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Homology
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: D8LN90_ECTSI (UTP--glucose-1-phosphate uridylyltransferase n=4 Tax=Phaeophyceae TaxID=2870 RepID=D8LN90_ECTSI) HSP 1 Score: 1993 bits (5162), Expect = 0.000e+0 Identity = 1003/1072 (93.56%), Postives = 1038/1072 (96.83%), Query Frame = 1
Query: 103 MSAEMTPEAAAKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
MS EMTPEAAAKFK+FEDKMKAE LS AAILAFKNSYAALSSGSSGMIEEA+IDPATDVPYL+GDIKGKV+GGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTL+FLKKYPELANDPNLELVQNKVPKVDV TMEPAAW NPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRK+DGQFILRESAQCAKEDES FQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDD+SPKVFQLETAMGAAIECFKGAGAVAVPR RFAPVKKCNDL LLRSDAYVVNEH+NIVLAPERNG APVVSLD KKYKLVQQLDAAMT+GTPSLIGCDRLTV+GDVQMAG+TVFKGTCS+VNKSGE+K+LP GEY D +VDL+EAEGL ALAVT V + PIDGQKPGTSGLRKPTK FM+DPYLHNFVQ+TFDALK TGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGV RMWVGQ GLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENT+TIS+YKSCEAFPEVDV A+GA EV A GARSVTVDVVSAT EHV LLKTIFDFSAIKALLAR+DFS+LYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLT+KGAK+PE EGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGG+DFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILA+ NKDPAQ KLVTVEDIVRQHWA+YGRNYYTRYDYEGV+A+SAN+MMDHMR+HFA+WTGAEMDGFSIAKADEFEYKDPVDGS+ASRQGIRILM DGSRVVFRLSGTGSVGATIRMYIEKYEKD DKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT
Sbjct: 1 MSVEMTPEAAAKFKMFEDKMKAENLSAAAILAFKNSYAALSSGSSGMIEEATIDPATDVPYLEGDIKGKVTGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLEFLKKYPELANDPNLELVQNKVPKVDVNTMEPAAWSANPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKADGQFILRESAQCAKEDESDFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDTSPKVFQLETAMGAAIECFKGAGAVAVPRTRFAPVKKCNDLFLLRSDAYVVNEHYNIVLAPERNGVAPVVSLDAKKYKLVQQLDAAMTAGTPSLIGCDRLTVSGDVQMAGDTVFKGTCSVVNKSGESKVLPAGEYADASVDLSEAEGLGALAVTSVPSAPIDGQKPGTSGLRKPTKTFMKDPYLHNFVQSTFDALKGTGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVTRMWVGQDGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTRTISSYKSCEAFPEVDVKAIGATEVKAAGGARSVTVDVVSATDEHVGLLKTIFDFSAIKALLAREDFSLLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTNKGAKDPESEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGGQDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILADFNKDPAQ-KLVTVEDIVRQHWATYGRNYYTRYDYEGVSAESANKMMDHMRSHFADWTGAEMDGFSIAKADEFEYKDPVDGSIASRQGIRILMSDGSRVVFRLSGTGSVGATIRMYIEKYEKDADKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 1071
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A836CGV2_9STRA (UTP--glucose-1-phosphate uridylyltransferase-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CGV2_9STRA) HSP 1 Score: 1595 bits (4129), Expect = 0.000e+0 Identity = 820/1083 (75.72%), Postives = 906/1083 (83.66%), Query Frame = 1
Query: 115 MTPEAAAKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPE-RNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAK-NPE-------------MEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
M+PE AAKFK FEDKM AE LS AAILAFKNSYAALSSGSSGMI E SI+PA DVPYL+GDIKGK G L +TVVLKLNGGLGTSMGLDKAKSLL VKGDD+FLDLTAKQV+ MRK F SNV+F+LMNSFSTSEDTL FL+KY EL++DPNLEL+QNKVPKVD TMEPAAWP PAKEWCPPGHGDLYAALSGSG LD+LLAEG+KYMFVSNSDNLGATLD+DLLAY A SDKPF+ME CERTE+DKKGGHLA RKSD + ILRESAQC DE AFQDT +H+FFNTNNLW+RLD+LK+AI A+GGLIPL MIKN KTVDPQDD S V QLETAMGAAIECF+GAGAV VPR RFAPVKKC+DLLLLRSDAYVVN+ +NIVLAPE GAAP+V LD+KK+KLVQQLDAA G PSLI C+R TV G V ++ + KG ++ N S E K L P EY D T DLT+A GL L + ++T PI GQKPGTSGLRKPTK FM PYLHNFVQATFDALKATGTDVT+GTLL+GGDGRYFN+ AIQII+KIAAANGV R+WVGQ GLLSTPA SA+IRE+GP QKAFG FILTASHNPGGP+EDFGIKYNCENGGPA E LTNLIY+NT I Y CEAFP VD+T LG +V A G+ SVTV+V+S+T HV LLK+IFDF AIKAL+AR DF+ +YDSM GVQGPYAKAVFVDELGA + L NATPKDDFGGGHADPNLTYA DLV +MGL SKGA +PE G VP FGAAADGDADRNMILG RFFVTPSDSVAIIAA A+ IPYF ++GGL+GVARSMPTSGALDLVAKK+ + FFETPTGWKFFGNLMDSK LGGEDF+PFICGEESFGTGSDH+REKDGMWAVLAWLSILA N D + Q V VEDIVR+HW +YGRNYY+RYDYEGV D ANQMMDH+RAHFAEW+GA +DGFS+A ADEF Y DPVD SV++ QGIRILM DGSRVVFRLSGTGSVGATIRMYIEKYE D KLDQ P++AL+GLVALGLKLS+L E T RE+PTVIT
Sbjct: 1 MSPEVAAKFKQFEDKMVAEGLSGAAILAFKNSYAALSSGSSGMITEDSIEPAADVPYLEGDIKGKHGAGTDLLAQTVVLKLNGGLGTSMGLDKAKSLLKVKGDDTFLDLTAKQVMHMRKKFASNVKFILMNSFSTSEDTLAFLQKYHELSSDPNLELLQNKVPKVDAATMEPAAWPKAPAKEWCPPGHGDLYAALSGSGVLDKLLAEGVKYMFVSNSDNLGATLDMDLLAYLAASDKPFVMEVCERTEADKKGGHLAVRKSDSRLILRESAQCDGADEKAFQDTGRHRFFNTNNLWIRLDRLKDAIAAAGGLIPLPMIKNPKTVDPQDDKSTPVLQLETAMGAAIECFEGAGAVVVPRTRFAPVKKCSDLLLLRSDAYVVNDAYNIVLAPEVAGGAAPLVDLDSKKFKLVQQLDAATARGVPSLIACERFTVKGLVALSARCIIKGDVTVKNTSDEVKTLAPREYKDETCDLTDAPGLGPLKPSAIATEPIAGQKPGTSGLRKPTKTFMAAPYLHNFVQATFDALKATGTDVTRGTLLLGGDGRYFNNDAIQIILKIAAANGVTRVWVGQDGLLSTPACSAIIREKGPLWQKAFGAFILTASHNPGGPNEDFGIKYNCENGGPALEALTNLIYKNTTAIGKYAMCEAFPTVDITKLGVTKVAAADGSASVTVEVISSTDVHVSLLKSIFDFEAIKALIARPDFTFVYDSMSGVQGPYAKAVFVDELGAPATSLLNATPKDDFGGGHADPNLTYAHDLVASMGLNSKGAPLDPEGNKKDAGCCLPHGAAGAAVPCFGAAADGDADRNMILGRRFFVTPSDSVAIIAAHADAIPYFSAQGGLRGVARSMPTSGALDLVAKKLGLKFFETPTGWKFFGNLMDSKALGGEDFAPFICGEESFGTGSDHIREKDGMWAVLAWLSILAHYNADHSAQ-FVHVEDIVRRHWKTYGRNYYSRYDYEGVDLDGANQMMDHLRAHFAEWSGATVDGFSVALADEFTYHDPVDASVSANQGIRILMADGSRVVFRLSGTGSVGATIRMYIEKYESDAAKLDQAPADALAGLVALGLKLSKLTEFTKRESPTVIT 1082
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: W7T5H8_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7T5H8_9STRA) HSP 1 Score: 1410 bits (3649), Expect = 0.000e+0 Identity = 720/1062 (67.80%), Postives = 832/1062 (78.34%), Query Frame = 1
Query: 139 FKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQG-TLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEM-DGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
F FE KM+ E LS AA+ +FKNSY AL SG+SG+I E+ I PA +P+L+ D+K K+ L ETVVLKLNGGLGT MGLDKAKSLLPVK D+FLDLTAKQV+ R FKS+VRF+LMNSFSTSEDTL +L KYP L DPNLEL+QNKVPKVD ++EP AWPTNPA+EWCPPGHGDLYAAL GSG LD LLA+G+KYMFVSNSDNLGATLDL LL YFA S F+MEC ERTE+DKKGGHLA R SDGQ ILRESAQCAKEDE AFQD +HK+FNTNNLWVRLDKLKEA A+GGLIPL MIKNGKTVDP+D SPKV+QLETAMGAAIECF G+ AV VPR RF PVKKCNDLLLLRSD YV+ L P R GAAP+++LD K YKLVQQL+AA GTPSL+G DRLT+ G V ++ VF+GT ++ NK E K+LP G Y D +VDLT A GL AL T V+T PI GQKPGTSGLRK F YL+NFVQA F+AL GTDVT G +L++GGDGRYFN +AIQII K+A ANGV R+ + + GLLSTPAASAVIRERGP QKAFG FIL+ASHNPGGP EDFGIKYN ENGGPAPEK+TN +Y T T+++YK FP+VD + LG+ V A G+R V V V +EHV LLKTIFDF AI+ L+ R DFS +YDSM GVQGPYA VFV+ELGA +CL NA PKDDFGGGHADPNLTYA DL+ MG+ SKG EG +PSFGAAADGDADRNMILG +FFVTPSDS+AII A A+ IP+F+ +GGL+GVARSMPTSGA+DLVAK+MN++ FETPTGWKFFGNLMDS+E+GG +++PFICGEESFGTGSDHVREKDGMWAVLAWLSILA N+DP ++ LV+VE IVR+HW +YGRNYY RYDYEGV A M+ HM + FA TG + G+++A ADEF+Y DPVDGSV+S QG+R L DGSRV+FRLSGT GAT+RMY+EKYE D KL P EAL LV + L+LS L + TGR+ PTVIT
Sbjct: 9 FAPFEAKMRKEHLSDAAVASFKNSYMALVSGASGVIAESDIKPAEGLPHLEKDLKPKIKVNPELLKETVVLKLNGGLGTGMGLDKAKSLLPVKAKDTFLDLTAKQVMAFRHKFKSHVRFILMNSFSTSEDTLSYLSKYPALVADPNLELLQNKVPKVDAASLEPVAWPTNPAQEWCPPGHGDLYAALDGSGTLDRLLADGVKYMFVSNSDNLGATLDLSLLTYFAESGSSFMMECAERTEADKKGGHLAVRSSDGQLILRESAQCAKEDEPAFQDVSRHKYFNTNNLWVRLDKLKEATIAAGGLIPLPMIKNGKTVDPKDGKSPKVWQLETAMGAAIECFPGSSAVVVPRTRFVPVKKCNDLLLLRSDTYVLTADGTPALDPSRRGAAPLINLDDKAYKLVQQLEAATQGGTPSLVGADRLTIQGQVWLSSGVVFQGTTTVTNKGDEPKVLPKGVYKDASVDLTAAPGLGALRPTIVATAPIPGQKPGTSGLRKKVVEFQSPHYLNNFVQAVFNALVDFGTDVTLGGSLVVGGDGRYFNPEAIQIITKMAVANGVKRILIAKDGLLSTPAASAVIRERGPAWQKAFGAFILSASHNPGGPSEDFGIKYNIENGGPAPEKVTNAMYSYTTTLTSYKIAPDFPDVDTSKLGSTRVVSADGSRGVVVTVFDGLEEHVKLLKTIFDFEAIQTLMQRPDFSFVYDSMSGVQGPYAHKVFVEELGAATTCLLNAEPKDDFGGGHADPNLTYAHDLIHVMGVDSKGNAVAAKEGVLIPSFGAAADGDADRNMILGRQFFVTPSDSLAIIVAHADVIPFFRDQGGLRGVARSMPTSGAVDLVAKRMNMSLFETPTGWKFFGNLMDSREMGGANYTPFICGEESFGTGSDHVREKDGMWAVLAWLSILAHYNQDP-KKALVSVESIVREHWRTYGRNYYVRYDYEGVDKSRAEAMVGHMTSSFAAVTGQCLAGGYTVAVADEFQYVDPVDGSVSSHQGVRYLFTDGSRVIFRLSGTAGSGATVRMYLEKYEADRSKLGSHPLEALGVLVQVALELSDLEKFTGRKEPTVIT 1069
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A6V1U5R2_HETAK (Phosphoglucomutase (alpha-D-glucose-1,6-bisphosphate-dependent) n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1U5R2_HETAK) HSP 1 Score: 1402 bits (3629), Expect = 0.000e+0 Identity = 702/1027 (68.35%), Postives = 820/1027 (79.84%), Query Frame = 1
Query: 241 MIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKELGGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWT-GAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
MI E+ I+PA+ +P L DI GK++ L ETVVLKLNGGLGTSMGLDKAKSLL VKG D+FLDLTAKQ + MR+ F+S+V+FMLMNSFSTS DTL F +KYP + DP +EL+QNKVPKVD TM PAAWP P EWCPPGHGDLYAAL+GSG+LDELLA+G+KYMFVSNSDNLGATLD+DLL YFAT+DKPF+MECCERTE+DKKGGHLA R++DGQ ILRESAQCA EDE FQD +H++FNTNNLW+RLDKLKEAIDA+GGLIPL MIKN KTVDPQD +S VFQLETAMGAAIECF GAGAV VPR RFAPVKKCNDLL+LRSDAYVV E VLAPERNG APV+ LD+KK+KLVQQL+ A G PSLI CDRL V G V F+G SI N SGE KMLPPG Y DT VDLT A GL L + +T PI GQKPGTSGLRK T++FME YLHNFVQA FDALKA GTD++ GTL+IGGDGRY+N +AIQ+I+KIA ANGV R W+G+ G LSTPA SA+IRERGP +KAFG FILTASHNPGGP+EDFGIKYNCENGGPAPE LT+LIY+NT ++ +K +AFP +D++A+G V G ++ V+V+SAT++H++LLK++FDF AI+ LL R DF ++YD M GVQGPYAKAVF ELG +CL NA P +DFGGGHADPNLTYA +L + MG+ SKG + ++ P FGAAADGDADRNMILG RFFVTPSDSVAI+AA A+ IP+F+ +GGLKGVARSMPTSGAL+ VA ++N+ FFETPTGWKFFGNLMDSK LGG ++PFICGEESFGTGSDHVREKDG+WAVLAWLS+LA+ N DPA LV VEDIVR HWA YGRN+Y RYDYE V ++A MMDH+RA G E DGF + DEFEY DPVDGS A+RQG+R+L DGSRVVFRLSGTGSVGAT+R+Y+EKYE+D D+ + L GL+L++L E TGR++PTVIT
Sbjct: 1 MIAESDIEPASGLPSLANDISGKIAVNSDLLKETVVLKLNGGLGTSMGLDKAKSLLQVKGQDTFLDLTAKQCMSMRQAFQSDVKFMLMNSFSTSADTLKFFEKYPAILADPTMELMQNKVPKVDAATMAPAAWPLKPGAEWCPPGHGDLYAALAGSGRLDELLAKGMKYMFVSNSDNLGATLDMDLLTYFATTDKPFMMECCERTENDKKGGHLAVRRADGQLILRESAQCADEDEPMFQDITRHQYFNTNNLWIRLDKLKEAIDAAGGLIPLPMIKNAKTVDPQDGNSTPVFQLETAMGAAIECFAGAGAVVVPRNRFAPVKKCNDLLMLRSDAYVVTEDHRPVLAPERNGVAPVIDLDSKKFKLVQQLEEATMMGVPSLIKCDRLKVKGTVYFNSRVAFEGNVSIENNSGEPKMLPPGLYKDTKVDLTHAPGLGPLLPVETATAPIAGQKPGTSGLRKKTRVFMEGYYLHNFVQACFDALKAEGTDMS-GTLVIGGDGRYYNGEAIQVILKIAVANGVRRFWIGEKGYLSTPATSAIIRERGPVHKKAFGAFILTASHNPGGPEEDFGIKYNCENGGPAPESLTDLIYQNTTALTKFKIADAFPTIDISAVGTTRVESTDGFQAAVVEVISATEDHINLLKSVFDFGAIQQLLDRPDFDMVYDCMSGVQGPYAKAVFCGELGQPEACLINAEPLEDFGGGHADPNLTYAHNLTEVMGVDSKGLPVTG-QAREPPQFGAAADGDADRNMILGRRFFVTPSDSVAILAAHADVIPFFRDQGGLKGVARSMPTSGALERVAARLNLPFFETPTGWKFFGNLMDSKALGGATYTPFICGEESFGTGSDHVREKDGLWAVLAWLSVLAKHNPDPAAP-LVGVEDIVRAHWAEYGRNFYARYDYEAVDLEAAEAMMDHLRALIPTVKEGDEADGFVLRGVDEFEYTDPVDGSRATRQGVRVLFADGSRVVFRLSGTGSVGATVRVYVEKYEEDPDQHFCNAQGYVRDLAEAGLRLARLEEFTGRQSPTVIT 1024
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A7S2I2V0_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2I2V0_9STRA) HSP 1 Score: 1384 bits (3583), Expect = 0.000e+0 Identity = 704/1064 (66.17%), Postives = 840/1064 (78.95%), Query Frame = 1
Query: 133 AKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLK-KYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
A F KM+ E++S +AI AF++++ +L SG++G+I E++I P+ D+ D + L ETVVLKLNGGLGT MGLDKAKSLL VKGDD+FLDLTAKQ+++MR+ F +NV+FMLMNSFSTS DTL++L KYPE A++ LE++QNKVPK+D T +PA +NP+ EWCPPGHGDLYAAL GSG+LD LL G KYMFVSNSDNLGATLDL +L +FA SD PF+MECCERTE+DKKGGHLA R SDGQ ILRESA CA EDE AFQD KH+FFNTNNLW+RLDKLKE ID GG IPL MIKN KTVDP+DDSS KV QLETAMGAAIECF+GA A+ VPR RFAPVKKCNDLLLLRSDAYVV + F +VL P G APV+++D+KKYKLV +L+AA G PSL+ C RLT+ G V+M+ T F G S+VN S E K +P GE DT++DLT++ GL AL T V+T PIDGQKPGTSGLRK TK+FM + YL+NFVQ+TFDA+ A+GT +++G+L+IGGDGRYFND AIQ IIK+ ANGV R W+G++GLLSTPA SAVIRERGP QKA+G FILTASHNPGGP+EDFGIKYNCENGGPAPEK+TN IY+NT TI +Y C FP VD+ +G V G+ VTV+V+SAT+ HV LLKTIFDF IKALL RDDF+++YD+M GV GPY+KAVFVDELG S N+TPKDDFGG HADPNLTYAK+LV+ MGL KG K ++ +KVPSFGAAADGD DRNMILG +FFVTPSDS+AIIAA A+ IP+F+ +GGLKGVARSMPTSGA+DLVAK +N + FETPTGWK+FGNLMDSK++ GG+D++PFICGEESFGTGS+HVREKDG+WAVLAWLSILA N D A + LVTVEDIV+ HWA YGRNYY R+D+EGV SAN MMD MRA TG + G++IA AD+F Y DPVDGSVA +QGIR LM DGSRV+FRLSGT GAT+RMYIE+Y+ D KLD ++AL LV + L+L ++ G E PTVIT
Sbjct: 2 ASFDACRAKMEKEEISQSAISAFESTFNSLVSGNTGIIPESTITPSPDLVSADSI---SLEPDTTLLSETVVLKLNGGLGTGMGLDKAKSLLKVKGDDTFLDLTAKQIMKMREEFGTNVKFMLMNSFSTSADTLEYLSGKYPEFASEEGLEMLQNKVPKIDATTFQPATCESNPSNEWCPPGHGDLYAALVGSGRLDALLEGGFKYMFVSNSDNLGATLDLKILTHFAKSDAPFMMECCERTENDKKGGHLAVRNSDGQLILRESAMCADEDEPAFQDITKHRFFNTNNLWIRLDKLKEIIDKFGGFIPLPMIKNNKTVDPKDDSSQKVVQLETAMGAAIECFEGASAIVVPRTRFAPVKKCNDLLLLRSDAYVVTDDFRMVLNPACGGTAPVMAIDSKKYKLVDKLEAATAGGIPSLVNCKRLTIKGLVRMSKKTSFVGEVSVVNTSDEAKFIPVGEVKDTSLDLTDSPGLGALKPTAVATAPIDGQKPGTSGLRKKTKVFMGEHYLNNFVQSTFDAVVASGTVLSEGSLVIGGDGRYFNDTAIQTIIKMGVANGVKRFWIGENGLLSTPAVSAVIRERGPVWQKAYGAFILTASHNPGGPEEDFGIKYNCENGGPAPEKVTNEIYKNTTTIKSYNMCTDFPAVDINKVGTTVVKSDDGSSEVTVEVISATEAHVSLLKTIFDFDDIKALLDRDDFTMVYDTMFGVNGPYSKAVFVDELGQPESTCMNSTPKDDFGGLHADPNLTYAKELVEIMGLDRKGMKI-DVGDRKVPSFGAAADGDGDRNMILGSQFFVTPSDSLAIIAAYADAIPFFRVQGGLKGVARSMPTSGAVDLVAKDLNFDLFETPTGWKYFGNLMDSKDIYGGKDYTPFICGEESFGTGSNHVREKDGIWAVLAWLSILASENSD-ASKPLVTVEDIVKSHWAKYGRNYYCRWDFEGVDKTSANAMMDKMRADSGSNTGRTIGGYTIATADDFTYVDPVDGSVAKKQGIRFLMADGSRVIFRLSGTAGSGATVRMYIEQYQPDKTKLDMAVADALDDLVKVALELCDIKTFCGTETPTVIT 1060
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A2D4BRD6_PYTIN (UTP--glucose-1-phosphate uridylyltransferase n=2 Tax=Pythium TaxID=4797 RepID=A0A2D4BRD6_PYTIN) HSP 1 Score: 1355 bits (3506), Expect = 0.000e+0 Identity = 705/1068 (66.01%), Postives = 826/1068 (77.34%), Query Frame = 1
Query: 127 AAAKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDG---DIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
A F F KM+A LS AAI AF+ SY +L SG +GMI E SI+ A ++PYLDG I+ + A L ETVVLKLNGGLGTSMGLDKAKSLL VKGDD+FLD+ AKQ+ E+R +SNVRF+LMNSFSTS DTLD+L+KYPEL D NLEL+QNKVPKVD KT EPA + TNP+KEWCPPGHGDLY +L+GSG LD+LLA+G+KYMFVSNSDNLGATLDLDLL YFA S KPFLMECCERTE+DKKGGHLA+RK+DG+ ILRESAQC DE FQ+ KH++FNTNNLW+RLDKL E + GG+I L MIKN KTVDP+D SS VFQLETAMGAAIECF GAGAV VPR RFAPVKKC+DLLLLRSDAYV+ E + V+AP+RNG AP+V LD K +KLVQQL+AA+ PSL+ CDRL + G V A VF+G+ ++VN S E K + PG Y DTT+DLT+ +GL L V+ V T+PI QKPGTSGLRK TK FME YLHNFVQ+ FDAL + DV GTL++ GDGRYFN +AIQIIIKIA A GV+R W+GQ+GLLSTPA SAVIRER S AFG FIL+ASHNPGGPDEDFGIKYNCENGGPAPEK+TN I+ NTK IS++ + FPEVD +G V+ G+RSV ++V + ++HV LLK IFDF+AIK L+ARDDF+ ++DSM GVQGPYA+ VFV+ELG SC+ N PKDDF GGHADPNLTYAK+L+K MG+ +KG + ++ PSFGAA DGDADRNMILG RFFVTPSDS+AIIAA A+ IP+F+ K GL+GVARSMPTSGA+D VA+K+ I+ FE PTGWKFFGNLMDS E+ G ED++PFICGEESFGTGS+HVREKDGMWAVLAWLSILA K KLVTVEDIVR HW +GRNYY RYDYE V +A M HM F G E++GF+I AD+F Y DPVDGSV+ QGIR + DGSRVVFRLSGTG GATIRMYIEKYE+ L Q + AL+ L+ +GLKLS L + TGR PTVIT
Sbjct: 2 AGGNFAPFRAKMQAAGLSEAAIKAFEFSYESLVSGETGMIAEDSINAADNLPYLDGKSGSIRDSIKADTALLKETVVLKLNGGLGTSMGLDKAKSLLNVKGDDTFLDIMAKQITELRSQHQSNVRFVLMNSFSTSADTLDYLQKYPELVEDENLELLQNKVPKVDAKTFEPATYSTNPSKEWCPPGHGDLYPSLAGSGMLDKLLAQGVKYMFVSNSDNLGATLDLDLLTYFAQSGKPFLMECCERTENDKKGGHLAQRKADGRLILRESAQCESSDEVHFQNISKHRYFNTNNLWIRLDKLAEELKKQGGVIRLPMIKNSKTVDPKDSSSTPVFQLETAMGAAIECFDGAGAVCVPRTRFAPVKKCDDLLLLRSDAYVITEDYRPVIAPQRNGVAPIVGLDGKTFKLVQQLEAALRGNVPSLVKCDRLKITGKVGFASGVVFEGSITVVNNSSEEKTVLPGVYKDTTIDLTDQKGLGKLKVSAVKTSPIADQKPGTSGLRKKTKTFMEGHYLHNFVQSVFDALPSK--DVQGGTLVVSGDGRYFNKEAIQIIIKIAVAAGVDRFWIGQNGLLSTPAVSAVIREREGGSV-AFGAFILSASHNPGGPDEDFGIKYNCENGGPAPEKVTNEIFNNTKVISSFNIAQDFPEVDTAKVGKTTVSSDDGSRSVVIEVFDSAEDHVALLKKIFDFAAIKKLMARDDFTFVFDSMWGVQGPYARRVFVEELGGPESCIINGVPKDDFNGGHADPNLTYAKELIKIMGVDNKGLP-VHGQTQQPPSFGAAWDGDADRNMILGSRFFVTPSDSLAIIAANAHVIPFFQ-KRGLRGVARSMPTSGAVDRVAQKLGISLFEVPTGWKFFGNLMDSAEIYGKEDYTPFICGEESFGTGSNHVREKDGMWAVLAWLSILAA--KQTEGGKLVTVEDIVRAHWKEFGRNYYCRYDYENVDKAAAEAMFAHM-TKFDGVVGKELNGFTIKIADQFAYHDPVDGSVSKNQGIRYIFADGSRVVFRLSGTGVAGATIRMYIEKYEQPSGNLSQDAATALAPLIDVGLKLSDLVKFTGRTAPTVIT 1061
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A485LGG1_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=15 Tax=Aphanomyces TaxID=100860 RepID=A0A485LGG1_9STRA) HSP 1 Score: 1350 bits (3493), Expect = 0.000e+0 Identity = 693/1064 (65.13%), Postives = 829/1064 (77.91%), Query Frame = 1
Query: 139 FKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDG---DIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
F FE KM+ E LS AAI AF+ S++AL+SG++GMI E++I+ D+ YL+G I+ V + L +TVVLKLNGGLGTSMGLDKAKSL+ +KG D+FLDLTAKQ+IEMRK + SNVRF+LMNSFSTS+DTLD+L+KYPE+ +D +LEL+QNK+PK+D KT EPA WP NP+KEWCPPGHGDLY +L GSGKLD+LLA+G KYMF+SNSDNLGATLDL+LL YFA ++KPFLMECCERTE+DKKGGHLA+R +D + ILRESAQC DE+ FQ+ DKH++FNTNNLW+RLDKL E + GGLI L MIKN KTVDP+D SS VFQLETAMGAAIECF+GAGAV VPR RFAPVKKC+DLLLLRSDAYVV + + +VLAP+ NG A V+LD K+YKLVQQL+AA+ PSL+ C RL + G+V A + VF+G +IVN S E K + G Y + T+DLT GL L+VT V+T+PIDGQKPGTSGLRK TK FM+ YL+NFVQ+TFDAL DV QGTL++ GDGR+FN +AIQ IIK+A A+GV+R+WVGQ+GLLSTPA SAVIRER AFG FILTASHNPGG DEDFGIKYNCENGGPAPEKLT+ IY NTK ++TYK +FP+VDV +G V G+R+V V+V A ++HV LLK+IFDF+AIKALLAR DFS +YD M GVQGPYA VFVDELGA S L NA +DFGG HADPNLTYA +L MG+ +KG + K+ P+FGAA DGDADRNMILG RFFVTPSDS+A+IAA AN IP+F+ KGGL+GVARSMPTSGA+DLVA+K+ I+ FE PTGWKFFGNLMDSKE+ ED++PFICGEESFGTGS+H+REKDGMWAVLAWLSILA N P LV+VE IV HW +YGRNYY RYDYEGV A +M+ M A+ G GF++ DEF Y DPVDGS++ QGIRI+ DGSR++FRLSGTG GATIRMYIEKYE L Q +EAL L+ +GL+LS L + TGR+ PTVIT
Sbjct: 4 FAAFEAKMREEGLSQAAIKAFEYSFSALTSGATGMIGESTIEGVNDIAYLEGRTGSIRESVKPDASLLQKTVVLKLNGGLGTSMGLDKAKSLVTIKGQDTFLDLTAKQIIEMRKNYNSNVRFILMNSFSTSQDTLDYLQKYPEIVSDIDLELLQNKIPKIDAKTFEPAVWPLNPSKEWCPPGHGDLYPSLLGSGKLDKLLAQGYKYMFISNSDNLGATLDLELLTYFAQTNKPFLMECCERTENDKKGGHLARRLADSRLILRESAQCEAADEAQFQNIDKHRYFNTNNLWIRLDKLAEELKKQGGLIKLPMIKNAKTVDPKDASSTPVFQLETAMGAAIECFEGAGAVCVPRTRFAPVKKCDDLLLLRSDAYVVTDDYRLVLAPQTNGVATTVALDGKQYKLVQQLEAALRGNVPSLVNCSRLKITGNVGFAPDVVFEGDVTIVNNSKEQKTILSGHYKNQTIDLTNQAGLGKLSVTAVTTSPIDGQKPGTSGLRKKTKQFMQPNYLNNFVQSTFDALPPK--DVHQGTLVVSGDGRFFNKEAIQTIIKMAVASGVDRVWVGQNGLLSTPAVSAVIRER-EGGAVAFGGFILTASHNPGGIDEDFGIKYNCENGGPAPEKLTDEIYNNTKVVTTYKIAASFPDVDVATVGKTVVKSDDGSRTVVVEVFDAAEDHVHLLKSIFDFAAIKALLARPDFSFVYDCMSGVQGPYAHRVFVDELGAPASSLINAVSLEDFGGHHADPNLTYAHELTHVMGVDAKGTA-VYGQAKEPPAFGAACDGDADRNMILGSRFFVTPSDSLAVIAANANVIPFFRKKGGLRGVARSMPTSGAVDLVAQKLGISLFEVPTGWKFFGNLMDSKEVYNKEDYTPFICGEESFGTGSNHIREKDGMWAVLAWLSILASKNTTPGAP-LVSVEAIVENHWKTYGRNYYCRYDYEGVDKAGAEKMVAAM-ANSPSLAGQVFHGFTVKVNDEFTYNDPVDGSISRHQGIRIIFTDGSRIIFRLSGTGVAGATIRMYIEKYEPASGNLKQSAAEALKTLIQVGLELSHLEQFTGRKEPTVIT 1061
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A662YEQ9_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662YEQ9_9STRA) HSP 1 Score: 1344 bits (3479), Expect = 0.000e+0 Identity = 706/1066 (66.23%), Postives = 825/1066 (77.39%), Query Frame = 1
Query: 133 AKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLD---GDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
A+F F KM+A LS AI AF+ SY AL SG +GMI E+SI P+ ++PYL+ G I+ V A L ETVVLKLNGGLGTSMGLDKAKSLL VKGDD+FLD+ AKQV E+R KSNVRF+LMNSFSTS DTL++L+KYPEL D LEL+QNKVPKVD T+ PA P+N +KEWCPPGHGDLYA+L+GSGKLD+L+A+GIKYMFVSNSDNLGATLDLDLL YFA S KPFLMECCERTE+DKKGGHLA+R DG+ ILRESAQCA EDE FQ+ KH++FNTNNLW+RLDKL+E + G+I L MIKN KTVDP+D SS VFQLETAMGAAIECF GAGAV VPR RFAPVKKC+DLLLLRSDAYV+ E + VLAPER AP+VSLD+K +KLVQQL+AAM PSLI CDRL + GDV A VF+G+ +VNKS E K + G Y DTTVDLT +GL L VT V T+P QKPGTSGLRK TK FM D YL+NFVQ+ FDAL A D+ GTL++ GDGRYFN +AIQIIIK+A A GV R+W+G+ GLLSTPA SAV+RER S AFG FIL+ASHNPGGPDEDFGIKYNCENGGPAPEK+T+ I+ N+ +S+YK FP VDV+ +G V V G+R+V V+V + ++HV LLKTIFDF AIK L AR DFS +D+M GV GPYA+ VFV+ELGAD SCL NATP +DFGGGHADPNLTYAK+L+K MG+ SKG + ++ P+FGAA DGDADRNMILG RFFVTPSDS+AIIAA A+ IP+F++ GL+GVARSMPTSGA+DLVAKK+ + FE PTGWKFFGNLMDSKE+ E+++PFICGEESFGTGS+H+REKDGMWAVLAWLSI+A D A LVTVEDIVR HW +GRNYY RYDYEGV +A M+ M A F G E+ GF + ADEFEY DPVDGSV+S QG+R + DGSRV+FRLSGTG GATIRMYIEKYE+ L Q + AL+ L+A+GLKLS L TGR PTVIT
Sbjct: 2 AQFDAFRAKMQAAGLSNEAIKAFQFSYEALVSGETGMIPESSILPSDNLPYLENKTGSIRESVKADPALLKETVVLKLNGGLGTSMGLDKAKSLLCVKGDDTFLDIMAKQVTELRSAHKSNVRFVLMNSFSTSTDTLEYLQKYPELVEDEALELLQNKVPKVDAATLAPATLPSNTSKEWCPPGHGDLYASLAGSGKLDKLVADGIKYMFVSNSDNLGATLDLDLLTYFAQSGKPFLMECCERTENDKKGGHLAERIVDGRLILRESAQCASEDEGEFQNITKHRYFNTNNLWIRLDKLQEELAKQDGVIRLPMIKNSKTVDPKDSSSTPVFQLETAMGAAIECFVGAGAVCVPRTRFAPVKKCDDLLLLRSDAYVITEDYRPVLAPERENVAPIVSLDSKNFKLVQQLEAAMRGNVPSLIKCDRLKITGDVGFAHGVVFEGSVEVVNKSAEQKTVLAGTYKDTTVDLTGQKGLGKLKVTTVKTSPFQDQKPGTSGLRKKTKRFMSDHYLNNFVQSVFDALPAK--DLHGGTLVVSGDGRYFNKEAIQIIIKMAVAAGVGRLWIGKDGLLSTPAVSAVVREREGGSV-AFGAFILSASHNPGGPDEDFGIKYNCENGGPAPEKVTDEIFTNSTVLSSYKIAADFPTVDVSKIGQVAVAADDGSRTVIVEVFDSAEDHVGLLKTIFDFHAIKKLTARPDFSFAFDAMSGVNGPYARRVFVEELGADESCLMNATPLEDFGGGHADPNLTYAKNLIKVMGVDSKGLP-VHGQTQEPPAFGAAWDGDADRNMILGSRFFVTPSDSLAIIAANASVIPFFEN--GLRGVARSMPTSGAVDLVAKKLGVALFEVPTGWKFFGNLMDSKEVYNKEEYTPFICGEESFGTGSNHIREKDGMWAVLAWLSIIASKQVDGAP--LVTVEDIVRDHWKKFGRNYYCRYDYEGVDKAAAEGMIAKM-AKFDGVVGQEISGFKVKVADEFEYVDPVDGSVSSHQGVRYIFEDGSRVIFRLSGTGVAGATIRMYIEKYEQPSGNLGQDAATALAPLIAVGLKLSDLTNATGRTAPTVIT 1058
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A5D6XTH3_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=1 Tax=Pythium brassicum TaxID=1485010 RepID=A0A5D6XTH3_9STRA) HSP 1 Score: 1344 bits (3478), Expect = 0.000e+0 Identity = 705/1065 (66.20%), Postives = 827/1065 (77.65%), Query Frame = 1
Query: 136 KFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDG---DIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
+F F KM+A LS AAI AF+ SY AL SG +GMI EA I P+ D+ YL+G I+ V+ A L ETVVLKLNGGLGTSMGLDKAKSLL VKGDD+FLD+ AKQV E+R T+ SNVRF+LMNSFSTS DTL++L KYPEL DP LEL+QNKVPKVD T PA TNP+KEWCPPGHGDLY +L+GSGKL++LLA+G+KYMFVSNSDNLGA+LDLDLL YFA S KPFLMECCERTE+DKKGGHLA RK+DG+ ILRESAQCA EDE+ FQ+ DKH++FNTNNLW+RLDKL E ++ GG+I L MIKN KTVDP+D SS VFQLETAMGAAIECF GAGAV VPR RFAPVKKC+DLLLLRSDAYV+ E VLAPERN AP+VSLD K++KLVQQL+AA+ PSL+ CDRL + G+V A VF+G ++VN S E K + PG Y DTTVDLT +GL L V+ + T+PI QKPGTSGLRK TK FME YLHNFVQ+ FDAL DV GTL++ GDGRYFN AIQII KIA A GV+R+W+GQ+GLLSTPA SAVIRER S AFG FIL+ASHNPGGPDEDFGIKYNCENGGPAPEK+T+ I+ TK+I++ + FP +D + +G VT G+R+V V+V A ++HV+LLK IFDF AIKAL+AR+DFS + DSM GVQGPYA+ VFV+ELGA S L NATPK+DF GGHADPNLTYAK+L++ MG+ SKG K + + P+FGAA DGDADRNMILG RFFVTPSDS+AIIAA A+ IP+F+ KG L+GVARSMPTSGA+DLVAKK+ I FE PTGWKFFGNLMDSKE+ G ED++PFICGEESFGTGS+HVREKDGMWAVLAWLSILA A + P LV+V DIV HWA +GRNYY RYDYE V A M M A F G ++ GF++ ADEF Y DPVDGSV++ QGIR + DGSRV+FRLSGTG GAT+RMYIEKYE +L Q + AL+ L+A+GL+LS L + TGR PTVIT
Sbjct: 3 QFSPFRAKMQAAGLSEAAIKAFEYSYEALVSGETGMIAEADIAPSDDIAYLEGRPGSIRESVTADPALLKETVVLKLNGGLGTSMGLDKAKSLLTVKGDDTFLDIMAKQVTELRSTYASNVRFVLMNSFSTSADTLEYLAKYPELVEDPELELLQNKVPKVDAATFAPATLATNPSKEWCPPGHGDLYPSLAGSGKLEKLLAQGVKYMFVSNSDNLGASLDLDLLTYFAQSGKPFLMECCERTENDKKGGHLASRKADGRLILRESAQCASEDEADFQNIDKHRYFNTNNLWIRLDKLAEELEKQGGVIRLPMIKNAKTVDPKDASSTAVFQLETAMGAAIECFDGAGAVCVPRTRFAPVKKCDDLLLLRSDAYVITEDQRPVLAPERNNVAPIVSLDGKQFKLVQQLEAALRGNVPSLVKCDRLKITGNVGFAAGVVFEGAVTVVNSSDEKKTVLPGVYKDTTVDLTAQKGLGPLKVSTLKTSPIPDQKPGTSGLRKKTKTFMEGHYLHNFVQSVFDALPTK--DVQGGTLVVSGDGRYFNKDAIQIIAKIAVAAGVDRLWIGQNGLLSTPATSAVIREREGGSV-AFGAFILSASHNPGGPDEDFGIKYNCENGGPAPEKVTDEIFAITKSIASIAIAQDFPTIDTSVVGKTTVTADDGSRAVVVEVFDAAEDHVELLKKIFDFEAIKALIAREDFSFVLDSMWGVQGPYAQRVFVEELGAPASSLINATPKEDFNGGHADPNLTYAKELIQHMGVDSKG-KPVTGQAAEPPAFGAAWDGDADRNMILGSRFFVTPSDSLAIIAANAHVIPFFQKKG-LRGVARSMPTSGAVDLVAKKLGIALFEVPTGWKFFGNLMDSKEIYGKEDYTPFICGEESFGTGSNHVREKDGMWAVLAWLSILA-AKQTPGAP-LVSVADIVASHWAEFGRNYYCRYDYENVDKAGAEAMFAKMTA-FEGVVGKQLHGFTVKVADEFTYLDPVDGSVSAHQGIRYIFEDGSRVIFRLSGTGVAGATVRMYIEKYEPPSGELGQDAATALAPLIAVGLELSDLVKATGRNTPTVIT 1059
BLAST of mRNA_P-littoralis_Contig161.61.1 vs. uniprot
Match: A0A7S3Q0F0_9STRA (UTP--glucose-1-phosphate uridylyltransferase n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3Q0F0_9STRA) HSP 1 Score: 1342 bits (3472), Expect = 0.000e+0 Identity = 693/1055 (65.69%), Postives = 823/1055 (78.01%), Query Frame = 1
Query: 160 MKAEKLSPAAILAFKNSYAALSSGSSGMIEEASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKSLLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFL-KKYPELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALSGSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCERTESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLWVRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIECFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAAPVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGTCSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPGTSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFNDKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCFILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEAFPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKALLARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHADPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGDRFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMNINFFETPTGWKFFGNLMDSKEL-GGEDFSPFICGEESFGTGSDHVREKDGMWAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVAADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGIRILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLVALGLKLSQLRELTGRENPTVIT 3318
M+AE ++ +AI AF++++ +L SG++G+I E+SI P+ D+ D VS A L ETVVLKLNGGLGT MGLDKAKSLL VKGDD+FLDLTAKQV +MR+ + NV+FMLMNSFSTSEDTLDF +KYP++ + LE++QNKVPK+D T EPA ++ + EWCPPGHGDLYAAL GSG+LD LL G KYMFVSNSDNLGATLDL +L +FA D PF+MECC RTE+DKKGGHLA RKSD Q ILRESA CA EDE AFQD KH+FFNTNNLW+RLDKLKE ID GG IPL MI N KTVDP+D SS KV QLETAMGAAIECF+GA A+ VPR RFAPVKKCNDLLLLRSDAY +N F L P G APV+SLD+KKYKLV L+ A T+G PSL+ C R TV G V+M+ T G S+VN S E K++P GE ++DLT++ GL AL +ST+PI GQKPGTSGLRK TK F+ + YL+NFVQATFDA+KA+GTD+++G+LLIGGDGRY+ND AIQ I+K+ ANGV R WVG+ GLLSTP+ SA+IRERGP QKAFG FILTASHNPGGPDEDFGIKYNCENGGPAP+ LT IY NT TI+ YK C +FPE+D+T +G+ VT G+ VTV+V+ T+ V LLKTIFDF+AIK+LL R DF+++YDSMHGV GPYAKAVFVDEL S NA PKDDF GGHADPNLTYAK+LV MGL KG K E++G +P+FGAAADGDADRNMILG +FFVTPSDS+AIIAA A+ IP+FK++GGLKGVARSMPTSGA+DLVAK +N + FETPTGWK+FGNLMDSK + GG+D++PFICGEESFGTGS+HVREKDG+WAVLAWLSI+A N D A + LVTVEDIV +HWA YGRNYY R+D+EGV SA M+D MR+ A TG + ++IA AD+F Y DPVDGSVA +QG+R LM DGSR++FRLSGT GAT+RMYIE+YE + LD SEAL LVA+ L L ++ G E PTVIT
Sbjct: 1 MEAEGIASSAISAFQSTFDSLVSGNTGIIPESSISPSPDLVESDSIT---VSPDTALLSETVVLKLNGGLGTGMGLDKAKSLLKVKGDDTFLDLTAKQVKKMREDYGFNVKFMLMNSFSTSEDTLDFFAEKYPDIRTEEGLEMIQNKVPKLDATTYEPATCESDTSNEWCPPGHGDLYAALVGSGRLDALLEGGYKYMFVSNSDNLGATLDLKILTHFAKEDTPFMMECCARTENDKKGGHLAVRKSDKQLILRESAMCADEDEPAFQDITKHRFFNTNNLWIRLDKLKEIIDKFGGFIPLPMILNNKTVDPKDGSSQKVVQLETAMGAAIECFQGASAIVVPRTRFAPVKKCNDLLLLRSDAYSINSDFIPELNPACGGKAPVISLDSKKYKLVGALEEATTAGIPSLVNCSRFTVKGLVRMSKKTTIVGDVSVVNSSDEAKLIPTGEVKGVSLDLTDSLGLGALKADSISTSPIAGQKPGTSGLRKKTKEFIGENYLNNFVQATFDAIKASGTDISEGSLLIGGDGRYYNDVAIQTIVKMGIANGVTRFWVGKDGLLSTPSVSAIIRERGPVWQKAFGAFILTASHNPGGPDEDFGIKYNCENGGPAPDALTESIYSNTTTINEYKICNSFPEIDITKVGSTCVTSDDGSSEVTVEVIDTTETSVKLLKTIFDFTAIKSLLDRPDFTMIYDSMHGVNGPYAKAVFVDELNQPESSCFNAVPKDDFNGGHADPNLTYAKELVARMGLNKKGEKI-EVDGP-IPTFGAAADGDADRNMILGTQFFVTPSDSLAIIAAYADAIPFFKAQGGLKGVARSMPTSGAVDLVAKDLNFDLFETPTGWKYFGNLMDSKAIYGGKDYTPFICGEESFGTGSNHVREKDGIWAVLAWLSIIASENPD-ASKPLVTVEDIVTRHWAKYGRNYYCRWDFEGVDKVSATAMVDKMRSETASNTGKVIGKYTIATADDFTYVDPVDGSVAKKQGLRFLMADGSRIIFRLSGTAGSGATVRMYIEQYEPNI--LDTPVSEALEELVAVALGLCDIKSFCGTETPTVIT 1047
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D8LN90 |
| Preferred name | PGM2 |
| PFAMs | PGM_PMM_I,PGM_PMM_II,PGM_PMM_III,PGM_PMM_IV,UDPGP |
| Model size | 4589 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00002,RC00408 |
| KEGG ko | ko:K00963,ko:K01835 |
| KEGG Reaction | R00289,R00959,R01057,R08639 |
| KEGG Pathway | ko00010,ko00030,ko00040,ko00052,ko00230,ko00500,ko00520,ko00521,ko01100,ko01110,ko01120,ko01130,map00010,map00030,map00040,map00052,map00230,map00500,map00520,map00521,map01100,map01110,map01120,map01130 |
| KEGG Module | M00129,M00361,M00362,M00549 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000271,GO:0003674,GO:0003824,GO:0004614,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005829,GO:0005886,GO:0005975,GO:0005976,GO:0005977,GO:0005978,GO:0005982,GO:0005996,GO:0006006,GO:0006012,GO:0006073,GO:0006091,GO:0006112,GO:0008150,GO:0008152,GO:0009056,GO:0009058,GO:0009059,GO:0009250,GO:0009507,GO:0009526,GO:0009532,GO:0009536,GO:0009570,GO:0009581,GO:0009582,GO:0009590,GO:0009605,GO:0009628,GO:0009629,GO:0009987,GO:0010035,GO:0010038,GO:0010319,GO:0015980,GO:0016020,GO:0016051,GO:0016052,GO:0016853,GO:0016866,GO:0016868,GO:0019252,GO:0019318,GO:0019320,GO:0019388,GO:0031967,GO:0031975,GO:0033692,GO:0034637,GO:0034645,GO:0042221,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044042,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044262,GO:0044264,GO:0044281,GO:0044282,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0046365,GO:0046686,GO:0050896,GO:0051606,GO:0055114,GO:0071704,GO:0071944,GO:1901575,GO:1901576 |
| Exons | 25 |
| Evalue | 0.0 |
| EggNOG OGs | COG0033@1|root,COG4284@1|root,KOG0625@2759|Eukaryota,KOG2638@2759|Eukaryota |
| Ec32 ortholog description | UTP--glucose-1-phosphate uridylyltransferase family |
| Ec32 ortholog | Ec-16_004100.1 |
| EC | 2.7.7.9,5.4.2.2 |
| Description | UTP:glucose-1-phosphate uridylyltransferase activity |
| Cds size | 3219 |
| COG category | G |
| BRITE | ko00000,ko00001,ko00002,ko01000 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789777.9847832-UTR-P-littoralis_Contig161:184154..184256 | 1680789777.9847832-UTR-P-littoralis_Contig161:184154..184256 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig161 184155..184256 + |
| 1680789778.2752123-UTR-P-littoralis_Contig161:212891..214159 | 1680789778.2752123-UTR-P-littoralis_Contig161:212891..214159 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig161 212892..214159 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789777.9986863-CDS-P-littoralis_Contig161:184256..184262 | 1680789777.9986863-CDS-P-littoralis_Contig161:184256..184262 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 184257..184262 + |
| 1680789778.0091093-CDS-P-littoralis_Contig161:184599..184644 | 1680789778.0091093-CDS-P-littoralis_Contig161:184599..184644 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 184600..184644 + |
| 1680789778.021747-CDS-P-littoralis_Contig161:186380..186449 | 1680789778.021747-CDS-P-littoralis_Contig161:186380..186449 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 186381..186449 + |
| 1680789778.032868-CDS-P-littoralis_Contig161:186935..187027 | 1680789778.032868-CDS-P-littoralis_Contig161:186935..187027 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 186936..187027 + |
| 1680789778.0446713-CDS-P-littoralis_Contig161:188218..188357 | 1680789778.0446713-CDS-P-littoralis_Contig161:188218..188357 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 188219..188357 + |
| 1680789778.0568461-CDS-P-littoralis_Contig161:188804..188942 | 1680789778.0568461-CDS-P-littoralis_Contig161:188804..188942 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 188805..188942 + |
| 1680789778.0673573-CDS-P-littoralis_Contig161:189228..189360 | 1680789778.0673573-CDS-P-littoralis_Contig161:189228..189360 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 189229..189360 + |
| 1680789778.076804-CDS-P-littoralis_Contig161:190165..190293 | 1680789778.076804-CDS-P-littoralis_Contig161:190165..190293 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 190166..190293 + |
| 1680789778.0868075-CDS-P-littoralis_Contig161:191291..191447 | 1680789778.0868075-CDS-P-littoralis_Contig161:191291..191447 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 191292..191447 + |
| 1680789778.0988958-CDS-P-littoralis_Contig161:192338..192444 | 1680789778.0988958-CDS-P-littoralis_Contig161:192338..192444 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 192339..192444 + |
| 1680789778.1093566-CDS-P-littoralis_Contig161:193002..193178 | 1680789778.1093566-CDS-P-littoralis_Contig161:193002..193178 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 193003..193178 + |
| 1680789778.120804-CDS-P-littoralis_Contig161:193452..193609 | 1680789778.120804-CDS-P-littoralis_Contig161:193452..193609 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 193453..193609 + |
| 1680789778.1304326-CDS-P-littoralis_Contig161:194930..195024 | 1680789778.1304326-CDS-P-littoralis_Contig161:194930..195024 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 194931..195024 + |
| 1680789778.1385155-CDS-P-littoralis_Contig161:198280..198381 | 1680789778.1385155-CDS-P-littoralis_Contig161:198280..198381 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 198281..198381 + |
| 1680789778.1466608-CDS-P-littoralis_Contig161:199279..199434 | 1680789778.1466608-CDS-P-littoralis_Contig161:199279..199434 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 199280..199434 + |
| 1680789778.1594512-CDS-P-littoralis_Contig161:199624..199769 | 1680789778.1594512-CDS-P-littoralis_Contig161:199624..199769 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 199625..199769 + |
| 1680789778.1713321-CDS-P-littoralis_Contig161:201589..201781 | 1680789778.1713321-CDS-P-littoralis_Contig161:201589..201781 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 201590..201781 + |
| 1680789778.179657-CDS-P-littoralis_Contig161:202275..202410 | 1680789778.179657-CDS-P-littoralis_Contig161:202275..202410 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 202276..202410 + |
| 1680789778.1878445-CDS-P-littoralis_Contig161:203129..203303 | 1680789778.1878445-CDS-P-littoralis_Contig161:203129..203303 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 203130..203303 + |
| 1680789778.1997852-CDS-P-littoralis_Contig161:203824..204028 | 1680789778.1997852-CDS-P-littoralis_Contig161:203824..204028 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 203825..204028 + |
| 1680789778.211202-CDS-P-littoralis_Contig161:207499..207580 | 1680789778.211202-CDS-P-littoralis_Contig161:207499..207580 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 207500..207580 + |
| 1680789778.2196925-CDS-P-littoralis_Contig161:207966..208098 | 1680789778.2196925-CDS-P-littoralis_Contig161:207966..208098 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 207967..208098 + |
| 1680789778.229734-CDS-P-littoralis_Contig161:208775..208941 | 1680789778.229734-CDS-P-littoralis_Contig161:208775..208941 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 208776..208941 + |
| 1680789778.2456434-CDS-P-littoralis_Contig161:210123..210277 | 1680789778.2456434-CDS-P-littoralis_Contig161:210123..210277 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 210124..210277 + |
| 1680789778.2639763-CDS-P-littoralis_Contig161:212749..212891 | 1680789778.2639763-CDS-P-littoralis_Contig161:212749..212891 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig161 212750..212891 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig161.61.1 >prot_P-littoralis_Contig161.61.1 ID=prot_P-littoralis_Contig161.61.1|Name=mRNA_P-littoralis_Contig161.61.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1073bp
MSAEMTPEAAAKFKLFEDKMKAEKLSPAAILAFKNSYAALSSGSSGMIEE
ASIDPATDVPYLDGDIKGKVSGGEAYLPETVVLKLNGGLGTSMGLDKAKS
LLPVKGDDSFLDLTAKQVIEMRKTFKSNVRFMLMNSFSTSEDTLDFLKKY
PELANDPNLELVQNKVPKVDVKTMEPAAWPTNPAKEWCPPGHGDLYAALS
GSGKLDELLAEGIKYMFVSNSDNLGATLDLDLLAYFATSDKPFLMECCER
TESDKKGGHLAKRKSDGQFILRESAQCAKEDESAFQDTDKHKFFNTNNLW
VRLDKLKEAIDASGGLIPLAMIKNGKTVDPQDDSSPKVFQLETAMGAAIE
CFKGAGAVAVPRYRFAPVKKCNDLLLLRSDAYVVNEHFNIVLAPERNGAA
PVVSLDTKKYKLVQQLDAAMTSGTPSLIGCDRLTVAGDVQMAGNTVFKGT
CSIVNKSGETKMLPPGEYTDTTVDLTEAEGLEALAVTDVSTTPIDGQKPG
TSGLRKPTKLFMEDPYLHNFVQATFDALKATGTDVTQGTLLIGGDGRYFN
DKAIQIIIKIAAANGVNRMWVGQHGLLSTPAASAVIRERGPESQKAFGCF
ILTASHNPGGPDEDFGIKYNCENGGPAPEKLTNLIYENTKTISTYKSCEA
FPEVDVTALGAVEVTGAAGARSVTVDVVSATKEHVDLLKTIFDFSAIKAL
LARDDFSVLYDSMHGVQGPYAKAVFVDELGADPSCLSNATPKDDFGGGHA
DPNLTYAKDLVKAMGLTSKGAKNPEMEGKKVPSFGAAADGDADRNMILGD
RFFVTPSDSVAIIAAQANCIPYFKSKGGLKGVARSMPTSGALDLVAKKMN
INFFETPTGWKFFGNLMDSKELGGEDFSPFICGEESFGTGSDHVREKDGM
WAVLAWLSILAEANKDPAQQKLVTVEDIVRQHWASYGRNYYTRYDYEGVA
ADSANQMMDHMRAHFAEWTGAEMDGFSIAKADEFEYKDPVDGSVASRQGI
RILMVDGSRVVFRLSGTGSVGATIRMYIEKYEKDDDKLDQVPSEALSGLV
ALGLKLSQLRELTGRENPTVIT* back to topmRNA from alignment at P-littoralis_Contig161:184155..214159+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig161.61.1 ID=mRNA_P-littoralis_Contig161.61.1|Name=mRNA_P-littoralis_Contig161.61.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=30005bp|location=Sequence derived from alignment at P-littoralis_Contig161:184155..214159+ (Pylaiella littoralis U1_48)
TATAAGTTCAGCAGCGTCCCCTCCGCCGTGCACGTGCTCGTCCTGCTCGC
TGCACTGCTGTTTTACCGCGCGTACTTCACCCCCAGCACCAACGAGGGCA
CCATGTCTGTGAGTTTCTTTTCTCTTTCGTTTTACGCAAGCAGAGACAGA
CGAACACAGCGGAGGATGGAACCAACACGTGCACATGTGATGTAATGTTT
CGCTCCCACATCCACAATGGCTCGATGACACCTTGTGCTAAAGCCCCCGA
CCCTGTCAGCTGTCAACGGCACTCATTCAGGGAGGGAGACGTGCATGCCG
CTCTCTTTAAGCTGGAGAAACAACAACTTCTGGTGTGGTGGTGGACCCCC
TGTTCGGTGTCGAATCTCTCAGTCCATTAGCAGAATCTCACTAATCCCTC
ATCTCGCCACGGCTCTGGTTTCCCGATTGCCCCCCTGTTTTTCAGGCCGA
GATGACTCCCGAAGCTGCCGCCAAGTTCAAGCTCTTCGAGGTGAGCACTG
CTAGGGCGAGGCAGACAGGAGGTAGACAGACAATCAGGCAGGCAGCACGC
TTTCTCTCTCTTCGCTCCACAAATGAGGCAGCATGATAGTATCAGGGCGA
ATGAACAGGCATATCTCGTGTACCGGCACAAATCCAGGACACTTTTCTTT
CATACGAGTACAGCAGTATGCACGTGCACACGTTCGTGTCGCTCATTTAA
GCGTAGCACTCAAGGGGGAAAAGAGCCGGCAGCTGGATCTGTCTGATCTC
CAGGTCTCCGGTGCCTGTGTGCGTGTCGTGCGAAGTTTTGCGGGGACCTC
ATACTGGGTGTAGGTTTGAGGCACACCTACTTGTGGAGGGAAGGTATGCT
GTAGTTCTCTCCTGTGCGTCCCTACTGGGTGTATCCGCACTGCGAGCACA
TCGTAAGTACGGAGTAAAAAATATACGGAGTACTTCGTACTTCGAAGTAC
AGCAGGTACTTCGTACACACGTACGATACCTCATCACACATGTGTCGAAG
GGCAACAACGTGTATCAACAGTTGTCTGCACACACCCGCCTATTCGTCTG
CCTGTCTTGTCTTCTCTCTGGCATACGTAGTCTGATGTGGGGCGTATTGC
CGGCGTTGGTTCCGCAAAAGAATTGCGGCCCGCCAAAGAAACGATTACAA
CCTGTCCCATCTCCAGGTTTGTCACGAAAGAGGGTACAAATGCGTTTCTT
ATCAACAACACCGCAGTACCAAATTTTTCAGTGTCTTTGAGTTCTCCCCT
TTTTTTTGAGATTCTGGCTCCATCTAGCCTCGATGCCTGTCTGTACATCC
GTGTATATAGCATGCGTTTGTTGTTTGACCCTCCCTCAGAAATACTTCAA
AAAAAGTACAGCAGTACGAAGTACAGCACAGCTCGGTACGACGTACTTAC
CTTACTGGTGTGTACTCCTTTACATCTGGTTATTGGTATGTAAAGTACCA
AATCTGGTATTTGCACTTCGAAGTGTCCTGCTTGACCAACCTTGCTCACC
CTGCGTGATCCCCAGCGGGTACGCCCAACTTATATCGACGATATAGACTG
ACGTTCAAAGTCAATGGGATGACAAGACATATACATACGCATGTCTCTCT
CTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACACACACACA
CGCACACACGCACACACACAGACACACAGATACACACGCTGTTTTCCTGC
TGCTGCAGTATCCAACGGATGTCCTACTCCTGTTGTACAAGTACTTCGTA
CGAGTGTACGTTTGAAAAAGGAAATTACAACTTTTAGCACAATGTAATGC
GAGGCGAGAGAAAGATTACGTAATGTGGGTACATGTGATGTGAAATGTAT
ACGTACATGCAACAGGAGTGACCCGCTTCTCGAATATGTACAACAGCTGG
TGTACAAAATCTCGATGAGGGAAGCGTTCTCTTGCAAGTAGTGCTGTTGT
TGTCTCCATCAAAAGATCAAGAGAAAAGCCTGAAAAGAACCGCAAGCACT
GGCGTAGCACAATCGAGAGACTACGGTAAGTAGTATCACCTGTGCTGCTG
TTGTATGACATTACGCCATATTTTTAACAAATGTTCTCGGTGCGGAATGT
TGTGACATGAACGACATCTCAATTCCAACACAACGACTTACATATGCCTC
GTAAAATGTTAAAATGTTTCCATGCCGCTTCCCGCTGTTCGTATACGCGC
CGTTATGCTCGCTTTGGACACGGCAGGACAAGATGAAGGCGGAGAAGTTG
AGCCCCGCGGCTATCCTGGCGTTCAAGAACTCCTACGCTGCTCTGGTGAG
ATGAGGAACGAAATAGCTTTAAAGTTCCCGGTGTGTTCGTCATTTTTTGT
AGCACTTCATATCGTGCACAGATGAGAGCAGCAGCTCCACAACAGAAAGG
TGTTGACAGGGCTGATTCGCTTCATTAAACCGTCTGTTCGGCGGGATATT
TTTGGTGTGCGTGTGCGTGTGCGTGTGCGCTCAAAAACGCATGGAGGCAC
ATGATGTGGTCATGACAAAGCACGCGAGGCGCACGAACCACTGCTGCCGT
TGTGGCACTCGCCACCGACATCCTGCAGAAGCGAAAAAGTGGTAGTGTTT
TGACCCCAACCCCTTTGCCCCCTCGCACCCACATCACGACCATCCTGCCG
GTGCCCCCCCCCCTGCCTTGCGCCTGGTCTCTGCACACCTATTATTACGC
GGTGCTGTTTATTTTTGATTTGTTTACGGGGATGCGATGCGATGCGGCGG
TGTATCGTCACGTGACGTGACGCGAAAAAAGTCCTCCGGATCTTCTGGTA
TGATCGAGGAAGCGTCCATCGACCCCGCGACCGACGTGCCGTACCTCGAC
GGCGACATCAAGGGCAAGGTCAGGTGAGAGCGGAGACCGACAACAGAACA
CAGGGTTGCGTTCAGGTAAGACATATGCCCCGCCTAGATTTTCGGGAACC
GGGTACCCGTCTGGGCTCGAGGAGGTGGTACCGACCGGGTACCTGGGTAA
TTGGGAAATGGAATACGGTGCCCCCTCCCCTCCGGAGTGGTGAAATACGG
CACTCCCCCGAAACAAGGGGGCGTCGTGTGTGATGTTCACGGGGGTACCC
CGTTATCGAAGGGGCACCGTATTGCGATTTAAATTATCCGGGTAGCAAAT
ATGCTACCCGGTACCGACCTGGAAGTGCCGGTACCGGGTACCCGGGAAAT
TTTGAGACGGGGCATATGTCTAGTTCAGGTACGATGAAATCATGTGGCGT
TCGTTGCATTCCAATTCGTGTATCATATGATCGTACATACGTCTTATCGA
CGCACAAAAATAATCTCATCGTAAAATAGATGCTGTAGATGCCATGTATG
TGTATGTGGGTGTTCGTTGACTTTCAACTGTTTTTCGGGAAGTTTTTGGG
AAGACGAACGGTGTGCATCAAAATCGCACTTTTTCACGGTGTGTCGGTCG
ATCGAGCGGGAACAGCCGGGGAAGTAGTGTCGCCCAGGTGCGGCACTACT
AACACGATATCGTGTTGTGGAGGTATGTATGTATGCGGTGCTGTTGACGG
GTGTAATCTTTGGACCCAAAACGGGGGGAAGGTTAACTGTATTCGTACGA
TACGTACGTCGCCACCGAAGTACTCCGTACAACCGTCGGGGAGCGTTTGG
TTTTGGATTTCTAGATGGAAGGACCACTCGGGGCTAAAGCAAGCACGTCC
AAGTGTACCATCCAACAAACGAACAAAAAGTCACCATGCATGAATTTCCT
CTGCTTTTAGAGCACGCGAGTGACCAAAAATTGTCGTACTGTTTGACACT
CTCTCGAACTTGATATCTACATTTTGGGCGTAATCAACACAAATTAAAAG
TTACCTCAGCTACAAAAATCCGGGGTTACATGTATGTGTATGGGCGCATC
TTCAGTCTCCGAAGTGAATTGGAACGCAAAACCTTTCCTCCGAGTCTCCA
ACACGATCACCAATCACCACGTGAACACTGCGTTGCCGCTCCTCCTCGCC
TTCCTCCTGCTCCCGCGAACTAAAAACACGCCCCATGCAACAACAACAAC
AACAACAACAACAGCGGGGGCGAGGCGTACCTTCCCGAAACCGTGGTGCT
CAAGCTGAACGGCGGCCTTGGTACCTCGATGGGCCTCGATAAGGCCAAGT
CCCTCCTGCCGGTGAAGGGGGACGACAGCTTCCTCGACCTCACGGCGAAG
CAGGTAAATACGTACGTTCCTTCGAAGTATTCAACAGCGTTTCTCACTCT
GTTTGAACACTGTTCTCACCTCTGTGAAGCGCGATCGTGCTAAACTTTGT
TACAGGAATTGTGGAGGAAGTGACCTTCGTAAAAAGGGTACACCTCCACA
ACGTCTGTTGAAAGACGGATCCCCCCTTGCACATTGGCGTCGACGAATGA
GTGAATTCCGTGTATCTCTTTTCTACTTGGAATTGATTGGTAGCTCTCCA
CTTTGCAGTTGCGCTACAGTATCACATGATGCTGCCATCGTAAAATTGAT
TCCTGTTGACCGCGGGTGAATTTTTGTCGACTGCGGGTAAATTTTTTGTT
CTTGCGGTCATGCATGCGCACGATCGTTTTTAAAAAAAAAGCGTCTTCTC
TGAACCCGTTTTGTTTCTTGTATCATACATATGACCTACCAAACATTAAG
GTGATCGAGATGCGCAAGACTTTCAAGAGCAACGTCCGCTTCATGCTGAT
GAACTCCTTCAGCACCTCGGAGGACACGCTCGACTTCCTCAAGAAGTACC
CGGAGCTGGCGAACGATCCCAACCTTGAGCTTGTGCAGGTGCTTATTTTG
CTTATCTTTGTCGATGATGCCTGTGTATAGTGGTCGTGGTTGTAGAAGCA
CCAAAAAAAGGAAAATTTGGTGTCTATTTACACTTCATGTCTAACGGAAC
CAGCAGACCTTACCGCTGTAAAATCAAAGCTCTCCGGGTTTTCTCGCCTT
GGAAGACCTTCATTGTATGGCCGTCTCCCGTACGCTGGCTGATGTTTTGT
TTGTTCCATTTTGTTCCATGTTTTTTATTTATATATTTTTTCTGTTTTGT
TTTGTTTTGTTTTGTTTTTTTCAGAACAAGGTGCCGAAGGTGGACGTGAA
AACGATGGAGCCGGCGGCGTGGCCCACGAATCCGGCAAAGGAGTGGTGCC
CCCCCGGCCACGGCGACCTTTACGCCGCGCTTTCCGGCTCCGGAAAGCTC
GACGAGGTATGTACGACAAAGAGGCCTTTCTCTAGTGGCACGGGTGGGGG
GGGGGGTTCAGGGGATAGTTGACGGACGTAGGGGGGAGGGCGGAGGGGGC
GATGTCAGGGGGATATAAGATAGTTGACGATTGATCTGTTTTTTTCGTTG
GCGGAGACTTGACTTGGCCACTGATACCTGCAGTACATTTGAGGTTATAG
TGGGTCGAAGACGGGATGGGGTGCGTGCTGTGGATTTATGGACTGCTGTG
TGCGTATGTATGTAGTGTTTGTGGTGTGTTGTCGACAGGGTTCGGCTGGG
GGAGGAAGGCAGCCGCGATCGACCTACATACTATAACCCTGCTTGATGCT
TGTTTCCGCACCCCTGATTTCTAGCTTTCTAAATTAGGCATTATATATAT
TCCCTGTCGTTGTGGTTGAATTGTTGAATACTTGGAAGCATGTGCCAATC
AGCCCTTCTCGCTTGTTGTGCCCCTCGTCCCCCGTCCCCCTGCTTTTGTA
AAGCGATGCGCTTTTTTGCAGTTGACGTGCATACCTTCTGTAAAGGAATC
TCTGGGCTCAGTGTCAAAATTAAAAATTTTCTTTAGCCGTGTTTGAACCA
CGCTTGTTCCTCTCCCCCCCCCCCCCGCACGCGCTTCTCGCTTATAGTGA
AACGTGTTTTGACTGTTATTGTTGGGCATACCTTTTTTGTCTGGACAGCT
CTGGGCTGAGGAATAAGTTCCCACCACGCTTGTCCGTTGTCCCCGCCACT
CCTCTGCCTTTTTTTATAACGTTACGATACGTTTTTTTTTTTCTATTCTT
GTCTTCGACAGCTCTTGGCGGAGGGAATCAAGTACATGTTCGTGTCGAAC
TCGGACAACCTGGGGGCCACCCTCGACCTCGACCTTTTGGCGTACTTCGC
CACCAGCGACAAGCCTTTCCTCATGGAGTGCTGCGAGCGGTGAGTTTTTT
AAGATCAGGCTCGGTGATGATGGACGATGGGTGATTCCTTTGCTGATAGG
TGTGCTGGTCTCGACCTAGCGTTGGCTTTTGCGGCGGGGGGGCACGCGAT
ATACAACGGTTATCATGGGGGTGACATGGCGGGGAGTAGGCAGGCACGTG
GCCCAGCGGAAGCCTGACGAGTGGTCTGGTTCAGTTCAACCTTTAGTAGA
GTCGGTCCAGAAAATGGTTTGCATCAAAGTACGTCTGTCCTGCATGTCGT
GTTCGCTCATCTTGAACAACATCGTGAAATTGGACAAAGCGAACGACAAG
CGGCCTACCCTTTCAAAACACGTTGTACGTTTATTTTTCGATTGACGTTT
ACAAAACTGGTCACATTTTTGGTTTAACGTTTGTTTTTTTTTATTATTTA
TGTCATTACTTAGTTCTCTAAAAGAAAATGTACCACAACGGGGAGCGTCG
AGAAGGGTGAAAACTCTCTTCCAGACTTCGCACTTTATTTCAAAAATGAA
AAAATCACCATAAAAAGTGTACTTGGTATTTTTTTTTTCCCGTTCTGTAC
TGCTGTAATACTTATTTCTTCAAAGTACGAATTATCTTATCAGGACGTAC
GTAGATCGTCAAGAAGGGCTTACTTTTGCTGCGAATATCATGATACTATT
TATAGATTTCTTACTTTTGGATCTTATTTTTGTTTGTTTTTTTCCGTTCC
CCACTTTATTTTTTTTGAACTAGGACGGAGAGCGACTACCACAAGTACAA
GAGCTACATTTCACCGTGAACATTAACATCATGACGGATAATATATACTC
GGAAGTATGCTTTTTTTTTAGTGATCCATTCCCCGTTTTCCTTTCTTTTT
CATCGTGAGCACGAAGAGCCACAAGAAGCGACCAATTTTGCCCGCGTGGA
TGTTTTTCTCTTGAGAGAATGATGCATACGTATTTTTTCAATGTTCTTTT
TTCCTGCCTCTTTTTTTTTTTCCTCTCTTGTTATCAGGACGGAGAGCGAC
AAGAAGGGCGGCCACTTGGCCAAGCGGAAGTCCGACGGGCAGTTCATCTT
GCGCGAGTCTGCGCAGTGCGCGAAGGAGGACGAGTCGGCCTTCCAGGACA
CCGACAAGCACAAGTTCTTCAACACCAACAACCTCTGGGTTAGGTAAGGG
TCGGTTGCATTCCAGTGGAAACCCAGTGGAAGGGGGGTGGCGGGGGGGGG
GAGGGGGGGGAGGGGGGGCTGCAGATGGTGTACTCTATCTCTACCTTACC
CTCGTGATCATGCGAGGCCCTGTGACGCTAGATTCGGAGTTGTATCGACC
GCCCATACTTGACAAGCATGTGGAAGTCCATTAAATTTGGAGTTTCATTT
TGTGTGTGGCACAGGCAGCCGTCGGCAAGGTAAGACGACGAGTGTGTACC
TCTGGTGTGATACGATTTCCGTGTTCGGGAGAGAAGATATACGAAGTATG
TTTTTGTTACGTATCGTTTTCTCACCAAGGACGCGAAAGGGTCCAAATTC
ACGGCAAACATTTTGGTTTTAAACTTCGTGCTTGCATTTCTGGCTTGCTC
GCTCCCTCAATTGGAACATGGTCGGTCGGAGTATCATCACTCGGTTTTCG
ATCGCACCAGTGCAAATCCAAATATCGCATCGATTTTTCTGGAATTTTTG
GTCTTGTCTTGATCTACCCATAAAATACTTGGTTTGACCTACCTTCGAAG
TATATATTAATACAAATGATGATTTGGAATTATACTCCGTATCATTTAGT
GAGCGTCTCCTGCCTAAAAAACGGGAAGGATTGAAAAATACTTACCCCCC
CAGTATCCGTGTTGGGAACACAACGAAAACGAAAAGAATCTCCTGCGTTG
ACTTATTCCCTGTATAACCCACGCTGGTGCACCCTACAAGCACCGAGAAG
CCGTAGACTGGTGTCTACGAAAGATGGATGGGATGACAACACACCCGTAC
AGAAAACAGTCGGTTAAAACAAATTCAAGTATGTCATGCCCTACTGCTGT
ACTGTATGCGTGGACCCTTTTGCTATTATCGCAGGCTGGACAAGCTGAAG
GAAGCCATCGACGCCTCCGGAGGCCTGATCCCCCTGGCGATGATCAAGAA
CGGCAAGACCGTCGACCCGCAGGACGACTCCTCCCCCAAGGTGGGCCGCT
AACTTTCACACTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCGAGCGTCTGTTGTCTCTCGTCGCGCGTTTACGTTTAC
GTTTACGTTTACGTTTACGTTTACGTTTACGTTTACGTTTCACAAAATGG
GATGCTTACCCCCCTCTCCCTGCAACACGCATCGTACCGGTATTTCGTGC
GCCATTTTTTCGTGACGTCTCTCTTGTCTTTTCGTACGTATGTATGGTCC
TCCTACCATGTATGCTGCTGTGCAAGGCTTCGCCGCCTGTGGTCAGAGGA
ACCCATGGTTGATGTTGTGTTGGTTGCTCAGAGCGCTCTGTACGTACATG
TTTCTCATGGTTTGTCTTCTTCGATGACGTCTTGCTGGGCCCGGCCCGGT
CGCACGCTTGGCTTGCCGGGACGTTCATATACGCCTCATTTTCTGCCGCC
GCCGCCGCCGCCTCCGCTGCTGCTGATGATGGGGGTGATGGGGATGAGGC
CCCCTGCTGATGCTGCTGCTGCCGCTTCTCGTGCCACCGCCTCCGCAGGT
GTTCCAGCTGGAGACGGCGATGGGCGCCGCGATCGAGTGCTTCAAGGGCG
CGGGGGCGGTGGCCGTGCCGCGCTACCGCTTCGCGCCGGTGAAGAAGTGC
AACGACCTGCTCCTCCTCCGGTCGGACGCCTACGTGGTGAACGAGCACTT
CAACATCGTGCTCGCCCCCGAGAGGTGTGTGCGAGAGGCGTCCGTCGTTT
CGAGTGTCTTGCCCTGCCTACCTGTGGTCTCGGTTTGTGATGCGCCTGTG
GTGGTGCGTGCGTACAGCAGTACAGCAGAACGGTATCATAGCGTCTACGG
TGTACTGTATCTACTTTGTTTTTTGCTGTTTTTCTCCAGCTCAACAACGC
CTACCGATGTTTCCCTTCTGTCTACCTCCCTTCTCCCCTCCCACCGGTGT
TGTTGCTGTTGTTGGTTGCTGTTGCTGTTGCTGTTGCTGTTGTGTTAGGA
ACGGCGCCGCACCCGTGGTGTCTCTGGACACGAAGAAGTACAAGCTGGTG
CAGCAGCTGGACGCCGCGATGACCTCCGGAACCCCCAGCCTGATCGGCTG
CGACCGCCTCACGGTGGCGGGAGACGTCCAGATGGCCGGCAACACCGTCT
TCAAGGTGAGGGAGAGGGCAGGGCGCATGGACCCAAACATGCCTTCCGCT
CATATATCACACCTGATACATTTAGTTTTTCACCTTGTGCCCCTTTCTAT
TCTGGGCCCCAGTCAACCCCTTGTCGGTACTGTACTCGTACCTATTCAGG
AGCATCAGGGGTCACCCAGGAAATATCTTTGTATTTGTGTTTGGTATTGG
CTCATAACCTTTTGGATGTGAAGGAATCGGTTCTGTACGATCAAAAATGG
TTGTTATTCGGGCGTTGGAAATGTCCTTTGTTTTTGGTGTTGGCTTATAA
CCTTTTGGTTGTGGAATAATGGGTGCTGTGTCGAGAGGGTGTTGTTGTTG
TTGTTGTCGTTGTGTCACATGCTGTTCCACATGCACGCCTCCTGCTTCCT
CTTGCGGTGGTTGGGGTCGTCAGTGCTTGTTGTCCCGACAACGAAAGAAG
TCCAGTCGGGTTTTGTGTGCTGTACTGATGATCCGAAAAAAAAATAAAAA
AAAAGTGACGACAATACTCGAACTACCTACAAGTACCCATTCTCAAGGAG
GTGGAATGTAAATATGATTTACACCGAAGATTTATTTCTTTCCGGGGGGG
GGAGGGGGGGGTCGGTGAAAGAGATTTCAGGAAGTACCCACCGGCTGGGT
ATCTTTTTTTGCGGTTGGTGTTGTTGGTGTTGTGGTTGCTGCTCCTGTTG
CTGTTGTTGTTTTGTTCTGTGTTGCTCTTGTTGCTCTTGTTGCATTTGCA
TTTTGATGGGAGTTCTCTCGTAAGCTCATCAGCCAAACTCGAGCCCGTGG
TCACAAACAAGGCGCAAACAATATGGTGTTCGACCTGGAGGAAAGGGTAC
GAGGAAAAATCAATGAAGGCAGATGCCTACCAGTACACTCATGACAACGA
CATACGTGCCACCCGACGAGGGCATCTTTGTGTTGGTACCGAAAACTGCG
AAAGCGCAGAATCGAAATAATTGTGCGTGCTTTTCTGTTCGCCCCCATGA
TGTCGCATGTATCCAGGAAATGTGGAGCATCGTCATCGTCAACAACCCTG
TGTTTCACATTATTTGTCTCAATACCGCTTTCCCGATTTTCCTATGTGGG
TGTTTGTGTTCGTGTGTGTGTGTTTGTATTGTAGTAACACACCTCGTCGT
GAGAAAACGCACAGCGTCAACAATCTTCACTTTTATTTTCTTTTTGTTTT
TCAACTTTTGTTTCGTCGACGGGCGCGTATTTGCATATACTATATCATAT
GATATTATGTGTGTGTTGTGGTAACCACCAGCTCATCCGCTCGTATGTGT
GTATTTTTTTTTTCGTTTCCTTGCAGGGGACGTGCAGCATCGTCAACAAG
TCCGGGGAGACGAAGATGCTGCCTCCTGGAGAGTACACCGACACCACCGT
GGACCTCACCGAGGCCGAGGGTGCGTAAAACGCGCATGATGTGATCTCCA
ATCGTGTCCCATCATCATACACTGCTGTTTCCCAAGTTATTTTTTTTTTT
CTTAAGAGTGGTTGGCGTGTGCCGTACAAGCATGATACTGTACTTCGAAA
TGATTTTTTTTACTCACAGCTGCCTGGTTGACACGTGCCGTTCCCGAGTA
ACATTTTGCACCATCGGGTTTCACACTCTACTCGTACAGCAGTACTGCTG
TGAAGTTGTTCCCCAAAGCGATTTACTCGCCTCCTGGTCAACAAGCGCGT
ACAAAAAAAAAATCAATTCTGCAAAACGCCTTCCCGTATCTTGAACACCC
CCCTCTCGGACGGGGAAATGATTAAGCTGTGAATGGGGCATCATACGGTA
GGGAAGGTATCTTGGCATGTTTTTGTTGGTGGTACTATTGCTGTTGCTGT
TGCCGTTGCCGTTGTCGGGACTTTCTTGAAAAAATATGGTGTATCTGTCA
TAGCCCGCTTGGTGCCGCTGGGGCTAAGTCTGAGCGAAGCCAGCTCTATC
TGGTGCGTGTTTGTGCCCCCCCTGTGTTTTGATTCGGATTACTTTCAAAG
GGCCGCCCGCGCGCCTCCGATCTGCACGTTTCTGATCAGCCTCATTTGGG
TGCGGTCTGTCGGGCCGTCGGTCGCGCGTTGGGGGGGGGGGTTACGGGAC
TGATTATTTATTATCCCAGGTGGGCTGGCGCATTATGCGGCGCTGTGTTA
GATGAACCATTTACGAATTCTGCTGCATCGAAATCGTCAAACATGGGTTA
AAAATTTTTTCAAGCATTATAAAGGAATGCTTCAAGTGTTAACTTTTTGG
CGATATGGATCGAATTATTTACGGGCAGGGAGGGGTAGGGGCCTGGATTG
GAGGGCTTTGGAGGACAGCATCCTTGAAAATTGGGGTCTGGCGAAGGATT
GATTGGTTGGTTGGTTGGTCGGAACGGTTTGGAGGCCGAGCGTCAAGATC
GTGTTAGGATTTCGTAGTAGTCTGTTCCTTCGAGGTATTTTTTTTTCTTT
GTTTTCTGTTTTCTTGTTTTTTTGTTTTGTTCTTGACACATGTCGGGGTT
TTTTTGTTGGTTCGTGCGGAGCCACACCAGTAGTTGGCGTCTTGCTACTG
CTGTAGGCGGCGAATAAAAAATGGACTCTTGACTGCGCAAATAGAAAGAA
AAAGCTCGTGTGCGTCCTTCCTTCTGTGACCCCGGCTGGTGCACCCACTT
CATACCGAAATGTGTAGACCGGTTCGTAGAATAGTGGGGATAAACACACA
CATACATACAGTTCGTGCACGAAAATCAGGACGCAGTTGTTTTTTCCCAT
AACGCCAGTTATCTTGAAAGGCGAATGTGTTTGGGGAGGGCGGGGTAGGT
GTGCTAATCCCCCCCCCCCCTGGTCTGGAAATCATGGGTGCTCAAACGGT
CCTCGCGATAACGCATGGTCTGAGTCCGATCAAGGAACAATTTGTCCGGA
AAATACGTTCTCCCCCCCCAGTGGGGCAGTCTGCGAAAGTCGATGATGTA
CGCAAAAGCCTATGATACCAGCTCTCTTTTTTCAAGAAGAAATCGCGGCT
CCGAGAGTACACACAGAGACAAAGAGACAACGTCAGACACGTGTACACAC
GCTCCTATGCCGTGGGGGGTTGCGCGTTCTCGGCATTCCTTTACGAATCA
GTGACGGCGGCATCTGACATTTGTTTTTGTCCAATTCAGTTTAGTACCGG
CTGGCGCCAACCCGTTCCGTTTTCTTGTCAACAACACCCGCTTTCGTGTC
AGCTCGAGGGACCACCTGCTGCCGCCGGAATGTCATTCACCATTCATTAT
GCATCCTCTGGCATCCCGAGAAACCGGAACCGGCACGCTTTTTTCATTTT
CCTGCGGAAACATACTACTTGAAGTACCATTTACTGCTGTACTTGTCAAT
TTAAAGCGTATGTATTGTGTGCGTTCCGGCGGAAATTTGTTTTTTTTTAC
AGCCGAAGGCCGTGTGTGCACAACGAAGTAAAAAAGCACCGTAAAAAGAA
AAGAGTGCTCGTATTTTTGTCGATGTCAGATACGCACAGCGGTACGGTAA
GAGTCTTTGCTGGCTGGGCCGATGAAGGGTGCTCAAGGAACACATGGGAC
AAAAATACCCTCGGACGTAATCATTTGTTTGCCCGAAGGTCGCTACATTT
CTTTTTTTGTTCACGATGCTTGTTCGTGGGCAGAGTGCAGGAATTTCGGG
ATGTACGACTCCCACCCGCCTCAAGAGTTGAACCTGAAATACTAGCATCA
GCACTCGCTGTCCCCTGAACACGCTGCTGAATCATTGGCGGCATGACCTA
TGGAGGCTTGACTTGAGAGCTGTTGACGGGCCAGCGCGAAAAGACAAGAA
GCATCAGCAGTACTACTGCTGTACATGAAACGACGGTTAAAAAAAAAAAA
AATGTGACACCGCAACAGCTTTTCGTCACGAACAAGACCACGTTTCAACC
ATGGCCTCAAATGCTTTTAGTCCCCCTGGGGCCGGAGAAACGTTTGTTGT
CTCTCGGATTATTGAGGATAGCGTTGCGACAGCAGAAACCCCTTGTGTGC
GTACCCTCACGGATACGCTAAAAAAAAATCATACGAACAAAAAAAAAAGG
GGACGGCAGGGTCCCAAGCAGCAAGCGTCACAAGAGAAGCACCTGTGAGA
CCGCGTCTGGAATCCTAATGTACCAGCGACCTGGATAGCCTTTCGATCTG
CTATTTTGAACCCAAACCACGTTCTTCTCCACGGAAAGCAATATCCATCA
CCATCGCCCTCAATGATTTTTGCTCTTCTTTCTTTTTCTTTTTTTTTCGA
TTTCTCTCCCTCGTGCGTTCCTTTTTTCACCCGACTAAATGTAAAGGTTG
ATTTATTGTGTGATACCGAAGTATGTGTGATGAAAATGAATATCGATTGC
GCATCATTTTTTGTTGTGTTTTCTTTCCCACTTAGACCCGGCCCAACATA
AATAGTCAAGACGTGTGAAACAACGTCAAGAAGAAGAGATACTGCTGTAT
CCTACCGTCGTGCACAACGGCGTGTCATCAAGTTAAAACCACACCCGTCT
GGTTGTCCTTCTTGTCTCCTAGAATAGGGTGTATTTCGTATCAAACTTAG
CCCCCCCCCCCCTCTTTCGTCTTGGATCTCCAATCGATCACCAATCAAAA
TCGAAATCAAAATCATTATCGTGTCCCCCACCCACCGCGGTGTATGTACC
CATTCGCGACCGAATCAACCAAACAGGCTTGGAAGCTCTCGCCGTGACGG
ACGTGTCCACCACCCCGATCGACGGACAGAAGCCGGGAACCTCGGGCCTG
CGCAAGCCCACCAAGCTCTTCATGGAGGTCAGTCTCGAAACAATCTTTCT
GGGGAGACTTTTTCCAGCTGCGGGTTGTGTTTTTTTTTTTTAACGGAAGT
ACAAGTATTGTTATTTTGGTTTTTGTAATACGAACAACTATTTTATGTGA
AAAAAAAAAAAACGCAACCAACCAACCACCCGGCAACGGTAACTTCTAGC
AGTTGCGTGTATTGCTGTTGCTGTGTGTGTATGTATGTACTGAGTATGTG
TATGTGTGTGCGCGTTTTTTTTTTTCTTTCATTTGTTGTGAACGTGCCGG
CTTGCTGGCTTGCTATCCATCATCACGGTCTTTACCAACTTTCTCTTTTG
CGGTACCGCTCGTCCGATGTCCGCCCGGATTACCCAAAACGCCTCACTTC
ATTTCTCCCTCGACGAACACTTCGAAGTACGAAGTAGAGAACACAGCAGT
GACTTCTTCTTCTGCGCCCGTCTTTTATACTACTGCGCGATCTACCTCGA
CCCGACTGCTGCCACTGGCTGTTGTTATTCCCGTGACTCGTCGTGTGCCC
CCCCCCCCCCCCCCCCCCCTCCCTTCCTTAAGTGCGGCTACTGCTGCTAC
CCTCCCCTCCCGTGTCGCAATTCGTCTTCTTTCTTTCTAGTCGTGCATCG
TGTCACCGCGCTGTCCTCCTCACCCAAGCTTGGTCAAGTGCGCGCGTCCG
CTCCATCGTCCACATTCATCACACACACGCACTCACGCTCACACACAGAT
CCACTCCCACTCCCACTCCCACTCCCACTCACTCACGCTCACACACTCAC
ACACTCACTCACGCTCAACACATTCACACTCACACACACACTCACGCTCA
CGCTCACACACTCACACACATGCCACACTCTTCCACCCCGTCCACGCGGC
GTCTGTGCTTGTATTGCCTTTGCAGGACCCTTACCTGCACAACTTCGTCC
AGGCGACATTCGACGCGCTCAAGGCCACGGGCACCGATGTCACCCAGGGC
ACCCTGCTCATCGGCGGGGACGGGCGCTACTTCAACGACAAGGCCATCCA
GATCATCATCAAGATCGCCGCGGCTAACGGGTGAGCACGAACTTATTTTT
ATTTTTATTTTTATTTTTATTTGTTCATCATCGTGTGAAAGGTGGTGCTA
TTGCTATCAGATGATACTGAAGTACATTTTTTTCTTGTTTCTCTTTTTGT
GATCATTGCGTCGCTTTTGTCCCTTTTTTTAACCACGCCCGACGGCCGAA
ATTAACACCAACCCAAACAGGGTCAATCGAATGTGGGTCGGACAGCACGG
CCTGCTGTCCACCCCCGCGGCGTCGGCCGTCATCCGCGAGCGAGGTCCGG
AGTCGCAGAAGGCGTTCGGGTGCTTTATTCTTACGGCCAGCCACAACCCT
GGGGGCCCCGACGAGGTGAGCGGAAGTAAGGGGGGGGGGAGGAGGAGCGA
CTGGCTCGTTGTTGGTTGGTTTGGGCTTACAATATGTTTGTTGTCGTTTT
GTTTTGTACTCGAGTATATTTTGGCAGCGACCGCTGGATGTTGGTTGGGT
TGACTCGTAACTTCGTGGGATGGTGACTGCTGTACGGGTTTCTCCATTGT
ATCAGAGGCGCAGTTCCTCGTGCCTCAGTTTGGGACTGGTTGAGGTCGAG
GGACAGCGTCTCGAGTTTTTTTTTTGGCCCACAGCTGGTTGTCCTGCGTG
GTTCAGTGGGGACAAACCTCTCATCATACACCTCCTTCTGTCTGACAGCT
ATCATATGTCTCGAGGTTCGACTGTAGGTGGAACTGCCGTCGGTCCCTTT
TTTTTTTTGCTCCCACGATTCTTTTTTCGCGGCGGAGGGAGATTGTTCCG
GGAGTAAAACACGCTTCGACTCGAAGAACGACGGGAGAAAGGCAGGGCCG
AACCCTGCCTGCTCGCGGTAGAGATAATTGCAGCCACCGCAGGAGAAACT
GGGAGAAAAAAAAAATGCCTGTTGTGATCTTTCTCCTGTTGAACGTACAC
AAGTCTAGTCAAACCGAAAGGTGTAGACCACGCAGCGTCTACGTAGAACA
TACGGGATAGCAACACACACACACATACTTGAGGGAGGGAGAGAGGGAGG
GAGGGAGAGCATGAGATAAAGAGACGAACACGCGACCAAAAAAAGTCAAG
AAAGAGCGCAAGCAGGCGAAACAAACGGTGTATGGCGAAACAACATACCG
ATGATACTTTAAGGGCAATCGACTCCGGTACCCGTCATGTACCACCGCCT
CACCAAGTCCCAGCGAGCCTCCTACAACCAAGGGGCTGTGGCACCCCGTC
CCGCACGAGCACAAAACCGCCATCAAGGACCCAGCCGGGGCCGCCGCGGT
AGGCACACAGCGAGCGGTCGCCCGAGGAGATCAAAAACACGGCACACAGC
AGTGGTGCGTCCCTCGAACGGGCCTATCATATCATGTCTTAAGAGTCTTC
CAATATTTCGGTGCCCTTTGTTTTCGTCGAAGGCCCTATGTTCGACGCTC
TTTTTTTTTTTTTGTCTGCCTGCCTGCCTGCCTGCCTACGTTCTCTCTTC
GCTTTTTCGCTGTGACTCCTTCTCTGACTCCTCCTCTGCCTTTCATTTTC
TTGTCTCTCTTGTCTCCTATCTCTTGTCTCTCTTGTCTCTCTTCTCTCCC
TCTcCCCCCCCCCCCCCTCCTCTCTCTCGCTATCCTATCTTCCTCTCCCC
CCCCCGACACTGCCATGACTCTCGTCTCCTCTGCGGCACGTTGTTGTTGT
TGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCAC
AAACCAGGCACATATCGTGCTAGGAGGAAAAAAATAAACAAATAAAATAT
ATGGACTATGATCACCCACAGTCAGATCAGACGTGGTACCGTTGGGGTAC
CATCTGTGGTGGCCAGGATACCAAACAAATACAGAAAAAATAATAACAGG
CTCGAAAGAAAAACAAAAATTGGAAACAGTCTTCACTCACCGAACTTGCG
GTCCTGATCGCATGTTTCGATGCCCCCCCCCCGCGCCCCATAAACATTGC
AATTTGACTGCGATCAATCTTTTATTTATGCTTTTTCAGACTTTTTTCGG
TCGCTTCTCTTTTGCTTTTCGATGACATGCTCCTCTCTCAAGAAAACGCC
GTCCGTCACCTACGTATACTGTACCGTTTCTGTCTCAAAAAGAAAAAAAA
ATACCTCCCACCAATGTTCACTTCACTTCACCCAGGACTTCGGCATCAAG
TACAACTGCGAGAACGGGGGCCCTGCCCCCGAGAAGCTGACGAACCTCAT
CTACGAGAACACGAAGACCATCTCGACGTACAAGTCCTGCGAGGCGTTCC
CGGAGGTGGACGTGACTGCCCTCGGGGCCGTGGAGGTCACCGGGGCGGCC
GGCGCACGGTCGGTCACCGTGGACGTGGTGAGTATTTTTTTCGTTTCGAT
GTGGTTGCCGGGGCGGCGGCGGCGGCGGCGGCGGTGGCGGTGGTGGTGGT
GGTGGTGGTGGTGGCGGCATATTTTCGGGTTGCGATCAGGAATCGTTTGT
TGTAGGTGTTGTTTCTGTTGATGCCGCTGCCGGTGCTGATACTGATGCTA
CCTGTGTCGGCGCTTTTGCCGGGTGTGAGGGGTCGCGTCGCATCATGGTT
TGGACGGGTCGTGGTGGTATGGTGTTGATTTTTTCTGTGTTTGCGTTTCA
CGTGTTCTTTAAGTCTCGTCGAGTCTCGGTGTGTATCATACTACGAAAAT
GTTGGGTGAGAGGTGTGCTAAGAATAAACTTAGCTTGCAGACCCCCCCCC
CCGCCCCCCCGCCCGTGCCCACGCACGAGAATAGTTCGCACGTGTCATAT
CACACGCGAAATATACCCCGTCCGAACGTCCCCGGATGACGGTTCATCTC
GGCGTATTGCGTGTTTCGTAGGTGTCCGCGACGAAGGAGCACGTGGATCT
GCTGAAGACCATCTTCGACTTCTCCGCCATCAAGGCCCTCCTGGCCCGCG
ATGACTTCAGCGTGCTGTACGACTCTATGCACGGCGTGCAGGGCCCATAC
GCGAAGGTACTTTTTTGTTTTGTTTTTTCTCTTGCTTGCTTTGTGGATGT
TTTTTCAGTGTTTTTTTTTTCTTGTTGCTGTCGTGGTGGTGGTTGTTGTC
CCCGTTTTCTTGCCCTAGCCGCGACGTGCGTTAATCGTTGTTATTGTTGT
TGTTGGTGGTGGTGGTGATGATGTGAGGCTAGTGAGGCTAGTGAGGCTAG
TGATGTTGCCGCTACTGAGGCTGTTTTGTCGCGGTCGTTGTCGTCGTTGT
TGTCTCCGTGCGTTATTTGCTGCGGTTGCTCGGTTGCTGCTGCTGCTGTT
GGTGGTGGTGATGATATTATATGATAGCTGTGATGTCGCCGCTGCCGCTG
GCTTGCCTGCTTGGCACGGTCGATTCCGGAGTTTATCGTCGCCGCTGTAG
TTGTTGTTGCTGTGGCTGTCGCAGCTGCAACTTTTCACTCATCCTCAGGT
GTGACAGACACACAGACATGGGAGCCGCACGCACAAGACTCTCAATACTG
CTGCGAGTATATATATCATACACACGAACAATTAAAATATTGTTTTTCTG
GGAAAACCAAACCAAGTGAGCATGCAACGCGTCAAATGGTTTTCGTTATT
TGCTCACAAACGAACGAACGCACCTCGAAACAAAAACGCACGCACGCACT
GACGCAACGCAACGCAATGAAACGAAACGAAACGAAACAAAACGATACGA
AATGAAACGAAAAATGTGTGTGCAGGCCGTGTTCGTGGATGAGCTCGGCG
CAGACCCGTCCTGCCTGTCGAACGCCACCCCCAAGGACGACTTCGGCGGA
GGTCACGCCGACCCCAACCTCACCTACGCCAAAGATCTGGTCAAGGCCAT
GGGCCTCACGAGCAAGGGAGCAAAGAACCCTGAGATGGAGGGGAAGAAGG
TAAGCGCGAATATACATGAATGGCGTGTACCAGGTATGTTATTGTTGTTA
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTTTGTCGTT
GTTGATTCTCACATGTGTTCACCACCAAAGCCTAGCCCGTGGTCACAAAA
TCATGGTCGTCCTATCCGTCTGCGCGTACGATGAAAACAAAACATCCGTC
TCGTCATATTTTTTTCGTGAAACGCTTCAAAAGAGGAAAAGAAAATATAT
GTATCATATATACGGAGTATATATACCAGTATATATATTTTTTGTCATCA
TATACTTCGAAGTATATATTTTTCCCATCATCGACCGTGCAGCGTAGAGA
GTATGGATCTCTTGGTGCGGCATCCCAAAGCAAAGGTACATTAGGGTGCC
CTTTTCCATTACATGTATGCTATTCATGAACCGCTCAAAAAGAAAAATAT
TTTTCCTTTTTTTTTTTCTTCTCTTTTTTTTCATCATTTTTTTTTTTTTT
TCCATCATGGGGGCAAGCAGGTGCCTTCTTTCGGAGCGGCCGCGGACGGC
GACGCGGACAGGAACATGATCCTCGGGGACCGATTCTTCGTCACGCCCTC
TGACTCGGTGGCCATCATCGCCGCGCAGGCCAACTGCATCCCCTACTTCA
AGTCCAAGGGCGGCCTCAAGGGAGTGGCCAGGTCCATGCCGACCTCGGGA
GCTCTCGACCTCGTCGCGAAGAAGGTATGTTGGTGGTGGTGTTGCTGTTG
CTGTTGCTGTTGCTGTTGCTGTTGTTGGTTCTATCTAACATTATGATGGC
TCACCACCAAAATTTCAGTCGTGGTCACGAACCAGGCACACATCATGCAA
CGCAAGAGGAAAGATGCATGAAGCACAAAGAAAGGAAATAAACGACGGTC
TTACCGTTGGGGCACCTTCGGTGATGGCCGAAGTACAAGAAATACAGAAT
ACAGGCTCGAAAAACACATCGGAAACAAATAATGTACCAGTCTGTCCGGT
CATAAAGTTCCGATTTGAGTATCCGGTAATATAGTTCCGGTTTGGACTAT
TTAAGCATAGAGGGCTATGTTGGTGATTAAAAGCGCCCTATTACCGTCCA
CGGTGCATGCAAGGCCGAAGAGGTTCGAAAAAAAAAAAGAGCCGTGGGCT
CACCGAAGATGCTGGTATTGCCATCCCCGGGATATCATCGATATCCGGTA
ATATAGTTCTCATTTGGGTTATTGGAAAATTGACGGCATTGTTTCATTAC
CCAAAGCGCTCCAGCATCCACTATGAATGGACCGTGCTTTCTGCATGGAA
GGaaAAAAAAAATGCCTTAATGTGTACCGGGGATGCTGGTTCATCATCCC
CGGGGTACAACAAGACAACGCAACAAGGCAGAACCATTTCGTGTTATTCT
TAGCGCAGCCCATTCCACACAACAGGTCGCGCCCGATACTACTGCTGCAC
CGACGAGTGCCAGCACCTCAGCAGCGGAATCACACACTCAACGACAGCGT
ATCACATGCTCTCCCCGTCACGGCCCTCAGGGCGCGCGAAAAAAGAAAAG
CGCGCGCAAAACCTGCACTATCCGAAGTCCGCCCTAGGCGCACCGCCGGC
TACAGCAGTGGCAAACAACAAACGGCTACAGCAGTGTTACAAGACAAATC
AGGTACCATCAGCGGGGAAAAGGGGTGCTACCTGGTACCAGTAAAGCAGT
GGAACACAAAAAGGATAGCACAGCAGTGGTGGAGCTAATTGAAGCAACAA
ATTAACACGCCGGCCGCCCCTCCGGCCGCCCCTCCTCTCAAGCGCTCCCC
CCCCCCCCCCTCAGCGGGGGTCTGAGACGCCTCCCATGCTTCCTGGCTGC
ACGGTAGCTCTGCCGGGATGGCCTGGTTGCGGCGTGATGCCGTTAACTTA
TGCAGGTGCGGCAGCTTGAAGGTGTTGTCTCCACGCGCCAGCATGATCTC
CTGGAGGACACTCTGTAGTGTTGTACAGCCACGGTCGAGCGTCTGCGTCT
TCTGGGCCCAAAAGGCCGTCTCCACTGCGGCCACACGCTCGTCAATCTTG
GTGGGGGTAGTGCGGTCTTGTAGGGACTGGATAGAGTTGAAGAACCCCAG
GTCGAGGATGTTGGTGTCCGGGTTGTTGGGAGGTTGGTTGATGAGCTCTA
TCCTCCCCCCCCCCTGCCCGGCCGCCGCCATAACGTCAGGGTCTGCCATC
ACACGGTGCCCCGGAGCGTTGTCCTGCTGCGCCAAGACGGTGTGTGCGGT
CTGGGAACTTCGCCCTGATGTCTGGGAAGACGTTGTTGATCAGCTTGTCC
TTGTACGTTGCGCGGTTGACGTCCACGCAGTGAGTCACCATCGTCCCCGC
CGCCCTGTTCCTGCTGTTACGCTGAGCAGGGCGCTGCACCGTGAAGGGGT
AGATGCCGGTTTTGCCGTCGAACTGGCGGTTGCGGCTGGAGTCGTAGCGC
GGCCGTGCTATTGCTGCGAGGAACATGACCTTGGTCACGTGGCTCTTGTG
CTGGACCTTCCGAATGGGAGCGTCCTCGCCCTCGTAGAGGTAGTACCGCT
GACCCTGCTTGCAGATGAAGAACACACTTCTCGTCCAAGTGAACGAAGTC
GAAGAAGTGGTGAAGCTTGTGTTCGCCGCCGGGGCCGCTCCTCACCCACC
TCAACGCCCACGCCAGTCTGGCAGCCTTACCCTCGTCAGTAAGATACGGC
TTCAGGAACCTCGAGCACGAGCGTAGGCCTAGCTTCTTGAGGTTGTCCCA
CAGAGTTGACTTGGTAATGTTCAAAGCGGCCGCAACCGATCTAATCGTGG
TGCGATTATTGAGGGGAACCTGCTGGAGCGCTTCGACCAGAGCGGTGATG
TCTACCCCTATCCTGCCGCAGTTGCCCTTACGTTTGCTGTGAAGGTCGGA
ATGTTCTTCTCCGCTTTCCTTCTCCTTCTTGTACAGCCTCCAATACTTGC
TCACCGTCTTTGGAGTCTGTTGGTACATCTCCGCCAACCTCTTGAGGTCA
CCATGGACCAGAATCCCGTTGTTGCTGCCCTTGAGCAGCTCATCAATCAT
GCCGTTATTCTCTGCAGTTGTCAGATTCTTTCGCTTGGGTGCGTTGGCAG
CGCTTTCCGAAGCAGGCATGTTGGTGGGTCCGCTGGGAAGTCCTCCAACC
GGCGATTGCCGCGAACGAGCTCAGTTTGCCTCGACTTGGCGGCCCGTGAC
AAGGGGGTGTGCGGTCTACCCCTTTCCCCCGCTGATGGTACCTGATTTGT
CTTGTAACACTGCTGTAGCCGTTTGTTGTTTGCCACTGCTGTAGCCGGCG
GTGCGCCCGGGGCGGACTTCGGATAGTGCAGGTTTTGCGCGCGCTTTTCT
TTTTTCGCGCACCCTGAGGGCCGTGACGGGGAGAGCATGTGATACGCTGT
CGTTGAGTGTGTGATTCCGCTGCTGAGGTGCTGGCACTCGTCGGTGCAGC
AGAAGTATCGGGCACGACCTGTTGTGTGGAATGGGCTGCGCTAAGAATAA
CACGAAATGGTTCTGCCTTGTTGCGTTGTCTTGTTGTACCCCGGGGATGA
TGAACCAGCATCCCCGGTACACATTGAGGCATTTTTTTTTTCCTTCCATG
CAGAAAGCACGGTCCATTCATGGTGGATGCTGGAGCGCTTTGGGTGATGA
AACGATGCAGTCAATTTCCCAATAACACAAATGAGGACTATACAACCGGA
TATCGATGATATCCCGGGGATGGCAATACCAGCATCCCCGGTGAGCCCAC
GGCTCTTTTTTTTTTTTCGAACCTCTTCGGCCTTGCATGCACCGTGGGCG
GTAATAGGGCGTTTTTTTGTCACCAACATAGCCCTCTATGCTTAAATAGT
CCAAACCGGAACTATATTACCGGATACTCAAATCGGAACTATATGACCGG
ACAGACTGGTAGACTTCTTGTCTGTGTCTTTGTGTGTCTGAGTCGGTGTC
GTGCACGTCCATCCGTATCACCCCCATGTTGTGTGATCCCCCGCGACCCC
GACTCTTAAGAAAGCCATGTGCCTGTCTGTCTGTCTGTCTGTCTTGTCTG
TCCGTGTGATACGTTTTTTGCAAAACCCTTCCGGCATGCACATTGACATT
TTGCAAAAACTCTCAGGTAAAGTTACGGAAAGTTCTCAAAATTAATCACA
AGCTTGGCTCACGGAAGAGCTGACCCCCCCCACTCCTTCCACCAGATGAA
CATCAACTTCTTCGAGACGCCGACGGGCTGGAAGTTCTTCGGCAACCTGA
TGGACAGCAAAGAGCTCGGCGGGGAGGTGAGTTCGAGTCAAAACAACTCG
ACGAAACAAAAAAAAACACTTCTGCACGAAAAGAGAAACCTCAGCCAAGC
CTGCTGCACTCCAGCCAAATCCTACGTAGCCGCCCGGGCTCACGCATGCA
GTAAGGTTCGGTATGCTCCGGGACAAAAAAATGTGGGGACGCAGTGGTCC
TCCTTTTTTGTCCTTTTGCTCTCTCCCTTTCGCGCACTCGAtTTTTTTTT
TTTTTTTGTCAGGGCGAACAACAAAACGTTTGCTGTGTTATATTCCTGGT
ATGATTTCTTGAACCGGTTTGTTCGCTGTGCCGGTTCGGTTCGGTTCGGT
TCGGTTCGGTTTGGTGTGTGTGTTTGTGTCGGTTCGGTTTGCTGTGCCGC
TTCGCCGTGCAGGACTTTTCGCCCTTCATCTGCGGGGAGGAGAGCTTCGG
GACGGGGTCGGACCACGTAAGGGAGAAGGACGGCATGTGGGCGGTGCTTG
CGTGGCTCAGCATCCTGGCGGAAGCCAACAAGGACCCCGCACAGGTGAGG
TGTGGTGTGGCGAGTGTAGTGTGGTGCGTGTGGTGCGTGTGCGCGCGCGT
GTGTGTTCGTTGTGGTGAAAGTGAAACGAGACGTGTGCGTGTGAATGCCG
GCTTGTGTTCCGTTTTCGTTGCCGAGAATCTACCGACATTTCATAAAATG
AGCACTGGTATATGCGGAGCGGTCCCGTTCGTccccccCCCCCTTTTCTT
TCCCTTTTCTTTTTCTCTTATGCCTTACGCGAACAACACGTGCCTTACTC
TGTGCGGCAGGTTTACGTTGTTTGGAGGCTTGGAAAGTGGCTGCTGTTGG
GAGTGTATTTTTGCACGCTCACACGTCTGTTGTGTCCCATGATACGGCGT
GCTTCACGTGACGTGGCTAGAACTGCCGCTGTTTTTGCTTTACTCCTGTT
GTATACCCGGGTAGTTGTACAACGCAGCACCTCTGCTTCGACAAACAAGG
GCCGGGCGGACGTGGGGAGTACACAGAGTGAGCAGGAGAGAGTCGTGACC
GACAGACAAACACTTCATCGTGCTTTGCTGCCGGGATCGTTAACTTTCGT
GTTCACGCTCCGACCTCGTGTGTGTGTGTGTGTACCTCGTTTGTGTGTTT
GTCTTGTTTCTCTGTTTGTGTGTCTGTGTGTTTCGCGTGTGTGGTCGGTT
TTCGTTTTTGTCCTCTCTGAGCAGAAGCTTGTCACCGTGGAGGACATCGT
GCGGCAGCACTGGGCCAGCTACGGACGCAACTACTACACCCGCTACGACT
ACGAGGGGGTCGCGGCGGACAGCGCCAACCAGATGATGGACCACATGCGC
GCGCACTTCGCCGAGTGGACCGGGGCGGAGATGGACGGTGAGTCGAGACG
GAATCCCTGTACTGTACTGAAGAGTTTTTGTGGAGGAAGGAGGCGGAATT
GTGAAAGGGGGGTAATTGCGGAGCATAGTACACATACATGCACGCGCACT
TGTCGCCGAGTGGGCTGGCGCGGAGGTGGATGGTGAGTGAGACGGAATCC
TCGTAGTTTTTGTGGAGGAAGGAGGCGTAATGGTGAAAGGGGGGTGATTA
CTGAGCTAAAGCACACGTACATGTACGCCATACGAGTGTATGGTTCAGAT
GAACGGTGAGTGAGACTGAATCCCCAAAGAGTTTTTGTGGAGGAAGGAGG
CGGAATGGAAAAGGGGGGTAATTACAGAGCAAAAGTACACGTACATGTAC
GCCATGCAAGGGTGTGTGTTCAGATGGACGGTGAGTGAGACGGAATCCCT
GCAGAGTTTTTGTGGAGGAAGGAGGCGGAATGGTAAGAGGGGGGTAATTA
CGGAGCAAAAGTACACGTACGTGTACGCCATGCGAAGGTGTGCTTCAGAT
GGATGGTGAGTGAGATATTGAATCGAAGGTTCTGTAGAGGAGAAAGGAGG
TGGACGTGGAAATTTAGGGGAAGTTGAAGAGAATATCAGGGTTTGTGTCA
GGTGATCAAATCTAGGAGTTGTGGGAGGAGAGAGGCGGAGTGGAAAAGGA
ATGTCACGGAAGTAATGTGGGTTTCCCATCGGTAAAGGGGAGGGAAGGTT
GGAGGGGGCGTATTGTTTTGCTGCCCGCGGTAAAGACAGCCGGGTAGTTT
GGCCATCGACAACGAATCCGTTGTTTTTTTGCTACGTACCACAAGCCGCT
TCCGTCGATTTGGACTGGTCCGACGCCTGACGTGCCCCGTGATAAATCAC
GAATCACGAACGATCGGACTGAGCTCGACCTTCCGCCCAGGCCACCCCCG
TTGCAACCACACACAGCCGTACCGGCTTGAACTTGAATCCAAATACGAAG
ACCATTAATACGTTAATCCGAACCACCTCATGAAGTTACAAAATAAGGCA
CGCACCGCAGCGGGAAGTGGAGAGTGACAAACAAAAAACTCCTGTGTTGG
CGTCCTCTCGTGTGACCAGTCTCAAATCAATCATTCATTTTCAAATCAAT
CAATTCACCTCAAGCCAATCAATCAATCAATCAATCTCAAATCAACCAAC
CAATCAATCGATCGAACAGGGTTTTCGATCGCGAAGGCCGACGAGTTCGA
GTACAAGGACCCCGTCGACGGGTCGGTCGCCTCGAGGCAGGGCATCCGCA
TCCTCATGGTCGACGGTTCCAGAGTAGTGTTCCGTCTCAGCGGGACTGGC
TCCGTCGGTGCCACCATTCGGATGTGAGCGTTTTTTTTATCTCTCTGGAT
GTGGGCGTGTGTGTCCGTCTACTGCTTGTGCTTGCTCCGGAGATCAACGT
ACTTGTTCAATCTCCGGAGATCAACGTACTTGTTGTTAAATACGTGTTTT
GCGATACACGGAGATGGTATGTACGAAGTTTTGTACTCGGAGTATTTTTT
ATGTTGCTGTTGATTTCTCGCATCAGAATACCGCCACCCGAATTCTAGCC
CGTGGTCACAAACCCGCCACATACCGTGCTAAGAGGAAATAAAATAAAAT
ATGTGTGTATGTCCGCGCGTGTTGTTTGGTTTGGTTTGCGCTCCGGACGT
CTATCACTGATCGTCGGTTTTTTTTTCCGCGTGTTTGTTTTGCGAATATA
ATTAGTTTTATGGCCGTATGCGCGCGGCCATCTATTTATGGTTATGATAA
TGTTTTTTTTTCTGAGAGTGGCTGTGGAGAAAAAGCGTCCGTCTTCCATA
TTGTTGTACAGATGGAAATGAGAACCCTGGTACGCGATGTACCGCATGAG
CTCGGTGTTTTGTGTTGATATTCCAAGTCGTTTTTCGCGGAAACATTGGT
GCACGATGTTCCGCGTGAGCTCGGTATGTTGTGTTGTGTTCATGCGATCA
AGTTTTTTTCGCGATATCATATTCGTGTCGCTACGATACACATGAGTGCC
TCTCATCGGTGGGTTGTGTGCAACACGCTGCATGGCACACGAGAGCCCGT
GGTAAAAGTGCAATCGTTCTCGCGTGACCGACATGAACAGCGCTCAACGC
ACGGCGTGCACGTCCACGGCGTGCAGGTAGTTCTCTACCCGAGAAGTCCG
ACATGGGGACAGGAGCACTCGATCGAACGGAACTTCTGCACGTACATACA
TACATACTTCCTCTGTATCATAAGTCTGTGCCGTTATGTTTTTACGCCCC
CTCAACGGTGTCCGATGTCTTCGGCGATAAGTTTTTCGAATCTTCGGAGT
TTTTTGGGTTGAAACACATATATATTTTTTTCTTGCGCACTACCCTGCGC
ATGGGCTAGCGGCTAACAAAAAAGTAGTCAGGCCAAAAATGCTTTCCAGA
GGTGGAGTGGGGGGCGGGGGCAAAAAAAAAACCCAATGCAGTCCCCCCCA
AAATTATCCCTAACCCTGAACCTAGCCCCCCTACCTCAAAGATTCATGTC
GAGTCCCTCCTTACTAAAATCAGTATAATAGTGACGCGACACTGAAACCA
AGACACTTGGGTTTGCCACACGAAAACGAAGATACTTGGGACTCATGCTC
TAAAACCAAGACATCTGGCGGAATCAAAATTCTTGAAATGGGCCAAAATG
GGCATATTTTTACTTCATTTTAGTATAAACAACTGGCTTTTTTTTTTGCT
TTTTTTTTGCATCAGCTTCTTTGAGACTTCATCTTTCGAGCGAACATAAC
TATAGGATGATCGAAACAGTATGGATGCGCAAACAATTACACGCCCATAA
CGGCGCAGACTTATGATACAGAGGAAGTACATACATACATACATACATAC
ATACATACATACATACATACATACATACATACATACATACATACATACAT
ACATACATACATACATACATACCATACATATCATACATATCATACATATC
ATACATATCATACTTCGTATCATATCATATCATAGGTGGTTCATGACGCG
CACCCTTTTTGTACCCCGGAATGGATGGGAATTGATGCAATCCTGCGTGT
GCATGCATATATGATATGATACCGTAAACGTCGGAGTTTTCCCCCCGGAG
GGGGGATCTTTTTTTCGGCTGAAATCAAACCCCCCGGGGGGAAATTGACG
TACCgGGGGGGGGTTGGTAGTTTTCTATTTTCCCATGCTACCCCGGGGGG
TGTCTACCCCGGGGGGGTTGTGCAGAATATAAATGAAACGAAGCATTTTT
CAACCGTGTTTGGCAAGGTGTGCCGGCATGCTGTGGTGATGTGTTTTGCC
GTGACTCCAGGGATAACAAATGCAAGAACACAAAAAACCAGCGCGTAGTA
GGTACCCTGAACACAAAGTGGCATGCCAATCGGCCGCGGTGTAACATACA
TCTCGCTCGAAGCGCAGAGGTGCAAATGATTTTTCTGGACCATGTCATGC
TTTTGTGCTTTGTGATCCAAAAAAACGACTCAAGCACACGTGAAATACAT
CCCCCGGGGGGAACTCGTGAAAAATGTACCCCGGGGGAAATTGACGTACC
CCGGGGAACTTTTTTTTTTTTGGCGAAAACGATCTACCCCTGGGGGTAAA
TCAAAGAATGCACGGTGGCAGGCTGAAAAGGTAATGGGGGGGGGAAACTC
TAAGGGGGGGGGTTAATTCCGACGTTTACGGTACTTCGAAGTGTGTGCTT
TTTGTTGCTTCGCTCTTCCTGCCTCCTTTTGGTGTTGATGCTGCTGCTGC
TGCTGCTGCTGCTGCTGCGTTTTTTTACTCGTCAACACACGTCAGGTACA
TCGAGAAGTACGAGAAGGATGACGACAAGCTGGACCAAGTTCCCTCGGAA
GCTCTCTCCGGATTGGTCGCTCTCGGCCTGAAGCTGTCCCAGCTCCGGGA
GCTTACAGGACGGGAAAACCCCACCGTCATCACATAGGGAGCTTCTCCTT
TCGCGGGGAAGAGAGATCGAGAGACGAGGGAGCGAGCGCTAAATGAGACA
TCGTATTTTGCGTATAACGAGTTCGCGCCACCTGCTTAGTATGCTGTTCA
ATAATTAGTACAGCTGTAGCACTCACAGGTTCGCGCTTGTCTTTCCTCTA
ATTGGTTGAAAGTGATGGGACGTGTGGGTGTATAGGCGTTTTTGTTTTTT
TCGGAGGACCTTCTACCGTCCGTGTAGTATAAAGAGCAGGTAGTTTCCTC
CGCTAGGGATAATTCTCGAATCGTCGTGTTGTACTGCTGTATGCTGTTGC
TTTTTTGTGCCCTCTCTGCCATGTGCTAGCTTGGCAGTGTGCCATGTCCA
AGGTGGTTTTTGGACTGTCGTTGGAACGTTTTGTTCAAGCAAGTCGCCGT
CACGGCCGCCGCAGACGTGCGTCGTGCGTTTTCATTTCGTGAGGGTCGGG
AACTCCGGCGGACAGGCAGTTCGTCGTGTGCGCGCGTCTGATGTCTTTTG
TTTGAACCCCAATGAAGTTTGTTTGTGTTACCATCCTCGCAGGAAATTAT
TTGGCAAGCGGTTTCTTATAAGTAAGGTTGAAAATGCCGATCGATTTCCC
TCTTGATTCGACCGAGAGCGAAAAATTCTCTATCCGAGGCGATAATGACC
CATTTCCGATCTGGAATTTCCGACAAGACATTTTTTTTTCGATCAGAATC
CTGTCGGAGATCTGAGGGATTTTCGACGCGGGCAGGCCTACTCTTCTGGC
AGACCCGATGATTGGAATCCAAGGGTTTAACATGAGGAAGTGGAATCCAA
AATAGGACCTACAGAGAATACAAGAGACAGGCAGTTGGCACATTGGTCAC
CTGCCGTAGGTAGGTGTGCATATTTTGTTAACGGTCAAGTGTGGCGAAGA
AGCTTCCCCAGCCATTGGGTAAAAGGGTAACCACCCGAGTGAGGACTACC
CCACTCTCCGGCGCTGATACCAACGGTAAGAGCCCGAATTAACGGGGAAG
TAAAAAAAACAAAATTGCGAAAAAGAAAACGAAATGAGTTCGTTCTGTAA
AAAAAAAAGAAAAATAGTTGTTGGGTATTAACGGAACGAGCATCCTTTTT
TTTTTTTCCACGCTGCTGCAGCGGACCTGGTACTAGGTTGGAGAAGAAGA
GGGAATACACCGAGAGGACACCATTTGCGTTGACTTTTGATATTTTTTGG
ATGGCTGATCGCTTGTTTCCCGTCACGCTCGACACTCACCGACTCCAGAC
CTCGG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig161:184155..214159+ >mRNA_P-littoralis_Contig161.61.1 ID=mRNA_P-littoralis_Contig161.61.1|Name=mRNA_P-littoralis_Contig161.61.1|organism=Pylaiella littoralis U1_48|type=CDS|length=3219bp|location=Sequence derived from alignment at P-littoralis_Contig161:184155..214159+ (Pylaiella littoralis U1_48)
ATGTCTGCCGAGATGACTCCCGAAGCTGCCGCCAAGTTCAAGCTCTTCGA
GGACAAGATGAAGGCGGAGAAGTTGAGCCCCGCGGCTATCCTGGCGTTCA
AGAACTCCTACGCTGCTCTGTCCTCCGGATCTTCTGGTATGATCGAGGAA
GCGTCCATCGACCCCGCGACCGACGTGCCGTACCTCGACGGCGACATCAA
GGGCAAGGTCAGCGGGGGCGAGGCGTACCTTCCCGAAACCGTGGTGCTCA
AGCTGAACGGCGGCCTTGGTACCTCGATGGGCCTCGATAAGGCCAAGTCC
CTCCTGCCGGTGAAGGGGGACGACAGCTTCCTCGACCTCACGGCGAAGCA
GGTGATCGAGATGCGCAAGACTTTCAAGAGCAACGTCCGCTTCATGCTGA
TGAACTCCTTCAGCACCTCGGAGGACACGCTCGACTTCCTCAAGAAGTAC
CCGGAGCTGGCGAACGATCCCAACCTTGAGCTTGTGCAGAACAAGGTGCC
GAAGGTGGACGTGAAAACGATGGAGCCGGCGGCGTGGCCCACGAATCCGG
CAAAGGAGTGGTGCCCCCCCGGCCACGGCGACCTTTACGCCGCGCTTTCC
GGCTCCGGAAAGCTCGACGAGCTCTTGGCGGAGGGAATCAAGTACATGTT
CGTGTCGAACTCGGACAACCTGGGGGCCACCCTCGACCTCGACCTTTTGG
CGTACTTCGCCACCAGCGACAAGCCTTTCCTCATGGAGTGCTGCGAGCGG
ACGGAGAGCGACAAGAAGGGCGGCCACTTGGCCAAGCGGAAGTCCGACGG
GCAGTTCATCTTGCGCGAGTCTGCGCAGTGCGCGAAGGAGGACGAGTCGG
CCTTCCAGGACACCGACAAGCACAAGTTCTTCAACACCAACAACCTCTGG
GTTAGGCTGGACAAGCTGAAGGAAGCCATCGACGCCTCCGGAGGCCTGAT
CCCCCTGGCGATGATCAAGAACGGCAAGACCGTCGACCCGCAGGACGACT
CCTCCCCCAAGGTGTTCCAGCTGGAGACGGCGATGGGCGCCGCGATCGAG
TGCTTCAAGGGCGCGGGGGCGGTGGCCGTGCCGCGCTACCGCTTCGCGCC
GGTGAAGAAGTGCAACGACCTGCTCCTCCTCCGGTCGGACGCCTACGTGG
TGAACGAGCACTTCAACATCGTGCTCGCCCCCGAGAGGAACGGCGCCGCA
CCCGTGGTGTCTCTGGACACGAAGAAGTACAAGCTGGTGCAGCAGCTGGA
CGCCGCGATGACCTCCGGAACCCCCAGCCTGATCGGCTGCGACCGCCTCA
CGGTGGCGGGAGACGTCCAGATGGCCGGCAACACCGTCTTCAAGGGGACG
TGCAGCATCGTCAACAAGTCCGGGGAGACGAAGATGCTGCCTCCTGGAGA
GTACACCGACACCACCGTGGACCTCACCGAGGCCGAGGGCTTGGAAGCTC
TCGCCGTGACGGACGTGTCCACCACCCCGATCGACGGACAGAAGCCGGGA
ACCTCGGGCCTGCGCAAGCCCACCAAGCTCTTCATGGAGGACCCTTACCT
GCACAACTTCGTCCAGGCGACATTCGACGCGCTCAAGGCCACGGGCACCG
ATGTCACCCAGGGCACCCTGCTCATCGGCGGGGACGGGCGCTACTTCAAC
GACAAGGCCATCCAGATCATCATCAAGATCGCCGCGGCTAACGGGGTCAA
TCGAATGTGGGTCGGACAGCACGGCCTGCTGTCCACCCCCGCGGCGTCGG
CCGTCATCCGCGAGCGAGGTCCGGAGTCGCAGAAGGCGTTCGGGTGCTTT
ATTCTTACGGCCAGCCACAACCCTGGGGGCCCCGACGAGGACTTCGGCAT
CAAGTACAACTGCGAGAACGGGGGCCCTGCCCCCGAGAAGCTGACGAACC
TCATCTACGAGAACACGAAGACCATCTCGACGTACAAGTCCTGCGAGGCG
TTCCCGGAGGTGGACGTGACTGCCCTCGGGGCCGTGGAGGTCACCGGGGC
GGCCGGCGCACGGTCGGTCACCGTGGACGTGGTGTCCGCGACGAAGGAGC
ACGTGGATCTGCTGAAGACCATCTTCGACTTCTCCGCCATCAAGGCCCTC
CTGGCCCGCGATGACTTCAGCGTGCTGTACGACTCTATGCACGGCGTGCA
GGGCCCATACGCGAAGGCCGTGTTCGTGGATGAGCTCGGCGCAGACCCGT
CCTGCCTGTCGAACGCCACCCCCAAGGACGACTTCGGCGGAGGTCACGCC
GACCCCAACCTCACCTACGCCAAAGATCTGGTCAAGGCCATGGGCCTCAC
GAGCAAGGGAGCAAAGAACCCTGAGATGGAGGGGAAGAAGGTGCCTTCTT
TCGGAGCGGCCGCGGACGGCGACGCGGACAGGAACATGATCCTCGGGGAC
CGATTCTTCGTCACGCCCTCTGACTCGGTGGCCATCATCGCCGCGCAGGC
CAACTGCATCCCCTACTTCAAGTCCAAGGGCGGCCTCAAGGGAGTGGCCA
GGTCCATGCCGACCTCGGGAGCTCTCGACCTCGTCGCGAAGAAGATGAAC
ATCAACTTCTTCGAGACGCCGACGGGCTGGAAGTTCTTCGGCAACCTGAT
GGACAGCAAAGAGCTCGGCGGGGAGGACTTTTCGCCCTTCATCTGCGGGG
AGGAGAGCTTCGGGACGGGGTCGGACCACGTAAGGGAGAAGGACGGCATG
TGGGCGGTGCTTGCGTGGCTCAGCATCCTGGCGGAAGCCAACAAGGACCC
CGCACAGCAGAAGCTTGTCACCGTGGAGGACATCGTGCGGCAGCACTGGG
CCAGCTACGGACGCAACTACTACACCCGCTACGACTACGAGGGGGTCGCG
GCGGACAGCGCCAACCAGATGATGGACCACATGCGCGCGCACTTCGCCGA
GTGGACCGGGGCGGAGATGGACGGGTTTTCGATCGCGAAGGCCGACGAGT
TCGAGTACAAGGACCCCGTCGACGGGTCGGTCGCCTCGAGGCAGGGCATC
CGCATCCTCATGGTCGACGGTTCCAGAGTAGTGTTCCGTCTCAGCGGGAC
TGGCTCCGTCGGTGCCACCATTCGGATGTACATCGAGAAGTACGAGAAGG
ATGACGACAAGCTGGACCAAGTTCCCTCGGAAGCTCTCTCCGGATTGGTC
GCTCTCGGCCTGAAGCTGTCCCAGCTCCGGGAGCTTACAGGACGGGAAAA
CCCCACCGTCATCACATAG back to top
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