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Homology
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: D8LEK3_ECTSI (Pyruvate dehydrogenase (acetyl-transferring) n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LEK3_ECTSI) HSP 1 Score: 1418 bits (3671), Expect = 0.000e+0 Identity = 726/789 (92.02%), Postives = 753/789 (95.44%), Query Frame = 3
Query: 204 ASQQAFTT-GAKAAYLRRHAA-PTMRV--GGGGEVGPLKATVAPPAEEQDQMVMRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDLAKNA 2558
A QQA + G A RRHAA PTMRV G GGEVGPLKATVAPPA EQ+Q VMRPPSEIKWAEVW+TLV DFG+DESK YS ISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADS+ GDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMH+YDKDTHFQGGWALVAEQIAYAAGAARSILMDRQL+PEGMKDDDR+TIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVF QGKHYGVPGVNVDGQDM+QML+TGRAVTDYVR+NGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPL I+ESEA + GITKEELDAAKKRAG TVKAAVEFADASPPPPASLAKELEYPD+PSTDYNLKA PANA EVN RSLP HS+AEAEAHC+MLEGKA KG+ITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFG LRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMP+TIIGAGGTAPNQ+LGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLP+NKAAVLHAASE++V+KGTAVTVLTYLHGVKEAQ SID I+AGGADIDLIELRTLKPLD+ETIGMSLRRTHKVAILDESTRSGGVGASISAIV+EELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLI AVLDLA+NA
Sbjct: 18 AEQQASSALGLGAVNARRHAAAPTMRVERGAGGEVGPLKATVAPPATEQEQEVMRPPSEIKWAEVWDTLVKDFGVDESKFEGYSAISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSLGNGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHVYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLDPEGMKDDDRLTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFAQGKHYGVPGVNVDGQDMLQMLSTGRAVTDYVRKNGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLAIYESEALEFGITKEELDAAKKRAGVTVKAAVEFADASPPPPASLAKELEYPDLPSTDYNLKAPPANAEEVNARSLPPHSRAEAEAHCAMLEGKANKGQITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGSLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPMTIIGAGGTAPNQSLGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPMNKAAVLHAASEDAVAKGTAVTVLTYLHGVKEAQDSIDAIVAGGADIDLIELRTLKPLDLETIGMSLRRTHKVAILDESTRSGGVGASISAIVSEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIAAVLDLARNA 806
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A836C8J1_9STRA (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C8J1_9STRA) HSP 1 Score: 1072 bits (2773), Expect = 0.000e+0 Identity = 538/733 (73.40%), Postives = 616/733 (84.04%), Query Frame = 3
Query: 351 MRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGI-TKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
MRPP+++ W +V E L +DFG+ K +Y ++SKED LK Y MMQL RQFENAC QAYMQ +RGFMHLDNGQE IPA VAD+I DKK SYYREHTHALASGV +VM ELFAK+GGTC+GAGGSMHIYDK+T+FQGGWALVAEQ+ YA GAARSIL+DR L+P G ++DDR+TIVF+GEG AQNGRMAE LNAAAKEKLP++FLVIDNGRAINTFTPDVAANSDV+LQG+HYGVPGV VDGQ+M+ +L GRAVTDY R+NGPAI+QV TYRF+GHSPADPEHERGRK EKRWARA DP+ +FE A GI T EEL A RA A VKA+V+F+ ASPPPP SLAKELEYPD P TDYN + APA++AE+ R++ + AE H L KA G+ITIGDAINLA+LEEM+RDP TTIHAEDLQAGSSYDIPK Q+ FG LRAADEIIDEGH IGKALGEGMNGYRPIVELMNTNFGIYGMAE+SSAGNTYATTGGQF MP+TIIGAGGT+PNQ+LGAEHSQP HAYVMGIPGLKICTA+SP+AAYG+ KSMIRDNGPG+LF PVKMMK KG ++ G+C+ LNKAAVLH+AS+ +V G AVTVLTYLHGV E Q ++ EI A G DIDL+ELR+LKPLDM TI SL+RTHKV ILDEST SGGVGA++SA+V+E L+DELDAPV+RLCMDDAPVPYASSME+AVVKR D++ V DL
Sbjct: 1 MRPPTDVTWKDVKEQLKSDFGIKNVK--EYDSVSKEDLLKAYHMMQLSRQFENACTQAYMQQHVRGFMHLDNGQESIPAFVADAIRPDDKKYSYYREHTHALASGVPPEKVMAELFAKEGGTCKGAGGSMHIYDKETNFQGGWALVAEQLPYAVGAARSILLDRHLDPAGTRNDDRVTIVFVGEGGAQNGRMAECLNAAAKEKLPIIFLVIDNGRAINTFTPDVAANSDVYLQGRHYGVPGVLVDGQNMVDVLRAGRAVTDYARQNGPAIMQVHTYRFNGHSPADPEHERGRKDEKRWARAEMDPIALFEKRCATEGIATAEELKAVSDRAKAEVKASVDFSLASPPPPRSLAKELEYPDAPDTDYNSRMAPADSAEITGRTVDHTALKNAELHMEALRAKASAGQITIGDAINLAVLEEMVRDPTTTIHAEDLQAGSSYDIPKLTQQTFGKLRAADEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIYGMAEISSAGNTYATTGGQFIMPMTIIGAGGTSPNQSLGAEHSQPLHAYVMGIPGLKICTASSPDAAYGLAKSMIRDNGPGMLFLPVKMMKSTKGTIDAGRCMQLNKAAVLHSASDAAVDAGKAVTVLTYLHGVAEVQKALKEINAAGMDIDLVELRSLKPLDMATIKASLQRTHKVVILDESTLSGGVGATVSALVSEVLFDELDAPVKRLCMDDAPVPYASSMEEAVVKRAADVVTGVADL 731
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: L1J1I5_GUITC (Pyruvate dehydrogenase (acetyl-transferring) n=2 Tax=Guillardia theta TaxID=55529 RepID=L1J1I5_GUITC) HSP 1 Score: 1058 bits (2735), Expect = 0.000e+0 Identity = 539/734 (73.43%), Postives = 611/734 (83.24%), Query Frame = 3
Query: 348 VMRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSG-ITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
VMRP W E E LV FG ++ Y+ ISKED + Y MM L RQFE ACNQ YM+G IRGFMHLDNGQE IPA+VADSI GDKK SYYREH HALASGVDAG VM ELF K GGTC+GAGGSMHIYDK T+FQGGWALV+EQ+ YAAGAARSIL+DR L+PE KDDDR+++VF+GEG AQNGRMAE LNAAAKE LPLLF+VIDNGRAINTFT DVA N DVFLQG+HYGVPGV VDGQDM+ +L GRAV DYVR++GPAILQV T+RF+GHSPADPEHERGRK EK+WAR DP+ IFE + SG T+EEL K +A A K AV+FA+ SP PPA+LAKELE+PD PSTDYN + APA A E+N+R L + + +AH S L KA+ G+ITIGDA+NLAILEEMLRDP TTI AEDLQAGSSYDIPK Q+ FG LRA+DEIIDEGH IGKALGEGMNGYRPIVELMNTNFGIYGMAE+SS GNTYATTGG+FDMP+TIIGAGGTAP Q+LGAEHSQPFHAY+MGIPGLK+CTAASPEAAYG+ KSMIRDNGPG+LFCPVKMMK VKG EL KCLPLNKAA+LHAAS+ +V +GTAVTVLTYLHGVKEAQ ++ I G DIDLIELR+LKPLD ETI SL+RTHK+AILDEST+SGGVGA+ISAIV+EE+++ELDAPV+RLCMDDAPVPY+ +ME AVVKR DL++ V DL
Sbjct: 16 VMRPRFLNSWEESKEALVGRFGFSPNEVDQYAEISKEDLVHAYGMMLLSRQFETACNQEYMKGNIRGFMHLDNGQESIPALVADSIKKGDKKYSYYREHAHALASGVDAGAVMAELFGKIGGTCKGAGGSMHIYDKATNFQGGWALVSEQLPYAAGAARSILLDRMLHPEQHKDDDRISVVFIGEGGAQNGRMAECLNAAAKENLPLLFIVIDNGRAINTFTGDVAKNQDVFLQGQHYGVPGVKVDGQDMVGVLQAGRAVVDYVRKSGPAILQVHTFRFNGHSPADPEHERGRKDEKKWARNAADPIKIFEDKMLASGKFTEEELKELKAKASAACKDAVDFANKSPAPPATLAKELEFPDPPSTDYNQRPAPAGADEINKRILDPEALSNCQAHISQLREKAQAGQITIGDALNLAILEEMLRDPYTTIKAEDLQAGSSYDIPKLTQQTFGKLRASDEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIYGMAEISSCGNTYATTGGEFDMPVTIIGAGGTAPAQSLGAEHSQPFHAYIMGIPGLKVCTAASPEAAYGLAKSMIRDNGPGMLFCPVKMMKDVKGSPELDKCLPLNKAALLHAASDAAVKEGTAVTVLTYLHGVKEAQKALPLIQEEGMDIDLIELRSLKPLDRETILASLKRTHKLAILDESTQSGGVGATISAIVSEEMFNELDAPVKRLCMDDAPVPYSLAMEAAVVKRDSDLVKGVADL 749
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: W7TYT3_9STRA (Pyruvate dehydrogenase (acetyl-transferring) n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TYT3_9STRA) HSP 1 Score: 1044 bits (2699), Expect = 0.000e+0 Identity = 533/736 (72.42%), Postives = 608/736 (82.61%), Query Frame = 3
Query: 351 MRP-PSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADS-GITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAG--GADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
MRP P ++ W +V L FG+ E+ Y T+ K D LK Y MM++ RQFENACNQAYMQGKIRGFMHLDNGQE IPA+V+D+I GD K SYYREHTHALASGV A VM ELFAK GTC+GAGGSMHIYD +FQGGWALV+EQ+ YA GAARSIL+DR+L+ EG KDDDR+TIVF+GEG AQNGRMAE LNAAAKE LP+LFLVIDNGRAINTFTPDVAANSDVF G HYG+PGV VDGQ+M L TGRAV DYVRE GPAILQV TYRF+GHSPADPEHERGRK+EKRWARA DP+VIFE A + GIT+ +L+A + A ATVK AVEFADAS PPPA LAKELEYPD P+TDYNL+A PA A + ++++ + A + + ++L ++K +TIGDA+NLAILEEM+RDP TTIHAEDLQAGSSY+IPK Q+ FG LRAADEIIDEGH IGKALGE MNGYRPIVELMNTNFGIYG+AE+SSAGNTYATTGGQF MP+TIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASP AAYG+TKSMIRDNGPGILF PVK+MK +KG + +CLP+NKA L AAS+ +V G AVTVLTYLHGVKE+Q++ I +IDLIELR+LKPLDM+TI SL RTHK+AILDEST SGGVGA+ISA+V+E+ YDELDAPV+RLCMDDAPVPYASSMEKAVVKR DL++AV DL
Sbjct: 86 MRPRPEDLGWEQVKAQLNTAFGLTENSLGKYDTVGKADLLKAYTMMEVSRQFENACNQAYMQGKIRGFMHLDNGQESIPALVSDAIKAGDIKHSYYREHTHALASGVPAENVMAELFAKVDGTCKGAGGSMHIYDVSKNFQGGWALVSEQLPYAVGAARSILLDRELDTEGKKDDDRITIVFIGEGGAQNGRMAECLNAAAKEGLPILFLVIDNGRAINTFTPDVAANSDVFKAGMHYGIPGVKVDGQNMADTLKTGRAVVDYVREKGPAILQVHTYRFTGHSPADPEHERGRKEEKRWARAEADPIVIFEEVTAPANGITEADLEACRAEAKATVKKAVEFADASSPPPAGLAKELEYPDAPNTDYNLRAPPAGAEAITKKTVDGAALAACKEYIALLRSNSEKNMLTIGDAVNLAILEEMVRDPTTTIHAEDLQAGSSYNIPKLTQQTFGKLRAADEIIDEGHFIGKALGEAMNGYRPIVELMNTNFGIYGLAEISSAGNTYATTGGQFLMPMTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPYAAYGLTKSMIRDNGPGILFLPVKLMKEIKGNAPVDQCLPMNKAVALSAASDAAVLAGKAVTVLTYLHGVKESQIAQAAIAERDPSVEIDLIELRSLKPLDMDTIRASLSRTHKLAILDESTSSGGVGATISALVSEQCYDELDAPVKRLCMDDAPVPYASSMEKAVVKRSTDLVDAVFDL 821
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A7S2KFC8_9STRA (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KFC8_9STRA) HSP 1 Score: 1032 bits (2669), Expect = 0.000e+0 Identity = 535/771 (69.39%), Postives = 613/771 (79.51%), Query Frame = 3
Query: 303 LKATVAPPAEEQDQMV----MRPP-SEIKWAEVWETLVNDFGMDESKSADYSTIS--KEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQL-----------NPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSG-ITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDLAKNA 2558
+T+ P+ D+ V MRPP + W V E L + FG E+ Y+ + KE +K Y+ MQ+ R FENACNQ YMQGKIRGFMHLDNGQE IP MVA +I GDKK SYYREHTHALASGV G VM ELF K+GGTC+GAGGSMHI+DK T+FQGGWALV+EQ+ YAAGAA+SIL+DR+L N +DDDR+++VF+GEG +QNGRMAE LNAAAK+ LPLL +VIDNGRAINTFTPDVA NSDV+ QG+HYG+PG+ VDG + + G+AV DYVR GPAI+QV TYRF+GHSPADPEHERGRK EK+WAR QDPL FE++ ++G T++EL AA+K A VKAAV+FAD SP PP LAKELEYPD P TDYNLK APA A EVN R++ A H + L KA GEITIGDAINLAI EEMLRDP TTIHAEDLQAGSSYDIPK Q+ +G +RAADEIIDEGH IGKALGEGMNGYRPIVELMNTNFGIYGMAE+SSAGNT+ATTGGQFDMP+TIIGAGGTAPNQ+LGAEHSQPFHAYVMGIPGLKICTAASP AAYGITKSMIRDNGP LF PVKMMK KG ++L +CLPLNKAA+LH AS +SV+ G AVTVLTYLHGVKE+Q+SI EI G DIDLIELRTLKPLDMETI SL RT+K+ ILDEST+SGGVGA+ISA ++EEL+D LDAPV+RL MDDAPVPYASSMEKAVVKRG DL++AV+DL N+
Sbjct: 40 FSSTIEAPSTALDEEVSFEPMRPPLKDFSWENVSEQLTSKFGYSEADLEKYTALDGDKEGLMKLYKDMQMARGFENACNQQYMQGKIRGFMHLDNGQESIPGMVASAIKNGDKKYSYYREHTHALASGVAPGPVMAELFMKEGGTCKGAGGSMHIFDKPTYFQGGWALVSEQLPYAAGAAKSILLDRELKLSDDEKQDKVNVAPPEDDDRISVVFIGEGGSQNGRMAEILNAAAKDNLPLLVIVIDNGRAINTFTPDVATNSDVYKQGEHYGIPGILVDGTNAADVTKAGKAVVDYVRTTGPAIMQVHTYRFNGHSPADPEHERGRKGEKKWARDEQDPLKFFENKFIENGTFTEDELKAARKEVLAEVKAAVKFADESPMPPVELAKELEYPDAPDTDYNLKPAPAFADEVNARTISADQMKTIHNHIATLREKASAGEITIGDAINLAIHEEMLRDPTTTIHAEDLQAGSSYDIPKLTQQTYGQIRAADEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIYGMAEISSAGNTFATTGGQFDMPMTIIGAGGTAPNQSLGAEHSQPFHAYVMGIPGLKICTAASPAAAYGITKSMIRDNGPCFLFAPVKMMKEAKGTVDLDRCLPLNKAALLHEASADSVAAGNAVTVLTYLHGVKESQISIAEIQDEGMDIDLIELRTLKPLDMETIAKSLERTNKICILDESTKSGGVGATISAAISEELFDLLDAPVKRLSMDDAPVPYASSMEKAVVKRGSDLVQAVIDLCSNS 810
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A0M0JRY3_9EUKA (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0JRY3_9EUKA) HSP 1 Score: 1031 bits (2666), Expect = 0.000e+0 Identity = 531/767 (69.23%), Postives = 603/767 (78.62%), Query Frame = 3
Query: 249 RRHAAPT-MRVGGGGEVGPLKATVAPPAEEQDQMVMRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
RR AP + GG E A P + MRP I W+ + L DFG+ E Y TI K D LK YEMMQLCRQFENACNQAYMQG IRGFMHLDNGQE IPAM+AD++ GD K SYYREHTHALASGVDAG +M ELFAKD GTCRG GGSMHIYDK+T+FQGGWALV+EQ+ YAAGAARSIL+DR L PE K DDR+++VF+GEG AQNGRMAE LNAAAKE LP+LFL+IDNGRAINTFT DVAAN D+F QG+HYGVPG+ VDG D++ + TGRAV DYVR+NGPA+LQV TYRF GHSPADPEHERGRK EK WARA DP+ IFE+ +G+ + D A RA VK +++FA AS PP LAK+LE+PD +TDYN K APANA + ++ A EAH L KA G I+IGDA+NLAILEEMLRDP TTIHAEDLQAGSSY+IPK Q+ FG LRAADEIIDEGH IGKALGEGMNGYRPIVELMNTNFGI+G+AE+SSAGNTYATTGGQF MP+TIIGAGGTAPNQALGAEHSQP HAYVMGIPGLKICTAASPEAAYG+ K+MIRD+GPGILF PVK MK KG + L C L+K VLH+ASE SV G AVT LTYLHGVKEA + ++EI A G DIDLIELR+LKPLDM+TI SL RT+KVAILDEST SGGVGA++SA+++E+ +D LDAPV+RLCMDDAPVPYASSME AVVKRG DL++AV DL
Sbjct: 50 RRRCAPAHLNAAGGTETVDFTAGTIRPQRDVVDGQMRPRPNIDWSNLRAKLELDFGIPEETLKKYDTIEKGDMLKAYEMMQLCRQFENACNQAYMQGFIRGFMHLDNGQETIPAMIADTLKKGDIKYSYYREHTHALASGVDAGAIMAELFAKDTGTCRGTGGSMHIYDKETNFQGGWALVSEQLPYAAGAARSILLDRHLEPEKFKGDDRISVVFIGEGGAQNGRMAECLNAAAKENLPMLFLIIDNGRAINTFTEDVAANMDIFKQGEHYGVPGIKVDGSDLVNTMKTGRAVVDYVRKNGPAMLQVHTYRFQGHSPADPEHERGRKAEKTWARAECDPIKIFETVPEAAGL---DFDGASARAKEEVKRSLDFAKASEAPPRELAKQLEFPDPANTDYNAKVAPANADAITRATVAPEKLAAVEAHIKDLRQKATDGVISIGDALNLAILEEMLRDPKTTIHAEDLQAGSSYNIPKLTQQTFGTLRAADEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIFGIAEMSSAGNTYATTGGQFKMPMTIIGAGGTAPNQALGAEHSQPLHAYVMGIPGLKICTAASPEAAYGLAKAMIRDDGPGILFTPVKTMKEAKGPVNLDVCARLDKCVVLHSASEASVKAGKAVTALTYLHGVKEANMVLEEIKAEGMDIDLIELRSLKPLDMDTIRASLSRTNKVAILDESTNSGGVGATVSALISEQCFDLLDAPVKRLCMDDAPVPYASSMELAVVKRGSDLVKAVFDL 813
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: R1B9S2_EMIHU (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=Emiliania huxleyi TaxID=2903 RepID=R1B9S2_EMIHU) HSP 1 Score: 1029 bits (2661), Expect = 0.000e+0 Identity = 512/725 (70.62%), Postives = 592/725 (81.66%), Query Frame = 3
Query: 369 IKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLD 2543
I W+ + L +FG E + Y +SK D LKGYEMMQLCRQFENACNQAYMQG IRGFMHLDNGQE IPA++AD+I GDK +SYYREHTHALA GV +M EL+AKDGGTCRG GGSMHIYDK+T+FQGGWALV EQ+ YAAGAARSIL+DRQL+P+G KDDDR+ +VF+GEG AQNGRMAE LNAAAKE LPLLF+VIDNGRAINTFTPDVAAN+DVF QG+HYGVPG+ VDG M Q L TGRAV DYVR GPAI+QV TYRF GHSPADPEHERGRK EK+WARA DP+ +FE++ A SG+ +LD A K A VK +++FA SPPPPA LAKELE+PD PSTDYN + PA A + + + A EAH + L+ AK+GEI+I DA+NLA+LEEMLRDP T HAEDLQAGSSY+IPK Q+ FG LR ADEIIDEGH +GKA+GEGMNGYRPIVE+MNTNF IY MAE+SSAGNT+ATTGGQF MPLTI+GAGGTAPNQALGAEHSQPFHAY+MGIPGLKI AASP+AAYG+TKSMIRDNGP LF PVKMMK KG +G+C+P+NK ++H AS+++V+ G AVTVLTYLHG+KE Q + EI A G DIDLIELR+LKPLDMETI SL RTHKVAILDEST SGGVGA++SA++ E+ +D LDAPV+RLCMDDAPVPYASSME AVVKRG D+++AV D
Sbjct: 74 IDWSNLRARLEVEFGFKEEELKQYDDVSKADLLKGYEMMQLCRQFENACNQAYMQGHIRGFMHLDNGQEAIPALIADAIKPGDKAVSYYREHTHALAKGVSPDAIMAELWAKDGGTCRGTGGSMHIYDKETNFQGGWALVCEQLPYAAGAARSILLDRQLDPDGTKDDDRIAVVFVGEGGAQNGRMAECLNAAAKENLPLLFIVIDNGRAINTFTPDVAANNDVFEQGQHYGVPGIRVDGGSMEQTLKTGRAVVDYVRTKGPAIMQVHTYRFQGHSPADPEHERGRKDEKKWARAEADPIKLFEADEAASGL---DLDGALKSVKAVVKQSLDFARESPPPPAELAKELEFPDAPSTDYNARPPPAGADAITRATTDPEALATCEAHVAELQSLAKRGEISIADAVNLAVLEEMLRDPTTVCHAEDLQAGSSYNIPKLTQQTFGKLRGADEIIDEGHFLGKAIGEGMNGYRPIVEMMNTNFAIYAMAEISSAGNTFATTGGQFQMPLTIVGAGGTAPNQALGAEHSQPFHAYIMGIPGLKIGAAASPDAAYGMTKSMIRDNGPCFLFLPVKMMKETKGHAAVGECMPINKCKLVHKASDDAVAGGRAVTVLTYLHGLKECQSVLPEIQAEGLDIDLIELRSLKPLDMETIRDSLARTHKVAILDESTNSGGVGATVSALIHEQCFDLLDAPVKRLCMDDAPVPYASSMEVAVVKRGSDVVKAVFD 795
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A6T7SKE6_9EUKA (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=Phaeocystis antarctica TaxID=33657 RepID=A0A6T7SKE6_9EUKA) HSP 1 Score: 1025 bits (2651), Expect = 0.000e+0 Identity = 528/754 (70.03%), Postives = 601/754 (79.71%), Query Frame = 3
Query: 285 GGEVGPLKATVAPPAEEQDQMVMRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
GG++ P + V DQM RP +I+W ++ + L +FG+++S Y I ++ L YEMMQLCRQFENACNQAYMQG IRGFMHLDNGQE IPAM+AD I D K SYYREHTHALASG+D G +M ELFAKD GTCRG GGSMHIYD DTHFQGGWALV+EQ+ YAAGAARSIL+DR+L + + DDRMT+VF GEG +QNGRMAETLNAAAKE LPLLF+VIDNGRAINTFT DVA NSDVFLQG+HYGVPG+ VDG D++ +L TGRAV+DYVR GPAI+Q+ TYRF GHSPADPEHERGRK EKRWARA DP+ +FE A K +++ A R A VK A++FA SP P A LAKELEYPD P+T+YN + APAN A + ++ + H S L+ KA G I+IGDA+NLA+LEEMLRDP TIHAEDLQAGSSYDIPK Q+ FG LRAADEIIDEGH IGKALGEGMNGYRPIVELMNTNFGIY MAE+SSAGNTYATTGGQF MP+TIIGAGGTAP Q+LGAEHSQPFHAYVMGIPGLKICTAASP AAYGITKSMIRDNGPGILF PVKMMK K L LG+C PLNKA VLHAASE S+ G AVTVLTYLHGV+E + I EI A G DIDL+E+R+LKPLDMETI SL +THKVAILDEST+SGGVGA+ISA ++E+ +D LDAPV+RLCMDDAPVPYA SMEKAVVKRG D++ AV L
Sbjct: 62 GGKIRPQRDVV------DDQM--RPRPDIEWLQLRQRLETEFGINDSDLKKYDEIPEDAVLAAYEMMQLCRQFENACNQAYMQGNIRGFMHLDNGQESIPAMLADFINKDDIKYSYYREHTHALASGIDPGAIMAELFAKDTGTCRGTGGSMHIYDVDTHFQGGWALVSEQLPYAAGAARSILLDRELG-QAKEGDDRMTVVFCGEGGSQNGRMAETLNAAAKENLPLLFVVIDNGRAINTFTQDVAKNSDVFLQGQHYGVPGIKVDGSDLVDVLKTGRAVSDYVRNTGPAIMQIHTYRFMGHSPADPEHERGRKVEKRWARAECDPIKLFE---ATDLAAKIDMEGANTRVKAAVKTALDFARDSPEPAADLAKELEYPDKPNTNYNNREAPANGAAITAATVSDEKMTVVQEHLSALKAKATDGTISIGDAVNLAVLEEMLRDPKCTIHAEDLQAGSSYDIPKLTQQTFGKLRAADEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIYAMAEISSAGNTYATTGGQFQMPMTIIGAGGTAPAQSLGAEHSQPFHAYVMGIPGLKICTAASPSAAYGITKSMIRDNGPGILFLPVKMMKDAKSTLALGECAPLNKAVVLHAASEASIKAGKAVTVLTYLHGVRECENIIAEIQAEGLDIDLLEMRSLKPLDMETIRASLSKTHKVAILDESTQSGGVGATISAAISEQCFDLLDAPVQRLCMDDAPVPYALSMEKAVVKRGSDVVTAVYGL 803
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A482SZZ3_9ARCH (Pyruvate dehydrogenase (acetyl-transferring) n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SZZ3_9ARCH) HSP 1 Score: 1023 bits (2645), Expect = 0.000e+0 Identity = 521/740 (70.41%), Postives = 598/740 (80.81%), Query Frame = 3
Query: 345 MVMRPPSEIKWAEVWETLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVRENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGI-TKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGG--ADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDLAKN 2555
M MRP W E+ L + F + S +Y +SK+D K Y+MM L R FENACNQAYMQG IRGFMHLDNGQE IPA VAD+I GDKK SYYREHTHALAS V ++M ELFAK GTC+GAGGSMHIYD + +FQGGWALV+EQ+ YA GAARSIL+DR L+P G +DDDR+TIVF+GEG AQNGRMAE LNAAAKE LPLLF+VIDNGRAINTFTPDVA NSDV+LQG+HYGVPGV VDGQ++ L TGR V DYVR+ GPAILQ+ TYRF+GHSPADPEHERGRK EK+WARA DP+ IFE A G+ T+ EL+ + ++ A VKA V+FA SPPPP SLAKELEYPD P+TDYN + P+ + V ++P+ + A AH L +++ G +TIGDAINLAILEEM+RDP T +HAEDLQAGSSY+IPK Q+ FG LRAADEIIDEGH IGKALGEGMNGYRPIVELMN+NFGIYGMAELSSAGNT+ATTGGQF MP+T+IGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASP AAYG+TKSMIRD+GPGILF PVKMMK VKG ++L +C+PLNKA LH ASEESV KG A+TVLTYLHGVKE+Q+++D I ADIDLIELRTLKP D+ET+ SL RTHK AILDEST SGGVGA+ISA++ E + ELDAPVRRLCMDDAPVPYASSME++VVKR DL+ AV DL N
Sbjct: 22 MPMRPRFFTSWKEIKSQLQSAFKLSSSDLKEYDQVSKKDLTKAYDMMLLSRNFENACNQAYMQGNIRGFMHLDNGQETIPAFVADTIKKGDKKHSYYREHTHALASQVPPEKIMAELFAKVDGTCKGAGGSMHIYDVEHNFQGGWALVSEQLPYAVGAARSILLDRHLDPAGQRDDDRITIVFVGEGGAQNGRMAECLNAAAKENLPLLFVVIDNGRAINTFTPDVAQNSDVYLQGQHYGVPGVKVDGQNLEDTLRTGRVVVDYVRQKGPAILQIHTYRFNGHSPADPEHERGRKDEKKWARAEADPIKIFEQSALTRGLFTEHELEKMRTQSLAQVKACVDFATKSPPPPKSLAKELEYPDPPNTDYNKRTVPSQYSAVTHSTVPSDALATCLAHIQQLRTQSQAGALTIGDAINLAILEEMIRDPTTVMHAEDLQAGSSYNIPKLTQQTFGKLRAADEIIDEGHFIGKALGEGMNGYRPIVELMNSNFGIYGMAELSSAGNTFATTGGQFKMPMTVIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPSAAYGLTKSMIRDDGPGILFLPVKMMKEVKGSVDLDQCMPLNKAVYLHKASEESVRKGKAITVLTYLHGVKESQMALDTIKQQDPEADIDLIELRTLKPFDIETVRSSLARTHKAAILDESTLSGGVGATISALLHENCFYELDAPVRRLCMDDAPVPYASSMEQSVVKRASDLVLAVFDLIHN 761
BLAST of mRNA_P-littoralis_Contig810.8.2 vs. uniprot
Match: A0A7S4UV86_9STRA (Pyruvate dehydrogenase (acetyl-transferring) n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4UV86_9STRA) HSP 1 Score: 1006 bits (2602), Expect = 0.000e+0 Identity = 523/748 (69.92%), Postives = 600/748 (80.21%), Query Frame = 3
Query: 351 MRPPSEIKWAEVWETLVNDFGMDESKSADYSTI---SKEDQLKGYEMMQLCRQFENACNQAYMQGKIRGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGELFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDRQL-----------NPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNGRAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVREN-GPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAADSGI-TKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTDYNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINLAILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHIIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMIRDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAVTVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTHKVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSMEKAVVKRGEDLIEAVLDL 2546
MRPP ++ W +V LV+ FG + + YS KE LK Y+ +++ R FENACNQ YMQGKIRGFMHLDNGQE IP +V +I GDKK SYYREHTHA+ASGVD G VM ELF K+GGTC+GAGGSMHI+DK+T+FQGGWALVAEQ+ YA GAA+SIL+DR L N DDDR++IVF GEG +QNGRMAE LN+AAK+ LPLL LVIDNGRAINTFTPD+A NS+V+ QGKHYGVPG+ VDG + + G+AV DYVR GPAILQV TYRF+GHSPADPEHERGRK+EK WARA QDP+ FE+ + G+ T EEL AA+K A VKA+V+FAD SP PP SLAKELEYPD TDYNLK PA A EVN R++ A H L+ KA+ G+I+IGDAINLAI EEMLRDP TTIHAEDLQAGSSYDIPK Q+ +G +RAADEIIDEGH IGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNT+ATTGGQFDMP+TIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKI TAASP+AAYG+TKSMIRDNGP LF PVKMMK KG ++LGKC+PLNKA++LH AS+++V +G AVTVLTYLHGVKE+ SI+ I G DIDLIELR+LKPLDM+TI SL RT+K+ ILDEST+SGGVGA+ISA V+EEL+D LDAPV+RLCMDDAPVPYASSMEKAVVKRGEDL++ V DL
Sbjct: 65 MRPPIDLPWDKVTSQLVDAFGYSPEEVSAYSDALDNDKEALLKLYKALEMARGFENACNQQYMQGKIRGFMHLDNGQESIPGLVDYAIKNGDKKYSYYREHTHAIASGVDPGAVMAELFMKEGGTCKGAGGSMHIFDKETYFQGGWALVAEQLPYAGGAAKSILLDRALGISDDENIEKQNVAPPADDDRISIVFCGEGGSQNGRMAELLNSAAKDNLPLLMLVIDNGRAINTFTPDIATNSNVYEQGKHYGVPGLLVDGLNAGDVAKAGKAVIDYVRSGKGPAILQVHTYRFNGHSPADPEHERGRKEEKMWARAEQDPIKKFEATYIEKGVFTAEELKAARKEVLAEVKASVKFADESPMPPESLAKELEYPDAVDTDYNLKTPPAFADEVNARTISPEQMATITTHIEALQEKARAGDISIGDAINLAIHEEMLRDPTTTIHAEDLQAGSSYDIPKLTQQTYGQIRAADEIIDEGHFIGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTFATTGGQFDMPMTIIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKIGTAASPDAAYGLTKSMIRDNGPCFLFAPVKMMKESKGTVDLGKCMPLNKASLLHEASQQTVDRGHAVTVLTYLHGVKESLASIEAIQEEGFDIDLIELRSLKPLDMDTIATSLARTNKLCILDESTKSGGVGATISARVSEELFDLLDAPVKRLCMDDAPVPYASSMEKAVVKRGEDLVQGVFDL 812
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.D8LEK3 |
| Preferred name | odpA |
| PFAMs | E1_dh,Transket_pyr,Transketolase_C |
| Model size | 4375 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00004,RC00027,RC00627,RC02742,RC02744,RC02882 |
| KEGG ko | ko:K00161 |
| KEGG Reaction | R00014,R00209,R01699,R03270 |
| KEGG Pathway | ko00010,ko00020,ko00620,ko01100,ko01110,ko01120,ko01130,ko01200,ko04066,ko04922,ko05230,map00010,map00020,map00620,map01100,map01110,map01120,map01130,map01200,map04066,map04922,map05230 |
| KEGG Module | M00307 |
| Hectar predicted targeting category | chloroplast |
| GOs | GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0009507,GO:0009526,GO:0009532,GO:0009536,GO:0009570,GO:0009941,GO:0031967,GO:0031975,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464 |
| Exons | 18 |
| Evalue | 0.0 |
| EggNOG OGs | COG0022@1|root,COG0462@1|root,KOG0225@2759|Eukaryota,KOG0524@2759|Eukaryota |
| Ec32 ortholog description | pyruvate dehydrogenase |
| Ec32 ortholog | Ec-23_002710.1 |
| EC | 1.2.4.1 |
| Description | pyruvate dehydrogenase (acetyl-transferring) activity |
| Cds size | 2469 |
| COG category | C |
| BRITE | br01601,ko00000,ko00001,ko00002,ko01000 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791665.2990537-UTR-P-littoralis_Contig810:33861..35675 | 1680791665.2990537-UTR-P-littoralis_Contig810:33861..35675 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig810 33862..35675 - |
| 1680791665.5506399-UTR-P-littoralis_Contig810:56285..56377 | 1680791665.5506399-UTR-P-littoralis_Contig810:56285..56377 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig810 56286..56377 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791665.3132086-CDS-P-littoralis_Contig810:35675..35795 | 1680791665.3132086-CDS-P-littoralis_Contig810:35675..35795 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 35676..35795 - |
| 1680791665.3266723-CDS-P-littoralis_Contig810:36742..36838 | 1680791665.3266723-CDS-P-littoralis_Contig810:36742..36838 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 36743..36838 - |
| 1680791665.3392243-CDS-P-littoralis_Contig810:38474..38588 | 1680791665.3392243-CDS-P-littoralis_Contig810:38474..38588 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 38475..38588 - |
| 1680791665.3566864-CDS-P-littoralis_Contig810:39002..39047 | 1680791665.3566864-CDS-P-littoralis_Contig810:39002..39047 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 39003..39047 - |
| 1680791665.3680525-CDS-P-littoralis_Contig810:39915..40152 | 1680791665.3680525-CDS-P-littoralis_Contig810:39915..40152 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 39916..40152 - |
| 1680791665.3842304-CDS-P-littoralis_Contig810:40987..41185 | 1680791665.3842304-CDS-P-littoralis_Contig810:40987..41185 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 40988..41185 - |
| 1680791665.3987343-CDS-P-littoralis_Contig810:41990..42089 | 1680791665.3987343-CDS-P-littoralis_Contig810:41990..42089 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 41991..42089 - |
| 1680791665.4109092-CDS-P-littoralis_Contig810:42755..42863 | 1680791665.4109092-CDS-P-littoralis_Contig810:42755..42863 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 42756..42863 - |
| 1680791665.4261088-CDS-P-littoralis_Contig810:44111..44246 | 1680791665.4261088-CDS-P-littoralis_Contig810:44111..44246 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 44112..44246 - |
| 1680791665.4366934-CDS-P-littoralis_Contig810:45979..46078 | 1680791665.4366934-CDS-P-littoralis_Contig810:45979..46078 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 45980..46078 - |
| 1680791665.4503753-CDS-P-littoralis_Contig810:47741..47885 | 1680791665.4503753-CDS-P-littoralis_Contig810:47741..47885 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 47742..47885 - |
| 1680791665.461117-CDS-P-littoralis_Contig810:48128..48245 | 1680791665.461117-CDS-P-littoralis_Contig810:48128..48245 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 48129..48245 - |
| 1680791665.4743595-CDS-P-littoralis_Contig810:49608..49780 | 1680791665.4743595-CDS-P-littoralis_Contig810:49608..49780 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 49609..49780 - |
| 1680791665.4853237-CDS-P-littoralis_Contig810:51871..51978 | 1680791665.4853237-CDS-P-littoralis_Contig810:51871..51978 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 51872..51978 - |
| 1680791665.497581-CDS-P-littoralis_Contig810:52877..53075 | 1680791665.497581-CDS-P-littoralis_Contig810:52877..53075 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 52878..53075 - |
| 1680791665.510889-CDS-P-littoralis_Contig810:53986..54175 | 1680791665.510889-CDS-P-littoralis_Contig810:53986..54175 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 53987..54175 - |
| 1680791665.5235672-CDS-P-littoralis_Contig810:55369..55502 | 1680791665.5235672-CDS-P-littoralis_Contig810:55369..55502 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 55370..55502 - |
| 1680791665.5378585-CDS-P-littoralis_Contig810:56127..56285 | 1680791665.5378585-CDS-P-littoralis_Contig810:56127..56285 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig810 56128..56285 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig810.8.2 >prot_P-littoralis_Contig810.8.2 ID=prot_P-littoralis_Contig810.8.2|Name=mRNA_P-littoralis_Contig810.8.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=823bp
MSAMLARGTAVLVALHSLDTATQQTYAFVSPLLPPHVASQQAFTTGAKAA
YLRRHAAPTMRVGGGGEVGPLKATVAPPAEEQDQMVMRPPSEIKWAEVWE
TLVNDFGMDESKSADYSTISKEDQLKGYEMMQLCRQFENACNQAYMQGKI
RGFMHLDNGQEGIPAMVADSIVTGDKKMSYYREHTHALASGVDAGRVMGE
LFAKDGGTCRGAGGSMHIYDKDTHFQGGWALVAEQIAYAAGAARSILMDR
QLNPEGMKDDDRMTIVFLGEGAAQNGRMAETLNAAAKEKLPLLFLVIDNG
RAINTFTPDVAANSDVFLQGKHYGVPGVNVDGQDMMQMLATGRAVTDYVR
ENGPAILQVQTYRFSGHSPADPEHERGRKQEKRWARATQDPLVIFESEAA
DSGITKEELDAAKKRAGATVKAAVEFADASPPPPASLAKELEYPDVPSTD
YNLKAAPANAAEVNERSLPAHSKAEAEAHCSMLEGKAKKGEITIGDAINL
AILEEMLRDPMTTIHAEDLQAGSSYDIPKKLQEVFGPLRAADEIIDEGHI
IGKALGEGMNGYRPIVELMNTNFGIYGMAELSSAGNTYATTGGQFDMPLT
IIGAGGTAPNQALGAEHSQPFHAYVMGIPGLKICTAASPEAAYGITKSMI
RDNGPGILFCPVKMMKGVKGELELGKCLPLNKAAVLHAASEESVSKGTAV
TVLTYLHGVKEAQVSIDEIIAGGADIDLIELRTLKPLDMETIGMSLRRTH
KVAILDESTRSGGVGASISAIVAEELYDELDAPVRRLCMDDAPVPYASSM
EKAVVKRGEDLIEAVLDLAKNA* back to topmRNA from alignment at P-littoralis_Contig810:33862..56377- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig810.8.2 ID=mRNA_P-littoralis_Contig810.8.2|Name=mRNA_P-littoralis_Contig810.8.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=22516bp|location=Sequence derived from alignment at P-littoralis_Contig810:33862..56377- (Pylaiella littoralis U1_48)
CGGGAGGCAGGGAGTGCAGTGTACAGTGTGTGGGTGCGTGAAGCCTGAGC
AAATCCTTCTCCACAAGTCGTGCGCGGAACGAACTCGCGGAGATGTCGGC
CATGTTGGCTCGGGGCACGGCCGTTCTGGTAGCTCTGCATTCATTGGATA
CGGCAACGCAACAAACGTATGCGTTTGTGTCTCCTTTGTTGCCTCCGCAC
GTTGCCTCGCAGCAGGCCTTCACCACTGGCGCCAAGGCGGCATACCTGAG
GTATGGCATACACCGACACAGCGGAAGGTCGTCCGTGTTGACTGATCGTT
CATTGTGCGTATTCGTGCACTTTTTTTCACACGCCTTGGCTCGGCTTTAT
GCACAACGTTGTGTGTTGTGTCTGTCGAAACTGTCTGTGACGCGCCCTTT
GCGTTTACTGCTCTTCCTTGTCCATTATATCATACGCTGTATTTTGCTCT
ACAGCTGTATAGCTCTTATTTTGTTCTGCGTTCCTAGACCGTTGTGCTTG
TAGTCGTTACCACGACTATCATACCACCATCGGCTCTTGCTTGCTGCTTC
TGATTGCACGAAAGACGCAGCGTAGGGAGACAACAAATACGGAAAGGGAG
CATCGGGGCCAGGTGTCCTGCTGCTGCTGGGGTTCCTGAGTTCGTTTTTC
CTCTCTTCGTTTGTGTCGCCTTCTATCATATCAGACCTCCTCCCTTATGA
TACCCTCGTCGCGCATGCAAGTTCAACTGCACGCGTGTGTGTGTCGCGTG
TGCTCTGTCGGCATCCCTACTGCTGCTGCTGCTGCTGTTGTTGTTGTTGC
TGCTGCTGCTGCTGCTGCTGCTGCTGCTGATGTTGCTGTTGCTGTTGTTG
GTGTTGGTGTGATGCTGTTGTACAGGAGGCATGCCGCGCCTACTATGAGG
GTGGGGGGAGGCGGCGAAGTGGGCCCGTTGAAGGCCACCGTTGCCCCCCC
TGCGGAGGAGCAGGATCAAATGGTCATGCGGCCTCCATCCGAAATCAAGT
GGGCAGAGGTACTGTGCGATACGAGCATGCAGAGTGTTCTTTGAGCGTGG
GGGGAACAAAATTGAGCGTCCGACTGTAAGACAGCAGGATACCGACAATA
CTGCGGTCGTTTGGACGCAAACGCTCCAACGATACATACAGCACTTGATT
ACGTATCATTCATCATACCAGACGCGAAACGCTTATCACTCCCACAGCAG
TCGTGGTGGGTTTTGCGCGCCTGCTTGCCTGCTTGCCTGCTTGCCTGCTT
GCCTGCCTGCCTGCCTCCGCATCCCTTCGGTACTTCTGCTGTTGCACCGG
AAAGCGAAGGAGGACGGACTACTTCTTTGATTCATTCATTTTTGCCTCTC
CGGGATCTGCCCCAACCTCTGCTGTCTGTTATTTTGCATGAAAGCATTGC
TGTCCAGGTATATCACTGCCCAGGCGCGATGCAAGCGCAGCGCAACAGAG
TTGTTTTTTTATCATACTGCTGTATTATCCGCTTCTGATCGCTGTTGCTC
CTCGTTTCCCCCAACAATCTTGCACGCTGCATAATACCAGACCCGCAACC
CGTTTCTTAATGATACATCATGACGAAAATTGGAAAATTGGCATTATCAT
GCGGCCCTGACATGGGGTCACACGTTTTGATTAGGTTAAACATCGAAGCA
TCATGCAGCAGTAGTCCAAACGATCGCACCGCCTTGTACGTACAATCTGC
ATGACACGGCAGTCCTCAGGACCCGCCTGACTGCCGAAAACATCCCCGGA
TGAAGCAGCCGGAGTGCGTTGCCTGCCGCCACCCCGTTTTGTTTTGTGCG
TTTCATTGCTCCCCGTTCTCGAAAAGCCTCCGCATCACGATGGGGGGGTA
TCTACGTTGTCCCACGGTACTGCCCTAGGAACGCCGTATAGCGGAAGAGG
GTACGTACTCGTACAGTGGTATTTTGCATGTCGAATTCGAGCTGGTTTTC
TCAGCCGGCGTTTGAGCCGATGTTCCTCGTACGAATTGCAAACTCAACCG
CGGCCAAACGTACAATACTGCAACGCCAACTTTTTTTATTCACTCGAAAA
AGTTTGCTAACAGTTTGCCGAAGCTAACATTGATTTGTGAAGGTCAGGTG
TCAGGTCACGCACGTTTTTCTTTTCCATCTCCGCATCAAGCACACTCAAA
ACGTTTGCCGAATGTCTCGCTGTGTGTGTGCGTGTTGCATCTCAATGTGA
AGGTTTGGGAGACTCTGGTGAACGACTTTGGCATGGATGAGTCCAAGTCC
GCGGACTACTCTACCATCTCGAAGGAGGACCAGCTCAAGGGCTACGAAAT
GATGCAGCTATGCCGCCAGTTCGAGAACGCGTGCAACCAGGCGTACATGC
AGGGGAAGATCAGGGGTTTCATGCACCTCGACAACGGACAGGTTCGGCTT
GGCTCGGGACGGTTGGAATCGATGCTGCATGCCATTTTCTCGGTAGCACG
CGCGGACTGGGCTGAGAGCGTCTTTGTTGTTTTGGTTATCCGGGAATCTC
ACATATTATGCAAACGATGAATGTGTATTATCAAATGAATGTCGGACGTT
GTGAGTCCTCGGAGGAAGTGCAGTCGGTACCCCCCCCCCCCCCCCCCGCC
CTACACACACACATCCCGCATAAATGTGCGCGAGTAGCAGAGGCACAGTT
CGTGACACACGAAGGGTATGATCTACAGCATTCTCCCCGTACCGGTCAAC
CTGCTCCTGGGAGTACGTCCATTAAAATGTGATACCGTACACAGCTGCAG
CGGCACCTAAAGGTAGATGATTGTGGGTCGTTTTTCCAGGCTACCGCTCA
CGTGACAAAAGACTCTCACTGCCCCCCCTTCCATGTGCACGCGCTTGTAG
ACCAAGAACCTGTCGAGTCAATGCCCCCCTGAGGTGGCAACAGACCCCCC
CCTCTTTCCCGCTCTCCTCCATGCCGCTCTTTCTCCGTTCTGCACATAAT
GGTACAAGCATTTGGTGGAGATAAGTACTTCTTCTACCTAGTCTCTACGG
CTTACGTGACGAAACACCACCCTCCCCCCTTATGTCAGAGAACTGCACAC
GCTTCTTTGAGCAAATCGTTGTGCAGCCTACTACACTCGCATGACAGAAG
ACGCACGTACCCCTCGCCCCCGCCTTCCCGCCCTCCTTGTGGGAATGAAA
CAAGCAATGAAACAAGCCCCCTTTTTTTTGAGCAAACATTTTTTTCGGTC
TCCCATCACACATCATATACTCACGCGACAATAATGCACACACCCTCCTC
CTCCTCCTCCTCCTCCTCCTCCCCTTCCTCCCATCCGCACGCGGTGCTGC
AGGAAGGCATCCCGGCCATGGTGGCGGACAGCATCGTCACCGGCGACAAG
AAGATGAGCTACTACCGCGAGCACACGCACGCCCTGGCCAGCGGCGTCGA
CGCGGGGCGAGTCATGGGAGAGCTGTTCGCGAAGGACGGCGGGACTTGCA
GGGGGGCAGGCGGGTCCATGCACATCTACGACAAGGACACACACTTTCAG
GTATGGATGGGTGTCTGGTGCATCGGGTCGGCGCGCACGGCGAGAATGCT
TCATTCGGCATCGGTGCTTTTTTTCGTTGGTTGTGGGGCTGGGGGGTGGG
GGCCGAGCTGGCGGTCTCGGGTGTTTTGTGGGGATGCTGCGGTGGTGATT
GTTTTGTGTCACACGCTTTATCGTTGTCGAGAAAGAGGCTCCCGAAATAT
TACCAGGGGGAGAAGGAGGTGGAAGAGTGGGGGTCTCAACGGTAGCTATT
GTTGTACGTCAACTCTCTCGAGGGCCCCAGATGATGCGCATTGGCGACGA
GGGCATGCGTACTTTTACTTGTCCTTTTGTCCACGGAATCGGTTGTAGCG
ACAGCCGCAGCAGCGGCAGCGGCAGCGGCAGCGGCAGCGGCAGCGGCACC
TACACTTTGCAGGCGCAGTATGCATTGCTTGGTTTTCCTTGTCTTGTCTT
GTCTTGTACTTGGACGGGTCTTTCTCTTTTTTGCTCTCGTCATATGAACA
AAAAATATATATGCCGACCTTCCTTATATTTGACCAACCCCGGCTCGGCT
GATCCTCCCAGTTTTTGCACCGAAACGTGCAGAATGGCGTCCAAAACGAA
TGGAATGGCAACACACACAACACAACACAACACAACACAACACAACCCAC
AACACAACCCACAACACAACCCACAACACAACACAACATAACACAACACA
AGAATACTTTCAACAAGGAGGGTGTGCCTTGGTAGCGGAGCAGAATGCAA
CAACTCCAACTCAAAAGGGGAGGGTTCCTGTTTGGTTGGTTGCTCTGATT
GTCGCGTTTTGCCTTGTTCTTGCCAATTGTGTTTCTCTCTCGTTGTTCTT
ACCATCATATTCCTGTTGTCATTTTGTCCCTCTGTTGTGTAACCGACAGG
GAGGATGGGCGTTGGTGGCGGAGCAGATTGCGTACGCGGCCGGTGCCGCC
CGCTCGATCCTCATGGACAGGCAGCTGAACCCCGAGGGCATGAAAGACGA
TGACCGGTAAGTGCTGGCTGGGTGGTTGGGTGGGGAAGGCGGTAGCACGG
CTACTGTCTGCCTGCGTGTCTGCCTGTCTGCTGTGTGAAGATTGCGTGCA
GAGCGACGCACAGAGAGTTGTCTGCACGGCGGGATGACGTGGTGGAAATT
TGGAACCTGAAATTTTACAGGAAAGTATTTCTCAGAGGAGATTTTGATAT
GCTGTATGCATAACCATGCACATCATAGATATGTGGCGCAAATCTGCGGC
CTTCAACCCAGCTCGAGGCAGCCAGTGAACCAATCAAATGCAGTCAATAA
GAAGATTGATAAATGTTTCATCGAGTCGGCGGAAGTGGGGGGCAGGAGAG
GGGGGGGGGGGGTAGCCAATTCAATGTGTCGCGGCCGCTGAGCCAGGGCT
GAGGAAGTAGGTTTGGCATCATGCGAGCGATATCGGTTGAGTCTACCTTG
TTCGCCCAGTAAAAAAGCTGAAGAGTGTTTCGCGGTGCGGACGTCGATGT
GTCGCTCGCTGCCAGTGCGATGAACACTCAGCTTTAAGCTCAGAATAGCG
AGACTTTTAGGTACCGACGAGCAGTGTCAGGTGGGGTGGCAGCGGGTCAA
TCTGTTTTTTTGCGGGTGGAGTTTATGTGGGCAGGGGGAGAGGGGGGGGG
AGGGGGGCGAACATGGACGGTGACCGACCATCGTGGGGGGGTGGCGGCCG
AGGTGACCTGTGGTGGATGAGGTAGGAAAGCGGAAAGAAGGCGAGGCATT
TTTGGATTATTGAATGAAGTTGCAGAGTTGTGACAAGGTGGGCAAAAGGG
GCCGGGGGGGGGGGGAGGGGCTGCGGGGGCTGCGGGGGTGAACTTTCGGG
AGGGAGGGGGGGGATCGACCGGTTGGCGGGGCCGGGAACGGACCCAGAGG
TCAAAGCTGCGGCTTATCTCACGGTCGACGAGTCTGCCTGCCTGCCTGCC
TGCCTGCCTGTTGAATCCTTGCGCCACTGGTTGACCACGCGGTTTGAATG
TGTCGAGCGACGGACGGCACACGTCGGCGCTGATTACTTCGTCGCTTCCA
ATACTTGGATACAACAGCTCTCGACATGATTCGTTAATTATATTTGTGGG
TTTGCGTTCCTCTTGATCACTTGTGTGCCTTGTCCCCTGCCATGTGGTGT
TCTCTGGTTGTGAGTTGGTGGAGCAGGGCGTGGTCTCGGGGGGTAGTTGG
TGAATTATAAGAGTATTCTCTCCAGGCGTTGACAGAGCTTCCCTTCCGAT
GTTTGATGAAACTTTGGTGTGTCTGGCGGCTTGGGGCGGTGGAACAAAGC
ATCTAGCCTCGCGCACAGAACAGACAGTCGCTCTTCCATTTGCCAAAGAT
GACGAAACAAGTATTTTCAGGATGCCGATCGTGCCAGATCGTCCGTGGAT
CTAAATGACTCCACGAGATTTAATCCCGTCGCCTGACGAATCTTTTGTTG
TTTTCGTTTGGTACTAGTCTGTCTGGTTTGTTGCGCAGGATGGCCATCGT
GTGCATCCCTCTGGTGATTTTTCAACCGTTACAAGAGAAGTAAGCACTCG
TCGTCGCTCGTCGAACCTTTACTTTTTCTGCCGGCCGAGGCACGATGCGG
TCCAGGAAGGCGCGCTCGTGTTACATCGTTGGTATGCTCAGAAACTCTCG
AGGTTTATGCTTCACTTGACGAAAACTTTGTCGTTGTCTTTTACGGTATG
GGTTCACTCGTTCAGGAATGGCTCTCGCGCCAGTTCGCGATTTTACTGTT
GGTGCTGTTGTTGCTGTCGCTCTACGCTTGTCGTTTTTGTCGTTGTAGTT
GTTGGTTGTTGTTGCCGCTGTCGTTTTATGCTTCTTGTAGTTGGCGCACG
CGAAATACATGGATGTGTAACACAAGAAGTGTAGAACGTTACATACACAA
AAGTTTTGAGCGAGCAACCCCCCAACCCTTTTTGCTGCTAATGGTGTGCC
AGAGCCGGGTCTTTTCGACAGTTTGGTGGTGAGGAGTCTTGGTTGTTGTT
GTCGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGTTGTTGCTGTTCTGGT
CGTTTGTGTCTTTCCTACGATTGACTTGATTTTTTTTTTTTCATCAGGAT
GACGATCGTGTTCCTCGGGGAGGGAGCGGCGCAGAACGGCCGCATGGCGG
AGACCCTCAACGCCGCGGCGAAGGAGAAGCTGCCGCTCCTGTTCCTCGTG
ATCGACAACGGCCGTGCCATCAACACCTTCACGCCCGACGTGGCCGCCAA
CTCGGACGTTTTCTTGCAGGTACTGACTGTACCGCTGTACAAAGACTGCT
GTACAAGGTGGCAGTACCGATCCTCTCTCGGGACCAACCCGAGCATTGTC
TTTGCCTGTGGTAGGGCTCGCACCCGACTTGCTCCTACCCGGGTACCCGC
CCTCGGGTACCCGCAACTGAGTAGCCCCACCGGGTATCCAGTTCCGATTT
TTTGAGACGGGTGCGACCCTTAGTATCGCACCCGACTTGCTCCTACCCGG
GTACCCGACCTCCGGTACCCGGAACCGAGCAGCCCCACCGGGTACCCGGT
TCCAATTTTTTTCGTCGGGTGCGAGCCTTAGTATCGCACCCGGCTTGTTC
CTACCCGGGTACCCGACCTCCGGTACCCGGAACCGAGCAGCCCCACCGGG
TACCCGGTTCCAATTGTTTTCGTCGGGTGCGAGCCCTACATAGCCTGTGG
TGCCTCACTTTTGTCATGCGCGGGTATAGGTGGGTGTGTATGCATCTATT
GATGGGTATGTGGCGTCACCCCCGTTGTGATTTGAGGCGGGTTTCGTGTT
TTTATTCACTACTGCACCCCCGTTGTGATTTAGAGGCGGGTTTCGTATTG
CTTGTCCGTGCCGTGTGTCGTGTTGTGTTCGTGTCGTGTCGTGAAACGCC
CCGTGCGTTCTTGTGTTGGTTTCATTGGGACAACCATTCTTCTTGCGAGC
GTTGTGAAGCGCTGTCGTTTTCGTAGGAGCACGTAGTCGTTCATTCGTTG
ACACCTTCGCGCCAGACGTCGCTATTTCGGGCGTGTTTCGTGTAGGTACT
GCATCATCGTGCCGTATTTGGGAGTGGGATGGCAAAGGATAGGATCGGAT
AGAACCCTAACCTTCGATGACAGAAGCAGATTTCGTGTGCTTTCGTGCGG
TGTGCTTCTTGCGTTGGTGCCGGTCGCCCTGTTCTTCGCGCAGCATCCAT
CCAAATCGCTCATTTGACGGGTGTCTGATTGTTTCCAACCCTAACCGTAT
CATATGATATCACTTTGAATTGTGTTTTCCCTTTTTTTTTTTCTATCACG
TTTTTTTTTTTTCCATCTCTTTCTTCTGGATGACAATGTACAGTGCAGCA
GTGTGAGAGTACATTATCACCCAACGCTGCTCAGTTTTGTACAAGATGGT
TAACTCTACGGAGATGGACACGGGATGGGTTGATTGACTAAACGAATTTT
GATTGATTCCAAAACGTTTTGTATAATAATTTCAACTCTTGCTGTGCACT
CCACGGAATGAACACGGGATGTAGTAATTGATGAATTTTGCAATGTTGAG
TCTAAAATGTTTTACATTATTTTCCGCTTGCTGTATCCGTGTGGTGGTGG
TGGTGGTGGTGGTGGTGGTGGTGGGCGTGCAGGGAAAACACTACGGCGTC
CCAGGAGTGAACGTTGACGGGCAGGACATGATGCAGATGCTCGCCACCGG
CAGGGCTGTGACAGACTACGTCCGAGAGAACGGGCCGGCTATTCTCCAGG
TGCGTGTTGCTGTTTTCTTGGTGGTCAGAACAACCCATCATCTGTACGGT
GCGACCAGAACAACCCATTTTATTTCGGGTGTATGTATGTATGTATGTAT
GTATGTATGTGATATGTGTGGCATGACAGCAGGATTCGTTGAGGCTTTTG
GTGTTTTATTTCCCGGCCTTCAGTCGAAGTATATATCGTATGTACACGAT
GCACGACACGCGAATGGCAATGTGTGGTGTGGCATTTTGCAGGTCCAGAC
CTACCGGTTCTCTGGACACTCTCCGGCCGACCCCGAGCACGAGAGGGGGC
GCAAGCAGGAGAAGCGCTGGGCGAGGGCGACGCAGGACCCGCTCGTCATC
TTCGAGTCGGAGGCGGCCGACTCCGGCATCACGAAGGTGTGGTGGTGGTA
TGGTGTGGTATGGTGTGGGTTAGTGCGGTGCCGTGTGGTGTGGTGCGGTG
CGGTGCGGTGCGGTGCGCTGGGGTGCGGTCACGTGCCGTTCCGTACCGTG
CGGTGCAATGCGGGGCGGGGCGGAGCGGTTACTTGCCGTGCCGTGCCGTG
CCGTGCGGCGTGAATACGTAAAGAGTGTCTCCTGTCATGGGTGCGGTGCA
ATTCGAGATGGTGGCTTCATTTGGTGGTGGGTGCGGTGGGATCAGGCAGC
GTGCTGTTGTTCGTGCGGTGGGGTTAGATAGCTTTGTGGAAGGTGCGGTG
GGATTAGATGGTCTACTGTTGAACCGGTATGTAGATGCGTTGTGGGTGGA
AATTGGGGTGAAAAATACTACTTTGCATGCGGTGGGATTGTATACTGCTG
TAGCCTGCCGTTATTGGTGCGGTGGATCAGGTATGTTACTTGTTTAGTTG
CTTCGGGATCCGAAAGCTTGCTGTTGTGGGTGTAGTGAGGTTGGATAGCT
GTTACAGGTGCGGTGAGATTACATAGCCTACTGATATACCTGCGGTGGGA
TACGATGAATTCCTTTTAAATGCAAGGTGCGGTGGGATCAGGTGGCTCTC
TGTTGTAGGTGCGGTGGGATTTGATGACCTACCGTTACAGGTGCGGTGGA
ATAAGTATTGCTTCCTATTGTACGTGCGGCGGAATTGCATACAGTAGCTT
CCTGATTCAGGTTGGGTGGGGTGAGATAAGAGTCATGTCAAAAGGCGCGG
TGCATTGAGATGGCTTACTCTCTTAGGTGCGGTGTCACCAAGAACGAGCT
TACTGTTGTATGCGCGTGGGGTCGAGAAAGGCTACAGCTGTTGCTCTTGC
GGTGGGGTCAGATAGCTCATTGTTTTGTACGCGTGCGGTGTGGGTCTGAT
AGCTTCCTGCCATGGGTGCTTGAGTTCCCGGACAACGGGTTGGCGGTGTG
TGCACGAAAGATCGCGCCCGCCCACGCAGGTAGTCCCGGAGCCTCGGGGC
CCAGAAAGCTTCCTGCTGTGCAAAAAAGCTTGGCTCGCGTGCAGAAGGCA
GGTTCGAAGCCCCGAGGGTGTCAAATCATGGTGCTGCGCTTGTCGAGCGG
TACAGCCAGCAGTAGAGCAGTTCGATGAGATGTGAGGGTTCGAGAGAAGT
GGCGTCGCTTTCTTTTCTTTTCGGACAGGGTGTTTGTTCCCTCTCGCGCG
TGGGGAGGCATTCATTCGGGCTCTTCTTGCAGAGGCGACGGATGTGTTTA
GTGAGAACGTTCGTTGAGGAGCGCTTCGAGTTTCATGCGGGAGAGGCGCG
ATGTGTACTGGGTACTAAAAGCAGAGTACGTTATGTCCTCTGCTGGGTGG
GTTTTCTTTCCCCAATGTACAAGTAGGTTTCAGATATACGAACCGTTGTG
TGTTTGAGTGTTTTTTTTTTTTTACTCCGATATAAAAATATAAAAAAAAT
CGTAAAATTCCGAAGCACAAAAATTGTTTCCCGTACACTGTATGTGTTCG
AGTGCTTTTTTTTTACGTCCGATACGTACAAAAATCTGGAAAAAAAATCT
GACACTACGAAGCGAAAATTTTGTTTTCCCATACGATTATACTATCACGT
TTTCACTATCAATACTATCATACCCCGTGTTTGGTTCTGTTCTCACCAGG
AGGAGCTGGACGCCGCTAAGAAGAGGGCGGGCGCTACCGTCAAGGCCGCC
GTGGAGTTCGCCGACGCGTCCCCGCCCCCGCCCGCCTCCCTCGCCAAGGT
AAAAGAGCCACGCAGCAGTTTCATTCATCAGTCTCCGTCGGGCGCTGTTT
TGGATTGTTTGTTCTGCTCCAAGGGAAGGTCGTCGGAAAAATGTATACAG
AATGTAGCCGGTTTTCTCGTACAAATGACAGGCGAGCGTTTTTTTTTCGG
TCCGAAGCGCCACTTACCGTAGTCTCCGTTGGGGGCGCTGTATTGGATCT
TCCGTTCTCCCCCAAGCGCCAGATCGGAGTCGCAGAATGTAGACCCGTCT
CTCCTTGCATCGTACATATGATGAGGCGTTCTTCTTCCGGTCTGAAATGC
GTCACGTTAGTCTCCGTTGGGCGCTGTTGTTGACTGTTTCTATGCTCCTA
TCCAAGGGAAGGTCGGAGCTACAGAGTGCGTGTAGTCCGTCTCCTTGTAT
GAAATCATACGAGGTGGCGTTTTTTTTTCGGTCTGAAGCGTCACACAGCA
TAGCACAGTATAGCACGGCGGGCGCTTTTTTAGCGCACGCATGTATGATA
GCCCTGGCGTGCGTGGTAAGATTCTGGTTTCCTTTTTTTGCGCGCCGTTC
AAGGTAGTGCCCGATTTTAGATGCAGCGGCCGGAATGCGCATTTTTGGGC
TGCGCACGATACGCAGCTCCATTGCTGCGTAAAGTGTATGGGATAACTAT
TGGATTTTGAGGGAATCTAATGGTACACTTTATCTTTTACACTTATGTTA
AACTCTCACCCTGACCCTCACCCTATATAACCCTTACCCCAACCACAGTA
GTCCTTTTTCTATAAGCAAGGCCAATATGGATTCCACAAATCCTCCGCGC
GCGCGGCGGGATTGTCATTCCCCCAATCTCATACTTGAATCCGTACGTTT
ACTTCAAGGAAGGTGCGTAGGCATACTGCTGATCTGCTTGTGTGCAACGC
TGTCTGTAGGATGCAAGATGGGGGGGGCGGTCGCTGTTGGGACGCCCACC
CGAGGCATGTTCCATACCGGTATTGTGAACTCTGTATCGCATGGAGGGTG
TGAGATTCGTCCCTTATTTCGTTGAAAGCTGAATGGGCTCCCTGTGCGAG
TGTGTCTGTGGGTGTGTGTTTGATGGTTTTGAGGTCTACAAAGTGCTTCG
CTGTAAAGCAACCTGCGTCTTTTGAGAGGTCGGTTGTTGTGGAGGTTCTG
TTTTTTTGTCCTCTTCCGCCACTTCGTTGCTGGATGCGGTGGAAATGGAG
GCAGCGCCGGTTTTCGTTTCCACCTCAACAAGCGAAATCACGAGACGGGA
CATTTATGCTTGCAACCATAAAAAGCAGGCATGTTTTTTTCGCACCGTAC
GATATCATATGTATCAAATCCTGCACACGTGACCAAGAGGAAAAGCCAGG
CAAGTAAGCAAGGACCTGAAAAAGATCACAGGTATTATATGATATGATGA
AGATACGGGGTTTTTGACACATACGTGAAAAAAAAAAAGTCCCTTAAAAA
TAACAACGGCTGAATAATTATTAATTGAAAGATCAGAGACACGGAGGCTT
TGACGCGTTTGTTCGAAAAAAATCGCCTGAAAACAACACGAAAAGATCAA
GGACATTGTTATCTTACGTGAAGACAAGAACACGGGGACTTTTGACACGT
GTGTTAAAAAATTCGCTCGGAAACAACGGCTGAAAAACGCATGAACGAAG
TTATTGTTTTTGTGCCTCCTCTGTGTGATGCGTTTGAAATTGTTTCATAC
CGAAGTATTTTTTTATCCTGACGTCGAGCAGGAGCTGGAGTACCCTGACG
TTCCGTCGACGGACTACAACCTCAAGGCGGCCCCGGCCAACGCGGCGGAG
GTCAACGAGAGGTCGCTCCCGGCGCACTCCAAGGCCGAGGCAGAAGCTCA
CTGCAGCATGCTCGAGGTGGGGGTGGCTAGCTTTGCGTGCTTGCCTTGCT
TTGCTGAACCCAGCCCCGGATGTCGCTTTGTTGGCGGTACTGCTGTAACA
CACCACCTAGATTGTATGTAATGAATGATCCGTGAAGTTGAAATTTTGTT
TGTTGGTGGTGGTGAAGATCGGTGTGTTCTTGTATCGTACACCATAAGAC
AAGGAACGGCGCGAATCTGTAATTTCCTGGGCAACCTAACTTGCATTTGT
AGCATGTTGGTTTGCCCACATAAGATGTCTGCGAGCCGTGAAGATGCACT
ACAACGGCGGTATGTAGCATATCCGTGGCTTTTGTAGGAGCGACGTCGGT
GTGCCTAGCACATTGTCCTACTCTCTGCGAATTTTCAAGATGGATATTTT
GTTTTTGTTCGGCCTTCGCCTGAAACGGCATGTAATACTGGGAAAACAAT
TTTGGCTACGAAAGCTATTGGTGTAGCTCTCTGCGGGTGGCTTAGAACAG
CCGTAGAGTGATACCACTCACTTGAGCTTATCGTAATGCGTGTGTTGCTT
TTTTGGCGTATTCTCTGTGAGTTGCCAAGACACCGCTACAGTAGAACGGC
AGCATCAGTGATTGATTGTTTTTCTCCTTTCTTGTCTAGAATGTTTGGAA
AACTGTTGGCGACTCGTTTTTCACCTTTTTGTCTCTTAGCATGTTTGGAA
AACTGTCGGCGAATTGTCGAGGTCTACACACACACACACACACACACACA
TGGTTTTTGTCAACCTTCGAGAGAGGGCACCAAGCCTCGACCCCACCTTT
GGTTCATGCCGTATCGTGCCAGACATCTGGTCCAGAGGCAAACACAGTGG
TCGACTTTCAGAGGATACGAAGCCCAAACGCCGTAAGGGAGCAAGCACAA
AGCGCGTTGTCAAATGTCTGCACGAGAAAATTACAGCATTAGCCAATACA
GGCAGACATACATGACTGTGTGCACAATTGCTTGGGAACGTGTGATTGGT
CGGTATAATTACCGCCCGCTGCCCGTTGACCAATCGCTCATGTTTGTTGG
GGGGGGGGGGGGTAATCGGATTAGAGGGTTGGGTTGGGTTAGGTTGTTTT
GCACCCCGGGGTTGGAGGGGGTGTTCTAAAGTTGGGTTGGGTTGCGCTCT
TTTCCATTTGACGATTTTTCGCGCGGCACGACCACTGTGGTGATCCGCAA
CGCAAACTCGTTTTTCTGTTTTTTTTTTCTTTTTCTTTATTTTTTCTTTC
CGTACGTGGCAAAGGGGAAGGCGAAGAAGGGAGAGATCACCATCGGAGAC
GCGATCAACCTGGCGATCCTGGAGGAGATGCTGCGCGACCCCATGACCAC
CATCCACGCCGAGGATCTCCAGGTTTGTGCGCGAGGAGTGGCCAGAGGCG
TTATCGTGCGTGCTTCCGCGTATGTGTCTGTCTGTGTCCACGTCTGTGTC
CACGCGGTGTCTGTGGCTGTCGCTGTGGCTGTCGCTGTGGCTGTCGCTGT
GGCTGTCGCTGTGGCTGTCGCTGTCGCTGTCGCTGTGGCTGTCGCTGTGT
CCTTGTCCGTGTCCGTTCCCATTCCACGTTGCGTAGTATTTCGCTCCCTC
CTCGTTCGTACAAAAAACGCGCACACTTTATCCCGAGAAGGTGGGGCGAG
AGGTGTCACCAGGCAGAGCCTCCTTTAACGCCTCGTTCGTACCCTATGAT
GGAAGGTTCGGACGCTAGAAGGTATCATACATTTTCCTCATGACGCGATG
TGAATGTGTCTGGTTAGTGACCACGGTCTGTAGACTGCTGTGGTGGTGAG
CTACATACTTTGATGCGAAAATCGACAACAAGCTTGATACGCCATGTCTC
TGTCAGCAACGTGCGCGCGTTGCGTTGTTTGCTGCTCGGGTGTCTTGTGT
GTGGAGGAGGATGAGGTCTTCCGTTGTGTACCGTGTTTCATGTACGTATT
TTCAACGGGGTGTGTGTGTCTGCGTGTGCGTGTGCGTGTACGTGTGCGTG
TGTGTGTGTGTGTGTGTGTGTGTGTTTTCCGCGTGAAGGCGGGTTCGTCA
TACGACATCCCCAAGAAGCTGCAGGAGGTGTTCGGGCCCCTTCGCGCGGC
GGACGAGATCATCGACGAGGGACACATCATCGGAAAGGTAAAAGTAAAGA
GTGGCATGTAGAATAAAGACAAATATATAAAAAAGAAAGCTGCTGCTGCT
GCTGCCGCGGCGGCGGCGGCGGCGGCGGCTGCTAGCTGCTCGACGACGTT
TGGTTTGTTTTTGAATACAAGCATGACACATTCGGGCAGTATTTGTATAC
TAGTAAACAACTTGACCGGAGGCGTGCGTTTTTTCTTGACGGGGGGCGGA
GCCACATGCTACTGTAGCGAAAGCCTCTCTCTGGTGATGGTTTACAAGGG
CGTGTGCCATTGGATGTGTTTCGGGACGCCGTGATATTTACTGATGCGGT
GGTAGTTGCAGTTTTCACGGAGCATGACCTCGTGGCGAACCCTTCTACCC
CCGGCTAAAAATACCGCCGTCGAAATTTTCCATATTTTCATAAATACATG
TATCTGTCATATCATACACAAAACACTTTTTAAACAAGCAGGTAGGCGCT
CGGAGTGAGCATGAACGGGTATCTTATGGCGAACCCTACCCCCCCCCCCC
AACCAATACCACTGCTGTCGAATATGTTTTTATTTTACCACACACTTAGT
AAGCACTTTTTTTCCAGTCGTTTGGAGAGGGCACGCACGGGTGACAGAAC
CCTAATCCCCCCCAACCAATACCACTGCCATTGTGCATTTTGATCTTACC
ACACACACGAACAAATAAAAATTCTGAGGCGGTCGGAACAGGCACAAACG
GTTACTTCACGGCGAAATCCCCCAACCAATGCCACTGCTGTCGAACATTA
TTATTTTTACCATAAACGAACGAACAAATATTTTTTTACTAGGCGCTCGG
AGAGGGCATGAACGGGTACCGGCCGATCGTGGAGCTGATGAACACCAACT
TCGGCATCTACGGCATGGCCGAGCTGAGCAGCGCCGGCAACACGTACGCG
ACCACGGGCGGGCAGTTCGACATGCCCTTGACCATCATCGGCGCGGGGGG
TACAGCTCCCAACCAGGCTCTCGGGGCCGAGCACTCTCAGGTTTGTTGCT
TGGGTTGGATATGCATTTGTATTTGCTTGTTCGGTTGGTTTGTTGGTTGG
TTGATTGGTCATTCATGTCATATGTCTGTTTGTTTGTTAATGTTTGCAAG
TTCCATTGTTTATTGTCTTCGTCTGTTTGTTTTTCTTGTTGTTTTTTGTT
TGATCGTTTTTTTCCTTCTTTTGCTTGTATTTGTTTGTTTGCTTATTGTT
TGTCTGTTTATCTGTTTATCTCTTTGTCTTAATGATTGTTTTGATTGATT
AATTGATTGATTGATTGTTGATCAGTTTGTTTGTCTGGTCCCGCGTGATT
TTTTTATTAATGCTTGTAACCTTTTTGTTACGTGTGTGTTTTGGTTGCCA
TCTGCTTTACAGCGGTGATGTTTCGTTTTGTGGGGTGTGTTTGTTTGTGT
GTGTTTTTTGTTATTCATTTATCCTGGTTAAAAAATTGTGAGCCCTCCGT
CACCCCCCCCCCCACGCTTTGCACCGCCTCATCCGAACGCGTTTCATTGA
AGCCATCACGGAATTCATTCATTCCTCACCGGTCGGATAAAGCATACTGG
TAGATATTTACAGCAATGGTGTGGTTGATCGATGGCGACTTCGGAAACAA
CCGATGTAGCACATGTGAATGGAGACAACAACCAACATCCGCGACGACAG
CGACAACAACACGAATGCCTACGTACCTATACCCAACCCAACGCCCCCCC
CCCCCTCCCCGTTTTCCTGCCCGCGCGACATACGTATCATATCTTACCCT
TTCTTGGAACATTTTTCCTGTTGAAACCAACCTTTCTCGGTCGTAACATT
TCCCCCCCCACGCACAAATACGCAGCCCTTCCACGCGTACGTGATGGGCA
TCCCAGGCCTCAAGATCTGCACGGCCGCTTCCCCCGAGGCAGCCTACGGC
ATCACCAAGTCCATGATCCGCGACAACGGCCCGGGCATCCTCTTCTGCCC
TGTGAAGATGATGAAGGGGGTCAAGGGGGAGCTGGAGCTCGGCAAGTGCC
TGCCGCTGAACAAGGCGGCCGTGCTTCACGCCGCTTCGGAGGAGTCGGTC
TCCAAGGGGACGGTGGGTGTCTGGCTTCTGTCGTCCCTGGGTGGTGGTGG
TGGTGGTGGTGGTGGTGGGTTGTCGTTGCTGTTGTTGCTGTTGTTGTCGT
TTTGTCTGGCTTCTGTCGTCTCTGGGTGCTGGTGATGGTGGCGATGGTGG
TGGTTGTGGATTATCGTTGTCGTTGATGTTGTTGTCGTTGTTTTGTCTGG
CTTCTGTCGTCTTTGGGTGGTGGCAATGGTGGATTATCGTTGTTGTTTTT
GTTGTTGTTGTCGTTGTCGCTGTTCGGAGCTGTGCGTGTGGTGTCGAGAT
GTCTTGGTCATACAGGTGACGGCATGCTTTTGTTGTTTTTTTACCCCTCT
GGTTGATCGTTTGTTGTCGTCATTGTTGTTGCTGTTTCTGTTGCTGTTCC
TGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTATTGCTGTTGTTGTTG
TTATTACCGTGTTGTTGCCGCTGTTGTTTAGTTTTACTTTCTTGGAAAGT
TAGGGACATACGGTCAACTCCACAAGCCCTTGTCCTCCCTCTGTAAAGTA
TTCATTATTCATCGTATGATAAGCGTATGGTTCTTGTTCTCGTTCTTTTC
CTTGTCCTCACGTTTTTTCTCGGTCCTGTCGTTGTTCTTGCTTTTATTAT
TTTTTTATCGGAAGGATCAACCAATTTTCCTAGCCCCTTGTCCTTATCAG
AAGCTCATGTTACGGTCCCTACCCGCCGATGTGGCAGGCATCCGTGTCCT
CTCCACTTCCGTTTCATGATGATGAACATGCTCTCTGAATTCAGTTCAAC
GCTCCACCTCCTCCCTTTCTTGCCTCGTCGCCGCCGTTGTCGTAACCCCC
AATTGAATCGGCGGTTTCCAACGCACGCAGGCGGTAACGGTTCTCACCTA
CCTGCACGGAGTCAAGGAGGCACAGGTGATACTTTTTTTTTTTTGCGCGT
GTATATCATACTACGGTCAGGGTTAGGGTTAGGATTAGGGTTGTTTTTTT
TTTATGCACGCACCCTCTGTAGAATTTGCACATGATGTTTGTGATGTTTA
TTTCTACTACTGCTGTATACTCCTCCCCGATGTACTTTTACGCACCCTCA
CTACAATTTGCACACGATATTTTATTATGTTTGTTTCCTCTACTGCTGCT
GCTGCTGCTACTGTTGCGTAGTTTGTTACATCTCGCCTGTTCGTCTAAAC
CAAAATCAAGAGATGGACATCCTATCCCACACTTGTGTCAAACGTAGCGG
GGTTGATGGAGCCTCGACACCGCAGGTGGCAGACATTGGTCTGTGTTTGA
TGGGTGTACTGCTGTTTCCTTGATTCCTTTCTCACTCAGGTTTCCATCGA
CGAGATTATTGCTGGCGGTGCCGACATCGACCTCATCGAGCTCCGGACGC
TCAAACCGCTCGACATGGAGACGATCGGCATGTCCCTCCGACGCACGCAC
AAGGTTTGCTATGCCGCATGGTTGCACACACACCATATGTTTTCTTGCTC
TAATTGATACTTCAGGTTTGTTGTTTCTTGATGTTGTTGTTGTCGTTGTG
TTGTTGCTGTTGCTGTTGCTGCCACTGCTGCTGTTAATGTTGGTGTCACG
GTTAATATTAGTGTTAGCGTCAGTGTTAATGTTGATGTTAGTGTTGTTGT
CGTTGTCGTTGCTGCTGTTGTCTTCACATTAAGAACCGTTCCGATCTCTA
CTCGGTACCCTCTAATGTCCGTACTGCTGACTCGTCCAACAGGGGATGCT
TCCCGTGGTCATGATCCGGAAATATAGCTTCCAAATCACTGAAACCCATA
TATGCACACCTGTGCATTTGTAGCGGCTCCACCAATCATAATTTCACACC
AGTACCAGCTACTCTCAAAGTACATCTTTTCCGCCCTTCCTTGAATATAA
TCCTGAAGTAAAGCTTCTAAAATCCTTTATCCTATGTTCACCTATGTAGG
CCCTTGTTGTGGTCCCACCGAACACGACTTCACACCGGTACCAAGTTTAT
GGTTCTCCCCCTCTCTGGATACAATCCGGAAATACATCTCCCAAAATTTC
TGAAACTTGTGTGGCACACACCTCTCATATCCTTGCAGTGGCTCCACCGA
ACACACTATTTTACTGGTATGGTACGAGTACCAGGTATGATTCTCGATCT
CCGACGTATGAGATCAAGGTTTACAGCTCCCAAAATTCTGGAAGCTACAC
CCGCGCTTGCAGTGGTTCCACCGAACAAAGCTTCGTGCTGGCACCAAGGT
TTTTATGATTCTCCCGGTCGAGAGAAGTCAGGTTTGCAGCTTCGGGGAAA
TCCTGGAACCCACACCTAACGCTTGACGGGGGGGGGTTCGATCCGCCTTC
CTTTTCGTGCGGCTCCACTTTTGGGGCTTGAAAGCTCCCCTAGTTGGTCC
GAACGAATGACATGAAGGCAGCAATGAGGTCGAGGCGACCCCACCCTTTC
AAGCGGCATGCGTACGTACAAAGCACGGGGCCCCGAGACCACCTCCGGGC
GGTCAGAACCACTCCTCCCCGGCTCACAATTGATGATGTCCCTTTCTTTT
CTAAGACCCCGAGAAAACGGACAACAGCACCAGCACCAGCACCAGCATCG
CCGATCAGCAGAGTTTGATCGAACGTGGAAGGCTGGAAGACGAATGCATA
GCAGCGCACCAGTACAGTGCGCCGTTTGCGGTTGTTGGTTGATGGAACGT
GGGACACCAGGTCTCCCGCTCACACTTTTGTTTCTCCACTTTCTTGTCAT
ACTGCTGTGTACGCCTGTTGAGATGGGGAGTTATATTTTTTTGAAATTTT
GTGTTTATTTTTTTTTCTTCACAATCTGTTACAGAAAAGTGACTTGTGTA
TCATAGGAGTATGTACCAAAACTTAAAAAATTCCTGCATGGAGAAGTAAG
AGCACGGCTGGATCCCCCAGCGAGGTACGCGGGGTCAGTGATCAAATAGA
CAGAGAGGGATGCGAGGTCAGCAATCGAGCAGACTCTTTCGGCAAGAAAT
AAATATGTCACTCACACATAGGACGGCACCCCCCCCCCCCTTGTGGTATT
GTTTTTGTGTGTTTGGTCGTTCCACGGTTTTGATTGCAGGTGGCCATCCT
TGACGAGAGCACGCGGTCGGGTGGGGTGGGAGCTTCGATCTCGGCGATCG
TGGCGGAAGAGCTGTACGACGAGCTCGACGCTCCGGTGAGATCGACACTC
CACGATGCAATTCATTCACAACTGGTGCCGCCGGCGATTTTTCCGAGAGA
TGCTGGGTGGCTGCGAGTACTGGGCGAGGATTTTACAATGAAGCTTGATC
CATTGGGCTGTACCTGTATAGAACGAGAGATGAAAAAAAAACATGAAATC
GTTGTCGTCGCACGCGACACCAGCCCCCCCCCCTTACCCCATTTTGTCGG
ATTTATATTTTTGTACCAATTGTACCTGTATTGGGTATAAGTGGTAGCTG
AGATTCGCCCGCGAATGATGCATGTACTCTTTTGATTGGGTGGGTAGCTT
GTGGCCACGGAACGCGCCCGCCATATATTGAGCCAGCATGCAGTACGAAA
ATCAGCAGGTACTGGGTGGAGATGGGAACGTTTGTTTGTTTTTTTATGCG
AAGGTAACACATATCATACACACACACCGCGTGTCTAGACAGTCACACTT
CGAAACACCCTTCTTCATACACCGGTATATCCCTGAGTCGTGATTGACAT
GTCTAGACATAACCGGCATATCACAGATAAATACTCGGAGTACAAAAAAC
GAAATGAAATAAAACAATTCCGAGCTATCGTATGTATCATGTGATGAACA
TTTTTTACTGCTGCCTGTAGAACGATAATGGAAAAACCCGGAAGGATCAT
TTGCTGGGTTTGTGCGAAAGGCACCGAGAAGCATTGTTCGAGATTTGCAG
CGTTTCTTGCGTGCATGACTGATTCAGTGGTGTTGTCCAGCATTGGACAT
TTTTTGCTAAGCTGACAGGAGTGGTTCAGCATGTCTCCCTTCCAGCCCCC
CAGTGTACCGTGTGTCATTTGATGCGCGCTCTTGACACGGACCGCTCGCT
TCCTTCCTTTGAAAACGAATTTCGCTCATTTTTGTTTCTTGTTCCGGCAA
CCACTGCAAAAAAACGAATTGACGTTCCACAGGTGAGGCGTTTGTGCATG
GACGACGCCCCCGTTCCATACGCATCCAGCATGGAGAAGGCCGTGGTCAA
GAGGGGCGAGGACCTCATCGAGGCCGTGCTGGACCTCGCGAAGAACGCGT
GACTTCCCTCCCCGCAAGAGAGCAACACACAAAAATAGAGGCTGAAGTTG
TGCTGGACCACCTCAGTAAGAACCAGAGTGACCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTCTGCACGAAAAAAAAAATGAAAAATGAAACGATT
TGCGTACGATGATGGTGGTGGATCGGTGCGCCCGCCATCTGATTCGCCCG
GGCGCGCTTAACATGGGGGAAGGCTGCTGCTGCTGCTGCTGCTGCTGCTG
CGGTTTGGGAAGGGTTTCCGTCTGTGAAAGTTTTTGTTTTTATCCCGACA
GTATTGTCTAGTCCGTACCCTGTCTTGCCTCGTCTCGTCCGTACCCTGTA
TTTTTGGTGAGTTGTGTGTGAATCATATGCCGCCAATTCAAGTGCCTCAA
CGGTGGCTACATCGTGGCAGGTGATTCGGATGGCGGGGTGCGTGTTTCGG
GCCGGTACAAACGAACGCCTTTTGTTTTTTGTGTTTGCCCCTCTGAAGGC
GTACACGCGTGAACAGCAAACACAACGCGATCATACCCTCCAATCTTGCG
TGATTTGTTTTTTGGTCTCGGTCTTTGTTGCTGTTGGAGGGTGTGATGGG
TGCGGAGGTGGCAGGACAGGGGCTCGAAAGGCACACAAAAAGCAGCAGGC
GGGCTGTGTGTTCGTGTGTGGATGTGTGTGTTTGGACCAAAAAAAACTGT
AGCGCACATTTTAGACGGTTTACGTGGTGCAATCTGCCGTGGGGCAGACA
AGCTACGTGGGCGGGTTTCTGTCATGGGCTTGGAGAGGTTGGGTGGGGGG
GATTTAATTAAGTCGGTGCGGAAAGGGATGCCATGGCTGATGCATAACGC
GGAGGGAGTATGGCCGACAAGGCTTAGACCCCAAACTTACCGACACCCGC
ACACGGGGGGGAATAATGGCCGTTTTGGAGCACCCAGCAGTGAACGAGGT
CAGATTTTAACGCCGTACATAGCGTACCTGGTTGTGTTCGTGTGTTCTGT
GTGTTCTGTTTATTTTTTTTAGTTTGTCTTTTTATTCCCTCTTTTTTTCC
GCCTACGGAAGTACCACCGCTGTATGTACTAGTAAAATACTGGACTTCTG
CCGCACACACGGACGGGTGTTTTGTCTCTTGTGTGAGGCGCGACGATCGA
GAGATCTCACGCCCTGCGCCGCCACTTCGGAATTTTCGCAAATATGGCTC
TCGCAGGGTCGGCGAGAGACCGTTGATTTGGTCAGCGATACAGATCCAAT
GAATGTGTGAGGGCTGGCGAGAAAAACTATTACTCCACGCCCACCACGCG
CTGACTTTTGAGCGCCTCGTCGTTCGTTGCTGAATACCGGTGGCACCGGA
GCTCGTTCTGCAGGAGTGTGTGCGACCGGCCGGCGTTCGCATCTCCTTTG
TTGTCTTGTTTGATATTCAGGTTGATTTTGTGTACTCCTTTTCTTGTTGG
ATCGCGCTTTAGTGGCGAGTGGCTGCTTTATCCACTGAATGAATTAGAGG
CCTGAAACCAGCGACGAGTCGGTTGGTGAGGTCCGTTGTGACCGAAGGCG
ATGAGTGATCGGTGCACACAGGAGGGTGGTGCTGTGTGGCATTTACGTCT
CATGCAGCATGCATGGTGAAATGACATGGCATGACTAGGTCACCGCGAAA
GGGTATACCCGGTCGTGTGTGGGGTGACGGTTAAGAGGAGCTTCCCCCTT
TTCCAAGAAGATACAAAACTTTTATTTCTGTCTAACGGAAGACTGGACGG
ATGTATGTAAGTCTACTTTGCGGGGGCGCTCAAACAAACGACTATCATGT
ATAGTCTATTCCGGAC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig810:33862..56377- >mRNA_P-littoralis_Contig810.8.2 ID=mRNA_P-littoralis_Contig810.8.2|Name=mRNA_P-littoralis_Contig810.8.2|organism=Pylaiella littoralis U1_48|type=CDS|length=2469bp|location=Sequence derived from alignment at P-littoralis_Contig810:33862..56377- (Pylaiella littoralis U1_48)
ATGTCGGCCATGTTGGCTCGGGGCACGGCCGTTCTGGTAGCTCTGCATTC
ATTGGATACGGCAACGCAACAAACGTATGCGTTTGTGTCTCCTTTGTTGC
CTCCGCACGTTGCCTCGCAGCAGGCCTTCACCACTGGCGCCAAGGCGGCA
TACCTGAGGAGGCATGCCGCGCCTACTATGAGGGTGGGGGGAGGCGGCGA
AGTGGGCCCGTTGAAGGCCACCGTTGCCCCCCCTGCGGAGGAGCAGGATC
AAATGGTCATGCGGCCTCCATCCGAAATCAAGTGGGCAGAGGTTTGGGAG
ACTCTGGTGAACGACTTTGGCATGGATGAGTCCAAGTCCGCGGACTACTC
TACCATCTCGAAGGAGGACCAGCTCAAGGGCTACGAAATGATGCAGCTAT
GCCGCCAGTTCGAGAACGCGTGCAACCAGGCGTACATGCAGGGGAAGATC
AGGGGTTTCATGCACCTCGACAACGGACAGGAAGGCATCCCGGCCATGGT
GGCGGACAGCATCGTCACCGGCGACAAGAAGATGAGCTACTACCGCGAGC
ACACGCACGCCCTGGCCAGCGGCGTCGACGCGGGGCGAGTCATGGGAGAG
CTGTTCGCGAAGGACGGCGGGACTTGCAGGGGGGCAGGCGGGTCCATGCA
CATCTACGACAAGGACACACACTTTCAGGGAGGATGGGCGTTGGTGGCGG
AGCAGATTGCGTACGCGGCCGGTGCCGCCCGCTCGATCCTCATGGACAGG
CAGCTGAACCCCGAGGGCATGAAAGACGATGACCGGATGACGATCGTGTT
CCTCGGGGAGGGAGCGGCGCAGAACGGCCGCATGGCGGAGACCCTCAACG
CCGCGGCGAAGGAGAAGCTGCCGCTCCTGTTCCTCGTGATCGACAACGGC
CGTGCCATCAACACCTTCACGCCCGACGTGGCCGCCAACTCGGACGTTTT
CTTGCAGGGAAAACACTACGGCGTCCCAGGAGTGAACGTTGACGGGCAGG
ACATGATGCAGATGCTCGCCACCGGCAGGGCTGTGACAGACTACGTCCGA
GAGAACGGGCCGGCTATTCTCCAGGTCCAGACCTACCGGTTCTCTGGACA
CTCTCCGGCCGACCCCGAGCACGAGAGGGGGCGCAAGCAGGAGAAGCGCT
GGGCGAGGGCGACGCAGGACCCGCTCGTCATCTTCGAGTCGGAGGCGGCC
GACTCCGGCATCACGAAGGAGGAGCTGGACGCCGCTAAGAAGAGGGCGGG
CGCTACCGTCAAGGCCGCCGTGGAGTTCGCCGACGCGTCCCCGCCCCCGC
CCGCCTCCCTCGCCAAGGAGCTGGAGTACCCTGACGTTCCGTCGACGGAC
TACAACCTCAAGGCGGCCCCGGCCAACGCGGCGGAGGTCAACGAGAGGTC
GCTCCCGGCGCACTCCAAGGCCGAGGCAGAAGCTCACTGCAGCATGCTCG
AGGGGAAGGCGAAGAAGGGAGAGATCACCATCGGAGACGCGATCAACCTG
GCGATCCTGGAGGAGATGCTGCGCGACCCCATGACCACCATCCACGCCGA
GGATCTCCAGGCGGGTTCGTCATACGACATCCCCAAGAAGCTGCAGGAGG
TGTTCGGGCCCCTTCGCGCGGCGGACGAGATCATCGACGAGGGACACATC
ATCGGAAAGGCGCTCGGAGAGGGCATGAACGGGTACCGGCCGATCGTGGA
GCTGATGAACACCAACTTCGGCATCTACGGCATGGCCGAGCTGAGCAGCG
CCGGCAACACGTACGCGACCACGGGCGGGCAGTTCGACATGCCCTTGACC
ATCATCGGCGCGGGGGGTACAGCTCCCAACCAGGCTCTCGGGGCCGAGCA
CTCTCAGCCCTTCCACGCGTACGTGATGGGCATCCCAGGCCTCAAGATCT
GCACGGCCGCTTCCCCCGAGGCAGCCTACGGCATCACCAAGTCCATGATC
CGCGACAACGGCCCGGGCATCCTCTTCTGCCCTGTGAAGATGATGAAGGG
GGTCAAGGGGGAGCTGGAGCTCGGCAAGTGCCTGCCGCTGAACAAGGCGG
CCGTGCTTCACGCCGCTTCGGAGGAGTCGGTCTCCAAGGGGACGGCGGTA
ACGGTTCTCACCTACCTGCACGGAGTCAAGGAGGCACAGGTTTCCATCGA
CGAGATTATTGCTGGCGGTGCCGACATCGACCTCATCGAGCTCCGGACGC
TCAAACCGCTCGACATGGAGACGATCGGCATGTCCCTCCGACGCACGCAC
AAGGTGGCCATCCTTGACGAGAGCACGCGGTCGGGTGGGGTGGGAGCTTC
GATCTCGGCGATCGTGGCGGAAGAGCTGTACGACGAGCTCGACGCTCCGG
TGAGGCGTTTGTGCATGGACGACGCCCCCGTTCCATACGCATCCAGCATG
GAGAAGGCCGTGGTCAAGAGGGGCGAGGACCTCATCGAGGCCGTGCTGGA
CCTCGCGAAGAACGCGTGA back to top
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