mRNA_P-littoralis_Contig733.19.5 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig733.19.5
Unique NamemRNA_P-littoralis_Contig733.19.5
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: D8LM07_ECTSI (Inosine-adenosine-guanosine-nucleoside hydrolase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LM07_ECTSI)

HSP 1 Score: 501 bits (1289), Expect = 3.220e-173
Identity = 275/408 (67.40%), Postives = 307/408 (75.25%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRTAGNSGRGTDKSVYRVFWYILAPSDNEPQQRQPPKTHPSLPPHXXXXXXXXLACVMMHIHTSWCTGGDDVGSG-RTVTVIRARDADKLVDVILTNLCSSCDG 1375
            VY DHDGGNDD+VAL YLLKHE+RFDLLGVSVTPANSW   G  ATRKILRT S KH SSS  SS + +G+IPVAESTL GVN FPDAWRHDAC++NLLPQLNGFETEE+ALRLE+G D      SGQLLLAQTLL SES VTV+ATGPLTNLAWVLDN PEAS KIDKVLIMGGAIDVPGNVFADDV+GFDG+AEWNIFWDP AAKRVWDS L+LVLTPLDAT+EVPITKETLLR                 A+AGAHL+ET++RPFFAWDLLTVAQLVHPELFTTS++ECDVVV GASQGR VRTA  + R T ++       +        QQR PP  +              ++  ++       TGG   G+G RTVTVIRARD  +LVDVIL +LCSSCDG
Sbjct:   22 VYLDHDGGNDDYVALVYLLKHENRFDLLGVSVTPANSWWKVGAAATRKILRTLSKKHASSSS-SSGAAEGRIPVAESTLDGVNTFPDAWRHDACKLNLLPQLNGFETEEEALRLEKGED----GISGQLLLAQTLLASESPVTVVATGPLTNLAWVLDNFPEASRKIDKVLIMGGAIDVPGNVFADDVEGFDGSAEWNIFWDPPAAKRVWDSDLELVLTPLDATNEVPITKETLLR-----------------ALAGAHLLETETRPFFAWDLLTVAQLVHPELFTTSQVECDVVVGGASQGRTVRTA-TTARATAEAA------VATAGRPHQQQRSPPAGNEKEDGTGRRGGEDTVSGDVVS------TGGAGAGAGGRTVTVIRARDPKELVDVILADLCSSCDG 394
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A6H5JPH9_9PHAE (IU_nuc_hydro domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JPH9_9PHAE)

HSP 1 Score: 482 bits (1241), Expect = 8.190e-166
Identity = 267/399 (66.92%), Postives = 294/399 (73.68%), Query Frame = 2 
Query:  212 KHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSS-----SSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRTAGNSGRGTDKSVYRVFWYILAPSDNEPQQRQPPKTHPSLPPHXXXXXXXXLACVMMHIHTSWCTGGDDVGSG------RTVTVIRARDADKLVDVILTNLCSSCDG 1375
            ++  RFDLLGVSVTPANSW   G  ATRKIL T S KH S            +T+G+IPVAESTL GVNAFPDAWR DAC++NLLPQLNGFETEE+ALRLE+G D      SGQLLLAQTLL SES VTV+ATGPLTNLAWVLDN PEAS KIDKVLIMGGAIDVPGNVFADDV+GFDG+AEWNIFWDP AAKRVWDS L+LVLTPLDAT+EVPITKETLLRL RQN CASS  VGSIWA+AGAHL+ETK+RPFFAWDLLTVAQLVHPELFTTS++ECDVV+ GASQGR VRTA  + R T +           P     QQR PP  +     +                      GGD VG+G      RTVTVIRARD  +LVDVIL +LCSSCDG
Sbjct:   30 ENPDRFDLLGVSVTPANSWWKVGAAATRKILWTLSKKHTSXXXXXXXXXXXGATEGRIPVAESTLNGVNAFPDAWRCDACKLNLLPQLNGFETEEEALRLEKGED----GISGQLLLAQTLLASESPVTVVATGPLTNLAWVLDNFPEASRKIDKVLIMGGAIDVPGNVFADDVEGFDGSAEWNIFWDPPAAKRVWDSDLELVLTPLDATNEVPITKETLLRLGRQNQCASSALVGSIWALAGAHLLETKTRPFFAWDLLTVAQLVHPELFTTSQVECDVVIGGASQGRTVRTA-TTARATAEXXXXXX---XRPHQ---QQRSPPAGNEKEDDNGRGEGT---------------VGGDAVGTGGAGGRGRTVTVIRARDPKELVDVILADLCSSCDG 402
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A7V3BVN5_9ACTN (Nucleoside hydrolase n=1 Tax=Actinomycetia bacterium TaxID=1883427 RepID=A0A7V3BVN5_9ACTN)

HSP 1 Score: 238 bits (608), Expect = 9.120e-72
Identity = 143/319 (44.83%), Postives = 183/319 (57.37%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRTAGNSGRGTDKSV 1111
            V+FDHDGG DDF++L  LL +E   DLLG+S+TPA++        TRKIL                  +  + VA  +L G N FP AWR D  +VN LP LN     ++A  L    D P     G  LLA+ LL +   VT++ TGPLTNLAWVLD+HPE   +I+ VL MGGA++VPGNV      G DG+AEWN++WDP AAKRV+DS + + + PLDATD VP+T+        Q     S+  G+IWAM     + T   P+F WD LT A L  P+L T  E+ CDVV EG SQGR + T    GR    +V
Sbjct:    5 VFFDHDGGLDDFLSLLLLLSYEG-VDLLGISITPADTVLEGAVPVTRKILDLAG--------------RSDVAVAPGSLEGPNPFPYAWRLDCLKVNDLPVLN-----QRAEILAPVSDLP-----GHGLLARCLLETSEPVTLLVTGPLTNLAWVLDHHPEVEPRIEAVLWMGGALEVPGNV---QQPGHDGSAEWNVYWDPPAAKRVFDSGVPITMFPLDATDRVPVTEAFRRAFGAQYAFPFSSAAGAIWAMTAGWDLAT-GLPYFCWDTLTTAHLAVPDLCTFREVRCDVVTEGESQGRTMPT--ERGRSVTAAV 292
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A218QCL3_9CYAN (Inosine/uridine-preferring nucleoside hydrolase n=2 Tax=Cyanobacteria TaxID=1117 RepID=A0A218QCL3_9CYAN)

HSP 1 Score: 221 bits (562), Expect = 6.020e-65
Identity = 129/329 (39.21%), Postives = 180/329 (54.71%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRI-VRTAGNSGRGTDKSVYRVFW-YIL 1135
            V  DHDGG DD++A   L+  +H  +LLGV VTPA+ +      ATRKIL    + H              IPVA ST+RG+N FP  +R D+  V+ LP LN  ET          +  P  A+ GQ  + Q L  +   VT++ TGPLT +A  LD  PE  +KIDK++ MGGA++V GNV      G DG+AEWN++WDP +A RVW+S +++++ PLD T+ VP+T E + ++ RQ H   S   G  +A+          + ++ WD+L  A L HPE +   E E ++V  G SQGR  V + G      DK     F+ YIL
Sbjct:    6 VLMDHDGGVDDYLATMLLMTMDH-IELLGVVVTPADCYAEPAVSATRKILDLMKSSH--------------IPVALSTVRGINPFPRLYRRDSFIVDHLPILNQNET----------ISTPLLAQPGQDFMIQVLRDAPLPVTLMVTGPLTTVAVALDKAPEIEAKIDKIVWMGGALNVGGNVEKSLEAGQDGSAEWNVYWDPISAARVWESQIEIIMCPLDLTNNVPVTSEVVYKMGRQRHYPISDLAGQCYALV-------IPQDYYFWDVLATAYLAHPEFYQLREWETEIVTTGLSQGRTKVVSGGRKISAMDKVDKEAFYAYIL 302
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A5D0P352_9ACTN (Nucleoside hydrolase n=5 Tax=Microbispora TaxID=2005 RepID=A0A5D0P352_9ACTN)

HSP 1 Score: 218 bits (556), Expect = 7.080e-64
Identity = 138/334 (41.32%), Postives = 177/334 (52.99%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRTAGNSGRGTDKSV-----YRVFWYILAP 1141
            V FDHDG  DD +AL  L ++++  DL G++VTPA+   G    ATRKIL                 T   +P A   L G N FP AWR DA R + LP LN      Q   +  G + P         LA  L+ +   VTV+ATGPLTNLAW L++HPE  S+I++V+ MGGAIDV GNV      G DGTAEWN+FWDP AAKRV+DS++ + + PLD T+ VP+T E      R      S   GS+ A+    L ET    +  WD LT + L  P +     + CDVV +G SQGR VR +        ++V     YR F   LAP
Sbjct:   10 VLFDHDGAPDDLLALLLLTQYDN-VDLRGIAVTPADCLPGPALSATRKILDL---------------TGEDVPTAVGVLPGRNPFPLAWRIDALRADALPVLN------QKDHMTAGAEGPPAHEQ----LAAWLMRAPDPVTVLATGPLTNLAWCLEHHPEVESRIEEVVFMGGAIDVDGNVRQP---GHDGTAEWNLFWDPDAAKRVFDSAVPITMFPLDVTNRVPVTAELARTFGRSYGDHLSDLAGSLLALTFGTL-ETTGLAYCLWDSLTASYLAEPGICAFETVRCDVVAQGESQGRTVRDSRGRAVRCARTVDADRFYRHFLGTLAP 313
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A1Z4NNZ4_9CYAN (Inosine/uridine-preferring nucleoside hydrolase n=1 Tax=Calothrix sp. NIES-3974 TaxID=2005462 RepID=A0A1Z4NNZ4_9CYAN)

HSP 1 Score: 214 bits (544), Expect = 2.820e-62
Identity = 124/330 (37.58%), Postives = 174/330 (52.73%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGR--IVRTAGNSGRGTDKSVYRVFWYILA 1138
            V  DHDG  DDF+A   LL  EH  + +G+ VTPA+ +      ATRKIL      H              IPVAEST+RG+N FP  +R D+  ++  P LN  ET   +L  + G D           L Q L    + VT++ TGPLTNLA+ LD  P+  +KI++++ MGGA+DVPGNV  +   G DGTAEWN +WDP A  RVW S L +++  LD T+ VP+T E + ++ +Q     S   G  +A+  A       + ++AWD+L  A +  PE F   E+E +++  G SQGR  +V          D      + YIL+
Sbjct:    6 VLLDHDGAVDDFLATMLLLTMEH-VEPIGIIVTPADCYPQPAVSATRKILDLMGKSH--------------IPVAESTVRGINPFPQLYRRDSFAIDNFPILNQTETYGTSLLTQPGQD----------FLIQALRTHPTPVTLLITGPLTNLAYALDTAPDIEAKIERLIWMGGALDVPGNVEKNWEPGQDGTAEWNAYWDPLAVARVWSSGLNIIMCSLDITNNVPVTSEFVQKIGKQRQYDVSDLAGQCYALVIA-------QDYYAWDVLATAYIGKPEAFKLREVETEIITTGKSQGRTKVVANGRKIWAMADVDTIWFYEYILS 303
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: A0A1G9W5N3_ALLAB (Purine nucleosidase n=1 Tax=Allokutzneria albata TaxID=211114 RepID=A0A1G9W5N3_ALLAB)

HSP 1 Score: 214 bits (544), Expect = 3.570e-62
Identity = 131/310 (42.26%), Postives = 167/310 (53.87%), Query Frame = 2 
Query:  146 TAAVYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRT 1075
            T A+YFDHDG  DD ++L  L ++     L GV+VTPA+        ATRKIL      H              +PVAE TL G N FP  WR DA R + LP LN  E   +   L      P++ +     LAQ LL +   VT++  GPLTNLAW LD HP   SKI +++ MGGAIDV GNV   D    DGTAEWN++WDP AA RV+ S + + L PLDATD+VPIT E +           +   GS+ AM      ET    +  WD LT + LV P+L    ++ C+V+  G SQGR VR+
Sbjct:    2 TRAIYFDHDGALDDLLSLTLLTRYSG-IALKGVTVTPADCLVEPAVSATRKILDLAGAHH--------------VPVAEGTLAGPNPFPLEWRVDALRADALPVLNQREPRTRVSEL------PAHEQ-----LAQWLLAAPEPVTLLMIGPLTNLAWCLDEHPPVESKIAELVFMGGAIDVAGNVAEPD---HDGTAEWNVYWDPRAAHRVFASDIPITLFPLDATDQVPITTEFVRSFGSHYGTPLTDLAGSLLAMTFGGF-ETTGFAYCCWDSLTTSYLVEPDLCEFEDVRCEVLTTGVSQGRTVRS 281
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BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: UPI001ABBBA9F (nucleoside hydrolase n=1 Tax=Aetokthonos hydrillicola TaxID=1550245 RepID=UPI001ABBBA9F)

HSP 1 Score: 213 bits (543), Expect = 3.970e-62
Identity = 126/329 (38.30%), Postives = 177/329 (53.80%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRTAGNSGRGTDKSV--YRVFWYIL 1135
            V  DHDGG DD++A   LL  +H   LLGV VTPA+ +      ATRKIL    + H              IPVAEST+RG+N FP  +R D+  V+ LP LN  ET          +  P  A  GQ  + Q L  +   VT++ TGPLT +A  LD  P+  +KI K++ MGGA++V GNV      G DG+AEWN++WDP +A RVW++ +++++ PLD T+ VP+T E + ++ RQ H   S   G  +A+          + ++ WD+L  A L HPE +   E E ++V  G SQGR    +G        +V   R + YIL
Sbjct:    6 VLMDHDGGVDDYLATMLLLTMDH-IQLLGVVVTPADCYAQPAVNATRKILDLMGSFH--------------IPVAESTVRGINPFPRLYRRDSFIVDHLPILNQRET----------IRTPLIAEPGQDFMIQVLREATEPVTLMVTGPLTTVATALDKAPDIEAKIQKIVWMGGALNVSGNVEKSLEAGQDGSAEWNVYWDPISAARVWETQIEIIICPLDLTNTVPVTSEIVYKMGRQRHYPVSDLAGQCYALV-------IPQDYYFWDVLATAYLGHPEFYQLREWETEIVPTGISQGRTKIVSGGRKIKAMATVDKERFYSYIL 302
[Close]
BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: UPI00143CEEE5 (nucleoside hydrolase n=1 Tax=Allokutzneria sp. NRRL B-24872 TaxID=1137961 RepID=UPI00143CEEE5)

HSP 1 Score: 213 bits (543), Expect = 5.020e-62
Identity = 131/308 (42.53%), Postives = 168/308 (54.55%), Query Frame = 2 
Query:  152 AVYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRIVRT 1075
            A+YFDHDG  DD ++L  L ++     L GV+VTPA+   G    ATRKIL   +  H             ++PVAE  L G N FP  WR DA R + LP LN  +   +   L      P++ +     LAQ LL +   VT++  GPLTNLAW LD HP   SKI +++ MGGAIDV GNV   D  G DG+AEWN+FWDP AA RV+ S++ + L PLDATD+VPIT E      R          GS+ AM      ET    +  WD LT + L  PEL    ++ C+V+  G SQGR VR+
Sbjct:    4 AIYFDHDGALDDLLSLALLTRYRG-IALKGVTVTPADCLIGPAVSATRKILD-VAGAH-------------EVPVAEGVLTGPNPFPLEWRVDALRADALPVLNQRDPRTRVSEL------PAHEQ-----LAQWLLAAPEPVTLLMIGPLTNLAWCLDAHPAVESKIAELVFMGGAIDVVGNV---DEAGHDGSAEWNVFWDPGAAHRVFASAIPITLFPLDATDQVPITPEFARSFGRTYGAPLGDLAGSLLAMTFG-CFETTGFAYCCWDSLTTSYLAEPELCEFEDVRCEVLTTGPSQGRTVRS 281
[Close]
BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Match: K9UW80_9CYAN (Inosine/uridine-preferring nucleoside hydrolase n=1 Tax=Calothrix sp. PCC 6303 TaxID=1170562 RepID=K9UW80_9CYAN)

HSP 1 Score: 213 bits (542), Expect = 5.580e-62
Identity = 127/329 (38.60%), Postives = 178/329 (54.10%), Query Frame = 2 
Query:  155 VYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKILRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLLPQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGPLTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNIFWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFVGSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGASQGRI-VRTAGNSGRGTDKSVYRVFW-YIL 1135
            V  DHDG  DD++A+  L+   H  + +G+ VTPA+ +      ATRKIL      H              IPVAESTLRG+N FP  +R D+  V+  P LN  ET +  L  E G D           L + L  S   VT++ TGPLTNLA+ LD  PE  +KI +++ MGGA++VPGNV  +   G DG+AEWN +WDP A  R W+SS+++V+  LD T++VP+T E + ++ + +    S   G  +A+          + ++AWD+L  A L HPE F  +ELE +++  G SQGR  V   G      DK     F+ YIL
Sbjct:    6 VIMDHDGAIDDYLAVMLLMTMPH-IETMGIIVTPADCYIQPAVSATRKILDLMGCSH--------------IPVAESTLRGINPFPQLYRRDSFVVDHFPILNQTETIQTKLLTESGQD----------FLVRALQTSPIPVTLLMTGPLTNLAYALDTAPEIETKIQRLVWMGGALNVPGNVEKNWEPGQDGSAEWNSYWDPIAVARAWESSIEIVMCSLDITNQVPVTSEFVRKIGKYHRHPVSDLAGQCYALV-------IPQDYYAWDVLATAYLGHPEAFKLTELETEIITTGKSQGRTKVIAGGRKILAMDKVDQNWFYDYIL 302
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig733.19.5 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LM07_ECTSI3.220e-17367.40Inosine-adenosine-guanosine-nucleoside hydrolase n... [more]
A0A6H5JPH9_9PHAE8.190e-16666.92IU_nuc_hydro domain-containing protein n=1 Tax=Ect... [more]
A0A7V3BVN5_9ACTN9.120e-7244.83Nucleoside hydrolase n=1 Tax=Actinomycetia bacteri... [more]
A0A218QCL3_9CYAN6.020e-6539.21Inosine/uridine-preferring nucleoside hydrolase n=... [more]
A0A5D0P352_9ACTN7.080e-6441.32Nucleoside hydrolase n=5 Tax=Microbispora TaxID=20... [more]
A0A1Z4NNZ4_9CYAN2.820e-6237.58Inosine/uridine-preferring nucleoside hydrolase n=... [more]
A0A1G9W5N3_ALLAB3.570e-6242.26Purine nucleosidase n=1 Tax=Allokutzneria albata T... [more]
UPI001ABBBA9F3.970e-6238.30nucleoside hydrolase n=1 Tax=Aetokthonos hydrillic... [more]
UPI00143CEEE55.020e-6242.53nucleoside hydrolase n=1 Tax=Allokutzneria sp. NRR... [more]
K9UW80_9CYAN5.580e-6238.60Inosine/uridine-preferring nucleoside hydrolase n=... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig733contigP-littoralis_Contig733:85647..109483 +
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.D8LM07
PFAMsIU_nuc_hydro
Model size1405
Max annot lvl2759|Eukaryota
KEGG rclassRC00033,RC00063,RC00122,RC00318,RC00485
KEGG koko:K01239
KEGG ReactionR01245,R01273,R01677,R01770,R02143
KEGG Pathwayko00230,ko00760,ko01100,map00230,map00760,map01100
Hectar predicted targeting categorymitochondrion
Exons9
Evalue5.28e-174
EggNOG OGsCOG1957@1|root,KOG2938@2759|Eukaryota
Ec32 ortholog descriptionInosine/uridine-preferring nucleoside hydrolase domain
Ec32 orthologEc-14_002390.1
EC3.2.2.1
Descriptionpurine nucleosidase activity
Cds size1404
COG categoryF
BRITEko00000,ko00001,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig733.19.5prot_P-littoralis_Contig733.19.5Pylaiella littoralis U1_48polypeptideP-littoralis_Contig733 85648..109483 +


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

Feature NameUnique NameSpeciesTypePosition
1680791519.3552978-UTR-P-littoralis_Contig733:85646..856471680791519.3552978-UTR-P-littoralis_Contig733:85646..85647Pylaiella littoralis U1_48UTRP-littoralis_Contig733 85647..85647 +


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

Feature NameUnique NameSpeciesTypePosition
1680791519.3670762-CDS-P-littoralis_Contig733:85647..858711680791519.3670762-CDS-P-littoralis_Contig733:85647..85871Pylaiella littoralis U1_48CDSP-littoralis_Contig733 85648..85871 +
1680791519.3804293-CDS-P-littoralis_Contig733:92052..922431680791519.3804293-CDS-P-littoralis_Contig733:92052..92243Pylaiella littoralis U1_48CDSP-littoralis_Contig733 92053..92243 +
1680791519.3900874-CDS-P-littoralis_Contig733:103724..1038411680791519.3900874-CDS-P-littoralis_Contig733:103724..103841Pylaiella littoralis U1_48CDSP-littoralis_Contig733 103725..103841 +
1680791519.4005873-CDS-P-littoralis_Contig733:104295..1044361680791519.4005873-CDS-P-littoralis_Contig733:104295..104436Pylaiella littoralis U1_48CDSP-littoralis_Contig733 104296..104436 +
1680791519.4115522-CDS-P-littoralis_Contig733:104801..1049051680791519.4115522-CDS-P-littoralis_Contig733:104801..104905Pylaiella littoralis U1_48CDSP-littoralis_Contig733 104802..104905 +
1680791519.4242756-CDS-P-littoralis_Contig733:105237..1053201680791519.4242756-CDS-P-littoralis_Contig733:105237..105320Pylaiella littoralis U1_48CDSP-littoralis_Contig733 105238..105320 +
1680791519.4351306-CDS-P-littoralis_Contig733:105934..1059851680791519.4351306-CDS-P-littoralis_Contig733:105934..105985Pylaiella littoralis U1_48CDSP-littoralis_Contig733 105935..105985 +
1680791519.4450505-CDS-P-littoralis_Contig733:108713..1089121680791519.4450505-CDS-P-littoralis_Contig733:108713..108912Pylaiella littoralis U1_48CDSP-littoralis_Contig733 108714..108912 +
1680791519.4552867-CDS-P-littoralis_Contig733:109189..1094831680791519.4552867-CDS-P-littoralis_Contig733:109189..109483Pylaiella littoralis U1_48CDSP-littoralis_Contig733 109190..109483 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig733.19.5

>prot_P-littoralis_Contig733.19.5 ID=prot_P-littoralis_Contig733.19.5|Name=mRNA_P-littoralis_Contig733.19.5|organism=Pylaiella littoralis U1_48|type=polypeptide|length=468bp
MSMLLLNSRRGLAVARAISLGCRIMSSTPKAATTVESSLSATQQEQHATA
AVYFDHDGGNDDFVALCYLLKHEHRFDLLGVSVTPANSWEGAGTRATRKI
LRTFSNKHCSSSPFSSSSTQGKIPVAESTLRGVNAFPDAWRHDACRVNLL
PQLNGFETEEQALRLEEGMDDPSNARSGQLLLAQTLLGSESKVTVIATGP
LTNLAWVLDNHPEASSKIDKVLIMGGAIDVPGNVFADDVKGFDGTAEWNI
FWDPWAAKRVWDSSLQLVLTPLDATDEVPITKETLLRLSRQNHCASSTFV
GSIWAMAGAHLMETKSRPFFAWDLLTVAQLVHPELFTTSELECDVVVEGA
SQGRIVRTAGNSGRGTDKSVYRVFWYILAPSDNEPQQRQPPKTHPSLPPH
PPRPPRPPLACVMMHIHTSWCTGGDDVGSGRTVTVIRARDADKLVDVILT
NLCSSCDGADGTGTTSS*
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mRNA from alignment at P-littoralis_Contig733:85647..109483+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig733.19.5 ID=mRNA_P-littoralis_Contig733.19.5|Name=mRNA_P-littoralis_Contig733.19.5|organism=Pylaiella littoralis U1_48|type=mRNA|length=23837bp|location=Sequence derived from alignment at P-littoralis_Contig733:85647..109483+ (Pylaiella littoralis U1_48)
GATGTCGATGTTGCTCTTGAACTCTCGTCGTGGGCTCGCCGTGGCAAGAG
CTATCTCCTTAGGTTGCCGGATCATGTCGTCTACACCGAAAGCTGCAACA
ACAGTGGAATCTTCTTTATCTGCCACACAGCAGGAGCAGCATGCCACTGC
TGCTGTGTATTTCGATCATGACGGAGGGAATGACGATTTCGTCGCGCTTT
GTTATTTGCTGAAACACGAGCATAGGTGAGGTGTGTTGGTTGGGTGCGTT
GCTGTCGAAATGAGGGGGGCTAGTCGCAGATTGGTGGTGATAGCAGGGCA
TGTTCGCTGATCAATCGTGCAAAACGTTTAAACTGGACGTCCTAGCCCGA
CTCACTCAATGCAAAATTATACTGGTACGGAGTAAAATTATGATGATAAT
GATACCATCACAGGAACGTCCCTGGTACAGCAGTATAGGGCCATGAAGAT
CCAAGAGCAACTCAGATCAGTTCGATTGCATCCTAGAGGGAAGCTTAGCA
GGTTGAGTGCGGATGCACGTCATGTCTTCGAGACACGTCCTGGTCTCTTT
GGGCCAGATCACAGGAGTTGTGTTGACGATTGGACAACACATTTTGGACG
ACGGCTACTTCTGTAAACTCCGCACTATCCGAACGAGGTGGAGTTTCTCC
GCCGGAATCTACGAAATCTACGACATCTTCGACTTGATTCGTATTTAAGG
TACTTCAGAGGTATTTAGTACTAGAGTTAAGCATTGGCCCCCCGCCCCCC
AGTGGGCGGTGTGGCCAGAAGGTAAATATGGGAAAGAAAGAAGGTAATCC
GAGGCCCACGCCATAAATTTTGAGAGCGTCCGCCGAAACATGTGAAAGCA
AATGCGGTTGCGTTGTTGCTCCGAAGGAAGCGGTGTGGTGAGAAGGTGGC
ACATGTCCTGCTGCCTATAGAAAAATCGCCATTTTTTATAGCGACAAAAG
TTATCATTGCACGGAGGCCCCAACCCCGATTTTCCTGTGACACATCACTC
ATGATCAGTTGGTTCGCCAGGTGTAGTGCTGATCCCGAGTTATGCCAACA
TTTTTTGAGGGGTGCATCGACCAAGCTACACACTCTGTGAGTTTCAGCCC
ATTTGGGGTTTTTTCCAGGTCACATTCTTGATCTAAAGATTTTTTGGAGT
ACCAAACGTTGAAATTTTGGCTAAAGTTTTGGAGGTAGACATTTTGTTGT
TCTCGTTTAAGGAATGTTCAACCTGTAAACACTGGAGTTTAGACTGGTTT
TGGTCGATTTAGGCAACTTTTGCAAGCTCATTGTCAGCGCTGTGGTGCTG
ATCCCAAATTTCGCCAACTTTTTTTGGGTAGTACACCGACCAAGGTGTAC
ACCCTGCGAGTTTCAGCCCATTTGGTTGTTCTACCAGGTCACAACCTTGG
CGCAAAGTTTGTCGCCCGAGAACTAAAAACGAGCTCCAGACGCACAGAAA
AACGACTTGCTTCCAGTTGCGATGTCGCAGCATAACTGCAGTTTGGAGCA
AAACCATAGCATAAAAGCTATTGATTGGAGAAGATAGAACACGACCCTCT
TGAGACCTCCTGTCAATATCGTAGCAAGCCGGGGTCTGTGTGAGGAGTAC
TGCCGGCGACAAAGGTCATGACCCTGAATGGTGTTCGCAGCACAAATTCA
CAAATCTGAGAGGGGCTCAGGGTTTCGTCAAGTGGTACCCGCCCAAAGCT
TTTGTCGTTATTAAAAAAAAAAAAACACCCAAAGCAGCACAGGTGGTGGG
TTGGACATATGTCTAGTCTGGTCGGGGTTTCCCACGCTTTGTATTTACGA
GCGACAAGTAAGTATTTCGAGAAACACAAATGAAGAAGACACCAGAGAGC
GGATGCCCACCCAAGACGCAGGGATCTGGGCGTCTTCTGAGTCCTGGCTG
GTACAAAATGAGGTTTCATGCCAATGGGCGGAAAATAACACCAAAAAAAG
CACAGCAGCAGCGGTATGATACTTGTTATGTGATTTTATTTTGGGCACCA
GTCTACACCTTTCGGTATGATACAGTGGGTGCTCCAGCCGGGGTCATACA
GGAGGGAGGTCACACACGAGCTTTTTCATTTTTTTTTTGTTTTATTGCTC
ACACCTTTCCTGCTGCGATACTTGCCTTTGGTTTTTAGTGCGAGTCGGGT
TCAGCAATGCCTTCGCTCTGTTTACTCACGAGTTGATCGCTTTCCACTGT
AAGGTTGCAGGAAAATCTCAGAGAGAAACGGACCTGCATCCTTACTGCTA
GTGGGTTGACGTGGGAACCACTAGACCACCGGGGACTACAAAATCTATTT
GGTATTTCGTAGTTCATAAACCCCCACAATAAAAATGTAAGAGTCAATTA
GGGGGGAGGGTGAACCTCCGTGCAGGGTGGCACAGCAGTAGCGCTTGTCC
CCGATGACGGCGTGTAATTCTGTAAGTACGGCCACAAACTCGCTGCGTGT
GCATATCAACCCACCAAAAAATCTAACTGCTGAATATTCTCGACTCTCGT
ATTCGTACATACGAAGTATAAATTTTGTTAATAAATCATGTTATTGTAAA
CACAGACAGAAGTGGTCGTCGATGTCGTCCCTTTAACTAGAAAATAGCGT
GCCCTCGATTTTTTTTTTTGCTGTCTCACACACACGCATCACGACACTGG
TACCCGGAGCATGCTGAGTACGCCAATCAGGCGTAGACAGACACCCGTCC
GTGGGTCGTGGTTTTCCCAAAGCCCCTGCATGATCATGTCGCGACAATCG
TATCCAGGCCGTCCGCGTCAAGACCCCCGTAGCGCGACCGTCTATCTGTA
CGACAAACTCGTCGCGTGCACAATTAACCCATCACTACACTCGTACCCGG
AGTTCGTGGTTCTTGCTTGTCCCAAGGTCCCTCCCTGCATAGTCATGTCG
CCACCCCACAAGTGCCTATCTCTACGAACAAATCGTCGCGTGCACAACTC
ACGCACAGCAGTACATACACATGTATATTACAGTAGTGCCCTACTGCTGT
ACACGTGCACAGACACAGATCAACCCGATATTTTCCACAATTGGCAAACA
AAAAGAAAATTATCATATTTTTCTGAAGGCCGAGAATGTAGCGGCGTGCA
CAACTCACGCACACTAGTACATACACGTACACTTCGAAGTATTACAGTGG
TGCCCTACTGCTGTACACGTGCACAGACACAGATAACCGGATATTTTCCA
CGATTGGCAAACAAAAATAAAATTCTCATATTTTTCTGAAGGCCGAGAAT
GTAGCGTTTGTGTCCGACATTCACCCCACCACCCCCAAGACCAAGTCGGC
GACACAGCTCGTCTGTCACAGATTGCACACCATCACTGAACCTCCCACCA
CCCACATGCAGGTTGCAGGTGCACATTTATTTCGAATCTACGGTGTACAC
GATGCGGACTCAGCATGAGTAACAGCAGCATATTACAGCTGTGCGCTACT
GTACAGGTGCAGACACAGACAACCTGATATTTTCCACTATTGCCGAAAAC
AAATTCTCATTTTTTTCTGAAGGCGGAGGACGTTGCGTTCGTGTCCGACA
CCCACCCCACCTCCCCCAACACCAAGTCGGCGACACAACATTCACACGTC
CACCATGAACACCAACCACCGTAACAAGAGCAACGACACAGATGCACAGC
GTTTGCGAAGTAAACAGCGGAAGCGCATCAACTACGCAGAAAGGAAAGCC
GCGATCCAGGAAAGGAGGCGGCTCGCTCCGGCCGTCCAGAAACACGCTAT
ACGTGAGAGAGCTCGCAAAAGGTACCACAGGAACAAAACTTCTATCAACG
ACCACAGACGCATCGCTCATGTCACCAACAACGCAGCCATCAACAGTCGC
CGAAGGGCTAGGAAGAAGGCCGACCAAAACACTGCGAGAGGTACCGTGCT
AGCAGCGAAAAGGAAACGTTGGAGACAGCAGTGTACTGTGTAGAAAGAAA
TTACATATCAAACCTACAAAACGTAATCGTGCAACGCAAACAAGCCCTTG
ATGCTGCGCGTGACGCCATGGGTGTCGCCATCAAGAGCGCTGCTCCTCGC
CAAATAATCCAAGGGTTTGTGCTGCAAAAACGGCAAAGGCCTTCTTCCCC
GACTGCCTCCACTCCCGCCGCCCATAGAGGAGATGTACACCTCTGCCCAC
GAATGGGCTATCAAGTTTCGTAGGAACTCGCGGGCGTACAACTGTCGTTC
CACCTTCGCCTCCTTGAATGTAGAAGACGGGGGAACTCAACAAAATGTTT
GGTGACCACCTCCTGTCCGTCCAAGGAAGGTAAGAATACTTCCTGCATTA
CTCTATACTGCGGTATATCCATTTACATGTAGACTACTGCTGTCGTCGTA
CAGTAGATAAATTACACAAAGCAGTACAGCAGTACCAGTACCTTCGTCTA
TGACATGCACACACCAATCGTAAGCCAACCCATTTTGTATCGTAAACTTC
ACTCTCCTGAACAATCTTTATTGTCGTTAGAATAATGCCCCATGTCTTTG
TACTTGCACCTCAACTAAAAGCTGTATTTTGCCCCGCCGAAATGCAATCG
TTCGTCCGTTCTCACGGAATGTCTGATGTTGGTTTTGTGTTTTCGCCGAT
CAACAATTTGGCGTGAAGATCTCAGAGTTTCGGATGAAAATATTCTTGAG
GGGTTGATTGTTTTTGCTTTCAGATAAGATGCATGTTGTTAATATTTACC
CAGAGATTGGGAAATTTGGAAGGTCCATGTTTGATTTGAAGGTTAAATGA
TTTTTTACTTCCACTTCTTTCTCCTACCATTTCTTCACAACAGGTGTTCG
TCACCATTGCATCGTACCAATCAGGGGGGCTGTTTGTGGCACTCGGTGAA
GAGACTCATTCTCGGGGATATGTGGGAAGTTGTAGGTTATGTCGAAGGCA
TGTGGTATGGGGGATGCGGGAAAGCTCTGTTTCTCTTTCCCTGCATCTCG
CCGTGAGAGTGTTCGTATTCTTCTTCCGGGGAACGAATCAATTGAGTGAC
ACCTCTTCTTCTGCGAGGCGCCACGGCCAAATTCTCGCGTATTAACTTCA
AGTCACGCACCGACACAGAAACACACCTCTAAGTTCGGTACACTTCTAGG
TTCGGTAGTCAGTATTTGTCCTAAGGAGTACATCAAGTAGTGGTATCGCC
GACGTGAAGCATTGTTTTGGATGGTTTCGCCTCGGTTTCGGTAGGCAATG
CTTTCCCTTCGTTCCTGTCACCTCCAGCTTTTTCAGTTTCATTTCATGTG
TTCGGTAGATGTAAATTCAGAATTGTCAGTTTTGTTCAATCGAGTGTTTC
GCCTCGGTTTCGGTGGGCGATTCTTTCCGTTAGTTCGTTACCGACACCTC
AAGGTTTTTCATTTGATTCTGTAATAGTTGCGCCGATGCAGCCTTTTTTT
GCCTAATTCGCCTCGGTTTTGGTGGGCGATGCTTTCCCTTCGTTCCCGTC
ACCTCAACGTTTTTCGGGTGCATCTTCACGGGTTCGGTAGACGTAAGTTC
ACTTGTCAGTATTTGTTCAAACGAGTGGTGTTCGCGCCGATTTTACCTTT
TTTTTGCCTTTTTGGGACTCGGTTTCGGTGCGCGATGCTTTCCCTTCGTT
CCCTTCACCTCAAGGTTTTTCGGTTGCATCTTCATGGGTTCGGTAATCAG
TATTTATTTTTTGTACAAGTGGTGTTAGCGCCGATGTAGCCTTTTTCTAC
CTTGTTTCGCCTCGTTTTCCGTGAGCGATTCTTTACCTTCGCTCCCGTCA
CCTCAAGATTTTTCTGTTGCATCTTCATGGCTTCGGTAGTCAATGTTTGC
TCAATTTTTGCTTTCTTCCGCCTCGGTTTACGTGAGCGATGCTTTCCCTT
CGTTCGCATCGCCTCAAGATTTTTCAGTTCCATCGTCAGGGTTTGGTTTC
CTTTCTTTTAAACTACAACGGGTGAAACTGATCGAGCTACTTCGACACAC
ACTTGCCGCCGAGTTACTCATGCCATTCCGGATTCAATCCATATTTCTCA
CAGGCACGCGTCCTCGGGTACATGTCCACCCGGCAGATCTTGTAGACCCC
ATACATCTTGGGAGTAAGCAGAACGCTGCTGTATTACTAAGCTTGCAACG
TGTTCTTTGTTCAGAGCGATTGGTCGTATCCGACGGAAAACAATTTGAAC
ACAAGATTCCTTTGATTTCATATTGTACGCCTTCGACACGTACTCCTTCA
CACCCCACGCAACGCCCACATACCGGGAGTATATGCATGACACCTTTCAC
AAACTACGAGCTATCCGTTCGGATGAAGAACTTGCGTGAATTAAACGCCT
CTGCCCCCACGCTTTCGCTTGTTTTCTCGTGCCGGTCTTCGTGCCGCTGC
TGCCGCTGCTGCTCTGCTGCTTTCACTTCTCGCTTCCCTTTCACTCCATT
GAACAGATTCGACCTGCTAGGCGTGTCGGTCACGCCCGCAAATTCGTGGG
AGGGCGCTGGAACGAGGGCCACCCGGAAAATCCTTCGCACGTTTTCGAAT
AAACACTGCTCGTCATCTCCTTTCTCCTCTTCCTCTACTCAAGGGAAAAT
TCCCGTCGCAGAGTCCACCCTGCGCGGCGTAAATGCCTTCCCAGACGGTA
AGAATTTAAAGGGCGGGGAACGGGGGGGGTGGAGGGCGGGCGTATAAGCT
CTTGCTCTTGCTCACATACTGGGCTTGACTTTTTCCGTATCATAGGTTAC
CGCGCTACATCTCATTTGAAACACGGAGCAGCGCTCATGTTCCTGCTCTG
CAGTTACTAACGCTTCCAACGCTCGTGAGCGCTCCGTGTACGGGATCCCA
AGATCTGTACTATGTTAGTTTCACGATTGTTAGTTCTGCTGCCTCATACT
CTGGGGTATGGCGGCACCCTTTTTGGGCTTTCGGGGCCAGTACAATGTCT
CCAAGAAAAGCTGTACGAAGGGGACCGAGCGATGCCAGATATCTTCAGAT
TTATTTTTAATCTCTCCCACTGGTAAAATATTTCGAGTCGGGGCGAAGAA
AGACGTGTGTGTTCGTCTTCCTGCACGTACAAGCAGTATACGTCTGAAGT
GTTGGAAACATCATTGTGTGTGTGTCATCCCATATATTCTGGACGCCAGT
ATACACCTTTGGGTGTAAGTTGGGGGCACCAGCCGGAGTCACGGGGAAGG
AAGTTCGCCTCACAGGGAGTTATCCACCTTCCTTCTGCGGTGCTCGCCCT
CAGTTTTTGTTCCAAGAAAGGTTCAGCCGTCCCTTTCCCTTGTCGGCTTG
AGAGCCTCGAATTTCATGTTCCTCACAGGACCATCGCTATCCCCTGCTAC
GTAGCAAACGAGAAGAAAAATGTCAGTTTTACGTAGATTCGAGATCACGA
TCAAATTCTCAGGAGGTTTCAAGCTTGCCTATTTTAGCGGGGCGACCGGC
AATTACAACAGAAAATGATTACACTATGCGATTTCCAAAGTGCGCATCAT
CAAATTCCAGTTAAACCAGCAGGTTTGTCATGTCAAGGAGCCCTATTAAA
TGTATTCCAATTTTGCCGAGTTTAGGAATCCTGCAAAGAGCACCCGAAAC
GTCACGAAGCAGGGCAATCAGACCAGTAGAAGAGGGCTGGGGGCCGAACA
ACGGCCGGAAGGTGGCGGTTGGGGTGTTATCGCGACACAAATGTTGTGAT
TCAGAACTTCGTACTAATGTCGCGATCTCTAACTTCAAGATGAAAAGCTC
CCACAGTCTGAAATCAAGACAAAACGGTGAACACGAGAGGCGCTCGAATA
TGACCTGTGGTGTGAGTTAAGCCGGGGTTTCGAATGATATCAGTAGGGGA
CATCACGTAGAAGCGACACGTGTGTTGGCTACCTCATATCTTCTGCTGGG
GCTGTGCTATTGGTGGTTGAAAATATGTTGCACAGCAGTCGGGATTCTGT
CCGAACTCGGCCCGACATCAACCACCTAGGTGTATGATCTTCCACTGCTG
TACTCATTCACCCCCATAGGCCCCAATCCCCGGAACTTCGGGTCTTCAGC
AGTAGCTTACACCACTTGCTGCATAGGACAACACTCAGTTCAGGAGATCG
GGGCCCATGGCGGCGAGTACAGCAGTGGACGATCATGTAAGGTGCTTAGT
TTCGGGCTGAGATGCGGACGGTTTTTGGGCTGCTGCACCACATACCTTCG
ACCACCGAAATCTCAGCCCCATCGAAAGCTTTGAGGTTGCCAACACGCAC
ACCGCCTCTACATGATGTATTCTACTGATAGAAACCCCGGCTTAATTCAC
GCGGGAAGGTCGATTCCTATTTTATACGGGATGACGACAGGATGTTTTCG
AAATTAAGTGAGGTTGAATAGGGTCCCTGAAGAAAACCGTTGTACACGGG
ACATATGCTGAGCTTGCCGTTCGACAGTCAAACGACCCGAACTGCATACA
TACGAGTATGTTTTGCTGCTCAACGGCTACCCTTCTTGTCAACGTCTTGT
CTCGCTACCTGGCTACTGGTGCTAGCTTTAGAAAATCGTTGTACACAGGA
CCCATGATGAGCTTGCGCTTCTACCGTCAAACAACCTGAACTGCGCGCAC
ACAGGTACTTTTTGCTGTTCGACGGCCACCCTGCTTGTCAGCATCTTGTC
TATCGACCTGGCTACTACTGTTTGCGACCCGTAGTCAGAATTACCGTCAA
AAGTGCCTGCCCGAGGGTCAATCCTAGGTGTTCGGTGTTGTTTTTCCCTC
ACTTTTCCACCATTGGCTACGACTGTCGCTTGCTGTGCGCCGGGAGCGAG
TGCTACCGGAGTCCCTCTGGGCGAGGGAACCCAACGTCGTGGGCGGGTAT
GCGCTTGTACCCGCGGCTTTTGTCAGCGAGCCGGATTTCGCATTCCTCGA
TGAGCGACTTTTAGACTTAGAAACAGCCGGGATATGTGCAAGAAGCAAAA
ATCGTTTTCAGCGGTTTTCGCTGGTTTACCAAAGCCCTGCTTCTTGCAAT
CCCTTTTATCCCGCCCTATCGCTGCTGCGGCTCCGCGGATTGGCCAGAGT
CTTCTGGTTCTGCAGACTCTTTGTCACTGAGGCCGGGCGGGCGATCTCCG
TGGTGTGTGTTGCCACGGAGGAGCGGGGCTGATTTGTGCGGCAACAACCG
AAGCATAAGCGGTGGGCTCGTCGAGGGTCAGAGGGGCCGCCGCTTAAACT
GTTTGCTTCGTGCTTTTCCGCACCTACGCGAGCCTCTTGAAAACGGAGTA
CAGGATCCGCGCGTGCACTGCAGGCGGACCGCTGGCTAGAGGCTAATTCC
GAAGGCTGCTAGTGGGAAATACATCCCATGAATGTTCGTGGGCGCTAGTG
TTGGGAGGTGCGGAGCGGGAAGCTTCAGCGATCAGACGTATGCACGCTTG
CGTGACTTTCAGGGCGTAGATGTTCACTGGTTGTGATTTCAGCGTGTTTG
ATCATGGCAATTTTACGGGCCGAAACAGAAATACGATTCGGCGCTGAAAA
ATGAAGCTGAACGCTTGGCACCAGTGTGCCCTAGGGCAGAAGAAAAGCAA
TCTCGTGCTTTTCTTCTGCTCCGGAGGTGCATGACAATACTTTCCGGCCT
CCACTAGAGTACCTGCTGCTACTTGGAGAAGCCTGTCATTGGCTACACCT
AGCAGGAAGATTGTCAGGACTTGGTAGCGCATTGATCTACAACGACCTCG
CCCGGGCAACAGTCAAGCGAATCAACTCCAACACGAGTGGAAAAGAGTGC
AAGCAGGTCAACAGCATCTTGTGCGTGTTCTCCCGAAAGCATAAGAGTCT
TTGAGCAGACCCGTTGGTTTCAAAACAAGTCTGCTCGTTGTGCTAGCCCG
ATGAGCTCGAGGTTAAAGGTCCAACTTGATTGTCTGACAAAATGTCTGTC
TTGGTATAGTAGGCGACTTTTCAGGGGCGGTTGTCTCCGATGTGGTGCAT
ATTGTTACAGGGGTGCAAGCTAGTGCCGTGTTGACAGCTACCTGGTTTAA
GTTTCTTCCTGATGCCGCAGAGGTGGCGGGCATGGCTCCCAAAAATTCCA
CACAGCGGTTACCGGGGTCTCCCGCGAGAAATGAGTATCATGTGATGTTT
GGGGTACCCGGCATCCGATACTGATCTACGGGGACCCTCATGCATTTGTC
ATCAAGAGCGCATGCTACGGGTGTGCTCACTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCTCTCTAATAATTCAAGGTTTTGAGTCGACCTTGG
CTCGCGCTTCTGACAAGAAGCTGTCTGCACCCAAACACGATCGATCGGGC
CTGCGTGTGGGCAGTAGGGTATTAGCGTTTGAGCAGCCGTGTCACTTCTC
GGAACGGCGGTGGCGTATTTACGCTGGTGTGTCACTACTTGGAACAACAG
CAGTCGTGTCACTTTTTGGAACGGCAGTGGTGGTGTGTGTATTTGGGTGT
GTGCCGTGTGTGTGTGTCACCTCTTGGAACGACGGCGGGGAGTTATTTTC
TTGTGTGTGTGTGTGTGTATCATCTATCTGGGATTACCGATAGACTTGGT
CCAGCCATCGGACAGCGGGCTGCATTGTGAAGCATGGCAGATGCAGCGGT
TGGAACAAACGAGCTGCAAGGAAAAGAAGCCTCCGAAGCCAACCCCGCCG
GCTCCACCAGACGTGTCAGTCAATGGACCATCACCTGTGCCGTCGCCTCC
CTTAGCAGCATTCTCCTCGGAATCGATTACATCTGCTCCGTGTTCGGGCA
ATCTTGGGCGAGGTACTCCTGCTGGACCACACCGCTGTTCCAACTGTCAT
TCTCGCCGCTGCCACCGTCACCAAGGGATGCATGAACATTCGCCTGCTCT
GCCGACACGTGTTGCACCGCGCAGTTCCACTGGCCGTCACCTGCTGCCGC
TGCGCCATCCAAGCCCTGCTGGTCGTGATAAACTGCTGGCCCCCCCGGCG
TCGCATCCACGTACATCTGCTGATGCCCGTCAACATTGCTCTCACCAGAC
GTGATGACGACGTTAAGGTAGTTCCCAGTGGTCCGGACCCCTCGCGCAAC
AGCACAGAAGCGAGAGATGTGACCATACTGGCTACACGTGCTGCAGTTCC
CTTCAAATCGCCTAGGGGCGGTGCAGTCTAACTCTTTGTGGCCGGATCTG
CCACATCGCCCGCACATATACACCATACCCATCGGCGAATTTGGTGGCGG
AAGGGAATCGGGTTGGTGGTACATCGCATTGGAGCCGCAGTCAAAGATAC
TGCCAACTCCTAGCTGTGACTTACGACGATGTGCTGAAGCTCCACCATCA
CGCGCCAACTGCTGCTGCTGCTGCTGCTGCTGTGGTGGCCGCGAAGAACC
ATTACCTCCGTGAGGCCACCGCTGTACCTGTTGCTGCTGCTGTGGTGGCC
TCGACGAACCTCCATTTCCTTGAGGCCACCGCTGCCCCTGCTGCTGCTGT
GGTGGCCGCGATGAACCACCACTTCCTTGAGGCCACTGCTGCTGCTGTTG
CTGCTGTGATGGCCGCGACGAACCACCACTTCCTTGAGGCCACTGCTGCT
GCTGTTGCCCCCGACCATCAGCAAACGCTACGTTACCGCCTCCTCGCGCA
CGCCCAGCCTCACCCCCACGGCCCTGGTGGTAACCGTTGCCAATCACCGG
TGCATGCGGGTTAGAAGGTGTCGCAGGGGTAGTAGATTTTGTCGACGTCA
GTGCAGGCCGCCGTAGCTGTCCTGCCACACGGCGAGCATATTTTTGATCG
ACTCCACCTCATCACGTGAAAGGCCTTCATCACGCAGGAGTGTGCGTTTT
TCTACGTCGTAGGTGTCTGGCAACTGGCGGACAATAATCCGGACGATCTC
GGGCTCGGTCTTGTCAACACCAGTTGCACGGAGCATCGACAGAAGTTGCT
CCACACGAGTCATGAAAAATCGTGGGTCTTCGTCCTCAGCCATTTGGACA
GTCTCTAACTGCTGTGTAAGCAGGAAGATCTCATCAGAGCTTGTGGGCAA
AATCCAACTTGAAATCTTCTTCCATGCATCCACCACCGACTCGCATGCAT
GCAACCGAGACTCGAAAGGCGCATTCGCCGTTGCCTCCAGTATGATACCA
AAAGCCCTTAAGTGATCTTTGACTTCATTCTCATCGTAAGTGTTGAGAAG
TGCAGAGCGGTCCCTACAGTTGATGACCGGGATCGCCGCGGCATTCCCAT
TGAAACTATACTCGATGTTCTCATTTTCGAAAAATAAAAGCATCCGCTGC
ATCCACGAAAGCACTTGCGATGATGTCCCGTTTGATGGGAATTTCACCGA
ATTTTACCGCTGCTGTGATGTTCTGCGAGTCGTTCTTCCACGTGCATGCC
TCAGGCCAGATGGCCGAAAAGGATAACGCGCGGTTGGGAAAAACGATGTC
GGGGAAGTGCCTCGGGAACTCCCTCCATACCGACCTCGCACCTTCCAGAA
TCACCGAGATCCTCCGCTCCACACGACCGTTGCTTTTGGGCCCGTCCACC
GCCGTGAACTCCCGGGTGACGTTCAAATCCATCATCTCCCGGAAGTCCTC
GGTGACCCATTCGGTCCCGTTGTCTGTGAGAACGCACCCCAGCTCACCAT
GAACGTCCAACAGCGGCTTCACGGAGGCGTACCAAGTCTTGAACGCCCGA
ACGACAGTCGAGCCACTCTTGTCGCGCAAGAAAGCAACCCAGCCAAAAAT
GGTGTGGTCGTCTACTAGCTGCATGAGGTACTTGGCACCGCCCGTTGAAG
CAATGTAGGGTCCCGCCAGGTCCATGAAGATACGCTGGAACGGCCGCGAA
GATTTGCGAGATGCATCGATTGCTTTCGCTTCGGCACAACCGTCGCAGTA
CCCCTGGACGCCTGTCAGCTTGATGCCCATTTGCTTCGCCGTCTCGATCA
TAGACTTGATGTTGGTGTGGCCGAGGGAAGCGTGGAAGTCGTTGACGTCG
ATGCTAAACGGCTTTCCGGGCCGCATCACTGCCGCGCACAACGCGGCAGG
CCCGTGACGAGCTTCGTCGTGAGCAACACGGGTGGTTTTGGTATTACTTT
TCAGCGGGGCACGGTGGGCGGAGACACCATGGAACTATATGTCGACTCGG
ATTTTGTTAGCAAGGCCACCGACCGGCGGTCTGTTTCTGGTGCGTTAGTG
ATGTGTGCTGGCGCTTGTGTGGTGTATTTGTCTAGAACGCAAAAGAGCGT
TACTCTGTCTTCTACGGAAGCAGAGTATGTGGCCATGGCTGAGGGGATGA
AGGAAGCCATTTTCTTGCGGTACCTTTGGAGTTTTATTTTTCCGAGCCGT
GATGTGGGGTGCACTGTGATTCGCGAGGATAACGTTGGTGCTATTCACCT
GGCCAGCAACCCAGCCACTACCCCGAACTCGAAGCACATTGACATCCGTC
ACCATTTTATTCGCGAGCGTGTTGCGCGGGGGGAGTTTCGGGTAGTTCAT
GTACGGTCTGACCTCCAGCGCGCGGATTTTCTGACCAAACCAATGCCAAA
GGAGGCTTTCTTCTCACACCGTAATTTCGTGATGAACATTTGGTGATTTT
TCTTCCTTTGGTTTGTCTGATTGTTTGATTTTTTTTTTTTTTGCAGTATC
TTGATACCATATTGGGTATCGTGCGTCCTCTTTCTCTTTGTGGTTTGTGT
TTTTCTCCAGGTGGCTCGTTTTTGCTACTCATCTCCATATGTTTTCCTTT
TGTGTGTTCCGGTATCGCCGTTGGGTTTCCTGCTGTAGAAAATCATAAGG
GGGGGGAATGTGATGTTATGATTGTCGTCGCAGTCAACAGTTAGTGGTGT
TTCTGACAGCGCGGCTTTATTTTTGTTTCATATGTTTGGTTTCTTTTCCG
CGTTTTTCCCGCGGAAGAATCGTGGGGATATTTCTTGTGTCATGGTTTTT
GATGTTTGATGCTTTGTTGTTTTTTTCTCGTTTTACCTGCAGGAAGAACA
GGGAAATTATCTTTGTATGTCCTGGTTTGAACTTGCAGGACCTCTCTGTG
AGGAGATGCTTACAGGCATGATGGTTGAAAGTATTATATTTTGTATTCGA
GCGAGAAAGAGATATATCACGCGTTTTACCTTGCGGGGATATTTCTGGTT
TGTTTTATTTTCAGTAGAAATGTCACAGCAGGGGGGCTGTTTGGATATTG
GTTCATGTGAAATAATTGAAACTGCGGTAGATTTGGTGAAGATTTTCTTG
ACGTTTCCGAACACGTTGGAATTGTGCTTCACCATATAACTGGTTTTGGT
TTTGATGTATATTTCGCAAGGAAGGATTTGACATGTTCTGATGGTTTATT
GTTGAGGCTTGAGTGCTTTCCGAAGATTGTTCAAATTGGTCAGTAAGTTG
AAATTTGGTTTTAGTCTGGGAATTTTGGTTGGATGGATTGAAGCATTTTG
GCGGATTAGAAATACCGGTTGGTAGAATATCATCATCTCTACCCTCTTCT
TCTAGAGTGTCGATTTCATGCGGGTATTTTCCAAGGGTAATTCTTATCTT
TCAGCGGCTTGAGTATTTACTGGAGAGCAAATTTGATGGGTTTGCGATGA
GGAGAGTGTTTTCTCAAGAGGGTGTTTGTTTATTGACGGACCTTGGTGGT
AGTGACTTGACATTTGAAGATTCAGAAGACGTTTTGGATTGAAATGATTG
ATGGTTTGAGATAGGAGTTTTAGAGATGAGGTTTTCGCCGTTTTTCCTGG
CGATCTTGTTTGTATGTGAAGAGTTCCGTAGATCGTATCGGAGTACCGAG
TAGGGGGGCTGTTTGGGGTACCCGGCATCCGATACTGATCTACGGGGACC
CTCATGTATTTGTCATCAAGAGCGCATGCTACGGGTGTGTTCTCTCTCTC
TCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TAATAATTCAAGGTTTGAGTCGACCTTTGCTCGCGCTTCTGACAAGGAGC
TGTCTGCACCCAAACATGTGAAGATAGAAGCGGGTCTCGGGGTTGTTGTG
CGGCAGCCATATCTACCCTGTTGCTTGAAACGTCCGAGCTACTGCTACCA
CTACTTGTACCTCTTCCAGAAGGTACGTTGAGAGCGGTTCACCTGTTGGT
CTCCTGCTTTTATTAGAAGTTCTAAGAGCCCGGCCGGCGGCTTGGGTCCG
TCGTCGTTGTGTCCCTCAACCATCTTGACGTTAGTGGGGATGCTCCGGTG
CTAGGAGGCCCCGACAGCAGAAGTCGTTGCTGAAACCATTCCTTTCAAGG
TTTGTTCAGGCACGGAGCCGTTCTTCTCCTCGTCAGCCGTGCGCCGTTTT
CTGAAGACAGAAAGTCACGATCGCCGAGCTCTGCCTCCGCGGAGTCTGAT
CCCGACGAGTCTGCGTCGTCGTCACCTTCCTCCTCTTCGGCAGCGCCTCC
ACTCACACCGCCACCCAGGTGGGGGATCTTTGCGCGCAAAGAATATTCCG
CGGCGGGATCCGAAGAAGACACAGCGCTCGCACTGCTGGCCTGGTGGCCT
GGACCCTCGCGGCGGGGGTGCCTATTGGCGCCGACAGCGCTTCTTGCAGC
GCCGCTCGAACTGCCGCCAGCTCCTTCGCCAGGTCGACGTTAGCCACCTC
CGTTTCCTGCATCTTCCGCACTTTGCGCTTGCCAGACAAAAGTTTGGGCC
ATGTTTGGTTTTGGTGAATGAATGTTTTTTCGTATTCTCCGGCTCTCTCG
TCCAATTTTCGGGAGAACTTAGTTTCGTGTCGAAACTCGACGCAAAATGC
GGGCCTAGATTTTCCTCCATAGACGTAGCCCGTAAGCGTCCCAAGGGCTA
GTAGACAGGCCATACCAGACCTCTGACGGCCAAACCCCAAGCTGCTGTTA
CCGTAGCGAGGACCCTTTGTGGTGCGCTCTCAATTTTACCTGTAGTGTGC
AAAAGACGCTCAAGAAAGATTAAAAAGTATCAGTACACCCCGCCCACATC
AAACTTTTCCACGTGCGAAACACACCCCCGGCACATAACTTTCGAGAAAA
TGTCTGATTTTCTTCCGCACTTCCCCTTTTCCCGCGTTGGGCCATCCTGA
TGAGGCTCAACTCAAAGTCGAGTCGCATGTTGTGAATGGCATAACCATTC
ACGAGAGTGTACGGGGCCCTCAAACGCGGTTCGACTGTCAATAACATGCA
CGTCTGCAAGGATGTGGGCCTGCATCAGACCCATATACCGTGCTGACGAA
ATTCCAGAATGCCCGGCGCTGATAGATGCATACTGAAACCGTTGTGATTC
GGTCATCGTGCCTCCGGAAAAGATTTCGCTTCGCAACTCTTCACAGAAGG
ATAATGCTTCATCACCTCGTCTAGCTAGAGCGATAGCAGACAAAGCGCTC
ACCGAAACATCTTCAGCTCAGCAGCTCAATACTTGATTTCCATACACGAA
GATATATACAAAATTGTTCGGCATTTGGTGGCTAGTCTATGAAAAAGCTA
CGGTGAAGAGGATTTACCGCACATACGTGATATGATACGCCCTATCCGCA
CTTCGTTGGAGAGTTCTGGCAAGGATGAGTCGATGTACATCTATTTTGAC
GTGCAAGGTTTCATGGAATACGGGGATCAAGCACTGACGTGCTGAACATC
CCAGAATTTCTAGAAGTTGAGCTGCCATCCCACCGTTTTCTCTCACATGA
CTGACCAAGACCTCACAGTGAAGTAGAGGTTCTGTTCGAATCCTTCAACA
CGAGAAGCCGAATCAATCGTGCCAACTCGGTAGGGCCACGCGACCTGACA
CCGAATACTGCGTCTCGTCGAGGTGATTTGAAAGTTGAAGTTCGGCCGGC
TTGCGGTTGATCACCGCCGTCACGATCGAGACGACATGCAGCAGTTACGA
CTGTGAGAAAATGACTTTACTTGAGCAATCGGCAGTTTTCACGTGCCATA
ACTGTTTCTTCGGTATTACATATCACAGCGCTGGTGGCCACTATTCTGCG
CGGGTCATTTTTGATCGAGCGGAAAAACATTAGGCCTGTTTGGCCACACA
TGAGCTCATCTTGAGTTCGGTAAGGGTACCTACCGTCTTTCGGAATATCT
AACGTATCTTGAGACCATAATTTGTATGATGACCATGTGCTCAATACTTG
TACGCGTGCCAGTGACTCGGGCAGTCTTGTAATGGCGCCTACTTTATGGT
AATGATGATTGCAACAGTTCAGTTCCACCACTGTCAGCAATCATCCTAGG
CATCCTAGGTATCGTCAATAATGATCCTTAGCAAGATGGACTTGTGACGC
ATGAAGTGGGGGTTAATGTGGTGAGCAAGAGCGAAAAATGTGAATCCGCT
CGGAACATTATTTCGAGATCTGCTTATCTCCTGAAAGAAAGTCTGGTGGA
TATTTGGCCTTCCTTGAGGTGGGCAAATGGCCCACCTTTCGATCGCTCCC
TTTGCCGCTCTCGACTTTTACTATCCTCAGCTAAATATCACGGGAGAAAT
TGTTGGCTGCCCTTGGTCGCGTGCCAATACGACCACTCCCTTGGGACCCT
TTGGGGCTACGTCTACGCACGGCAACCTAGGACCACACCAGTATACCTCT
ATGGAAGAGTATGTTGATCAGGGGAAGCTATTCGGTAAATTGAAAATTGA
TCCGTGTGATAACACCACTGCTGTCGTGCAAATGGAGCACTAGAGCTCTC
TCCGCTTGCACCAAATGTTTTAAGGCATTCGCTCTCGCTTCATGCTTGGT
GCCTGCAGTACCTCCGTGCCTGATTTCGCCCTCCGCCCGGCGTTTTGTTG
TACCACCACGGGTGCCGAACATCACACGCTCATGATGCGCAGCGATGAGT
GCCCCCCGCCCCCTTCCCCGGCGTTTTCAAACGTGCATTTTGTTTTGTAC
ATTTTCCGCTAGCTCCCTTTCCGTCCGATGGTATGCTCGTGTCCCCGCTA
CGCTCCATTCCTGTTTCTCACTGCTGTTACTGCTGCTTCATAGCCTCTGC
TGCTTGCTTGCCTGTGTCTGCTGCCTGTGTTTGTCCACTGCATGCTTTTG
ACGCGTTTGTTTCTGTTTCATGTGTCTGTCAATCGGTGCGTGTGAAAATT
GGGTATTTTTTTCGTGTGTGTCGTGTGTATGCTGTATGTGTTTGTGCGCG
TGGTGGCCGCGATTCATCGATCCGTAAGCTTGGAGGCACGACGCGTGCAG
GGTGAACCTGCTGCCGCAGCTCAACGGGTTCGAAACGGAGGAACAGGCGC
TCCGGCTGGAGGAGGGGATGGACGACCCAAGCAACGCTAGATCAGGTGTG
TGTGCATGCGTGTTTCAATTGTCGACCGTGCCCTTCGTATGTATGAACAT
CGATCGGCCGGCGGCGCTCCCTCCCTCCAACGGCGGTACTAACACTCATT
GCCCGCCCTGCTTGCCGCATCAACGTTCAGTTCGAAATTGAACACAACGA
ACGGGACAATCCGTTCTACTGCATGCAGCAGAAAATAATACGTACATGAA
TAGCATTGTTCCTCCACCATTACAAAAGCAACAACCAGCAGGAGCGTTTG
TTAGGTGCACTACTGTGCTGGCTTCCATCATCACTGATTGCGTCAACTAA
AAACAAATGGACACAGTCTAATCTACTGCTGGGAACACGTGGAGCATCAT
CGTGAAGAAAACAAGCTGCTTCGAGGTAGCTTTTTGGCGTAGTGTCCTGA
CTGCGTCATCAACGTTTGGTTCCTAACTGAACACCACAAACGGGTGCAGG
CCAATTGCTGCTGGCGCAGACGCTGCTCGGCTCTGAGTCGAAGGTGACTG
TGATTGCGACGGGACCCCTGACGAACCTGGCCTGGGTGCTGGATAACCAT
CCGGAGGCGTCGTCTAAGATCGACAAGGTGCTCATCATGGGTGCGTGCGT
GGGTCACGTTTACTCCCCTTTCTGTTCGTGCCTCTGTGCGGTTGTTACTG
TCAAGAACGATGTGCTTCCTTGCTTAGCTAGCTACATAGCCGATCGATAA
GTTGCGTAAGTACCTGCCATTGACGGTCTCTTTTTGTGGCGTGTCGTTTA
CCGTCTTGAGGCGCGCGTGTCCGCTCGCTACGTCCCTCTCTCCCCCCCCC
CTTCTCCCCAATCACAACGCCGCTTACACGGACGCGTGCTGTCATCGCCA
TCACCATCACCATCGTTTCGTCATGGTTATCTACTGCTGCTGCTGCTGCT
GCTGCTGCTGCGTCTGAGGCGATTGCTGCTTGTGTTTGTACTCGTACCAC
TGCAGGGGGTGCAATCGACGTTCCCGGCAACGTGTTCGCGGACGACGTGA
AAGGTTTCGACGGAACAGCGGAATGGAATATTTTTTGGGACCCATGGGCG
GCTAAGCGTGTGAGTACGTATGTACAAAACGCGGCAGTCGCGGTATCAGC
GGCAGGAATAGTAATGGTAGCCGCAGCAGCAGTGGTAGCAGTCATTGCAG
TAGCAGGAGGAGCAGCTGCGGCAGCTGGAGCAGTAGCTACAGTGGTGGTT
TCTGGTCGAAGTTGGCGTCGGTTTGATATGCGATGGTTGAACCCCATCGT
TTTTCTTATTATTGTTTGATGCGTACGGTCTCGATGATGCTGATCTTTGT
CTGCATATGCGCGCCCACAAACACACAACCACACACACGCACACACATGT
GCACTTAAGGTCGCGGCGTGTTAACGGTGCGCGCATGACAGGTCTGGGAC
TCTAGCCTGCAGCTTGTGCTGACGCCGTTAGATGCGACAGACGAGGTTCC
GATAACGAAGGAGACGCTTCTGAGGTACGCACGATCATGTTGCTGTTTGC
TTGGAATTACGTCGTATGCAATTGAGAGCTGTATTTGCGGGGGGGGTTCA
TGCGAAGTACGCTTGATTGAAAGAGACGAGGCATGTACACGGACGGGAAT
GTTTCCAGCGGGTGGAAGCTGCTTGGGTTTGTGGATACTATTTTGTGTAA
ATGTAAGTGTGTGGTGTGGTGTGGTGTGGTGTGGGTATGTGAGTGGACGT
GGGTGGAAGGGTGAACGGATGCGGGGGTGGGTGTGCTCGCGTGCACGTGA
ATACGCGTGTCAGGTGGTAGTTATGCTTCCCACGTAATTCTCAGCGGCAC
TATGGCCCTGGTCAACAACGCATAACCACCATTCGACTGTTCGAAGGGGG
ACAAAGAGAGTGGCAGTTTGTGAGGGATGCAGCTGCTCCTTGCCAAGGTT
CAGCTCCTGTGTAGAAGATCGCACTCGAAGACTGCAGAACACCTTGGTGA
TTTTTGCGGCAAGCTAGACTGGTTTGTTGCAACGGTTTCTCGTCCCGTCC
TGTTTGTCGATCGTCGTACATGTGAACGAAACCCCTTTATTTTTTTAGCT
ATATTTCGGCACGCTTGCAACTTTCGATTGACTTACAGGTTGAGCCGGCA
GAACCACTGTGCGTCATCTACATTCGTTGGGAGCATCTGGTGAGAACCCC
AAACCCCGGTCTTCGATAATACTTTAGTTGTAACCGATATCACCCGTTCT
AATATGCGGTCGCCCTCGTGGTTCAGCAGGAATCTTCGGAATCTTATGAC
ACCCAGGACGCGTGTTCGAACCCCAGTGAAGCCACACCATATTGGATTTT
TCTCACAAAATTAAGATCATTCTTGGGGGGAGTGGAGAATGCCGGCTGTG
ACGCGAGCACTCAGCGATTGGACTCGTGTCTCGCTGAAAAGCTCAAAAAC
AAAAAACACAAGCAAGCACCGCAGAAAGCGGGTGGAGGAAAAAGAAAATC
ATGTGTGGACGTCGGTTGGCGCACCCACTTCATACCGCAAGGTGCAGACC
GGCGCCCAGAATAAATGGGATAAAAACACATACACAAGGACTACCACCAT
CGGTATTATTTCGTCTCGGGGGAGAAGGGGAATACTCGGGAAGTGTTCTG
TGAATAAGAAGGTCCGCTCGATCCCACCCCTTTTGAAACTTAGGCATACA
TGCAGTGGACGTCTTGCTTGTCGAGCTCAGACGATTGACCTCGCTTTTTT
GCCCTTTTGTTTGCCTCCCCTCTCAGGTTTCCCCGTTTTCTTGTGGCTGC
TCGAGATACAGGCATCAGCACCTACTTGATGCAGCTCGAGATACAGCAGT
CATTAATTTGTGTTGTTTGATTCACGTGTTGTTGAAAACGAAAAAAATAA
ATCGCGAAAAAGGACCTAGCTTGGTCAATCGATCAACCCCGAAGCCCACC
CGCAATGAACCGGATCGAGCTCCCTGTGATACACGTATAATGGTCGTGTA
CGGCATCCAGTTGAGGATCCGGGTGCAACCGATCGTTGAGAGGCTCGGAT
TTTGAAAAACAGCGAACAGGCCCTGACACTAACACACTGGGTACCTCACA
CCTGTAGGAAGGTGTCGGGAAATAGGAAAATTGTTGGTTATCGCACACAG
CGGCGGCCAGGGCTTCTCTTTCCATGCATATCACATGTCTACATCCAATC
TCCTACCATAAATATCAAGATAAACGTTTTCACCATCCTAAAACCGAGTT
AAACGAGCTTATTTTGACAAGGCTCAAACATGGGCTGTTGTTCGCGGGAG
TCCCGTTAACCTCGACCCAATCAGGAGAGAACATCATGTAGAAGATACGT
GTGCGTCGGCGCATTCAGATCTGCTACTCGGGCTTAGATACCGATGGTCG
CAGCAGAGGGTCAAAAACTCCGCAAAATGGACAGATTCCAAAAATTTCTT
CCGCTGCTGTTCCGTCTCCCACTGCTCTACTCGCCGCCACATACCCCAAC
CTCCTGAACTACGGGTCAACAGCAGTAGCTCATGCCGCTAGCTACCTCGG
ACGAACCGCAGTTCAGAAGATTAGTGCGATGGCGGCGAGTACAGCTGCGT
CAAACGTTTGGTGTCCGTCCAGATCGCGGAGATATTCAGGGATCCTGCGG
AGTTTTTGTGCCACTGCTGTGAACTTCGATATCTAAGCCCCAGTAGCAGA
TCTGAATGCGCCGACGCACACGTAGCTTCTGCATGATGTTCTCTCCTGAT
TGGGTCGAGGTTAACGAGACTCCCGCGAACAACAGCCCATGTTTGAGTCT
TATCAAAATAAACTTTTTGATTTGAATAAAGATTGAAAATGATCTTTCAG
ATCAAACATTAGGTTTTTCAGTAGATGAGAGACAACACGCACTCTCACAT
TCCATCGGGCGAACCCTTTAGACATCTAAACCGATCCGACAGCAGCGCGG
ACAGTAGTAAAGCGAAATAAGAAGGGACAGCGCATCCGAGAACAGCTCAC
TGAGAAGGGAATCCACACTTTCGCTGCGCAGCTGTCCACCAGGTGTGGAG
TAAGGAACTTTTTACCGCCCTAGTCCCTGGACCCTCAAGACACGCTTATT
TGGCCAAAGCTGCTGGGTCTCTTAACCTTGGGAGGGTATGGCTCGTGCGC
TTAGCGCGTTGCTTAAACATGGGAGATTTTTCTCGCGCACTATCCTCAGA
TTGTTTCTTACGGTTCACTTGATTTTTGGTTTTGATTTCAGACCCCGTGC
CCAAATCAAACCAGAGGACCCCCCTACCCCCCCCCCCTCAAAACGACCCT
GTCGACCACAACAGGCAACAGCACCAACCAGCACTCGGCTCCTGGGGCAC
TATTGGAGCGTGCGCTCCAGTGTTCTGGGGTTGGCCACAGCAATTTTGGT
GGGTGTGGGCTTTGGCTGTGCCGAGATATTGCCGGCGATATGTGTTGGGT
AGAAATATCCGGTGAAACAGAAATAGGTCGTTCGTTCGAGCCTAACCAGG
CCCGGAAAACCTATTTTTTTCGCCGAAGTTTCCTACCTCAACCCACACCG
CCGCCAGAATCTCGCCACAGCCAACGCCCACACGCAAGAAACTTGTGTGG
CCAATCTCGGAACACTGGAGCGCACGCTCCAGCAGGTTTGATCGTGATTG
GTGTCCCGGGGGCCGAGTACTGGCGGGTGCTGTCTCCTGTTGTGCTCAAA
CAGTGGCCTTTTCAGCCGTTTGGGCTCTCTGATTTCCGGGGGGGGCGGGG
GACCAAGCGAAAGAAAATCACCTTGATAAAGCACAAGCCGTAAGAAATGG
TCTCAGTACAATATGATATGATACATCAATAATGTCAGGAGTCCGCGTTT
TTCGCTGGGGGTATCCTACACTACTGCAGCTGTGGAAGACAACATACTGT
GGAATTTTTTATTTCAGGGCTATGGCGGGAGCGCACCTGATGGAAACCAA
GAGTCGGCCGTTCTTCGCATGGGATTTGCTGACGGTGGCTCAGCTGGTGC
ACCCCGAGCTGTTCACGACGTCGGAGCTCGAATGTGATGTCGTCGTCGAG
GGTGCCAGCCAGGGTCGCATCGTGCGAACAGCAGGAAATAGTGGTAGGGG
CACCGACAAAAGTGTAGTTCTCCAAAGTATTTCGGGAGCACGCACGGAGG
ATCTCGCGTTCTGCATGTCCCCATCGAACAAGCGATTTGCGTCTCCCTTC
TCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCC
TTTTAAGAGAATGCCGATAATCGTGGCAAGAAGGGGATTGCTTGAACAAC
GCGTTATATCTCTTCTGCATCTAGCACTCGAGAGCGAGAGGGCTGTAAAG
TTGTGATTTGAAGGCGAGATGACATCATTATATATTTTCATAGTACCGCG
TTTTTTGGTACATTTTGGCGCCATCGGACAATGAGCCACAGCAGCGACAA
CCGCCTAAAACTCACCCAAGCCTTCCCCCCCACCCCCCCCGACCCCCCCG
ACCGCCTTTGGCATGTGTGATGATGCACATACACACCTCATGGTGTACAG
GTGGCGATGATGTTGGCAGTGGTCGAACGGTAACGGTGATCCGAGCCAGA
GACGCGGATAAGCTCGTTGACGTCATCCTCACCAACCTTTGCTCTTCGTG
CGATGGTGCTGATGGTACTGGCACTACATCATCCTAG
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Coding sequence (CDS) from alignment at P-littoralis_Contig733:85647..109483+

>mRNA_P-littoralis_Contig733.19.5 ID=mRNA_P-littoralis_Contig733.19.5|Name=mRNA_P-littoralis_Contig733.19.5|organism=Pylaiella littoralis U1_48|type=CDS|length=1404bp|location=Sequence derived from alignment at P-littoralis_Contig733:85647..109483+ (Pylaiella littoralis U1_48)
ATGTCGATGTTGCTCTTGAACTCTCGTCGTGGGCTCGCCGTGGCAAGAGC
TATCTCCTTAGGTTGCCGGATCATGTCGTCTACACCGAAAGCTGCAACAA
CAGTGGAATCTTCTTTATCTGCCACACAGCAGGAGCAGCATGCCACTGCT
GCTGTGTATTTCGATCATGACGGAGGGAATGACGATTTCGTCGCGCTTTG
TTATTTGCTGAAACACGAGCATAGATTCGACCTGCTAGGCGTGTCGGTCA
CGCCCGCAAATTCGTGGGAGGGCGCTGGAACGAGGGCCACCCGGAAAATC
CTTCGCACGTTTTCGAATAAACACTGCTCGTCATCTCCTTTCTCCTCTTC
CTCTACTCAAGGGAAAATTCCCGTCGCAGAGTCCACCCTGCGCGGCGTAA
ATGCCTTCCCAGACGCTTGGAGGCACGACGCGTGCAGGGTGAACCTGCTG
CCGCAGCTCAACGGGTTCGAAACGGAGGAACAGGCGCTCCGGCTGGAGGA
GGGGATGGACGACCCAAGCAACGCTAGATCAGGCCAATTGCTGCTGGCGC
AGACGCTGCTCGGCTCTGAGTCGAAGGTGACTGTGATTGCGACGGGACCC
CTGACGAACCTGGCCTGGGTGCTGGATAACCATCCGGAGGCGTCGTCTAA
GATCGACAAGGTGCTCATCATGGGGGGTGCAATCGACGTTCCCGGCAACG
TGTTCGCGGACGACGTGAAAGGTTTCGACGGAACAGCGGAATGGAATATT
TTTTGGGACCCATGGGCGGCTAAGCGTGTCTGGGACTCTAGCCTGCAGCT
TGTGCTGACGCCGTTAGATGCGACAGACGAGGTTCCGATAACGAAGGAGA
CGCTTCTGAGGTTGAGCCGGCAGAACCACTGTGCGTCATCTACATTCGTT
GGGAGCATCTGGGCTATGGCGGGAGCGCACCTGATGGAAACCAAGAGTCG
GCCGTTCTTCGCATGGGATTTGCTGACGGTGGCTCAGCTGGTGCACCCCG
AGCTGTTCACGACGTCGGAGCTCGAATGTGATGTCGTCGTCGAGGGTGCC
AGCCAGGGTCGCATCGTGCGAACAGCAGGAAATAGTGGTAGGGGCACCGA
CAAAAGTGTATACCGCGTTTTTTGGTACATTTTGGCGCCATCGGACAATG
AGCCACAGCAGCGACAACCGCCTAAAACTCACCCAAGCCTTCCCCCCCAC
CCCCCCCGACCCCCCCGACCGCCTTTGGCATGTGTGATGATGCACATACA
CACCTCATGGTGTACAGGTGGCGATGATGTTGGCAGTGGTCGAACGGTAA
CGGTGATCCGAGCCAGAGACGCGGATAAGCTCGTTGACGTCATCCTCACC
AACCTTTGCTCTTCGTGCGATGGTGCTGATGGTACTGGCACTACATCATC
CTAG
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