mRNA_A-nodosum_M_contig106.9.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview


Name	mRNA_A-nodosum_M_contig106.9.1
Unique Name	mRNA_A-nodosum_M_contig106.9.1
Type	mRNA
Organism	Ascophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))

Homology

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: A0A177N863_9GAMM (Uncharacterized protein n=1 Tax=Methylomonas lenta TaxID=980561 RepID=A0A177N863_9GAMM)

HSP 1 Score: 488 bits (1255), Expect = 9.220e-153
Identity = 319/770 (41.43%), Postives = 434/770 (56.36%), Query Frame = 3

Query:   54 FSTFLPSAGEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDEG-SGFGALGFVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD-EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEA--ELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGTVSEVEVGTT----LVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLDYGEN------KTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQ--RVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHD-MVVQDF 2252
            +       GEA+E+  P+GTD++GWS+ LYNGNGG  Y T  L+G I D+  SG+G L F  +GIQNG  DG+AL+NA  +VVQFL+YEG+ TA+DG A GLT  DIGV ES ST +G SLQL G+GS Y DF W    TASFGSINA   FG ++  G   PL                  S C Q    +S IQG+G+ +P +G V  V   VTA F G   L+GF++Q  E D   ATS+G+FV  ++ +V+ GD     GT +E Y  T +      E+CS+GNALPTPV+VSLP + A  + E +EGML+++   + VT+NYN   YGEI++++  R    TQI  PG  +           L++DDGS+    +P +Y     +  A+ +R G ++ D  G+++Y F  YR++PT     +A   N RP ++   S  + +VA FNVLN+F   G       SRGA T E+   Q  KI     ALNADV+G++E+END      +I  LV  +N       + +V P    +G DEI VG+IY    V L+G + +LD   N      K R ++AQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCNLTRT+A  +L  W++G        +  L++GD N+YAQEDPI A   AGYVN+           SY++ G SG LD+ LA+ +   Q   VGE   + +NA+EP  L+Y+   K     +   + D YR SDHD ++VQ F
Sbjct:   37 YDNSSTDTGEAIEVAAPAGTDLTGWSLVLYNGNGGAQYSTTNLTGVIADQSASGYGGLSFPIAGIQNGAPDGVALVNAGQQVVQFLTYEGSFTAIDGPAAGLTGADIGVAESGSTAIGLSLQLKGSGSQYEDFAWSGESTASFGSINAGQNFGGNNSGGGQPPL------------------SQCGQGATLISGIQGAGAVSPLNGAVQHVEAIVTANFQGSANLNGFFLQQPEADSDPATSEGLFV-ASNLSVNTGDRVHFVGTVAETYGMTRLANVSSVEVCSSGNALPTPVAVSLPFDPAGNDPEQWEGMLINLPQALTVTENYNLARYGEILLSSGGRLLTPTQIALPGQAAIDAAADNALNQLLVDDGSNTQNLDPVLYPQPDGLSAANTLRSGYSVTDATGVLSYDFGGYRLEPTQALAFVA--DNSRPAALENNSTASLKVASFNVLNFFNGDGLGGAFPTSRGANTLEEFNRQRDKIVNAIYALNADVVGLMEIENDGYGSQSAIADLVAGLNQLAGAGSYAFVNPGHSKVGTDEITVGMIYKPAKVTLQGAAAILDTSVNPQFLDTKNRPAVAQTFLDKASN-----KLLTVAVNHLKSKGSVCDDVNDPDTGDGQGNCNLTRTAAAQALASWLSGDPTHTGSSNS-LIIGDLNAYAQEDPITALKQAGYVNLIETLVGNQAAYSYIFQGASGYLDHALANTSLVSQVKAVGE---WHINADEPRALDYNTEFKTPGQVSGFYAADAYRSSDHDPLLVQLF 776

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: A0A291IMF0_9GAMM (Endo/exonuclease/phosphatase domain-containing protein n=4 Tax=Methylomonas TaxID=416 RepID=A0A291IMF0_9GAMM)

HSP 1 Score: 479 bits (1234), Expect = 1.060e-149
Identity = 323/759 (42.56%), Postives = 431/759 (56.79%), Query Frame = 3

Query:   75 AGEALEICGPSGTDVSGWSVALYNGNGGTLYDTI-TLSGNIGDEGSGFGALGFVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD--EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEA--ELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD------YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYDK----CGTNDACTVSLDQYRCSDHDMVV 2243
            +GEA+EI GP+GTD+SGW +  YNG+GG  Y  I  LSG+I ++ +GFG++    SG+QNG  DG+AL++A + +VQFLSYEGT TA +G A G+ S DIGV ES S   G SLQL G+GS Y DF W A   ASFGSINA   FG      +P P P SQ                C Q    +S IQGSG  +P +GTV  V   V+A F G   L+GF++Q   + D + ATS+G+FV  A+  V+VGD   + G+ +E Y  T +      EICS+GNALP  V VSLP + A  + E +EGML+ +   + VT+NYN   YGE ++++  R    TQ+  PG     V+       L++DDGS+   P+P +Y     +  A+ +R G T+    G++AY F  YR+QPT   +T +A  NPRP + +     + +VA FNVLNYF   G       +RGA T  +   Q AKI A    L+ADV+G++E+END  A T +I  LV+ +N       + +V P    +G DEIAVGLIY    V L G + VLD      + + K R +LAQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCNLTRT+A  +L  W+ G   +    +  L+VGD NSYAQEDPI A   AGY N+           SYV+ G +G LDY LA    A Q V  T  + +NA+EP  L+Y+      G  D+  V+ D YR SDHD ++
Sbjct:   44 SGEAVEIAGPAGTDLSGWKIVPYNGSGGASYTPICNLSGSIPNQNNGFGSVSCTISGLQNGAPDGIALVDAGNALVQFLSYEGTFTASNGPANGIASVDIGVLESGSGAAGQSLQLKGSGSNYEDFTWAAESAASFGSINAGQTFGG----ATPPPPPVSQ----------------CGQPATLISAIQGSGGVSPLNGTVQHVEAVVSADFQGSGNLNGFFVQQGSDADANPATSEGLFV-AANTPVNVGDRVHLVGSVAETYGMTRLENVGSVEICSSGNALPAAVEVSLPFDSAGNDPERWEGMLIHLPQTLTVTENYNLARYGEFLLSSGGRLLTPTQVAAPGQAANDVAAQNAFNQLLVDDGSNIQNPDPVIYPQPAGLSAANSLRSGATVTGASGVLAYDFGVYRLQPTQ-PLTFSAG-NPRPANPAPSGPGSLKVASFNVLNYFNGNGLGGGFPTARGANTLAEFNRQRAKIVAALHQLDADVVGLMEIENDGYAGTSAIADLVNGLNQLAGAGSYAFVNPGRGKIGSDEIAVGLIYKPGKVGLAGGAAVLDGSVDPQFLDTKNRPALAQTFLDKASN-----KLLTVAVNHLKSKGSACDDVNDPDTGDGQGNCNLTRTTAATALANWLAGDPTQQGAAN-TLIVGDLNSYAQEDPINALKNAGYRNLLETMVGNQAAYSYVFDGAAGYLDYALAGPALAAQ-VKSTTEWHINADEPRALDYNTEFKTAGQVDSFYVA-DAYRSSDHDPLL 771

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: G0A1K3_METMM (Endonuclease/exonuclease/phosphatase n=1 Tax=Methylomonas methanica (strain MC09) TaxID=857087 RepID=G0A1K3_METMM)

HSP 1 Score: 469 bits (1208), Expect = 6.880e-146
Identity = 319/772 (41.32%), Postives = 436/772 (56.48%), Query Frame = 3

Query:   54 FSTFLPSAGEALEICGPSGTDVSGWSVALYNGNGGTL--YDTITLSGNIGDE-GSGFGALGFVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD-EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEA--ELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPG-TVSEVEVGTTL---VIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD------YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQ--RVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHD-MVVQDF 2252
            +      +GEA+EI GP+GTD+SGWS+ LYNG+   L  Y TI LSG I D+ GSGFG L F   G+QNG  DG+AL++A++ VVQFLSYEG+ T VDG A G+  TDIGV E+ ST VG SLQLTG+GS Y DF W      SFGS+N    F   +G G P PL                  S C Q  + +S IQG+G+ +P  GTV  V   VTA F G   L GF++Q  E D   ATS+G+FV+ +++ V+VGD   V GT +E+              CS+GN+LP PV V++P + A    E +EGML+S+   + VT+NYN   +GE+++++  R    TQI  PG   S+   G  L   ++DDGS+   P+P +Y     +  A+ +R G +L    G+++Y F  YR++PT   V    A N RP   S  +    +VA FNVLN+F   G       +RGA T+++   Q  KI      LNADV+G++E+END  A T +I  LV  +N     A + +V P    +G DEI VGLIY    V   G + +LD      + +NK R ++AQTF  +  +        T+ VNH KSKGS CDD+ DPD  DGQGNCN+TRTSA  +L  W++    + D  +  L++GD N+YAQEDPI A   AGYVN+           S+V+ G SG LD+ LA++  A Q   VGE   + +NA+EP  L+Y+   K     A   + D +R SDHD ++VQ F
Sbjct:   37 YDNVNADSGEAIEIAGPAGTDLSGWSIVLYNGSATQLNRYGTINLSGVIADQSGSGFGTLSFSAPGLQNGAPDGVALVDASNGVVQFLSYEGSFTPVDGPAAGMAGTDIGVAETGSTPVGFSLQLTGSGSQYEDFTWGNASAESFGSVNTGQSFSGGNGGGQP-PL------------------SQCGQPAMLISAIQGTGAISPVSGTVQHVEAVVTANFQGSGNLSGFFLQQTEADADPATSEGLFVF-SNSPVNVGDRVHVVGTVTEFNQLXXXXXXXXXXACSSGNSLPAPVEVNMPFDFAANNPEQWEGMLISLPQTLTVTENYNLARFGELLLSSGGRLLTPTQIALPGQAASDAAAGNALNQLLVDDGSNIQNPDPVIYPQPGDLSAANTLRSGYSLTGATGVLSYGFGAYRLEPTQ--VLNFVADNARPALPSADATAALKVASFNVLNFFNGDGLGGGFPTARGANTQQEFTRQRDKIVKAIHELNADVLGLMEIENDGYAATSAIADLVAGLNQLAGTAQYAFVDPGVNKVGSDEITVGLIYQPAKVRPVGSAAILDEAVDPRFIDNKNRPAIAQTFLDSRSN-----KMLTIAVNHLKSKGSACDDLNDPDTGDGQGNCNITRTSAAEALAAWLSNDPTQTDSHN-ALIIGDLNAYAQEDPITALKNAGYVNLIETLVGNQTAYSFVFDGASGYLDHALANSNLAAQVKAVGE---WHINADEPRALDYNTEFKSAAQIASFYAPDAFRSSDHDPLLVQMF 777

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: UPI001BC13FDB (ExeM/NucH family extracellular endonuclease n=1 Tax=Methylomonas sp. TaxID=418 RepID=UPI001BC13FDB)

HSP 1 Score: 468 bits (1205), Expect = 1.880e-145
Identity = 316/763 (41.42%), Postives = 432/763 (56.62%), Query Frame = 3

Query:   78 GEALEICGPSGTDVSGWSVALYNGNGGTL--YDTITLSGNIGDE-GSGFGALGFVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD-EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLP-SNEAELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGTVSEVEVGTT----LVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD------YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQ--RVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHD-MVVQDF 2252
            GE +EI GP GTD++GWS+ LYNG+   L  YDTI L+G I D+ G+GFG L F   G+QNG  DG+AL++A++ VVQFL+YEG  T +DG A G+  TDIGV E+ ST VG SLQL G+GS Y DF W     ASFGSIN+   F   +G G P   P SQ                C Q    +S IQG+G+++P  GT+  V   VTA F G   L GF++Q  E D   ATS+G+FV+ ++  V+VGD   V GT +E++  TE+      ++C +GN LP PV VSLP ++  E E +EGMLVS+   + VT+NYN   YGE+++++  R    TQI  PG  +           L++DDGS+   P+P +Y     +  A+ +R G  +    G+++Y F  YR++PT   V   AA N RP   +  +    +VA FNVLN+F   G       +RGA T+++   Q  KI      LNADV+G++E+END  A T +I  LV  +N     A + +V P    +G DEI VGLIY    V   G + +LD      + +NK R ++AQTF     +        T+ VNH KSKGSDC+DI DPD  DGQGNCN+TRTSA  +L +W+     +    +  L++GD N+YAQEDPI A   AGYVN+           S+V+ G SG LD+ LA+     Q   VGE   + +NA+EP  L+Y+   K     A   + D YR SDHD ++VQ F
Sbjct:   45 GEEIEIAGPVGTDLNGWSLVLYNGSATQLNRYDTINLAGVITDQSGNGFGVLSFPAPGLQNGAPDGVALVDASNTVVQFLTYEGGFTPIDGPAAGMAGTDIGVAETGSTPVGMSLQLQGSGSQYEDFTWVGESAASFGSINSTQSFAGGNGGGQP---PVSQ----------------CGQPATLISAIQGTGASSPLGGTIQHVEAVVTANFQGSGNLSGFFLQQAEADADPATSEGLFVF-SNTPVNVGDRVHVVGTVTEFFELTELNNLSSLDVCGSGNPLPAPVEVSLPFAHAGEPERWEGMLVSLPQTLTVTENYNLARYGELLLSSGGRLLTPTQIALPGQAAIAAAADNALNQLLVDDGSNIQNPDPVIYPQPGDLSAANTLRSGYGVTGATGVLSYGFGAYRLEPTQ--VLNFAADNARPAVPAVDARAALKVASFNVLNFFNGDGLGGGFPTARGANTQQEFARQRDKIVQAIHELNADVLGLMEIENDGYAATGAIADLVAGLNQLAGTARYAFVNPGVNKVGTDEITVGLIYQPAKVQPVGSAAILDAAVDPRFIDNKNRPAIAQTFLDKTSN-----KMLTIAVNHLKSKGSDCNDINDPDTGDGQGNCNITRTSAAEALADWLANDPTQTGSHN-ALIIGDLNAYAQEDPITALKNAGYVNLIEQSVGNQAAYSFVFDGASGYLDHALANTELTPQVKAVGE---WHINADEPRALDYNTEFKSAGQIAGFYAADAYRSSDHDPLLVQVF 776

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: UPI00112DB48E (ExeM/NucH family extracellular endonuclease n=1 Tax=Methylomonas koyamae TaxID=702114 RepID=UPI00112DB48E)

HSP 1 Score: 464 bits (1195), Expect = 5.130e-144
Identity = 318/760 (41.84%), Postives = 420/760 (55.26%), Query Frame = 3

Query:   78 GEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGALGFV--RSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD--EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLP--SNEAELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLA-AATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLDYGEN------KTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHDMVV 2243
            GEA+EI GP+GT++SGWS+ LYNGNGG  Y+T  LSG I D+ G+GFG L F     GIQNG  DG+AL+N  S VVQFL+YEG+ TAV G A G    DIGV ESS   VG SLQL G GS+Y DF W      SFGS NA   FG     G   P P+SQ                C Q    +S IQGSG  +P +GTV  V   V+A F G   L+GF++Q   + D + ATS+G+FV LA+  ++ GD   + G+ +E +  T +      E+CS+GNALP P +V+LP  S   + E +EGMLV +   + VT+NYN   YGE ++++  R W  TQ+  PG     V+       L++DDGS+   P+P +Y     +  A+ +R G T+    G++AY F  YR+QPT     LA +A+N RP + +     + +VA FNVLNYF   G       +RGA T  +   Q AKI     ALNADV+G++E+END    T +I  LV+ +N       + +V P    +G DEIAVG+IY    V   G   +LD   N      K R +LAQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCN TRT A  +L  W+ G   +    +  L+VGD NSYAQEDPI A   AGY N+           SYV+ G +G LD+ LA++  A Q V     + +NA+EP  L+Y+   K         + D YR SDHD ++
Sbjct:   45 GEAIEIAGPAGTNLSGWSLVLYNGNGGASYNTKALSGVIADQTGTGFGTLSFSYPTDGIQNGSPDGIALVNG-STVVQFLTYEGSFTAVGGPAAGKVGVDIGVSESS-VAVGQSLQLKGAGSSYEDFAWTTAAANSFGSPNAGQTFG-----GITPPPPTSQ----------------CGQPATLISAIQGSGGVSPLNGTVQHVEAVVSADFQGSGNLNGFFVQQGSDADANPATSEGLFV-LANTPINAGDRVHIVGSVAETFGMTRLENVTAVEVCSSGNALPEPAAVNLPFDSTNNDPERWEGMLVQLPQTLTVTENYNLARYGEFLLSSGGRLWTPTQVAAPGQAANDVAAQNALNQLLVDDGSNQQNPDPVIYPQPAGLSAANSLRSGDTVAGATGVLAYDFGVYRLQPTQ---PLAFSASNTRPANPAPTGLGSLKVASFNVLNYFNGNGLGGGFPTARGANTLAEFNRQRAKIIPAIHALNADVVGLMEIENDGYGSTSAIADLVNGLNQLAGAGTYAFVNPGLSKVGTDEIAVGIIYKPAKVTAAGKVAILDSSVNPQFIDSKNRPTLAQTFLDKASN-----KLLTVAVNHLKSKGSACDDVNDPDTGDGQGNCNQTRTDAAQALASWLAGDPTQQGAANS-LIVGDLNSYAQEDPITALKNAGYRNLLETMVGNRAAYSYVFDGAAGYLDHALANSALAPQ-VKSASEWHINADEPRALDYNTEFKSANQVTSFYAADAYRSSDHDPLL 770

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BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: UPI001231BEFA (ExeM/NucH family extracellular endonuclease n=1 Tax=Methylomonas rhizoryzae TaxID=2608981 RepID=UPI001231BEFA)

HSP 1 Score: 456 bits (1174), Expect = 6.570e-141
Identity = 312/758 (41.16%), Postives = 426/758 (56.20%), Query Frame = 3

Query:   78 GEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGALG--FVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQDEGDG-STATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEAEL--EAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD------YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYDK----CGTNDACTVSLDQYRCSDHDMV 2240
            GEA+EI GP+GTD+ GW + LYNGNGG  YDT  L+G I D+ G+G+G L   +  +GIQNG  DG+AL++A + VVQFLSYEG+  A DG A G++++DIGV ESS T  G SLQL+G+GS Y DF WQ+   ASFG+IN+   FGD  G GS                     GSLC Q  + + DIQGSG  +P  G+V  V   VTA F G   L GF++Q  G+  ++A S G+FV      V  GD   + GT +E +  T +      E+CS  NALP PV +SLP + A+   E  EGML+++   + VT+NY+   YGE +++A  R    TQI  PG     ++       L +DDGS+   P P VY     +  A+ +R G T+    GI+AY F E+R+QPT   V+LA   N R          +  VA FNVLN+F   G       +RGA++  +   Q AKI A   AL+ADV+G++E+END  + + +I  LV  +N A     + ++ P    +G DEI VGLIY A+ V + G + VLD      + + K R +LAQTF     +      S TV VNHFKSKGS CDD+ DPD  DGQGNCNLTR +A  +L  W+      +   + +L+VGD N+YAQEDPI     AGY N+   +       SYV+   SG LD++LA+    R ++ +   + +NA+EP  L+Y+      G  DA   + D YR SDHD +
Sbjct:   45 GEAIEIVGPAGTDLHGWRLVLYNGNGGAAYDTRLLTGGIADQSGNGYGTLSVSYPSNGIQNGAPDGVALIDADNRVVQFLSYEGSFIASDGPAAGISASDIGVAESSGTASGLSLQLSGSGSHYEDFVWQSEQAASFGAINSGQQFGDIGGGGS---------------------GSLCGQAAVSIGDIQGSGGYSPLAGSVQHVEALVTAGFQGTAQLGGFFVQQAGNPVNSAQSQGLFVQSG-FPVEAGDLVHLVGTVAETFGMTRLQNLSAAEVCSHANALPEPVPLSLPFDGADNDPERREGMLITLPQTLTVTENYDLARYGEFVLSAGGRLITPTQIAAPGEAAADLAAQNALNRLTVDDGSNDQNPEPVVYPQPDGLSAANSLRSGDTVSGATGILAYDFGEFRLQPTEALVSLAQ--NARTAKPERNGRGSLTVASFNVLNFFNGDGQGGGFPTARGADSAAELARQKAKIVAALNALDADVVGLMELENDGYSASSAIAELVAGLNQAAGRDKYRFIDPGLSRIGSDEITVGLIYRADKVSVSGPAVVLDSRVDPDFLDAKNRPALAQTFLDRASN-----KSVTVSVNHFKSKGSACDDVNDPDTGDGQGNCNLTRLAAAGALARWLANDPTGMSAAN-VLIVGDLNAYAQEDPITELKRAGYHNLLEENPGNRPAYSYVFDAASGYLDHVLANPQL-RGQIQDLGEWHINADEPRALDYNSEFKSAGQIDAF-YAADPYRSSDHDPL 770

[Close]

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: A0A177PDA2_9GAMM (LTD domain-containing protein n=2 Tax=Methylomonas TaxID=416 RepID=A0A177PDA2_9GAMM)

HSP 1 Score: 455 bits (1170), Expect = 2.310e-140
Identity = 316/770 (41.04%), Postives = 423/770 (54.94%), Query Frame = 3

Query:   75 AGEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGAL--GFVRSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQD---EGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLP-SNEAELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLGS-------RGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD------YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWM------TGSNIEVDPDDDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHD-MVVQDF 2252
            +GEA+EI GP+GTD+SGWS+ LYNGNGG  Y T TLSG I D+ GSGFG L  GF   GIQNG  DG+AL++A    VQFLSYEGT  AV G A G   TDIGV ESS+T VG SLQL G+G  Y DF W +    +FG++NA   F                        A   S   C      +S IQG+   +P  GT  T+   VTA FSG   L+GF++Q    E D    +S+G+F+  A A++ VGD   + G  +E Y  T +     P++C++G ALP  V+V LP S +   E+ EGMLV++   + VT+NYN   YGE ++++  R    TQ   PG     ++   +   L++DDG++   P+P +Y     +  A+ +RVG ++    GI+AY F  YR+QPT   +TL A  NPR  + +     +  VA FNVLNYF   G+       RGA++  +  +Q AKI A    LNADVIG++E+END  A   +I  LV  +N A     + Y+ P   P+G DEIAVGLIY        G + +L       + + K R ++AQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCNLTRT+A   L +W+      TGS        + L+VGD NSYA+EDPI A  +AGY N+           SYV+ G SG LD+ LA+ TA   +V     + +NA+EP  L+Y+   K     A   + D YR SDHD ++VQ F
Sbjct:   44 SGEAVEIAGPAGTDLSGWSLVLYNGNGGANYRTATLSGVIADQSGSGFGTLSFGFPTDGIQNGAPDGIALVDANQVAVQFLSYEGTFNAVGGPAAGQAGTDIGVSESSATPVGFSLQLQGSGQVYEDFLWASASDDNFGAVNAGQSFA----------------------AAPPDSTDKCGDPATAISAIQGNDIDSPLVGTRQTIEAIVTADFSGGAKLNGFFVQQADGETDADPTSSEGLFI-AASASIHVGDRVRISGNVAETYGMTRLENVSPPQVCASGQALPAAVAVELPFSPDNRQESREGMLVTLPQTLTVTENYNLARYGEFLLSSGGRLLTPTQAAEPGAPALAIAAQNLANQLLVDDGANLQNPDPVIYPEPAGLSAANTLRVGDSVSGATGILAYDFGAYRLQPTQT-LTLNA-DNPRDQAPTPDRRTSLTVASFNVLNYFNGDGNGGGFPTARGADSPAEFAKQRAKIVAALTRLNADVIGLMEIENDGYAANSAIADLVAGLNQAAGPGTYAYINPGVSPVGSDEIAVGLIYKPAKASPIGPAAILSSAFDPAFIDTKNRPTIAQTFRDKTSN-----KLLTVAVNHLKSKGSACDDVNDPDTGDGQGNCNLTRTAAAQVLTQWLATDPTHTGSA-------NALIVGDLNSYAEEDPISALKSAGYRNLLENLVGNHAAYSYVFDGASGYLDHALAN-TALTPQVKAVSEWHINADEPRALDYNEEFKSAGQIADFYAADAYRSSDHDPLLVQLF 775

[Close]

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: A0A4R3XUE3_METMH (LTD domain-containing protein n=2 Tax=Methylomonas TaxID=416 RepID=A0A4R3XUE3_METMH)

HSP 1 Score: 449 bits (1156), Expect = 5.050e-138
Identity = 314/765 (41.05%), Postives = 426/765 (55.69%), Query Frame = 3

Query:   75 AGEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGALGFV--RSGIQNGPNDGLALLNATSEVVQFLSYEGT-MTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQDEG--DGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEA--ELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLDYGEN------KTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPD----DDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHDMVV 2243
            +GEA+EI GP+GTD+SGWS+ LYNGNGG +Y+T TLSG I D+ G+GFG L F    +GIQNG  DG+AL+N  S VVQ+LSYE +   AV G A G+TSTDIGV E++ST VG SLQL G+GS+Y DF W      SFG+INA+  FG  +    P P P SQ                C Q    +S IQGS   +P  G+V  V   V+A F G   L+GF++Q     D + ATS+G+FV  +   V+VGD+  + GT +E +S T +      ++CS+GNALP  V V+LP + A  + E +EGML+ +   + VT+N+N   +GE ++++  R    TQI TPG     V+   +   L++DDGS+   P+P +Y     +  A+ +R G ++    G++AY F  YR+QPT        A N R +  +  +  + +VA FNVLNYF   G        RGA+T  +   Q AKI     ALNADVIG++E+END   +T +I  LV+ +N       + ++ P    +G DEIAVG+IY    V   G   +LD   N      K R +LAQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCN TRT A  +L  W+       DP      + L++GD NSYAQEDPI A   AGY N+           SYV+ G +G LD+ LA+A    Q V     + +NA+EP  L+Y+   K         + D YR SDHD ++
Sbjct:   69 SGEAIEIAGPAGTDLSGWSIVLYNGNGGAVYNTKTLSGTIADQTGNGFGTLSFSYPSNGIQNGSPDGIALVNG-STVVQYLSYEPSPFAAVGGPANGMTSTDIGVTETNSTPVGHSLQLKGSGSSYEDFTWNTASANSFGAINASQSFGGVT----PPPPPVSQ----------------CGQAATLISAIQGSSGLSPLSGSVQHVEAVVSADFQGSTNLNGFFVQQVSGADANPATSEGLFV-SSSVPVNVGDKVHIVGTVTETFSMTRLEAVSSVDVCSSGNALPAAVEVNLPFDSAGNDPERWEGMLIQLPQTLTVTENFNLGRFGEFLLSSGGRLLTPTQIATPGQAAVDVAAQNLLNQLLVDDGSNTQNPDPVIYPQPTGLSAATPLRSGDSVVGATGVLAYDFGVYRLQPTQ--PLSFVADNARGSVPALSTLGSLKVASFNVLNYFNGNGLGAGFPTPRGADTLAEFNRQRAKIIPAIHALNADVIGLMEIENDGYGNTSAIADLVNGLNQLAGAGTYAFINPGLSKVGTDEIAVGIIYKPAKVSAVGNVAILDSSVNPQFIDTKNRPTLAQTFLDKASN-----KLLTVAVNHLKSKGSACDDVNDPDTGDGQGNCNQTRTDAAQALASWLAS-----DPTHNGVSNALIIGDLNSYAQEDPISALKNAGYQNLLETLVGNQAAYSYVFDGAAGYLDHGLANAALTPQ-VKSAGEWHINADEPRALDYNTEFKTAGQINNFYAADAYRSSDHDPLL 798

[Close]

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: UPI001966D103 (ExeM/NucH family extracellular endonuclease n=4 Tax=Methylomonas TaxID=416 RepID=UPI001966D103)

HSP 1 Score: 447 bits (1149), Expect = 2.690e-137
Identity = 312/766 (40.73%), Postives = 428/766 (55.87%), Query Frame = 3

Query:   75 AGEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGALGFV--RSGIQNGPNDGLALLNATSEVVQFLSYEGT-MTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQ--DEGDGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEAE--LEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGTVSEVEVGTT-----LVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLDYGEN------KTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPD----DDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHDMVV 2243
            +GEA+EI GP+GT++SGWS+ LYNGNGG  Y++  LSG I D+ G+GFG L F     GIQNG  DG+AL+N+ S VVQFLSYE +  TAV G A G+TS DIGV E++ST VG SLQL GTG++Y +F W A  T SFG++N+   FG  +    P P P SQ                C Q    +S IQGS   +P  G+V  V   V+A F G   L+GF++Q  D  D + ATS+G+FV  +   V+VGD+  + GT +E ++ T +      +IC+TGNALPT V V+LP + A+   E +EGML+ +   + V++N+N   +GE ++++  R    TQ+  PG  + ++V        L +DDGS+   P+P +Y     +  A+ +R G ++    GI+AY F  YR+QPT     +A  T      +ST   +  +VA FNVLNYF   G       SRGA T  +   Q  KI     ALNADV+G++E+END    + +I  LV+ +N       + Y+ P    +G DEIAVG+IY        G   +LD   N      K R +LAQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCN TRT+A  +L  W+ G     DP     ++ L++GD NSYAQEDPI A   AGY N+           SYV+ G +G LD+ LA+A  A Q V     + +NA+EP  L+Y+   K     +   + D YR SDHD ++
Sbjct:   44 SGEAIEIAGPAGTNLSGWSLVLYNGNGGASYNSKALSGVIADQTGTGFGTLSFSYPADGIQNGGPDGIALVNS-STVVQFLSYESSPFTAVGGPANGMTSVDIGVAETNSTPVGQSLQLKGTGNSYENFTWNAPATNSFGAVNSGQNFGGVT----PPPPPVSQ----------------CGQAATLISAIQGSSGVSPLSGSVQHVEAVVSADFQGSGNLNGFFVQQIDGADANPATSEGLFV-ASSLPVNVGDKVHIVGTVTETFNMTRLESVSSVDICATGNALPTAVEVNLPFDNADNNAERWEGMLIRLPQTLTVSENFNLGRFGEFLLSSGGRLLTPTQVAMPGQAA-IDVAAQNGLNHLTVDDGSNVQNPDPVIYPQPTGLSAATPLRSGDSVVGATGILAYDFGVYRLQPTQPLTFIADNTRGAAPILSTLGSL--KVASFNVLNYFNGNGVGGGFPTSRGANTLAEFNRQRGKIIPAIHALNADVVGLMEIENDGYGSSSAIADLVNGLNQLAGAGTYAYINPGLSKVGTDEIAVGIIYKPAKTTPVGAVAILDSSVNPLFIDTKNRPALAQTFLDKASN-----KLLTVAVNHLKSKGSACDDVNDPDTGDGQGNCNQTRTNAAQALATWLAG-----DPTHNGANNALIIGDLNSYAQEDPISALKNAGYQNLLETFVGNQAAYSYVFDGAAGYLDHGLANAALAPQ-VKSAGEWHINADEPRSLDYNTEFKTANQLSSFYAADAYRSSDHDPLL 773

[Close]

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Match: A0A177MJ74_METMH (LTD domain-containing protein n=1 Tax=Methylomonas methanica TaxID=421 RepID=A0A177MJ74_METMH)

HSP 1 Score: 445 bits (1145), Expect = 9.710e-137
Identity = 310/765 (40.52%), Postives = 419/765 (54.77%), Query Frame = 3

Query:   75 AGEALEICGPSGTDVSGWSVALYNGNGGTLYDTITLSGNIGDE-GSGFGALGFV--RSGIQNGPNDGLALLNATSEVVQFLSYEGTMTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITASFGSINANMCFGDDSGCGSPSPLPSSQAXXXXXXXATLTSGSLCDQDTIPVSDIQGSGSATPYDGTVVTVRGNVTAVFSG---LDGFYIQDEG--DGSTATSDGIFVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVSVSLPSNEA--ELEAFEGMLVSIKSPV-VTDNYNADSYGEIIVAAE-RQWQYTQIHTPGT----VSEVEVGTTLVIDDGSDGYEPNPDVY-----VDQASDVRVGQTLEDIEGIMAYSFSEYRVQPTT-LGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFTTLG-------SRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIETLVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLDYGEN------KTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDADDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPD----DDILLVGDFNSYAQEDPIQAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGETVHYQVNAEEPAGLEYD---KCGTNDACTVSLDQYRCSDHDMVV 2243
            +GE +EI GP GT++SGWS+ LYNGNGG  Y+T  LSG I D+ G+GFG L F     GIQNG  DG+AL+N  S VVQFL+YEG+ TAV G A G    DIGV ESS   VG SLQL G+GS+Y DF W A    SFG++N    FG  +    P P P SQ                C Q    +S IQGS   +P  G+V  V   V+A F G   L+GF++Q     D + ATS+G+FV  +   V+ GD+  + GT +E ++ T +      ++CS+GNALPT + V+LP + A  + E +EGML+ +   + VT+NYN   +GE ++++  R    TQ+ TPG     V+   +   L++DDG +   P+P +Y     +  A+ +R G ++    G++AY F  YR+QPT  L      A  P PT +ST   +  ++A FNVLNYF   G       SRGA+T  +   Q AKI     ALNADVIG++E+END    T +I  LV+ +N       + ++ P    +G DEIAVG+IY    V   G   +LD   N      K R ++AQTF     +        TV VNH KSKGS CDD+ DPD  DGQGNCN TRT A  +L  W+       DP      + L++GD NSYAQEDPI     AGY N+           SYV+ G +G LD+ LA+AT A Q V     + +NA+EP  L+Y+   K     +   + D YR SDHD ++
Sbjct:   44 SGETIEISGPVGTNLSGWSIVLYNGNGGASYNTKALSGVITDQSGTGFGTLSFSYPTDGIQNGAPDGIALVNG-STVVQFLTYEGSFTAVGGPATGKVGVDIGVSESS-VPVGQSLQLKGSGSSYEDFTWTAASANSFGAVNNGQNFGGVT----PPPPPVSQ----------------CGQAATLISAIQGSSGVSPLSGSVQHVEAVVSADFQGSSNLNGFFVQQVSGADANDATSEGLFV-SSSVPVNTGDKVHIVGTVTETFNMTRLENVSSVDVCSSGNALPTAIEVNLPFDSAGNDPERWEGMLIQLPQTLTVTENYNLGRFGEFLLSSGGRLLTPTQVATPGQAAIDVAAQNLANQLLVDDGINVQNPDPVIYPQPTGLSAATPLRSGDSVVGATGVLAYDFGVYRLQPTQPLTFVADNARGPAPT-LSTLGSL--KIASFNVLNYFNGNGLGGGFPTSRGADTLTEFNRQRAKIIPAIHALNADVIGLMEIENDGYGSTSAIADLVNGLNQLAGAGTYAFIKPGLSKVGTDEIAVGIIYKPTKVSTAGSVAILDSSVNPLFIDTKNRPAIAQTFLDKASN-----KLVTVAVNHLKSKGSACDDVNDPDTGDGQGNCNQTRTDAAQALASWLAS-----DPTHNGVSNALIIGDLNSYAQEDPISTLKAAGYQNLLETFVGNQAAYSYVFDGAAGYLDHALANATLASQ-VKSAAEWHINADEPRSLDYNTEFKSANQVSSFYAADAYRSSDHDPLL 771

The following BLAST results are available for this feature:

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot

BLAST of mRNA_A-nodosum_M_contig106.9.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A177N863_9GAMM	9.220e-153	41.43	Uncharacterized protein n=1 Tax=Methylomonas lenta...	[more]
A0A291IMF0_9GAMM	1.060e-149	42.56	Endo/exonuclease/phosphatase domain-containing pro...	[more]
G0A1K3_METMM	6.880e-146	41.32	Endonuclease/exonuclease/phosphatase n=1 Tax=Methy...	[more]
UPI001BC13FDB	1.880e-145	41.42	ExeM/NucH family extracellular endonuclease n=1 Ta...	[more]
UPI00112DB48E	5.130e-144	41.84	ExeM/NucH family extracellular endonuclease n=1 Ta...	[more]
UPI001231BEFA	6.570e-141	41.16	ExeM/NucH family extracellular endonuclease n=1 Ta...	[more]
A0A177PDA2_9GAMM	2.310e-140	41.04	LTD domain-containing protein n=2 Tax=Methylomonas...	[more]
A0A4R3XUE3_METMH	5.050e-138	41.05	LTD domain-containing protein n=2 Tax=Methylomonas...	[more]
UPI001966D103	2.690e-137	40.73	ExeM/NucH family extracellular endonuclease n=4 Ta...	[more]
A0A177MJ74_METMH	9.710e-137	40.52	LTD domain-containing protein n=1 Tax=Methylomonas...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
A-nodosum_M_contig106	contig	A-nodosum_M_contig106:311669..349343 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Ascophyllum nodosum dioecious OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	857087.Metme_1645
Model size	3521
Max annot lvl	135618\|Methylococcales
KEGG ko	ko:K07004
Hectar predicted targeting category	other localisation
Exons	17
Evalue	1.17e-115
EggNOG OGs	COG2374@1\|root,COG2374@2\|Bacteria,1MX52@1224\|Proteobacteria,1RMHH@1236\|Gammaproteobacteria,1XG2B@135618\|Methylococcales
Description	Extracellular nuclease
Cds size	1968
COG category	U
BRITE	ko00000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680866444.992113-UTR-A-nodosum_M_contig106:311668..311746	1680866444.992113-UTR-A-nodosum_M_contig106:311668..311746	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig106 311669..311746 +
1680866445.0021825-UTR-A-nodosum_M_contig106:312004..312091	1680866445.0021825-UTR-A-nodosum_M_contig106:312004..312091	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig106 312005..312091 +
1680866445.012907-UTR-A-nodosum_M_contig106:321513..321666	1680866445.012907-UTR-A-nodosum_M_contig106:321513..321666	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig106 321514..321666 +
1680866445.0327048-UTR-A-nodosum_M_contig106:322287..322292	1680866445.0327048-UTR-A-nodosum_M_contig106:322287..322292	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig106 322288..322292 +
1680866445.2046902-UTR-A-nodosum_M_contig106:348113..349343	1680866445.2046902-UTR-A-nodosum_M_contig106:348113..349343	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig106 348114..349343 +

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


Feature Name	Unique Name	Species	Type	Position
1680866445.052211-CDS-A-nodosum_M_contig106:322292..322563	1680866445.052211-CDS-A-nodosum_M_contig106:322292..322563	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 322293..322563 +
1680866445.0648372-CDS-A-nodosum_M_contig106:322760..322887	1680866445.0648372-CDS-A-nodosum_M_contig106:322760..322887	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 322761..322887 +
1680866445.0769086-CDS-A-nodosum_M_contig106:323591..323751	1680866445.0769086-CDS-A-nodosum_M_contig106:323591..323751	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 323592..323751 +
1680866445.087662-CDS-A-nodosum_M_contig106:339389..339578	1680866445.087662-CDS-A-nodosum_M_contig106:339389..339578	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 339390..339578 +
1680866445.0957224-CDS-A-nodosum_M_contig106:339971..340150	1680866445.0957224-CDS-A-nodosum_M_contig106:339971..340150	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 339972..340150 +
1680866445.1061022-CDS-A-nodosum_M_contig106:340663..340762	1680866445.1061022-CDS-A-nodosum_M_contig106:340663..340762	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 340664..340762 +
1680866445.1157799-CDS-A-nodosum_M_contig106:340984..341156	1680866445.1157799-CDS-A-nodosum_M_contig106:340984..341156	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 340985..341156 +
1680866445.1268566-CDS-A-nodosum_M_contig106:342143..342275	1680866445.1268566-CDS-A-nodosum_M_contig106:342143..342275	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 342144..342275 +
1680866445.1409237-CDS-A-nodosum_M_contig106:342497..342680	1680866445.1409237-CDS-A-nodosum_M_contig106:342497..342680	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 342498..342680 +
1680866445.1499052-CDS-A-nodosum_M_contig106:343069..343187	1680866445.1499052-CDS-A-nodosum_M_contig106:343069..343187	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 343070..343187 +
1680866445.160612-CDS-A-nodosum_M_contig106:343527..343628	1680866445.160612-CDS-A-nodosum_M_contig106:343527..343628	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 343528..343628 +
1680866445.1721108-CDS-A-nodosum_M_contig106:347282..347392	1680866445.1721108-CDS-A-nodosum_M_contig106:347282..347392	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 347283..347392 +
1680866445.1807084-CDS-A-nodosum_M_contig106:347723..347796	1680866445.1807084-CDS-A-nodosum_M_contig106:347723..347796	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 347724..347796 +
1680866445.1920125-CDS-A-nodosum_M_contig106:348059..348113	1680866445.1920125-CDS-A-nodosum_M_contig106:348059..348113	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig106 348060..348113 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_A-nodosum_M_contig106.9.1	prot_A-nodosum_M_contig106.9.1	Ascophyllum nodosum dioecious	polypeptide	A-nodosum_M_contig106 322293..348113 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at A-nodosum_M_contig106:311669..349343+
coding sequence from alignment at A-nodosum_M_contig106:311669..349343+

protein sequence of mRNA_A-nodosum_M_contig106.9.1

>prot_A-nodosum_M_contig106.9.1 ID=prot_A-nodosum_M_contig106.9.1|Name=mRNA_A-nodosum_M_contig106.9.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=656bp
MTAVDGDAIGLTSTDIGVFESSSTTVGTSLQLTGTGSTYLDFEWQAGITA
SFGSINANMCFGDDSGCGSPSPLPSSQATPSPTPSATLTSGSLCDQDTIP
VSDIQGSGSATPYDGTVVTVRGNVTAVFSGLDGFYIQDEGDGSTATSDGI
FVYLADATVSVGDETVVRGTASEYYSQTEITPTVDPEICSTGNALPTPVS
VSLPSNEAELEAFEGMLVSIKSPVVTDNYNADSYGEIIVAAERQWQYTQI
HTPGTVSEVEVGTTLVIDDGSDGYEPNPDVYVDQASDVRVGQTLEDIEGI
MAYSFSEYRVQPTTLGVTLAAATNPRPTSISTQSCVNARVAGFNVLNYFT
TLGSRGAETEEQREEQLAKITAGAVALNADVIGIIEVENDYDADTPSIET
LVDSINAADSGADWNYVVPTTIPLGFDEIAVGLIYDANTVFLKGVSDVLD
YGENKTRASLAQTFSATCGHHHSRCPSFTVVVNHFKSKGSDCDDIGDPDA
DDGQGNCNLTRTSAMNSLVEWMTGSNIEVDPDDDILLVGDFNSYAQEDPI
QAATTAGYVNMATYDSSYPYVSSYVYYGESGTLDYILASATAARQRVGET
VHYQVNAEEPAGLEYDKCGTNDACTVSLDQYRCSDHDMVVQDFNFRSEKR
KRFWP*

mRNA from alignment at A-nodosum_M_contig106:311669..349343+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_A-nodosum_M_contig106.9.1 ID=mRNA_A-nodosum_M_contig106.9.1|Name=mRNA_A-nodosum_M_contig106.9.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=37675bp|location=Sequence derived from alignment at A-nodosum_M_contig106:311669..349343+ (Ascophyllum nodosum dioecious)
CAGATTTGTGAACGCACCAACCGCGGTCACACAGGACGAAGGTCACACAG
GATTTCTCCACTTTCCTTCCTTCTGCCGGTGCTTGACTTAATTTTCAGCG
CTGCTGGAAGGATTCAGCCGCCCCTTTCCCTCGTCGACCGTGAAGTCGAT
TTTTGTGTACCCACGAATTATATAGTCGTTCTGCATGATTATTTTTTTTT
GTGTGTGTGAGGCAATATCCCATATCGCATCGTAGTATACGATGTGCTGT
AACTATCGAGAATCTGAATCTTTGATTCGCCGTCTCATTCCTGCCGTGAG
GTTCCTTTATCTATGGTCTGTTTATATAATAACCAGGGGAAGCTCTGGAG
ATTTGCGGTCCCTCTGGTACCGACGTTTCCGGCTGGAGTGTCGCTCTCTA
CAACGGCAACGGCGGGACGCTGTGTGAGTGGTCGTGGAATATGGAAATGC
CATCCCTAGCACAATGGGCTACTTGATAACAAAGCGACTTCTTCATTTTT
TGTCAACAATTATTCTGGGAGCGATATATACTGGTATATTCTATTGCAGT
ACTGGCATAATGTTAATGTTGAGAAAGCACATAAAGCAAGCTCTTTTTCG
GAATGTTGTTGTTGTTGTATTCTTCACATTAACCTATCGGGCCTCAACCA
TACCCAGTCATTTTAATATACGTGGTTGCTAATCCGGTACGTGGTCACAA
AGAGGAACCAAGGTCAACGGGTCACATCATGATGACAACCCGCTACTCAG
ACCAACAGGGATCCAAATCGCGACAAAAAGTTATGCGACTCTATTACAAG
CGATGGCACCGACCAATAACAAAACGGTACATCAAACCTCCTTTACTCCA
TATCGAGAGCAGCCTCGATCGACTCGAACTGTTGTCGCCTACCCACAACC
AGCGTTCTCAGCAACAAATCGGCCAAATACGTTCCAACCAGTTTTGATAA
CAATATTCAAAGTTTCTCAAAGCCACACATCGTACAAAAATAAGGAAAAA
TGAAATACCGAGGTCCATGGTGGTGGAGGCCTTGAGCTGGTGAAGCCGGC
GCGCGAGTCAGCATCCAGCCGTCCAAAGCCCTGTGCATCCTTGAAAAAGC
CCCACAAATATTGCCCGTTCGCCGCTACAAGTGGCCCTCGTAGGAAGAAA
AATGACGGTGGTCAGAGATCAGCTTTTCCCTAAGAAACCTCCCGGTTCGC
GCTTTCGATTCTCGCGCACAGGGGTTCAGCCCTCCCCTGGCTCGTCAACG
ATCGAGCTGCCCTCCGCCTTCGCCGAATCTGGTGCGTACCCACCCGATAG
AGAACTACCAGGCTCTCCGCGACAGTGCTCCCTGCCTCTCGCGTACCGCC
ACCCTCCCGAAGGGCACGAAATTGGAGCTCGGAAGAGGCGCACACCTGAA
AACACCATTATTTAAGAAAAATCTGAACGCATTTAAACCTTCTGAGCATC
CACCTCAAGTGGAAGAGCGTCTAAAGGTTTAGGTGGGAACATTGGCTGTA
GAGTTATCAAACAACGCCAACAATAACCCGAGCGCAGGACTGCTGGTATC
CTGCCGGTTTGAAACGACGTGATGCCACTTAGTCTATACTTTCTGCAACA
TAACAGTTACTATTATACTAGTAATGCGAACTGCTAAAAAATAAACTATT
ACCCATTACCCCTTCGGGAAGAAGCTTGCTAGTAGTAGGTCTGCGTAGTA
GGAGGTATACATCAGCAATGGGTCAATCCCTTGCAGATCCGAGGTATTTT
AATTTATGCAATTTGAATTTTGACGTTGTTTGTTGATACTACTGATGTAA
CAGCACTTCCTTTGTAAGCTGAGGGTTTTCTCGCCTTTCCTTGTTCTCTA
CTACAGTAATAAATAACTGGGTTGTATTTTGGTTCAACGTGTTTTTTTTG
CCTCTGGTGTACCTACATGGCGATTATTATGCAAGTCTACAACAACTACG
GTAATTAGTGTAGTGTACATTATAACAACAGCAGCAGTAGTTTTTCCCTG
ATATTATGCTATATTAACCCTTTTATCTATGCTAATACCATTAGGGAGCC
CAATTACACTCCATGAAGAGTTGGTGTTGTCCTTGTGCTGTAGCCTAATG
TATATGTTGCCACCTAAACGTTCTCCCAATTTCTCCCCCTGACGGCCCCG
TGATCACCGCTGATGGATGCTCAGAAGGCGACATGTATTAGTTTAGTAAG
AGATGCTTTCAGATTTTTCTTTAAATAATTATTTTGAAATTTGTATCCCC
TGTGTGCTGTTCTCTGTTTTTGGTGTACCCACGAAGTACCAGTGTAAGTT
CATAATATGAAAATGTATTTCCTCCGACATTGACTGATTAGTTGATCGAG
TTCTCACGTAATAAGCTGATGTCAAAAATCCAGCGCGTGGTCACAAGGTA
GGAAAACACCACCCCTAAGGAAAAAACGTACGACGTCCTCTCCATACAAA
GACAAAACGGTAATGGTACAAAAAGTACTCGGAAAAAGCAACATCTCCAA
AGAAACCAAAAAAGGAATAAACAGAAACCAAAAAGGACGCAGACAGTGGC
AACGGAACCAAACAAACGTAACACCAGAGAAAGACAATGACATCCACCTG
GAGGATACAAGTTCGCGCCACTTGTGGCTAAACAACTAAGGCGAGCGAAC
CAGCAGGAGCCCGCTTGCTTTGGGCTATCCTCTCCTATTATAGAGTACAT
ACTGTAGACCAATATACATACTATACAGTAGGATATGACAAGTATATAAT
ATCCTATTATCGGCTTCGATTCACCAACAATATAATAATACTTGAACCAA
ACCCAATATATATAGAGAGTTTACAAACAAAATGTACGCATCTATGAGTG
GGTGGGGGGCGACAAAACGTGTACCTAGTACAGGTGGGAACATAATAATA
ATAGACTGTAGATTCGGGTCAACAGAATATATATATGTATGTATGTATAC
ATATGGTTATATCACTTAGCAGAGTTTAGATCAACCGGGTAAGGTTGCCA
ATCCCGCTCTCCTCGTGGTCAGCTGAAGAGGGAAAATAAACATTTCCCTG
TACCTGTTCGCGCCTGAGAGTTTGGTCTCGCGAGACGGTTTCGACCTTCG
TCCCGTCCCGCGTCAGCCTGCTAATTCTCCACACTCAGGGAGGCTGAATT
TGGTACTTACTCGCGAGATTTCTCTCGATTTCCTCGGCAGCGGCGCCCAT
TTAATATCGGGGAGAAACCCGCCGTTGAACTGTACACGTCTTTTGGTCCA
GCGTATACTTTTGCCTCTGTTTTGGTGTACTTGCATTTAGATTATTATGT
TAGTGTGCAGTATATCGGTGGGTTTCTCCAAGATATTTTACTGCTGATTC
CATGCTACTAGGATCGAGGAACCAAAATGAATCCCATGAAGAGTTTTGGT
ACCTGCAACCTATGTTCCCCACCTAACTAACTAACTAACGTTTTGACCAT
TCCCCCCTTAGCTTATTGATTGAGTGGATACTAATTATTTTAATCAGAAG
GTTTAGATACACCTTACTCCAGATTTTTCTTCAAATACTGCTGAGTTGGG
ATAAATATTGTTTGTCTAACACATTCAAAACCACCCCCGTGTTGCCCAGA
GGCAGCATGAAGATTCCCATACTAGGAGGACAAGAAGACCGGTACAGGTA
GTTTAAAGAAAAGTCTGAACGTATCTAAACACCTTCTGAGCATCCCCCAG
AAGGGGGGGGGGGATATCAAAACGTTTGGGTGGGATCATATTAGGCTGCA
AAGACAAAACCTCTTCATGACATTTAATCGAGTTCCCCGATTATTAAAAC
CTCGGGAAAAGTACTACTAATAATATGGATGAATATGAATAGGGACAAAC
AACCGAGGAGAAGTAGCTCTTTTCTGCTCCAAACAAGAAATCTACTTATT
GATTAGTCAACTCAACAGCTAATAAATAGCATTTATGGTTGTTGTGAGGT
TTGGTAATTAAAATGAAACATGCGGCATCACTATATTCATGTCGTGCCAT
ACAGATATCATATTTTGAAACTGGTATAAATTAATGGCCAAGTTCTGAGT
TGTACCTACTATCTACAAGCAGCCCAGATTTGAGGCCGACTACGAACTTG
CTTCGGGCAATCCTATCCTTGGTCCTTCCCGTCTACTACTACTGCATACC
GTAGTCCAGCCCTGACTTTCTCTGCAGTGATGCACTTCGCCATGAAACGT
TCCTGTTTCCGCCATTCCCCCTCGTCCTGGGTTGCAATAATCGTCAACTG
ATCGGCGTTGATTCCGAAAGCTCTGAGGTCGTCCAGGAGACACCCCATCC
ACTCTTATTTTCCCTGCCCCCCCACGCAGCCCGCCCTCTCCATCAGTTCT
CCGAACACCACGCGCTTCGTCAGTGACTGTCCTCCATGCGCGCCACAAAT
GCTGCGAACAGGATCCGTCCCCCAAAACTGACGGTACAACAAGTACATGT
TTGGAGTCACCGTAGTACTACTTGTACTCTGTAAATATTAATTATATGAA
AGTGAGAAACAAGTCTAGCTATAAAATATGTTTCATATTCGATTACGATA
ACTGTAACAATCCGGCAATGATGTGGAGGAGCTACTTCTAAATACATACC
CCTATTAACATGACTATAACCCCTTTTCATACCAATAATAGTGGGTGTGG
GAAAATAGAGGCGCACATTAATTGGTTCATGGTGACTTGCAAAATGGCAA
CACCCGTTAGTTACTGGAACTACCTTGAGGACTAGTCTCGTCCTGTGCCG
GCGTAACGCCACGATACGTAATTAATTGCGTGACTCGATGAACTCGGGGC
TGAATCGATGACGTATGGCTGCTTAAATGAATAAATGAACGCCGCCGCGA
AAACCGGGAGGAATCCCGTGAGTAAGCACCAGATTCAGCCTTGGTACTGA
GAACTAGCAACGCGGGACGGGACGGCTGAACCCGTCTCGTGACATCAAAT
TTTCAGGCGCGTACGGGGACAGGGGGATATTTATTTTCCCTGTTCAGCTG
ACCACGAGTAGGATTGGCAAACTTACCCGGTTGATCCATACTCTGCTATG
TCTGATGATCATATTAATATAAATAAGCTTGACCCCTTAACTTGTAGCGT
TGATTATTGTCGCGTAGAGGATGCCATGTATCAATATTATCACCGTTCGA
CATAAATAAATAACCGTTGTATGTAAGGCAATGAAGAAAAGAAAGTTCAA
CTCTTATATGTATTTGAAGACATGAAAAGCAACACGAATAATATTAGTAG
ACGACAACAGGGGAAAGAAGAAGGAAATAATAGTGGTTGATGATTACAGT
GACCGTATAATAATAGGTGGGAGTGCTTGACGGGCACCTTCAAACGCCTC
ATCGACAGAAAATGGATCTCGCTCTCGGCCCCTTCGAACCAGTCAGTCAC
TTAGTACTACTGGTTGTCAACTGTTTTTACACCGATGACGTCTGTCCGAC
TTTCTATTCGGTGCGCAAACCATTTATTATGAGTAAGTATGTGAGTAATA
GTAAGTAAGGCGCTTTTCGACTCTTTTCCCGCGCTACTCTCTCTCGTCAT
GTGATCGGGTGGGGTTGATGTGTGGGCCGAAACGTTGTAATTGCCACCCA
CCGTGGTAAAGTTGACGAGTAAAAAAGTAATAACTGAAATATTCAACAAC
AAAAAAGCTCCGCAAACTACTGTATTCGGGAAGGAGTCAGTTTTTGTCCC
TCATGTTTTCAAAGGAAGAGTTAAGCTGAATCAGATGGTGTGATGTAAGT
GCGCGACGAGAAGTCACAGCAGACACACCAACAGCCCGACGTGTAATTAT
GGAGTTTGGAACCTTCGAAAAACAACCTTGAATGTACCGCCGCAGCCAAG
CAAGGTGCGTTCCTCTGCATCAAGGAGCCTACCTGACTATCTCTGTTCAG
CTTTCCCTAAAAAAAGCGTTAGATCATGGCGCTCTCCAGCTTCGTGGTCA
ATTCTCTTCAGGCGCCTCGTCAGCATGCGACATTATTACCAATTCTACCT
ATTGCTTATTACCTATTATCTTTTGGGTAGCATGTATCGCGAAAAAGTCA
ACCCGTCGCTTCTTTGGGGCAGTATTGCAGCGTGACGTAAACTGGACCTC
GTGCCAAAATCGAGGACTATGCATACTATATAGCTATCATACTGCATAAA
TAAATGCTCAGTCTGCGTGGACTGAATCATTAAAACCATTCAGTGGATTA
ATTATTGTTCCAGCGTTAAATTTTTTATGACCAGTAAGAGCAGCGCAGAG
ATCGCCGCGATTTAATCGCCTAACAAGGTACCTGACGGTTTTTTCTCGTT
TCAGCCTCGCCTGTGTGAGGTCAGTCCACATTGCAGTCATCGGATTTGGA
GGTAGGTAGGTGTAGTGTAGTGTAGTGTAGTGTAGTGTAGTGTAGTGTAT
TGTAGTGTTAGTGCAGTGTAGTGTAGTGTTGTGTCGTGTTGTGTTGTAGT
GTAGAGTAGTGTAGTGTAGTGTAGTGTAGTATATTAATAGTATAATAGTG
TAGTGTAGTGTAGTGTAGTGTAGTGTATGCATGTGGTACGACTGAGTCCC
TCGGCGGGCCAACATTTTCGATTCACAAAAACTACCTTCGTTGATGACGA
ACTTATCTTTTTTCGTTCCATATACTATGTATGGTTATACAGTACCGATT
TTGTATATTTTTTTACTCACTTTTTGACATATATTTGTAGGCCTTGTTTT
TCTTAGGTAAGTAAATAGGGTTCAACCCGACACAACATGTCATTTCCGCT
TGATACATATAAATATATATACAACGAACTGTAGGTGCTTTGTCTAATTG
GCTTCAATTTTTTAGCAAGCAAGGTCGTTCCAATTGGGCTTGTTCTGGGT
AGCTGCCTTAACTGACCCGATGGTGTATAATGTTGGTTTAAATAAATACA
GTAAATGGACGTCGCCACGGAACTCCTCGGGAGGAATCCCGTAAGTAAGC
ACCAGATTCAGCCTGAGTATGGAAATGAGCAGGCTGACGCGGGACGGAAC
TGCCGAACGGGTCCCGCGAGACCAAATTTTTAGGCGCGAAGGAGAACAGG
GATGGAAGTGTTCATTTTCCTTGTTTAGCTGACTACGAGCAGGATTGGTG
CCAACTTTAGGTTGATCCTTCTCTTACCATATTATGTGATGACTATACAT
ATATACATAACATAAAATACTACATGGTACGCAGTACCTGAATAGCTATG
CTTTCATATTTTTGAGGGAAAGTTATAAGCCTCATTTGTCGTAGTTCTGC
TGTGTATGTATGGCCAAAGCTCTGAAGAATGGAGTGAACTAGATGACCAA
AACTTTTTATTATATACGCTACCTGGTACTATATACATACACGTATTCCA
GCAGTATTTATAATAGCAAATGTACATCACTATAGGTCAAATCGTGTTGT
TTGTTGTTGTTTATGTCATATTAACTGATCCGCTACGAATCCAGCCGTGG
TCACAAGATAGACGGAACCAACCCAATCAAACCGGAAATCGGAGATGTAC
AGGGAAAGCAGACAAAAGAGAACGGACAAGAAAGTAGCGAGCAAAAAAGG
ACATTGTCGCGATAAAATAGAAAACAAAAACAAAAACACACAGACAGTAG
AAACAAACTAGAGGAAACCGCATAAAAACGCAGAGAAGGTAGCCCTATAA
GCGGTGGGATACAACCCAGGCATGAGGACAAGTAAGGGCAAGGGCAACGG
ATGCAACACACAGCAAAATAAAAACACAGATGGAGAAAAGGAGACAACAG
TTAAAGGAAATAAAAGAATGAGGTATACAGGCACAAGAAGCATCGCGATG
GGTTGACTACCCAAAAATGAAAGAGGAGCAGAACCCATGCCGGGCTCACC
TATATCGCAGGAAGAAGCGCCAAAAATGGCACAAAGTCCCACACGTTGTT
GTTTATCTCACATTATTGACTGGTCCGCTACGAATCCAGCCGTGGACGTA
AGATAGAGGAATTTACACCAAAATAAATCGGGGACGAACACGGCCGGGAA
AAAAACAAAACAAAATAAGACAAAAAACAGGGAAGAAAGCAGACAGAAGG
AAGCGGGCGTGGAAGTAGCCTGCAAAGGACATCATCGCCAGGAAGGGATT
CAGGAGGGGAAAAACCAAGGAATAAAAGCGAAATAAACCCGGGCAACCAC
ATATAATACAAGTAGGGCAAGAAAGGCAACCATATACATATATAAGTACT
GCGAGACAACTCAGATAGGAAGACAAAGCAAGGACAAGGACAACAAGTGG
CCCACCCAGGGGAATAAAACGAAGGAGGAGGGAAAGGGGTACAGCAATCA
AATCAAATAAGGAAGGAGGTAAACAGCCACAGGCGGGGGCATCACGAGTA
CCGGACTCCCCTACGGCATATTACAGGAAGAAAACACCTAGAAACAACAG
CAACGAGGCACAACAAAAACATAATCGCACACGTAATTACTCTATAACTT
CACTAACCTCGCGCTGGCGCTGCACGTTGGATTGACGAAGGTCCGCGCGT
CGCCAGGCGCTGTCGAGTGCTTCCGCTCCCCTCTCGACCCCCCGGTGCCA
CTTGCCCACGTTCTTCGCAGCAGTCATCCAATCCCGTCCATCCTTGACAA
CAACTCCGAATGCGACCCACTTCCGTCCTTTGCCTTTGCGCGGGACCGCC
CCGAAGGCCTCGAGATTTTTTTGGAGGCAGTCCACCCACGATGTCCCCGG
TCGACCTCCTCGCTTGGGTCCTTGCACCGCCAGCCGCCCAAACATGACTC
GCTTTGAAAGCCTCGAGTCGCCTTGCCGGACAAGGGCCCCGGCGAATCCA
GGTTGGCGCTTCCGAAATGTCGTTTCGATGCGTGCGGAACCGGTCCTCTC
GAGAACCTCCCTATACGATAGGGGTTTATACCCGGTGCGGTCCTTGCGCC
GAAAGCCGAGAATGCGCAAGAGTAGCTTGTGGTGGGCAGTACGTAGGCTG
CTAATGTACTGGGAGCGCATAGTCCACGTGGCACATCCGTACAGCATAGC
TTCCTTTACCTCCGCTTTGAATAGCCTGATCTTGAGCGACGGGCGTTCCG
TCGGTCGTACAATTGGGAACTGTATTTTCTGACACTCGCCCCAGCGGCGC
CGATACGACGCGTAATCTCGATGTCAAGGTCCGCGCTCTCGCTGATAGCA
CCACCAAGGTACACAAACTCGATCTTCTGTTCATATCGTTGCCCTGCCGC
CTCAATTCGCAGGGCGTTCGACGCTGTGTGGGGATGGGACCACAGGTGCA
TGGCCTTGGTATTTTTCTCTGACACTGTCAGTCCGAATTCCTAGCATGCA
ACAACTATAACGCCCATCATCCTGGTGAGCCCAAGAGGCGATGTCGACAC
CACCCCCGCATCGTCTGCATGCAGCATCCCCCACACCGCTCGCCGGACCA
TTTCCAACGTCCCCTCCTTCCTGGGTCTGCCGTCCTTACCCTTTGGCGCA
TCATCGAGGTACACCAAGTCCGAAACGATTAGCGGGTCCTCCGCGAACCT
CTGCAGGACCACTATGATGACCGCCGCAACGAAGATATTGAACAATAGCG
GCGACAACACACATCCTTGCCGGAGCCCCTGGCAAACATGTGTAATATTA
ATAGTACGTTGTATGACATGTAGTACTTCATTTTCCCTGTTGAACTGGCC
ACGAGAAGAATTGGTTATCCATACTTTGCCAAATGTGGCATATATCACGA
ATACTTCGTACGAACCGTATAGGTTTAAACTTTATACACTTACTTCTTGA
ATAAAACAAATAACGGCCGCCTAGCCAGGCGTAGGCGACCCTCACTGTGT
CCTTTTTTATCCCACTGCGTTACTGCATACTGTATTGTGGGTCAGATGAT
ACCATCACCTTGTCCGGCAACATCGGTGACGAAGGCAGCGGTTTTGGAGC
TCTAGGCTTCGTGAGGAGCGGCATCCAGAATGGTCCCAACGACGGACTGG
CTCTTCTCAATGCAACTTCTGAAGTGGTTCAGTTTCTCTCTTACGAGGGT
AAGTCGACCGATTACTGCACTGAGGTTGTGAAAATGCGGGGTTGGAGCCA
TCTAGAAAGAGTTCATAAATCCATGAAGGCCGCGTGCAGCGGAATGGGCA
GCATTTGAGTAGGTTTGGATTTGATGATCTAGCGCGTCGAATGACCTCAT
TGCCAGAAACTAAGACGAAAAACGAAAAGTACCTCTATGAAAAAAGTATT
GCTACAAAAAAAAAAAGATCGGGACGGCCGTTATGAGATTGAAGCACAAA
ATATAAAGGTTCTCCCTCTTTCAGCCTTCTCTTAAAAATGAAAACCATTC
TTTTTGTCAGGGAAAAACGTttgaaAATTCGAGTATATTCTGGTGATGGC
CGTAGTGATGGGTGTGAACGACGACTGCTTATTATGTGTCTTATTTAGTT
TAAATCGGAGGGCGCGTTGGGCATTGGACGGGTAATACCTTCGTAGAAAG
GACGATACAGATCTACCGTAGGTAGTCGAATCTCTGTATAAGGTTTTGCT
CCAGTTCCGCTAGCTAAAGACGCCCAGTCAATCACACTTCCGTGTCATTT
GTTAGCTCTATAATAAATAGTAGCGAGCCTCGTCCTCTTGACAGCTTCCA
AGACGTAATGCCGGTGCAGGAACGATGACGGCTGTAGACGGCGACGCGAT
CGGCCTAACATCGACCGACATCGGTGTCTTCGAGTCCAGCTCAACCACCG
TGGGGACATCCCTCCAGCTCACCGGAACAGGCTCGACCTACCTTGACTTC
GAGTGGCAAGCGGGTATCACGGCGAGCTTCGGGAGCATCAACGCCAACAT
GTGTTTCGGGGATGACTCTGGCTGTGGGTCGCCTTCTCCTCTTCCTTCCA
GCCAAGCTACCCCGTCGCCCACGCCGAGTGCAACCCTCACGTCGGGTGAG
GTACTTAGAGCACATACTTGCTTGTGATTTAAATATAGTAGGGTATCAAG
TACTTAGTACAAGTGAGTATGTCAGGAATCAACCCGGGCTAAGCCCAGTG
GTAACGGTGGTGATCATCGAGAGGTAAAGACCCAGAGTTGCTACCCTTGA
TGTCAGCGCATTGTTACCATGTTATAATGACACATTGTGCAGGCTCGCTG
TGCGACCAGGACACAATACCAGTCTCAGATATTCAGGGATCGGGCTCGGC
TACTCCGTACGACGGTACCGTGGTGACGGTTCGAGGAAACGTCACGGCCG
TCTTCTCGGGCCTTGACGGGTGAGCTCAGCATCTCCTTAGACATCAAATA
ATGATTAGTGGAAACACAAATCGTAGTTTTTTTTACTTGGTTAACTCGCA
GAAGAGTAAAATTTTGGGGGACATCGTGATCAATCGGTAAATGGACCGAG
GACCGACCAACAGTACTTTATATATTAGGATATTGTCAAAATGCCTCTTT
TATTCCACAGAGCAATACTCCCCACTTTGTCCTCTGGAACCCCGAGCAAC
TTTGATCCGATATGACGTTGTTTGTGAATACGGTATAACCCCGCTAGTAG
CATAGGGACGGGCGTCACCGAAGAAACAGCGCGCAAACAAAGGGTGAAAG
TGGGGGTCGCCATCCGTAAGTTGAACAGCGTATATATTAGCTATAATAAC
CATCACGCCAAAGCATCAAACAAAACATGCTATGAGAGAGAAACTCTATA
CTCATCATGCGCTAACTCTGTCGTGGAGAGACCTCCACAGACTGCTTTAT
GCCCGTAAGTTTCTGAAACATTCAACTTTCGACGGGTTGGTGGTCATAGT
TATTGAAAAACGAACGGACAAAAAACAATATCACGTGTTTGTGGGCGGTG
GATGTTTAAAGGAAAATAATCTGAACGCATCAAAACCTTCTATTAACATT
AATATAGCTGTTACAGTAATAGAGCATCCACCCAGTCGGGAGGGGAAATA
TCAAAATGTTGCTTCAACAAAAGGTTCTACATCCAAGACGAAGGAGACGG
CTCTACCGCCACGTCCGACGGCATCTTTGTCTACCTCGCCGACGCGACAG
TGAGTGTCGGAGACGAGACGGTCGTCCGAGGAACAGCATCGGAATACTAC
AGCCAGACCGAGATCACACCTACAGTGGATCCGGTGAGCGTCGGCGTAGA
CTATACTATACTATACTATAGTGTAGTGCCGAAGGAAGCAAGGAGGGGGG
GCTGTACTTAGCTCTAGCGTGCAAACAGTATCATTATCATATCTCACACG
CACAGAAGGAATATCGGGGGTCTATGTTCTCGATCCAAGACATTACATGG
CTGTAAAAGACGGAACGGAATCTAGTAGCAGCGTGCCTCAAAAAGAAAAC
ATCCTACCCAAAAGAAAGACAGAATGAACCACAAACACCTGTGTTGCACT
ATTTCGTAGTCGTACAACATCGCAGCATACACGTAATGCGAGTTTAAGCA
TCCCAGCCCTTCAACGTTCCCGGAAAGGGTCAACTCGTCTCCCCTGCTAA
AAAGTGGTAACGGTTAGCGATTATGTCGCTTGATCAATTCGGACCGGCGA
AGGGGAGTCCTGCTTCCGTTTTTGCGCTCCATTTTCTACCACCCGTAGCG
TTGGCGATGGAGATGGCGATGACTAGTAAAGGTTTTAGGGTATCTGCATA
CCGTGCTATTGTTGTTGTTGCTGTTGGTAGTGGTGGTTGTAGAGTTTTAA
CTTTCACCTGACCCGGAACTATATGTTTACGAATTCAGGGTCCCCCACTC
TAATTGTGGCGTGGAAAGTGCAAACACGGGAAGTGCATTAAAACACCCAA
GGTAACGAGAGACAAAAAAACGGAGAATCAAAAGTAGTCCGCAAGAGAAC
CCATATAAATACATCAGTCTACGATCTCGCTACCCCGACCGGTGGAGTTA
ACCCACTCAATACCAACAGAAAACGGCTGCAATGACTACTGCTATGCAGG
CACAAGTAATGGCGATCCATGATAGCACAGGCGATTCATCACCGCGCGGG
AAAATAACTGCGCTTCAGACACTGTTAGCTGACTGCTCACATCTCTCATA
TCGACTTGAACGGGGCTGCCCTTGCTTGCATCTATCGGGAGACCGAGTCG
CTGTTAATAGCATCAGTTTTAGTACACTTGCTCACCCCACGCCCCGTCCA
ACAGCAAAGGCATCATCCATAGAAGTCACCAGCACTCTATCAGCGGCGAC
TAACTTAGGAGACGCACTTCCTATTCAACTGCAATCTTTAAAGTAGGTTT
GTCGCTAAGCCTATATAGCCTGTCGAAGGGCATGGGTTCAACCAATAGGC
CTACGAATTGCTTGGCACGGTTGAGGCACACAGAGATCAACCCTGCGGTG
GCCTCCGATTTTACTAGATATGTCACCGCCTTCGCTATCGTCTGGCCCTG
ACTCCTGCGCATGGTAATCACCCATTCCATGACGTCTCTACGGCAGAAAT
GGGGATACACCCTTGATAACGAGGGTAGCATACAAGTAAATACATTTTGT
ATTGTACCAATATATGGATTTCGCGAAGAGGTACTGACGCTTAAAATGGT
TAAAGTTCGCCTGCAGCCTGCATCGCTTCCTGTTGCTCCCTCTCGAAGGC
TTCAAGCGCCGCCCGTCGCCCCGCGATTTGCATCCTGACCTGGCTAGCTC
GCGTAGTGCGAGCCTCCTGTGCCGTCGGGGATTGGCTTCCAGTATCTAGC
CTTGTCTATTTCACCAGAGTGGCCTCAGGCGGGCGCCGCCGCCACACTGT
AATAAAATCGACGCGAGCAAGAAGCACCCGCGCCGGACCAGGTGACACGT
TCGGCGAGTCAAAGCCTTCCTACTCCGCCATAACAATATCCCGCGGACGT
CAATTTGCAGTGCCCACGCGTGGCTGGGACATGTTGTGATGTGGCGGCGG
TTGCGCTGAGGCCCTCATAACAGCTAGCTGTGACAGACTGCATGCTGTGT
GTAGATATGACGGCATGAAAGTAGTTGGAATGGTTTTAATTCGCATCGAG
AGATTTGCGCGGACGCGCGTTCATATATTCGCGTGAACTGTGGTAGCACT
CCCGAACCGTAACAAAACGTAACAGGCTGCCAAAATCGGGGCGCTACCCA
GATTAGAAGCTTGCTCCACTCGCAAATATATATGAATGCCAGTTTGAAAG
GACACATCATTGGAGGAGCTCGCGGTTTGAAGGCCTTCGGGCCCCGTTAC
TCGATCTACCCGACATCCAAAATTGCTACGGAATCTCGATTGGAAAATGT
CACTCGACATCGTTTCTTGTTGGAATGTGATATCGCCAGCTCCACCAGGA
AAATGTAGATGTGATCACCGATTTGCTGGGGACGATAACTGGATTGAATG
ACGCGGCACTTTTAACATCTAGCACTCGTGCCCTCTCCCTCCGAAACCTG
GTTTTAGGATATGAGTGTAGGAGGGTCTTGCCGCGGGTGTCGGGCTGAAC
TCACCCTCAAGAGATACAGTCAGCTGGCTGTCTTCGCGATCCAGCTGATC
GCTTGAGATTCGGCGGTGGTCTGGTTGGTCAAGGATGATGTCCTCCTGGT
GCTCCTCTTCCGAGCTCCAGTTTGATATCCTTCTTGTGGGGATGGCACAC
GAGAGACAGGGGGCACAGTTTCGAAAAGCCTGGTAGAGAGCAGCAGCACG
CACAAGCATACCATGGTACGCTCTATCGCGTGAGTAAGCACAAGATTTGG
CGAGGCTCGAGGGAAGATCAATCTTCAACACGCCAGGGAAGTGCTGAACC
CTTGCGCGCGCGAGAATCAAAGGCGCGAGCGGGGAAGTTTCTAAAAGGAA
AGATAATATCTGACCACGGTCTGTTTTATTTCTGCGAGAGCCAACAAGGA
GAGACAAATTGGCAAGATTTGCTGGGAAAGGTTTCACGGATGCAAAGGCG
TTAGATAGCTAGATGCTGCCTCGAGCGCTGGATTCACAAGCTCAAGGCCT
CCATCGTCATAGACCTCGGTTTTACAACTTCGCATATTTCTGCATGGTGT
AAAACCTTGAAAAGCTTAGGCTTGTTGATGAAAACGGATTGGAGCGTGAT
TTGTTCGCTTTGTTCCTGGGAATGAGGAGGGTCGGTAGTCGACAACAATT
CAACTCGATCGGGGTTGCTCTCGGAATCGAGTAAGGAGGTCTGACTAATG
GAGAGTTTGTGGAAGGATGAGTCTTATACGGGAGGGTTGTTGCTCTGCGG
GGGTTTGGCGCTGCAGACTCGAGATGGACACATATCATAGGTGATTATAG
AACCGGTGTTTTATTACCACAGTCTCCAGATACATGGCCGCACACAGGAT
ACACACAAAAGAGGAACAAAATAGGAACAAACATGACACACACTGAATAG
GTGGGGCTCAACATTACAGAAATACGGGAATCACTAGATACGTCCTCTGA
GAAAAAGACTCACTCATAAGTGCAGTTCCCCCGCGTGTTACCAGTCAGGG
AGTAACTGTCTTGTACATTCCCCCTTTATCCTCGATTGGTTAACGCCCAA
TGCACCAACTATTCAGACTCTCTGTTTCTTAAAACCCATTCCTCAAACCT
ACTACGAAGTATAATACTGATCCTTCAACAAAAATACACCATAGTAATCG
TTGTTGAACGGTTCCCGCACCATGCGATATAGATCACCAGGAAATAAGAA
GTTATCCAGAACCTACTCGTTGATATGTGACAGCTAAACAGCTCTCGCAG
ATTATAACGAGAATGTTTTTTCTCCGCTATTATCTAGCACTTTTTTAGTC
AAGTCCCTTCGGACCTAACGCATAATATTCAAATCCAAACACTTTTGTAC
TTTGACGACCGTATACGGGCCGTACTCCGGTTTCACGTGTTAACAATCCA
CGACATCATTATACTACATACGATAGATCTCATACTGAAATTAGTGAAAA
GTTAGAAACGTTTCATTGTCATGTTCCCCTCTGACATTTTGATATTTTTA
GATAAGATGGCACGACCAAAACTTCACAATGTTAGCCTGTTCTTGATTGA
ATGAATAGTCCATGCATCATACGACATGATGATTCAGAGAATGATATGCA
AGTTAAAAATCATGCCACGTCAGAAATAATCCTACAGTAAAAACATACTG
TCATTACCGTTGGCGTGTATCCAGCTTCGTCAGTTCTTGAAAATTTTACT
CCGAATCAACTACAATACTCTATCTCAAACTTGAGGGATTATGTACTAAT
AGCCGATATTACCAGCTTGTACGAGAAATAACTATCACAGATAAATGATG
AGCAATGCAGTACAGTATAACCCTTCACTGAAGCAAACAGAGATGATTCA
TGGTCAGCCTTGTTTTAAAAAGCTGCTTTTCACCCATCGAGCTCGCGCAC
CACGTTGGTTCTTATCTTCGATGAAATCTTTTGGCTCGTCTATCGTATCT
GGCATCATTAAAAAACAGAAATTAGAAAAAACACGAAACAGCCAACACGG
CAGACGAAACATACGTCCAAAGCACCGCCCCCCCGGATGAAAATAGCAGT
CTCCCGATCATCCGCCTGAGCGAACTGCTCGTTTTGCTCGGTACACGTTT
CTACCTCTCGCTGTTGCCGGCTCGTTGGTAGACTCACGCACCACTGGCGG
GTGGTGACTTGTGAAGTAGTTTTCTCCGGTATTATCCTAACAGCGGCTCA
AAAAGAGAAATATCTTTCCTGACCCGAGTTTGTTGTACCTTCGGCAAGCT
AATAAACATCCACAGCAGTTTGCTGGATTTCAAGATGCAGCTGTCCAAGT
CCTTCCAGTCCCGTGCCAACCGTGAGTGTTTAGGCGTCGACTTGCGCTTG
GGCTTCTCCCTGCTCTCTTCTCTTAAAACCTCTACTCGTACAAGCGATTA
TTTCCTTCGCTCCCTGATGATTTCCCGCCATATCATCGGGTCATGTTACG
AGCGGGATTTTCCATCACTCCTTTTTCTGACCATCTACCAGTGCTTCGAG
AGAAGTCGATATGGACGTTTACCAGCGACTCAGGCTCAGCGCACGGTAGC
GGTGACGGGCATGGTTAAATTTTCCGACGTTTACGGAACTGGCTGTGGCT
ACGTTTGAGATGTCAGTGGGTATCGAGTCTTGACAATTATCTTAAGGGTA
GATATCAGGATATCTTTCACTGCCATTTTCTCCCTCTTCTCCTAATTTTA
TGGTTACTGGGGGCAATTGGCAAAGACCTCGATGAACCGTGCTTGTATTG
ATAGTCGTTGACTGTGCGTAAGTAGCACCGTATTAGCTAGTCTAATTGAA
CGAAAAGCCTGATACTTGTCTCCCGCATTCACATCAGTACTTTTTGCCTT
AAACAAAAACTATTTGAGTCTTTTTGGAAATCATTGCAGGTACCATTTTC
ACCCAAAGTCCTACTTTCACCAGATCCGAAACGAAGTATTGTAGAAAACT
CCCGTTATCATGTGGTGCTCCCTGATCGGGGTACCTTCACGCAACGAGGC
TAGCGTCCCTACTCGGCACACACTGGTGCCTGTGCTCATTTTCTTCTCAG
CGCTCCCTCGACCGGTGGTACATCAAGTACTAGCGCTCCTCCTGGCGCTA
TATCAGCCGGGCTGGTGTGACTTCGTTCTCTCTGGCAGGTGATCATGAAG
TCCTTAGGGTTTACCTCCACATCCAGGCTGGAGTGCCTTGGAGCATGCTC
CTAGCACTGGCGCTCTTCCTTGCTGCTCCTTCGACCAACGTCTGTGAGGT
ACTGGCGCTCTACGTAGGGCTTTCTCAGCCGGTAGTGTCTCTGGCAGTGG
CGCTCCCCCCGGCGCTCCTCCAACCATTGATGACCCCTGCTCTCATCTTC
TGGCAGGTGACGTTTCGTCTCTTGAAGCTCTAACAGTCTTCTGATCACAG
CCTCGGCTCAAGACGATCCGATCAATTCACCAGGTAATGGTGGGACTCTT
TTTACGTCGAGGTTGCCTCCGAGTTTAATGAAAAACCTCTGGGAGGATGG
GTATTATACGGGAGAGTTGATGCTGTGCGTGGGTTGGTGGCGAAGGCTCG
AGATGAACACACATCAAAGTTGAAAACAGAACAGGTATATTATTGTCACA
TCGGTATCTCCAGACACATGGTCACACATAGACGACACACAAAAGAGGAA
CAAAAATAAGACACACTGAATAGGTATGAATCAACACTGCAGCAACGCGG
AGATCACCAGATACGCCCGCTGAAAAGTAACTCACTAATAAGTGTAATTC
CGGCGCATAATACCAATCAGAGAGTAGCGGTCTTTTTCGTGAACTCTTTT
TGACATTGATCGATGGCATTACTTATAAAGTATGCCGCATAACTTGTCTT
TATTATATAACACTTCAATAGCTGAGAAAAAAATGTGACTTTGGGAAATG
AGCACTCTCGGTAGTAACTAAGGAAAGTATGCGCTGTAGGTAGTACCCAA
AGAGAATCGTCTTGACACCGACCAGTTTCCGATTGCATTCCTGTTGGTTT
GTGTGGCTAGTGCGTCTCCATGATATAACCAGTTGACCTTCGTACCTCTT
TTCTGTGACCACGAGTGGTACTGGAAGTTGATAGGTTTATGACTGACTCG
TTGTGCCACTATAGTTTCTTCAGTTTCAAGACAATACGCTGAATGCGTTA
ATCATCATCAATAGCAGCAACGGTATATAGTACTAAAAACGCACGTTGAA
TACCAAACACCGGCCTAAGTCCAAAACAACATTTACCCCTGACATGAAAT
TCTAACCTTGAATCTTTAATAGAGATGCCTCCAACGTACGATGGTAGTCA
TGTTTTGGTGTTTCATCTGTCCTCTTCTATCCTACTTTATCGTATGATGG
AAGATGTTCAGTATTTCCCAACATTATCATATTTTTTCCCTGCCAATGTA
CACCCACACACGTGGCCAATCGGCTACGTGTAGAGGGTGAAATATGAGTC
CCTCCAGAGGAATTTCTGTAGATTTTAGAAATCGCACGGCTTTGGTCCGA
GATTTTTCTGCCTCCCGAGGGAATCTGAAAAAGTTACCCTCCAGAGGGAT
TTCTGGAGTTTTTAGAAATCCCACAGCTCTGGTCCGAGTTTTTTCTGACT
CCCGAGGGAATCTGAAAAAATTACCGTCGAGAGGGAATTTTATGAGTCGC
TCTAGAGGGATTTTTATAAGTCCCTCCAGAGGGATTTCTGGAGATTTCAG
GAATCCCACAGCTCTGGTCCGAGTTTTTTCTTCCTCCCGAGGGAATCTGA
AAAGATAACACCCCAGAGGGATTTTTCACATTTCCCCTCTGGAGCTCTCA
TGGCAATAAAAGCCAATATTGGAGGGATTTTTCACATTTATCCTCGGGAG
CTCTCATGGCATCAGCCGACAGAGGGATTTTTACACTTCGCTCTGGAGGT
TTAAATGTATTAGTCAATTGACCCTCTGGTAGATTATTTTCATTTCACCT
CTGAAGTGTTTTTTAACATTTTCCCTCTAGAGGTGTTATTATTCAATTTT
TCCTCCAGAGGGTTTCATGATGGTTTCGGAAATACATCTACAGTGTTCTC
GAGTTATAATTCCCCCCGAGGGTATCTGACAAGATTTTCCTCTGGGAGGG
GATATTTACAAATTCTACAATCATTTTGAATGACTGACGGTATATATATT
TTTTGCCATCTGGGAATACTTCTACCATCCTTCCACACTATGCCTTAAAA
TCAACATTGTAGGGGTATCGCTTAAAAAATGGTATCATTTGTCAGCTTTT
CTATGATTTTCAAACCTCTTATTATGTCTTCCCTTTTGTGAGAAGATTTA
GCAGTTTTATTTAAAAATATCTCGACAAAGAAGGAGAATACCTTTTTTCT
CCCGCCACCATAAAAAAACCGTGGGTCGTGTTATTCAGATGTTCTCGCCC
GCCCTTCCGCGACAAAAACATAAGATTGCGATTGTGCGGCTATATCTTCC
ACCTGAAACATCAGTACTCGTCGTTATCCATATATGCTATAGACCCATCG
TATCATATGCCTTATACCGACTCTATCATATCATATGCCTTATACCCCCC
CCCGCCACATTTCCCAAGCACCGAACCCCTAAATCATGACGCGTGATGTA
ATGCAACACCAACTGTTTCGTCTGCCGTATACGAATTCTCCAACACAAGA
CGGCCCACCTTTTTTCTTGAGAGTTACCCAGCAGCATCATCACAGACCAA
CAACAACGCCTTGATTCCAAGACCTTCTCCCCTCACCTCTATATTATACA
TCTTTGCTAAAAGAGTGTGTTACGGCCATTACGCGAAAGGACGCGCATAA
ACTATGAAAGTCACGAAAGGACGCATGGCTTACTTATTGTAAATAATTGT
ATTCACATCGGCAAGACACCTTCACCCGTATACCCCGAAAATAATGTCGA
ACTAAATCTTCGAATTCAAGCCTCTTCCGTCAATTGGCGAAATACTCGGA
TCATCGCAATCGTCAACAAAACTATATCACCGACTTTTTGAATGCTTTGT
TTTGAAAAAATACGCCATGAATGCCACACTACCGAAAGAAAACCTGTCCA
ACACGCAACAGAAACGAGGTCTAAAAATGAGTAATTTTCGACTACAACGA
TACCACCAAAATCAGGTAACACATTTTGTTAAAAAGAACGACCACTGTAA
TTTTTTCAGGCGTCGCCACCTTGAACGCCAGCCTGATGCTCAAAACTACT
AATCGGTCAACCACTGCGCGTCAGTCCTTCACCCGCCCCAAAAACGTTGT
CGTCGACGTCGGAACAATCATCGCCATCTTTACTCTCGTTGGCAGCGTTG
CCGCCCCTCGGACCTGAGAGAGGTTGCCCCATATGCCTAGCGCTGGATGA
AAAGTCTTCCGCTTCATCCCCAGGCTCTCTTGCCGCGCGGTATGCAGCTG
GGATACCGCGAAGGTTCAATCGAGAATGACTCGCACCATCCTCATCACCG
TCTAATGCGCCGCCTGAGGCCCCTTGTTCTCTGTTGAGTCACGGCGTTGG
GAGAGAATAACAACCGCGAACGACGCCTTAGTAATGGGTTAGAAAGCGAA
GATACAAAACAAAAGGAATGTGGACTCTAAAGCTGGACGGCAGAAGAATG
TGTGCGTCAGATGATTTTCTCAACCCTAATCGCTCAGGGAGAATCGAAAA
GTCGCGCACCCACCTTCGTCCATAGTGCGATGGTACGGCATGAACGCGCG
GGTAGCGCCCTCCTGCACGATATCGAGAGGATTTTTATCCAGGAGCACGC
TTGCCGGCCGCCCAGCGCATAGCATGAACCTATACGATATTTCCCACACC
CTGCACAACGGTGAGAGGGCGGGTGTGCAGTATACTTAGTACGCTATCAG
CTGTTTCTGTAGCGAACCAGCAACAGAGAACGGTTGCAATCTAAATTTTG
AGGGGCAGCGGCGGTGGGATATCAGAGAATGTATGATACGAAATGGGATG
GGCAGTCTACCCATAGGTGTTCATCCTGGCACCAAAAACAAACTAGTGGT
AGAGGCCATCGGTTTGAATCTCACAACTCACTGGGAAGCGAATCCTCTCC
CGCACGATGTAGTCCTTTCGGCGCATTTCCTCTTCTTCCGACTGAATGCT
TCGAGAATCTAACGTTCCACTACCGGCCAGCAGTCTGGCATGCCACGATC
GCCACACTTGTGAAAAGGTCCCGTGACACTCTCAACGCGCAGCAGGGAAA
TGGCCGCGAGAAGCACTGGCACACAAATCTGGGAACAGAGCAAGTGGGTG
GCGTGGGCACTCTATGCGTCATTTTTACAGCGGAGGTTTATAACTCTTCA
TTCATCGAATTTACACGCCAGACGTTTGACTACTACATCAGATGGGGAAG
AACAACTGGTAGAGAACACAAGCTGAGTGAACGCTTCGACATAGGCTACA
AATACAAAACCACTTCATGGCACTTAAACGGGTTCCTCGATGGTAGTAAT
ATTGGGTCAACAGTATAATGTCGGGGAGAAGCCCACCGTTATACTGTACA
CTTCCATTAACCGCCATGCAGAGCAACCAAACATAGCAAAAAACAAAACA
GAAACAATATAGTACATCAAACTGGGTAGTCATATTTTACTTTTTCATAG
GCTGTAAAGACAAAACCTCAGCATGGCATTTAAACGGGTTCCCCGATGGT
AGTAACCTTGGGTCAACAATATAATGTCGGGGAGAAGTCCACCGTTATAC
TGTCACTAACATTAATCGGCCGTTCTGGCACCAGTGCTTGTACGTGGTCA
TTTTTTATCTGTACACAGCTGTAGTATCGGGACTTGAAACATCCGAGAAC
TCTCGAGATACCAGTAGCTACTAAAAGGACATATTAACATTTGGTGTAAA
AGTCTACGTAGGTCTTGACCGTACACGTACACAGGTACTTGAACGTGGTA
CGTAAGTTTTAAATTTTAACGTGGTACACAGCTGTTGTATTCGAACTCTT
CATATGAAAGTTTCTTCTGTGTCTTACTTATCGCCGATGGGCCTCAACGC
AGCAGGATATCAGAGAGCCTATGGGGACCTCGCAACTATCCGAGAAATCT
TGAGAAAAACCATCACCAGTAGTCTACAATACCAGTGCTTTACAGAACGA
CATTGTATGGAGGTCTAGACCCTTCTGGCTCAAGTAATTTGTACGTACAT
TCTAACCTGTACACAGCTGTACAGTAGTCCACAAGCTTTATGGAATTGCT
GTACAACAGTTGATGGATCTACAGTGTTCACACGGTAGTGTGTGTTTTCT
TCCCATTCATTCTGGACATCAAGTTCGTTGGGCGTACCAGCCGGGGTCAC
ACGGGAGAAAGGTCACACAGGATTTCTCATCCACCTTTTTTCTGCGGTGC
GCGCCTTAGTTTTTCTCGCGAGAAGGATTCAGCCATTCCTTTCCCTCGTC
GACCGTGAAGTCGAATTTTGTGTGCTAACGATTTGATCGTTCTCCACCCG
TTGGGCATTTTTATTTTTGTTTTTTAGTTTGAGAAAAATCCCGTTTGCCG
GGATCGAACTCACGTCCCAACGCGTCAGAGGGTTACGAGGTACCTCTGAG
CTACCGGGGCGACCGTCTCGGTAGTATAGCACTAAAAGCAGACTTATTAC
TCGTGCTATTATTGTAGAATGATGTATTGACACTCCGGGGCTCTGCGATG
AAATATACGTCAACTCTGTTTTCAAGTAGTGTACAGCAACACTTGAGGGT
ATGTAGCAATGTGTGACTTTCCTCCTGTGTGACCCCGGCTGGTACGTCCA
ACGAACTTGATGTCCAGAATGAATGGGAAGAAAACACACACACACAACCA
GCCGTTGTGAATTTAGAAAACACACTGCTATAACTAATAGACTAAATAAC
ACAACCGGCCGTTGTGAATTTGGGTCATCTTCAAATATACTACTACTGTT
GTATAGGCACCAGTGTTCAAGGGGCAAATATCGGCGATCGAAGTCGGGCG
TGCGAGATGAGGCTGTGATTGTTTTTATACCCTTGCATCGGAGTCGACCC
CTGTACTGATATACGTACTGATTAAAGTACACACTGTGTTGTTTTAGTAT
CACTTTCAAAAATCAGCGAGCTGTACATAATTTAGTCACACGGTAGTATA
GTCCTAAAAGAAGACTTATTACTCGTGCTATTATTGTAGAGTGATGTATT
GACACTCCGGGGCTCTGCGATGAAAGATACGTCAACTCTGTTTTCAAGTA
GTGTACAGCAACACTTGAGGGTATGTAGCAATGTGTGACCTTCCTCCTGT
GTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGA
AGAAAACACACACACACAACCAGCCGTTGTGAATTTAGAAAACACACTGC
TATAACTAATAGACTAAATAACACAACCAGCCGTTGTGAATTTGGGTCAT
CTTCAAATATACTACTACTGTTGTATAGGCACCAGTGCTCAAGGGGCAAA
TATCGGCGATCGAAGTCGGGCGTGCGAGATGAGGCTGTGATTGTTTTTGT
ACCCTTGCATCGGAGTCGACCCCTGTACTGAGATACGTACTGATTAAAGT
ACACACTGTTTTGTTTTAGTATCACTTTCAAAAATCAGCGAGCTGTACAT
AATTTAGTCACACGGTAGTATAGTCCTGAAAGCAGACTTATTACTCGTGC
TATTATTGTAGAGTGATGTATTGACACTCCGGGGCTCTGCGATGAGAGAT
ACGTCAACTCTGTTTTCAAGTAGTGTACAGCAACACTTGAGGGTATGTAG
CAATGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAAC
TTGATGTCCAGAATGAATGGGAAGAAAACACACACACACAACCAGCCGTT
GTGAATTTAGAAAACACACTGCTATAACTAATAGACTAAATAACACAACC
AGCCGTTGTGAATTTGGGTCATTTTCAAATATACTACTACTGTTGTATAG
GCACCAGTGTTCAAGGGGCAAATATCGGCGATCGAAGTCGGGCGTGCGAG
ATGAGGCTGTGATTGTTTTTGTACCCTTGCATCGGAGTCGACCCCTGTAC
TGATATACGTACTGATTAAAGTACACACTGTTTTGTTTTAGTATCACTTT
CAAAAATCAGCGAGCTGTACATAATTTAGTCACACGGTAGTATAGTCCTA
AAAGCAGACTTATTACTCGTGCTATTATTGTAGAGTGATGTATTGACACT
CCGGGGCTCTGCGATGAAAGATACGTCAACTCTGTTTTCAAGTAGTGTAC
AGCAACACTTGAGGGTATGTAGCAATGTGTGACCTTCCTCCTGTGTGACC
CCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGAAGAAAA
CACACACACACAACCAGCCGTTGTGAATTTAGAAAACACACTGCTATAAC
TAATAGACTAAATAACACAACCAGCCGTTGTGAATTTGTGTACCGTGGTC
ATTTTCAAATAGTACTTGTCAACATTTTTAATCGGAAAGGGGAATCGCGA
TATCGTATCGCCTGCAACAAGCAGGTTTCAACCTCGACGGAAGCCACATA
AATAAGAATCAAGGCTGAAGCCGTACTCCCGGGGAGCGGCTTGATCGGGA
CGCAAGTATGTCGACGGTTCGTGCGGGCTCTATGTTCATCCGAGAGCATG
TTTACTTATGGCTCAATATAACTAACCCACAAAAGCGGTCTACGCCCATG
GAGAAAAACTTAACTCAGAAGCTCCCCGCAGTCAAAGTCTTGCAGCTCCG
GGACATCAGAACCTGGCTGGTACGCCCTTAATCAGATCCAGGGGTGAAGT
CCTAGCTGCGGTTGGAAGCTTATACTCCGTCGAAGGCCATCTGTGTTGTA
CGTTTAGTACCAGCTGCAGTTGTTCAGTTGTAGCGCGAGCGAAGCTCGCG
CATAAGCTCGCGTATTAAACCTCCTGTCTGTGTGTTtgTGTGTGTGTGTG
TGTGTGTTTTCTTCTCATTTATTCTGGACGTCAGGCTTGTCGACGTACCA
GCCGAGGTCACACAGGATTTCTCACCCACCTTCCTTCTGCGGTGCTTGCC
TTAAATTTTCTCGCGAGAGGAGGATTCAGCCGTTCGTTTCCCTGCTTACC
GGCCGTGGAGTCGAATTATGTGTACTTACGAATTAATCGTTCTCCAATTC
TTGGGCATATATATAAGAAGTATTTTTTTTTTCCTACACCGGGATTCGAA
ATCACGTCCCAACTTCAGAAGGTTTCGAGGTTATCATACCAACTGAACCA
CCGGGGCGACCGGCATGCGTAACTAAGACGTTTAGGTGGGGACTACTTGT
CCATGCGACTAAATTGTGTCCATTTGCGCGAGCGTACGGCAAATATGGAA
ACCGCAACTATGCTCACTACTTTATCATCGTCGTCTGAACTGTAATTGTT
TGGACAGTAGTATATCGCCTCTCGCATCGAATCGATACAAAAGACCTACG
CCACCGCCTCGGAACTCGGGAGGAATCCCGTAAGGAAGCACCAGATTCAG
CCTGAGTATGGAGATGAGCAAGCTGACGCGGGACGGAACTGCCGTACCCG
TCTCGCGATGTATTATTATCTTAGACGCGAACGCGCCGGACAGAGGGAAA
TGTTATTTTCCCTACTCAGCTGACCACGTGCAGGACTGCAGCCCTTATTA
TACCCAGCACAGTTGATCAATATATACTCTTTCTACATGTGTGACTTATA
CATAATATACTTATACGCGTACATTCTATTTGCGACACATGTCTGTATGC
TGGTATATTGCGTAAATTACTATATACGAAGTATATAATAGAGGGATTTC
TGGCATCCACTTTCTGTGGCGGTAATTTAACGAAAAACCCTTTGGAGGTA
TTGTGGAAGACAGTTTGTCGAGTTTGTCGAGGGATATATTTTCTAAAACA
CTCCTCAGTGAAAATTATTCCAAAACCTCTGCAGCCAAAAAAAACAAGCC
CTCGAATGGGGTTGATTACGTTTTCCCTCCAGAGTTTTCGACAAGATTGA
ATCCCGCTGGAGTGGAAATTGAAAAAAACGCTAGAGGGATTTTGCAAGTT
TGCCCTCAACAGGGCATGCAGGGTATCAAACCCTCGGGAGGGTTAAAAGT
CTTGTGCCTACAGAAGATAATACTTTTCAAAATTCCTCGGGAAGGTAATA
TACCACTCGATACCCCTCCCGAGGGTGAAAATTCTCTAGAGGGATTTTTG
GGTGAGCCGATTGGCCACGTGTGCATGTATTCGGCAATTTCTGTTTGAAA
GCACAGATTTTGTTTTTTAGGCGGATTTCCAAAAGGATGGCCCCCAAAAA
AACGGATTCGTTTTTCGTCGGGTTCAAGTTGGTTGCGAAGAAATAAACCA
AACAAGCTACAGCACGAAGGAGCCATAGTAAACACGCCAACTTAACCTGC
GCTGCTCCGCGCTCAAGTAGTTCGGCCAGTTTCACATGAACCCTATTTTT
CGAAGAGACCCTGCGATCCGTTTCCTACATCCACCAGTTCCCCCAGAAGC
ATTGGAGCACTTGTTGCTCGAAACTCAGTGTTTCGTTCCGCTCTGGGCCA
CAGAATAACAAAGTTATATTGAAAACAACTCTTTGATGACCGTTTGGTCA
AACCAGTTATATTTTCTGCACATAAACGGTGATGACCATATCTACCGCAT
GCGACTACTAAGTCCAAGCAAGGCCGTTCTTCGTGCTCCTCTAGATCAAC
CAACAACTTCTTTCACTAAATGCTGTGCCAATCACGTCTACAATGTGCAC
CGCCGGCTGCCGAGAGGCGCCGGGGGGTATCCACGCTCCGCGCTTTAGTG
AGGCCTTGGGACTTGAGCGCACCATGCCCCCCTGAATATAGGTTAGACCA
TGTGCTGTCATGTGTGTGTCTATTCCAGACGTTAACATTCGGTGTGGAGT
GCGGCGTTCCGCCTTCGGGTTATTTACCCTTGTGTCGGTGTCCCGGTTTG
CGCATTTGGTAATGAATAGCATATTCAGTTGTGTTCGTGCGTTTGGTTGA
CATCCATCTATCGGTCCTTTCTGCTTGTGATTTCAGCTAAGGATCTGCAT
TCCCTGTGTATTTCTTATATCGTGCCCCATGCCGGTGCTCTTTTTGTCGT
GCCCTGCTCGTGCGCTCTCTGTTTCTTTTCTGACGGTAGATAAATAGTCC
AAGTCGGTATATTTTGAGTCGAAGCTCCAAAACAATGCGGCCCAAAACCA
ATTGCCCTCATTTTCCATCCATGATCAATATCGACACGATTTCCGACACC
ACTTGCTTGATTGATCCCGGCGTCCGTCTTTCTTATCCACGCCGCTCTAT
CACTTTTCCGCATATGTCCAGGAGATTTGTAGCACCGGCAACGCACTGCC
TACCCCGGTGTCAGTTTCCCTTCCTAGCAACGAGGCCGAGCTCGAGGCCT
TCGAAGGCATGCTTGTGTCCATCAAGAGCCCCGTTGTCACTGATAACTAC
AACGCTGACAGTTACGGCGAGATCATCGTGGCCGCGGAGCGTCAGTGGCA
GTACACTCAGGTGCACTATTCTATAGAAAACCAATCAACAATTGGGGGGC
GATGCCGCAAATTTGTCCGCGTTTTGAGAAGAAAAAACACGAAGAAAGCC
TCTCCCGGGGACACATTCGACCAACCTCCTTTTGTAAAATAAGTAATATT
CGGGACAAGCTTGCCGACTATGTAGGGGATCAGGTAGTTCTATCCTCGGA
AGGGACTACTCTGGGTACATCCCCGAGGACGGAATCGTGGGATCTCCCCC
CCCCCCCGTTCTATAAACGACTCTAGATTTGGTCTGCAGGTGTAAAAATG
CATCCATATATATGGCGTAATTGCATAGGAGTAAAACGTTTGGAATTGTC
AATAAACATGAACTCATGTACACAGCCTGTTTTGTTATTGCTATCCGTAG
CAGATCCACACCCCGGGAACCGTTTCGGAGGTCGAAGTTGGTACGACGCT
GGTGATTGACGACGGATCCGATGGTTACGAGCCCAACCCCGATGTGTACG
TAGACCAGGCTTCCGATGTGCGCGTCGGCCAGACGCTTGAGGACATCGAA
GGCATCATGGCGTATAGCTTCAGCGAATATAGGTGAGGCGCCTCCTCGCG
CCATTATAATATTCGTGTGTCTTTGTTTGGCCCTCCGAAGAGACGCAGAG
GATACAAGCCCAACAAAATGGACAATACATTACCATCATGTCAGTACTTA
GAAAAACATACTTGAGTTCAACGAAACAGCGCGCAGGTATGGCTATGCAT
GCATACATCGAAAGCTAGCTTTTTGCACAAATGCGATGTAGCTGGCGTGG
CTTCGACCTGTCATACCTATGAGTAAAAGGAAATATGCTAAAACGCTTGA
TTCGCTGTAAACAGTGTAGGTACCCAGGTCTAGCGCTTCGGGACTCCGGT
TATATCAGATTTTTGTATTGATACGAGGAATGCAGCAGTCAAAATAACAC
GCGGGCGATTATATTTTTATGAGCCTTAATATGATCGGTCACTCGCGGCA
GAACGCAACTGTTCATTTCCAGGGTGAGAAATGTTCCAGCCAGTATTTTT
GTCGTTTTGTTTGATTGTACGCACTGCTCATTCTGTGTTTCGTAGGGTGC
AGCCAACAACGCTAGGAGTCACCCTCGCCGCGGCGACTAACCCGAGGCCC
ACGTCTATCTCCACGCAGTCTTGCGTGAATGCAAGGGTAGCTGGGTGAGT
AGGACCATTCGCTGTTCTCCTTCAAGCCCTCTAGCAGCTCTCTGCGTAAC
ATGTTTTGCCCATGTGTGTGTCACCGCCTATGATAACACGAAACCTTCGC
TGAGGCGCTTGTCGCCATCTGCTTGGATGATTGTAATATTTATTTGTACA
GTTTGAATCCGAGATTTCGTTTGCTGTTGTTTTCTGTCTGTTAATACACT
CATTTGGCATCCCCAGCTTCAACGTGCTGAACTACTTCACAACCTTGGGG
TCTCGGGGAGCTGAGACCGAAGAGCAGCGGGAAGAGCAGCTGGCAAAGAT
CACGGCCGGTGCAGTTGCGCTCAACGCGGACGTTATCGGCATCATTGAAG
TCGAGAACGACTATGACGCAGACACACCCTCTATCGAGGTATACTATATA
CTATAGACTATAGACTACTATAGACTATAGACTATATCCTACCGTTGACG
CCAATTTTATAAGGATTGAAGCGGGATTTGCACGATGAAACTCACGCGTA
TAGTTCTTGAGGTTCCTTGCTGTAGATGCTGGAAGTGGTGGGTCTTGTGG
ACTCTCGATAAACCTTTTTCTCTTATTAGAATTGCTCCGATGTGATCGAT
GAACTGACCCGAGGGGTGAACTTCTTTCCCAAATTCCCAAAAAGGGAGGT
GCATCTACTTGACCATTCTTTTGCCAGAGAATGGTATAGAACTTTCTCCG
AAAGTTCCCTACGAAACTGTAATCTTTCCCTAACTTATGTACTATTATCC
TATCCTAGCTTATGTGAACTCCAAGTCTCTCATCATAACAGTACACACTA
CACACTACACACTATACACTATACACTATACACTATACACTATAGCATGA
GTCATTCAACGAACAGGGGGGGGACTCGACGATCCCGCCACCAAGGATGT
TAGTTACCAAACCAGCTCCTCCCGGGGACGGTCCTCCATGACCCCCTGCA
TGGTAGGCAAGCTTGCCCCGAACACAACTCCTTTCACGAGACGGTTGGTA
AACTCTGTCCCGGGAGGGTCTTTGTTTCGTGCCGCCCCTCCCTCACAATC
GGGGACAAATTTATGACCGCCCCCACTCCCTCATTCGTTGAACGACTCGC
ATCACATAATTATATGTCCCCTCAAAGAAAAGTTATTTAGCTATAAGTCT
TATCTATTCGCAATGTCGCCCTTTTCCGTGCGTATGTCGTCATCCTGTTT
TCGAAGCAGTTCCCGTTAATCGGAACGTTTGAACCTTAAAATAATAAAGT
AATCTACTTGCGTCACGTTTTGTAAGCGGAGTGCCTTGGAGCTGGTTATC
ATCATGCTGTGTACAATTGTGTCTACCCGACCCTAAACAAGGGTTTTCCC
CCGTTTACCCGTCGGTCGCGTGCAGACCCTTGTGGACAGCATTAACGCCG
CAGACTCTGGAGCGGACTGGAACTACGTTGTTCCAACCACTATCCCTCTC
GGATTCGACGAGATTGCAGTGGGTCTCATTTATGATGCCAATACTGTTTT
TCTTAAGGTGATCAGTATACACTGGCACTTTTAAATGTATACAATATATG
TATTCCTCTTTGGTTACCCTGAGACATCTCACGGATGGTTAATCCGCTTG
ATGATTTTGGATGGAAAGGTTACACGAGTTACTGTGCTAGAGCATTTTTG
CTAGTATTCATTGGTCTTTCGCTTACCTCTCTCCTAACTTGCGAAACATC
CGTCTTGGTTGACACATATGATTGTAAAGGGAGTATCCGACGTTCTCGAT
TACGGTGAGAACAAGACAAGAGCTAGCCTTGCCCAGACCTTTTCGGCTAC
CTGCGGCCACCACCACTCGCGCTGCCCGTCATTCACGGTGGTGGTCAACC
ACTTCAAAAGCAAGGGGTCAGATTGCGACGACATTGGGGATCCTGACGCC
GACGATGGACAGGTCCGTTTACGCTTCGAAGGGCGATGCCGTGGTTGTAA
GATTGAGTCCAGGATAATCAAATGAAAATATATCAAGCTATCCAACAAGA
TGTAATACAATAATGAAAGAAATACTTCCGTGTCAACATCCAAGATACTT
GCAGCCCACATAATTTGGACGTGTAACCCCTCTAGACGAAAGTGTCGGCT
TCTATCTAAGGGTAGAAATTAATATTTGCCCCGTAAGTTTTAGTCTTTCA
TAATGGCAAATACACGATACATCGAGTTCGATAAAACCACACGCACTGAT
TCATTAGTGAGCGTTTTTTTCGATCGCGTAGAAAGATATCAACAGCTATT
AAATCTCAGCGTCGTTGTTCGTCTCTTTTCTTTTCTTGTCTTGCTCATCA
GGGTAACTGCAACTTGACTCGCACCAGTGCTATGAACTCTCTCGTGGAAT
GGATGACGGGTTCGAACATCGAGGTGGATCCGGACGACGACATCTTGCTC
GTGGGGGACTTCAACTCATGTGCGTTTCCACCGCAGCAGCAGCCTCAAAA
CAAACAACAAACCACTTACGAACGATTGCTAGCAACATTGCGAAAAAAAA
CTACGTAACCTCTTCAATTGTAGTAAACAGCCGTGGGAGTCTGTTCAATG
TAGTACTACAGTACCGAGCCTGCCCTACCCTCTGAATGCACATGATAAAA
TGGTATTTCATGTATTTAATGAAAAACTCAGCAATAATGACGGGCTTATG
TTTCTGCTTGTGAACGGATTACATCTTTTTTATCAGATGTGATGAGATTA
CCTTGCAGGGTCTCCGGTCACAACTTGAAATGTTTTTTATCCCCTCCCTG
GTTTGCCAGACGCGCAGGAAGATCCCATCCAAGCTGCTACCACAGCGGGG
TACGTGAACATGGCTACGTATGATTCCAGCTACCCTTACGTCTCCTCTTA
CGTTTACTATGTGAGTATTATTGATGCACCCTCGCCAGAGGGAAGGTCTT
AGAGTCGTGAAGAAGATGGCATAAAAAGTATTGTATTGATGGCATAACAT
TGGGGGAAACACAATCGGGTGTCGATAGCAACTTAGAGACAAAAGGACTC
CGTACTAGCTCTAGAAAAGACTGATAACAGTAGGGTTCTATAATATGAAG
GTAATATGACCCTACAGTACTGTATAAGCGGAGTAACTAACCCCATAGAG
AATTATAGTTGCTCCATGATTCTCCCCCTGCTCAATATAAGGTATCTACG
TGTTCCGTCACCCTCCCATGGCTTATTTTGAGCTAGTAAGGACAACATGC
TTGAGAAAGGAAGGCTATAAGATAACACCAACTAACCCTGCAAGGGGAAA
ATAAAACTCTGTTTTGCTACCTACTTTAGAGCCTCAAATATTTTCAAAAA
CGTCACAAGTGTTTACGAGCACTGAATGTTCAAGTTTTAAAACGCATGGG
AAAGTCCTTCCCTGATTTATGCGGCGCAGAAGCGAAACTTCCGACCTTGA
GCTACTGGTTCCCAGCAAAGGTATCTCCTATTTTCGAAAATACGGAACGG
ATGAAAAAGTCAGTGCAATTGACTCACAGATAGTTCAACTCCAGGAAAGC
GGTACAGTATTTCAACCAAGAAGCATCTCCTCGTCCGCAATACTACATCG
TCTATCGCGTATTGGAAAAACTTATACGAAAATGCTAGAGGAACACGATA
CGTGGTCGCAAGTTTTCAATCAAGCTACTAAAGTTCCAAGCCGCGATAGC
CGAAAGGCAAACAGTATACGTATATGCTAGGAACATATGCTACGCGAATG
ACTTCTCTCGTGATTGCAATCAGGCGAACGAGCATTCAGAGGCAATACTA
CCATTCGGAGTTCATATCGCCGCGAATGACTAGCTACATCGCGAGATGAA
AACAGAGCTATGTAGCGTACTGTATGGGCACGAGCTGTCACAAGCATACT
AACTGTTTCGAGCCAACTATGGTACTGTAACGCAGTACTGATTATTCGTG
CTTTTATATTTCAGAACAAAAGCGATTACCCCTGCACGTGGCTAGGGTGA
GCAATCTCAGAAAACGTACAACACGCGTCGCGCGCACAAGCGGTCGATAA
TGATATCCCTCCCCAATACAAGCCTTTGTCACTAAGCTGCTGAGCGAGTT
CAAAAGGACACACCTGAAGGAACACGTTGTGAGAACAAGCCCTACGTGAG
GATTCAAGAGATGCAAATTGATTCCGTAAGTATACGAGTACAGCTCGCGA
GGAAGACACGGTATTGAAAATTTAAGGCAGTACCTGGTACTGTATAACAG
CTCAGTCCAGTCTTGAGGCACTACTACGAACGATCATAAGCGTTACGACC
CTCCCCGAACTATCACCTACCGTTATTTATGAGTCCGCATAGACTTGCCC
TCCCTGATAGAACAACATTTCAGAAGAAGGGGGGGCTACTTGTGCGATTT
ACCGAACGGATACAAGGGTTACATGAGATATCACTGTGCTACATACAGCA
GTACAGGGGTATACTTTAAAATCACCATACCAAACGGCGAAGAAAGGGTG
CGACAGCCATGAAGACCCGAGACATCCAGAAAAAAGGAACCCTCTCCGCG
TAGTTGCCGTAAAGCTGCTACCAAGCACTCCTAGCTCCATGACTCTCCGC
GACAACCGTTCGCCCCTAACTACCAATCACCTCAAGTCGCCACGACGGCG
TGACCTCTGGTTCTCCCTCCAGTTCATGTAGCGTGAAGCCGCCCTCGACG
GCAAGACTTTTTTTCCTGGCACAGCGTATTCTAGGCTGGCCTTGATTCAA
AGAGGAAGCGAATTTTAAAAAAACGCTGCAGCTCAGCACCCGGCTGGTCC
AGCACGTCTAACCTCACCACGAACCAACACGCGCCACGATCCCAAAAATG
GGCAGGCGCGGAGGTGACCTCGTGAACTGCCTGAATCAAAAGTCTCATTT
TGCCTGGATTTTGTCTCAACGACCCTCCGGCAGTAGGGAACAGCAGACAG
GTTACTCTCCTGGAAGACCGTGCTGCCGTATGAGGCGTATGGAGTCGAAG
TCCATATATTTTCTTCTTCGAGTCCTCCTCTGGAGTCATCTCCTCGGTCG
CGTAGAACCGAAGAAGTGGCTTGTTGGAAGTGGTTCTCGTAGCTGTAGAG
GCTTCGCCGGTGGGAAGTAAGCCACCGGCGGCTGTTGGTGAACGTATCTC
CAAGGACGGGAGGCACGACCTGGGTGCGGCATCGCCGCGCTCGACCAGAA
CGTCATCTCTGCAAGGGAGATCGGGAGGTTCGGCTTCCACGCCGAAAGTA
ATCGAGGTCTTCGGTCCATCTTAAACCTTATGTGCAGTAGTACAGCTGTC
CCCACGCATCGCTTGTACTACAATTGCGGTGCCCTCCTTGCGCTCGCGAG
TCATCGGGTTTGCTGTCTCGTCTGCCTCCATGGCATAACGTCGCTGCCGA
ACGTCCTGCCCTAGGCGTGCTACAAGCTGCTTAAAGAGTCTCGTCATCTC
ATCGGGAAATTCTTCCAAAATTTCTCTCACCTCTCGAAATGCACCCGCCA
TCGTGGGTTGGCTAGACTCGAATTCTTCTTACTGGGGGATGGGGCCATTG
CCCTCGGAGTCAGCCTCGCTCGCCTTCCGTAGCATGTTAGGGAAACCTCA
GTACTGAGGACACTAGTGTTTTGATGCACCCTCGCCAAAGGGGAAGTCTC
AGAGTCCCGAAGAAGATTATATAGACCGTATTGTATTAATAGCATGACAT
TGGGGGAAACACAATCGGGTGTCGATAGACACCTAGAGACAGACTCCGTA
CTAGCTCTAGAAAAGACTGACAACAGTAGGGTTCTACTATATAAAGATAA
CATGACCCTATAGTACTGTATAAGCGGAGTAAATAACCCCATTGAGAATC
ATAGTTGTTCCATGATCGTCTTCCTGCTCAATATAAGGTATCTACGTGTC
CGTCAAGTAAAGCCTTCCTCAACGTTTAAGTTAATATCTAACCTCTGGCG
TAATTTCGATCTTGTGTTACTAGACTCCGAAGGCTAGTTCAAGAAGGTAG
GTGTCCGTAGACAAATGCTCCGTCAGACGTTTCCAGTATGAGAATTTGGC
GTGCTGACCTGATTAACGCGCTGCATCGCCTGAGGAGGTTGAATACGGCT
ACTGCGCAAAGCATTCCGTTGCCTTTGCGCGCTCTTTTATACCTTTTAAA
GCTAGGCGGTAACTTAGCAACGGCGTTTCGACAGCTGCACGCATGTGTCA
GATATGTTTCTGGCTAAGCTTTTTTGGGTGAATATATATTTGGTACACGA
GTCAGCACTCACAGACTTAGTAGGTGGTCCTTAATGCTAGAAAAGCCTAT
ATTTTCGTCAGTCCCAATCTGAGAGAATCGATTACAGCCCTTCTCACGTT
TAGCGCTGGTTTATCTAGAGTTGTAATTTTGTGTCTTTATCGTGGCGTCA
GCCCTCTTTCCTTGGCATGGTTTTGGGTTATGTCTTCGATTAAAGATTTT
AAACTTGTTAATGTCTCTTACTTCGCCTTGTGATATAATCAACGCTTGAG
TTGTGAGGGACTTTTATTAAAAAAAGTTTTTTCAACATGGCAAATATTTG
CTCCATCCACCCAGGGTGAGAGTGGAACTTTGGACTATATCCTAGCAAGT
GCTACAGCTGCAAGACAGCGTGTCGGCGAAACAGTTCACTACCAAGTCAA
CGCTGAAGAGCCTGCTGGCCTAGAGTGAGTCAAATATTCCCAATATCCGT
TATGTGAGGTATCTGTTATGTGTATTATTTGCCTTTTTATGAAGGTATAT
TATGCGCATAAAGTGGATCTACTGTAGACCTCATTGCTACTAGGCTTCCA
AAACCTAACTATGCGGTGTATGTTGTGGAGTTTAACCTCTTCTTGAGTTA
ATTTTAATAACATGCTTGGACAGGCCATGGAGTCTAATCCGATTCCGCCT
AGAGAGGTCTGGCTGACTCGATGCTCCCCGCTTCACTGATGCATACATCT
CCGTTTGATCTTTGTCACCCGACAACTTACGAATAATATCCCCTTCCTCT
CTCAGGTATGACAAGTGCGGTACGAACGACGCGTGTACCGTCAGCCTTGA
CCAGTACCGCTGCTCGGACCACGACATGGTAAGCGAAGAGCTGTCTGGAC
ACGCTAGACAGGGAGCAAACGTCTAGTCAGGTCTAAACTATAGTGTAGCG
TGGGTTTTTTATCGCGCGAACCCTGGAGTCCTAATTGCGGTTATCTTCGC
GCTTGGAAGGTATATTAATAGTTAAAGTTGTTAGAATTGGTTTATCGCGT
TTCTGGCTTTACGTGTGTTTTCTGAGAGCACAAGGTTCCCGCGACGCAAA
TCTATCTTCCTTTGCCTGATCGCTCTACACTAATATTGTAGGTGGTGCAG
GACTTTAACTTCCGCTCGGAAAAGAGAAAGCGCTTTTGGCCGTGAAATTC
ATCAACAGCCGTCCCTATTCTTGAAGTTATCTGGATAGCGTGAGGACGCC
TTCTTCATCAACTTTAAAAAATAACGTATTGGCGGCGAGAAGGAAGAGGG
GGGATAATCAGCGAGAAGACTAGGAGAAACTTTCCTGTCTAGTAGCACAT
CTTTCGATTTCATGGATAAAAACACCCTCCTTGGAGAGCTCTACCTTCCA
TCATCTAGAGGAGCTCCCCACTAGCTTCTTTCTTGTACAAGATGGTTTTA
TTGAGTGAACAGGCTGCTATATCCAGAAGGGGTCAAAAATTGATAGATCG
TGCGCTAGGTCTTGTGTTGAGTGGGCGATTTTTTTATGCCGGTTTATTTT
TAGATAACTGCCACCTTTCTCTAATTTAGCTCCCGTTTTTCTTGGACTAC
GCCGTCCTGTGTTTTGTCTAGGGAGCACTTGGTTTCGGATCATCAGTTCC
ATTATGTCCGCGGTGGCCCCTCCTATCCCCCCTTAGAGTTACTACTGCAC
AATACGTACGGCATCAATCATAGCTTTGCCCCTGACGGCACCTTCAGGGG
ATTGGAAGAACGTACCATTTGGCATGCAGCCTTCACGGTTCTGAAGGATA
TCTTGATGAGTAACTCTGTCTAGATGCGTTTTAGTTCACATATTCCTGGA
TTGCAAACACCGAGTGCCTAGTACCAGTCTGCGGAATCCTTCTTAACCAC
TTGATTGGGTACTTTGAGGACAAAAGCTCCTAAACATATGCCCTAAAAAT
TGCACGCAAGGAACAACATCGTTCTGACCGAGCGTCATTCTGGCTAAATT
GTGTATTAATAGTTGGTTATGACATCAACGTATTATCGCAGTCTACTACT
GTGCGGCGTATCCGTATTTGAAGTGTGACAAATGGCAGTCGAGTGTTTCA
AGTAACTAGACATAAGGCACGAGTGTCGCACGGATGGGTCATCTCAGTTC
TTATGGTGAGAGAAATTCGGTGATTTATAAAACCCAAAGTCGCCTACTCA
GGGGAATATCAATTTTCCCTCCTCAGCTGACCACGAGCAGGATCGGCAAG
CTTACCCGGTTGCTCCATACTCCACTATTTATGATGACCATATATACTCA
GTAACAGGGCTGGCTACTGGGACTCCCGTAGTACGTAGACTATGAATAAC
AAAGTATTGTTGTAGGAGCGTGGATCAAAGGATATGCTTAATGAAAAAAT
TGTTACATGTTGGAGTAAATTTGGC

Coding sequence (CDS) from alignment at A-nodosum_M_contig106:311669..349343+

>mRNA_A-nodosum_M_contig106.9.1 ID=mRNA_A-nodosum_M_contig106.9.1|Name=mRNA_A-nodosum_M_contig106.9.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1968bp|location=Sequence derived from alignment at A-nodosum_M_contig106:311669..349343+ (Ascophyllum nodosum dioecious)
ATGACGGCTGTAGACGGCGACGCGATCGGCCTAACATCGACCGACATCGG
TGTCTTCGAGTCCAGCTCAACCACCGTGGGGACATCCCTCCAGCTCACCG
GAACAGGCTCGACCTACCTTGACTTCGAGTGGCAAGCGGGTATCACGGCG
AGCTTCGGGAGCATCAACGCCAACATGTGTTTCGGGGATGACTCTGGCTG
TGGGTCGCCTTCTCCTCTTCCTTCCAGCCAAGCTACCCCGTCGCCCACGC
CGAGTGCAACCCTCACGTCGGGCTCGCTGTGCGACCAGGACACAATACCA
GTCTCAGATATTCAGGGATCGGGCTCGGCTACTCCGTACGACGGTACCGT
GGTGACGGTTCGAGGAAACGTCACGGCCGTCTTCTCGGGCCTTGACGGGT
TCTACATCCAAGACGAAGGAGACGGCTCTACCGCCACGTCCGACGGCATC
TTTGTCTACCTCGCCGACGCGACAGTGAGTGTCGGAGACGAGACGGTCGT
CCGAGGAACAGCATCGGAATACTACAGCCAGACCGAGATCACACCTACAG
TGGATCCGGAGATTTGTAGCACCGGCAACGCACTGCCTACCCCGGTGTCA
GTTTCCCTTCCTAGCAACGAGGCCGAGCTCGAGGCCTTCGAAGGCATGCT
TGTGTCCATCAAGAGCCCCGTTGTCACTGATAACTACAACGCTGACAGTT
ACGGCGAGATCATCGTGGCCGCGGAGCGTCAGTGGCAGTACACTCAGATC
CACACCCCGGGAACCGTTTCGGAGGTCGAAGTTGGTACGACGCTGGTGAT
TGACGACGGATCCGATGGTTACGAGCCCAACCCCGATGTGTACGTAGACC
AGGCTTCCGATGTGCGCGTCGGCCAGACGCTTGAGGACATCGAAGGCATC
ATGGCGTATAGCTTCAGCGAATATAGGGTGCAGCCAACAACGCTAGGAGT
CACCCTCGCCGCGGCGACTAACCCGAGGCCCACGTCTATCTCCACGCAGT
CTTGCGTGAATGCAAGGGTAGCTGGCTTCAACGTGCTGAACTACTTCACA
ACCTTGGGGTCTCGGGGAGCTGAGACCGAAGAGCAGCGGGAAGAGCAGCT
GGCAAAGATCACGGCCGGTGCAGTTGCGCTCAACGCGGACGTTATCGGCA
TCATTGAAGTCGAGAACGACTATGACGCAGACACACCCTCTATCGAGACC
CTTGTGGACAGCATTAACGCCGCAGACTCTGGAGCGGACTGGAACTACGT
TGTTCCAACCACTATCCCTCTCGGATTCGACGAGATTGCAGTGGGTCTCA
TTTATGATGCCAATACTGTTTTTCTTAAGGGAGTATCCGACGTTCTCGAT
TACGGTGAGAACAAGACAAGAGCTAGCCTTGCCCAGACCTTTTCGGCTAC
CTGCGGCCACCACCACTCGCGCTGCCCGTCATTCACGGTGGTGGTCAACC
ACTTCAAAAGCAAGGGGTCAGATTGCGACGACATTGGGGATCCTGACGCC
GACGATGGACAGGGTAACTGCAACTTGACTCGCACCAGTGCTATGAACTC
TCTCGTGGAATGGATGACGGGTTCGAACATCGAGGTGGATCCGGACGACG
ACATCTTGCTCGTGGGGGACTTCAACTCATACGCGCAGGAAGATCCCATC
CAAGCTGCTACCACAGCGGGGTACGTGAACATGGCTACGTATGATTCCAG
CTACCCTTACGTCTCCTCTTACGTTTACTATGGTGAGAGTGGAACTTTGG
ACTATATCCTAGCAAGTGCTACAGCTGCAAGACAGCGTGTCGGCGAAACA
GTTCACTACCAAGTCAACGCTGAAGAGCCTGCTGGCCTAGAGTATGACAA
GTGCGGTACGAACGACGCGTGTACCGTCAGCCTTGACCAGTACCGCTGCT
CGGACCACGACATGGTGGTGCAGGACTTTAACTTCCGCTCGGAAAAGAGA
AAGCGCTTTTGGCCGTGA