCTGGTTCCAATGACATTTGCACCCTCAGGAAGATCCACTAG
CTCCTTAACGTCATGACTTTCCATACTTCCCATTTCTTTGAGCATAGCTT
GCTGATAAGACCCTCCATCTGGCAGCCGTCTCGCTTGAGTAGGGCCCCAC
GGATTGGAGGCTGGATCACTATGAGTCCCGAGAAAAGCGAAAGCCGTGCT
AAGATTCCTAAGAGATGACCTAGTGACAGGCGATTTAGGTTGGTGCCCAA
ACCCTCTACAACGCAGTGACTTTCGCCGCCTTGAGTTCAGGAAACGACCA
GTACGAGCCTTCATCCTTTTCTTTCTACCACCAGCAGGGACGTTGTTCGT
GGAAGAAGAAGGGCGAAGGTTCCGAGTAGAAGGTGGCGGCGACGTGGGAG
AAGGGGAAGCAGGGATGACAGCCTCAAGAGGATCAGCAAATGTGACAGTG
TTGGCAGACCCAGGAGTAGAATGACAACCACGAGAAGAGGGACGCCGACC
ACGGGAAGAAGATGACGATGATTGCGCAGTAGCACCACCAGACCTAGTAG
CAGGAGCGGAAGGACGATCACGAGAAGAAGAGGGCGATGGCGCAGGCGTA
CTGTCAGACTGAGCAGTGACACCAGAAGAAGACTCAACTTGAAGTGGAGA
AGATGCAGAAGAGGAATTAGTGACGACCTCATTTTTGTTAAACAATACCG
TTTTCTGCCGAATAAAAGGTTGGTCCAAATACAGTGCGGTGTCCAAATTT
CGCCCCTATTAGAAGAGCGATCCAAGTTACCCTAATAGAAGGCGGCGACC
CTGTATTTGGCAAAAAAATAATACTCTTATTAGGCAAAAAGCCACCCTTT
ATTTGGAACGATTTTTTCAGCCTTGTATTTGGGGAAAAACAGTGTCCAAG
CACCAGGTCAACCAGTTCAGTCCAAGTCCTTCGAAGAAGTGTGTATATTT
CAGTTTGAGGGCTGAAATGCCCTTCTTTGGAGCTTCGAGCATTTCCCGTG
TTGATGTATGGCTTTCGTGACAGTTTCAAGTCACTGGTGAAAAACAGGGA
TTTATTCGAAATCAATATATAGTAGTAGTCAAGCTTAATTATAGAAGAAG
AGGAGTTTTTGCATATTACAAGTGAGGAGCTCATCTCATCCTGGAAATGG
CAACAATCAGCAGCAGCAGCAGCAGCAGCATTATATTTTTTTTTTTTTTT
ATTCTCGTTTATATATACTTTCTGGTCTTTCCAACCCTTTCTGCTTTGCA
GATCAACCCCTTTTTGGGATATCATCTCTATCTGGTTATCGGCCCACGCA
TTCTCTGTGTTCGCCCAAAGATGGAGAACGACACTGTTGGCTATTTCGAC
TCCTTCTTTGATGGCGAAGGCCTTGCGCACCTACTCGATCCGTATGGTGA
TATTTATATCATCCACGATGCTTGATATGAAGTCTGTGCCGCGCATGTCC
GCACCAACGATGGAAGACTGGAAAGCTTTCTATGCTAACGAACTCGAGGT
AATCCAGAAGTTCGAAAAGCGATAAGAAGAAGATTGTGGATGCTCTTCAG
GTAGCTATGGGCAAAGCTTTTTCACTGATCTTTTCCGTGCGACTGAGTGC
GATGATGGTACCCTCGACGATCCGATCGAGAGTCTCCTACCATGTCAGAT
CTGGGAAAAATGCAAGGAGTTTCTTGTGGACAGCTTTTACTCCCCTACTT
CTGATTTTCAGTTGGATGTCCGTCCCACCGATCACGATGAGGAGATTATG
GAGTACCCTGATGATGCTGGTGATCTACTTCAGGATCTCGACATCGAAGT
TACCCCTCGGGACGACTTTGAGTGTGCAGCACCCGGTGGCAGCAGCAACG
ATCAACACTGTGAGCGTGGACAGCAACTGGTGACTGTCACCCCTCCTCCC
AAACAGCAGCACGACGGCGCTGTTGAGGACATGCCCTTTCGTGGAGTACG
CTGGAAACCTGGTCATCAGGACCATGCTGGTGGGAGAAGCTACCCTGCCA
AACGTAGTGCCCGTGCTCCCGCAGTACCTGCTCAATCTGAGGCAGCACAT
GCCAATATGCAGAAGCAGAAGATGTGCACACGGAGGCAGAGGAACCGTAA
GAAGGGCGATACTGCTACCTCAACTGGTTGATCACGGTGGCAGAGAGTCA
CTGCGGCTAGGGGGAGGCTACGAGGCTACTAGATCTCGAAGCTAGGGGGA
GCAGTTTGAGGGCTGAAATGCCCTTCTTTGGAGCTTCGAGCATTTCCCGT
GTTGATGTATGGCTTTCGTGACAGTTTCAAGTCACTGGTGAAAAACAGGG
ATTTATTCGAAATCAATATATAGTAGTAGTCAAGCTTAATTATAGAAGAA
GAGGAGTTTTTGCATATTACAAGTGAGGAGCTCATCTCATCCTGGAAATG
GCAACAATCAGCAGCAGCAGCAGCAGCAGCATTATATTTTATTTTTTTTT
CATTCTCGTTTATATATACTTTCTGGTCTTTCCAACCCTTTCTGCTTTGC
AGATCAACCCCTTTTTGGGATATCATCTCTATCTGTATTTTATTTCCATT
ATTGGCAAAAACAGGGATTTTTTCAATTTTCTTACTCCCAGGTTTTGCTA
TATTCACTAATTGACCATATTGGAAGATAGAAGTTTTGTCTCCTTCTTTG
CGAGCCCAGATATAAAATGGCTAAAATGGAAATTCAGTAATTTAGCCGTT
TTTTTTTTTTTCAAACTTCGGGGCAAAAAGACTTACCTCCTTGTGATACT
GGCCATCCAGATAAGCTTTTTCATTCCCCGTTCTCGGCTAGCCCCAGCTT
GTTGTATATTTTTGCTTGAGACTCCTGCCACATCTGGAAAAAAAAAGCGC
CAGTAGACACTGGTCTACTTTCTTGAAGTAGCGCCCTGAAGGAAAACCAT
ATACTGCTTCTTCCAGGTGGTCTGCCTCAAACCCAATCTCCCAAGGCCAA
GGCTTCATTTTAGAAGGTGGTGAAGAATAAACTGCTGCTGCTGCTGCTGC
TGCTGCTGATGCTGCTGCTGCTGCGATGCTGCTGCTGCTGATGCTGCTGC
TGCGGACTGCGGATGTGTGGATGATTTGAAGAGGAAGAAGAATGAATGAA
AAGTTGTCTTGTAAATATTTGTGAAATTCGAAGACTTTTTATTGAAAGCT
TCAAAAAGGTATTACTTTTAATTCTTTAGAACAGCCAAAGTTTAGTTCAA
TTTTTACTACTTTTATGTAAACCTTGCCAAAATCTCACCAATTTTCGAGA
GATTTTATCTCATAAGTTTATATCATCCTTTACTCTTTATGCTCCCAAAA
TCAAATTGAGAGACGTGTGCACAGACATTAAAATATTTAAAAAAAAATAC
TATGAGTCCTTATCTAGCGAATCTCGCCTGTAAATATTGCAGTGTTCTTT
TTTACAACCTTCTTGGTAAAATAAGATATTTTTGGCAAAAATCCCTTCTT
TACACATCTGCTAGATTTATTTTTTGAATTCACGAAAAAAAAGAAAAGAA
AGAAAAGTAAAGCATAATCTTCACGAAAGTAGCTGGAAAAGTGACGGGAA
ATCAAAGACTTTGGCGGGAAATCCCCGGGAAAAGCATCATTTGAAAAATT
CTGTTTTCCTGGTCAAAAACGGTAAATGTTAAAGTTGTATGAGGAATTTC
GCAAACCTTTACTACTTTCAACAACTCTTCTTGGTCTGCTGGTGGTGATA
TGCTTTGTCACGAAAACCTTGTAAAATTACTTTTTTGTATTCGGATTCTT
CATTTTACTAATGGCAGGAAGGTAATAGTAAAAATAGGAAACATAAAAGT
CCAAAAACGCATAAGATATAACCTGGGGGGCTGACGTATAAATAAAGCCA
GCTCAAAGAAGAAAAAAAAAAGCCAGTCTGGAACGTATAAACTTGAACTC
TGAAAAAAAAATCAACTTGGAACGTATAAACTTGAACTTTGATCAAGTGT
GCGGGGCGAGACCGGGCGGTACTGTAACATGATATCCATAGTGCGGAGCC
CATGATGGTAAACTCTGATGCAGAATTCTTCAACTGAGAAGAGAAGGAAG
AAGTCCGCAAAAAGAAAAAAGAACTTACACCACCAACTTCAACTTTGGAA
CTTTGGAAGAGGGGCAGGTGAACGTGACCGTTTTTTTGGAGGAAAAAGAA
GATGGAAGAAGATAAACTTGAACTTGAAGAATGAAACTTTAATTAGAACG
CATAAAACTTGAACTTTGTTGATCAATTGTGCGGGGCGAAGACCGGGCGG
TAACCTGATATCCATAGTGCGGGGCCCATGATAGTCAACAACTCTGATGC
GAGATTCTTCAACTTGAGAAGAGAAGGAAGAAGACTGCAAAAAAAAAGAA
AAGAGAATTAACATCAACATCAACTTGAGAAAAGGAGGCAGGTGAATGTG
ACCGTTTCGGAGGAAACATAAAATATACTCTGAATCAATTGCCGCCTACC
CTTGGGTATGCTTCATATCGATTGTATTTAACACCCTCTTTCAGAGGGCC
TATGATAATTATCGCGGTTGTCACGGAAGCGGCCAATATGGCTGTGCGGT
GATCTTCTTTTATCGTCTAGATGATCAACCTCTACCTGAGGGAAGGAGAA
GATGCAGTCGTCAATGGATGTGAGTTGTCGGAAGCAGCGTCTACGGTAGA
GACAACTGAAAGAGGGCGATGAGGCCAAAGGGCAATAATAATAGAGCATG
TTGTAGGGTTAAGGGCAACTGGAACTTCCGAAGTTAGTCAGTAGCCATAC
TTTTTTGTCTACGTTATTCATTATACAATGCCACCCCCCACTACACGGTG
TCACACTTCACTGTCATTGTACACATAGTAGCCAAATTCTGTCAACTCAT
CGGAGCAGTTCCTCCTTGGTATGATCCGAAGAAGTGCATCAGATGTCAAG
ACGACTTACAAATAGGCGGTGGTTGTGTGACGACTCAAAATATTAAGGGG
CGCATTGTAAGTAGAACGTAGAAAAAAAAAATGGTATGATTGCAAGAAAT
TATCACTTATTCCAACAACATCCAACCAACTCTATGAAATTGAGAAGAAG
CAAACTCGAACATTGTTATTGGCAGCATAGTATGGCTTCCCAAAGGCTTT
CGTTTTGAAATGCAATGCGCACTGTTGACCCGTTGTGGTTACCAGTTGCA
GGTCGCGCCGACCTTCAGCACACTTTCTGCTTGACGGTAAAAAGCTAAAT
CATACTTATACTGAGCTTTGCGAAGACATCGCTTCATAATGGCGATCTGG
AGTACTGGTGAGGGGCGGCACCGCATCTTGAACGTAATTTTTGGTTTCAG
TGATTTTCCATAACCTTTTTTTTAATTAATTCTTCAAACTATTCTTCCTC
TTCTGTGATGACTTCACATGAGAGGTCCTTCTTCTCCTGCTTTGCTAATT
ACAATCATATTCAAATCCTACTGAAAAATCAATATAATCGCTTAAAAGAA
ACTTAAACTATATTCGATTTTGAGCAGGTAAATAAAACTTTCTTCTGACT
CATTATAATTTGATCGAAAATTGAGCAAAAAAAGTTTTATATTTCTCGCT
TTTCCATCCAGTACCGATGAAATTACCGATTTTCCAGAAACGTAAAAATT
TCTGCTCAAAAAATAAATTTAAATTAGGAAAGTAGGCAGGTCTTAGCTAT
GGTTCCCTACTTCGAGTACGACGACGACCAACGACGACTTCGAAATACTT
CGCCCCCAAACACAAACACAAAGATGAATGGTGGCCAAATACAAGTATGG
TGTCCCAAATACAGGTACGCAAAAGCCCAAATACAAGGACGAAAATATGT
TCCCTTTTTGTTGACCGCTACCCCAAATACAGGAGCGTTTTTGCCTATTA
TATGAGCGCTCCTCATCTCAAGTTGCCTAATACAGTACCGCACCAAATAA
ATGAACTTTCCGAATAAATGATCGGTTCCCGACAAAATGTGCCAAATAGA
GTACCGCCTTTTATTCGGCAGAAAACGGTACATGTTTTGACATTATAACA
CTGTTATTAGGAGACAGGAGCCTTATAACGCCCGCACTTGAACCATATGA
CAGAAATTTATGTTTTAACCCTCTTGGTGACAGTTTACCAGGTCGAAGTT
GAACCGGTTCGTACACGAAGCAGGGAGAGCCAAAAGCACGAAGATGACAA
ACTGAAGGAAGATGACCATACCACTTCTCATAGGGAGACACACAATTCTC
AAGACCCCGTGTTGGGATCCGACTGGTCGTTTCGACAGCATGATTAAGAG
CTTCAGACCAATAGGAATGGGGAAGCGAACTCGCATGTAGGGTGGCTCGC
ATTTTGTAGCATATTTTGCCTATACTGATCTCTGCAAGAGCGTTACCATC
AGGGTTACCACGACCAGTAGGTAGGACCTTAATGCCGTGTGCGTCAGAAA
AATGACGTATGCGAGAAAATTCCCCTCCTTCTGCTCCCCCGTCCATTCGT
ATAGACACGATATCGTCAACAGAAACGTCAGGGTTTTGCCTAGTGGCGGA
CTCACAAAAGGCCAGAAAATGATCGTATGTGTCGGACTTCTTTTTCATCA
GCCCAACGTACTTAAAGCGCGTAAAACGATCAACAAAAAGTACAAACCAC
CGATTTCCGCACTTGTCTCTAGGGTAGGCTACGTCTACGGAAACCTCTTG
TAACATTCTAGAGGGAAGAGACGGTGAATCCGGCTCCCTGGCACTGGCAC
TGATAGGGCCACGAGCTGTCATGTTAGTGCTGGCGCACGATTCACAAAAG
GGCAGGCTATGCGAGAGATTGATTCTATGTGATGGAATGCGGCCGGACTT
GACCATACTACGGATAAGCTTTTCTGAAGCATGCCCAAGGCGATGATGCC
ATAGGGCCATCGTATTTTCAGCCATAGCGTCTGCTAAAAGGGCCGAACCA
GTGTCAGCAGGAGAAGACGCGACACCAACAGAAGGAGAGGGTTTACCAAC
GGGAGCAGGTGTACATGGAAAGCGCGACGCTCTGGGCTTAGAGGCCCTGG
GGGCAGAAGGAGGGACAGGCTCCCAATCCAGTAAGTACAGACCGGTTTCG
CTCGTTTGGGACGCAGTAAACTGCAGCTTATGGTTCCTATAGAAGGTAAA
CACCGTGGAGAGAGGATCTATACTACACGTCAGGCCAGCAAAGCGCATAG
CAGACAAGGGAAGGATAGTGGTGGGCATATCATCCGAATAATACACATCA
CTAAAGCTCCAGACACGCCCAGATGTCACCGACCTGAACCGCGAAGAGCC
GACGGAGGTTGCCCTGGCAGGACTGCCCCGGCTGGCCGATCCCACGACCA
TGTCAATCGGAGAAGGCCCAGCCAGCAAGGCTTCGTTGTTGGTGAAAAAC
GCCGTGCATCCCGTGTCGATGTAGGCGCGCGAAGGATCCAGCGGCACCAG
GGAAGTAGAGCTCGTGAGGACCGACGTCAAGGCCAGTAGGCCCGTAGCGC
CGCCAGCAACCGAAAGAGGAGCACAGCACGCCAGCAGCCACGACGACACC
AAGTCGGGAACTGCTAGCAAAAGGAAGATCGCAGACAGAATGGAATGCGT
CAATTGCCCATAACCAATGTGTGTGCAGGCAACCAGATAATGAACTGCAT
GCACCACCTTGTTTACCATTAACCACCAGCCCTTGATACATAGGTAGATA
ACCACTATGTAAAGGTTGGATAGAGCCTCCATTAGGAGGCTCGCTGAAGT
AGCCATTATTCTTATGGTAATGATTAGTACAACAGTGATGATAGTAGAAG
AAGAAGAAGTAATGATGATGATGAAGAAGAAGAAGAAGAAGAAGAAGAAG
AAATATTAATAACAGTAGGGATGTGCTGGGAGACAAACAACGTTGTATAA
CTTAACAAAAATAAAACCCACGGGTTACAGGCGCACCTCCAGTCCAAGGC
CTACAGGGTGGCATTGTATATATGAATACACGCATCATAGATAGGATATA
ATTTACATATGTTAAAAATATCAAATTAATTAAAAATAAAAAAAACTGGC
TGCAGGCGCATCTAAAGTCCGAGGCGTATGGGCTGGCCATTGCTGACGCC
GACCGGGCCATCGAGTGAGAAGAGGGGGTATATGTTTGTTTGTGTGTGTG
TGTGATTTGCGGTACTTTTGTTTTGTCTGCGCAGTATCAACACGTTGTTT
CTGGTGTGGTTCGTCCCCATATCCTTGACAGTCGATGTTTGTTTCGCAGT
TACATTCGCCAAGATCGCATTGGTCCGATACTTGCGGAATAATTCCGTCA
GGCGTGGCACATTTCCTGGTCCAAGGCCGCTCTATAGTCCGTGATCATCC
TTGTTTCACGTCGACATTCCCCTGCCAATCTCTCAGTTGTTCTTGTTCTC
GAATTTCCGAAGCAACGCGAGCATTGTGAGTTGCCGCCTCTCGGGGCTCG
AACACACAACCTCTTGCTTGCTCTGAAAGTCGAACTTCTGAACTATTGAG
CTATTTAAGGACTAGTGAACTATTCCAGGTTGAGTTCACCAGGGTGAAAA
GTAGAAATATCTAGAAGAGTGTTCTGAAAAGTGGTGGAAGCTGAGAAGAA
GACATAATGACGACAAGATTTGTCTACGAGATGATGGCTAAACATTTCAT
TTGTATTATCTTTGTAGACTTTGATGTTCTACTACCACCAATTTCTCCCA
ACACCACCTTTCAAATAAGAATGAGAACCTATTAATTAATGTTTTCAAAC
CTTAACTAATAAATTTCATCCATTTCAACTTTTTACTTTGTACATAACAA
TCATAAATCAGACTTCTCCTTCCACTGGTCACAGTCGATTCCATGAGGAC
ACAGATTAAAAAATCTTGTTGAGTCTTAGCAAAAACACATCTTCATTATT
TCATTCCATTCACAAATCAATAACTCCATTTAGACCAGATGACATAGCAC
CACTACTGAAGAACCCGCAAAGATTTTTAACTGCGCGGTAGCAGTATGCA
CATCTGCTTCCGTTTCTGCCTTCCCCTTTTGGAGTATATGCCAAGTCTTT
CTTTCACGTGCTGCTTGAATGACTGTCAACCAGGCAGCTCATACCGAGGC
CTGAGTATCACAACTTCAACAGCTCAGAAAAAACTTTGCATGTTTTCATC
ATCATGCTTGTTCAATTGCCTCCTTCTGTTTTGCATGCTGTGGCTATATC
GGACAACCACTAAGAAGCTAATATAACCTTACATCAAAGATATTTTACAG
CCAAAGTCGGTTTTACCCTCTTGTTGGTCACAAAATTCATCAATATGACC
AAAGCCCCAGTTTTTTATGACCAAACCTACCAGCAGTTTACGTATTCTGA
TTGGTTGTAAAAGTGCATTTGTATTCAGTCGGTGAAAGAGTGGTGACGTT
CGATTTCGATTGGTGTCTTCTATTGTTTTGTTTAGCTTGCATAACACAGA
CGATCAAAGAAGAAAATTTGATGTACGGACGTCACGATTATTATTAATTA
TTATCCTTGTCGAAATCGTCAATTCAAACTTCAAACTGAAGATTCTTTTT
CATAGTTGAAGTCATGGCAATATCTGTTCCAATGAAAGTTTTTAGCGTTG
TACTTTGCTTACAAAATAAATCAGATTTGATTAATAGGACCATCATCAGG
GCATAGGATATTCCGAAAGGAAGACGTTCACCCAGTCTAATGCTTCACGG
ACATCATCAAATCAGATTTGTTTTTAAAAACATTTTGGACAATGCGAGTA
AAGACGGGTGGCTTAAACATATTCAATATTTTATTACCAAAGGCCATGCC
ATTTGACCCACTTTGGTCATAATAAAATACTCGATGATGTTCATTCGTCA
ACTAGATTTTTTATGACCAAGATTATGACCAAAGCCGTGTAAGAATAATG
ATAAAGCACCTGCTAAAGGCAGGCTGACGCTAGAACTAAAAGCACCTCAG
ACGCCCGGCATCAAAGCCATTTTCTTCTTCAGGATACAAGACGATCCTGA
AACTCTGACAAGACCACGAATGCCAATGCAAGGCGATCAAAAAGTTTTTT
TGTTTTACGTTTTAACATGAAGTGAAAAATGATAACCCAGAACTTATCCA
CTACTGCTGCTACCACACATCTATCTGATTTTGAAGCTGCTTCTAATTGG
CATGAATTATTCTACTAATTATGTGTTGTTGTTGAAGTACGCCATGAGAC
ACACAATGGCGATGACATGAAACAAACCCACTGATCAACTCCAGTACAAC
ACCCACACCCCATGACAATGAGTTAACCGGCTGGTTTAGGGGTACTAAAA
AACTCGATTTGCGGCAAAAAAAAATGACGATCAAAACTGTGGTGGCTTCT
CCCGTTGTCGCCTATCGAAAAGTTCCTCTTCCTCCACACTTTTCTCTTCT
CCTTCTCAAAAAAATGGAGGGAAATGAGAAATGATTATACAACTGAAAAA
ACACATTAATATTTTTATTTTCCAAAACACGCTGTATCAACTCGTGAAAT
TCATTTAAACCTTACAAGATAAATAACCTTCGATCATCGTCGTCGTCGTT
TTCTTCTCATCATCCATCCCATCCTCCTTCTCTTCTACTTCGTTTTATAC
CTACATTCGCTCATATATATCTGATTGCCTTCAAGAAAAATGGGGCTTAC
TTGCAAGAAAGCAAACAGGCCCACCAAGTGTTCTGCCTGCAAGTCGAAAA
GGAAATGTATTTATGCTAGTCAAGCAGTTGTATCTCATCACGAAACTGAT
AAGGAAAATGTGCAACCGACCATTCCGGCGATCACTTCTTCTTCGAACGA
AGAGGACCAGCGCACCAACGGAATCAAGTTTTCTGCCGCAGCTGAGCTAG
GTGGGAGAAAGAAAAAGTCGCGAATCAGTAATCTGGGCGTGCATGCTGAG
ATTAGTAGGAAGGAAGTACTGCTAGAATATGCCCAACTCCAGGAAGTGCA
CGATTCTGTTGTTGCCCGAAATCAAGAACTAAATGAAAAAAATGCTGCTC
TTGAGCGGCAAGTTTCTTGCACTGCGGGCGAGCTGGACCAAATGAAGCAC
CCCAAACAGAGTGAGGGTGGGGAAGGGTTTGGTGTAATCAACGAAGGGGA
TGTTGGATATAATGACAGAACTTTGCGCTCCCATGCATTATCTGTTCAGC
ACCACATTTCAGCACTTTGTCGTGGCAATGGCACAAAGGAGCGTGAGTTG
GTTCAGGCGTTGCAGAAAAGGTTGCCCAACAAAATTCAGGCAGAGGAGGA
CCAGGTGCAGATGGCTCAGGTGGTATTGACGTCGCTCCAGCACTATTTCA
CCATCCTGAATGGCACAAGTGCCGGCAAATTCAACTCTGCTGTTGTCTCT
GCTCAATACATCGTTTGTGCGGCAACGTGTCATGCGGCCAGCCCTCGCCA
ACTAACCTCTATTTGCCAGTTGCTAGGCTTCAGCCGTGAGTTTGCAATGA
AGGCAAAGGAGCGTTGGCAGAAATATCTTGCTGATGAGGTTAGTGCTCTA
TTGGACGTGGCCCCCGCCCAGAAACGTGATGCGATACCCCCAGAGTACGA
TCAGCTGTGTGAACAGATTTGGCATGCCAACACCAGACCTTCTGAGAAAG
CAAAGGACGCCGTGCGTGACCCACGCCCATTCAACCAGGGCCAAAGACAC
AGGATTCATTACCAGGAACTGCGCAATATGGACATCTTTAATATACTGAT
GGAAGAGGGGCGCCGGTCGTATGGGGATGTCTGGCGCTACAACACGAAGA
GGTTTGCAGCCCACAAGCCGTTCTATGTGAGGCCAGCAGGGCGGGCGGAG
TGTTTGTGCAAGTATTGTTTGGGATTTGATCTGCAAATCAAGGCCTTGCA
CAAGTACAACAAGTTGTTGAAGAGCCTAGGGTGCCAGTGCGATGTGCATA
CGATCCCCAAGAATGCACATGACTTCCGGGCACGCTACACTTGTCCAAAG
CCGGAGGGTTCTGATTTCTATGCAGAAGCATGCCGCAACAACACCTGCCC
AGACTGCAAAGACTGGCAAAAAGTGCCAGTATGAAAGTGTATGGAGAACA
AGCCGGACATGAAGTGGGAGCAATACACAAAGGTCACCGTGATCAACAAA
CATAACGAAGCAGTGCAAAAGTGGGATTTTCGTCCTACCTCTACTCCTTT
TGAAGATTTTCAGCTATCCTTCACAAAATACCGTAAAAAGTACATGTACC
ATCATACAACCAACATGCGGCAGCAGGCAGACTTTATCACTGCAAACTTG
GAGCGCGGCACGATTGTTGGAGTACCTGACTTCTTCAGTGAAAACGGCAA
ACTGCTGCGCAAACATGCCCAGCAGAACACCCACTTGGCGGAGCATGGCT
ACACTGTCTACCCCTTTGTGCTTCTTGTACGTGTGGAAGATCTCAAGGAT
GAGTTTTTTTAGGGCGGCGTGCACGAAAAGGAGGAGCTCTTGCAGCACTT
CCAGAGCAAAAACAAGCTACCAGCTGTGCTAGTAAATCTGTGCGGCCTTT
CTGATGACACCACACACGACAATGCCTTTGTGCAGCACTTCCATACCCAC
AAAGGACATTAAAAACAAGCCTGGGCTTGGGCTGGTACGGAGTGTGTTCT
TCTACATACCTGCCTCGGGCGAGGGGTCAGTCAGCCGGCGCCTTCCCCGC
TTGGCGACATTCGATGGGATCAAGAAGCTCCACCAGATCATCAGCAGCCC
CGTTGATGGGTGTGTTCGCGTCCGGGTGGGCACGTGCCTCTCCTGTCCAA
GCTGCCGCGTGGGGAATTTTTCCCAGTGTGAAAAGGGTGCACAGTGAGGT
GAGCTGCTTACCCGCCCAGTCATCATTCAGTCAGACCCAGCATGCAGAGT
TACCAGACAGGCGGCAGCAGAGGAAGCCCGTAGGTTGAAAAATAGCATTG
AAAAAAAAACATTTTTTGCTTGCTCACCTGGGGATGACCCTGAGTCTCTG
TATTCCCTGTACTGGGCAACTGAGAACGGTCATGATGGGGCTGTCCTGGC
CAGAAGGCTCATGAAGACAGTTGCTGGATCAAATCATTTGGAGATTTCTG
AGAAAGAGGAACCAGTCACAACTGCCGTAGTGATGGTGGGCGTGCAAATG
GACAGTGTTGAAAAACGCTACGCCATTCGGGGCCAACAAAATCAGTTCTA
TCGCCTGAACAGCGACGAGCATCGATCCATCCTTGAGGCAGTTGAAAGCG
CGGTCAACACTATTCACTTTGTCTGATCTTGTATATTTTCTATCTTAAAA
AAAAAACAATTGAATTCACGCTTGGCCCTTTCTTGAAATGAATGGCGGCC
ATCTTCGATTCTGTTCACACTCCCAAACCATCTTCATTTTCGTTTTGCAT
ATAGATTTTTATCACCACCGTGTATATTGTATATATACTAAATCTAAATG
CAAATGCAAATGCAAATGCAGCAGCAGCAGCGACGAGAAGAAAGAAGGGC
AGCTACTATATACATAGTTGTTAGATACGGAAAGCGGCTGGTTCAAAACA
ACACGAAAATAAATAAATATAATCCGGCTGGAGTTGACTCCGATTTGCCA
CTTCATCATTAATTGCTGGGTACCACCACCACGCCAAATTATTTTTATGA
AACTAATTACAATAAATTTAAAACGAATATTTTAAATTTTGGAAAAATAT
TAGGAGTGATATGAATTAAATAAGAAAAATTAAAACTACAATCCACCCTG
TAAGGTTACAGCTTATGTTTCGCGCGGCTTTTGTTAGGCTCGCTTAGACA
AGCAAAAGCCGCTTTTTTGCGTCTCCGTACGACCTGTGGTTCCCGAGATA
CGCGCGGGGGCCTCGTCGGGCGAACAATTCGGGAGTTGCCGGCAACGGGG
GGGGGTAAACCAGCCGGTTAACTAATGGTATATCTTCGATGGTGGTATTT
AGAAAACGATAAGTATAGAAAGTGGCCTAAAGTAGGCGGCACAATGCCAT
GATTGGGGAAGAACTAGTCTTCAGCAAATATTGATTTATTTTGAGGGATG
ATAGAGAATGTATAGAAAGATGCACGCGACTTCTTAGCGCGCTTCCTAGA
ACAACAACAAGAACAACAAGTAGTGCTGCTAATGACTATGCTCCTTCTTC
TTCTTGTGCTGATGATGACAATGCTTCTTGTCTTGATGATCGCCACGCCA
CTGCGCACTCCATGCTTGTGTCTGCAACCAATCAGAAGAGAGCTTGACTT
CTTCTTCTCTGAAGATAGAAGAAGTAGAAGAAGGCCAGGTTGCAACCAGG
ATGGTTGTCACGGGATCGAACCGGGGCCTATGCATAGCAAGTAAGAGACT
TGCTTACTGAGCTGCATTGCTGTGTGAACTGGACGATGCCAATACCCATC
GCTCCACCACAGCGGACAGGTGAGCACAGCAGCAGTAGTAGGAGAAAAGA
AATCCCCACCACTGGGCAAAAGCTGAGCCGTGTGTGAAGAAGAAACTCCA
CCATAAACAAAGCTCCACCAGAAACAGAAACCCCACCAAAGGTAGATCTC
CACCAAAGTTGAGAAAGTAGTAAGTTGTTAAACAACCATCAAAGAATCCA
TGTAGAAACCCCACCAGAGCCTGATGATAGCGGATGAGGAGAGCCCCTCC
AAATGCCAAAAAGGGTAAAAACAATCTGAAAAGCTACTGGAGAGCCAGTA
GTAGCCAAAGAGTGCTCTTCTGCAAAGAGAGAACCATCCAACTGCTTTGA
GGTCAGGAAAATAAAATTAAAAATGAAGTCATATCAAACTGGGACAATAA
GCCAGTGGTTAGTGTTGCCTCCGTCTACTCATAGATGACTTCGTCAACAC
TTGCCAATAGAGAAAAATACATTTACCTGAACTGTTCATCGTCGTACTCA
GCCAACAGCCGTACATCCGTCGCCCGTGGCAGACTTCAAATACAGTAGGA
ACCGAGAACCTAACTAATTTTTATGGATTGCCCATCGAGAATCGCACTGC
AAAATCATGCCGGTTAGGCGTAGAATCGAGCTTGATACTTCAAAGAGCCT
TGTTTCATTGCACTAACGCAATATAACTGTCGCAATTGCAGACAATCCGC
TGGCTAATGAGACCCCGAAGATTGATTGCAGCAGTGTAAGATCCCAGCGG
CATAACAAGAAACCAAAGGGAAATCCGAAACGCATCCCAATTCTTCCGAA
GAAGAGGATGAAGAAGATGCTTCCAGCCGCGGTTAGATATACCGTCGTCC
TCGGGAGTTGACCAGGTCCGGCAGTTGCCGTTAAGCACTCGAGCTCGGCG
TTGCTCGACCCATGGGAGGATTCGAAAGCAGGGAACAAGGGCAGATGTCC
ACGTAGGGAAAAACCCATAACCGATAAGTATAGAAAGTGGCCTAAAGTAG
GCGGCACAATGCCATGATTGGGGAAGAACTAGTCTTCAGCAAATATTGAT
TTATTTTGAGGGATGATAGAGAATGTATAGAAAGATGCACGCGACTTCTT
AGCGCGCTTCCTAGAACAACAATAAGAACAACAAGTAGTGCTGCTAATGA
CTATGCTCCTTCTTCTTCTTGTGCTGATGATGACAATGCTTCTTGTCTTG
ATGATCGCCACGCCACTGCGCACTCCATGCTTGTGTCTGCAACCAATCAG
AAGAGAGCTTGACTTCTTCTTCTCTGAAGATAGAAGTAGTAGAAGAAGGC
CAGGTTGCAACCAGGATGGTTGTCACGGGGATCGAACCCGGGGCCTATGC
ATAGCAAGTAAGAGACTTGCTTACTGAGCTGCATTGCTGTGTGAACTGGA
CAATGCCAATACCCATCGGAAAACATACGTTGGGCTTCAAGTATAGTGTC
AGAGGCTTTGTATTTGGTCAACTCACCTGCGACATCAATGATGTACCAGA
TCAAGCTTTTCCGTGCTATTAAGACTGAACCACTATATGCGATCAAATGT
TTTTTTTTTTTTTTTCCCCTTCCGGCGGCGGGGGTGGGGGGCCTGCGTGG
GGGCAGGCTGGAGCCGGAATACACCAAGGGCTACTACCGCCGCGGCTCGG
CGCTGTACGCCCTCACCAAGTACAAGAAGGCACTGAAGGACTTCCGGGCG
GTGGTCGCGCTGCGCCCCAAAGATCGCGAAGCTCGGGCCAAGTTCAAGGA
GTGCCAGGCGGCGGCGCGCGAGCAGGCCTTTGCTGCGGCCATTGAGAGCG
AAGCCACGCAGCCGCTCTCCCAGACCTGGGACATTGACGCCATCGTGGTG
GAGGATTCATACGATGGGCCACGGCTGCCGGAGGCAGAGGGCGCCGCGGG
CATCACCGCGGAGTTTGTGGACGCGATGCTGGAAAGGTTCCGAGAACAGA
AACTGATCCATCGAAGATACGTTGCCCAGATTCTGCGCCGGGCCATCCAG
CTCTTTGCCGCCCTGCCTTCGCTGGTGCATGTACCAATCAGTGATCAGGC
GCCGCTGACCGTTTGCGGGGACACCCACGGGCAGTTCTACGATGTGCTGA
GGATCTTCGAGCTGAACGGGCGCCCCTCCCCCGATCGCCCTTACATGTTC
AACGGGGATTTTGTGGACCGCGGCTCCTTCTCGTTCGAAGTGGTTACAAC
GCTGCTGGCTTACAAATGCCTGTACCCGGAGAGCATGCACCTGACACGGG
GAAACCACGAGACAACCAACATGAACAAGGTCTATGGGTTTGAGGGGGAG
GTCAAGGCTAAGTACGACCTGCAGATGATGGGGCTTTTTACGGAGGTTTT
CAACCAGATGCCGCTCGTGTACGTCATCAACAACAAGGTATATATGCACC
CAGACTCACTTTTTAATAGACCGACCTTGGCAGCACAGCCCCCCCTTTTC
CAACGGCAAGGTTGGATTCCTCAGGCACTGACAACAAGCGAACCGCACCT
GATTGACTGACCCTCCCCGCATCCTCTCTATCTGATTGAGTCATCCCCTG
CCCCGCCGCACCTTGCCTGCCCGTCTTTATTAAGCTCTACAACAGCTTTT
TGCCCCCCGCCATGCCCTCAGATTGCTCACCCCCGCCCCCCCTCTCTTCG
CCGTTTGGTTGCCCGCCCCCTTGCTCATCCTGTTGTCTCTTCTGATCGGT
TTCCTACCGCGCCACTCAGCCCACTCCCCGCCTTGCCCCCCCCCCATGCG
ATCGGTCGTTCCTTCACCACCACAGGTGATGGTGGTGCACGGGGGACTTC
CCGTGGAGGACGGCGTGACACTGGACCAAATCGCTGCCCTGGACCGCAAC
CGGCAGCCGCCGGAGGGAGGGCTAATGAGCGACCTGCTTTGGGCGGACCC
GCAACCTTTGCCCGGCCGCATGCCGAGCAAGCGCGGGGTGGGCAAGAGCT
TCGGCCCAGACGTGACCGAGGCCTTCTTGAACCGGAACGGTCTGGAACTG
CTCGTGCGCTCACACGAGGTCAAGGATGAGGGATACGAGGAGGCGCACGG
CGGAAAGTGCGTGACCATCTTCAGCGCGCCGAACTACTGCGATCAGATGG
GGAACAAGGGGGCCTTCATTCGCTTCGGGCCGGACTGCAAGCCGCAGTTC
ACACAGTTTGAGGCTGCGCCGCATCCCCAGATCAAGCCGATGGCCTACGC
GGGGGGGGCGGGCATGTTCGGGCTGTGATGACAAGGGGGCGGCGGCAGAG
AGGTAGCAGCAGATAAGTCGGTGGAGGGGGGGCAACAAGGAGGAGGGAGT
GTGTTGCTTTGGTAGGGTGGTGGTGGAGGAGGAGTCGGCTCCAATGCACT
TGCACTGCTGATGAGTGTCGCCGGGGGTGGGTAGAGGGCACTGTCAAGAA
TTATAGTGTCATATTATTGTTATAATATATGATGATGATTATTA
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Coding sequence (CDS) from alignment at H-akashiwo_Contig1:1433232..1468725-

>mRNA_H-akashiwo_Contig1.13.1 ID=mRNA_H-akashiwo_Contig1.13.1|Name=mRNA_H-akashiwo_Contig1.13.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=1557bp|location=Sequence derived from alignment at H-akashiwo_Contig1:1433232..1468725- (Heterosigma akashiwo CCMP452)
ATGGCCGAGCTGATCACCAGCAATCCGGAACTAAACGGTGGTAAGATGGA
GGAGGACGAGAGCAACGGAAACGGCCCAGCGCCCTCCTCCACCCCGGTGG
CGGCGGCGGAGCCGTCCGAAGCCGCGAAGGCGGCGGCCCTGGCGCACAAG
GACGCGGGCAACGCCCTCCTGCAAGAGTTCCACTATGCCCAGGCCATAGA
GCAGTACACGCTGGCCATCGCGCTGTGGGACGGGAACGCTGTCTTTTACG
CCAACCGGGCACAGGCGCATCTAAAGTCCGAGGCGTATGGGCTGGCCATT
GCTGACGCCGACCGGGCCATCGAGCTGGAGCCGGAATACACCAAGGGCTA
CTACCGCCGCGGCTCGGCGCTGTACGCCCTCACCAAGTACAAGAAGGCAC
TGAAGGACTTCCGGGCGGTGGTCGCGCTGCGCCCCAAAGATCGCGAAGCT
CGGGCCAAGTTCAAGGAGTGCCAGGCGGCGGCGCGCGAGCAGGCCTTTGC
TGCGGCCATTGAGAGCGAAGCCACGCAGCCGCTCTCCCAGACCTGGGACA
TTGACGCCATCGTGGTGGAGGATTCATACGATGGGCCACGGCTGCCGGAG
GCAGAGGGCGCCGCGGGCATCACCGCGGAGTTTGTGGACGCGATGCTGGA
AAGGTTCCGAGAACAGAAACTGATCCATCGAAGATACGTTGCCCAGATTC
TGCGCCGGGCCATCCAGCTCTTTGCCGCCCTGCCTTCGCTGGTGCATGTA
CCAATCAGTGATCAGGCGCCGCTGACCGTTTGCGGGGACACCCACGGGCA
GTTCTACGATGTGCTGAGGATCTTCGAGCTGAACGGGCGCCCCTCCCCCG
ATCGCCCTTACATGTTCAACGGGGATTTTGTGGACCGCGGCTCCTTCTCG
TTCGAAGTGGTTACAACGCTGCTGGCTTACAAATGCCTGTACCCGGAGAG
CATGCACCTGACACGGGGAAACCACGAGACAACCAACATGAACAAGGTCT
ATGGGTTTGAGGGGGAGGTCAAGGCTAAGTACGACCTGCAGATGATGGGG
CTTTTTACGGAGGTTTTCAACCAGATGCCGCTCGTGTACGTCATCAACAA
CAAGGTGATGGTGGTGCACGGGGGACTTCCCGTGGAGGACGGCGTGACAC
TGGACCAAATCGCTGCCCTGGACCGCAACCGGCAGCCGCCGGAGGGAGGG
CTAATGAGCGACCTGCTTTGGGCGGACCCGCAACCTTTGCCCGGCCGCAT
GCCGAGCAAGCGCGGGGTGGGCAAGAGCTTCGGCCCAGACGTGACCGAGG
CCTTCTTGAACCGGAACGGTCTGGAACTGCTCGTGCGCTCACACGAGGTC
AAGGATGAGGGATACGAGGAGGCGCACGGCGGAAAGTGCGTGACCATCTT
CAGCGCGCCGAACTACTGCGATCAGATGGGGAACAAGGGGGCCTTCATTC
GCTTCGGGCCGGACTGCAAGCCGCAGTTCACACAGTTTGAGGCTGCGCCG
CATCCCCAGATCAAGCCGATGGCCTACGCGGGGGGGGCGGGCATGTTCGG
GCTGTGA
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