mRNA_P-littoralis_Contig11.214.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig11.214.3
Unique NamemRNA_P-littoralis_Contig11.214.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: D8LI02_ECTSI (Prolyl endopeptidase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LI02_ECTSI)

HSP 1 Score: 1375 bits (3560), Expect = 0.000e+0
Identity = 682/777 (87.77%), Postives = 722/777 (92.92%), Query Frame = 1 
Query:  133 MAYMSSKRSSSNRTALIAAAGSTAVLGGFLLARSVHKRRLRQGLLQLPAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGG--AEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKGEGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGEK-PLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWNP 2454
            MAYMS K  ++ +TA +AAAG TA++GG LLARS+H  R R+ +LQ+P+ARRSDH DEYFGH V DPYRW+EQEDS ETKAWVE QTKHTDAYLQTELEPGRGKFL+RLEEVFNYDK SSPWRVGEYWF YLQKGLSPQAV+YKQ    VGLDGTPEVLLDPNTLS DGT ALSGVDFSKDG KLAYGISEKGSDWFSVHVKDVVTGKDLPDVV+WCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGT SSEDQLVYQSPLDEKWLAS++M+DDWKTLIISIGDSCDPVNRLFYRDLS FDGHDV GTMGK VKLVDNFDSLY YVTNEGRTFWFRSN DAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPED +GVLKDAA VAGD +VLTFERDAFIQLELFGL   ++K VPVPGIG+IGGVS+DKKYDHIMFKFTNFVTPGTIYHGTVS GE GG  A+VSLKV+ ETKVPGI ++DFETKQ+RY SKDGTVVPMF+VGR+G  G SPCLLYGYGGFNISLNPSFSAARLLFIKH+GARFCLANIRGGGEYGEEWHSGGTL++KQNVFDDF  AAKYL A+GYTTK+QLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNV+  SPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIG+RPGEK PLLIRIDR+SGHGGGKPTAKVLAEAADTYAFIAKHTGA+W P
Sbjct:    1 MAYMSGK-GNNRQTAFLAAAGGTALVGGLLLARSIHNSRARKKVLQIPSARRSDHTDEYFGHVVRDPYRWLEQEDSMETKAWVEEQTKHTDAYLQTELEPGRGKFLSRLEEVFNYDKHSSPWRVGEYWFSYLQKGLSPQAVMYKQ----VGLDGTPEVLLDPNTLSKDGTSALSGVDFSKDGDKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVDWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTKSSEDQLVYQSPLDEKWLASSIMSDDWKTLIISIGDSCDPVNRLFYRDLSAFDGHDV-GTMGKVVKLVDNFDSLYDYVTNEGRTFWFRSNMDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDASGVLKDAAVVAGDLVVLTFERDAFIQLELFGLTTLEKKAVPVPGIGTIGGVSSDKKYDHIMFKFTNFVTPGTIYHGTVSKGEGGGGTADVSLKVYRETKVPGITSTDFETKQVRYKSKDGTVVPMFVVGRRGAEGASPCLLYGYGGFNISLNPSFSAARLLFIKHYGARFCLANIRGGGEYGEEWHSGGTLNQKQNVFDDFMYAAKYLPAKGYTTKDQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVDPKSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGSRPGEKKPLLIRIDRDSGHGGGKPTAKVLAEAADTYAFIAKHTGASWTP 771
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: A0A835YIC5_9STRA (Prolyl endopeptidase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YIC5_9STRA)

HSP 1 Score: 871 bits (2251), Expect = 1.450e-304
Identity = 431/746 (57.77%), Postives = 534/746 (71.58%), Query Frame = 1 
Query:  223 LARSVHKRRLRQGLLQLPAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAA-GKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDE-KWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKGEGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGEK-PLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            L R  H R    G  + P  RR DH D + G  V DPYRW+E  D +E + WV++Q + T AY    LEP R  F  R+  +++YDK   P + G+ +FFY + GL  Q V+YKQA    GL+  P VLLDPNT+S DGT AL G  F++DG KLAY +S +GSDW+S+HV DV TGK+LPD ++WCKF  + W +   GFFYS FP P+ L+   GKSAGTEV+   G+++ YH+LGTD++EDQLVY++  +  KWL S   +DD++TL+I+I DSCDPVNRLFY D+S FDG  V+ T+G+ VKLVD F++ Y Y+TNEGRTFWF +N DAP+YKVI M LPPAGSPME D A+LA +P+  VV +D   VL+ A AVA D+LVL + RDA+ QLE+  L GG R+ + +P IGSI G+S  K  + + FKF NF   GT Y   ++  + G  E+S  VF  T VPG++  DFETKQ+R+ S DGT VPMFIVG KG+ G +PCLLYGYGGFNIS+ PSFS +RL+FIK+FG R C+ANIRGGGEYGE+WH  G    KQNVFDDF S AKYL     TT  QLAI GGSNGGLLVGAC+NQ PELF AAVAQVGVMDMLRF +FTIGYAW SD+G+    + ++K LRAYSPVHNV  ++  YPA LLTTGDHDDRV PLHSYKY A LQ  IG+R GE  PLLIRID  SGHG GKPT+KV+ E++D +AFIA+HTGA W 
Sbjct:   15 LTRIAHGRLPTFGKFKYPVTRRCDHTDNWHGEEVPDPYRWLENPDDEEVQTWVDAQNECTFAYFNANLEPQRRLFCERMTALYSYDKYGCPMQYGDLYFFYKKTGLQNQFVLYKQA----GLNEEPTVLLDPNTMSDDGTAALQGHYFTEDGSKLAYTVSMRGSDWYSIHVMDVATGKELPDRIDWCKFSSVAWNKTGTGFFYSKFPPPEGLQGKEGKSAGTEVDAVEGNKVFYHRLGTDAAEDQLVYEAGAENNKWLLSCESSDDYQTLLINIHDSCDPVNRLFYLDMSRFDGASVA-TLGRLVKLVDKFENKYSYITNEGRTFWFLTNLDAPRYKVIKMTLPPAGSPMEADPASLALVPRVDVVQQDSVAVLEGAYAVANDRLVLLYMRDAYEQLEICDLNGGDRRSIQLPSIGSIEGISAKKTKNEMFFKFVNFQDAGTTYRCEITRKQDGKIEISRDVFKRTVVPGLNPDDFETKQVRFKSTDGTSVPMFIVGSKGQRGAAPCLLYGYGGFNISITPSFSLSRLIFIKNFGGRVCVANIRGGGEYGEDWHDAGVGANKQNVFDDFISGAKYLCTINLTTPAQLAINGGSNGGLLVGACINQQPELFAAAVAQVGVMDMLRFHKFTIGYAWCSDYGNPDDDKNKYKVLRAYSPVHNVAPDAGRYPATLLTTGDHDDRVVPLHSYKYAAMLQSVIGSRKGENNPLLIRIDTRSGHGAGKPTSKVIEESSDIWAFIARHTGAVWR 755
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: A0A7S3XS46_HETAK (Prolyl endopeptidase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XS46_HETAK)

HSP 1 Score: 748 bits (1932), Expect = 4.070e-256
Identity = 392/766 (51.17%), Postives = 500/766 (65.27%), Query Frame = 1 
Query:  187 AAGSTAVLGGFLLARSVHKRRLRQ-------GLLQLPAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKS--AGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRK-GEGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGEK-PLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            A  S   +GG   A  +++R+ ++       G    P  R+ +  DE  G  VEDPYRW+E   S E + WVE Q K +  Y+   L     KF  ++ E+F YDK   P + G++ FF  ++GL  Q V YKQ  +D      PEVLLD NTL  DGT AL    F+KDG K+AYG+S  GSDWF + VKDV TG+DL D +E CKF G+ W  G  GFFY+ +P        G+   AGTEV+ A   ++ YH+LGT   +DQ+V++ P + KWL  + ++DD   L+++IG+SCDPVNRL+   L+ FDG DV GT+G  VK+VD+F+  Y Y+TNEGR FWF +N DAPKYKV +++LP  G        ALA +P T VVPED+  VL+  A  AG  L+L + +D   + E+  L G  R+ V +PG+GSI G+S  K+     ++F  F  PGT +   V+  E  GA  ++  F  T+VPG+D S+F T+Q+ YSSKDGT VPMFI+  K    GP P LLYGYGGFNIS+ P FS  RLL++KHFG    +ANIRGGGEYGEEWH  GTL  KQNVFDDF +AA+YL     ++  QLAI GGSNGGLLVGAC+NQ PELF AAVAQVGVMDMLRF +FTIGYAW SD+G++     +F+TLRAYSPVHNV   + PYPA LLTTGDHDDRV PLHSYKY A LQ+  GA+P +  PLLIRID  SGHG GKPT+K + E ++  AFIAK+TGA W 
Sbjct:   19 AVASVVTIGGLAAATVLYRRQKQRKEEARTFGPYDYPTTRKCNQVDELHGTEVEDPYRWLEDPYSPEVQRWVERQNKCSKKYIDG-LGEDLEKFKTKMTELFTYDKYGCPTKYGDWIFFLKKEGLQNQFVFYKQKDED---GAQPEVLLDVNTLREDGTAALKTYAFTKDGTKMAYGVSFSGSDWFEIKVKDVATGQDLVDRLEHCKFSGVAWAPGGAGFFYARYPXXXXXXTKGREDGAGTEVDAAAQQKLYYHRLGTTQEQDQVVFEDPENPKWLYGSEVSDDGAYLLVTIGESCDPVNRLYLYPLAGFDGRDV-GTLGPVVKVVDHFEHKYDYITNEGRKFWFFTNKDAPKYKVATLELP-EGDLAALSPDALAALPTTDVVPEDEGAVLEGVAVTAGCYLLLLYLKDVQSKFEIARLDGSGRRAVALPGVGSITGLSAKKEQGEFFYQFMGFQDPGTTFRVRVA--EADGA-TTMAPFQRTEVPGLDPSEFSTRQVFYSSKDGTKVPMFIINHKEAPEGPGPTLLYGYGGFNISITPGFSLNRLLWVKHFGGTVAIANIRGGGEYGEEWHKAGTLHNKQNVFDDFIAAAEYLHNAEISSPSQLAIQGGSNGGLLVGACINQRPELFAAAVAQVGVMDMLRFHKFTIGYAWCSDYGNADKDAAEFRTLRAYSPVHNVGGAAGPYPATLLTTGDHDDRVVPLHSYKYAAALQNVQGAKPEQAAPLLIRIDTKSGHGAGKPTSKQIEEVSEMVAFIAKNTGATWK 775
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: W7TH20_9STRA (Prolyl oligopeptidase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TH20_9STRA)

HSP 1 Score: 686 bits (1769), Expect = 1.130e-229
Identity = 381/833 (45.74%), Postives = 484/833 (58.10%), Query Frame = 1 
Query:  259 GLLQLPAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTD-APKYKVISMQLPPAGSPMEEDEAALAQ-IPKTTVVPED-KTGVLKDAAAVAGDQLVLTFERDAFIQLELFGL----------------------AGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTV-------------------------SSGEKGGA-------------------------------------------EVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIV----GRKGEGGPS---PCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSP-PYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGE-KPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            G L  P+  R    D   G  V DPYRW+E  D+ + + WV +Q K TDAY +  L+  + KF +R+ E+F+YDK S  W+ G  +FFY + GL  QAV+Y Q +    L   P +L+DPNTL ADGT ALS V  ++DG  LAY IS  GSDW +++  DVVTGK LPD V WCK+  +TW    +GFFY+ +  P S +     AGTE + A    + YH+LGTD  ED L +  P   KW+    + DD +TL+++  DSCDPVNRL+Y DL  FDG D+  ++G+ V+LVD     Y YVTNEGR F+F +N+  A  YK++  +LP  G  +EED+ ALA+ +    VVPED K GVL     VAG  L+L++ R+   +LEL  L                       G  R PV +PG G++  +   K+     FKF++F  PGT+Y   +                           G K G                                            EV   V     +PG++  +F T Q+ Y SKDGT VPMF+V    G K  GGP    P  LYGYGGFNIS+ PSFS +RLLFI+H+G    +ANIRGGGEYGE WH+GGT  RKQNVFDDF +AA+YL  EG +T  QLAI GGSNGGLLV AC+NQ P+LFGAAVAQVGV+DMLRF +FTIGYAW SD+G++   E  FK L  YSP+HNVN      YPA L+TTGDHDDRV PLHSYKYIA LQH  G  P + +PL+IRID  +GHG GKPT+KV+ E +D  AFIAK+TGA W 
Sbjct:   85 GRLCYPSTARVPVVDTLHGTAVPDPYRWLEDPDAKDVQKWVNAQNKVTDAYFKACLQEDKLKFQSRMSELFHYDKFSCVWQKGSRYFFYKKTGLQNQAVLYTQDT----LSSPPRMLIDPNTLRADGTAALSSVHVTEDGNTLAYMISLSGSDWQTIYTMDVVTGKALPDEVHWCKYSSVTWTRDGQGFFYNKYLAPTS-KGKEDGAGTETDAAASQMVYYHRLGTDEKEDVLFWHDPSQPKWMYGVEIADDGETLLLTSNDSCDPVNRLYYFDLRGFDGRDMK-SIGRCVRLVDTLAHRYDYVTNEGRKFYFLTNSGGAGNYKIVRAELPAPGDVLEEDKDALAKSVTFVDVVPEDSKGGVLTRVQPVAGRFLLLSYLRNVTDELELCFLDREPVVEAKGGQGKAEGPGAISRGPARLPVSLPGTGTVDSLCARKETAEFFFKFSSFSDPGTVYRAEIRFPEASADAAGKGSGGGEGQQATRGQEGTKAGGXXXXXXXXXXXXXXXXXXXXXASTQSDKREGKDSEASDLLALVEVPKAVLFRAVIPGLNPEEFTTTQVFYQSKDGTKVPMFLVRGAEGSKMNGGPERARPTFLYGYGGFNISIRPSFSLSRLLFIQHYGGLVAVANIRGGGEYGENWHTGGTKGRKQNVFDDFVAAAEYLIKEGLSTPAQLAINGGSNGGLLVAACINQRPDLFGAAVAQVGVLDMLRFHKFTIGYAWCSDYGNADEDEADFKNLLGYSPIHNVNKEEGVTYPATLITTGDHDDRVVPLHSYKYIAALQHAHGDNPAQTRPLIIRIDTKAGHGAGKPTSKVIEEQSDVMAFIAKNTGATWQ 911
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: UPI0001FE368D (prolyl endopeptidase n=1 Tax=Capsaspora owczarzaki (strain ATCC 30864) TaxID=595528 RepID=UPI0001FE368D)

HSP 1 Score: 644 bits (1661), Expect = 2.080e-216
Identity = 342/735 (46.53%), Postives = 471/735 (64.08%), Query Frame = 1 
Query:  265 LQLPAARRSDHA-DEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQ--TELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKG--EGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGE-KPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            L  P  RR +   D+Y G ++ DPYRW+E  D+ ET+A+V++Q   T + L   T  EP    F  R+ E+F+Y K  +P++ G  +F++   GL PQ+V+Y Q S    +DG  +VLLDPNTLSADGT +      S+DG+ LAYG+S+ GSDW +V++K V TG+ L D + W KF GI+W    RGFFYS +P P     A  + GTE ++   H++ YH +GT   ED+L Y++P + KW+    +++D   ++++I + CDPVNRL+Y DLS   G   +G++   VKL+DNFD+LY YVTN GR F+FR+N +APKY  I++       P  +           T++PE    VL+ A+ V  ++LV+    D    L L  L+ G+        IG++GG S  ++   I ++F  F++PGTI+H  V+     G  +  +VF +T V GID S  +T+Q+ Y SKDGT +PMFIV +K     G +P LLYGYGGF+IS+ PS+S +RL+F++H      +ANIRGGGEYGE WH  G+L  KQN FDDF SAA+YL    Y+  E++AI GGSNGGLLVGAC+NQ P+LFG A+AQVGVMDMLRF +FTIG+AW +D+G S   + QF  L  YSP+HN   +  PYPAV+L TGDHDDRV PLHS K IA LQHT+  RP + +P+LIR++  +GHG GKPT KV+ E +D YAFIA   G  W+
Sbjct:    4 LAYPEVRRDETVVDDYHGTSIADPYRWLEDPDAPETQAFVDAQNTLTRSVLDQCTVREP----FEKRMTEIFDYPKHGTPFQRGSRYFYFYNTGLQPQSVLYYQNS----IDGERQVLLDPNTLSADGTLSFGAYGISEDGELLAYGLSQSGSDWQTVYIKRVATGEALTDKLSWVKFSGISWTHDHRGFFYSRYPEP-----AKNADGTETDINLHHKLYYHVVGTPQEEDKLCYETPDNPKWMIGGEVSEDGAYVLVTISEGCDPVNRLYYADLSGSKGT-FTGSLD-VVKLIDNFDALYSYVTNAGRIFYFRTNLNAPKYTTIAIDFDHPEQPSWK-----------TIIPEHDKDVLEWASCVNENRLVVCSLHDVKTVLRLHDLSTGRLLADFPLDIGTVGGFSGRRQDTAIFYQFNGFLSPGTIFHCPVN-----GETLVPRVFYQTVVNGIDPSALQTEQVFYPSKDGTKIPMFIVSKKSLKRDGNNPTLLYGYGGFDISIKPSYSVSRLIFMQHLDGILAIANIRGGGEYGETWHKAGSLGSKQNCFDDFQSAAQYLIDNKYSRPERIAINGGSNGGLLVGACINQRPDLFGVAIAQVGVMDMLRFHKFTIGHAWTTDYGCSDKAD-QFPWLIKYSPLHNTAKSDKPYPAVMLFTGDHDDRVVPLHSLKLIATLQHTVAHRPNQVQPILIRVETKAGHGAGKPTKKVIEEISDMYAFIAHIMGLTWH 706
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BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: A0A1X9T5X9_HALDH (Prolyl endopeptidase n=3 Tax=Haliotis TaxID=6452 RepID=A0A1X9T5X9_HALDH)

HSP 1 Score: 640 bits (1652), Expect = 4.650e-215
Identity = 339/734 (46.19%), Postives = 471/734 (64.17%), Query Frame = 1 
Query:  259 GLLQLPAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKG--EGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGE-KPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            G    P ARR +  ++Y G  V + YRW+E  DS+ETKA+VE+Q + +  +L  +  P R K  +R+ EV++Y K S P R GEY+++Y   GL  Q+V+Y Q     GL   P V LDPN+LS DGT +L G  FS++ +  AYG+S+ GSDW ++  K   +G+DLPD +E  KF  + W    +G FY+ +     LE  GKS GTE  +    ++ YH+LGTD SED LV + P   +W+    ++D  + L+++I + CDPVNRL+Y DL +   +++ G +   VK+VDNFD+ Y+Y+TN+G  F F++N +A +YK+I++           D A   Q    T+V ED+  VL+ AA V  D+L+L + +D   +L + GL+ G R       +GS+ G S  KKYD I ++FT+F+TPG IY   +++        + K F E KV   D S FET+Q+ + SKDGT +PMFIV RKG    G  P +LYGYGGFNIS+ PSFS +RL+F++H G  + +ANIRGGGEYGE WH  G    KQNVFDDF SAA+YL    +T+ +++ I GGSNGGLLVGAC+NQ P+LFG AVAQVGV+DMLRF +FTIG+AW +D+GSS +T++ FK L  YSP+HN+      YPA+LL TGDHDDRV PLHS K++A++Q+T      +  PL+ RID  SGHG GKPTAKV+ E  D Y+F+ +  G  W+
Sbjct:    2 GKFTYPNARRDELVEDYHGTKVTEYYRWLEDPDSEETKAFVEAQNELSKPFL--DACPIREKLSSRITEVWDYPKYSCPGRHGEYFYYYHNTGLQNQSVLYAQK----GLGADPSVFLDPNSLSEDGTVSLRGTAFSENDQFFAYGLSKSGSDWVTIKFKKAPSGEDLPDTLERVKFSSMAWTHDHKGLFYNRY-----LEQQGKSDGTETTMNVDQKLFYHRLGTDQSEDVLVAEFPEHPRWMIGAEVSDCGRYLVMTIHEGCDPVNRLYYVDLKSMQ-NEIRGVLSY-VKIVDNFDAEYEYITNDGSKFTFKTNLNASRYKLINI-----------DFADPDQSNWQTLVDEDEKSVLEWAACVNKDKLILCYLKDVKNELYVHGLSSGSRMSQLPLEVGSVVGYSGKKKYDEIFYQFTSFLTPGIIYRCDMTTDT-----YTPKTFREIKVKDFDTSQFETEQVFFPSKDGTKIPMFIVHRKGLVHDGSHPVMLYGYGGFNISITPSFSPSRLVFLQHLGGVYAIANIRGGGEYGESWHKAGNCANKQNVFDDFQSAAQYLIENKWTSAKRITINGGSNGGLLVGACINQRPDLFGCAVAQVGVLDMLRFHKFTIGHAWTTDYGSSDSTDD-FKVLIKYSPLHNIREQKDQYPALLLLTGDHDDRVVPLHSLKFLAQIQYTFKDSDSQTNPLMGRIDTKSGHGFGKPTAKVIEELTDIYSFMHQTVGLKWS 705
[Close]
BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: UPI0016523B51 (prolyl endopeptidase n=1 Tax=Aplysia californica TaxID=6500 RepID=UPI0016523B51)

HSP 1 Score: 639 bits (1649), Expect = 4.980e-214
Identity = 345/745 (46.31%), Postives = 478/745 (64.16%), Query Frame = 1 
Query:  229 RSVHKRRLRQGLLQLPAARRSDH-ADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKG--EGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGE-KPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            R +  ++++ G  Q P  RR +  AD Y G  V+DPYRWME  D +ETKA+V++Q   +  ++     P + +   R+ EV++Y K   P + G++++++   GL  Q+V+Y Q S    LD  P V LDPN LS DGT +L G  F+++G  LAYG+S+ GSDW +V  K   +G+DLPDV+E  KF  + W     GFFY+++P  +     GK  GTE       ++ +H+LGT+ + D LV + P   KW+    ++D  + L+++  + CDPVNRLFY DL + +G  +SG +   VK+VDNFD+ YQY+TNEG  F F++N  AP YK+I++ L     P  E+          T+V ED + VL+ A  V  D+LVL + RD   +L ++ LA GK+       +GS+ G S  KK   I ++F +F+TPG IYH  +S     G +   KVF E  V G DAS FET+Q+ + S DGT +PMFIV +KG  + G +P LLYGYGGF+IS+ PSFS +R++F++H G  + LANIRGGGEYGE WH  G+L  KQN F+DF SAA+YL A+GYT+ ++L I GGSNGGLLVGAC+NQ P+LF   +AQVGV+DMLRF +FTIG+AW +D+GSS    EQFK L  YSP+HN+      YPA+LL TGDHDDRV PLHS K+IAELQ  +G+   +  P++IR+D  SGHG GKPTAKV+ E +D Y+FI +  G  W+
Sbjct:   31 RELSHQKVKMGKFQYPTPRRDETVADNYHGQEVKDPYRWMEDPDGEETKAFVDAQNSISRPFINAC--PVKEQIQKRITEVWDYPKYGCPKKHGDHYYYFHNSGLQNQSVMYVQDS----LDAEPRVFLDPNKLSDDGTVSLRGSAFTENGLTLAYGLSKSGSDWITVKFKKAPSGEDLPDVLEQVKFSSMAWTHDHTGFFYNSYPNQE-----GKVDGTETTSNLHQKLYFHRLGTEQTADVLVGEMPDFPKWMIGAEVSDCGRYLLLTPSEGCDPVNRLFYVDLESLEGG-ISGIL-PYVKIVDNFDAEYQYITNEGPVFTFKTNLKAPNYKLINIDLT---KPEPENWK--------TLVEEDASAVLEWATCVNNDRLVLCYLRDVKNELYVYDLASGKQNYQFPLNVGSVAGFSGKKKGTEIFYQFLSFLTPGVIYHCDMS-----GRDYQPKVFREITVQGFDASLFETEQVFFKSTDGTKIPMFIVHKKGLKKDGNNPTLLYGYGGFSISITPSFSPSRVVFLQHLGGVYALANIRGGGEYGETWHKDGSLGNKQNCFNDFQSAAEYLVAQGYTSSKKLVINGGSNGGLLVGACLNQRPDLFAGGIAQVGVLDMLRFHKFTIGHAWITDYGSSD-DPEQFKWLIKYSPLHNIPKGVEQYPALLLLTGDHDDRVVPLHSLKFIAELQSVVGSSDTQTNPVIIRVDTKSGHGFGKPTAKVIEEISDIYSFIYQTIGLEWS 745
[Close]
BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: A0A7S1C904_9STRA (Prolyl endopeptidase n=1 Tax=Bicosoecida sp. CB-2014 TaxID=1486930 RepID=A0A7S1C904_9STRA)

HSP 1 Score: 639 bits (1648), Expect = 2.300e-213
Identity = 351/760 (46.18%), Postives = 467/760 (61.45%), Query Frame = 1 
Query:  274 PAARRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGE---YWFFYLQKGLSPQAVIYKQASDDVGLD-----GTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRP--------------------KSLEAAG-KSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGL--AGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKGEGGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNA-NSPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARP--GEKPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            P A R D      G  + DPYR +E  D+  TKAWV++Q   TD YL    +  +GK  AR +  ++Y+K  SP+R G     ++++   GL  Q V+Y+   D +  D      +   LLD N     GT ALS   FS+DGK L YG+S+ GSDW +++V+DV TG++LPD V W KF GI+W    +GFFY  +P P                    K  E AG K AGTEVE   G ++ YH+LGT +SED +V++ P D+ W   T +TDD   L+IS+ + CDPVNRLFY  L++     V G   K VKL+DNFD+ Y+Y+ N GR F+F++N DAP+Y++IS  LP AG+  E+D  ALA  P T  V +    VL  A A A D LVL +  D    + L  L  A   R+ VP+P  G+I  +S  ++     FKFTNF++PGT++     + +  G    L  + +T+V   D   FET Q   +SKDGT VP F+V ++G GGP PC+LYGYGGFNIS+ PSFS+ RL ++++ G    +ANIRGGGEYGEEWH  G+L +KQNVFDDF + A+ L  +G TT  QL I GGSNGGLLV AC  Q PEL+GA ++QV V DMLRF +FTIG+AW +D+G++  ++E F+   AYSP+HNV A    P PA+L+TT DHDDRV PLHS+K +A LQ   G  P    +PL+ RI+ N+GHG GKPT+KVL E AD YAF A  TGA W+
Sbjct:   17 PDAPRDDTTFTLHGREIADPYRPLEDPDAPATKAWVKAQNVITDEYLGRFAD--KGKIRARFDVTYDYEKLGSPFRRGHDDGAFYYFRNSGLQNQNVLYRAGGDPLAADFESMRDSERALLDLNAEFPGGTTALSTFSFSEDGKLLGYGLSKDGSDWSTLYVRDVETGENLPDKVPWTKFTGISWTHDGKGFFYCRYPAPPGVDIDAGDAEESKGGGDESKGEEGAGAKKAGTEVEANKGQQVCYHRLGTAASEDVVVFEWPEDKDWRFGTEVTDDGAFLLISVYNGCDPVNRLFYAPLTDVAEGQVHG---KIVKLIDNFDAQYEYLANTGRLFYFKTNKDAPRYRIISTTLPEAGAAAEDDADALAAWPITEFVAQTDD-VLSYAVAAAEDFLVLCYLHDVCDHVYLMRLSDAAAGRREVPLPAPGTIASLSARRRDHFCFFKFTNFLSPGTVFKLDFGANDADGQPGVLSRWYKTEVREFDEDLFETTQRFTTSKDGTRVPYFVVAKRGGGGPRPCILYGYGGFNISIQPSFSSLRLAWLQNLGGALVVANIRGGGEYGEEWHKAGSLRQKQNVFDDFAAVAETLVKDGVTTPAQLCIQGGSNGGLLVLACALQRPELYGAGISQVPVTDMLRFHKFTIGHAWCTDYGNADESKEDFEAQMAYSPLHNVKAPTDTPLPALLITTADHDDRVVPLHSFKMLATLQAVAGKAPVQASRPLIARIEVNAGHGAGKPTSKVLDEYADIYAFAALSTGATWS 770
[Close]
BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: A0A6F9DQ84_9ASCI (Prolyl endopeptidase n=1 Tax=Phallusia mammillata TaxID=59560 RepID=A0A6F9DQ84_9ASCI)

HSP 1 Score: 636 bits (1641), Expect = 2.380e-213
Identity = 347/734 (47.28%), Postives = 466/734 (63.49%), Query Frame = 1 
Query:  274 PAARRSDHA-DEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKR-KPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKGE--GGPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNAN---SPPYPAVLLTTGDHDDRVCPLHSYKYIAELQHTIGARPGEK-PLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAWN 2451
            P AR+ +   D++ G  V D Y WME  DS+ETK +VE Q K T  YLQ    P R  F  R+ E++NY K S P + G  +FF+L  GL  Q+V+YKQ +    L+ TP   LDPNTLS DGT +L G  FS++GK  AYG+S  GSDW ++  K+V   +DLPDV+E  KF  ++W    +G FY+ +     LE  GK+ GTE       ++ YH+LGT  SED L  + P +  W++   +TDD    +++I + CDPVN+L+Y DL      D        VKLVDNFD+ Y Y+TNEG  F F++N DAP+YK+I++ +     P +++   L        + E++  VL+ A  V GD L++++ RD    LE+  L  G   K +P+  +G++ G S  KK+  I F F +F+TPG IY     SG+K        +F + +V G D S FET+Q+ YSS DGT +PMFI  +KG    G  P LLYGYGGFNIS+ PS+S +R++F+++ G    +ANIRGGGEYGE WH  G+L  KQN FDDF SAAKYL  + YT+ +++AI GGSNGGLLV AC+NQ P+LFG AVAQVGVMDML+F ++TIG+AW++DFG +   +EQF+ L  YSP+HNV      +  YP++LL TGDHDDRV P HS KYIA++Q  IGAR  +K PLLIR+D  SGHG GKPTAKV+ E AD Y FIAK+  A W+
Sbjct:    6 PKARKDNKCIDDFHGTKVCDHYTWMEDPDSEETKGFVEEQNKITMPYLQNC--PARNPFCERMTELYNYPKYSCPKKQGSNYFFFLNTGLQNQSVMYKQDT----LESTPTTFLDPNTLSEDGTVSLRGYSFSENGKFFAYGLSSSGSDWVTIKFKNVENNQDLPDVLERVKFSCMSWTHDHKGLFYNCY-----LEQEGKTDGTETTSNVNQKLFYHRLGTKQSEDVLFAEFPENPNWMSGITITDDGDYALLAISEGCDPVNKLWYIDLRTLP--DGISQKPDWVKLVDNFDAEYDYITNEGVVFTFKTNLDAPRYKLINIDI---SIPHKDNWKEL--------LGENEKDVLEWATCVNGDTLIVSYLRDVKNVLEVRHLGNGSLIKNLPLD-VGTVVGFSGKKKHSEIFFMFMSFLTPGIIYRYDFESGDK-----KPSIFRKIEVKGFDGSLFETEQVFYSSNDGTKIPMFITHKKGIELDGSHPTLLYGYGGFNISITPSYSVSRVIFMQNLGGIVAIANIRGGGEYGETWHKSGSLKNKQNCFDDFQSAAKYLTDQKYTSPQKIAINGGSNGGLLVAACINQKPQLFGCAVAQVGVMDMLKFHKYTIGHAWKTDFGCADEDKEQFECLFKYSPIHNVQVPRGANVQYPSLLLMTGDHDDRVVPHHSLKYIAQVQDIIGARKEQKNPLLIRVDTKSGHGAGKPTAKVIEEVADMYGFIAKNLEADWS 709
[Close]
BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Match: M1CTG2_SOLTU (Prolyl endopeptidase n=5 Tax=Solanum TaxID=4107 RepID=M1CTG2_SOLTU)

HSP 1 Score: 625 bits (1612), Expect = 1.060e-208
Identity = 353/750 (47.07%), Postives = 466/750 (62.13%), Query Frame = 1 
Query:  265 LQLPAARRSDHA-DEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEPGRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDVGLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVHVKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAGTEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLIISIGDSCDPVNRLFYRDLSNF-DGHDVSGTMGKT-----VKLVDNFDSLYQYVTNEGRTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTGVLKDAAAVAGDQLVLTFERDAFIQLELFGL-AGGKRKPVPVPGIGSIGGVSTDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEV-SLKVFLETKVPGIDASDFETKQIRYSSKDGTVVPMFIVGRKGEG--GPSPCLLYGYGGFNISLNPSFSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSAAKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDMLRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNA---NSP----PYPAVLLTTGDHDDRVCPLHSYKYIAELQH----TIGARPGEKPLLIRIDRNSGHGGGKPTAKVLAEAADTYAFIAKHTGAAW 2448
            L  P ARR +   D + G  + +PYRW+E  DS+ETK +VE Q   TD+ L+T  E  R K    + E++++ K  +P+R G+ +FF+   GL PQ V+Y Q S    LDG PEVLLDPNTLS DGT ALS    S+D   LAYGIS  GSDW ++ +  VV     PDV+ W KF   +W   ++GFFYS +P PK  E+    AGTE      H + YH+LGTD S+D L ++ P + K   S  +T+D K +++   ++CDPVN+++Y DLS   DG  V G  G++     +KLVDNF + Y+YV N+G  F FR+N DAPKYK++ + L    S              + ++ E++  VL+ A AV  +QLV+++  D    L+L  L AG     +P+  IGS+ G+S  +K D I   FTNF+ PG IY   +        EV +LKVF ET VPG D +DF+  Q+   SKDG  +PMFIV  K     G  PCLLYGYGGFNIS+ P FS  R++  KH G  FC+ANIRGGGEYGE+WH  G+L +KQN FDDF SAA+YL   GYT  ++L I GGSNGGLLVGAC+NQ P+LFG A+A VGVMDMLRF +FTIG+AW SD+G S+  EE+F+ L  YSP+HNV      SP     YP  +L T DHDDRV PLHS K +A +Q+    ++   P   P++ RI+  +GHG G+PT KV+ EAAD YAF+AK  GA+W
Sbjct:   11 LPYPIARRDESVRDNFHGVNIPNPYRWLEDPDSEETKEFVEKQVNLTDSVLKT-CET-REKLRENIMELYDFPKYEAPFRAGDKYFFFHNTGLQPQKVLYVQDS----LDGEPEVLLDPNTLSEDGTVALSICSISEDAMFLAYGISSSGSDWVTIKIMQVVDKSVEPDVLSWVKFSDASWTHDSKGFFYSRYPAPKDGESL--DAGTETHSNLYHEVYYHRLGTDQSDDILCWKDPENPKCTRSASVTEDGKYVLLYTYENCDPVNQVYYCDLSALPDG--VEGCKGRSELLPFIKLVDNFVASYEYVANDGTAFTFRTNKDAPKYKLVRVDLKEPYS-------------WSDIIQENEKDVLESAVAVNNNQLVVSYLSDVKNVLQLRDLKAGALLHHLPID-IGSVSGISARRKDDTIFIGFTNFLIPGIIYECNLKE------EVPNLKVFRETVVPGFDHTDFQVNQVFVPSKDGVKIPMFIVAGKDISLDGSHPCLLYGYGGFNISITPYFSVGRVVIAKHLGVVFCIANIRGGGEYGEDWHKAGSLSKKQNCFDDFISAAEYLVEAGYTRPKKLCIEGGSNGGLLVGACINQRPDLFGCALAHVGVMDMLRFHKFTIGHAWTSDYGCSEK-EEEFQWLIKYSPLHNVRRPWEQSPNQESQYPPTMLLTADHDDRVVPLHSLKLLATMQYVLCTSLEKSPQTNPIIGRIECKAGHGAGRPTQKVIDEAADRYAFMAKVMGASW 729
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig11.214.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LI02_ECTSI0.000e+087.77Prolyl endopeptidase n=1 Tax=Ectocarpus siliculosu... [more]
A0A835YIC5_9STRA1.450e-30457.77Prolyl endopeptidase n=1 Tax=Tribonema minus TaxID... [more]
A0A7S3XS46_HETAK4.070e-25651.17Prolyl endopeptidase n=1 Tax=Heterosigma akashiwo ... [more]
W7TH20_9STRA1.130e-22945.74Prolyl oligopeptidase n=2 Tax=Monodopsidaceae TaxI... [more]
UPI0001FE368D2.080e-21646.53prolyl endopeptidase n=1 Tax=Capsaspora owczarzaki... [more]
A0A1X9T5X9_HALDH4.650e-21546.19Prolyl endopeptidase n=3 Tax=Haliotis TaxID=6452 R... [more]
UPI0016523B514.980e-21446.31prolyl endopeptidase n=1 Tax=Aplysia californica T... [more]
A0A7S1C904_9STRA2.300e-21346.18Prolyl endopeptidase n=1 Tax=Bicosoecida sp. CB-20... [more]
A0A6F9DQ84_9ASCI2.380e-21347.28Prolyl endopeptidase n=1 Tax=Phallusia mammillata ... [more]
M1CTG2_SOLTU1.060e-20847.07Prolyl endopeptidase n=5 Tax=Solanum TaxID=4107 Re... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig11contigP-littoralis_Contig11:1061942..1096185 -
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.D8LI02
Preferred namePREP
PFAMsPeptidase_S9,Peptidase_S9_N
Model size3138
Max annot lvl2759|Eukaryota
KEGG koko:K01322
KEGG Pathwayko04614,map04614
Hectar predicted targeting categorymitochondrion
GOsGO:0003674,GO:0003824,GO:0004175,GO:0004252,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005829,GO:0006508,GO:0006807,GO:0008150,GO:0008152,GO:0008233,GO:0008236,GO:0009966,GO:0010646,GO:0016787,GO:0016788,GO:0017171,GO:0019538,GO:0023051,GO:0033218,GO:0042277,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044238,GO:0044424,GO:0044444,GO:0044464,GO:0048583,GO:0050789,GO:0050794,GO:0052689,GO:0065007,GO:0070011,GO:0070012,GO:0071704,GO:0140096,GO:1901564
Exons20
Evalue0.0
EggNOG OGsCOG1505@1|root,KOG2237@2759|Eukaryota
Ec32 ortholog descriptionPeptidase S9, prolyl oligopeptidase, catalytic domain
Ec32 orthologEc-18_001210.1
EC3.4.21.26
Descriptionserine-type exopeptidase activity
Cds size2325
COG categoryE
BRITEko00000,ko00001,ko01000,ko01002
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789431.598418-UTR-P-littoralis_Contig11:1061941..10626221680789431.598418-UTR-P-littoralis_Contig11:1061941..1062622Pylaiella littoralis U1_48UTRP-littoralis_Contig11 1061942..1062622 -
1680789431.826325-UTR-P-littoralis_Contig11:1096053..10961851680789431.826325-UTR-P-littoralis_Contig11:1096053..1096185Pylaiella littoralis U1_48UTRP-littoralis_Contig11 1096054..1096185 -


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

Feature NameUnique NameSpeciesTypePosition
1680789431.6126485-CDS-P-littoralis_Contig11:1062622..10626911680789431.6126485-CDS-P-littoralis_Contig11:1062622..1062691Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1062623..1062691 -
1680789431.6217265-CDS-P-littoralis_Contig11:1064208..10643571680789431.6217265-CDS-P-littoralis_Contig11:1064208..1064357Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1064209..1064357 -
1680789431.6325154-CDS-P-littoralis_Contig11:1064836..10648911680789431.6325154-CDS-P-littoralis_Contig11:1064836..1064891Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1064837..1064891 -
1680789431.6414468-CDS-P-littoralis_Contig11:1066972..10670921680789431.6414468-CDS-P-littoralis_Contig11:1066972..1067092Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1066973..1067092 -
1680789431.6521752-CDS-P-littoralis_Contig11:1068899..10689561680789431.6521752-CDS-P-littoralis_Contig11:1068899..1068956Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1068900..1068956 -
1680789431.6632137-CDS-P-littoralis_Contig11:1070638..10707981680789431.6632137-CDS-P-littoralis_Contig11:1070638..1070798Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1070639..1070798 -
1680789431.6744528-CDS-P-littoralis_Contig11:1072827..10730181680789431.6744528-CDS-P-littoralis_Contig11:1072827..1073018Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1072828..1073018 -
1680789431.6833212-CDS-P-littoralis_Contig11:1074049..10742081680789431.6833212-CDS-P-littoralis_Contig11:1074049..1074208Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1074050..1074208 -
1680789431.6919873-CDS-P-littoralis_Contig11:1074985..10751801680789431.6919873-CDS-P-littoralis_Contig11:1074985..1075180Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1074986..1075180 -
1680789431.7086062-CDS-P-littoralis_Contig11:1076477..10765521680789431.7086062-CDS-P-littoralis_Contig11:1076477..1076552Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1076478..1076552 -
1680789431.7186131-CDS-P-littoralis_Contig11:1077849..10780121680789431.7186131-CDS-P-littoralis_Contig11:1077849..1078012Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1077850..1078012 -
1680789431.7289433-CDS-P-littoralis_Contig11:1083550..10836601680789431.7289433-CDS-P-littoralis_Contig11:1083550..1083660Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1083551..1083660 -
1680789431.737091-CDS-P-littoralis_Contig11:1086040..10861331680789431.737091-CDS-P-littoralis_Contig11:1086040..1086133Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1086041..1086133 -
1680789431.7502217-CDS-P-littoralis_Contig11:1087012..10871541680789431.7502217-CDS-P-littoralis_Contig11:1087012..1087154Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1087013..1087154 -
1680789431.7626855-CDS-P-littoralis_Contig11:1087565..10877051680789431.7626855-CDS-P-littoralis_Contig11:1087565..1087705Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1087566..1087705 -
1680789431.7727532-CDS-P-littoralis_Contig11:1088372..10884861680789431.7727532-CDS-P-littoralis_Contig11:1088372..1088486Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1088373..1088486 -
1680789431.782681-CDS-P-littoralis_Contig11:1088995..10890641680789431.782681-CDS-P-littoralis_Contig11:1088995..1089064Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1088996..1089064 -
1680789431.7934237-CDS-P-littoralis_Contig11:1089506..10895531680789431.7934237-CDS-P-littoralis_Contig11:1089506..1089553Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1089507..1089553 -
1680789431.805173-CDS-P-littoralis_Contig11:1089956..10901161680789431.805173-CDS-P-littoralis_Contig11:1089956..1090116Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1089957..1090116 -
1680789431.815599-CDS-P-littoralis_Contig11:1095996..10960531680789431.815599-CDS-P-littoralis_Contig11:1095996..1096053Pylaiella littoralis U1_48CDSP-littoralis_Contig11 1095997..1096053 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig11.214.3prot_P-littoralis_Contig11.214.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig11 1062623..1096053 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig11.214.3

>prot_P-littoralis_Contig11.214.3 ID=prot_P-littoralis_Contig11.214.3|Name=mRNA_P-littoralis_Contig11.214.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=775bp
MAYMSSKRSSSNRTALIAAAGSTAVLGGFLLARSVHKRRLRQGLLQLPAA
RRSDHADEYFGHTVEDPYRWMEQEDSDETKAWVESQTKHTDAYLQTELEP
GRGKFLARLEEVFNYDKQSSPWRVGEYWFFYLQKGLSPQAVIYKQASDDV
GLDGTPEVLLDPNTLSADGTCALSGVDFSKDGKKLAYGISEKGSDWFSVH
VKDVVTGKDLPDVVEWCKFGGITWEEGARGFFYSAFPRPKSLEAAGKSAG
TEVEVATGHRIMYHKLGTDSSEDQLVYQSPLDEKWLASTVMTDDWKTLII
SIGDSCDPVNRLFYRDLSNFDGHDVSGTMGKTVKLVDNFDSLYQYVTNEG
RTFWFRSNTDAPKYKVISMQLPPAGSPMEEDEAALAQIPKTTVVPEDKTG
VLKDAAAVAGDQLVLTFERDAFIQLELFGLAGGKRKPVPVPGIGSIGGVS
TDKKYDHIMFKFTNFVTPGTIYHGTVSSGEKGGAEVSLKVFLETKVPGID
ASDFETKQIRYSSKDGTVVPMFIVGRKGEGGPSPCLLYGYGGFNISLNPS
FSAARLLFIKHFGARFCLANIRGGGEYGEEWHSGGTLDRKQNVFDDFTSA
AKYLAAEGYTTKEQLAIMGGSNGGLLVGACVNQHPELFGAAVAQVGVMDM
LRFDEFTIGYAWRSDFGSSKATEEQFKTLRAYSPVHNVNANSPPYPAVLL
TTGDHDDRVCPLHSYKYIAELQHTIGARPGEKPLLIRIDRNSGHGGGKPT
AKVLAEAADTYAFIAKHTGAAWNP*
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mRNA from alignment at P-littoralis_Contig11:1061942..1096185-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig11.214.3 ID=mRNA_P-littoralis_Contig11.214.3|Name=mRNA_P-littoralis_Contig11.214.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=34244bp|location=Sequence derived from alignment at P-littoralis_Contig11:1061942..1096185- (Pylaiella littoralis U1_48)
CCCAGCGCCGCACTTACCCGTCTTTTACACACCTGCCGAGAGGGTGTGGC
AGCGACGTTCACGATACGCTTTCGACAGGGAACAGTTTCGGTTGCCGCGT
TCCTGGCGAGGCAACCCGCCCAGAAGCAGCAGATGGCGTACATGTCGAGT
AAGCGGAGCAGCAGCAACCGAACGGCCCTGATCGCGGCGGTACGTTTTCA
CGTTTTCTCTTTCTTTGCATGCACTGCTGTACAAGTTCTCTTGTGTCCTT
TGTGCTCCTTTCTTTCTCTCTCGCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTGTCTCTCTCTCTCTCTCGCGTTTATAGACCTAGATTGCCCAACTG
CATTGCCGCCAGCATCGATTCTTTACTCCCTTCTCTTTTACTCCGGGTGT
GCTTGAGAAGGGCCTTGTTCGTCTTCTCTCAAAAACTCCTTGTATGGCAT
TCCGGCAACAGCAACATTCAATATGCTCCTGTGATCTCTAAGATATCACA
ACGCGGTGGAATGTTGCTGTAAAAATCATGGTACGAAGCGCACCGTATCA
AAACTTCGCACAGCAGTCTGACTACCGTATATGACACAAGATAACACACC
CCGTGTTAAGCTTTTTGCATTCCGTATAGCTCCACGACCAGGAGGGTGCC
ACTGCCGAAAAGGGTGGTTTTGGAAAGATCGCGTCGAGAGCTTTCGTATG
ACGGGCTGTTTGATGTTCGCACCCTCCTGGTTGTGGAGTAATACGGAATG
CAAAAAACCTAACACGGGGTGTGTTATCTTGTGTCATATACGGTAGCAAG
TATTCTGTCTTGATTCCCTACACCTTTCCTCCTGCGGTGCTTGCCTTGTT
GATTTTTAATGCGAGTCGTGTTCAGTAATGTGAATCAGGTATTTTGTATT
TTGGCATTAAAGATACTTGTACAAGTACGACATCGTATACTTCATATACA
AATACCACCGCCGTATTATATTAACTTCATCATGTATCGAACGTCGGACT
GCCGCCGTGGAACATTTCAGAACAACCTCCCAACCGAGGGAAACGAGGGA
GCCCCTGTGTGCAGAACGTATGATACAACATCTGTAAGCGCATTTCTGCA
GTACATCTGACCCTCGAACAACTTTTCGACCAAGACTCCACGTAAATTTT
ACACCAATCCCGACCCAACCCGGACCCTGGGCCGACCCGGACCCGGCAAG
TGCCGGAGCGCCGCTCCGCGGCGCGTTGAGTTGGCGTTTTTGGTGAAACG
CACGCGGCGTTATGCTGACCAATCAGAATAGTGTACTACAGATATACGCT
TGCAGACACGTTCTGCAAATAGGGGCTCTCCCCAAACGAGAACCAGCCGC
AAGCACAAAGTCAGTGTCTCGCTCATAGGTTGGTTTCCTCCGTCTGCACA
CTGGTCATGAGATTTTATATTACAGCAGTTTGGGTGTGAATCTCGGACTT
GGACAAAACAGGCATCATAGGATACAGGTAGTGCCGGTAGTACAGCAGTA
GTATACTCAAAACTGAAAAATACTCAAAACTGAAAAATAGTAAAGAGACT
GGATGAATAATCCCTCCACGTCTTTCCAGCGGTCACCTATGCGGGTGTTA
CACCGTACGACCCCCGTTGTACGGTGTGGGTGTGAATACGATCAGAACGT
ATCATATCATGGACAGCGGCAGAGCTCATATCTAAAAATTATTTACCTCA
AGGGAAACGTACGGTATCCCACGCACAAGAGCTCTGCCACTGCTGCTGCC
TCTGCCGATGCAGTGTTTCCGAACACGTACTGCTTGCACAGGTCGCGGGG
TTCCTAAGGTGGCGGCATTTGAGAGGCCGATTTTACGTAATCGCTCATAA
CTTCATCAATTTTTGATATTTTTTATTTGGGCAATGGCCAAAAACGGATG
CTCCCGGTCCTATTACGGCCATTACCGGACGTACCAAAATACAAAGCGAG
GAAAGACCTAACTTGGCCTCATGTGATTGGCCAGCACCAACTTTCACCCG
TTCCGGGCCAGAAACGACGGGGTGCACCCGATCCCAGCTACTTTGGTTAG
GTTACGCCCGTTTTTGGCCACATTATGTTCCCCTCCACCAGGCTAGTCGG
ACAGACCAGCTCCGGACAGAACGACTACTCAAACACCCCGCCCATCTGAC
GTGGGTTTCGACCAGCACCCACCAGACCAGCCGCCAGCCGCGCAACCTTC
ACTGAAAAAAGCTGCGCAATTAAATCACACACACACACTCATACGAGTGT
ATTCACCCACACAACATGGCTTCGTCAAGCGACGGCGACGCTGGTCAGTC
GCACATCCGCACGGGCATGATGTTCGCTGACACGCCGACGTTTTGGAAGT
GAGCAACCCTAGCGACCACATCACTTATGAAACTGCTGTATTGATGCTGT
CGAGCGACGCTGCTTCGGCTTCAAACGGCAAATTATCATGCACTTTTGTC
ATACTCGTTCAACTAAGCGATACAGCAGCAGCACAACAGCAGTAGGAGTA
GACTGCACTGCTGCTGCGGTGCTGTTGCCTAGCGATGTGTAGCTTCAAAG
CTCGTTTGGTTGGATTTCGTTGGCGCTTCAACATACTGCCGCCATCATCG
TGAAGGTTTGCCCCTGCTGGCAAACTGACAAGCGTCGCCGTCGCTTGACG
AAGCCATGTTGTGTGGGTGAATACACTCGTATGTGTGAAATAATTGCGCA
GCTTTTTTCAGTGAAGGTTGCGCGGCTGGCGGCTGGTCTGGTGGGTGCTG
GTCGGAACCCACGTCAGATGGGCGGGGTGTTTGAGTAGTCGTTCTGTCCG
GAGCTAGTCTGTCCGACTAGCCTGGTGGAGGGGAACATAATGTGGCCAAA
AACGGGCGTAACCTAACCAAAGTAGCTGGGATCGGGTGCACCCGGTCGTT
TCTGGCCAGGAACGGGTGAAAGTTGGTGCTGGCCAATCACATGAGGCCAA
GTTAGGTCTTTCCTCGCTTTGTATTTTGGTACGTCCGGTAATGGCCGAAA
TACGACCGGGAGCATCCGTTTTTGGCCATTGCCCTTTTTATTTTTTTAAG
TTGCATATTACTCTCTATAACATTCCCCACAAGATTTGTTCAGGGACCAA
ATCGGTTTGAGATGTTTCTGGAAAATCGTGGTTTTTGTGTAGAATTTTCC
AGGCTTTTTTTTTGGGGAGGGGACAGAAAAATAATCACCATTTTGTCCAC
AATATATTTCAACGATATCTATGTTTATTTGTTTTTAGCTTTATCCGACG
GGGTTTGGCCAAGCAAAGACAACGGTATACTTGGAAAAAACAACAACATA
TTTTTCAGAAATATATGGCCTTTTTTATTGGGAGGGGTCGGAAATGTTCA
AAAATATGGGGGTAATTTCCGCTATTCTCGTGCCATTGACAGCTTCGTTG
CAGCTGGTTTCAACTGCTGTAGTGCTTAGATCGACGGAGAATCGCTGCGA
AAACACGGCCATACGCACAAAAACAATACTCCGAGTATGATATATACATA
CATATTATATACCCGTACATTGCAGATATGATACAATACACTCGGAGTAC
TAGTATCATACACCCTCACAGCAAAATATACCGCCGTAAATAAAAGGCAA
AAGATGAACGCAAACAAGTTCCAATATACTTCGTATACCCCCAACAACCA
TGTACTATACTCCGAATAAAAAACGCCACGAAACCACTGCTGTGTACACT
ACGTAGGCGTGATGAATTCCGACGGAGCCGGCCTTCGGTGCGACTTGAAC
TTTAGCCTCTTCTCTACTGCCTCAGGGCCAGTCAGTTTCTGGTTGTATAC
CTCGTGGTAGTTGGCCACCTTCCTGCAAAACTTTTGGACTATTTCTAGAC
TCAACCGGTCATTCGCCACCCTGAAGCTCTCTGAAACGTTCAGCCGCAAG
CACTGAATGGTGTACTCGCAGTGCTTGCGAATCCAGTGCTTGGATCTACC
CCACACTAGCTCAATGGGATTGGACTGATCAATCCCATTGAGCTAGTGTG
GGGTAGATCCAAGCACTGGATTCGCAAGCACTGCAAGTACACCATTCAGT
GCTTGCGGCTGAACGTTTCAGAGAGCTTCAGGGTGGCGAATGACCGGTTG
AGTCTAGAAATAGTCCAAAAGTTTTGCAGGAAGGTGGCCAACTACCACGA
GGTATACAACCAGAAACTGACTGACCCTGAGGCAGGAGAGAAGAGGCTAA
AGTTCAAGTCGCACCGAAGGCCGGCTCCGTCGGAATTCATCACGCCTACG
TAGTGTACACAGCAGTGGTTTCGTGGCGTTTTTTATTCGGAGTATAGTAC
ATGGTTGTTGGGGGTATACGAAGTATATTGGAACTTGTTTGCGTTCATCT
TGTGCCTTTTATTTACGGCCGTATATTTTGCTGTGAGGGTGTATGATACT
AGTACTCCGAGTGTATTGTATCATATCTGCATTGTACGGATATAATATGT
ATGTGTATATCATACTCGGAGTATTGTTTTTGTGCGTATGGCCGTGTTTT
CGCAGCGATTCTCCGTCGATCTAAGCACTACAGCAGTTGAAACCAGCTGC
AACGAAGCTGTCAATGGCACGAGAATAGCGGAAATTACCCCCATATTTTT
GAACATTTCCGACCCCTCCCAATAAAAAAGGCCATATATTTCTGAAAAAT
ATGTTGTTGTTTTTTCCAAGTATACCGTTGTCTTTGCTTGGCCAAACCCC
GTCGGATAAAGCTAAAAACAAATATACATAGATATCGTTGAAATATATTG
TGGGCAAAATGGTGATTATTTTTCTGTCCCCCCCCCCAAAAAAAGCCTGG
AAAATTCTACACAAAAACCACGATTTTCCAGGAACGTCTCAAACCGATTT
GGTCCCTGAACAAATCTTGTGGTGAATGTTATAGAGAGTAATATGCAACT
TAAAAAAATAAAAAATATCAAAAATTGATGAAGTTATGAGCGATTACGTA
ATATCGGCCTCTCAAATGCCGCCACCTTAGGGACCCCGCGACCTGTGCAA
GCAGTACGTGTTCGGAAACACTGCATCAGCAGAGGCAGCAGCAGTGGCAG
AGCTCTTGTGCGTGGGATACCGTACGTTTCCCTTGAGGTAAATAATTTTG
AGATATGAGCTCTGCCGCTGTCCATGATATGATACGTGCTGATCGTATTC
ACACCCACACCGTACAACGGGGTCGTACGAGTGTAACACCCGCATAGGTG
ATGAGTGGTTTTATTCCATTGTTCCCGATATCGCCAAATTGCCACACCAC
TGCTGCTGCTGCTGCTGCTGCTGCTGCTTCGGGTCTGTCTGGCCGTGAAG
GTATCCGATCATATGTATGATATAACAATATCATATTTGTCTCAACACCA
CAGAAAACAGCAGCAGCAGTGAAATTCGAGGCCCATCAGACGATCGATTC
TCAGCCGACGGCCCCCAAGCATACGGGGATCGGCTTATCCGAGTGCCGCT
CCCTCGAAACCTGAGTGTCGCGCCCTCGAGGAACCACGCGTAAGGGCGAG
TATCCCGTGTCTTTCAAACAGTACCAAAACAGTATGATACTTGCTGTAGG
CCAGGGAGGCCTGATCCTCGAAAATCCGGTGATTCACTACTCCGGAGTAT
GATTTAGTATCGAATGATGGCATACACATGATATGAGCGAAAGAGGATGC
TTCAAGTACACAACAGCAGCAGCAGCAGTAGCGGCAGCACCGGCCCAGCT
ACTCTGTCTGTGTACTGTACCGAGATAGGGATGTGGCTCTACTTGCGTGT
ACTTGCTTTTCGTACGGCAGACGGCACACGTTGACTCTCGACTGCTGGAT
ACAAAACCGTCCTGCTCTACTGCACTGCTGTGCTCTTTTAAAAATTTAAA
CTGGATTTCCGGCAAACAAACCCAGCACTGCTGAATGAGACTATATCATA
CAAGAGTATATATGATCGCAGTTTTTAATACTTCTTCTTCGTTGACTCTG
CACCGATGCAAAGCGGGCCGTCTGTGCCCACTCACGATGTCCCACACGAT
CTACTGCTGTAGGTGTAATATTTTGTGACATGATAGGGAACGATACCGCT
GTCTTTTCGTATGATGCAGGCCGGTAGTACCGCGGTGCTTGGAGGATTCC
TGCTGGCGCGTTCGGTTCACAAGAGGCGCCTCAGGCAAGGCCTGCTGCAG
CTCCCGGCGGCCCGGCGCTCCGACCACGCGGACGAGTACTTCGGCCACAC
CGTCGAGGACCCTTACCGATGGATGGAACGTGAGAGAGCGAGTCTCGTTG
CCTCGTCATCATACGCAGTTGTTGGTGCCATGTGCGGTGTTGTTTGTGTT
TGTGTTTGTGTTAGTGGTGCTAAATAAAGCCGGTGCTTTTGCTGGTTAAT
GGATGTGGTACTAGTATGATTATGTTGCCTGTTGTCGCTGTTGCTGTAAG
ACACGGCACGGACGCGCACCTGTTTGGCTGTCCTTGGTGTTTCTGTCTCT
TCCCCCTCCCCTCCCTCGCTCTCCCCAAAAATGCAGCTGCTTGTATCTCT
GCGGCGATCTTGTTAGATCTGCATTTGATGCGCTTCTTGCATCTGTTGTA
CCTTGATGCACTGACTTTATGATACGTGTGCGTGCTGACTTTATGATGTG
TGTGCGTGCACGCGCTTGCTCTGTTACCGCAGAGGAAGACAGCGACGAGA
CGAAGGCATGGGTCGAATCGCAAACCAAGGCAAGCGCTCTGGAAAAGTAA
AACAAAAAAACGAAGATCCATCATATGTTTCCGTTTGACCTGCTCTGCCA
CTCCATACATTACACATACGTGAGCTTAGGTAATCTTGGTACATGGACAG
GCGGCGTGTTTTTTTCTGTGTTACAGCGAGAACGGAAGAGAAGCAGCAAG
CAGGACGGAGCGGAACCCCTCAAGGAAGACTCGGTCATACGATCGCAGGT
GGATTGCTCGGCGATCCAGAGGTTACACGGCAACGCGAGCCATTCTTGAT
AGCTTTGGTGCTCATTCCAGGCGGCTCCTTTCCGCCGGCTGCGGACTCGG
AATATGGAAGGCAACAGTAAAAAAAAAAAAATTGGCGACAAATTCTTGGA
AATACATATTGTCATGCGTTATTAGGATGTGTGATTTTGATCGGCGGAAA
CACTTTTTTTTTTTTTTGCAGCACACCGATGCGTACCTCCAGACGGAGCT
GGAGCCAGGAAGAGGGAAGTTCCTTGCCAGACTTGAGGAGGTGCGAACAG
TCGTGCGGTTGGGCAACATTAGTGACGGTTGGTGTTGCTCTCGCTCTTTC
TGTTTTTGCTGGTGCTGCTTGCCGCGTGCTCTGTGGTCTTGCTGTTTATG
GGTGGTGGTGGTGGTGTTGGTGTTGGTGTTCCTGCTCTTGCTCTTGCTAT
TTTCGCCGGCACTGTTGCTGGTGCCGTATGCCGTATGTATGCCGTGTGAT
GCTCCTGTTTTCATCGTGGCAATGACGGTGGTGGTGCTCTTGCTCTTGCT
CTTGCTTTCGTATTCTCATTGCTGTGGCACCGTCATTTTACACGGTTGTA
AATCGCGGCCGAAAAAAAAAATATATACGCGTCCGGCGCTTGCTACAACA
CGTCAACCACCGTCCGCCCCTGTCGTGCAGACTCTGTTCTTTCTTGTTCC
TGCGAAGACGGCGACCACAACAACAGCAACAAAAACTCCTGTTGTGAACC
CCCCCCCCCCAACAACACGCCCCCTCTTCTCCTCAACGCCTCCCCGCAGG
TTTTCAACTACGACAAGCAAAGCTCCCCGTGGAGGGTGGGCGAGTACTGG
TTTTTTTATCTTCAGAAGGGCCTGAGCCCCCAGGCGGTCATTTACAAGCA
GGCGAGCGACGATGTTCCCGCTCCTTGTTTTGGTTGCGTATCTGTTTCTT
TTGCTTCTTCATTTTCTCCTTTGCATGTAACTGCCGTATGCTGTGGTGTT
GTGTTGTGCTGTGTTACGTTGCGTTGCGTTGTGCGGTGTTGTGCGCTGCC
GGTTTTTCACTCGTCAGCGTGCTGGCGCGGAATGCTGATTTGCATGTCAA
CGCCGCACGGTGTTGCATGTATAAACTACTCGCTCCCTGCAAGAGCAGAG
GCGGGTTTATCTCGAAGGTTGAAAGGACGGTCGGGTTTGCGATCACGTCC
GGGCAGATGGTTCTTTTGTGAGCGAGTTGTCCTCTATCGCAGCTGTCTGC
CCTCGGTACAGCAGTAGAGAGAGGCGAAAATGAGTTCAGAGAGCAGGTGT
TGGGTTGCTGTTGCTGCTGCAGGAGCCGCGGCGTAGGCGTGGTTCTACTG
GTGTTTCCTAGGCGGGCGTGGACAATACCAACAAGAACAATAACAGAGGA
CAACAACAACAACAATAGTGACACTTGTGCGCCAGCTATCATGTCATTCA
TGTTTTTTTTTTGTTCATTTTGTAAATCGACGTAAACGCCTACGTATCAA
TAGACGAAGTGTTAAATAGACGAACCACGTGCACGATTGTGCTCTGCCCA
CCTACCCCCTGTCTGTTACTGATGTCGAAGGTTGGGCTGGACGGCACGCC
GGAGGTGTTGTTAGACCCGAACACCCTCAGCGCGGATGGAACGTGCGCCC
TGTCCGGGGTAGATTTTTCCAAGGACGGGAAGAAGCTGGCCTACGGTATT
AGCGAGAAGGGTTCCGACTGGTGAGTGTGGAGTTTTAGGCGGGTGGGGTG
GGCCTGGGTGGATGGCTGGTTCCCTCGCAAAGGCTCAGCATGACATAGCA
TCGCACAACATCATCAACAGCAGCAACAACAACAACAACAACAACAACAA
CAACAACAACTACAACAACAACAACAACAACAACAACAACAACTTAAGCT
TAGCATCACGTAGCATTGACATCAACCACAACAACGACGACGACAACGAC
AACGACAATAACCTCAACGAAACATAAGACGACGGCAACGACGACAACAG
CGAGATCGTTTTTTGTTGGGCACTCTTTCGTCTCACTTGTCTGCCTGTCT
CTCTGTCTCTCTGTCTCTGTCTCTCTGTCTCTCTGTCTGTCTGCCTGCCT
CTGTGTCTGACTGCCTGGCTGTATGTGTTAGGTTTTCCGTTCACGTGAAG
GATGTTGTCACCGGAAAGGATCTCCCTGACGTCGTTGAGTGGTGCAAGTT
CGGGGGAATCACGTGGGAAGAGGGGGCCCGTGGATTCTTTTACTCGGCCT
TCCCCCGACCCAAGTCGCTGGAGGTGATGTGATGCCATATGATTGGAATA
CGGCCGATGAGATCCGAAATTTCGTGTGTGCCGTCGTCGTCGTTGTTGTC
GTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGCTGC
TGCTGCTGCTGTTGTTGTTGCTGTTGCATTTGTTGTTGCATTTGTTGTTG
TTTCTATTGTTGCTGTTGCTGTTGATGGTGCTGATAGTTGCAGAGGTGAT
TAAGTCATGGTGTTGGTGTTAGTGGTGGTGATGATGGTGGCAAAGTTGAC
CTTTTGTTTTGCGATCCGCCGAGGCTGGCGTATTTTTCATGCGTCAGTCT
GTCGGCGCGGTCTCTGCTGACGGCAGAAATGCAAATGAGCACGACATAAC
CCCCACGTGGTCTGTAACCCTCTTCTTGCCGTGGAAAAGTATTAGGATAT
TCCGAGCGGGGCCCCGTGTGTCATCTTTTCTATAAATATTTCGTGACACC
TCGTAGACTGTTTTTGTCATGTAATGCCAACACGCGCACCGCCGTTTTTC
GCACTATTCTCCCCCCCCCCCCCCCGCCCTCATCAAAGACGACGGCACCG
GCCCCTCTCTCAGTATACGACCCCACCTTGGCTGGCTGGTATTTCGTTCG
CAAGACCCAGGCTATGATGCCGATTCCCACGGGACATGCCTGATAGACGT
GTACAGCCCCCCCCCCCCCCTTGCCATGCTTCTATCCAACTTTTACGCCG
CCGGTATGGTGACTCTTAACTGGAGCACGGAAGGAAAGGTTTTTCGTCAG
GAAAGGTATGCGTGGCCGATGGTCAAGCAAGTACTGCAAGCAACAATTGA
GCCCGAGCACACGCACCTCCCTCCCCTTTGTCACGGTGTTTTCAACTTTT
AGGCGGCCGGTAAAAGCGCGGGCACCGAGGTGGAAGTGGCCACGGGGCAC
CGCATAATGTACCACAAGCTTGGGACGGACTCATCGGAAGATCAGGTGGG
TGTGAAATGCAAAGAGAGGAAATACTCGTGTAACAGGCTTTTTGAAGGTG
TGGGGAATCAGAGAAACATCTACTTCGAGTACTTCGAAGTACTTGAAAAG
GATGAAAAAAAATCATGAAAAAACAAAACATGGACGGAAACTTTTATATA
TATACTTGTACTTCGAAGTATTTAAATAATTTTTTTTTTTCGAGTGTGAG
GGAACAAGGAAAGTTAAATCAATAAAATATGTTGAAAAACATGGGCGGGT
GGGTGGTATCTTCATACGTGCGAAGTTTTTTTTCCCCGGGTGCTGCATGT
TTTTTGTTGTTGTTGTTGTGTTTGGTACGTTCGCAAGGCCTGTCCGATCA
GTATGATGGCCGTCTAAAAGGTCTTCGATTTTTCAAGAGTTGTTTCGTTG
TCTTTCCGTCAAGGCGCCAGAGAGCGCGTGTCCCCCGACACAACAGGCGA
CCGCCACATACCAGACCACGGGGCCCCCTGGGCGGGATCCCAACCGCACG
CGGCCAGCATCAAACGCACCAATTGGGCGGTGGTTGTGGTCCACGCGTCC
GCGGCGCGATTTTATCGGACGGCGGTGTTGGTTGAGTTGTCAAGAGTAGA
AAGCTGTGACGCCAAAACTGGTTGGCAGAGGGCGAGCGGCATACGTTGCT
ACTTAGACGCTGCTGCAGACCACTCTTGGTAGGCATTTCATTTTTTTTTT
TTGTTTGTGCGCTCTTTGTCGACCGATCGTCTACATAATACGGCAGTTTA
AATACCGCCAGCTTAATTTCGCACCCGCGCGAAGCCCACATCCACCACGC
TTTTGGTTCGGCTATGGTAGGCTGGTCACGCACAACTGGGGTCCCCCCAA
GGGCCCCGAGGTCTGGTTAGTGGCGGTCGCCTGTTGTAGTATGCACCTGT
TGGCGTTAAAACGAGGGTATTCCATCGTACTTCGAAGCAGCGCCTGGTAT
TTTAGTATATTTTCGTGTCAGGTACGACCATGCCTCTTTTTCTTTTCTTT
TTTTGCTTTCGTTGATGGCTTGAAGCCGATGTTCTTGTACACATGGCTGA
AGGGAAACGAGGAGAGACGAGTATAAGAGGCGTTTGTTTTTTGAAACGGT
GCTTGAATAATAGCAGATCGTATACTACGATGACATGCCAGGTATAGTGT
GTATGTTCGATATTGTTTACGTGGATTGGTGATTGTGTACGGTGATAACG
TTTTTTCATTAGTCATAGAAACAGGGAGCACCAGCGATTCTTGACTGCGC
GGCTGCAACATAATCGTGCGTTTGCGTTACCATGATTTAGCGATGGTAGA
TGTGTCTGTTTCAGCTGGATTGAGATGGAAAAAGATAACCTCCAGATGGC
ATGAATGCAAAAAGCGCCCAAATGGAAAAATAAATAAATATATACGAAGT
ATATATATATTACAACCGAATGGCATAAATGCAAAGAGCGCCGAGACGTT
GGTGTGGTGCGACGGTGTTTCCGTGGGGATTACGGTAGGAACTGACGGTG
CTCCGCATCGAATTTTGGAGACAAGCATCAAAGTAGTACACCCCGTCCCC
CTTCATTTTTCTTCGTCTGTACCTCCCCCCCTCCCCCCCCCCAATCCCAT
CAATCACCCCGGCTCTCCCGGTGCCGCTGCCACTCTCATCGGCACTTCCC
AAAGTAGTACGTATACCCCCCCCAAGATATTTATCATGTAAGATATGGCA
TCAACGCCAAGAGCGCCCAGGTGTTGGTGTGGTGTTTGTGATGGTCAAAC
TCCATCAGGAGCACAGTAGGATGTAACGGTGCTCCGTCTCGGAAGGGGTG
GGTGGAGCCGTGGTCAATTCATGGTCAAATGACTTACTCCGTAAATATGT
TTTGAATTTTAGAAATAAAAAAATTTGAAACTCATTAGAATAAAAATTGT
TTAATTTATTAAAACCATTTTTTCTAGATGACCTTATCCTGCTTTAAACA
AGTACCAACGTATTACATCAACAGCCACCCACTCCCCCCCTCCAAGATTT
TTTTTGTGTAACAGATGGCGAAAACGCAGAGAGTGCCCACATCTTGGCAA
GGTGTTGTTGACTCTGTGAGGAGTAGAAGGTGCTGACTATACCAGGAGCA
GGAGGTGTTGGCTCTGTCAGGAGTAGGAACTACCCGTGCTCCGGGTTGAA
AGGGATAATGCACGGCCAGGTTGCTCAACCATCAAATGAAGTATGTAGAC
AAGCACCAAATAAGTAAAGTACTTCGAATTATCAAGTATTGCCCCCCCCC
CCCCTGCTCCCCCACCCCACCCGCTCCCCTTTTTTTTCGTCTGTATGATA
CTTCGTAGTGATATGATGTCTGCTGTACTTCGCTAAGTATGCTTTTCTTC
CCTCGTGAAAAAACAAAACGAGCAGCTCGTCTACCAATCGCCTCTTGACG
AGAAGTGGCTGGCGTCCACGGTCATGACGGACGACTGGAAGACGCTCATC
ATCAGCATCGGAGACAGCTGCGACCCAGTCAACAGGCAAGACAAAAACGA
GACGAGACGGCAGACGCCACTCGTCGAAACCAAAAACAACAACCAACACA
AAAATAGTGAAACCCAGCAAGCAAGCAGAACATGGAATTTTTTTTATCTG
TCATTTTGGGCCAGGTATCATGTGTTCTGGGTGTTTTATTTCATACTTTC
GAAGTATATGGTTCAGTACTCCGGAGTGCCTGGTACAGTTTATGTTTAGC
TTTGGATGGATTACACCCCTTCCGTTGTACCTCGCTCATCGAGTGTACAT
AGAACAACGTTCGTTTTATAAAAAAAATAAAATGCACGTTGTAGCGTTTC
TCACATGAATCTCATCAGCTCACATTTTATATAAATTTAGCGCTTCGGAG
CTCTCATAAACAGGTTATGAGCTCTCACTTTGGTCACGAGCTCCCATTGT
AAGGGCACGAGAGGCAACTTAGCTTGGAATGTATGAAAATCTGGGGATCA
GCCATTCTCGCTGGAAATTGAAAAAGCGTGGGAAACTTTTGCTGTGTTTG
AGGGCAAAAAGTACTGCACAACAAACAACGTTGCTGTGACCATGCGGGGG
GGGGGGGTCACGCAGACGGCACAAACAGGTCGAGAGTGATTTGTCGGGAG
TTTCTGTGAATAAAAGGCAACGACGGAGGAGGGCAAATCTATGGGAGGAG
TCGGTAACGCTAGACGACAAGCAACAGGTGGGAAAATGAGGTCGAAATTA
CTGCTACCGGTGTGTGTTGTTGTTGTTGTTGATTCTCACATTAGCTCACT
ACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGG
AGGAAAAAAATAAAAAAATAAAATATATGGACTATGATGACCCACAGTCA
GATCAGATATGGCACCGTTGGGGTACCATCTGTGGTGGCCAGAATACCAA
ACAAATATAGAAAAAAAATAACAGGCTCGAAAGAAAAACAAAAATTGGAA
ACAGTCCGACAAACAAAAAAAAAATAACCAAGACAAACCTCATCAACCAT
AACCATATACTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCAT
GACAGATCAAGGCAAACGCAAACCAGGGCGATGGCCCAGTAACTATATGA
TCAACAGACGAAAGACAAAAAATAAAATAAAAAAGAAGAAGATACATGGA
GGGCACAAAGACTGAGGGAGTGCATTCGTAGACAAACACAACAAACAGGG
CCAAACAAAGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAGATCGGAAGT
ACCGGAAGTCGGGGGAGGGGGAGGTGATAAAAATAAAATAAAAGGCATGC
AATCAATCGCAAACATGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCT
CTCCTCAGTCGCACTCATCCCTCCTGCTACTGGCACCACCATACCCAGAT
GTTTCTGCCCCACATCTTTGGCAGCAGCTACACCACCACTCCGCCCTACA
GGTTTTCCACTCCGGCCACCCCGTAGCTTGGCATTGGACTGCTTCTTCTT
GTGCTGTGCAACTCCAACCCCACTACCCCGCTGCCCTTGTGCCCCCCCGT
ACTCCTCCTCTCGTTTATCCCCGCCATCCGTTCCCCCTCTTTTAGTCAAG
GCCTGCCCCTCAGCCGCGTCCCTCTCCCTTTTCCGTCGACGTGTCTCTGA
TAGGTCTCCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCT
CGTCGATCCTGTCGTACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCAC
CCCTCCTTTTTGTCGACCACGATGTCGAACGCTTCGAGGTCCTCCTGCAT
TCGCCTCAGCCAGTCAAACTCTTGCCCCCAGATACCTCGCTCCCCCTGCA
ATTCTCCCAAAAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCA
ACGAATCCTGCGAAGCACAGTCGCCGCTTGCGCACGGTGGCCTCAACGCT
CTCGTTGCAACCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGTCGGT
CTGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAGGAGGAAGAAGTGG
TGGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCAGATTCCATGTGAC
ACACCCGTAGAGTAGGGTCTCAACGACTTCAGCTTGGAGGAGTCGTACTT
TTAGTCGAAGAGGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTGCGC
CGGAAGCAGGCGTGCCCTCGCTGCACTCGGTGGTTAATCTCGCCCTCAAT
GCTACCGTCCTCACAAATCTTACCCCCGAGATAAACAAAGTATTTCTTCT
GCTTGAAGACCATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCCATC
CCTTTCGCGAGCATACACATGGTCTACGTCTTGGGTTCTGACACCAACAG
CCCAAACCGCCCGGCCACACGTACGATGATCGACATCATCTTCTCAAGGC
TCCCAGGTGATTGAGATACAATACAGGCGTCGTCGGCGTAGAGCATACTC
CAGATGGACTTCACTGCCTCCACCAGTCGGGCGTTCCTCCCCTTCCCCTT
CGTCACCTTCCTCTTGACCTTGGCCATGTCCGCCATCACCTCCGCGTCCT
TGCTGATCTCGGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGGTTG
AACAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTCCCTGCCCCACATC
AAACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCATTC
CGTCGTGGAATTGGCGAATGACTGCAAGCATCTTGGGGGGCACTCCGAGC
CGCTTGAGCACCGACCACAGTAGTTCCCGGTCTACGGAGTCGTAGGCTTT
CGTGAGGTCGATGAAGCAGGCGTACAGTGGGGTTGACTTCTTCCGTGCAA
GCTCGTGTAGGCGTCGAACCACGAACATCATGTCAACCGTTGAGCGGTTT
GGTCGGAAACCGCTCTGTTCCTCCGGCAGGATGCCCTCTCTTTCGCAGTA
ATCGCTTAGCCGGGTGGCGACCAGCTTCAAGAGTACCTTGCCAGCGTGGG
CCACAAGGGAGATGCCTCGGTAATTGCCGCATTCCGTCTTGTCCTTCTTC
TTGTGCAGCACCTTGATCGAAGCATCTTTCCACTGCTGTGGCACCCTTCC
CGATTGCCAGATGTTGATGATGATACTGTAGAACTGCCGTAGGAGGGCTT
GGTCTCCGCCAAGGAAAAGCTTGATAAGCTCCGCCGGTAGTTCGTCCGGG
CCCACAGCTTTCCTGTTGGCCATTCCCCGGATTGCTTCCTCAACCTCAAA
CAGCGAAGGGACGTCATCAAGCGGTACGCACTGGGGCCAGGGCTCGATCT
TGTCCACCACTCTCGGATCCAGGGTCGGTGATTTGGTGTTGAGCAGAGCA
TGGAACCACCTGGCCCACCGCTCGAGGATAAGTGCGGGGTCCCGAAGAAG
ATTTCCATCCTCGTCCTTGATGTTCTGTGAGGTGAAGGCCCTCTTCCCCT
CCACATCCAATCCCTTCATGTTGTGCTTGTAAAAACCGGCCTGGTCCCCT
TCGCGGCTTTTCTTCTCGAGCTGACTCACAAATCCATCGAAGAACTCATT
CACAGCACTGGCTCTAAGTCGATCAAGGTGCTTCCAGGCCGCCTTGAGGT
TGCTCCTGAGGGTGGAATCTTTCGGCGCACTGCGGAGCTGCTTCCGGGCG
TCCTCCCTTTTAAGCCATGCCACGTGGATCTCCTGCTGCACTTCCTCACT
GGCGCACCAGCCACTTGGCAATCTCTTGCCCATGGCCCGGGGGGCAACGT
CAGCGGCGGTGGACATCACAGCAGTCGTCAAGGCCGACGCGAGCTCATCC
AGATTCGCACCTTCCATGATGGGGGAAATTCTGTCTCTAAAGTTTTCCCG
AAGTTGGGGGTCCGCCATCAACCGTTGTAGATCGATGCTAGCGGAGGTAC
TGCTGCTGCTACCCCTCACACGTCGATTCGGTGCCACTCGGCCAAGCAAG
CGGATGTTGGCAAGGACGAGGTTGTGGTCGGAATCCTTACGATCGATACG
CCGTACGGAGACGTTGCGCACCAACCGAAGGTCTGCCTGGCGGGTCAGGA
TGTAATCGAGTCGATATTCTCCCTTCCCGCGGTTGGAGCTTTTAAAAGAG
TGTGATATCCCGCGTTTGGGTGTGCAGAAAAAGGTGTCCAGGATGGAAAG
CCTACAGCTTGCTGCAAATTCCACCAGTCTCCGCCCGTTATCGTTCCGCT
TGTCACGCCCGTACATGCCCATCACCTTATCAGGGGTACTCTCATCCTCT
CTTCTACCAGTTCGAGCGTTCGCATCCATCATAACCACGACGTGTTCCCT
GCTAGGTACTGCATTGACTGTCTCTCTCACTGATAGCCAGAATCCATCTT
TCTCACTAGTCCCATCCGTCTCGGTGGGTGCATAGGCAACCACAAAGGAT
ACACCGTTCGAGCCAGTGAGTTGCAGGCGTACCTTCATCAGTCGTGCGCT
AATGCACTCCACGGTCATACCTCCTTTGTCCATCCTATCCACGATGGACT
GCTTGATAGCCAGCCCGACCCCGTGCACTCCTTTCTTCTCGGTGGTCCCG
GCAAGTGCTCCACTCCAGATCACAACATATCCCGCGTGTGTGAAGGCACC
ATCATTAGCACGCCGGGTTTCCTGGAGGACAACCACATCGCAATCGGAGC
TACCACAGAGCTGTGCACGGTGTTGGAGTTGTGGCCGATACCGTTGGCGC
CCTTGTAAGCGAGGGTGCGGACGTTGAAGAAGCCCACTACCAGTTCGCCT
GCACGTGCCTTTGTTCTCATCTCTGCCCGTCTCTTTCGGTCAGCCTTGCG
CAAAGGTCGGTTTCGCTTCCGTTTCTTTCGAGCTGCAATTTTCCTCCGTT
CCATCCATCTTTGCCAAGCTCGGTACTCGTCTACGTTCAGGCGGGCTGGG
GACGACACTCCCGGCCAGCGTCGACGTGAAGGTCGACGAGGGTGCTTACT
AACGTGGTGCCTCCTAGTCTCTCTGCTCCTCAGGCTACGAGTTCCACGAT
TTCCGCGGTGATGTGTCGACACAGCTGCCGCAGACAGTTTGACTGTCGCG
GAGACCAGACCATAGGTGGTCCGGACTGCTGTAGTGCCATTCGTCACCTC
CATCACTTACCCAGCCTCGGCGTGCGCCGAGTAGGGTCTGACCACACCAC
TCCCACACTACCCTGTCTACTTTGGTAGAGTCCGGTGTGTCCACGAGGGA
CCCACTAGGTTGGGTGACCCCGGCCGGGGAGCAGCCGAGGGATATGTGTA
TGTGTGTGTGAGAGTGTTTTTATTGCGAACAAGACGGAGGCAACAGACGC
TACACACAACAGCGGCCAACCGCACACAACATTCCAGCAGCAGCAGCAAC
TCGAAAAAACAAAGACAAACACGCAATAGTCAACCAACCATGCTACCTAC
ACACATCACATCAAACCAAACGTACATGCACGCGATTACACACACACACA
CACGCACACGCACACGCACACAGGCTCTTCTACCGCGATCTGTCAAACTT
CGACGGTCACGACGTCTCCGGCACGATGGGAAAGACAGTCAAGCTGGTGG
ACAACTTCGACTCCTTGTACCAGTACGTCACAAACGAGGGCAGGACTTTC
TGGTTCCGGAGCAACACGGACGCTCCCAAGTATAAGGTGCCCTCTACGGT
ACCGGAGGACCATTGTAGCACCTCATTTTGTGGAGCGGAGTAGTCGGAGG
GGGGGGGGGGTTGAACCGTACGTCATGTGGTAGCGGTCATGTGTTTCTTG
CCGATGAGCGGTGAGTTATTCATCCATCCAACCAATTTGACCACGCACGT
CCTGCCCTGTGAGACGGGAGCCGTTTTCCTTCCCAGGTAGTCAAAGTAAC
CCTGACGCTTTCCGTAACCCTAACCCTGACTTGTTTGAAGAGAGCAGGAG
GGGGGGGGGGGTCCCGAAGTCATTTTTCTACGAAAAAAAAGCCCTACTGT
AGCATGCACGCCGAAATTGTTGCTCAACGTATGATATGGTAGTCATGGTA
TGCATGTCGGAATCGCTTTTTGTTTGTAGGCCATAGACCTCGTATCATAG
GTATCCCCGAAAGCCTGTACGATGGAGCACGCCGTGTAATGTCTTCGGGG
GCAGGTTTGCGTTCGGATCCATTGCCGAGCTTCTCTTGAACGGGCTTGTT
GTCTGTCTGTCTGCCTGTTCTCCGCTGCCCCGCTCTGAGCGTTTTGGTTT
TGGGGCGGTTGTCTCTGCAACTGCTGTACAGTGTGATGTGGCATTTTGTG
ATATCGATGCAGCAGCGGTGTGTTTGTGTGCGTGTGTGTCTGTCTGTCTG
TGTGTGTCTGTGGGTTTCTCGCTCTGCTGCAACTGTCGTACATTTCCATA
CATTATAGTTGGTGATCTCGATGCAAAAGCTGTGCGTGCGTGTGCGTGTG
CGTGTTGTTGTTGTTAATGGTGGTGGTTGATTGTCACCTTTGCTCAACGC
CAAGATGTATACTGTAGCCCGCGGTCGCAAAGGCGTTGATCCCTCGAAAG
ATCCGACGAAAAAACACGATAAGTGAGAGGGAAGGTGCCACAAAAAAGGC
CCACCAAGGTACTCGCACGATCCGCCTTCTTCTCAAAACTGGACGAAGTG
GCCGTGTGCGAAAATATGAACCTTAGCAGCCTACCACCGCCGCGCAGATA
TCGACCCGACCACGTACAAAATCGTGTTCAGCCTCCCCCCGATCCAGCCA
TGACTACTCATGGCTGCCGACTGCTGTTTTGTCTGTGCCTGTGCCTCTCC
CTGTGTCCGTGTGCGCCATGTCTGTGTGTGCGTGTGTGTGTCTGTGTCTT
GTGTCTGTGCCTAAGTGTCTGCTTGTGTTTCTTGTGCCTGTGCCTGTGCC
TGTGTGTCTGTGTGTCTGTGTGTATTGTGTTGTGTTTACCGTCCTGACGT
AACGGCTGACGTATGCGTACGATACTACACCAGGTGATCTCGATGCAACT
GCCGCCTGCCGGGAGCCCGATGGAGGAGGACGAGGCTGCTCTCGCGCAGA
TCCCCAAGGTGTTTGAATCATGCACTCTGTAGTAGTTGCAGTAGCAGTGG
TAGTAGTAGTTGTGGTTGTAGTAGCAGTGGTAGTAGTGGTCGTAGTAGTA
GTAGAAGTAGTGAAGTAGTAGCCGGTGGTATTGTAGTAGTAGTCGTAGAG
CAGTAATAGTAGTGGTAAAAGCAGTAGTAGCAGTGGTAGTAGTAGTAGTA
GTAGTAGTAGTAGTAGTAAAGTAGTAGGAGTAGTAGTCGTAGTAGTAGGG
GTAGTAGTAGTAGTGGTAGTAGTAGTGGTAGTAGTAGTAGTAGTAGTAGT
AGTAGTAGTAGTAGTAGTAGTAGTAATATAGTAGTAGGAGTAGTAGTAGG
AAAGTGGTATTAAGTATGCGGCATTTGTTTTCTGTTGGCGTTGTTGCGTC
TTTTATTTTCTGACTTCTTGGCGAGATTTTTGCCGCAGACCCTCCCAACG
CTGCTGTGGTGTATGTACAGCTTTGTTTTCCGTCTTTTTGTTTTTCTCAC
AGTACTCTCTCTCTACTGTTTGACTAGGTTACAATCCAACGCGCGAGCAA
CATCCTTTCTTGATTTTGCCCTTTTTCTGTCGTCGTTCTGTTTTCATTTC
GTGACTTTATTTATTGTTGCGATGGACCAACCACGGTGGTGCATTTCGTT
ACTTTTTCGTTACTTTTTCTTCATGGACCTGCTGTAGACCACGGTGGTGC
ATTGGTTTCGTTAGTTTATTATTGGTGTAATAGACCACGGTGGTGCTTCA
TTTCTTCACTTGACTGTTGCGACAAGACCACGGTGGTGCACTCATTTCGT
GACTTTATTTATTGTTGTGATGGACCACGTGGTGGTGCATTGATTTCGTT
TCTTTATTTATTGTTACGATAGACCACGGTGGTGCATTTTTTTCGTTTCT
TTTTTTATTGTTGTGACAGGACCACGGTGGTGTACTCATCTGCTTCATTT
ATTTATTGTTGTGATGGACTACGGTAGTGCATTGAGTTCGTTACTTTATT
TATTATTGTGGTGGACCGCGGTGATGCACTCATCTCGTTTCTTTATTTTT
GTTGCGACAGACTACGGTGGTGCGATCATTTCGTTACTTCACCCTGTGTT
GTGACGAGACCACGGTGGTGCACTCATTTTGTTGCTTTATTTATTGTTGC
GACAGACCACGGTGGTGCATTCATTTCGTTTACTTTGTTAATCGTAGTAA
AAGCCACCGGTAGCGCATTCATTACATCACTTTCACTTTCTTTTTTGTTG
TGACTATACCACGGTTGTGCACTCGTTTCGTCACTTCATCTATTTTTGTG
CCAAGACCACGGTTGTGCCGGAGGACAAGACGGGGGTGCTGAAAGACGCC
GCGGCCGTGGCCGGAGATCAGCTCGTCCTGACCTTCGAGAGAGACGCCTT
CATACAGCTGGAGCTCTTCGGGCTGGCGGGCGGGAAGCGGAAACCGGTCC
CTGTCCCCGGCATCGGCAGCATCGGAGGCGTTTCTACCGATAAAAAATAC
GTGAGTGAGTGTTTAAGGTACTGCGCGCGCTCCAGTATTCTCAGATTGGC
CACAGTAATTTTGGTGGGTGTCGGCCTTGGCTGTGGCGAGGATTCGGCGG
CGGTGTGCGTTGAGGTAGAGAAATTAATTAAAAAAAACAACGCTGGCCAA
TCTTCTTGCATCGCGGTGATTGGTGGTTGGTGGTCCGTGTGTGATGCACG
TATTGATGTTGTGCTGTTGTTGACTCTCACTATGTTTTATGCTTATTGCC
TAAATCTACAAAGACAGCCCGTGGGTCGTAAAAAAGTGCTGAGCCCGATT
CAGAAGGATATGTGTTGTTGTCGCAATTTACGTTGTTCTTACAAGTCCCT
ATAGCTCTTCAGGCCAAGGTTAGAAAAGTAGCCCAGGGGCATGTATCCTT
CGAGCTCTGCTCGTAAGGGCTTTCGACGGGCCATGATTTGCGCCAGGAAC
ATTATGCGAGATACAACAGCGAAGAGTCGAAACAAGAAGAAGAAGAACCG
GCAACATGGGCACCACCACCACACCAGCACCACCACCACACCAGCACCAC
CGCCACAACCGCCAGCAGCCACAAGAGCAACAGCGGGAACAGCAACAGAC
AGTAGCACGTAGCGGCATTTTATGACGACATATACAGGACGTTCGGTACA
ACTACACAAAAGCAAAGCAGAAAGAACAGCAACAGCAACAGCAACAGCAA
CAGCAACAGCAATACATGCCTTCCTCTCCCCTCTCCCCCTTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGCAGGATCATATCATGTTTAAGTTCAC
CAACTTCGTAACGCCGGGTACGATCTATCACGGGACTGTGAGCAGCGGTG
AGAAGGGAGGCGCGGAAGTAAGCCTGAAGGTCTTCCTAGAGACGAAAGTG
CCGGGCATCGACGCGAGCGACTTCGAAACCAAGCAGGTGCGTCTTTCTTT
TTCGGAACTCGTGGGTGTGCCTGTTTCGGTGTGTTGTTTTTGTATTTGGT
TGTTTTTCTTCTCCTTTCCTGTTTTTCTTCTCCTTTTCTGTTTTCTGTTT
TCTGTTTTCTGTTTTCTGTTTTCTGTTTCCTGTTTTCTGTTTTCTGTTTC
CTGTTTCCTGTTTTCTGTTTTCTGTTTCCTGTTTTCTGTTTTCTGTTTTC
TGTTTCCTGTTTTCTGTTTTTTCTGTTTCCTATTTTCGCTTTTCTGTTTT
TTCTGTTTCCTGTTTTCTGTTTTCTGTTTTCTGTCTGTTCGTCTGTTCAT
TTTTTTGTCTGTCTGTCTGTCCGTCTGTTTGTCTCTGTGTTTGTCCCTTT
GGTTATTTGGTTCTTTTTCTGTCTGTGTGTCTTGTCTGTCTGTCTGTCTC
TCTCTCTTTCTCTCTCTCTCTCCCTTTCTCGCTGTCTCTTCGTCTGTTTG
GCTGCTTGTTTGGCTGTTTGTCTGACCGTCTGTTGTCTGTATAGCTACTG
CCAAGCTCATTCCGGTTCTATCGTCGCCCCCTCTTCTTTATACGTCGCTT
TTTTGTTGTTCTGCCTCTTAACCATTGTTTTTCTTATTGGCTGACCAACC
CCGCCGCTGCTGCGCCCCCACCCACCGAAACGTGTGGCTGGCGTTCAGAA
TCGATGGGAGATTTACACACAAGTACTTTTTATCCTTTTTCTTCAAAAAG
AAATGCCAACAGAGGTCGTATGATATCACGGTCTTTTTTTTTTTTTTTTT
TTAATCTCGACGTTTTTTTTTTTTTTTTTTGCTAATTTACGGACGGATCC
GTCACTCGAGCGCGTTCGGCATGGTACACACGGGTGCGGTGACAAATAAA
GAAGAATCGTTTTCGTTTTCTCTGCATCCTTTGGTCTGCTATTATTCGTA
CAAGTAAGTACCTGTAACATTTTTCTAAAATAAAAAGCCGACAGATGTCA
ATCACGCTGCGGTTTCTTCTTTTTCGTTTTTTCTCGCATCTTTTTGTTTT
TTTGTTTTGACGGACAGATCCGTTACTCAAGCAAGGACGGCACGGTGGTG
CCGATGTTCATCGTCGGTCGCAAGGGAGAAGGGGGTCCCTCCCCCTGCCT
GCTGTACGGCTACGGAGGCTTCAACATCTCCCTTAACCCCAGCTTTTCCG
CGGCAAGGCTGCTCTTCATCAAGCACTTCGGCGCCAGGTTTTGCTTGGCT
AACATCCGGTGCGACATATGCTGGCACCTGACTTTTGTCGATATTTCTAC
TCCGTACGTATATAAAGTATGTGATAATTTACTCCGTATGTTTTTTTTTC
AATCGTTCAATGCTTGCATGTGTTCTAGACCTACGAGATGCAGCAGCAGC
AGTACAAAAGTTATACTTCGTGAGTCTTTGATACAATGATGTACAGCAGG
ATGTGATACATGGACGTGTCTTTGACGTAGGGTGTACAGCAGTATATGAA
GTTTTTTCGTGAGATCTGCTGCCGTTGTTGTTCGCTCAGTTGTTTTATTT
TCTTCCCAAGTAATTTGTTGTTTGAGAATTGTACTTTCACGAACGATTAT
GGAATTCGTCATCGATGGTATTTCTTTGTACCAGGATGTAGTTTTGAACG
AATGTTTTCATGCGTTACATAGACGTATCATGCATATCGTATATATGACA
TTGCTGTCCGTTGTTTACCACGGGCTCGTAGATTTCGTCCCATGAGCGTC
ATGGGAGAAACGTTGCGACCGTCGGAACCAACAGCAACATTCACGACAAT
ACCGGCAATAAGCAGCAACAGCAACAGCAACATTTCCAAATCCGATGGTG
CGATGCCAAGGACATTTTTATTTTTTCATGAAGTAGTCTATACCAGGAAC
AACAACACCGCACGGAGTGCCGCAAGCGAAAGAGGCTTTTTGTATCAGCT
GCGTGATTACGCTTCATCGTGCGGGGACGGCGGCGAGCACAGCGAGGAGA
GGCGCTCTTTCTTCTACCGCCACAGCACCACCAATCGGATTCCATGTTGA
CTGTTTCTCCCATGATGGGCACAAAAGTTCGGAGCACGAAATGAAAAAGA
CGCTTTTCGCTTGTTGTGTGTGATGTATTTATTTTTTCGCTGGACGCCGA
AGACGCAAAAATAGGCGTCTTCTTGGCCCACCATTCATATGGGACTCTGT
TGCAGCGTTTGTTCCCTGAAACGTGCAACCGGTCGCCCCGGTGGTTCAGT
TGATTATCCTCGAAATCTCTGACACTTAAGTCTAACGCTTGAGTTAGAAT
CCCGGTGCAGCAACACGACCCGGAATCCTTCTCGTGTCATGCGCGAGGGT
GGAAAACGATTAATTCGTGAGTAAACAAAATTCGAAGTGTCGACGAGGGA
AAAGGGATGGCTGTGCTGTACCCTCTTCTCGCGAGAAAAAAGGAAGGCAA
GTACTGAAGCGGGAAGCGGAGAAAGAAAAGAAAATGAATAAAAGAGAAAA
ACTCCTGTGTTGACTTCCTACTGTGTGACCCCGGTTGGAGCGTTTACCTA
CCCGAAATGTGTAGAGTGGCGTCCAATTGAAAGGGATGACAACACACACA
CACACACACACACACACGTGCCAGAGTTCGATTCACGAAACTAAATAGAC
GCTTTTTCGCTCGAGTCTTTCGTTGTCTTTCGCTGGGGGAGGAATTTCGA
ACTTCAAAAGAGGCGTTTCGCCTGTGGGTTTCGTTTTTTTGTTCATGTTT
TTGTTTTCGCTAAAAAAAAAAAAGTTTTTTTTTTGTTAGGGGCGGCAGCG
AGTACGGCGAGGGCAGCCCGTTGTTTCCCCTCCCGCAGATACGTAATGTT
CCCGGTTAAGTACAGTTCGGAGTTCCGAAAAATGGGGCTTTTCGTCCTTC
TTTTGTCGATTGTTTGTTTGGTCACAGGGAGCGAGCGGCCGCTAAAAGCC
AAGCTCACGCGCGGACGCGGAGGAGCATGGTACTACTACTGTAGTGTAGA
GGGAGAAGAGAGGGACCAAGTCGGATTTCTCGAAAAATATGGGCTCACTT
TCTTGGTTCTCTATTTTTTTTGTCGCAGAGAGCGGCCGCTGGGCACCAAC
TACCAACAGAGATGGACACCAAATACAAAACGGAGAAAACTAGAGAAAAT
AATCGATAGACGGAGCACGGAGCGGAGTTCTAACTACCACCAAAAAGTTT
TTTTGTTTTCTTGTTTGTTTTGTTGTTATTTTTTGACGTGCGATGATATG
ATGTGATATTCCTTCTTTTTTTTTTCCCTTGTCGCAGGGGCGGCGGCGAG
TACGGCGAGGAGTGGCACTCGGGGGGCACTCTGGACCGAAAGCAGAACGT
GTTCGACGACTTCACTTCCGCCGCCAAGTACCTGGCAGCAGAGGGCTATA
CCACCAAGGAACAGCTCGCCATCATGGGGGGTTCAAACGGCGGGCTGGTA
CGTATGTATGCGCGATGCTTGCATCTGTGCTTGCATCTGTGCTTGCATCT
GTGCTTGCACCCACCCACCCACCCAGGTAATATTGGGGGCTCAGCAGATG
GGAAGGATATCAGGTACTGGACGCGCACCATCTCCGGGCCCCCCACTTTT
GCTTGCATGAGTGTCTACACCGTGTATCACTGCTCGTTGGGGCTACAAAA
GCAAGCGTTTGTGTCCGAAGTAGTCATGAAAACACAACATGAAACTTCGC
AAGGATAGCCTCATCCAAAACCAAGTACGTTGTGTACGTGATCTACAACG
GGAACACGAATACCGGTACAACAGCATGGACGTGGGCGCGATTTCTCTTG
CTGCGTTGACGGGTCGGCTTTGTCTCGGCACACTGCTGTACAGTACACTG
CGTTCCTGTTTTGTGGAGATCGCTGTGGTGATGATTCCTGTCGTTTTTGT
TTCAGCAGCGCGCGCGTCCAATAAGCGAACTCCCTCGTTTTTTTTTACGA
CACACACACATCATACCAGGTGCTGCTGTACCTCGAAACTACCGCTGCTG
TTACTACTGTAGTCGTCATCCTGTGGTACTTTCTAATATACGAACGCCAT
CGTTTTTCCGCCACAAACGAAGTACACCTCAGACCCGTTGCTGCCGTGCC
TCAAAGAAGTACAGTTTTGTTGCTCGCGCGGTGATGCAACTGCTTTGTTT
GGTGTGGTGGCGCAACTTACCGGATTCATCGTGTGTGACCCTCCTTCTGT
GTGTCCCCCGCTGGTGCACCCACTTGGTGTGCGCCGAAAGGTGTAGACCG
TTGCCCAGAATTAACGGGATGAACAAACATGCACACATGTGATGGGCGCT
CTTTTTGTTTGTGTTCTTTCGTGCTTCGCCCTTGAGGGGGGTTTTCCCCT
CGCCCGGCAACCGAACACGGTATCGTAGCATAGCACGGTTGTCCCGGTCA
CTGTTTCACCTGTTGTTTTTTGTCCCGTAGCAGCGCGTGGTGCCGATTGT
GTAGTTGGTATGAAGGTCGTGTTTGTTTTTTTCAATTTGCGCCGAAAGCC
GCCAATCATGAGGGGGTTCGAAACGACGGGCTGATACTATATCGCACTCG
TACATGCTGTTGAGGCGTCCGTCTCGGTGGGTGCACACACGCGATAATAT
TGGTGTGCAGACCTGCTGGTGCGTGCTTGTATTGTGTAGACAGTATCTTC
TCCAGCACCAACTTCAGCATAACCTTGCTGCGTTTATTTGTTCCTTGCTT
ACGTTCCCTTCCCTTCCTTTCCCTTCCCTTCCGCTCGATTCTGGTACCCG
TTCCGTTCCGTCTCGTTCCGTCTCGTTCCGTTCCGCTGCGTTCCTTTCCG
CTCCTTTCCGGTCGCTTTCGCTCTGTTCCTTTTCTTCTCGCCCCGTCCGG
GATCCCGTTACCGCCCCGTGACCGTTCCGTTTCGTTCCGTTTCGTTCGTT
CCGTTTCGTTTTATTCGTTTCGTTTCGTCCTGTCTCTCCCCGTCCCGGAT
GATTTGACCGTTTCGTTCCGTGGTGTTCGCTCCTTTCCGGTTCCCGTTCC
CGCTCCCGCTCCGGTTCCGGTTCCCGTTACCGTTACGGTCCCTTTTTTTT
TTTTCGCCCCGTTCTGGGTCCGGTCACCGTTCCGGTTACCGTCATCGTTC
CGTTCCGTCTCGTTGACTTGTATCTTCAGCTAGTGGGAGCATGCGTCAAT
CAACATCCGGAGCTGTTCGGCGCCGCGGTCGCACAGGCAAGTTCAAGTTG
TGGAAGTCTCGAACCGAACATTAACGAACAAGGAGCAGTTGTCTTTCTTT
TTTTTTGTTAGAAGTGTCGATGTCGGCCATTTTGCCCGTTTTGTGTTTTT
ATCGTAGAGGACCATGGATTATACATCATTGAACGTGCTTCTATGTGATT
GCCAACGAAGGGCGCTTTTTCGCTCCTCTTGCGACGAGGACCAATAGTGG
TGGCTCGTTGGGAGGGGGGGGGGGCTTGCATCGTAGGTTCTTGCATTCCG
TTTATACAGCAGTCTGGCCGAGGACTTCAAGTCACCCCCAAGATGAATAC
TTGAACCTACCAGGTGCACAATTTGTGCGGGCATTACCGTTGCGTTCCAT
ATCATACGTACAGGAGCCTGGCGGGGGATCTCCGAAATCTTGTTAGCGGA
CATTTGCGATTTTCTTTTCACACAAACATGGGACTGCCTGATCTGATTGC
TGCTCTGTCTTGACGGAAATCAAAGTGCTCCGAAGATTTTTTTTTTTCAA
GGTTTTCAGGAAGATGCTGGTGCACGAACATGAGCTGCCGGATCTGATTG
CTGCTCTGTCCTTGATTGAAATCATAGTGCTCCGAAGAAAAATGTTGTTG
TTGTTTTTTAAGGTTCTCAGGAAGGAGATGCTGGTACATGCGTGCAAGAT
TCAATCAAGTCACTCCTGCCGAGTGAAATTGGTTCATTTTTTACTTCGTT
CAGGCCTCTTTAATGGCAGCGAAGGCTTCTTTTAATTTAGAGGCAGTTCA
CGAGTGTAGCGAAGCGTACCATCCGTCGTCGAACTGCCTTGACCTTGATT
CTAATTCACCGACTTGGTCGTGGTGCCCGGGTGTGAGTGTCTGTGGAAAT
GAAAAAATAAAAACATACAGAGGGCCTTTCTTTTCATTTCCGAGGTTTGT
GGTGTCCGTGTGTGTCCGAGATGATGGCCACATTTTGCGACACTACGGCA
CCAGTTCAGCACAGATCGTTACGACCGAGGGCTTGACCTGATGAGGTAAA
TAGCATCTATCTACCCATTGCTGCTGGGTTCACCGCAGCCCGTGTCCTAT
GCGCACAGCTATGTTGTCGGAGGTGCGTAATTATCGGCGATTTTGTTACG
TGAAAAATGATGAGAGGCGTTCTGTGTTCGATGTGCTGGCGGAACACCAG
CTCTGTCCTGCAGTCCTGCAGCAACGGTGTCCGCTACCAAACAGCAACGC
ACACGGCTAAGGCAGTCATTTGAGAAGCGGCCACACCAACACACACTGCT
TCCCAATTCCTTTAATCTCTTTCAATTCCGCTTGTGGGTTTTGTTTTTGT
TGTTGTACTAGCAGTAGCAATATTGGCATTTGTTGTTGCCTGTTCGAATT
GTGTTGTTGTTTGCCGTTGCGGGTGTTGTGGCAAACACGATGACGGGAAT
CACAAAACAACAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAAC
GAAGGTTTGCGAGGGTCAGACACATGGTTTTTGCTGGGCTCCATGATATG
TATCTCGATGACGACAAAACGAAAACAATTATGACAAAACGAAAAGGAAA
CGGCAGCAGCAAAACCGACACATACGGACGATATCTAGATCCAAACCCTG
CCCCCCCCCCCCTGTGTGCAGGTGGGGGGGATAGATTTGCTGACGATGAA
TTGATCCAAACCCTGCCCCCCCCCCCTCTGTGTGCAGGTGGGGGTGATTG
ATTCGCTGACGATAGATAGATCCAATCTCTGCCCCCACCCTGTCTGCATG
TGAGGGTCATGGATATGCTGACAATACACCCCCCTGTGTGCAGGTGGGGG
TGATGGATATGCTTCGATTCGACGAGTTTACCATCGGCTACGCGTGGAGA
AGCGACTTCGGAAGCTCCAAGGCGACCGAAGAGCAGTTCAAGACGCTGAG
GGCGTATTCTCCGGTGAGCTACTTGCGACAACCTGTCCTATTCACTCACG
AAAAAGTGGTGAATTTGCTCTTTTTTAGCCACGACTATTTATTCGTCATT
TTGTATTCCGAACGGCTGGATGTCTGGAGCTAGCAGTCTGTCTGTGCATC
GATATATCTTGCGTTACGAAGAACCTTTTCAGATTTTTTTTTTCTGATAT
TGGAACAAGATCGGCCATATCACGTTGTGAAAAACCGCTTTTCCGGCCTG
GAGTGCTGTCTGATAATTTTTTCAAGGTCGTATTGCTTAGGGTGCGCACC
CAAACGCGTACCCGAGAAGACTTACTCGGGTCTCGGGTATGTGCCCTACC
TTGCCCTTGGGTAGCTTGAATACGACGTTCCATACCCTACTCGATTGTCG
GGTACAAAGGGTACGACTTTGAAAAATTCTCGGGTACGGGTGTTCCAACG
GGTACAAACACCGCAGGAAGGGTAGGGGAACGGTTTTGTTCCGCATACGA
TCGGTCGCCCCGGTAGTTCAGTTGGCAATCCCCGAAACCTTCTGACATTC
ACGCGTGAGTTCGAATCCCAGTGCAGTAACACGATCTGGGTTTTCTTCTC
ACAATGCGCGCGAAAGTGGAAAGCGATTAATTCGCGAGTAAACAAAAATT
CGATCGTACCATCGACGAGGGAAAGGGATCGCTGTCCCCTTTCTCGCGAT
AAAAGCTCAACCAAACAAGGCAAGCACCGCAGAGGGAAGCGGAGAAAAAA
AAAAAACTCCTGTGTTGACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCG
ACCTACCCGAAAGGTGTAGAGTGGCGTCCAATTAAAGGGATGACAACACA
CACACACACACACACACTCCTCCACCCGACCGGTTGAGTAACTTGGGCAA
AGACATTCCATACCCTACCCGACCGTCGGGTACGTTGGGTACCAATTTTC
AAGGGTACCTAGGTACTGGTATACCCTTTTCCCAACACGCGGGCCTTCGA
TATTTATTGCTGATCGCCCGAATAGACTGGAAAATACGGAGTCATGGACC
GGGGGTGTTCCAAGGTTCAGCGCTGCAGGTGGTTCCTCTTTTGTTGGTTT
GTTGCGTGGAGTGCACGCGGGGCTCACCTCTCACGGCAAGAAAGGAGGGG
GGGGTACGAGACAGAGTTTCTTAACTCAGGAGTGAGACTAGGACAACAGT
ACAAGTACCGCACGGAGGAACTTCCCGGGCAAGGTGCAAATTGCGCGCGA
GATGTGCTCCCGGAATGTTCCCGGAAGGTTCTCATATGGGGTAATCTTCT
TGTCATAGGTATATTCCATACGGGTCACCAGATGCGTCACGGGTATTGTG
TGGTGGTATTCATCGAAGGACCCTGTTTTGATCTTCTGATCGACTGGGCG
ATTACAACACTGCTGGTTCCCTGGAGCAGCTTGAACAACCCACGTCTGGC
TCTTCACACGGTGATGAGCGAGAGTTGCAAAACGTGTTGGTACCTCGCGG
CGGCCTCGAAGTATCACCAGACGAGAGAGAGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGACCACACACACAGCTCACGGGCGATGGCTTTTGTTTT
TGCGTGCTTCGTTCGTCCGTTCCTTCGAAAGAGATGGACGAAAAACCGAC
CGTGCGGGGATGGCTATGATCGAGAAGTGGCACCCGCTCTGAAACCTTGA
GCACAGCAGAGCTGAACAGCAGGGGTGTTTTGTTTTTCGCCCCGCCTACC
GATTGTTTCGTTTCGGCCATCGATCTCGAGCGAACGAACGAACCAACCAA
CCAAGCCACAAGAATAATACCAAAGCCGTCGCCCTTGAGTGAACTTTGAT
CCTTTTCCCCCGCGGTTTGTCATCTGAGGCGCGAGGCGTCGATGAGTGTT
TTGCATCATCGAGGCCATAGAAAAGGTAGAGCACGTGACACGAAAATACT
TCGTACCAGGTAAAAAATATGGATAGATCATACAGCCACAAGAAGGTCGG
TGGTGCTTTGTTCACTTGAAACTACTCGATGTTGTCCCCCCCCCCTCCCC
GACCCCCGACCGCCTCCCTCCGTTCCTCCGGATTTCCATTCCAGGTGCAC
AACGTGAACGCAAACTCGCCGCCCTACCCAGCTGTTCTTCTCACCACCGG
TGAGTCAGTCGGCATACAACTGTCTACGGGGGGGTTTGTTTTGTATGTTT
GTGTGGGTTGTTGGTCGTTGCTCGTGGCATGTCTTCTCTTGGTCTTACTC
GGAGTATATTTTTTCTGGAAAAACCCGAGGAATAAATCCTGAGGAATGAA
AAATAAAATAGAACGAAGTACTTCGTAATAATAACAATAATAATAAGAAA
AGTAAATAATAGTATGGATAAGAAGAAAAGAATTGCATCGCGCGAATTGT
ACACTACTGCTTTAATCCTTTGGTGCTTCTTTTTGAACCATCTGGCCAAC
GACCGCTAAACTAACGAGTACGTACTTGCGTGCTTCGTTCGGTCAGTCCG
TTCGTCCATCAATGAAAATGGTGTGCTTTGAGTGCTTCGAAGTTTTACCT
ATGTGAGTATACTTTCATTGGTCGTTTTCTGCCTCGTATCGTACGTATGA
TGTCTCGTTTCGTTTTGTTTTGTTTCAGGCGACCACGATGATCGGGTGTG
CCCGCTGCACAGCTACAAGTACATCGCGGAGCTGCAGCACACCATCGGAG
CGAGGCCGGGAGAGAAGCCGCTGCTGATCCGGATAGACAGGAACAGCGGG
CACGGAGGAGGAAAGCCCACGGCAAAGGTACGTGGATGCACACAACACTC
GTTGGTTTGTGTTTCTGTCTCCCATGTAGCGCACCTGTTTGTTATGCGGA
CCTTGAACGGGTAGGTTTTGTTGCAGTCGTGTGATAGATTGTTGGTTGTG
AGAGCAGTACTTGAAAGAAAGCAGGGAGTACCTCCGTTCTTGTGGTTGTT
GCTGTTGTGGTTACTGTTGTTGTTGTTGTTGTTTGTTGCTGTTGTTGTTT
TTGTTGTTTTTGTTGTTTTTGTTGTTGTTGTTGTTGGCGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCACATGGTGGC
TGCTTTTTGCTTCGTCTTGGTGTCACTATGCCTCGACCCCTCGACCGTCT
CTAATGCATAACATCACGCCGTCTCAAATGCATAACATCACGCCGTCTCA
AATGCATCTCACCACGCCATCTCAAATGCATCGCATCACACCGTCCCGGA
TGTATAACATCACGCCATCTCAAATGCGTCGTATCGCGTCAAACTCAAAC
GCATGGCATGTCACGGCCATTTCAAGTGCACGGCATCACGCCATCTCAAG
TGCATGGCAATTGGTCTATTTCAGGTTAATCGCATCATCGCGATCTCTAG
TGCATCGCAAAAGCATCGCATATACATATCTGTTGTGTTACGGTTGGCGA
TGACTGAGTCAATCATTATGGCCATGATCATCTGTCCCGCCCCCCTATCC
TTTGCATTCGTATATTTTTTCACTCCCGAGGTTGCCCAGACTCGTCGCAT
CATACCCTTTTCGAGCCCCATTTTAGCGCCGTCGTATCGCAATCTGTGTG
ATCGATGGCTGGCTGCTGCACGTATGAGAGCAATTGATTTTGCGTTTCTT
TCAAGCCATCATCGCCTCCGTGGCATTCTCTCTCTCTCTCTCTCTCTCTC
TGTCGCTTATTTTGTTTCGTCTCCCGGTTTGCTGTCAACATCGGCGCGCA
CGCTTGTGTGTTGTGTTTTACGTTACGATATTCCTACGATATAGGTACTG
GCGGAGGCTGCCGACACGTACGCCTTCATCGCGAAGCACACCGGAGCAGC
TTGGAACCCGTGAATTTTGTTGAGACGTTGAATCAAATCGCGCGGCGTGG
GGAGCGGCGTGGGGGGCGGCGGCGGCGGCGTGTCCGTCGCGCCACCGTTT
CGCCGTGTCGCCATCGTCGGCGAAGCCGGTGGATTGAGATACAAATGTGC
GGAGACCTCGGGGCCGCGTGACGTAGCAATGATATCTAGAAGGGTATCTG
CCAGGATCGAATCATCATGGTGTCCGATTGGTTCGACTGACGGTGAATGA
CCGGACACCGTCAAGAATAAAAAATCGGAAAGAGTCAGCGTCAGGAGCAA
CAATCAATGCAGCACGCAAAACGCACACCTGCTTGCAATTTCTAGGAGAT
GCAACGGGGGGGTCTGGATATTGGATGCACATATCACGTGCCCGACGTAT
GGACTTAGTAGTACAAAAGCAGGCGCGTCGCGTACACGACTGAGTGCGTG
TTGTCTCCACGAAAATACTTTCGGGGCTGTTGACATGGTGATAGTCCGGA
GGAGCAGAAGGACGAAAAAGAACTCCTGTGCTGACCCGACCTTCCTTCTT
TGTGACCAGCCCCGTTTGAGTCGCCGCCCACTTACACCGAAAGGTTCGAG
TAGTGCAGACGGGCGTCGACTAGACATCAGTACAATATGCGTACTGCAAT
GTACCCCCAAAGAGGGAACCCCCCCAAAATTGCAATAGCGAGGA
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Coding sequence (CDS) from alignment at P-littoralis_Contig11:1061942..1096185-

>mRNA_P-littoralis_Contig11.214.3 ID=mRNA_P-littoralis_Contig11.214.3|Name=mRNA_P-littoralis_Contig11.214.3|organism=Pylaiella littoralis U1_48|type=CDS|length=2325bp|location=Sequence derived from alignment at P-littoralis_Contig11:1061942..1096185- (Pylaiella littoralis U1_48)
ATGGCGTACATGTCGAGTAAGCGGAGCAGCAGCAACCGAACGGCCCTGAT
CGCGGCGGCCGGTAGTACCGCGGTGCTTGGAGGATTCCTGCTGGCGCGTT
CGGTTCACAAGAGGCGCCTCAGGCAAGGCCTGCTGCAGCTCCCGGCGGCC
CGGCGCTCCGACCACGCGGACGAGTACTTCGGCCACACCGTCGAGGACCC
TTACCGATGGATGGAACAGGAAGACAGCGACGAGACGAAGGCATGGGTCG
AATCGCAAACCAAGCACACCGATGCGTACCTCCAGACGGAGCTGGAGCCA
GGAAGAGGGAAGTTCCTTGCCAGACTTGAGGAGGTTTTCAACTACGACAA
GCAAAGCTCCCCGTGGAGGGTGGGCGAGTACTGGTTTTTTTATCTTCAGA
AGGGCCTGAGCCCCCAGGCGGTCATTTACAAGCAGGCGAGCGACGATGTT
GGGCTGGACGGCACGCCGGAGGTGTTGTTAGACCCGAACACCCTCAGCGC
GGATGGAACGTGCGCCCTGTCCGGGGTAGATTTTTCCAAGGACGGGAAGA
AGCTGGCCTACGGTATTAGCGAGAAGGGTTCCGACTGGTTTTCCGTTCAC
GTGAAGGATGTTGTCACCGGAAAGGATCTCCCTGACGTCGTTGAGTGGTG
CAAGTTCGGGGGAATCACGTGGGAAGAGGGGGCCCGTGGATTCTTTTACT
CGGCCTTCCCCCGACCCAAGTCGCTGGAGGCGGCCGGTAAAAGCGCGGGC
ACCGAGGTGGAAGTGGCCACGGGGCACCGCATAATGTACCACAAGCTTGG
GACGGACTCATCGGAAGATCAGCTCGTCTACCAATCGCCTCTTGACGAGA
AGTGGCTGGCGTCCACGGTCATGACGGACGACTGGAAGACGCTCATCATC
AGCATCGGAGACAGCTGCGACCCAGTCAACAGGCTCTTCTACCGCGATCT
GTCAAACTTCGACGGTCACGACGTCTCCGGCACGATGGGAAAGACAGTCA
AGCTGGTGGACAACTTCGACTCCTTGTACCAGTACGTCACAAACGAGGGC
AGGACTTTCTGGTTCCGGAGCAACACGGACGCTCCCAAGTATAAGGTGAT
CTCGATGCAACTGCCGCCTGCCGGGAGCCCGATGGAGGAGGACGAGGCTG
CTCTCGCGCAGATCCCCAAGACCACGGTTGTGCCGGAGGACAAGACGGGG
GTGCTGAAAGACGCCGCGGCCGTGGCCGGAGATCAGCTCGTCCTGACCTT
CGAGAGAGACGCCTTCATACAGCTGGAGCTCTTCGGGCTGGCGGGCGGGA
AGCGGAAACCGGTCCCTGTCCCCGGCATCGGCAGCATCGGAGGCGTTTCT
ACCGATAAAAAATACGATCATATCATGTTTAAGTTCACCAACTTCGTAAC
GCCGGGTACGATCTATCACGGGACTGTGAGCAGCGGTGAGAAGGGAGGCG
CGGAAGTAAGCCTGAAGGTCTTCCTAGAGACGAAAGTGCCGGGCATCGAC
GCGAGCGACTTCGAAACCAAGCAGATCCGTTACTCAAGCAAGGACGGCAC
GGTGGTGCCGATGTTCATCGTCGGTCGCAAGGGAGAAGGGGGTCCCTCCC
CCTGCCTGCTGTACGGCTACGGAGGCTTCAACATCTCCCTTAACCCCAGC
TTTTCCGCGGCAAGGCTGCTCTTCATCAAGCACTTCGGCGCCAGGTTTTG
CTTGGCTAACATCCGGGGCGGCGGCGAGTACGGCGAGGAGTGGCACTCGG
GGGGCACTCTGGACCGAAAGCAGAACGTGTTCGACGACTTCACTTCCGCC
GCCAAGTACCTGGCAGCAGAGGGCTATACCACCAAGGAACAGCTCGCCAT
CATGGGGGGTTCAAACGGCGGGCTGCTAGTGGGAGCATGCGTCAATCAAC
ATCCGGAGCTGTTCGGCGCCGCGGTCGCACAGGTGGGGGTGATGGATATG
CTTCGATTCGACGAGTTTACCATCGGCTACGCGTGGAGAAGCGACTTCGG
AAGCTCCAAGGCGACCGAAGAGCAGTTCAAGACGCTGAGGGCGTATTCTC
CGGTGCACAACGTGAACGCAAACTCGCCGCCCTACCCAGCTGTTCTTCTC
ACCACCGGCGACCACGATGATCGGGTGTGCCCGCTGCACAGCTACAAGTA
CATCGCGGAGCTGCAGCACACCATCGGAGCGAGGCCGGGAGAGAAGCCGC
TGCTGATCCGGATAGACAGGAACAGCGGGCACGGAGGAGGAAAGCCCACG
GCAAAGGTACTGGCGGAGGCTGCCGACACGTACGCCTTCATCGCGAAGCA
CACCGGAGCAGCTTGGAACCCGTGA
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