mRNA_P-littoralis_Contig13.170.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig13.170.1
Unique NamemRNA_P-littoralis_Contig13.170.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A835YXC9_9STRA (GTP cyclohydrolase N terminal-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YXC9_9STRA)

HSP 1 Score: 704 bits (1816), Expect = 1.520e-243
Identity = 336/435 (77.24%), Postives = 381/435 (87.59%), Query Frame = 3 
Query:  252 SSTGRLSPSK-RRRGPSITEEDLKVPDLS--NDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTE 1547
            S++ + +PSK   R  S++E DL+ PD+   +D++ ++NLTTHS NF ADPI +KW EEDPE RGPV+ATT+HP QRNAIGAHSGSYCIYKALAVA GKLD NYLPKL  TRPV +IGPFP+W D +KI+TMDPWGH+VTDVF  ++RKG+D+RPTIAVTKAHI+LPEV+EA+RVGRL  DGK+L+ EGQ+F++K AVEPVWYLPEIA+RFG  E+ LRETLFKETNMMYPELVTR DL VFLPPIGGLTIYIFGDP  I DE VPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEEC+RTAQQGG GV IYYRKEGRSLGEVTKYLVYNMRKRQEGGD+A  YF+CTEQVAGIQDTRFQ++MPDPLHWLG+T+IHRFISMSDMKY AIVSTGI+I ERVEIPPELVP+DA VEITAKV+ GYH GA Y  V E
Sbjct:    2 SASTQSTPSKVNARKRSLSELDLQQPDMRIHHDKMDFINLTTHSGNFFADPIPLKWEEEDPELRGPVVATTQHPMQRNAIGAHSGSYCIYKALAVACGKLDPNYLPKLHMTRPVFNIGPFPTWHDRTKIATMDPWGHMVTDVFGAYIRKGYDVRPTIAVTKAHIELPEVKEALRVGRLKPDGKILNAEGQAFVSKAAVEPVWYLPEIARRFGCTELALRETLFKETNMMYPELVTRPDLHVFLPPIGGLTIYIFGDPDTIADESVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECVRTAQQGGAGVVIYYRKEGRSLGEVTKYLVYNMRKRQEGGDTAAMYFNCTEQVAGIQDTRFQALMPDPLHWLGITRIHRFISMSDMKYQAIVSTGIRIDERVEIPPELVPRDAHVEITAKVFVGYHSGAAYAEVNE 436
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A6V1R1S8_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1R1S8_HETAK)

HSP 1 Score: 657 bits (1694), Expect = 3.270e-226
Identity = 317/433 (73.21%), Postives = 363/433 (83.83%), Query Frame = 3 
Query:  351 YLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDYAKEEGNGEGEERSAEKPAAEG 1649
            +++LT+H+  F ADPI +KWGE DPE+RGPV+ATT+H  QRNAIGAHSGSYCIY ALAVA+GKLD  Y P    T PV +IGP+PSW+DPSKI+++DP+GHLV   F  +LRKG+DIRPTIAVTKAHIDLPEV+EA+RVGRL ADG +L+++GQ+FI+K A+EPVWYLPEIA+RFG  E  LRE LF+ TNMMYPELVTR DL VFLPPIGG TIYI+G    IPDE VPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECI+TAQ GGTGV IYYRKEGR+LGEVTKYLVYN RKRQEGGD AE YF+CTE VAGIQDTRFQ++MPDPLHWLGVTKIHRFISMSDMKY+AI ++GI IVERV IPPELVP+DA+VEITAKV+ GY+GGA Y  V E+TLK T GR Y+Y K+E            P AEG
Sbjct:    3 FVSLTSHNCAFGADPIQLKWGEADPERRGPVIATTKHAAQRNAIGAHSGSYCIYMALAVAAGKLDPKYKPNFKDTVPVVNIGPYPSWNDPSKIASLDPFGHLVATEFDTYLRKGYDIRPTIAVTKAHIDLPEVQEALRVGRLTADGAILNEKGQTFISKAAIEPVWYLPEIARRFGCSEDYLRECLFRHTNMMYPELVTRPDLGVFLPPIGGCTIYIWGSVEAIPDESVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIKTAQTGGTGVVIYYRKEGRALGEVTKYLVYNKRKRQEGGDRAEEYFNCTEHVAGIQDTRFQALMPDPLHWLGVTKIHRFISMSDMKYEAITNSGITIVERVPIPPELVPEDAKVEITAKVFAGYNGGATYE-VDEKTLKETKGREYNYDKDEAXXXXXXXXXXAPKAEG 434
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S3GYW6_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3GYW6_9STRA)

HSP 1 Score: 648 bits (1671), Expect = 9.280e-223
Identity = 303/434 (69.82%), Postives = 355/434 (81.80%), Query Frame = 3 
Query:  276 SKRRRGPSI-TEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGR 1574
            S R+R  S+ T+++++ P+ +N  L Y++LTTH   F ++PI M WG  DP  RGPV+AT +H  QRNAIGAHSG YCIY ALAVASG+L+TN++P L  T P  D GPFPSW DP K+ T+DPWGH+VT VF P+ +KG+DIRPTIAVTKAHID PEV+EA+R+GRL+ DGK+L  + Q+ +TK A+EPVWYLP +A+RF   E  LR+ LFKETNMMYPEL+TR D+K+FLPPIGGLTIYI+G+P  IPDE +PLTVRVHDECNGSDVFGSDICTCRPYL HAIEECIRTAQQGG GV +Y+RKEGRSLGEVTKYLVYNMRKR EGGDSA  YF+CT  VAGI DTRFQ+MMPD LHWLG+TKI +FISMSDMKYDAIV+TGIKIVERV IPPEL+PKDAQVEI AKV+ GYHGG  Y   T E LK   GR
Sbjct:    2 SARKRAHSVSTDKEIEEPEKAN--LDYISLTTHDGEFGSNPIAMNWGHPDPAVRGPVIATVKHGGQRNAIGAHSGGYCIYTALAVASGELNTNHIPNLKMTSPTNDFGPFPSWKDPKKLVTIDPWGHMVTSVFEPYFKKGYDIRPTIAVTKAHIDFPEVKEAIRLGRLIPDGKILKADAQAMVTKAAIEPVWYLPGVAERFQCTEQALRQALFKETNMMYPELLTRTDIKLFLPPIGGLTIYIWGNPDTIPDESIPLTVRVHDECNGSDVFGSDICTCRPYLAHAIEECIRTAQQGGCGVVVYFRKEGRSLGEVTKYLVYNMRKRAEGGDSAAEYFNCTRNVAGITDTRFQAMMPDALHWLGITKIDKFISMSDMKYDAIVATGIKIVERVPIPPELIPKDAQVEIAAKVHVGYHGGDAYKIATAEELKGVTGR 433
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: K0T0F0_THAOC (Uncharacterized protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0T0F0_THAOC)

HSP 1 Score: 647 bits (1670), Expect = 2.930e-222
Identity = 309/443 (69.75%), Postives = 363/443 (81.94%), Query Frame = 3 
Query:  273 PSKRRRGPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDYAKEEG 1601
            PSK++R  SI E+ +  P+ +  +L ++NLT+HS  F  DPI + WG  DP  RGPV+ T RH +QRNAIGAHSGSYC+Y  LAVA+GKL+  Y+P L  T PV DIGP  SW DP KI+++DP+GHL TDV+S +L KGFDIRPTIA+TKAHIDLPE REAV+ GRL  DGKVL   GQS ++K A+EPVWYLPEIA+RFG  E  LR+++F+ TN MYPEL+TR D+K+FLPPIGGLTIYI+GDP  IPDED+ LT RVHDECNGSDVFGSDICTCRPYLTHAIEECI+TAQ+GG G+ IY+RKEGRSLGEVTKYLVYN RKRQEGGDSAE+YF CTEQVAG+QDTRFQ++MPDPLH+LGVTKIH FISMSDMKY+AIV+TGI+IV RVEIP ELVP DAQVEITAKV+ GY+ G  Y  + E+ LK TVGR Y Y K EG
Sbjct:    8 PSKKKR-KSIEEDSIPTPEFT--KLDHINLTSHSGTFGVDPIPVSWGHPDPLVRGPVICTVRHSSQRNAIGAHSGSYCVYTGLAVAAGKLNPEYVPNLKLTSPVFDIGPHSSWYDPKKIASIDPFGHLTTDVYSSYLNKGFDIRPTIAITKAHIDLPETREAVQSGRLKPDGKVLLPSGQSIVSKAAIEPVWYLPEIARRFGCTETTLRQSIFQMTNGMYPELITRPDIKIFLPPIGGLTIYIWGDPDTIPDEDIELTCRVHDECNGSDVFGSDICTCRPYLTHAIEECIKTAQRGGAGLVIYFRKEGRSLGEVTKYLVYNTRKRQEGGDSAENYFACTEQVAGVQDTRFQALMPDPLHFLGVTKIHNFISMSDMKYNAIVNTGIEIVNRVEIPKELVPDDAQVEITAKVFHGYNAGEAYQGIDEDELKKTVGREYAYDKPEG 447
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S1U4W9_9STRA (Hypothetical protein n=2 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U4W9_9STRA)

HSP 1 Score: 647 bits (1669), Expect = 4.470e-222
Identity = 309/438 (70.55%), Postives = 362/438 (82.65%), Query Frame = 3 
Query:  273 PSKRRRGPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDY 1586
            P KRRR  SITE DLK P   +D L Y++LT+H     ADP+ + WGEEDP+ RGPV+AT+ +   RNAIGAHSGSYC+Y+ALAVAS KLD +Y+P L  T PV  IGPFPSWSD  K++ MDP+GHL  + F  +LRKG+DIRPTIAVTKAHIDLPE +EA+R GR+V DG++L   GQS ITK A+EPVWYLPE+A+RFG  E  LR  LF+ETNMMYPEL+TR D+KVFLPPIGG TIYI+GDP+ IPDE++PLTVRVHDECNGSDVFGSDICTCRPYLTHA+EEC++TAQ GG GV IYYRKEGR+LGEVTKYLVYN RKRQE GD+A+ YF+CT+ VAG+ DTRFQ++MPD LHWLGVTKIH+FISMSDMKYDAIVSTGIKI ERV IPPELVP+DAQVEI AKVY GY+GG+ Y  V +E L++T GR Y Y
Sbjct:   11 PQKRRRTSSITESDLKKPAYRDD-LDYVSLTSHEVG--ADPVPLNWGEEDPDNRGPVIATSVNLRNRNAIGAHSGSYCVYRALAVASNKLDPSYVPDLTNTDPVHSIGPFPSWSDVRKMAVMDPYGHLTVEAFGTYLRKGYDIRPTIAVTKAHIDLPEFKEAIRAGRIVPDGEILKPTGQSIITKAAIEPVWYLPEVARRFGCSEQDLRLALFRETNMMYPELITRTDMKVFLPPIGGCTIYIWGDPNTIPDENIPLTVRVHDECNGSDVFGSDICTCRPYLTHAMEECVKTAQAGGAGVVIYYRKEGRALGEVTKYLVYNRRKRQEHGDTAKEYFNCTQYVAGVMDTRFQALMPDALHWLGVTKIHKFISMSDMKYDAIVSTGIKIEERVAIPPELVPQDAQVEIVAKVYAGYNGGSSY-VVDKEALEATKGRDYGY 444
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S3P7U7_9STRA (Hypothetical protein n=1 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3P7U7_9STRA)

HSP 1 Score: 639 bits (1649), Expect = 6.880e-219
Identity = 306/450 (68.00%), Postives = 359/450 (79.78%), Query Frame = 3 
Query:  252 SSTGRLSP---SKRRRGPSITEED-LKVPDLSNDQ-LGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDY 1586
            S    LSP   SK+ R     EED + +P++++      + LT+H   F  DPI + WG  DP+ RGPV+ T RH  QRNAIGAHSGSYCIY  LAVA+GKLD NY+P L  T PV  IGP+P+WSDP KI+++DP+GHL T+ +  WL +G+DIRPT+AVTKAHIDLPEVREA+R GRL ADGK+L   GQS + K A+EPVWYLPEIA+RF   E  LR+++F+ TN MYPEL+TR D+KVFLPPIGGLTIYI+GDP  IPDED+ LT RVHDECNGSDVFGSDICTCRPYLTHAIEECI+TAQ+GG GV IYYRKEGRSLGEVTKYLVYN RKRQEGGDSAE YF CTEQVAG+QDTRFQ++MPDPLH+LGVTKIH FISMSDMKY+AI STGIKIV R+EIPP+LVP DA+VEITAKV+ GY+ G  Y  + E+ LK T GR Y+Y
Sbjct:   21 SGISGLSPRTGSKKPRTDKKYEEDGVPIPEITDHSPQNMITLTSHPDAFGVDPIPISWGHPDPKVRGPVICTVRHSAQRNAIGAHSGSYCIYTGLAVAAGKLDPNYVPNLSLTSPVFKIGPYPAWSDPKKIASIDPFGHLTTEAYGNWLEQGWDIRPTVAVTKAHIDLPEVREALRTGRLTADGKILKASGQSVVAKAAIEPVWYLPEIARRFQTTESHLRQSIFRMTNGMYPELITRPDIKVFLPPIGGLTIYIWGDPQTIPDEDIELTCRVHDECNGSDVFGSDICTCRPYLTHAIEECIKTAQRGGCGVVIYYRKEGRSLGEVTKYLVYNTRKRQEGGDSAERYFSCTEQVAGVQDTRFQALMPDPLHFLGVTKIHNFISMSDMKYNAITSTGIKIVNRIEIPPDLVPDDAKVEITAKVFHGYNAGKAYQNIDEDELKKTKGRDYEY 470
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S2GXU1_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2GXU1_9STRA)

HSP 1 Score: 638 bits (1645), Expect = 1.660e-218
Identity = 304/437 (69.57%), Postives = 357/437 (81.69%), Query Frame = 3 
Query:  276 SKRRRGPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDY 1586
            +K++R  S +EE+  +P     +  ++NLT+H+  F  DPI + WG  DP+ RGPV+ T RH +QRNAIGAHSGSYCIY  LAVA+GKL+ +Y+P L  T PV  IGP+ SWSDP KIS MDP+GHL T  FS +L KGFDIRPTIAVTKAHIDLPE REA+  GRL  DGK+L   GQS  +K AVEPVWYLPE+A+RFG  E  LR+++F+ TN MYPEL+TR D+K+FLPPIGGLTIYI+GDP  IPDED+ LT RVHDECNGSDVFGSDICTCRPYLTHAIEECI+TAQ+GG G+ IY+RKEGRSLGEVTKYLVYN RKRQEGGDSAE+YF+CTEQVAG+QDTRFQ++MPDPLH+LGVTKIH FISMSDMKY+AIVSTGI+IV RVEIP ELVP DAQVEITAKVY GY+ G  Y  + E+ LK+T GR Y+Y
Sbjct:    9 NKKQRVSSKSEENDDIPTPEITESNHVNLTSHANVFGVDPIPISWGHPDPKVRGPVICTVRHSSQRNAIGAHSGSYCIYTGLAVAAGKLNPDYVPNLKLTSPVFKIGPYDSWSDPKKISAMDPFGHLTTQHFSGYLEKGFDIRPTIAVTKAHIDLPECREAIANGRLKPDGKILLPTGQSICSKAAVEPVWYLPEVARRFGCTESTLRQSIFRMTNGMYPELITRPDIKIFLPPIGGLTIYIWGDPDTIPDEDIELTCRVHDECNGSDVFGSDICTCRPYLTHAIEECIKTAQRGGCGIVIYFRKEGRSLGEVTKYLVYNTRKRQEGGDSAENYFNCTEQVAGVQDTRFQALMPDPLHFLGVTKIHNFISMSDMKYNAIVSTGIEIVNRVEIPKELVPDDAQVEITAKVYHGYNAGEAYKGIDEDELKNTKGREYNY 445
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S2SSD0_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SSD0_9STRA)

HSP 1 Score: 638 bits (1646), Expect = 4.470e-218
Identity = 306/439 (69.70%), Postives = 356/439 (81.09%), Query Frame = 3 
Query:  276 SKRRRGPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDYAK 1592
            + ++R     EE   VPD   D    +NLTTHS +F A P+ +KWG ++  +RGPV+ATTRH  QRNAIGAHSGSYCIYKALAVA G LD  Y P+L  T+PV   GPFP+W D  KI +MDP GH     F   + KG+DIRPTIA+T+AHIDLPE +EA+RVGRL  DGKVL+ +GQS I+K AVEPVW+LP IA+RFG  E +LRE LF+ETNMMYPEL+TR D+KVFLPPIGGLT+YI+GDP+LIPDEDV LTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQ+GGTG+ IYYRKEGR+LGEVTKYLVYNMRKRQEGGD AE YF+CT+ VAG+ D+RFQ++MPDPLHWLGVTKIHR ISMS+MKYDAI  +GI++VERV IPPELVPKDA VEITAKV+ GY G AG  +V + TL+  VGR YDY K
Sbjct:   37 TNKKRKADEEEEQAPVPDPIFDDFKVINLTTHSGSFGAVPLPLKWGAKNARERGPVLATTRHTEQRNAIGAHSGSYCIYKALAVAQGTLDPKYTPQLSLTKPVVPFGPFPAWFDEKKIVSMDPLGHNPVQFFREHMEKGYDIRPTIAITRAHIDLPECKEAIRVGRLEPDGKVLTGDGQSHISKVAVEPVWHLPGIAERFGCTEQVLRECLFRETNMMYPELITRPDVKVFLPPIGGLTVYIWGDPALIPDEDVELTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQKGGTGIVIYYRKEGRALGEVTKYLVYNMRKRQEGGDRAEEYFNCTQHVAGVTDSRFQAIMPDPLHWLGVTKIHRLISMSNMKYDAITGSGIEVVERVPIPPELVPKDAAVEITAKVFEGYEG-AGVYSVDKSTLQQVVGRDYDYNK 474
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: B8BZE2_THAPS (Uncharacterized protein n=3 Tax=Eukaryota TaxID=2759 RepID=B8BZE2_THAPS)

HSP 1 Score: 635 bits (1639), Expect = 1.110e-217
Identity = 305/449 (67.93%), Postives = 359/449 (79.96%), Query Frame = 3 
Query:  255 STGRLSPSKRRRGPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEETLKSTVGRGYDYAKEEG 1601
            ST    P K+R     TE+D  +P      + Y+NLT+H+ +F  DP+ + WG  DP  RGPV+ T RH +QRNAIGAHSGSYCIY  LAVA+GKL+ +Y+P L  T PV  IGP  SWSDP KIS++DP+G + T+VF  +L KGFDIRPTIAVTKAHIDLPE REA+  GRLV DGK+L   GQS ++K A+EPVWYLPEIA+RFG  E +LR+++F+ TN MYPEL+TR D+K+FLPPIGGLTIYI+GDP  IPDED+ LT RVHDECNGSDVFGSDICTCRPYLTHAIEECI+TAQ+GG G+ IY+RKEGRSLGEVTKYLVYN RKRQEGGDSAE+YF CTE+VAG+QDTRFQ++MPDPLH+LGVTKIH FISMSDMKY+AIVSTGI+IV R+EIP ELVP DAQVEITAKV+ GY+ G  Y  + E  LK T GR Y Y K EG
Sbjct:    2 STTAPPPKKQR-----TEQDDGIPVPEITSVDYVNLTSHTDSFGVDPLPISWGHPDPLVRGPVICTVRHSSQRNAIGAHSGSYCIYTGLAVAAGKLNPDYVPNLKLTSPVFKIGPHKSWSDPKKISSIDPFGAVTTEVFGAYLDKGFDIRPTIAVTKAHIDLPETREAIAKGRLVPDGKILLPTGQSIVSKAAIEPVWYLPEIARRFGCTETVLRQSIFRMTNGMYPELITRPDIKIFLPPIGGLTIYIWGDPDTIPDEDIELTCRVHDECNGSDVFGSDICTCRPYLTHAIEECIKTAQRGGCGIVIYFRKEGRSLGEVTKYLVYNTRKRQEGGDSAENYFSCTEKVAGVQDTRFQALMPDPLHFLGVTKIHNFISMSDMKYNAIVSTGIEIVNRIEIPQELVPADAQVEITAKVFHGYNAGDAYKGIDENALKKTKGREYGYDKAEG 445
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BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Match: A0A7S2JIP4_9DINO (Hypothetical protein n=2 Tax=Brandtodinium nutricula TaxID=1333877 RepID=A0A7S2JIP4_9DINO)

HSP 1 Score: 638 bits (1645), Expect = 1.050e-216
Identity = 306/447 (68.46%), Postives = 354/447 (79.19%), Query Frame = 3 
Query:  255 STGRLSPSKRRRGPSITEEDL-KVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGPVMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCDIGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDLPEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEVLLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVPLTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRKEGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPDPLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEITAKVYGGYHGGAGYNAVTEE-TLKSTVGRGYDYA 1589
            S+    P  R  G     EDL  +PD+        +LTTH   F  +P+ M WG   PE RGPV+AT+RHPTQRN IGAHSG Y IY+ALAV S KLD +YLPKL  T PV  +GPFP+W DP +I T+DP+GH V++ F+PWL KG+DIRPTIAVTKAHI+LPE REA+RVGRL ADG VL+ EGQSF+TK A+EPVWYLP +A+RFGV E  LRE+LFKETN MYPEL+TR DLK+FLPPIGG+T+YI+GDP  I DE V LTVRVHDECNGSDVFGSDICTCRPYLTHAIEECI+ AQ+GG G+ +Y+RKEGR+LGEVTKYLVYNMRKRQEGGD A  YF+CTE VAGI DTRFQ +MPD LHWLGVTKIHRFISMSDMK+DA+ +TGIKIVERVEIPP++VPKDAQVEI AKVY GYHGG  Y    ++ TL +  GR Y  A
Sbjct:  111 SSPENQPVTRVLGEHAAYEDLCAIPDVELPDCAATSLTTHDGAFGPEPVLMSWGAASPEARGPVLATSRHPTQRNVIGAHSGGYSIYRALAVVSQKLDNDYLPKLGMTTPVARVGPFPAWHDPKRIVTIDPYGHAVSEGFAPWLEKGYDIRPTIAVTKAHIELPECREALRVGRLEADGAVLTAEGQSFVTKAAIEPVWYLPGVAERFGVTEQRLRESLFKETNSMYPELLTRNDLKLFLPPIGGMTVYIWGDPETIADESVELTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIKIAQRGGAGIVVYFRKEGRALGEVTKYLVYNMRKRQEGGDRASEYFNCTEAVAGIADTRFQVLMPDVLHWLGVTKIHRFISMSDMKHDAVTATGIKIVERVEIPPDMVPKDAQVEIAAKVYAGYHGGKTYEGAKDKATLDNVKGREYSSA 557
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig13.170.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A835YXC9_9STRA1.520e-24377.24GTP cyclohydrolase N terminal-domain-containing pr... [more]
A0A6V1R1S8_HETAK3.270e-22673.21Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S3GYW6_9STRA9.280e-22369.82Hypothetical protein n=1 Tax=Spumella elongata Tax... [more]
K0T0F0_THAOC2.930e-22269.75Uncharacterized protein n=1 Tax=Thalassiosira ocea... [more]
A0A7S1U4W9_9STRA4.470e-22270.55Hypothetical protein n=2 Tax=Phaeomonas parva TaxI... [more]
A0A7S3P7U7_9STRA6.880e-21968.00Hypothetical protein n=1 Tax=Amphora coffeiformis ... [more]
A0A7S2GXU1_9STRA1.660e-21869.57Hypothetical protein n=1 Tax=Helicotheca tamesis T... [more]
A0A7S2SSD0_9STRA4.470e-21869.70Hypothetical protein n=1 Tax=Rhizochromulina marin... [more]
B8BZE2_THAPS1.110e-21767.93Uncharacterized protein n=3 Tax=Eukaryota TaxID=27... [more]
A0A7S2JIP4_9DINO1.050e-21668.46Hypothetical protein n=2 Tax=Brandtodinium nutricu... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig13contigP-littoralis_Contig13:878097..903498 -
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 ortholog159749.K0T0F0
PFAMsGTP_CH_N,GTP_cyclohydro2
Model size2970
Max annot lvl2836|Bacillariophyta
Hectar predicted targeting categoryother localisation
Exons15
Evalue2.51e-230
EggNOG OGsCOG0807@1|root,KOG1284@2759|Eukaryota,2XAA3@2836|Bacillariophyta
Ec32 ortholog descriptionGTP cyclohydrolase N-terminal
Ec32 orthologEc-22_000270.1
DescriptionGTP cyclohydrolase N terminal
Cds size1512
COG categoryH
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig13.170.1prot_P-littoralis_Contig13.170.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig13 879429..895143 -


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

Feature NameUnique NameSpeciesTypePosition
1680789585.6599722-UTR-P-littoralis_Contig13:878096..8784791680789585.6599722-UTR-P-littoralis_Contig13:878096..878479Pylaiella littoralis U1_48UTRP-littoralis_Contig13 878097..878479 -
1680789585.6765335-UTR-P-littoralis_Contig13:878493..8794281680789585.6765335-UTR-P-littoralis_Contig13:878493..879428Pylaiella littoralis U1_48UTRP-littoralis_Contig13 878494..879428 -
1680789585.8451416-UTR-P-littoralis_Contig13:895143..8951911680789585.8451416-UTR-P-littoralis_Contig13:895143..895191Pylaiella littoralis U1_48UTRP-littoralis_Contig13 895144..895191 -
1680789585.8542163-UTR-P-littoralis_Contig13:903406..9034981680789585.8542163-UTR-P-littoralis_Contig13:903406..903498Pylaiella littoralis U1_48UTRP-littoralis_Contig13 903407..903498 -


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

Feature NameUnique NameSpeciesTypePosition
1680789585.6863503-CDS-P-littoralis_Contig13:879428..8795421680789585.6863503-CDS-P-littoralis_Contig13:879428..879542Pylaiella littoralis U1_48CDSP-littoralis_Contig13 879429..879542 -
1680789585.7011137-CDS-P-littoralis_Contig13:881577..8816341680789585.7011137-CDS-P-littoralis_Contig13:881577..881634Pylaiella littoralis U1_48CDSP-littoralis_Contig13 881578..881634 -
1680789585.7134755-CDS-P-littoralis_Contig13:882522..8825821680789585.7134755-CDS-P-littoralis_Contig13:882522..882582Pylaiella littoralis U1_48CDSP-littoralis_Contig13 882523..882582 -
1680789585.726906-CDS-P-littoralis_Contig13:884477..8846031680789585.726906-CDS-P-littoralis_Contig13:884477..884603Pylaiella littoralis U1_48CDSP-littoralis_Contig13 884478..884603 -
1680789585.7368972-CDS-P-littoralis_Contig13:886140..8862421680789585.7368972-CDS-P-littoralis_Contig13:886140..886242Pylaiella littoralis U1_48CDSP-littoralis_Contig13 886141..886242 -
1680789585.749534-CDS-P-littoralis_Contig13:887265..8873681680789585.749534-CDS-P-littoralis_Contig13:887265..887368Pylaiella littoralis U1_48CDSP-littoralis_Contig13 887266..887368 -
1680789585.7593277-CDS-P-littoralis_Contig13:888122..8882501680789585.7593277-CDS-P-littoralis_Contig13:888122..888250Pylaiella littoralis U1_48CDSP-littoralis_Contig13 888123..888250 -
1680789585.7730346-CDS-P-littoralis_Contig13:888681..8888161680789585.7730346-CDS-P-littoralis_Contig13:888681..888816Pylaiella littoralis U1_48CDSP-littoralis_Contig13 888682..888816 -
1680789585.7851286-CDS-P-littoralis_Contig13:889747..8899091680789585.7851286-CDS-P-littoralis_Contig13:889747..889909Pylaiella littoralis U1_48CDSP-littoralis_Contig13 889748..889909 -
1680789585.7951841-CDS-P-littoralis_Contig13:890846..8909961680789585.7951841-CDS-P-littoralis_Contig13:890846..890996Pylaiella littoralis U1_48CDSP-littoralis_Contig13 890847..890996 -
1680789585.8044384-CDS-P-littoralis_Contig13:891753..8918611680789585.8044384-CDS-P-littoralis_Contig13:891753..891861Pylaiella littoralis U1_48CDSP-littoralis_Contig13 891754..891861 -
1680789585.8138452-CDS-P-littoralis_Contig13:892765..8928661680789585.8138452-CDS-P-littoralis_Contig13:892765..892866Pylaiella littoralis U1_48CDSP-littoralis_Contig13 892766..892866 -
1680789585.8296053-CDS-P-littoralis_Contig13:894977..8951431680789585.8296053-CDS-P-littoralis_Contig13:894977..895143Pylaiella littoralis U1_48CDSP-littoralis_Contig13 894978..895143 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig13.170.1

>prot_P-littoralis_Contig13.170.1 ID=prot_P-littoralis_Contig13.170.1|Name=mRNA_P-littoralis_Contig13.170.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=504bp
MSPPPAKAVGENGANGGGNGSSKRPAKTPPSPTPSSASSTGRLSPSKRRR
GPSITEEDLKVPDLSNDQLGYLNLTTHSANFLADPIDMKWGEEDPEQRGP
VMATTRHPTQRNAIGAHSGSYCIYKALAVASGKLDTNYLPKLFATRPVCD
IGPFPSWSDPSKISTMDPWGHLVTDVFSPWLRKGFDIRPTIAVTKAHIDL
PEVREAVRVGRLVADGKVLSKEGQSFITKCAVEPVWYLPEIAKRFGVEEV
LLRETLFKETNMMYPELVTREDLKVFLPPIGGLTIYIFGDPSLIPDEDVP
LTVRVHDECNGSDVFGSDICTCRPYLTHAIEECIRTAQQGGTGVCIYYRK
EGRSLGEVTKYLVYNMRKRQEGGDSAEHYFDCTEQVAGIQDTRFQSMMPD
PLHWLGVTKIHRFISMSDMKYDAIVSTGIKIVERVEIPPELVPKDAQVEI
TAKVYGGYHGGAGYNAVTEETLKSTVGRGYDYAKEEGNGEGEERSAEKPA
AEG*
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mRNA from alignment at P-littoralis_Contig13:878097..903498-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig13.170.1 ID=mRNA_P-littoralis_Contig13.170.1|Name=mRNA_P-littoralis_Contig13.170.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=25402bp|location=Sequence derived from alignment at P-littoralis_Contig13:878097..903498- (Pylaiella littoralis U1_48)
AAGCAACGCGATAACCACCTTGTAGCACGCAGCGCGCAGGCACACGCACG
CGACACACACGGAACACGCGCAAACGGCGAACATACCTCGAGGTGAGATA
GTTGGATGCGAATGGCCAAAATGCTGTTGATATGGTGTTGGAGAGGCGAA
TAGGCACGTGGTCCAAGAGTCGCTCGAAAAGAAGATATGCGCAGTGTTTG
TTCTTCTTTGAGCAGTAAAAGAGAGGAGAGAGCTGTCGGGAGAGACCTCT
GTGGTGGGTCAATGCATGTCTTTACACACAGCATTCAAGTCAGCCTGGAC
CATCAGCATCAGCAACATGAGTGCCACATGATCGCAAACTGACTACATAT
GTGTGGTAAAGAGAGCTCCATGGTGTGCGGGAAGCAGGACTCTGTTGCGC
AAGCTTCCTCTCTCGCGCGTTTTGTTCATTCGTTTTAACCGTGCTGTGGA
GCAGAGGGAGCAGTCGACTCGTTCTGAATCTAGTCGACTCGTTCTGAATC
TATAGGCGTTCATACGAAGCATGCATACATGTTGACTCTGGCGCGCTTGT
CATGAGAGACTCGAAGAACTTCTTCGATGCAGGGACGTCAATGGAGACCG
GCAGTGGTTATGCACAGCAGTGCAGGACAGCACAAAAACATTAGATACGC
ATGTAGGACAACACAAAAACATGTACTGTAATGTTACACAGGAGCTGTTC
GCGAAAAATGGTTACCTACTGCTGTGTTTCCTCACGCAGGCATCAGTGTA
TTGAATTCGTCTCTCTGCTGCAGTAGACGAGAACATTCTGCCCCGAGTAG
TAGACAGAGCAACGAACACGAGGAACCGTACATCCATCTACGAACTTGTG
TTTCTGTCTGTAACTCAACTAACCAGAAAGCGCCGTTGCAGCACGAGATT
GAGGTACATATGTATGATATTGGAGTACTCAAAATCAACGTTGAAGCATC
ATCATCTTCCCGGCGGGTAGATACAGAGTTGTTGGAATATCCCGGAAAAC
TCACGCTCCACTTTGCCGACGGCGAAAGCTCGTCACAGGCAACTGCTCGA
AATTGCCACAGCCCATCATACAATACCAACAATGTGGTGTGCGGGAGGTG
TGTCATGCCCTGACAGCAGTAGCAGGAACGATTCTGTCGGTATGCATATT
CTTGTCAACTGCTGTGTTTCTAAATGCATACAGCAGTAGCCCGACAACGT
ACGTGCCAAGTGCCGGATGTGTTGGATATGTTTGCGCGATGCTGCCGTTC
TCCGCGCGTGTTCGTACGTATCACCGATTGACACTGTTGTATTTAGATGG
AATATAGATGGTTTACCGGGCGATTACGGAGGCTCGAGATCGCGCGCACT
AAATGTTTCGATCTACATACGGCCCAAGAGCCTTCAAGAAAAGACGCCTT
CCTACAGATATTTTGATATTTTTTGGCCCCCTCTAGATGAAGCTGCACCT
GTGCGAATCCCTTGACTCTTGACGTTCAAGTTACACTTTGTTTCAAAATT
CGGCAAACGCCGTTCCTTTCCAAACCTGTTTTTTTGTTTCGTACCCTGTA
GTTGACAATAAAATGCTGGAAGGCAAAAAAAGACAGGCACTGCAGAAGGT
GAGAGGAGAAAAAAAAAAAAATACTGCGTGTGACCTTTTTTCTGTGTAAC
CCCGGCTGGTGCACCCACTTCATACCGGAAGGTGTAGACTGCCGCCCAGA
ATAAATGGAACCAAAACACACACACACACACACACTGGGCTCTGCGCTCT
GGAGTGCCTTGGTCGGTCTGGGCTCTGAGCTCTGGTTGCGAAGCTGCTGT
TTGGTTGGCCCTGGTATTGTTTGTTTCCAATTTCTGTTTTTTTTTCGGGC
CTGTATTTATGTATTTGCAACTCTGGCCACCACAGGAGGTACCCCAACGG
TACTTTCTCTGATTTTGTTTGGGTGTGGCCATAGTCCATTTATTTTATTT
TATTTTTATTTTCCTCCTAGCACGATTTGTGCCTGGTTTGTGACCACGGG
CTAGACTTTGGTCGTGAGCTAATGTGAGAATCAACAACAACACACACACA
CACTTCAATCCAGCCTGACCTCCTTCTTCTTCTTTCAGACCCATAAATAG
TTGATCACACGTCAAATCATGTGTGCTCATCCATTCATGTGTCACTGGTT
CAAATCCTGTCGACAATGTGCCCCACTTTTCGAGGAAAAACGTTTTTGAT
TTGTATTTCTATGTTCCAAGGCCGATTCTTGCGGTAGATGGGCACTTAAA
AGTTCTCGAGTTGGGAAAGCATTTTCCGAGCCTGATTTTGATTTTCGAAT
CTGGTATATCAGGCTGGGGCCAACTCATGGGAAGATTGGAAAATCTGGAC
AGCAATTGGAAATCGGGAGGGGTTGTCGGATGGACGGCAGGCGGTTTGGG
TCAGTGCAATGTTGAGAAACTGGTGCTGATGGTGCAGAGCGGCAAGCGTG
ATCGTCAGCACGGCCAGGATCGCACGTAGCCTTGGTACCTGCACCTGGCT
CGTGCGTTGACTATCCTCCAGGGTTCAGCTTTTGCGCAAGACGTAGGCAG
CAGTTGAGATTACTCTCTGGACAGCCGATCACTCTCTCCGAACGCTCCGT
CAGACTCTTTTTCTCCAGTTCGGACTCCGATATCACAAGGCACCAGTAGC
TCTCAGCAGCAGGGGCGACAGCCTTGACAATCGCGAGTGTTCACAAGGGA
TCGCACTCAGGGGTTTGGGCCTTTTGGTGGTGAGCCGTATTGAAGTGGAA
TACGGGGTTTGCTGGACACGGTCGATAGGGGATGCTAATCGACCGTCCCC
AAAATACCTACAGGTAGCGAGGAGGCGTTCCCGTCAAAATCAGCCTCAGC
GCTTATCTGCACCTTCCACGTATAGGTTGATTGGGGCCCACACACACACA
CATCATCATACTTGATCTCGCGCCTCAGAGTTGCCGCCTTTTACACCCCC
CCCAGCATCGGGCACGACTCAGGCGAAAATGCCAAAGATGCGGCTGTCAC
GGCTTTCCTGCGCGAGTCTTGATCCTCGAAGATACCGGTCTTGCATTCCT
CTATGTTGACCGCTGGGGTTTGATCTTGAATCGGGCCCTGAATCCAGTAC
GTGAAGAGGCCGGGCTTGTAGTCACCAACTTGGAACATCCAGAAGAGGCC
GTCCTGAAGTCGCTGTTTTTTTTACCCATGGAGGGCCGAATTTCAAGCTC
TCCTTTCCATGAATGAATTGATACACACTCCCTTCATACCCCCCCAGGTC
GCCACATGAGGGCGAGCTTAGGCAGTGATGTACGTGCAGAAATGACGTTG
AACGTGTACGGGAGGTCGAGCTGCCAACCCGATGCCGTGGATGAGTCCTC
GTCGCGCAAACTCTTCCCAGTCTCCATCTGGTTGGGTATTCCACCCGCCA
GTAGGGATCACTCAAGTCGCAGCACACGTTGCCTCGAAAGGTCTTGAGGT
TACCCTCTCTGTCAGCAAACTGACGGCCCACTACTGTGCCAATTAGGGTC
TGTACTGCAAGAGTGCTTCCTCCCCGGAGTCGCTCCACTTCTCGCTCCCC
CCGTGTGGACACTCCCGGAGGTCGTTGCGCTTTGTTCGGGCCGTGGTACT
CTTACCACGAAGCGTGAAACATGTCCAGTTGCAGCGACGAGAAGCTGTCT
TTCACTTCACCCTCTGCCAGTCAGGTAGAAACGGCACCATCCTGATACCA
ACCTTGGTGGGTGCTCCCACGACGCCCATGCAGTTGGCGTGCGTCCAACT
CCAGCAGGTGGCGGCGATTGTCGTTGCTAGAGTTCACCTTCATATCTTGG
TTGTCCACCACGAGCACTTTCCAAGGCTGCAACAGACGTGCAGGCAGCAT
GGAGGTTTGTTTTGGTCCACGGGCGCTTCCGCCGGCGACACTTGCAGGAC
AGCACGCACGCTGGTGTGTTTTTTCTTCAGAAGTGGGCCAATGGTATTTG
GGTTCGATGAAGATCGTGGTGCGTGCCGCACCCGGGTGTCCATACATGCC
ATGCACCAACGCCGATTCCGCAGAGACAATCTTTCGCGGTGCGTGCCGAA
AGCAACTGTTTTCTCGTCCGCTCTCTCCTCATTCGTGCTCTAGCTCTTTC
CGCGTCAAAGACTTCGAGATGGGGTCCCGCCGCTGCGCTTCTTCCGCGAG
TTTGTTTCGATCGCGCAGTGTCGTTTCCGTTCTCGCCAATTGAGCCGAGT
TCCCTCTGCCAAAGGCAGGCCGATCTGCTGGGTCTTCCTCGCCTTGTTCT
CCTCCATTGACGTCAGAGCCACTCCCTTGGGCCGCTGAACAACACCTCCT
TGTTGAGCTACCGTTGGCGTTGGACCGCAGCCGACGCTCGCTCTGGTCAG
GATGGATGAGCCGTGCGAGCTCGCAGTCGTCCGCGAAGTCCTCCAGCGAC
CCTTCAGGCGTTGGAGGACTTCGCGGACTACCGCAAGCTCGCACGGCTCG
TCTTTTCTCGTCAGAGCGAGCGTCGGCTGCGGTCCAACGTCAACGGCAGC
TCAAGAAGAAGGCGTTGTTCAGCGGCCCAAAGGAGTAGCTCGGCAGCCTG
AAACAGTGGCTCCAACGTCGGCGCAAGTACAAGAAGGACGCATTGTTCAG
CGGCGCAAAGGAGTGGCTCGGCAGCCTGAAACAGTGGCTTCAACGTCGAC
GCAAGTTCGAGAAGGACGCGTTGTTGAGCGGCCCGAAGGAGTCGCTCGGC
CTGAAATAGTGGTTCTCCACCCTATGACAGGGAGTTTGTACGGTGTGTTG
GAACCCGTGCGCTTTGCTGCAATCGTTCTAGTTCTCACCTAACATTATCC
CCTAGGGTTCGGCTAACTTTCTTGGGTCCCCCCGAGAGGCCCCCGTGACT
GCAACGAAATGAATCTTAGATTCGAAAATTACTATTTTTTTGAAGAACAA
GGGATACAGCAGGTATGACCAGATACTTCCTCTGTATCATAAGTCTGGGC
TGTTAGGTGCGTGTAATTGTTTGCGCATCCATACTCTTTCGATCATCCTA
TAGTTAGGTTAGTTCGAAAGATGAAGTCTCAAAGAAGCTGATGCAAAAAA
AAAAGCAAAAAAAAAAGCCAGTTGTTTATACTAAAATGAAGTCAAAATAT
GCCCATTTTGGCCCATTTAAAGAATTTTGATTCCGCCAGATGTCTTGGTT
TTTGAGCATGAGTCTCAAGTATCTTCGTTTTAGTGTGGCAAACCCAAGTG
TCTCGGTTTTAGCGTCGCGTCACTATTATACTGATTTTAGTAAGGAGGGA
CTCGACATGAATCTTTGAGGTAGGGGGGCTAGGTTCAGGGTTAGGGATAA
TTTTGGGGGGGATTGCATTGGTTGTTTTTTTTTGCCCCCGCCCCCCACTC
CACCTCTGGAAAATGTTAAATACGGTCATTTTTGGCCTGACTACTTTTTT
GTTAGCCGCTAGCCTATGCGCAGGGTAGTGCGCAAGAAAAATATATATAT
GTGTTTCAACCCAAAAAACTCCGAAGATTTCGAAAAAATTATCGCCGAAG
ACATCGGACACCGTTGAGGGGTCGTAAAAACATAACGGCACAGACTTATG
ATACAGAGGAAGTATATATTTATCTGATGAGTCATGAGAAACCCAGGGAG
GGTACTGATACAAGTACAGGTACAGGTACATTTTTCTTATTGTTCGTTGA
TATTCTACGCACTCCAGATCTGTCTTCAAGAGAGCCGAAGATATTCGTGT
GTTTGCAGGCAAAACACAAAAAAAAATGCATGTTTGATCTGCCAAGCGAG
GCCGTGTCGGCACTCATGGTGCTTGGTCAAATCAACCCGGTATCATATCA
TCCGACCGGCGAAAATTGATTCCGCGGCTTGCGACAAAGCGGTCAACCCT
GGCCCGCCGGCAAAAAAGGGTACCGGGCTAAGCCAGGCGTAATTGCTGCA
GCGGTGAAGAAGTAGCAGCAGAACAGCACTAGGGGTTAGGGTGCCTAGCG
TGTAGATGGTCTCTTTTCCTCCTGGCGTGCGCGTGCACGTGTGTTTTCGT
CCCTGCGATGGCTTTTGCTTGCTTCTCTCTCTGTTTTTTTTTTTTTTCTA
GTTTGTCGTCTCGCCTGGGATATATGGATGGCATGCACGAATGCCTCCCA
GGCCTTTTGCACTCCTACGGCTGTGTGACCACGGTGGCGGTGCGGCGCGG
TCACAACAGCAGCACGGGTTCGATGTGCAGTGCAGTACTAGTTGTACGCG
TGTGCTGTGCGAGAAAGCTGTTTTTGTGTGTCTGCTGTCTTTGCGTAAAC
TATCATTACCGTCTCTGCGCGGTGTACCTTTCCTTGTCCGTACTCCTGGC
CCATCCGATACGGAGGGGGTGCTCTCCGTGGTCACAGGCTACCCACCCTC
AAAAAGAGGTCGTACACTCTGTAGAAACGCAGGAACCTAGATACCACGAC
TCAAAACATCCTAGCTAGACACAGAGAGAGTGTTGTGTGTGCGTGTCATC
CCAATTATTCTGGGCGCCAGTCTACACCTTTCGGTATGAAGTGGGTGCTT
CAACCAGGGGTTACACAGAAGGAAGGTCACACACGAGCTTCTTTTTGTTT
TTCTTTTGCCCAAATCTTCTTCCTGCGGTACGTAACTTGGTTCTTAATGC
GAGTCGGGTGCAGCAATGCCTTCCCTCTGTTTACTCACGAGTTATTCGCT
CTCCGCTGTAGAGTCGCAAGAAACGCTCTCTGAGAGAATCGAACCTACGA
CCTGACAAGTAGCAGGTTAACGAGGGAACCACTAGACCACCGGGGCGACC
GGGTAGTGCACAAGGAGTAATCTGATGAAACGCTGTGTGCAACAGAGGTG
GCAGTGTACCCTTGCAAACTATGTGCTGTGCCACTAAATACTTGTATGGA
AAAAGGAAAGTGGGTTTGTTGAGGCCGGTCGCATGCATAGTAGTTCCCGG
CCTCAAAAAGCTAGGAGTGAGGGGCAGGCGTTTCCCCCATGCAGTCGGCG
CCGATCGCGGTGCTCCTGTCTCCCGAAAGTTGGGTGTTGACAAGAGGCAG
ATTGCATGCGTAAATCTTCCAAAAATGGAAGTAGTCGTATCGATCCGGTT
GTTACTCCAGGGCGTTGGTTTTGGTCGAGGCCGATCGCACGGCAATTTTG
TGATATTGGTGTGTGATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAATTCGTCCCATTT
ATTTTAGGCACCAGGCTACACCTTTCAGTATGAAGTGCGTGTACCAGCCG
GGGGGTCACGCTGAAAGAAGGGCACACAGGAGTCTCTTTTCATTAGTACC
TGCGGCGGCATTTTGTGTTGATCCCATGAATGACTCTGGCCCTTCCTTCT
CGGAACGGGTTTATCTCGACGAAGAGAACCCCTATTCACGCGCGGGTTTT
GGAAATACGAATGTAAATATCATGGCAATTTCAATCTTTGCGTCGCTCGC
GAATTTTGCTTGAAGCAAAGCAATACTGACCGTTGGGCCTGTAGACGGTA
TCAATCAACATCGTGGTTCTATTTTGGATGTTTACATACATACTGTGTCG
GCAATTTCGAATGGAGTGGGTCGTCTCGTCTGTGCGCGCACGTACGAGAT
GCAGTGCCTCCGGTTCGGCTGCTGCAACATGTTGCGGCTGCTTACAGCAT
GTGACAACAGCTGTTGCAGCGTGCCTCGGACTGGAAAACCCCGACAGGCG
CGGCATTTTTTGGCATAATATGCACGAAGTAGCTGGTGTCATGCGGTAAG
AGGGCTCAAAAAAGGGACCAACCCAGAACCGAAGTGACTGATACCGACGC
CTGCCTCGTTTGTCAGGAGTCTACATCCAAGCAAAAATTATGGCTGGTAC
CGACCGTGTCATTTTCAACGCCCCGCTATTATCATAGCACTCTCAATTCA
AGTATACTGAACGCACACCGACATTGAAAAAATAAAAATTGCCCCTCCCG
CATATGACATGTTTCGACCGGGAATGTGGGAATAGACGTCTCGACCCCAT
CGTGCCTACTCGGAGTTGATATTGACGGAGGCGTTTCGTTTGCTTGTATG
ATATGATATGATATGACTATTCCGGTAGAGAACCTCAGAGTAGGCCGTTT
TGATCCCACTGCTGCTGCTGCTGCGTCTCCCAAGAGCTGGTGTCGGCGGA
GGCCTCTGTTTGCATGCGTTAGTAACAGTCATTCCGGCCTGAAAGATTAA
AGTAGGCGTTTACGCCTGCTCGCCTGCGTGTGTGCCTGCTCCGTGCTCCG
CCTGCTTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCGGCAGCTTCGGAGGGAGGAGGGAGTTCCATCGATCCATCGACCTGCCG
GCACCATGAGCCCCCCGCCGGCGAAAGCCGTAGGCGAGAACGGCGCGAAC
GGCGGCGGGAACGGCAGCAGCAAGAGGCCCGCGAAGACGCCGCCAAGCCC
CACCCCTAGCTCGGCGTCGTCGACCGGCCGCCTGTCGCCGTCCAAGCGCA
GGAGGGGCCCGTCCATCACAGGTATACCATCCTTGTACAGCGGGAGAGAG
GGTATGATAGAGGTGGTGGCCTTTTTTTTTTATCGTTCTTGATTTTCTTC
GGAGGTAATCTCGGCATCGTTTTTTTGAGGTTGGTAACAGTGCAGTAATC
TACGGTAATCGGCCACCGTGGTAACGCTACGGTGGTACTCGGCCCTACTT
GGGTGCAGATATCATGCTTCGAAGTACAAAGTAGAGCACTGTTCGGTAAC
GAATGGTAATTCCAAATCTCCCGGTATTCTACCAATTACGAAGTACAAAT
TTACCAGAGGCCCCCTGATTTTTTGGGAATATTTTTTTAAGGGGGGGAGG
GCGGGCCCGTTCGTGAGCCCGCTCGTGCTGCTTGACCTCTGATATATACA
TACTGTCCGAATTACATTCCTGGTATTGTTGATCGAGGTGGTGGGGCTGT
CCTTGTATACTGCTGCAAACTCATAGCATTGTTGTCATGGGTCGTGGGGG
TCGTGGGGCTGTTCTTGGGGCCGACGGGCCGACGGTCTGTCTATGGACTA
CGGCATGTACTTCACAGTTTTTCGTCTCTTCTTCCTGTACTGGCGTCAAA
CGTCGTCACCAGCGCTGCATAGTTCAAAACCTCTTCTCCGCTTCCGGTTT
TTGTAGATAAATCTTGAATCACCCCTGTCATTCGCACTCATTCATTAGGA
CACTCCGTAGGGGGATCTTGTATATATATATAATATATAAAATGATGCAA
TAGAAAGTTTGCGCAAAAGGATTTATTATCTCAAATATCCTTTCTTGGTT
CCCCCGAGGTTTCCCCGAGAGGCTCCGTGACTGCAACAGAAAGGGTTTAT
TTTCTCAAATTCCGGAAAATCCCGGGATGAAGGGATATTTGGAAAGAATA
TTTGATCTGCAAGGCGAGCCCATGTCGGCACATAACGTGATTGGCCAAAT
CAGTCCGGCCTCTCCGCAACAGTGTTCTATTAGAGAAGATGACGATACAC
CACTACGTTTCAGTTGACAACACCGATCACTGCGCCGTGATTTCTGAAGG
CAGCGAGCTCAAAAAGGGTTCCCTACAACCCTGCAGTCACTGTGCCAACA
CCTTCGTCGCTGGTTCATGTGGTGGAAGCGTGCCAGCCGTGCAAAACATA
GCATCTGAGGAGCGACCCTTTGAAAGTAGCGAGTGTAGGCTGGCGTGCGT
CCGCAGCAGAGGCAACACACAGCTGTCGCGGGACACAGACATTAGAAGAC
CGGCAGTCACAGCAGTCACGCTCTCGCTCTTTACACCACGTATCAAGGCG
AAAACTTCTTTGCTGTCTCCTCTGTATACTGCTCTCCGTCCGCAGGAGGT
TGGGTTGGAAGTGGGTTCATTCAACCGGGGGAGAGAAGTATCGATCGAGG
TTTACACCTGCCGTGTGTGTTGTCATCCCTTTCACCTGGCACGCTGAAAA
TGCAAACGACCTCTCTTGTTTGCACTTGAAAATAGAACGAACGTATCATA
CAGCAGTACAGCTGCTCTGTACTCAGTTAAAGTACAGCAGTATAGTTGAC
ACACACGAATCATGCCTTCTTCCACAACTACAGCCTCTCTGCCGAACTTG
CCCCATCCCTGCTGCCCGTGACCCCTGAGTTTGCATTTACTTCGCTTGAC
CCGGCACCCTTCCCCACTACTTGAACCAAAGACTCGTTGTCTTGGCTATC
CTACAGCAGCAGCACATCATCAGCCGTGTGTGTGGGCGTGTGTGTCTGAT
TGTTGCTCTGCACTAGCATACGAGAGTGTGGGTGTTCTGTCAGAAGGGAA
TTCCTTTTGCGCAAACTCATTTTCAAAAGGGATTTTTATTCACGGCGCTT
TTTTTTTTTTTTCCAAGAAAGGATATTTGAGAGAATAAACCCTTTTGCGC
AAAACTCTCTAATACGATGTACGAAGTGTAATAAATACCAGGTATGTACT
TCGTACCTCGAAGTAGAGCACCTTGTTTGATACGAAGTACAAATGTATCT
GGAGAAACGTAACACTATTTTTGAGAGACCAAACCATACAACACGATACC
ATACCACAGTAAACCATACCATACCAAACCATACCATACCGTTTTATTTC
GGTTATTTTTCGTTTCTTTCCGTTGCGTTCAGAGGAAGATCTTAAGGTAC
CGGACCTTAGCAATGACCAGCTGGGGTACCTCAACCTCACCACCCACTCG
GCTAACTTTTTGGCGGACCCCATCGACATGAAGGTGGGACGGAAAAGACA
CGACAGTGTCGGTGATTGCTGTTCAGTGTTGGCAGTGCTGGGATTCATGT
ACTGCTGTAGTGCCGAAAATTTGTTCTTGTTGCTGGTGGTGGTGGTGGTG
GTGGTGGTGGTGGCGGCGAGGTTACCCTTGCTGTTGACAGTCCCGTTGTT
GTTTTTGTTGTTTCTGTTTCTGTTGTTGTCGTTGTCGTTGCTGTTGACAG
TCCCGCTGACAGTCCCGCTGACAGTCCCGTCGTTTGTTGTTGTGGGGGGA
GATGTTGCTCACCCGGCTAAGTTCTTGGTGGATTCCATCGACATGAACGT
ACCATATAGCATTTTTGAGGGAATGTTGGGGCAGGTGTGTGCGTATGTAA
CGCATATTTCGGTGAAGTGGTTGGTACTGGTGCCCTTGCTTGTGTTTGCA
GTGAGGGCACCCTCGTTGTCCCTCTTTGTTGTGTGTTACTGGTGACGGCG
GTACGTCCCTCGTGAGTGTTTTTTGCCGGAACTGTTGTTATTACTGCTGG
TGGTGATACTGCTGTAGTGGTGGCGGTGAGGGCACCCCCCCCCCCCTTGC
TGTTATCGGTGGCGGGCTCCCTTGATGTTAGCTTGTGTACTGTTATGTGT
CGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTATTTGTTGTCTCGTCG
CTGTGCTTTACGATACCACGGTACGTTCGTTTGTTTGTTTGCTAAGCCGC
TGTACATATGTCCATTCCTTCGATCAACGCACCCCGAATCGCCCTTGTAT
GCATACTGTCTGCCTATGAAACAACATACCGTTCACGTTTCACTTCGTCC
AGAATTTACGGGAACGCATGTGTGCCAATCAACCAATGAACACATACTTA
CCGCCCCACAAATCAACATGTATCCCGTGTCCAATAGTGGGGGGAAGAAG
ATCCGGAGCAAAGGGGCCCCGTGATGGCCACCACCCGCCACCCCACCCAG
AGGAACGCCATCGGCGCGCACAGCGGCAGCTACTGCATCTATAAGGTGAC
TTTACTACAACATCGTAGCGGGTTCTTCGATAAAGTCATCAGTTCGGCAG
AATGGTTAGGGACTGCATCTGCTGCATCTGCTGCATCTGCTGCATCTGCT
GCATCTGCTGCTGCTGCTGCATCTGCTGCTGCTGCTGCTGTTGTGCCTTC
TTTCATTTTTGATATTCTCTTTACGTTGCAGTGCTCTTGTAGAGGTTTTT
CCACGCACAATAAGAACGTGACATGATATACCACACCCCCAGGTAAATGT
CAAAGAATACTGCACCGGTGTGGTTTTTTTTTCAAGCCCCAAAATGTTGA
TCACACTGGTGTGTGTTGTGTGGACACCTGCGGTAATAAGTCGAGTGGAC
ACCTGCGTGAAGAAAATTAAGTTCAGTTTAGTTGAAATTAGTGGGGGGTT
CGGGGTCGGGGTTAGGGTGAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTG
CGTAACCCCCCCCTCTCTAATTCCTACTTAACTTAATTTTCCTGCGAAGG
CGGTCCTTTGGGTTAGGATTGTTTGCTGCTGCTCACCACGTACCGAAGAG
TAAAATACTCAACGACGCTCGCTGTAGATTTTGGCGATGACCTCATGCGA
GAACCACCACCATCACCACCGACAACAACTGCTGCCCCTCTGTGTCTGCA
GAACGTTTCCGCTTAGTCCTCCCGCTATTGTGGGGTACATGTGTGTGTGT
GTGCGCGTGTGCACTGCTGTTGTTCGGTTTGGCGTGGCTGTGGGTGCGGC
AGGCCCTGGCGGTTGCGTCCGGGAAGCTGGATACGAATTACCTGCCAAAG
CTGTTCGCTACCCGTCCGGTGTGTGACATCGGGCCTTTCCCATCGTGGTC
CGACCCGTCCAAAATTAGCACCATGGACCCTTGGGGGCACCTCGTCACGG
ATGTGAGAGCCTCATTGAAGACTTGTCCAGGGCTCTATCATACTTTGATG
CTTTCTGTTGTGTGGAGGCGAAAGTAGTTGCGGATGTTGTCCGTTGTCGT
CCAAAATTTGCACCATGGGCCCTTGGGGGCACCTCGTTGCGGATGTGAGA
GCCTCATGGAAGACTTGTATCGTTTGATACTTGCTGCTGTTGTTTGAAGG
CGAGAGGTAGTTACGATGTTGTGTTGTCGTTATCATTGTTGCTGCTGTCT
ATCCTTGATCTCGTTCTCGTTCTTGTTCTTGTTATTGTAATTGCCGTTGT
TTGTTGATTTTGTTGGCGTTGTTGTTGATGCTGTGGCTTTTGGTTGGGTC
CTTGTTCTTGTCTTGTCGTTGTTGACAGTCCCGCTGACAGTCCCGCTGCT
GTCGTTCTTGTCCCCATGAGCTCGTCGTTAACATTGTTTCTCACGTTATA
TAGCCCGCCGTCAACACCATTCTGGCCGTGGTCACAATACAATACCAACA
ATACCAACCCAAGAGTCACAAAAGCTGATGGGTTGGGTCGAATCGTTGGC
CCAGGATAGCGACAAAAGTAAACCTTCCTTTCGGATGGGACGATGGACAT
GCAAGGGGCGCAATCGGTCGTTGATGGGAAATCGCAACCTGCGAAGAAGA
GGGCACCAGGCTGATTGTTATTTTGAAGCTCTCGGCTCAGTAAGCGAGGT
GACGTTGACGACAACAGCCCCAGCAACAACAACAACAACAACAACAACAA
CAACACCGCCATCACCAGCACACACACATTGTTTGGGTGTGGCCATCGTT
CGTTGTTCATTTCCTTCAATTTTATTTTTCCTCCTAGCACGATTTGTGCC
TGGTTTGTGACCACGGGCTAGACTTTGGTGGTGAGCTAATGTCATAATCA
ACAACAACAACAACAACACACACACATACACACACACAGGTGTTCAGCCC
GTGGCTCCGAAAAGGTTTCGACATCCGGCCGACCATAGCGGTGACCAAGG
CGCACATAGACCTTCCGGAGGTCCGTGAAGCCGTGAGGGTTGGAAGGCTT
GTTGCGGACGGGAAGGTCTTGAGCAAGGAGGGACAGAGCTTCATCACCAA
GGTATGAATTGATAGGTGTCGCAACCGGCGACAAGTATGAACCACACACC
TTTTATGTAAAGTGGCAAACGAAAGACACCCCGTTCCTTATCAATCGTCT
ATATGTAAAAGGATTTACCGCTCCCAACGGTAGAAGTTGAACGGAATTTC
ATACTCACGTGCTACTACAGGATGTTTTTATTTTTTATTTTTTATTTTTT
TCGTCCGAAAGATCCGGATCTTCCTGGACAAAGCATTTTTGTCGAGCTTT
GTGCTTACCGCAAAACGGTCCTCAGAACCAGACACTGAACAACAAGCTAC
TGTATGTATGTATGTATGTATGTATGTATGCATGTATGTATGTACATGTA
TCGTTTGTTGTAGAGAGAATGCTAGCCCCGGTGCAAGTCTTGATTGTCTA
ATGGAAGAGTCTTCGAAGCAGCGAACAAAAAAATAATTTTACGCGTGTAT
TGTTGTTTTGAGTTGTAGTTTAGGAACGGTAAACAAAAAATTATTTCATG
AAAAATTTCAGTACCAGAGTTACAAGGTGCGATTTCAGTCCCAGAAGATA
AATACTTGTGTAGCACGATTTCAGTGCCCGTTCTTGCATCGCCAAGGCGT
GGTATCACTTGTTTTTGGCCGTGCGGTTTTGTGCTTTTCTTTTGTGTGCT
TGTGCGTTCTTGCATCACCAAGGTATGATGCATGTGTCTTCCATGTTTTT
TGTATTTCGCGTCGTCGCTATAATTTTTATCGCCGTGTTCTTGGTCATTC
TCGGATCACCAAGGTAGAATGTACCTCGTGTATATGTGTGTCGATATTTT
TGTGTATGGCGTCGTCGTTTTCGTTTTTTCAGTGCGTAATTGTGCTCTCT
TTTTCTGAATATGCATTATTTCATCACCAAGGTACATATGTATGATGTAC
ATGTGTTGATGTTTCTTGTTTGGCGTCGTCAGTGCGCCGTGGAGCCCGTG
TGGTATCTCCCGGAGATCGCCAAGCGGTTCGGGGTGGAAGAGGTCCTGCT
GAGGGAAACGCTCTTCAAGGAGACAAACATGATGTACCCGGAGCTTGTCA
CTAGGGAGGACCTCAAGGTATCGTTGTTGTTTGCGTTGTTCTTGTTCTTG
TTTGTTGCAGGTGGTGTTGTTGTTTGTTGCAGGTGGTGTTGTTGTTTGTT
GCAGGTGGTGTTGTTGTTTGTTGCAGGTGGTGTTGTTGTTTGTTGCAGGT
GGTGCTGTTGTTGTTGTTGCTGCTGGTGGTGCTGTTATTGGTGGTGGTGG
TGGTGGTGCTCCTGCTGTTACTGTTGCCCTTGCTCTTGCTCTTGCTGGCG
GTGGCAGTGTTAGCGGTGTCGGTGGTGGTGCTGATATTGGTGACGTTTTT
GCTGTTGCTCTTGCTGTTGACTACTGTCGGCAGTGGTGGGGGTGGCGTTG
CTGCGGTGTTGTCATTTCTACGCCGTTGTTGGCATATCATAGCATGTACA
ACCCGAACGTTCACTGACCATGCGGTACAATGCTCTCTCCAAAATAAGGT
GTTCCTTCCCCCGATCGGAGGTCTGACGATCTACATCTTCGGAGATCCCT
CCTTAATACCCGACGAGGACGTGCCGCTGACGGTACGGGTTCACGACGAA
TGTAACGGTTCAGACGTCTTCGGCAGGTGAAACCGAAAAACATGGGGTTT
TTTTTGTTTTTTTGTGGCTGGGGTATGATAGGTGGTGACGATCATGTTGT
CAGTGTTGGTGTTGGTGTTGTGAGGGGAAAAGGCAGGCAGGAGGTAGAAC
CGAAACTGGTTGTCGTCGTCTACTTTTGGTTCGTGTAGGTGGTGGTGGTG
GTGGTGGTGGTGTGGTGGTCATGTTGGTTGTTGATCTTGATGTTGGAAGG
GGAAAATGATGGCTGTCGTTAGTCGGTGGTTGGTGGTGTTGCTGCCGGTG
TTGGTACCGGTGCCCATGTCCGTGTTGTTGGTGGTGGTGGTGGTGGTGGC
GGTGGTGGCGGTAGTGGTGGTGGTGGTGATGATTGTCGGGTCGGTCTTAC
AGGTTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCCGTCCCTTCAGGTAAC
ACATCTATATGCCACCCGTTGTCACAGCAGTAGCAGTGTTGAAGCCAATG
GACTATGCACCGACCCCCCCGCTGTTTGTCAGTCGTACCTGCACTGTGGG
GCCTTCATAACTGCCGCGCACCCGAAATGACCCCCCCCCCCCACACACAC
ACACACACACACACACACACACACATGAATTAGTGAACTTCCCCCACATC
TGAACTTTCAGTGATTTTGGCACTCGGGCGATCATACTTGCCGCGCAAGC
GGAACGACCCTTCTTGAACACACACCCACACATAATAATAATTATCCCCC
CCCCCCCCCCCCCTTCCGTCCGATATTCAGTGATATCTGCACCTGTCGCC
CCTACCTGACGCACGCCATAGAGGAGTGCATCCGCACGGCCCAGCAGGGG
GGCACGGGAGTATGCATCTACTACAGAAAAGAGGTACAGATAGTCACTTA
TTTACTCTAGAGATTGCAGAGTAGTCAGGTACGTATTTGACTATTTTCCC
TCTGAGCGCGCAGCTTAGCTATTACAAGTATTTGATACGTACTTCGAAGT
GTTTAAACATACTATTCTCACTTTTGAGTGTGCAGATTGCCTCCCCGTTC
CCCGTGTATGATTTATCACCTGCTGCGTGCAACACCTCGTGCAATGTTTA
CCAGGAAGGCGTGTTTCATCTCCTTCAGTCTGACGTACCAGTATACCGCT
GATGATTTTCAGTCGGGGAACGTCGCATACACATTTTTCATGTTGCGGAG
CCCCCTCCTCCTCCCCTCCCCCCGACCTTCCAGCCTTATGTGGTTCACGC
ATGTTTTCCCTGTTTCTCGCTCCCGAAGTGACCGATGTCATACACAATTT
ATGATACTGCGGAGCCCCCCCGACCTTTTACGTCTTTTGGCGTGCACGCA
TTTTTTTCCGTTTCTTGTTCCAGAAGTGACCCACATTTGTTGTTCTTTTG
TCGTCATTCTCTCTCTCTCTTTTATGTTTGATTTGTTTTATCGACACCCC
CTCCCTTTCTGTGTTCGTTGTTGTTTTATCGTCACTCACTTTCTCTCTCT
TTTTATGTTTGTTGTTTTATCGTCACTCTTAATTCTCTTGATGCTTGTTT
GTTTTTGTTGTTGTTTTATAGTCACTCTCCCTCTCTCTCTTTATGTTTGT
TGTTGTTTTCTCACCACTCCCTTCTCTTTTTTTCTATGTTTGTATTTGTT
GTTGTTTTATCGTCACTCTCTCCGACTTTTTTTTTATGTTTGTTGTTTCA
TCGTCATTTTCTGCCCTGTTGTTGTTTTATCGTCACTCTCTCTCATTTTT
GCTTGTTGTTGTTATCGTCGTCTCTCTCTCTCTCTCTCTCTCTCTTTATG
TATGTGTGTTGTTTTATCGTCACTCTCTCCCCCTCTTTTTACGTTTGTTC
CTGTTTTCGCGTCGCTCCCTTCTCTCTTTTTCTTTTTTCCTGGCGCGGTC
GTGCAGGGGCGATCGTTAGGGGAAGTGACGAAGTACCTTGTGTACAACAT
GAGGAAGCGCCAAGAAGGGGGGGACTCTGCCGAGCACTACTTCGACTGCA
CGGAGCAGGTGCAGGATATTGTGTTGTTGTTCTTGTTTCTTGTTATTGTT
TTTGTTGTTGTCATTGTTGTTGTTGTTCTTCTTCTTCTTCTTCTTATGTT
TCGTGTTGTTGTTGTTGACAGTCCCGCTGACAGTCCCGCTGACAGTCCCG
TTGTTGTCGTTGTTGTTGTCGTCGTCGTTGTTGTTGTCGTCGTCGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTATCGTTGTTGTTGCTGCTGCTGC
TGCCGCCGGTGCTGGCTTTGGGGCTGGTGGTGTTGTCGTTCTCGCTGATT
TTCGTCGTGTTCTGTTCTGTTCGGTTCTGTCTAGTGCTACTGCAGGACGT
TTTTCAGCAAGCACGACTTCCTTTTTTTCCTTCTGAACTTGTCTTTGGGT
CACGACGGCTGTGTGTCGGACTGTTTAGAAGCGGTTTTCCTCCCATTGCA
CCATCTCCGGGGGTACACTTGTAAATGCAGGACACGGTCCGTTCCACAGG
CGATGGTGCCCAACCCCACGTCTCCACGATTATGTTTTTGGCGTTATCAA
GCAGTGTCACATACGAAGTGTTTTGCACTTCCATGTTTTAACGATCACGT
ATACCATTACTCTCCATCGCGTAAAACGAGATTACTCCGTATTTTGTTTT
TGTTCTTTGAAAAAATGTACGCAGCGCAGTACGAAGAGCATCGCACTGCA
TGTTGCAACGATCGCCTATGATACAACGGGATTCTCCACCGCGTACATGG
AACGGGATTTTGTCTTGTTTCGAGGGTTTTCAAGTTGTTGTTGTTGTTGT
TGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAA
CCAGGCACATATCGTGCTAGGGGGAAAAAAATGAAAAAATAAAATTTATG
GACTATGATCACCCACAGTCAGATCAGATATGGTACCGTAGGTACCATAT
GTGGTGGCCAGAATACCAAATAAATACAGAAAAAAATAACAGGCTCGAAA
GAAAAACAAAAATTGGAAACAGTCCGACAAACAAAAAACAAAAAATAACC
AAGACAAACCTCATCAACCATAACCATATACTTCGAAGTACTTCGTACAT
CGAACCAGGGCCCAGGGCCATGACAGACCAAGGCAAACGCAAACCAGGGC
GATGGTCCAGTAACTACATGATCAACAGACGAAAGACAAAAAAAAAAAAA
AACAGAGACAAAAAAATAAATAAAAAGAAGAAGATACAGGGAGAGCACAA
AGACTGAGGGAGTGCATTCGTAGACAAACACAACAAACAGGGCCAAACAA
AGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAGATCGGAAGTACCGGAAG
TCGGGGGGGGGGGGGGGGGAGGTGATAAAAATAAAATAAAAGTATTGTTC
TTGGAAGTATATTGCACTGCTGTACATGCTGTAACGATCGCGTTAGAACG
GGATTCTCCATCGCGTAAAACGGGAACTCTTCTTGTTGCTCACCACTCCC
AACCACCATCACCACCTCTGATGCCACTGATGCCACTGACTTCAGGTGGC
CGGTATCCAGGACACTAGGTTCCAGTCGATGATGCCCGACCCCCTTCACT
GGCTGGGAGTAACCAAGATTCATCGCTTCATCTCCATGAGCGACATGAAG
TACGACGCCATCGTGTCGACGGTGAGCGCGTATTTTTTTGTAGTTGTGAT
GTACGATACCTCTGGGAAGAAATAATGATAATAGCATACTTCGAAGTATG
ATGAATAAAAAAAATATCATTTCTTTTATATCAGCATCAATTATAGGGAC
ATCAGCCCCTTAATCTTTCGTCGGTCGCCCCGGTGGTGTAGAGGATCCTT
CGTCAACTCTCGATCTGCGAAGATGCAGGTTTGATTCTCTCTGAGAGCGT
TTTCCTACGATGTTATCGTGGTAAGCGAATCCATTTTGAGGGGAAACACG
GGGACGGGATTGCTAAGCTGAATCTTACTCGCGTTGAAAAGCAAAGACAA
GCGCCGAACATGAAATAAAAAAGAGCTCGTGTGGGGCAACAAACATGCAA
GGGTCGGTTTAGTATAGTATGTACTATTAGTACTGACCCGAGTATTGAGT
AAGTATCTGGCCCTTTTCGCCCAGTAGAGTAATACTCACACTTTAGTACA
GCTTTTCATACTCTACTAAGAATACTGTGGCGTTTAGTACAGCTCTTCGT
ACTCTACTAAAACTTTTGTAAGTACGGCTCTTCAATACTCTACTAAACAT
CTTTTTGAGTATAGTACGGCTTTCCATACTCTACTCATACTCACTGTTTA
GTACGGCTCTTCATACTCTACTCAACATACTCTTGCGGTTTAGTACGGCT
TTTCATCCTCTACTAAACATACTCTTTGGGTTTAGTATGAAATAAAAAAG
AGCTCGTGGGGCAACAAACATGAAATAAAAAAGAGCTCGTGTCCATCCCC
AATATTTATCACAACAAAAAGAGCAACAATATGACGAGTAATCCGTCCGC
ACGTAGTCCGGATGTCGTAAGAAAATTCATGCGCTTGGGACGATATTTCT
CCCCTGGTAAATCGGTCGCCCCGGTGGTCTAGTGGTCCCCTCGTCAACCT
ACTAAAGGTCGTAGGTTCGATGTTCTCTCTGAGAAACGTTTCTTGCGACT
TTGCAGTGGAAAGCGAATTACTCGTGAGCAAACAGAGGCAAGGGATTGCT
GAACCCGACTCGCATTAAAACCAAAGGCACGTACCGCAGAAGGAAGGTGT
GCGCAATAAAACAAAACAAAAAACGAAAAAGCTCGTGTGTGACCTTCCTC
CTGTGTGAACCCGGCTGAAGCACCCACATCATACCGAAAGGTGTAGACTG
GTCCCCAGAATAATTGGGATGACACACACACAGTACCGTTACCTGATGCA
CCTCATTTGTGTTGAGAGAAGGCATCTTACCACGCAAGAAATAGTCGATC
ACCGTTCGGAGCAGAACGGAATGAAGTGGAGATTGCAGGTAACAATAACG
ACAGGACTGTCAGCGGGACTGTCAACTAACTAGACTTTGAAGTGTACCGT
GTTTCCGGTGACATCGTTCGACCACAAGGAATCAAGATCGTGGGACGGGT
CGAGATTCCGCAGGAGCTCGTGCCCAAGGATCCTGAAAATGATGTCGTAT
GATGGATGATACACACCATCACCATCATCATACTACATGACCAAAGTATC
CTTGGGCACGAGCTCCGGCCGTATCTCGACCCGTTCCACGATCTTGAATA
ACGGGACTGTCAGCGGGACTGTTAACAATACAAAGTATGTTTTTTCGGTG
ACATCGGTCGACCTCAGGGAATCAAGATCGTGGAACGGGGCGAGACACCG
CAGTAGCTCGTGCCCGAGGATGCTCAAGTGATGTCGTACGATGATGATCA
CACCGTCATCACCATTCTCATACGGCATCACCTGAGCGTCCTTGGGCACC
AGCTCCGGCCGTATCTCGACATCTCAACCCGTGCCACGATCTTAAACAAC
GGGACTGTCAGCGGGACTGTCAACAAACACATTTTCCTTTTTTTCGGTGA
CATCGTTCGTCCTCAGGGAATCAAGATAGTGGAACGGGTCGAGATACCGC
CGGAGCTCGTGCCCAAGGATGCTCAGGTGATTCCGTATGATTGAGATTCA
CACCATCATCACCATTGCTCTTTTTGTCTTGACGTGCGATAAAGTGAACG
GGGTTCTGTGTGCGTGAAAGGAAAAGAGGCGTTTGTGCGTGAAAGGAAAA
GAGACGTGTGTGCGTGAAATGAAAAGAGGCGTGTGTGCGTGAAAGGAAAA
GAGACGTGTGTGCGTGAAAGAAAAAGAGGCGTGTGTATGTGAAAGGGAAA
GAGGCGTGTGTGCGTGAAAGGAAAAGAGGCGTGTGTATGTGAAAGGAAAA
GAGGCATGTGTGCGTGAAATGAAAAGAGGCGTGTGTGTGTGAAAGGGAAA
GAGGCATGTGTGCGTGAAATGAAAAGAGGCGTAGTTTCGTGAAATGAAAA
GAGGCGTGTGTATGTGAAAGGAAAAGAAACGTGTCTGTGAAATGAAAAGA
GGCGTGTGTGCGTGAAAGGAAAAGAGGCGTGTGTGTGCGTGTGTGTGTGT
CTGTGTGTTGTCAGTTATTTTATTCTTACTTTCCCTTTGACTGAAAAGTG
CATTTTGCGCCCCAAGACGTGTCGTGCCTAGACTGTGATTGATGTTTGTC
CGTTACGTATTTGGATATTTGCCAAAGGATATAATTTACCATTCTTCGCA
GGCTTTTGTTCGGGGTGCTTAGCCATGCATCACACCATATATTTGCTCGT
GTTTGAAGCTATGAGGCTGAAGTTCTTCAACGACGCCAAGTTCTGAAGGC
GTGGCGCCATCTGTTCCTGGCACCCCGAAGTGCATATCGTATGATATGAT
GTTTCTACTCACATCATGTGGTAATTTTTCGTTCTTTTTTTCTTGCTGTT
TTTGTTACTCAGTCATAAATCACACGAAGGACAGCGTTTTTTTTTTTTTT
TTCATGATCCCCAGGTGGAAATCACCGCCAAGGTCTACGGAGGTTACCAT
GGAGGCGCCGGTTACAACGCGGTGAGCCGTCACGCCGGGTCGCGTCACAC
CAGCCTCTCCTCTCCTCGTCCTCCAACCAACCTTTCCTTCACCACCACCA
CCACCACCACCACCACCACCACCACCATCATCATTATCAGCAGCAGTAGC
AGCAGCAGTAGCAGCAGCAGCAGCATTTTGTGCACGACAATTGACCCCCC
ACATACACATACATACAGCCGGATCACTTTTTGTTTTTGCTTTTGACTTT
AGAGACGAAAATGGTTGTGTAAAACACGGAGCAGTTTTCTCCGATCTATG
TGTTTCTGCATTTTGTGCTGCCTGGCCATGCCCGCCCAGTCTCTCTTCGA
ACAAGTTTTACAAGCCGTGTCTCCCCAGACGCGTAGCAGTAGTAGCAGGA
ACAGCATGCTGCCGACGATAAGGAGGCCGAGGAGATGCCTAACTCTTTCA
TCACGGGCTATCCCCCCTTTCCTTGGAACCCTGAAACCGGAAAATTACAG
ATTACTATCATATCCCCCCCCCCAATAACAGAGAGCCCAAACGGTTGAAA
AATCTACTTCTTGAGCACAACAGGAGACAGCACCAAGCAGAACTCGACCC
CTGGGACACCAATCGAGACTATAAGTGTTGGACGGTACGCTCTAGTGTTC
TCAGGTTGGCCACAGCAACTTTGGTGGGTGTGGGCTTTGGCTGTGGCGAG
GTTTCGGCGGCGGAGTGGGTTGACGTAGGAAAATCCAGTGGAAAAAAAAC
GCTGTCCGAGCCTGTTTTTTGGCTGGAAAAACAGGAGCGAAGACTGTTAT
TTCGATTCATCTGTTTTTCCATCTCCAACACACACCGCCGCCAAAATCTC
GTCACAGCCCGAACCCACTGCCACCAAACATCCTGTGGCCAACTTGAGAA
GATAGGAGCACACGATCCATCAGGTTTGATCGGCATCTGTGTCCTAGGGG
TCGAGTTATGGCTGGTGCTGTCGCATAATGTGTCCGACAGGGCTGTTTGC
GGGTGGGGGGGGGTAGGGGAGTTCTCTGGTTGGATTCTTGTAGGGGGGTC
AAAACGCCAGGCCAAAATAACGTTGACCGTAAGAAACAGCCTAAGACGCT
CTTCTTTATCATCGTACCATAATGGCCTGACCCCCCTTCCCCTGAAACCG
GAGTATTTACTACCCCCCCCTATTTTTCAGGTGAACGCAAGGACGCTCAA
CTGTATCATCATGGACTGACCCCCCTACCCCTGAAATTGGAGTAATGCTA
CCTCCCTCCCCCCCCCGCCCTACATTTTGGTACCCGAAGAGATGCTCAAC
TCTTTCATCATCAAGGACTACCCCAAACTTTTTTAGATGGCCGAGGCGTT
GCCCAACTCTATCACCACGGGCGACCCCCCCCCCCTCCCCCACCCCTGAA
ATCGTGGTATTGCTCACACAGATAAAAGCTCGAACAAAAACAAGGCAAGC
ACCGCGTAGGGAAGTGGAGAAAAAAAAAAACTCCTGTGTTGACTTCTCCC
TGTTCTGTGTGACCCCAGTTGGAGCGTCGACCTACCGAAAGGTGCAGAGT
GGCGTCCAATTAAAGGGATGACAAAAACACACACACACACACACACACAC
ACACACACACACACACACGCACGCGCACGCGCACGCGCACACGCACATTC
AATCTTTTTCAAGTGGCCTAGGAGACGCTCAACTGGATCATGGGCCGACC
TCCCTTCCCCTGGAATCGGAATATGGCCACACACCCCAAATATATTTGTA
ATAACCGAGGCGTTACTCTACTCGATCGTCATGGGCGAGACCTTCCCCCC
CCCCCCCTCCTGAAATCGTGATATTTCTACACATGCACAATATTTTTCAG
GCAAGGAAAGATATGCTCAAGGCTATCATCATGGTCTTTCCTCCCTCTCC
CCTGAAACCTCAAGTATTTTTATCCCCCCCCCCCCCCATCCATTTTTCAG
GTGACCGAATAGGCACCAGAGTCTATCATCATGCCCCTCCCCTTGAAATT
ATCGTGATATTGCCCCCCCCCCCCCCCAACCCACCCCCCTCCGCTACATT
GTCTAGGTGACCGAGGAGACGCTAAAGTCGACGGTGGGAAGAGGTTACGA
CTATGCGAAGGAGGAGGGAAACGGTGAAGGCGAAGAAAGAAGCGCCGAGA
AACCGGCGGCTGAGGGATGACCTAACCTGGCCAAGAGCAAAAACGAACTA
GTTAGGCCGTGTGTGTTGTCATCCCTTTAATTGGACGCCACTCTACACCT
TTCGGGTAGGTAGACGCTCCAACCGGGGTCACACAGGGGGAAGTCAACAC
AGGAGTTTTTTTTTTTTCTTTTTAGGCTTTTAGGCTAGGGTTGTCTATAA
TATAGGGTAAATGTTGAGAAAAAAAAAACGATATGATATAGACGACGTGA
CAATTTTGTAGCGTTTTTTTTTTTTTTTTTTTTGCGACAGCAGTCGTGCG
ATGGGTTTTTGAGCCGATGACAGCGGAGGAAAAAACGTGACCAACCAAGC
GGTATGAAAAAGGAGCAATTCTAGTTAGTTCTGGTCACGGTTTTTGCGTG
TTCGGGTGGATACGGTTATTATGGTTGCGGTTGCTTGCGGTTACAGTTTT
TTGGCAAAAATAAATAGCGAAGTGAAAAAGACGATCGACGTTGTTTAACA
CGTATCACAGAATTTGATCCCATACATAAGACCGTTTCTTACGGCTCCGT
TGTTTGGTCCTGTGCTTTTTCTCCTGAGGTACCCCCCCCCCCCAAATAAC
AGAGAGCCCAAACGGTTGAAAAATCTACTTCTTGAGCACAACAGGAGACA
GCACCAAGCAGAACTCGACCCCTGGGACACCAATCGAGACTATACGTGTT
GGACGGTACGCTCTTGTGTTCTCAGGTTGGCCACAGGAACTTTGGTGGGT
GTGGGCTTTGGCTGTGGCGAGGTTTCGGCGGCGGGGTGAGTTGAGGTAGG
AAGATCCAGTTGAAAAAAAACGCTGTCCGAGCCTGTTTTTTGGCCGGAAA
AACAGGAGCGAAGACTGTTATTTCGATTCATCTGTTTTTCCATCTCCAAC
ACACACCGCCGCCAAAATCTCGCCACAGCCCGAACCCACTGCCACCAAAC
ATCCTGTGGCCAACTTGAGAACATAGGAGCACACGATCCATCAGGTTTGA
TCAGCATCTGTGTCCTAGAGGTCGATTTCTGGTTGGTGCCGTCGCATAAT
GTGTGCAACAGGGTTGTTTGCGGGTGGGGGGAGTAGGGGGGTTCTCTGGT
TGGATTCTTGTAGCGGGGTCAAAACGCCAGGCCAAAAAAACGTTGACCGT
AAGAAACAGCCTAATAAGCGTTATGCCGCCCTGAAAACGAGCGAGGATCG
AGCCTCACACGCGCACTTCAAAATGAAAAAGTCAACCTAGCATATACTTT
TTTAGGTCGGCGGGTCATGTCGGGATGTTGCACTCCTCCGCACACACCCA
CACCTAGACTTGGTGACGGTGATGAGCCCCTAGGTAGACTACTGCTGCTT
GC
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Coding sequence (CDS) from alignment at P-littoralis_Contig13:878097..903498-

>mRNA_P-littoralis_Contig13.170.1 ID=mRNA_P-littoralis_Contig13.170.1|Name=mRNA_P-littoralis_Contig13.170.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1512bp|location=Sequence derived from alignment at P-littoralis_Contig13:878097..903498- (Pylaiella littoralis U1_48)
ATGAGCCCCCCGCCGGCGAAAGCCGTAGGCGAGAACGGCGCGAACGGCGG
CGGGAACGGCAGCAGCAAGAGGCCCGCGAAGACGCCGCCAAGCCCCACCC
CTAGCTCGGCGTCGTCGACCGGCCGCCTGTCGCCGTCCAAGCGCAGGAGG
GGCCCGTCCATCACAGAGGAAGATCTTAAGGTACCGGACCTTAGCAATGA
CCAGCTGGGGTACCTCAACCTCACCACCCACTCGGCTAACTTTTTGGCGG
ACCCCATCGACATGAAGTGGGGGGAAGAAGATCCGGAGCAAAGGGGCCCC
GTGATGGCCACCACCCGCCACCCCACCCAGAGGAACGCCATCGGCGCGCA
CAGCGGCAGCTACTGCATCTATAAGGCCCTGGCGGTTGCGTCCGGGAAGC
TGGATACGAATTACCTGCCAAAGCTGTTCGCTACCCGTCCGGTGTGTGAC
ATCGGGCCTTTCCCATCGTGGTCCGACCCGTCCAAAATTAGCACCATGGA
CCCTTGGGGGCACCTCGTCACGGATGTGTTCAGCCCGTGGCTCCGAAAAG
GTTTCGACATCCGGCCGACCATAGCGGTGACCAAGGCGCACATAGACCTT
CCGGAGGTCCGTGAAGCCGTGAGGGTTGGAAGGCTTGTTGCGGACGGGAA
GGTCTTGAGCAAGGAGGGACAGAGCTTCATCACCAAGTGCGCCGTGGAGC
CCGTGTGGTATCTCCCGGAGATCGCCAAGCGGTTCGGGGTGGAAGAGGTC
CTGCTGAGGGAAACGCTCTTCAAGGAGACAAACATGATGTACCCGGAGCT
TGTCACTAGGGAGGACCTCAAGGTGTTCCTTCCCCCGATCGGAGGTCTGA
CGATCTACATCTTCGGAGATCCCTCCTTAATACCCGACGAGGACGTGCCG
CTGACGGTACGGGTTCACGACGAATGTAACGGTTCAGACGTCTTCGGCAG
TGATATCTGCACCTGTCGCCCCTACCTGACGCACGCCATAGAGGAGTGCA
TCCGCACGGCCCAGCAGGGGGGCACGGGAGTATGCATCTACTACAGAAAA
GAGGGGCGATCGTTAGGGGAAGTGACGAAGTACCTTGTGTACAACATGAG
GAAGCGCCAAGAAGGGGGGGACTCTGCCGAGCACTACTTCGACTGCACGG
AGCAGGTGGCCGGTATCCAGGACACTAGGTTCCAGTCGATGATGCCCGAC
CCCCTTCACTGGCTGGGAGTAACCAAGATTCATCGCTTCATCTCCATGAG
CGACATGAAGTACGACGCCATCGTGTCGACGGGAATCAAGATAGTGGAAC
GGGTCGAGATACCGCCGGAGCTCGTGCCCAAGGATGCTCAGGTGGAAATC
ACCGCCAAGGTCTACGGAGGTTACCATGGAGGCGCCGGTTACAACGCGGT
GACCGAGGAGACGCTAAAGTCGACGGTGGGAAGAGGTTACGACTATGCGA
AGGAGGAGGGAAACGGTGAAGGCGAAGAAAGAAGCGCCGAGAAACCGGCG
GCTGAGGGATGA
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