mRNA_P-littoralis_Contig115.121.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig115.121.1
Unique Name	mRNA_P-littoralis_Contig115.121.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: D7FPL8_ECTSI (Dynein heavy chain n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FPL8_ECTSI)

HSP 1 Score: 2454 bits (6359), Expect = 0.000e+0
Identity = 1250/1276 (97.96%), Postives = 1258/1276 (98.59%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQ+MFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFR +MVTDKFTADL VRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFG AALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDK MDFDP+FMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTK+LLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRV NIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNE+WLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKL PPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEME    DLFGKLKEGMDP FRLFITALPN+EFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPP PIFRIP DFKYTIPSSEQLGTF+DFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALF TLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGL VPLNIFLFQEIQRLQ+VIAKVR ILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDR WLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNP FWTLRGTALLCNTD
Sbjct: 3370 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQTMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRQYMVTDKFTADLQVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGVAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKAMDFDPRFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKALLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVTNIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNEAWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLPPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEME----DLFGKLKEGMDPAFRLFITALPNDEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPNPIFRIPQDFKYTIPSSEQLGTFKDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFATLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLAVPLNIFLFQEIQRLQKVIAKVRSILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRTWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPQFWTLRGTALLCNTD 4641

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A835YLK0_9STRA (Dynein heavy chain n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YLK0_9STRA)

HSP 1 Score: 2140 bits (5545), Expect = 0.000e+0
Identity = 1074/1277 (84.10%), Postives = 1169/1277 (91.54%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQV-SIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCT-MEKNPPFWTLRGTALLCNT 3825
            VAKNASAAAEGLCTWV AMK+YHEASKIVKPKLEALA+AE QM+AANKAL AAE RLQAC  RL +LQ+MFDNQMA K+RIEDGA++LQRKMNQAS LIGGLAGER RWTEDSEKS+DLKRRLVGDCAL SAFVSYCGPFNQEFR +MVTDKF+ADLT   IP T NLDIIPFLVDIGTIGDWN+QGLPTDPLSIQNGILVTRSSR+PLM+DPQGQA  WIR KE+ N+P +GT  LND KLRDKLEF MGDG+ALIILGVE DIDPMLDPV+EKQ  VKGKKMS+NVSDK MD+DPKFM+YFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQ+ALEEQLS+VLEEVNSNTK+LLALDASLLERLTSN+GNLLEDEELIGVLA+TKAKAA+VNQKL+AADET+K+INEKREQFRPVATRGSVLYF++VE+SLVNVMYQTSLDQFL +FMGSMDRAEKA+LASKRVANIIE MTY+ YRY+N GLYEK KL FVLLVT+KILITA+LLK  DLT+FLRGGAALDINSVRRKPF+W+SNESWLNV+ELSQSSKFF+NLPNDMAGNESMWRRWYEDNEPESIAIPDYENRI EQ  +IGPFYKLLLVRS+RMDRTILTCKEF+R TAEMGP +VEPVTDTIEMI+D+M AE+PVIFLLS+GADPTESIE LARRKKL PP+VISLGEGQEPVAIRAMNAAA NGTWVLLQNCELGLGLMNEME    D  GKL+EGMDP FRLF+TALP+ EFPLGLLQMC KVTNEPPAGLKAG+LRSYTVIVDQERLERVET QWRQLLFALCF+HSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISW TFQYMV+EVQYGGKITDDLDRRMFKTYTQVWLTP+TC D+F+YNP  PIFRIP DFKYTIP+++Q+G F+++++TFP+IDTPEIFGLHPNADLTFRVKEVN++F TL +TQPKGXXXXXX SREDVV+EKA ELL RLPEDYIED+YKAKLQKLGGL VPLNIFLFQEIQRLQRVI KVRF L QLQ AIKGEVVM+EELQ+ L A+YDA+V RLW +TI GDEFSW+LPTLGLWFSSLI RDEQ R WLN GRP  YWLTGFFNPQGMLTAMKQEVTRKHK +KWALDDVVYHTEVT++ER+EQVRS P EGVYIHGLF+DGAAWSKQEG +VES PK LF SLPV+ VSANTK DQ KV R+MFG QGP+ CP YKY+ R+DRY IF  NLK    EK P FWTLRGTALLCNT
Sbjct: 3369 VAKNASAAAEGLCTWVTAMKYYHEASKIVKPKLEALAVAEAQMEAANKALAAAEHRLQACQDRLTDLQTMFDNQMAAKRRIEDGALSLQRKMNQASELIGGLAGERVRWTEDSEKSSDLKRRLVGDCALASAFVSYCGPFNQEFRSYMVTDKFSADLTKNAIPFTANLDIIPFLVDIGTIGDWNMQGLPTDPLSIQNGILVTRSSRFPLMVDPQGQANRWIRQKEADNMPAWGTTTLNDSKLRDKLEFCMGDGRALIILGVENDIDPMLDPVLEKQITVKGKKMSINVSDKNMDYDPKFMLYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQQALEEQLSEVLEEVNSNTKALLALDASLLERLTSNSGNLLEDEELIGVLASTKAKAAEVNQKLLAADETRKNINEKREQFRPVATRGSVLYFAIVEMSLVNVMYQTSLDQFLALFMGSMDRAEKAALASKRVANIIEAMTYLVYRYVNCGLYEKHKLIFVLLVTVKILITASLLKPGDLTLFLRGGAALDINSVRRKPFSWISNESWLNVVELSQSSKFFANLPNDMAGNESMWRRWYEDNEPESIAIPDYENRIQEQADTIGPFYKLLLVRSLRMDRTILTCKEFIRCTAEMGPAYVEPVTDTIEMIYDDMVAEVPVIFLLSIGADPTESIETLARRKKLPPPAVISLGEGQEPVAIRAMNAAAANGTWVLLQNCELGLGLMNEME----DFLGKLREGMDPAFRLFVTALPHPEFPLGLLQMCKKVTNEPPAGLKAGMLRSYTVIVDQERLERVETPQWRQLLFALCFMHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWSTFQYMVAEVQYGGKITDDLDRRMFKTYTQVWLTPTTCNDNFSYNPAQPIFRIPKDFKYTIPNADQIGIFKEYVRTFPDIDTPEIFGLHPNADLTFRVKEVNSMFTTLDDTQPKGXXXXXXVSREDVVYEKAGELLGRLPEDYIEDEYKAKLQKLGGLAVPLNIFLFQEIQRLQRVIGKVRFTLAQLQLAIKGEVVMSEELQDALNAIYDARVARLWTYTIAGDEFSWVLPTLGLWFSSLIMRDEQSRTWLNGGRPNVYWLTGFFNPQGMLTAMKQEVTRKHKGDKWALDDVVYHTEVTTHERVEQVRSSPQEGVYIHGLFIDGAAWSKQEGCLVESAPKVLFTSLPVMLVSANTKKDQEKVVRDMFGVQGPYLCPVYKYATRSDRYRIFYANLKVQGSEKGPNFWTLRGTALLCNT 4641

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: H3GA36_PHYRM (Uncharacterized protein n=3 Tax=Peronosporaceae TaxID=4777 RepID=H3GA36_PHYRM)

HSP 1 Score: 1933 bits (5007), Expect = 0.000e+0
Identity = 954/1277 (74.71%), Postives = 1100/1277 (86.14%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKH-KAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWVRAMKFYHEASK+VKPKLEAL+IAEGQM+AANKALNAAE RL  C  RL ELQ MF+ QMAEKKRIEDGA AL RKM QAS LI GLAGER RWT+DS   ADLKRRLVGDCA+  AFVSYCGPFNQ+FR +MV +KF  D   R +PVT ++D+I FLVDIGT+GDWN+QGLPTD LSIQNGI+VTRSSRYPL++DPQGQA+SWI++KES  +P++GT +LN PKL+D+LEF MG+GKALI+ GVE+DIDPMLDPV+E+Q +VKGK MS+NVSDK M+F+P F MYFITRLPNP F PELQAK T++DFTVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+VN NTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYFSVVE SL+N MYQTSL+QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTFVLL+T+KIL+T +LL   ++T+ +RGGAALDINSVRRKPF+W+SNE+WLNV+ELSQS KFF+NLP++MA NE MWRRWYEDNEPE++ IPDYE R+ E  +IGP+YKLLLVRS+RMDRTILT KEF+RNT +MGP +VEPVTDTIE IF EMKAE PVIFLLS+GADPTESIE+LAR++K   P+V+S+GEGQEPVA++A+NAA VNGTWVLLQNCELGL LM +ME    D+  KL E MDPGFRLF+TALPN++FPLGLLQM TKVTNEPP GL+AG+LRSYTV+VDQE+LERVET+QWRQLLF LCFLHSVV ER+KFGPLGW IPYEYNNGDL+AC +FLEKHLYNGPISWPT QYMV+EVQYGGKITD++DRR+F  Y +  LTP  C+ +F+YNP  PIFR+P+DF Y IP ++ +  +R F  T PEID+PEIFGLHPNADLT+RVKEVN L  TLG+TQPKG       SREDVV +KA ELL+RLPEDY EDDYKAK+ KLGGLT+PLNIFLFQEIQRLQRVIAKVR +L  LQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSLI+RDEQ+R WLN  RP  +WLTGFFNPQGMLTAMKQEVTRKH K +KWALDDVVYHTEVTS+ER EQVR+PP EGVYI+GLF+DGA WSK +G +VESEPKKLF SLPVL V++ +K  + K ++E++G+ GPFECPCYKY+ RTDRY +FMV +KC   + P  W LRG  LLCNT+
Sbjct:  434 VAKNASLAAEGLCTWVRAMKFYHEASKVVKPKLEALSIAEGQMEAANKALNAAESRLSKCKERLNELQQMFEAQMAEKKRIEDGANALARKMQQASDLINGLAGERVRWTDDSNNFADLKRRLVGDCAVACAFVSYCGPFNQDFRTYMVQNKFVPDCETRNVPVTVDIDVITFLVDIGTVGDWNMQGLPTDSLSIQNGIMVTRSSRYPLLVDPQGQALSWIKNKESERVPSYGTTSLNHPKLKDQLEFCMGEGKALIVAGVEEDIDPMLDPVLERQIIVKGKSMSINVSDKNMEFNPAFSMYFITRLPNPHFGPELQAKTTVIDFTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDVNMNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLIAAADTRKSINEKREQFRPVATRGSVLYFSVVETSLINCMYQTSLNQFLALFMKSMDVAEKAALASKRVANIIETMTYISYRYINRGLYERDKLTFVLLLTLKILVTDSLLTREEVTLLIRGGAALDINSVRRKPFSWISNEAWLNVIELSQSCKFFTNLPHEMASNEGMWRRWYEDNEPETVVIPDYEARLAENEAIGPYYKLLLVRSLRMDRTILTTKEFIRNTQQMGPRYVEPVTDTIESIFAEMKAETPVIFLLSIGADPTESIEMLARKQKNPSPAVVSMGEGQEPVALKAINAAVVNGTWVLLQNCELGLELMEQME----DIMLKLTETMDPGFRLFLTALPNDQFPLGLLQMSTKVTNEPPQGLRAGLLRSYTVMVDQEKLERVETSQWRQLLFNLCFLHSVVIERKKFGPLGWGIPYEYNNGDLSACTIFLEKHLYNGPISWPTLQYMVAEVQYGGKITDNMDRRLFNFYAEWCLTPDVCSATFSYNPAEPIFRLPNDFNYRIPVADNIDDYRHFCHTLPEIDSPEIFGLHPNADLTYRVKEVNLLLTTLGDTQPKGGGGASGVSREDVVCDKAKELLDRLPEDYNEDDYKAKINKLGGLTIPLNIFLFQEIQRLQRVIAKVRSMLQSLQMAIRGEVVMTEELSWTLDAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLISRDEQNRTWLNTRRPNSFWLTGFFNPQGMLTAMKQEVTRKHSKTDKWALDDVVYHTEVTSFERAEQVRAPPGEGVYIYGLFMDGATWSKADGTIVESEPKKLFTSLPVLHVNSMSKDLEAKSRKELYGSVGPFECPCYKYATRTDRYFVFMVTMKCPPGRPPRHWGLRGVCLLCNTE 1706

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: K3WIV7_GLOUD (Uncharacterized protein n=36 Tax=Oomycota TaxID=4762 RepID=K3WIV7_GLOUD)

HSP 1 Score: 1928 bits (4995), Expect = 0.000e+0
Identity = 946/1277 (74.08%), Postives = 1103/1277 (86.37%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKH-KAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWVRAMKFYHEASKIVKPKLEAL IAEGQM+AANKALNAAE+RL  C  RL ELQ+MF+ QM+EKKRIEDGA AL RKM QAS LI GLAGER RWT+DS   ADLKRRLVGDCA+  AFVSYCGPFNQ+FR +MV  KF  D   R +PVT ++D+I FLVDIGTIGDWN+QGLPTD LSIQNGI+VTRSSRYPL++DPQGQA+SWI++KE   +P++GT  LN PKL+D+LEF MG+G+ALI+ GVE+DIDPMLDPV+EKQ ++KG+ MS+NVSDK M+F+P F MYFITRLPNP F PELQAK T++DFTVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+VN NTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYFS+VE SL+N MYQTSL+QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTFVLL+TMKIL+T +LL   ++ +  RGGAALDINSVRRKPF+W+SNESWLNV+EL+QS KFFSNLP++M+ NE+MWRRWYEDNEPE++ IPDYE RI E  +IGP+ KLLLVRS+RMDRTIL+ KEF+RNT +MGP +VEPVTDTI+ IF EM+AE PVIFLLS+GADPTESIE LAR++K   P+V+S+GEGQEPVA++A+NAA VNGTWVLLQNCELGL LM +ME    ++  KL E MDPGFRLF+TALPN++FPLGLLQM TKVTNEPP GL+AG+LRSYTV+VDQ++LERVET+QWRQLLF LCFLHS+V ER+KFGPLGW IPYEYNNGDL+AC +FLEKHLYNGPISWPT QYMV+EVQYGGKITD++DRR+F  YT+  LTP  C+ +F+YNP  PIFRIP+DF Y IP ++ +  +R+F+  FPE+D+PEIFGLHPNADLT+RVKEVN+L GTLG+TQPKG       SREDVV +KA ELL+RLPEDYIEDDYKAK+ KLGGLT+PLNIFLFQEIQRLQRVI+KVR +L QLQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSLI+RDEQ R WLN  RP C+WLTGFFNPQGMLTAMKQEVTRKH K +KWALDDVVYHTEVT +ER EQVR+PP EGVYI+GLF++GA WSKQ+G + ESEPKKLF SLPVL V++ +K  ++K ++E++G+ GPFECPCYKY+ RTDRY +F+V +KC   + P  W LRG +LLCNT+
Sbjct: 3373 VAKNASLAAEGLCTWVRAMKFYHEASKIVKPKLEALMIAEGQMEAANKALNAAELRLSKCKERLSELQNMFEAQMSEKKRIEDGANALARKMQQASDLINGLAGERVRWTDDSNNFADLKRRLVGDCAVACAFVSYCGPFNQDFRTYMVQSKFVPDCETRSVPVTVDIDVINFLVDIGTIGDWNMQGLPTDSLSIQNGIMVTRSSRYPLLVDPQGQALSWIKNKEIERVPSYGTTTLNHPKLKDQLEFCMGEGRALIVTGVEEDIDPMLDPVLEKQIIIKGRSMSINVSDKNMEFNPAFSMYFITRLPNPHFGPELQAKTTVIDFTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDVNMNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLIAAADTRKSINEKREQFRPVATRGSVLYFSIVETSLINCMYQTSLNQFLALFMRSMDIAEKAALASKRVANIIETMTYISYRYINRGLYERDKLTFVLLLTMKILVTDSLLTREEVILLTRGGAALDINSVRRKPFSWISNESWLNVIELAQSCKFFSNLPHEMSSNEAMWRRWYEDNEPETVMIPDYETRIAENETIGPYLKLLLVRSLRMDRTILSTKEFIRNTQQMGPRYVEPVTDTIDSIFAEMRAETPVIFLLSIGADPTESIEQLARKRKHPSPAVVSMGEGQEPVALKAINAAVVNGTWVLLQNCELGLELMEQME----EIMIKLSETMDPGFRLFLTALPNDDFPLGLLQMSTKVTNEPPQGLRAGLLRSYTVMVDQDKLERVETSQWRQLLFDLCFLHSLVIERKKFGPLGWGIPYEYNNGDLSACTIFLEKHLYNGPISWPTLQYMVAEVQYGGKITDNMDRRLFNFYTEWCLTPEACSPNFSYNPAEPIFRIPNDFTYRIPVADNIDDYRNFLHNFPEVDSPEIFGLHPNADLTYRVKEVNSLLGTLGDTQPKGGGGSSGISREDVVCDKAKELLDRLPEDYIEDDYKAKINKLGGLTIPLNIFLFQEIQRLQRVISKVRSMLEQLQMAIRGEVVMTEELSWTLDAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLISRDEQSRTWLNTRRPNCFWLTGFFNPQGMLTAMKQEVTRKHSKTDKWALDDVVYHTEVTQFERPEQVRTPPTEGVYIYGLFMEGATWSKQDGTITESEPKKLFTSLPVLHVNSMSKDLELKSRKELYGSAGPFECPCYKYATRTDRYFVFIVTMKCPPGRPPRHWGLRGVSLLCNTE 4645

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A024GM83_9STRA (Uncharacterized protein n=2 Tax=Albugo TaxID=65356 RepID=A0A024GM83_9STRA)

HSP 1 Score: 1921 bits (4977), Expect = 0.000e+0
Identity = 944/1277 (73.92%), Postives = 1101/1277 (86.22%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKH-KAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWVRAMKFYHEASK+VKPKLEAL IAEGQM+AANKAL AAE+RL  C  RL ELQ +F+ QMAEKKRIEDGA AL RKM QAS LI GLAGE+ RWT+DS   ADLKRRLVGDCA+  AFVSYCGPFNQ+FRH+MVT KF +D   RK+PVT +LD+I F+VDIGTIGDWN+QGLPTDPLSIQNGI+VTRSSRYPL++DPQGQA+SWIR+KE+  +P++G+  LN PKL+D+LEF MG+GKALII GVE++IDPMLDPV+EKQ +V+G+ MS+NVSDK M+F+P F MYFITRLPNP F PELQAK T++DFTVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+ N NTK+LLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYFS+VE SL+N MYQTSL+QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTF+LL+T+KIL+T  LL   ++T+  RGGAALDINSVRRKPF+W+SNE+WLNV+E+SQS KFF NLP+DM  NE+MWRRWYEDNEPE+I IPDYE RI E  SIGP+YKLLLVR++RMDRTIL  K+F+RNT +MGP +VEPVTDTIE IF EMKAE PVIFLLS+GADPTESIE LAR+KK   P+V+S+GEGQEPVAIRA+NAA ++GTWVLLQNCELGL LM++ME    ++  KL + MDPGFRLF+TALPN++FPLGLLQM TKVTNEPP GL AG+LRS+TV+VDQ++LERVET QWRQLLF LCFLHS+V ER+KFGPLGW IPYEYNNGDL+AC +FLEKHLYNGPISWPT QYMV+EVQYGGKITD++DRR+F  Y +  LTP  C+ +F+Y P  PIFRIP+DF Y IP ++ +  +R F   FPE+D+PEIFGLHPNADLT+RVKEVNAL  TLG TQPKG       SREDVV +KA ELL+RLP+DY+EDDYKAK+Q+LGGLT+PLNIFL+QEIQRLQRVI+KVR +L QLQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSL++RDEQ+RAWLN  RP C+WLTGFFNPQGMLTAMKQEVTRKH K +KWALDDVVYHTEVT++ER+EQ+RS PAEGVYI+GLF+DGA WSKQEG +VESEPKKLF SLP+L V++ +K  + K +++++G+ GPFECPCYKY+ RTDRY IFMV +KC   + P  W LRG  LLCNT+
Sbjct: 3374 VAKNASLAAEGLCTWVRAMKFYHEASKVVKPKLEALMIAEGQMEAANKALAAAELRLWKCKERLNELQQLFEAQMAEKKRIEDGANALARKMQQASDLINGLAGEKVRWTDDSNNFADLKRRLVGDCAVACAFVSYCGPFNQDFRHYMVTQKFISDCVSRKVPVTVDLDVISFMVDIGTIGDWNMQGLPTDPLSIQNGIMVTRSSRYPLLVDPQGQALSWIRNKEADRIPSYGSTMLNHPKLKDQLEFCMGEGKALIITGVEEEIDPMLDPVLEKQVIVRGRFMSINVSDKNMEFNPSFSMYFITRLPNPHFGPELQAKTTVIDFTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDANLNTKALLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLLAAADTRKSINEKREQFRPVATRGSVLYFSIVETSLINCMYQTSLNQFLALFMKSMDVAEKANLASKRVANIIETMTYLSYRYINRGLYERDKLTFILLLTVKILVTDGLLTREEVTLLTRGGAALDINSVRRKPFSWMSNEAWLNVIEVSQSCKFFINLPHDMTANETMWRRWYEDNEPETITIPDYEARISENESIGPYYKLLLVRALRMDRTILCTKDFIRNTQQMGPRYVEPVTDTIESIFAEMKAETPVIFLLSIGADPTESIEQLARKKKHPSPAVVSMGEGQEPVAIRAINAAVMSGTWVLLQNCELGLDLMDQME----EILLKLGDSMDPGFRLFLTALPNDQFPLGLLQMSTKVTNEPPQGLHAGLLRSFTVMVDQDKLERVETTQWRQLLFDLCFLHSLVIERKKFGPLGWGIPYEYNNGDLSACTIFLEKHLYNGPISWPTLQYMVAEVQYGGKITDNMDRRLFNYYAEWCLTPEACSPNFSYTPSEPIFRIPNDFNYRIPLADTIEEYRSFCHAFPEVDSPEIFGLHPNADLTYRVKEVNALLATLGETQPKGGGGSVGASREDVVCDKAKELLDRLPDDYVEDDYKAKIQRLGGLTIPLNIFLYQEIQRLQRVISKVRTMLQQLQMAIRGEVVMTEELSLTLDAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLLSRDEQNRAWLNTKRPNCFWLTGFFNPQGMLTAMKQEVTRKHSKTDKWALDDVVYHTEVTAFERVEQIRSAPAEGVYIYGLFMDGATWSKQEGTIVESEPKKLFTSLPILHVNSLSKELENKSRKDLYGSIGPFECPCYKYATRTDRYFIFMVTMKCPPSRAPRHWGLRGVCLLCNTE 4646

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A024U4G7_9STRA (Uncharacterized protein n=24 Tax=Saprolegniaceae TaxID=4764 RepID=A0A024U4G7_9STRA)

HSP 1 Score: 1912 bits (4954), Expect = 0.000e+0
Identity = 940/1277 (73.61%), Postives = 1094/1277 (85.67%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKH-KAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWVRAMKFYHEASK+VKPKLEAL IAEGQM+AANKAL  AE+RL  C  RL ELQ MF+ QM+EKKRIEDGA AL RKM QAS LI GLAGER RWT+DS   ADLKRR+VGDCA+  AFVSYCGPFNQ+FRH+MV  KF  D  +R +PVT +LD+I FLVDIGTIGDWNIQGLPTD LSIQNGI+VTRSSRYPL++DPQGQA+SWI+++E+  +PT+G+  LN PKL+D+LE+ MG+G+AL+I GVE+DIDPM+DPV+E+Q +VKG+ +S+NVSDK M+F+P F MYFITRLPNP F PELQAK T++DFTVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+VN NTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYF++VE+SLVN MYQTSL QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTF+LL+TMKIL+T  LL   ++T+ +RGGAALDIN+VRRKPF+W+SNE+WLNV+ELSQS KFF++LP+DM+ NE+MWRRWYEDNEPE+  IPDYENRI E   IGP+ KLLLVR++RMDRTIL  KEF+RNT +MG  +VEPVTDTI+ IF+EMKA+ PVIFLLS+GADPTESIE LAR+KK   P+V+S+GEGQEPVA++A+NAA VNGTWVLLQNCELGL LM +ME    ++  KL E MDP FRLF+TALP+ +FPLGLLQM TKVTNEPP GL AG+LRS+TV+VDQE+LERVET QWRQLLF LCFLHSVV ER+KFGPLGWCIPYEYNNGDL+AC +FLEKHLYNGPISWPT QYMVSEVQYGGKITD+LDRRMF  Y +  +    C+ +F+YNP  PI RIP+DF Y IP +E +  +R+F  + P++D+PEIFGLHPNADLT+RVKEVN L GTLG TQPKG       SREDVV EKA EL +RLPEDYIEDDYKAK+Q+LGGLT+PLNIFL+QEIQRLQRVI+KVR +L+QLQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSL++RDEQ R WLN  RP C+WLTGFFNPQGMLTAMKQEVTRKH K +KWALDDVVYHTEVT++ER EQVR+PPAEGV I+GLFLDGA WSK +G +VESEPKKLF SLPVL V++ +K  ++K ++E++G+ GPFECPCYKY  RTDRYIIFMV +KC   + P  W LRG ALLCNT+
Sbjct: 3311 VAKNASLAAEGLCTWVRAMKFYHEASKVVKPKLEALMIAEGQMEAANKALAQAELRLSKCKERLNELQQMFEAQMSEKKRIEDGANALARKMQQASDLINGLAGERVRWTDDSNNFADLKRRMVGDCAVACAFVSYCGPFNQDFRHYMVASKFIPDCELRNVPVTSDLDVINFLVDIGTIGDWNIQGLPTDSLSIQNGIMVTRSSRYPLLVDPQGQALSWIKNREALRMPTYGSTTLNHPKLKDQLEYCMGEGRALVITGVEEDIDPMMDPVLERQIIVKGRSLSINVSDKNMEFNPAFSMYFITRLPNPHFGPELQAKTTVIDFTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDVNMNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLIAAADTRKSINEKREQFRPVATRGSVLYFTIVEMSLVNCMYQTSLTQFLALFMKSMDVAEKAALASKRVANIIETMTYISYRYINRGLYERDKLTFILLLTMKILVTDNLLTREEVTLLIRGGAALDINTVRRKPFSWISNEAWLNVIELSQSCKFFTSLPHDMSSNEAMWRRWYEDNEPENAMIPDYENRIAENEQIGPYLKLLLVRALRMDRTILCTKEFIRNTQQMGLKYVEPVTDTIDSIFNEMKADTPVIFLLSIGADPTESIEQLARKKKNPSPAVVSMGEGQEPVALKAINAAVVNGTWVLLQNCELGLELMEQME----EVIFKLSETMDPNFRLFLTALPSEQFPLGLLQMSTKVTNEPPQGLHAGLLRSFTVMVDQEKLERVETVQWRQLLFDLCFLHSVVIERKKFGPLGWCIPYEYNNGDLSACTIFLEKHLYNGPISWPTLQYMVSEVQYGGKITDNLDRRMFNYYCEWCIQSDACSSTFSYNPGEPILRIPNDFNYRIPVAESIDDYRNFCHSLPDVDSPEIFGLHPNADLTYRVKEVNLLLGTLGETQPKGGGGSSGVSREDVVCEKAKELSDRLPEDYIEDDYKAKIQRLGGLTIPLNIFLYQEIQRLQRVISKVRTMLSQLQMAIRGEVVMTEELSWTLNAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLLSRDEQSRTWLNTRRPNCFWLTGFFNPQGMLTAMKQEVTRKHSKTDKWALDDVVYHTEVTTFERAEQVRTPPAEGVLIYGLFLDGATWSKADGTLVESEPKKLFTSLPVLHVNSMSKELELKSRKELYGSIGPFECPCYKYPMRTDRYIIFMVTMKCPQNRPPRHWGLRGVALLCNTE 4583

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A418G1H4_9STRA (Uncharacterized protein n=2 Tax=Aphanomyces astaci TaxID=112090 RepID=A0A418G1H4_9STRA)

HSP 1 Score: 1910 bits (4948), Expect = 0.000e+0
Identity = 940/1277 (73.61%), Postives = 1094/1277 (85.67%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKH-KAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWVRAMKFYHEASK+VKPKLEAL IAEGQM+AANKAL  AE+RL  C  RL ELQ MF+ QM+EKKRIEDGA AL RKM QAS LI GLAGER RWT+DS   ADLKRR+VGDCA+  AFVSYCGPFNQ+FRH+MV  KF  D  +R +PVT +LD+I FLVDIGTIGDWNIQGLPTD LSIQNGI+VTRSSRYPL++DPQGQA+SWI+++ES+ +PT+G+  LN PKL+D+LE+ MG+G+AL+I GVE+DIDPM+DPV+E+Q +VKG+ +S+NVSDK M+F+P F MYFITRLPNP F PELQAK T++DFTVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+VN NTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYF+VVE+SLVN MYQTSL QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTF+LL+TMKIL+T +LL   ++T+ +RGGAALDIN+VRRKPF+W+SNE+WLNV+ELSQS KFF++LP+DM+ NE+MWRRWYEDNEPE+  IPDYENRI E   IGP+ KLLLVR++RMDRTIL  KEF+RNT +MG  +VEPVTDTI+ IF+EMKA+ PVIFLLS+GADPTESIE LAR+KK   P+V+S+GEGQEPVA++A+NAA VNGTWVLLQNCELGL LM +ME    ++  KL E MD  FRLF+TALP+ +FPLGLLQM TKVTNEPP GL AG+LRS+TV+VDQE+LERVET QWRQLLF LCFLHSVV ER+KFGPLGWCIPYEYNNGDL+AC +FLEKHLYNGPISWPT QYMVSEVQYGGKITD+LDRRMF  Y +  +    C  SF+YNP  PI RIP+DF Y IP +E +  +R+F  + P++D+PEIFGLHPNADLT+RVKEVN L GTLG TQPKG       SREDVV +KA EL +RLPEDYIEDDYKAK+Q+LGGLT+PLNIFL+QEIQRLQRVI+KVR +L+QLQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSL++RDEQ R WLN  RP C+WLTGFFNPQGMLTAMKQEVTRKH K +KWALDDVVYHTEVT++ER EQVR+PPAEG+ I+GLFLDGA WSK +G +VESEPKKLF SLPVL V++ +K  ++K ++E++G+ GPFECPCYKY  RTDRYIIFMV +KC   + P  W LRG ALLCNT+
Sbjct: 1607 VAKNASLAAEGLCTWVRAMKFYHEASKVVKPKLEALMIAEGQMEAANKALAQAELRLSKCKERLNELQQMFEAQMSEKKRIEDGANALARKMQQASDLINGLAGERVRWTDDSNNFADLKRRMVGDCAVACAFVSYCGPFNQDFRHYMVASKFIPDCELRSVPVTSDLDVITFLVDIGTIGDWNIQGLPTDSLSIQNGIMVTRSSRYPLLVDPQGQALSWIKNRESARMPTYGSTTLNHPKLKDQLEYCMGEGRALVITGVEEDIDPMMDPVLERQIIVKGRSLSINVSDKNMEFNPAFSMYFITRLPNPHFGPELQAKTTVIDFTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDVNMNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLIAAADTRKSINEKREQFRPVATRGSVLYFTVVEMSLVNCMYQTSLTQFLALFMKSMDVAEKAALASKRVANIIETMTYISYRYINRGLYERDKLTFILLLTMKILVTDSLLTREEVTLLIRGGAALDINTVRRKPFSWISNEAWLNVIELSQSCKFFTSLPHDMSSNEAMWRRWYEDNEPENAMIPDYENRIAENEQIGPYLKLLLVRALRMDRTILCTKEFIRNTQQMGLKYVEPVTDTIDSIFNEMKADTPVIFLLSIGADPTESIEQLARKKKNPSPAVVSMGEGQEPVALKAINAAVVNGTWVLLQNCELGLELMEQME----EVIFKLSETMDQNFRLFLTALPSEQFPLGLLQMSTKVTNEPPQGLHAGLLRSFTVMVDQEKLERVETVQWRQLLFDLCFLHSVVIERKKFGPLGWCIPYEYNNGDLSACTIFLEKHLYNGPISWPTLQYMVSEVQYGGKITDNLDRRMFNYYCEWCVQSEACNPSFSYNPGEPILRIPNDFNYRIPVAETIDDYRNFCHSLPDVDSPEIFGLHPNADLTYRVKEVNLLLGTLGETQPKGGGGSSGVSREDVVCDKAKELSDRLPEDYIEDDYKAKIQRLGGLTIPLNIFLYQEIQRLQRVISKVRTMLSQLQMAIRGEVVMTEELSWTLNAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLLSRDEQSRNWLNTRRPNCFWLTGFFNPQGMLTAMKQEVTRKHSKTDKWALDDVVYHTEVTTFERAEQVRTPPAEGILIYGLFLDGATWSKADGTLVESEPKKLFTSLPVLHVNSMSKDLELKSRKELYGSIGPFECPCYKYPMRTDRYIIFMVTMKCPQNRPPRHWGLRGVALLCNTE 2879

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A7S2PBW9_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2PBW9_9STRA)

HSP 1 Score: 1879 bits (4868), Expect = 0.000e+0
Identity = 921/1280 (71.95%), Postives = 1086/1280 (84.84%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAAL---NDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYT--VIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNT 3825
            VAKNAS+AAEGLCT+VRAMKFYHEASKIVKPK+EAL IA  QM+AANKA                 LQ++F  QM +K+ IE+GA AL++KM+QAS LI GLAGER RWTED+   +D K+RLVGDCA+G AFVSYCGPFNQ+FR++++ DKFT D   R + VT+NLD+I FL+DIGTIGDWNIQGLPTD LS QNGILVT+S+R+PL+IDPQGQA+SWI++KE+  LP++   +L   +DPKL+DKLEF M DGK+++I GVE +IDPMLDPVMEKQ + KGK+M +NVSDK+MD+D KFMMYFITRLPNP FSPELQAK TL+DFTVTQKGLEEQLLG+VIGKEQKALEEQL+ VLEEVN+NTKSL+ LDASLLERLTSN+G+LLEDEELI VLANTK KAA+VN KLVAADETKK+I EKREQFRP ATRGSVLYFS+VE+SLVNVMYQTSL QFLE+FM +MD+AEKASL+SKRVANII+TMTYM YRYINRGLYE DKLTF+LLVT+KIL+ A +L+ TD+T+FLRGGAALDINSVRRKPF W+SN+ WLN++ELSQ S F+SNL  DM  NE+MW+RWYEDNEPE + IPDYE +I++Q  +GPF ++LLVR +R+DR+IL  KEF+RNT +MG  +VEPVTDTIEM++  M  E+PVIFLLS G DPT+SIE L R+KKL  P+VISLGEGQEPVA++A+NA  VNGTWVLLQNCELGLGLMNEMEA    L  +LK  MDP FRLFITALP+ EFPLGLLQMC KVTNEPPAGLKAG+LRSYT  ++VDQ+++ERV+T QWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDL +C+LFLEKHLYNGPISW TFQYMV+ VQYGGKITD LD R+F+TYT+ WLT  TC + +TYNP  PIF++ +DF+Y +PS  +   +R FI TFPEID+PEIFGLHPNADLTFRVKE  ALF TLG TQPKG       SRED+V++K +ELL RLPEDYIEDDYKAK++K GG+TVP+NIFLFQEIQRLQ V+AKVRF + QLQ AIKGEVVMT ELQETL +++DAKVP  W  T+TGDEFSW LPTLGLWFSSLI RDEQ R+WLN+GRP  +WLTGFFNP G LTAMKQEVTRKH++EKWALDDVVYHTEVT++ER++QV++PPAEG++IHGLFL+GAAWS+ EG +VES+PK LFV LPVL+V+ NTK ++ + ++E+FG  GP+ECP YKY+ RTDRY IF  NLKCT EK P  W LRG ALLCNT
Sbjct: 1756 VAKNASSAAEGLCTYVRAMKFYHEASKIVKPKMEALNIAMAQMEAANKAXXXXXXXXXXXXXXXXGLQALFTAQMNKKRSIEEGATALEKKMSQASALINGLAGERKRWTEDAANFSDQKKRLVGDCAIGCAFVSYCGPFNQQFRNYLIYDKFTVDCQSRNVSVTENLDVISFLIDIGTIGDWNIQGLPTDFLSTQNGILVTKSTRFPLLIDPQGQALSWIKNKEAERLPSWNGQSLVELSDPKLKDKLEFCMSDGKSMVITGVEDEIDPMLDPVMEKQIIRKGKRMFINVSDKLMDYDDKFMMYFITRLPNPKFSPELQAKTTLIDFTVTQKGLEEQLLGKVIGKEQKALEEQLNQVLEEVNANTKSLMQLDASLLERLTSNSGDLLEDEELIQVLANTKLKAAEVNAKLVAADETKKNIAEKREQFRPAATRGSVLYFSIVEMSLVNVMYQTSLQQFLELFMSAMDKAEKASLSSKRVANIIDTMTYMTYRYINRGLYEADKLTFILLVTLKILVAAKMLRATDVTLFLRGGAALDINSVRRKPFQWMSNDVWLNIVELSQQSSFYSNLIGDMVANEAMWKRWYEDNEPEQMIIPDYEQKIIDQAEVGPFLRVLLVRCLRVDRSILASKEFLRNTKQMGHLYVEPVTDTIEMVYKAMSPEVPVIFLLSRGDDPTDSIETLCRKKKLPAPAVISLGEGQEPVALKAINAGVVNGTWVLLQNCELGLGLMNEMEA----LIFRLKPNMDPNFRLFITALPHPEFPLGLLQMCIKVTNEPPAGLKAGLLRSYTPGIMVDQDKIERVDTIQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLQSCMLFLEKHLYNGPISWSTFQYMVAAVQYGGKITDSLDVRLFRTYTEEWLTEKTCEEDYTYNPSMPIFKMANDFQYRVPSFTEHSEYRKFIDTFPEIDSPEIFGLHPNADLTFRVKEATALFKTLGETQPKGGGGGEGVSREDIVYDKCSELLSRLPEDYIEDDYKAKIRKFGGMTVPMNIFLFQEIQRLQNVLAKVRFTMVQLQLAIKGEVVMTAELQETLDSIFDAKVPYYWENTLTGDEFSWRLPTLGLWFSSLINRDEQYRSWLNSGRPNSFWLTGFFNPNGCLTAMKQEVTRKHRSEKWALDDVVYHTEVTNHERVDQVKAPPAEGIFIHGLFLEGAAWSRHEGNLVESQPKTLFVPLPVLYVTGNTKKEEERSRKELFGTVGPYECPVYKYANRTDRYFIFCANLKCTSEKYPNKWALRGVALLCNT 3031

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: B8BVX1_THAPS (Uncharacterized protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8BVX1_THAPS)

HSP 1 Score: 1847 bits (4784), Expect = 0.000e+0
Identity = 913/1280 (71.33%), Postives = 1074/1280 (83.91%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFG---TAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYT--VIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNT 3825
            VAKNAS AAEGLCT+VRAMKFYHEASKIVKPKLEAL++AEGQM+AANKAL               +LQSMFD Q+++K+ IE+GAMALQ+KMNQAS LI GLAGER RWTED+    D K RLVGDCA+G AF+SYCGPFNQ FR++M+ DKFTAD   R +PVT++ D+I FL D+GTIGDWN+ GLPTDPLS QNGILVT S+R+PL+IDPQGQA++WI++KE SNLPT+       L+DPKL+DKLE  MGDGK+LII+GVE +IDPMLDPV+EK+   KG +M VNVSDK+MD+DP F MYFITRLPNPSFSPELQAK TL+DFTVTQ GLEEQLLG+VI KEQKALEEQL+ VLEEVN+NTKSL+ LDASLLERLTSNTG+LL+DEEL+ VLANTK KAA+VN KL+AADET+ +I EKREQFRP ATRGSVLYFS+VE+SLVNVMYQTSL QFLE+FMGS+D+A+KA+LASKRV+NIIETMT+M YRYINRGLYE+DKLTFVLLVTMKIL+ A  LK  ++T+FLRGGAALDINSVRRKPF W+SNE WLNV++L +SSKF+ NL +DM  NE MW+RWYEDN PE +AIPDYE ++L+Q  IGPF KLLLVR +R+DR+IL CKEF+R+T EMG  FVEPVTDTIEM++D+M+ ++PVIFLLS G+DPT+ I  L R+KKL  P+VISLGEGQEPVA++A+NA  VNGTWVLLQNCELGLGLMNEME     +  KL+ GMDP FRLFITALP+ EFPLGLLQMCTKVTN+ PAGL+AG+LRSYT  V+VDQ+RLERV+TAQWRQL+FALCFLHSVVQERRKFGPLGWCIPYEYNNGDL +C+LFLEKHLYNG ISW TFQYMVS+VQYGGKITD LD R+F+TYT+ WL   TC + + YNP API +IP  F+YT+ +  + G FR +I+ FPE D+PEIFGLHPNADLTFRVKE  ALF TLG TQPKG       SREDVV+EKAAELL RLPEDY EDDYK K++KLGG+T+P+NIFLFQEIQRLQ VIAKVRF L+QLQ AIKGEVVMT ELQETL +++DA+VP  W  T++GDEFSW LPTLGLWFSSL+ RD Q R WLNNGRP  +WLTGFFNP G LTAMKQEVTRKHKAEKWAL+DVVYHTEVT++    Q+++PP EG+Y+HGL L+G AWS+QEG +VES+PK+L+  LPVL+V+ N    + K  +E FGA G +ECP YKY+AR D+ +IF  +LKC +EK P  WTLRG ALL NT
Sbjct: 3297 VAKNASTAAEGLCTYVRAMKFYHEASKIVKPKLEALSVAEGQMEAANKALXXXXXXXXXXXXXXADLQSMFDEQISKKRSIEEGAMALQKKMNQASALINGLAGERARWTEDAANFCDQKMRLVGDCAIGCAFMSYCGPFNQRFRNYMICDKFTADCEARNVPVTRDFDVISFLADVGTIGDWNMDGLPTDPLSTQNGILVTSSTRFPLLIDPQGQALNWIKNKERSNLPTWNGQNIVDLSDPKLKDKLELCMGDGKSLIIVGVEDEIDPMLDPVLEKEITKKGSRMYVNVSDKMMDYDPNFKMYFITRLPNPSFSPELQAKTTLIDFTVTQIGLEEQLLGKVISKEQKALEEQLTQVLEEVNANTKSLMLLDASLLERLTSNTGDLLDDEELVSVLANTKKKAAEVNAKLIAADETRLNIAEKREQFRPAATRGSVLYFSIVEMSLVNVMYQTSLTQFLELFMGSIDKADKATLASKRVSNIIETMTHMTYRYINRGLYEQDKLTFVLLVTMKILVAAGHLKVGEVTLFLRGGAALDINSVRRKPFQWMSNEVWLNVVQLCESSKFYFNLIDDMVANEIMWKRWYEDNTPEKVAIPDYEQKLLDQPDIGPFLKLLLVRCLRVDRSILMCKEFIRSTKEMGSAFVEPVTDTIEMVYDDMEPDVPVIFLLSRGSDPTDGIIELCRKKKLPAPAVISLGEGQEPVALKAINAGVVNGTWVLLQNCELGLGLMNEMEP----IINKLRGGMDPNFRLFITALPHPEFPLGLLQMCTKVTNDAPAGLRAGLLRSYTPGVMVDQDRLERVDTAQWRQLIFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLQSCMLFLEKHLYNGEISWGTFQYMVSDVQYGGKITDSLDVRLFRTYTKEWLNERTCEEGYEYNPNAPILKIP--FQYTVQAFTEHGDFRKYIEQFPENDSPEIFGLHPNADLTFRVKEATALFKTLGETQPKGGVGDGGFSREDVVYEKAAELLSRLPEDYDEDDYKTKIRKLGGMTIPMNIFLFQEIQRLQAVIAKVRFTLSQLQLAIKGEVVMTAELQETLDSMFDARVPHYWENTLSGDEFSWRLPTLGLWFSSLLNRDNQYRTWLNNGRPNSFWLTGFFNPNGCLTAMKQEVTRKHKAEKWALNDVVYHTEVTNFADSYQIKAPPDEGIYVHGLSLEGCAWSRQEGCLVESQPKELYSQLPVLYVTGNIMKAEEKSMKERFGAVGAYECPVYKYNARMDKNLIFSADLKCDVEKPPSHWTLRGAALLLNT 4570

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BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Match: A0A2D4BGN3_PYTIN (Dynein heavy chain n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4BGN3_PYTIN)

HSP 1 Score: 1839 bits (4764), Expect = 0.000e+0
Identity = 916/1277 (71.73%), Postives = 1069/1277 (83.71%), Query Frame = 1

Query:    1 VAKNASAAAEGLCTWVRAMKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQSMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSADLKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNLDIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAVSWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPMLDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQAKVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLALDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSINEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAEKASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAALLKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNLPNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSMRMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSVGADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQNCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQMCTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSVVQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSEVQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKYTIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLGNTQPKGXXXXXXXSREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLTVPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVYDAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCYWLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQ-VRSPPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQVKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRGTALLCNTD 3828
            VAKNAS AAEGLCTWV+AMKFYHEASK+VKPKLEALAIAEGQM+AANKAL AAE RL  C  RL ELQ+MF+ QM+EKKRIE+GA AL RKM QAS LI GLAGER RWT+DS   ADLKRRLVGDCA+  AFVSYCGPFNQ+FR +M   KF  D  +R +PVT +LDII FLVD+GTIGDWN+QGLPTD LSIQNGI+VTRSSRYPL++DPQGQA+SWI++KES  +P++GT  LN PKL+D+LEF MG+GKAL++ GVE++IDPMLDPV+EKQ +V+G+ MS+NVSDK M+F+P F MYFITRLPNP F PELQAK T++D TVT KGLEEQLLGRVIGKEQKALEEQL+ VLE+VN NTK+LLALDASLLERLTSNTGNLLEDEELIGVLANTK KAA+V  KL+AA +T+KSINEKREQFRPVATRGSVLYFS+VE SL+N MYQTSL+QFL +FM SMD AEKA+LASKRVANIIETMTY+ YRYINRGLYE+DKLTFVLLVTMKIL+T +LL   ++ +  RGGAALDINSVRRKPF+W+SNE+WLNV+ELSQS KFF+NLP++M+ NE+MWRRWYEDNEPE++ IPDYE+R+ E  +IGP+ KLLLVRS+RMDRTIL  KEF+RNT +MGP +VEPVTDTIE I  EM+AE PVIFLLS+GADPTESIE LAR++K   P+V+S+GEGQ PVA++A+NAA VNGTWVLLQNCELGL LM +ME    ++  KL E MD  FRLF+TALP+++FPLGLLQM TKVTNEPP GL+AG+LRSYTV+VDQ++LERVET+QWRQLLF LCFLHS+V ER+KFGPLGW IPYEYNNGDL AC +FLEKHLYNGPISWPT QYMV+EVQYGGKITD++DRR+F  YT+  LTP  CA SF+YNP  PIFRIP+DF Y IP ++ +  +R+F+ TFPE+D+PEIFGLHPNADLT+RVKEVN L  TLG+TQPKG       SREDVV +KA ELLERLPEDY+EDDYKAK+ KLGGLT+PLNIFLFQEIQRLQRVIAKVR++L QLQ AI+GEVVMTEEL  TL A++DAKVP  W  T  GDEFSWILPTLGLWFSSLI+RDEQ+R WLN  RP C+WLTG                         LDDVVYHTEVT++ER      +  AEGVYI+GLF+DGA WSKQ+G +VESEPKKLF SLPVL  S   +S ++K ++E++G+ GPFECPCYKY++RTDRY IFMV +KC   K P  W LRG  LLCNT+
Sbjct:   23 VAKNASRAAEGLCTWVQAMKFYHEASKVVKPKLEALAIAEGQMEAANKALAAAEARLSKCKERLNELQAMFEAQMSEKKRIEEGANALARKMQQASDLINGLAGERVRWTDDSNNFADLKRRLVGDCAVACAFVSYCGPFNQDFRSYMTQQKFVPDCELRNVPVTVDLDIINFLVDVGTIGDWNMQGLPTDSLSIQNGIMVTRSSRYPLLVDPQGQALSWIKNKESERVPSYGTTTLNHPKLKDQLEFCMGEGKALVVTGVEEEIDPMLDPVLEKQIIVRGRSMSINVSDKNMEFNPAFSMYFITRLPNPHFGPELQAKTTVIDLTVTIKGLEEQLLGRVIGKEQKALEEQLAQVLEDVNLNTKALLALDASLLERLTSNTGNLLEDEELIGVLANTKEKAAEVKDKLIAAADTRKSINEKREQFRPVATRGSVLYFSIVETSLINCMYQTSLNQFLALFMKSMDVAEKAALASKRVANIIETMTYITYRYINRGLYERDKLTFVLLVTMKILVTDSLLTREEVILLTRGGAALDINSVRRKPFSWISNEAWLNVIELSQSCKFFTNLPHEMSSNEAMWRRWYEDNEPETVMIPDYESRLSENETIGPYLKLLLVRSLRMDRTILCTKEFIRNTQQMGPRYVEPVTDTIESIXAEMRAETPVIFLLSIGADPTESIEQLARKRKFPSPAVVSMGEGQXPVALKAINAAVVNGTWVLLQNCELGLELMEQME----EIMLKLTETMDVNFRLFLTALPSDQFPLGLLQMSTKVTNEPPXGLRAGLLRSYTVMVDQDKLERVETSQWRQLLFDLCFLHSIVIERKKFGPLGWGIPYEYNNGDLAACTIFLEKHLYNGPISWPTLQYMVAEVQYGGKITDNMDRRLFNFYTEWCLTPEVCAPSFSYNPAEPIFRIPNDFNYRIPVADSIDDYRNFLHTFPEVDSPEIFGLHPNADLTYRVKEVNQLLTTLGDTQPKGGGGSSGVSREDVVSDKARELLERLPEDYVEDDYKAKINKLGGLTIPLNIFLFQEIQRLQRVIAKVRYMLQQLQMAIRGEVVMTEELSLTLNAIFDAKVPPSWLRTSVGDEFSWILPTLGLWFSSLISRDEQNRTWLNTKRPNCFWLTG-----------------------GTLDDVVYHTEVTTFERRRAGAHAALAEGVYIYGLFMDGATWSKQDGTIVESEPKKLFTSLPVL--SPCPRSSKIKSRKELYGSVGPFECPCYKYASRTDRYFIFMVTMKCPPGKPPRHWGLRGVCLLCNTE 1270

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig115.121.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FPL8_ECTSI	0.000e+0	97.96	Dynein heavy chain n=1 Tax=Ectocarpus siliculosus ...	[more]
A0A835YLK0_9STRA	0.000e+0	84.10	Dynein heavy chain n=1 Tax=Tribonema minus TaxID=3...	[more]
H3GA36_PHYRM	0.000e+0	74.71	Uncharacterized protein n=3 Tax=Peronosporaceae Ta...	[more]
K3WIV7_GLOUD	0.000e+0	74.08	Uncharacterized protein n=36 Tax=Oomycota TaxID=47...	[more]
A0A024GM83_9STRA	0.000e+0	73.92	Uncharacterized protein n=2 Tax=Albugo TaxID=65356...	[more]
A0A024U4G7_9STRA	0.000e+0	73.61	Uncharacterized protein n=24 Tax=Saprolegniaceae T...	[more]
A0A418G1H4_9STRA	0.000e+0	73.61	Uncharacterized protein n=2 Tax=Aphanomyces astaci...	[more]
A0A7S2PBW9_9STRA	0.000e+0	71.95	Hypothetical protein n=1 Tax=Leptocylindrus danicu...	[more]
B8BVX1_THAPS	0.000e+0	71.33	Uncharacterized protein n=1 Tax=Thalassiosira pseu...	[more]
A0A2D4BGN3_PYTIN	0.000e+0	71.73	Dynein heavy chain n=1 Tax=Pythium insidiosum TaxI...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig115	contig	P-littoralis_Contig115:440034..454241 -

Analyses

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


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FPL8
PFAMs	AAA_5,AAA_6,AAA_7,AAA_8,AAA_9,DHC_N1,DHC_N2,Dynein_heavy,MT
Model size	3837
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K10408
KEGG Pathway	ko05016,map05016
Hectar predicted targeting category	other localisation
GOs	GO:0000226,GO:0001539,GO:0001578,GO:0003341,GO:0005575,GO:0005623,GO:0005929,GO:0006928,GO:0006996,GO:0007010,GO:0007017,GO:0007018,GO:0008150,GO:0009987,GO:0016043,GO:0022607,GO:0030030,GO:0030031,GO:0031514,GO:0034622,GO:0035082,GO:0036158,GO:0040011,GO:0042995,GO:0043226,GO:0043933,GO:0044085,GO:0044464,GO:0044782,GO:0048870,GO:0051179,GO:0051674,GO:0060271,GO:0060285,GO:0060294,GO:0065003,GO:0070286,GO:0070925,GO:0071840,GO:0120025,GO:0120031,GO:0120036
Exons	27
Evalue	0.0
EggNOG OGs	COG5245@1\|root,KOG3595@2759\|Eukaryota
Description	dynein light chain binding
Cds size	3777
COG category	Z
BRITE	ko00000,ko00001,ko04812

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig115.121.1	prot_P-littoralis_Contig115.121.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig115 440040..454187 -

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


Feature Name	Unique Name	Species	Type	Position
1680789472.2111084-UTR-P-littoralis_Contig115:440033..440039	1680789472.2111084-UTR-P-littoralis_Contig115:440033..440039	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig115 440034..440039 -
1680789472.5094573-UTR-P-littoralis_Contig115:454187..454241	1680789472.5094573-UTR-P-littoralis_Contig115:454187..454241	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig115 454188..454241 -

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

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig115:440034..454241-
coding sequence from alignment at P-littoralis_Contig115:440034..454241-

protein sequence of mRNA_P-littoralis_Contig115.121.1

>prot_P-littoralis_Contig115.121.1 ID=prot_P-littoralis_Contig115.121.1|Name=mRNA_P-littoralis_Contig115.121.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1259bp
MKFYHEASKIVKPKLEALAIAEGQMDAANKALNAAEMRLQACTGRLQELQ
SMFDNQMAEKKRIEDGAMALQRKMNQASTLIGGLAGERTRWTEDSEKSAD
LKRRLVGDCALGSAFVSYCGPFNQEFRHFMVTDKFTADLTVRKIPVTQNL
DIIPFLVDIGTIGDWNIQGLPTDPLSIQNGILVTRSSRYPLMIDPQGQAV
SWIRSKESSNLPTFGTAALNDPKLRDKLEFTMGDGKALIILGVEQDIDPM
LDPVMEKQFVVKGKKMSVNVSDKVMDFDPKFMMYFITRLPNPSFSPELQA
KVTLVDFTVTQKGLEEQLLGRVIGKEQKALEEQLSDVLEEVNSNTKSLLA
LDASLLERLTSNTGNLLEDEELIGVLANTKAKAADVNQKLVAADETKKSI
NEKREQFRPVATRGSVLYFSVVELSLVNVMYQTSLDQFLEIFMGSMDRAE
KASLASKRVANIIETMTYMCYRYINRGLYEKDKLTFVLLVTMKILITAAL
LKTTDLTIFLRGGAALDINSVRRKPFNWLSNESWLNVLELSQSSKFFSNL
PNDMAGNESMWRRWYEDNEPESIAIPDYENRILEQVSIGPFYKLLLVRSM
RMDRTILTCKEFVRNTAEMGPPFVEPVTDTIEMIFDEMKAEIPVIFLLSV
GADPTESIEVLARRKKLAPPSVISLGEGQEPVAIRAMNAAAVNGTWVLLQ
NCELGLGLMNEMEASFPDLFGKLKEGMDPGFRLFITALPNNEFPLGLLQM
CTKVTNEPPAGLKAGILRSYTVIVDQERLERVETAQWRQLLFALCFLHSV
VQERRKFGPLGWCIPYEYNNGDLTACILFLEKHLYNGPISWPTFQYMVSE
VQYGGKITDDLDRRMFKTYTQVWLTPSTCADSFTYNPPAPIFRIPHDFKY
TIPSSEQLGTFRDFIKTFPEIDTPEIFGLHPNADLTFRVKEVNALFGTLG
NTQPKGGGGGGGASREDVVFEKAAELLERLPEDYIEDDYKAKLQKLGGLT
VPLNIFLFQEIQRLQRVIAKVRFILTQLQQAIKGEVVMTEELQETLYAVY
DAKVPRLWAFTITGDEFSWILPTLGLWFSSLITRDEQDRAWLNNGRPTCY
WLTGFFNPQGMLTAMKQEVTRKHKAEKWALDDVVYHTEVTSYERMEQVRS
PPAEGVYIHGLFLDGAAWSKQEGVMVESEPKKLFVSLPVLFVSANTKSDQ
VKVKREMFGAQGPFECPCYKYSARTDRYIIFMVNLKCTMEKNPPFWTLRG
TALLCNTD*

mRNA from alignment at P-littoralis_Contig115:440034..454241-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig115.121.1 ID=mRNA_P-littoralis_Contig115.121.1|Name=mRNA_P-littoralis_Contig115.121.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14208bp|location=Sequence derived from alignment at P-littoralis_Contig115:440034..454241- (Pylaiella littoralis U1_48)
GTTGCCAAGAATGCGTCGGCCGCCGCAGAAGGCCTGTGTACCTGGGTGAG
AGCGATGAAGTTCTACCACGAAGCTTCCAAGATTGTCAAGCCGAAGCTAG
AGGCACTCGCCATCGCCGAAGGGCAGATGGACGCCGCTAACAAGGTACCG
AATCAATTCAACGTCGTATCAGATACATTTTGTGCCCCGTGGGCTCTGCT
CTTCAAGCGGTTTTTCAGGATGTCATAGAGCTTCTTGCCCTAGTAACTCA
AAAGCACCAAGCTTGACACTTGAAGCAATGCCTCGACCACCATGGCAGGA
AAAGCCGTTGTTTCGAGTTGATAAGGTTGCAAGGCAATGAATGCCTGATG
GCTGTTAATATAATGGTGTTCTCTAGATACGATCTGCGCTGCAATATGTT
GAGCTATAGTTCAATCAAACCTTAAACCAGTTACATCGGAAGGCCTGAAA
ACCGCTGACGCGCTCGCTGACTTCCTTCCTCCCTCCCGCCTTTCCTTCCT
CCCTCCCCCCCTCCCGTTTCTCGCTAACAAACATCATTAAAGGCTTTAAA
CGCCGCCGAGATGCGTCTACAGGCGTGCACGGGGCGGCTCCAGGAGCTGC
AGAGCATGTTCGACAATCAGATGGCGGAGAAGAAGAGGATCGAGGACGGG
GCCATGGCCTTGCAACGCAAGATGAACCAGGTGCGGCCATCAGTCTAGTG
TTCAACGAGTTCTTGTTCAGACACGATAATGGTGCCAGGTGGAGTGTTCA
TCCGTCCATGTTGATTGCTATCAGCCATGTTTGTTCGAAAAAACGGTTTG
TGAAAAATTCACGTATGATCTATCATCAGCCCGCTACACGATGGTGGAAA
TTTGATTTTCGCAGTGGCGTGCTGCTGGAGACGGAGTGCATGTTCACGTT
TGTAATTCCTTGTGCCTGTCGCAAAAAAACGCTCGAAACGTGCGTCTCCT
TTGTGATGGCAGGCGTCGACCCTCATCGGTGGCCTGGCGGGCGAGCGCAC
GCGTTGGACGGAGGATAGCGAAAAATCTGCCGATCTTAAGCGGCGTTTGG
TTGGGGACTGCGCCCTAGGCTCGGCCTTCGTGTCGTACTGCGGCCCCTTC
AATCAGGAGTTCCGACACTTCATGGTCACCGACAAGTTTACGGCCGATTT
AACTGTGCGTTTGATACGGGTATAGTGTAAAATGGTACGTTCCGACAGAT
TATGTCGTGGGCCTGAATTGTGCACGGTTGTCGTCGTCCATCGCTGGTGC
AAAGAGCAAATTTTCACGGGAGTAAAAGTAAGGCGTAGCTGCTTCGATAT
CTCGCGGTTGGTCGAGCTCTGGTTCTCGCTAGGCTCTACCGGCTTACTTT
GTACGTTCTGTGTTCCGAAAGGTAGCAACACGTAACATATATGCATGGAC
GGTTGACACTTGTCGCCGATGCCGTCTTGTGTGGTCAGGTTCGAAAAATC
CCGGTGACTCAGAACCTTGACATCATCCCCTTTCTTGTGGACATCGGAAC
TATCGGAGACTGGAACATTCAGGGCCTGCCCACCGACCCGCTTTCCATTC
AGAACGGTATCCTTGTGACGAGATCTTCCAGGTGACTTCTTGATGAGTCA
ACAAACGTGGCTGCCATCTCTGCTAGATTTCAGCCGAGAATATTGATGTC
GTGCGCGTGTTTCGGGCGGGAAGTCGATTTGTTCGCTTGGCGAAGGGTCA
TTCCATGAGCGGAGAAAGCGTTCTATATTCTGTTTGTGTTGCAACACGGC
TAAACGCCCTTTTCACCAAAACGGGTTGGATATCTTCAAGTGGTCATGTA
AGATGCCCACTCTGGTGGATTGTGCCACTACACTACTATCAATATTGCGC
AAGAACTCCCATTATCATGGAAACTGTGTCGCGCGTCATGAATTATTCCA
CGATGGTGGTAGCTTTTGTTCGTGTTTGTTGTTTGTTACGTGACGGAAGT
AGGAAGGGTCGGGGTGTACTGTTTAGGCGATATACCAAAAAATATGTTTC
GAACGCACAAGCCGACTGCAGTTGAAAATAGCGACGTAAACGTTATTTAT
CTAGCATAACATGTTGAACTTTGAACGCCTTTTGGCTTGTTGTGCAGCTT
CAAGGCTGGTAAACTCTAGATTTCTCACTTGAGTATGGACGACCTCTGTG
TGCGCAGGTATCCATTGATGATTGATCCACAAGGGCAAGCGGTTAGCTGG
ATCCGCAGCAAGGAGTCCTCTAACCTCCCCACCTTTGGCACGGCCGCCTT
GAACGACCCCAAGCTAAGGGACAAGCTGGAGTTCACCATGGGCGACGGAA
AAGCTTTGATTATCTTGGGTGCATGATTTGATTCGTAGTCTTTGGTTGAA
CGGCGAGAGGCATATGATTTTTGAAATATCTCCGACTGTGTCTTCTGGCT
TCACACTGTCATACATATACACATGAGATCGCTCCGTACCTCATGAGTTT
TGTACAGAGCGACGGCCAAGTATCGATACTGGTAAGCCTACTCCCTTTTG
ATGGCGCTCTAAAGTGTGAGCCACTCCCAAACTGGGTACTTCAAAGGCAA
AGACGATCACATACGCGCTGACTGCGGTCCCAATAGACCGAGTACCGCCC
ACATTGCGAAATACAGCAAGTAACTCGGATAGGAATCGCACGGGCGCCCA
CACATCTAGAGAGGTGCTTTAAGAGCTGCCAGCTAGCGAGGAGTTGGCGA
GACACAATGAGTACCACACCACCCCAGACATTTTTATTTTGACACCTTGT
ACCCCTTGTGCACCATACATTCGTACACAGGTGTCGAGCAGGACATCGAC
CCCATGCTAGACCCTGTGATGGAGAAACAGTTCGTCGTCAAGGGCAAGAA
AATGTCAGTCAACGTGTCGGACAAGGTCATGGACTTCGACCCCAAGTTCA
TGATGTACTTCATCACTCGCCTGCCCAATCCTAGTTTCAGTCCGGAGCTC
CAGGCGAAGGTAAGCTAAGCCGTCGTCGTCGTTGTCGTTGTCGTCGATAC
GGCTGTTCGAATTAGTTCTCGTTATTGTAGTCTCCGTCACCGTTGTTGTT
GTATATTGTTGTTGTTACTGTTGTTTTATTGTTGTTGTGCCTCTCCACGC
AAATTTGGAATTCCTTTCACTGCAGTAGTATACAAGTAAACGCACTGACC
TTCAATTTATTCTCGATTTCGTTGGCATGGGGCGCGATGCTGTCACCCTC
GTGCGGACTAAACGTTTGCCCGGAAGCAGTCAACCCCGTTAGCTTTGCAC
TATAGAATATTGATGCATACGAGTTGTCTATCTGTTACGAAAGTATTTTT
CTAATTTTCTCTTCCTCTGCGAAACGTCGCCCTCGTGTCGTTCTGGTTTA
CCCAGAAGGGACGATTGGTTGTGGACAGCGTTTTCACTCGTGGCACATGA
ACCCTTACCATGTAGATCAAATTATCTCACGAGATATCACACTCATCCCT
TCCAACCCTACACGACGACCAGGTCACCCTGGTGGATTTCACAGTTACCC
AGAAAGGGCTGGAAGAGCAGCTGCTTGGCCGCGTGATCGGCAAGGAGCAG
AAGGCTCTCGAGGAGCAACTCAGCGACGTGCTGGAGGAGGTTAACTCTAA
CACTAAGGTAATATTATATATCTGGCACCATGGTAATTGGTAAGTGTTTT
CTTGTCCCGCCAAGAGCAGCCAAAGAGATTCAGAGTGCTAATACGGCAGT
TGCTCAGTAAAGCACCGACCTCGACGAGCAGCTTGCCTTTGTAATGGGCG
AGCTTCAGCTTTATCACCAAGGCCAAAAACTACGCTGTGCGTTTTTCTCG
TGCCCTCGGCCACTCAATAATACCTGCGTTGATGCCACGTCCATTTGTCG
CCGCGTAAAAAGTAGATTATCTGTTCCGCTAGTTGTACAGACAGTCAGCA
GTCAGCACCGACTGGTAGTACGACACTTTCGTTAGCTGGCCGTCGTTCGA
GCCGCAGAAAGAGTCTAATGTGGTTTATCGGCTTTCTTTCGCTTTGTACC
AACCCCACTCTGCCTTGCTCCAGTCGCTTCTGGCTTTGGACGCGTCTCTG
CTGGAGCGTTTGACCTCCAACACCGGAAACCTGCTGGAGGACGAGGAGCT
TATTGGAGTGCTTGCGAATACCAAGGTGAACAGGGCGTGCTGTCGTGTAC
ATGATGAAACGGCCTGTGATAAACCCTTTTGAGATCGCCATCAACTTGGT
GGGGAAAACAACAATCCAGTTCGCCCCGCCGCTGGTGTAATGCTGTGGAC
GGGCCGTAAGCTACCTTTTGGCGGCAAAATGAACAGCCGAGGCTGGACCA
AGAGCAGATGCACCCATGTTCCTCGATTATCAGGGTCATTTGGACTCCAC
GCCACACTCTACCCCCGACGACCACGATCTTTTGAAACTTTTGCACATTT
CGCCCGCGTGTCGTTCAGGCGAAAGCCGCAGACGTGAACCAGAAGCTAGT
GGCCGCGGACGAGACTAAGAAATCCATCAACGAGAAGCGAGAGCAGTTCA
GGCCCGTCGCCACGAGGGGCTCCGTCTTGTACTTCTCCGTGGTAGAGTTG
TCGCTGGTGAACGTCATGTACCAGACGTCGCTCGACCAGTTTCTGGAGAT
CTTCATGGGAAGCATGGACAGGGCGGAGAAGGCATCCTTGGCGTCAAAGA
GGTCTGTGTGTATGAGAGGGGAATAGAGAGAGTAGGTGTGTGGGTTAGCC
CTTCTTCATGTTCACTTGACCGCGCCAGTCTTCCTGACCAATGGGATATG
TCATCAGTTTCAACATGAATCTGTCTGAAGCACTTGCTCAATGTGTCGTG
CTCATCCCGACGTGGGGGGGTTGACGGAAGTGTCTAGCCTTCGGTGCGAT
GGTGATACTTTTTTCTGCGAGGCTCAGGGAGTGAGTTGATTTAGTCTACT
GTGTGACAGAGGTAGATGCTGTATTTTTGTCCTGTGACTGCGTCGGAAAC
AACTTTTTCACCTCTTTTACTCGTGTGTATGTGTGCTCTATCAGAGTGGC
CAACATCATCGAAACGATGACGTATATGTGCTACCGCTACATCAACCGCG
GCCTGTACGAGAAAGACAAGCTGACGTTCGTGCTGCTGGTCACGATGAAA
ATTCTCATCACGGCCGCTCTCCTCAAGACCACTGACTTAACCATCTTCCT
CAGGGGAGGTGCCGCGCTGGACATCAACTCGGTGAGGGAGAACCAACGAA
ACATCGCTCGTCATTCAAAGTAATTATCCGCCTAGCAGATAAGACACTGG
TGCATCACTAAATAAAGACGATCCCTGGAGAGACTTCCAAAGAAGGAGAG
TCCGCCGCCCTTGGCACCAAGTACGGAAGTGCAGCATGTAGCTTGGTGGC
TGACCAAGGCTGGCGACTGAAACACGTGGGGTGCTGTCGTTCGAAAAAAT
GTAAATGAAAAGTGCGGTTGCTCGGGACAAGAAAAAACAAAGTGACAGTC
TAGGCCGGATGCGTTGTACTAAAATGTTTTCTGAAGTAGCACATTCGAAC
CTACTTCTGTGTGCAAGCCACAGGTCTTGAAGCCCTTCTTCTTCGTATTT
TCTTCGGTAACGTGCGGAAACAACTTTCTTTATTGGACTCTTAGAAATCT
GGCGTCGTCCCATGCATAATATTTATGTGTATGTATATATCGGCATCGCC
TGTGTGGTCTATCTCGTATTTGCAACAGCCATCACAAGCAACAATGTCAA
CCGCAAAAATGTAAACACTTTTGTGCAGGTGAGACGGAAGCCCTTCAACT
GGCTGTCGAACGAGTCTTGGTTGAACGTGCTGGAGCTGTCCCAGTCATCC
AAATTCTTTTCCAATCTGCCCAACGATATGGCCGGCAATGAATCCATGTG
GAGAAGGTAAAGTGAAGAACATGGGTCAATGTCGAAGCGTTTGCAATGCG
TTGTGTCCCCGCGCCCGTTGCGTCGCCAGGTGGGCACCCTGGCGTGGTGC
GTACAGCAGCGACGCGTTCATCAATCGATTAAAAAAAATATTGGTTGTGA
ATCACGATCTCGACAACGGGGGGGTGTCGCACGTACTTAATGCGAAATGC
CTGCTCTCCTCTACAGGTGGTACGAGGACAACGAGCCAGAGTCGATCGCT
ATCCCGGACTACGAAAACCGCATCCTCGAGCAGGTACACCGTGTCTTCGT
CAGCGTCCACCAGCCACAACAGTCTCTGCAGTTGTACATGGTAGTTGTAG
ACAAGCCGTCTACCCCGAAAAAATGTTGGTATTACGGTGTTCGCAAGAGA
ATCACTGTGATGTAGGATACCACTGGAGTGAATTCTCCTCCATACAAAAA
CTGTTTTCGCAGGTTTTGTACCACATCGGGGCATGAGCCCCTGTCTTCTT
TGTCGTACGAACCAAGCATTTCATTAAGCAAAGGACCCTTTCGAAAATGT
ATTCTCAGAGCACAGAGTTGACGGGACATTCGGTTCATGAGTGCTACGTG
TGTACGCCCCATGTCATGACACCCCCCCCTCCCTCCGAAGAGCGCTAGAG
TTGGTGTCGGTCACAAAATAATGGAACATGCAGATGGCGTTGCAAAGTTA
CGTTGAATCCAAGCACTATCGGTGCGAAGCCGATCAGACAAAACCTCTTT
ATAATACAACAAGCGGTTTCAAGCATGTTTTTGATACATATAAATGTTTG
AAGGTATCGATCGGGCCGTTCTACAAGCTGCTGCTCGTACGCTCCATGAG
AATGGACCGCACCATCCTGACGTGCAAGGAATTCGTGAGAAACACCGCCG
AGATGGGGCCACCGTTCGTGGAGCCCGTGACGGACACGATAGAGATGATC
TTCGACGAGATGGTGGGTTTCGTTCGATGATGCTAGTCTTCGAGGACTGC
AGTTTTGTTTTGGATGCCCGTTGTGAGGCCGCGGCGTATCGGCTTGTGGA
GTGCCTGGGGTGGATAGCAGTGTTGTAGTTGCTGCTGGTGATCGAGGAGT
TGGTTGTTGTGGTGGTGATACGCGTGGTTGTTTTAGTGTTTTTTCCGCTG
CTTGCTCGAAAGTCTCAAGCGGTACTTATTCCCAAACAGATGAACACGCC
ACAGCAGATATGGCGTTTGTTGCTTCAAAGCTAGCTTTTGTCTCGCTCAT
CAGCTACTGAGGGACTGTCCAATACCATGAATATTGATTTTTTTGTTCTA
CAGAAAGCTGAAATTCCTGTGATCTTCCTGCTCTCCGTTGGAGCCGACCC
TACCGAGAGTATCGAAGTATTGGCTAGACGGAAAAAGGTGAGCTGAGCCA
GCGACAACAGTGATGGTTTCGCTCTATTTCAATGGTATTTTCGCTCAAAA
TTTCACGTCGGATAAACGTTGGTATGTTTTCGCATGTTCACAAGGAGCTA
TGATATATCTTCCCTGTCGGACTGTTTGCCTTGGGATACACCAGTACGAA
CGTACCGAGCCTGGCCGATTTAGTAACGCTTCCTCCTACCTACCCTTTTT
TCGGCAAGAATTTGATGGATATGTCGTATTTCCATCAGAAATATCTAATC
TCTTCCACTTCCGTCCCCCCGAAACACCCCCACCTCACCTGCTCTCTGTC
GCTCATTGAACATCCTCTACCCCCCCGCGCTCTTTTCGCCTTTCTCTTTC
CTACGGTGGCGCACCCACCCAATCAACCCGCAAATGAACCAATCAGCTTG
CCCCGCCGTCAGTCATCTCCTTGGGAGAAGGGCAAGAGCCCGTGGCGATT
CGCGCCATGAATGCCGCCGCGGTGAACGGCACGTGGGTGCTGCTGCAGAA
TTGCGAGCTCGGTCTCGGCCTCATGAATGAAATGGAGGCGAGTTTTCCGG
TGCCGCCGCCACTGCTTGCTACTGCTGTTTCTGCTACTGATATTATTGTT
GTCGACGCTAGAAGCAAATGAGCGCTACCGTAAATCGAGCCGCATACACT
TCACACCTCTCCAAGGTTTATTCTTTGTGGTAGTACCACGAACACTAATA
CCTGACCTTTCGTCGGTGTGGTCTACAAGATTCAGTGAAGCGCTCCCAAA
ACCAGGTGCTGCCACAAGCAACACCCTATGACCCACCCCAAACATTCGGT
CATTCCCTTTCCTACATATCTTCCGCTATTTCACGCTGAATTCATTGTCC
TACGGGAGCAGGACTTGTTTGGGAAGCTGAAGGAAGGGATGGACCCCGGC
TTCAGGCTGTTTATCACAGCCCTGCCCAACAACGAGTTCCCGCTTGGATT
GTTGCAAATGTGCACCAAGGTTTGTGCTCGGCGTAGAGGCGCACTGGTTT
TTCGCGTGAAAAACGGTCGATTGTGGTTGTGTGCTACCAGGTACACGATT
TAGCTCGATTGCAATAGCCGCCAATACCCCAGGAAAAACACTCGGAACGG
AACAAGAGTGATGAACACCGAAACTTTTTCAACCGACCGAAACACAGGTC
ACCAACGAGCCACCGGCGGGCCTGAAAGCTGGTATCCTCCGGTCGTACAC
GGTCATCGTGGACCAGGAGAGGCTGGAGAGGGTGGAGACTGCTCAGTGGA
GGCAGCTCTTGTTCGCCCTCTGCTTCCTGCACTCGGTGGTAAGGGGGGTA
GCCTTGTCGGCTTTCTCTGTGGATGATGGCATCGTTCACCCTCATTTCTC
GGACGGAACAGGGCTTGTGTGAAGGAGTAAACCGCTCAGCCATCGGGCAA
AAAGTCATTGATGTTGGTACTGCTGTGACTGCTGTAGTTCAGTGATGCAC
ACAGCGTAGGAATGTGTATCTTCTTCGGTCCTTCTTGGGTATTCCCTTGT
AGTTTCTTTCTGATTTTTGGATCTTCCTAGGGCTCAGCACTTTTTGTGAC
CACGGGCTAGATTTTGGCGATGAGCTAATGTGAGAATCAACAACAACAAC
ACTCTCCGGCACTGACACCTGGGTGGGAAGTGATCAGGATCAACTTCCCT
GGAAGGATCAGATGCTTTTTCCACCCAGGATTTTGTATGACAGAGCCGGG
GCCTTCCATGAGTGTTACTCCTCACGCGCGAGTTTCTGAAAAAGAAGTGG
GCGCGTTGGAATCGAACCCACGACCTTTAATACAGCATCGCCAAACGCGA
AGGTGTAGACCGCTCAGCCATCGGGTAAAAGGTTAGTTATTTACCCGAGT
GAGGACTACACCTCTTAACACTGTCCTGCCGTCGACGCCAAATGTGAAGG
AGTAGACTGCTCAGCCATCGGATAAAAGGTTAATCATTTACCCGAGTGAG
GACTACACCTCTTAACACTTGTGCATAAATGTACGGATGACAGGCTCCAC
GTAAATGGATGGAGGAATGGCAAAGTTAAAGGACTGCGGGGAAAAGGGTG
TTCTAAACCATCCAACGTTTTTCAGTTTGATATCATGCGATGGCCACACA
CCAAGATGTGGTTTCGCGATGGACAAACACCGTCCCGACCGTCCCGGCCG
AAATGTGTAGAAAATACCAGTACGACAACCCACTTTCAACGGGATCCGAC
GACACTGCAACAACGTGAATCAGGTGCAAGAGCGAAGGAAGTTTGGTCCT
CTTGGGTGGTGCATTCCGTACGAGTACAACAACGGCGACCTTACGGCCTG
CATTCTCTTCTTGGAAAAGCATCTCTACAACGGGCCCATCAGGTGCGCGC
GGCGTTTCGCGGCATGCCCCGCAATTTGTTGTCGTTCGGGTATGTAATGG
ATGTACTCGTAGACATTTGCGCATGTTCGTACTCGGCGCGGCTGGTTTCT
GGCTCTGGACAAAATTCAGCGGCACTGTGCGATTCGTGGTTGGCATGCTC
TTTTCGCGGGGGGTAACAGCAGTCCTGAACCCATTCCTTTCTTCTCCGAC
AACCGTGATACGCAATGTGGAGCACTCGGCCGTAGTTTATGGGTCCAGAA
CTGAAACAGAATATGTGACATCATATTGTGTTATACAGCTGCTGCTTCAC
GCCTTCATAAGCCTATGCACGCACTCAACCCCCCTTACGCGCCTCTCGTG
TACAGTTGGCCGACCTTCCAGTACATGGTTTCGGAGGTACAGTACGGCGG
GAAGATCACCGACGACCTCGACAGGCGTATGTTCAAGACATACACACAGG
TATGCGTTGCACCCGAACACCCGATTCCTGGCTGTAAAAGTACTTCAGCA
TGTAGCTCCGGAATACAGCGTACCGCTTCACAAGGCAGGTGGAAAACATA
GAGCACGTACGTACATTATATCTGTTTTGCGCGAAACGGAGGAACGGCCA
TTCACAACCCCAACAGATACATTGTTCATGCTGTTGAAATCGGAGATGTT
TTGTGGTTGCCACTTCTCTGAATGCCCATCGTGTTTTGTGGAGGATTGAG
CAATTGCCCATAAATATGTGCGCTGCTGCGCTTTTCTGTTCGAATTTCGC
CACGCCTTGTTTTTCTTCGATATTTACTATACCGCAAGCACCCCCGGTTC
GGTGATGTCATACGAAGTATTGATTACCCTTGCATACCGTTGATCAATCG
TCAGCCCAAACACCACCCCCTCCGGATAAATACTTTTCCAGGTGTGGCTC
ACGCCGAGCACCTGTGCGGACAGCTTCACGTACAACCCGCCCGCGCCGAT
CTTCCGTATTCCCCACGACTTCAAGTATACCATTCCGAGGTGAGGTTTGG
AACGTACCCCGCCACATATGGCGACAAAAATCTAAATATTATCGCCTACA
AAACAAAATTTCCGTTCGCATAATTTCCGTAAACAATGCACTACTTCTCA
GTCCGGGACAAGTGCGAGCCGTAGCAAGGACTTTTGTTTTTCAGTAAAGG
CCTTCCCGCCGCCCGAAACGCCCGAGACAATAAACGCCTCGATTCCTCCT
TAATTAGGTGAAAGAGGGTTCAATTGCCATAGCTCCTACTGTAGCGTGGA
TTGATGTTGCCACACTACTGTAATGAAGCCCGTTTTGTTTTGGCGCGTAT
CGTTTGACAGCTCGGAGCAGCTGGGCACGTTCAGGGACTTCATCAAGACC
TTCCCGGAGATCGACACGCCGGAGATCTTCGGGCTGCACCCGAACGCCGA
CCTTACTTTCCGAGTGAAGGAGGTCAACGCCCTCTTCGGAACTCTGGGAA
ACACTCAGCCCAAGGTAATTGAATTGACGCTAGATAAGGTATCGTACGGG
TTGAGTCAAGGGGATTATCTACCTACTCCTTCCATCGCGCATTAAAAACA
GGACTGCTTGCAGTTGTGAAACAGTCAATATGTAGGCTGACTCCGTTCTT
GTCCGTTCTGCTGGCCTTTTAGGGTGGGGGGGGAGGTGGCGGGGCCAGCC
GCGAGGACGTGGTGTTTGAGAAGGCCGCCGAGCTCCTGGAAAGGTTACCC
GAAGACTACATCGAAGACGATTACAAGGCAAAGCTTCAAAAGCTGGGCGG
GCTGACGGTGCCGTTGAATATCTTCCTCTTCCAGGTAACGGTTTGGATGT
GGTTGCTCATGTTGATGGTGGTTGTGGCGGTCGTGGTTGTGATGGGAAGA
TTGTGTCGTTACTTCACACGAACCCAGCATCATGCTGAAACCTACGAGGA
CTCTATACGAAGGCAAGAAGCAGTCTAGAGACCGGCCCGAAAGGGATGTT
TCCTAAAGTGACTACAGACTTGGGGAAATTAGGGAAGGTGTGTTTCATTT
TCAACTTCCTCCTGGATATCGTATGGTACATCTCTTTGTTTTCAATTTCC
CCACAGAGGTTCACGCGGTATTTTGCGAAACGCCCGTCGAATTTCAACAC
GAACAACAGGAGATCCAGCGTTTGCAGAGAGTGATTGCAAAGGTTCGATT
CATCCTCACGCAGCTACAGCAGGCGATCAAGGGGGAGGTTGTCATGACGG
AGGAGCTGCAGGAGACTCTTTACGCCGTGTACGATGCGAAGGTCGGGGCC
AAACGGGGGAACAGCCGGTAGCTGGAAGAGTTAGTAATGATGCAACAATA
TTGGTCCCGCGCAGTGTCCGCGTGTACCCCGCGATAAATATTATAACGAA
ATATCGACACTTGATATTGATTGACTATGACGGTGGTATATATTTGAAGA
AATCTCGCTGTTGTTCAGGGAGGCCAAACTAGTAGCATGCCGGACACACA
AAAATCTACGGTTTCGCAAAATTTCTCCCTGACCACATCGTGCCCCTTCT
TGATATACGAATCCTCTCTCACGGGGACGCGTTGGTGGCAAACCAAGCAG
GTGCCGAGGTTATGGGCCTTCACCATCACTGGGGACGAGTTTTCGTGGAT
CCTGCCCACCTTGGGGCTTTGGTTCAGCTCTCTCATCACGAGGGACGAAC
AGGACCGGGCGTGGCTCAACAATGGACGGCCGACATGCTACTGGCTCACC
GGGTTCTTCAACCCACAGGTAATTAAAGTATAGTATGTTTCTAGATATCA
TCGATCCTTTCATTTTCTTCGTTCCCAGCCTAATGCTCCAGAGTGTGATG
AAGCATCGGTTGATGAAAGGGTGGGCAAAAAGCCAGTCGATGTGGTTTTT
TGCTAACCGCGGTCACCAACTGCCAGACAAAAATGGCCACTGAAATGGGA
TTCCCGACCATGTGTGAATCCACGCGAACACGTAAAGCGCCAAAGCCCTT
TCTCCCCCCCTCCCCCTACCTTCCTACTTCTGTAGTTTCAATACCTGAGG
CGCTCACGAGATCAAGTTCCGCTCGGAATCGCAACGTTACGTGAACCAAT
AGATCCAATAAAGCGCAGAATAGTTAATTCGCAGCGAGCCCCAACGCAAA
ACCATACCGCTCCTGCTTCTCAAACTCCCCATGCGAACAATGCTGGCATT
CAATGCGGGGCGAGCTGTAACTGTTAATGATGAGGGAGCAAGCGCACGGC
TCGCAAGCTGACCAAAACAACCTCGAAGCGCAACGCTTACATTGAAATTG
GATCGACATTGACACATGGGCTGATCTACCGGTAGTATTTATGGAGCTCA
CGTACAGCTTCGTCTCGGCTGTCCTCTCCACGACCGATCCATGGAACACG
CGCGCACCCACATTGCAGGGTATGCTGACGGCGATGAAGCAGGAGGTCAC
CCGGAAGCACAAGGCCGAGAAATGGGCGCTGGACGACGTTGTCTATCACA
CGGAGGTCACTTCGTACGAGCGAATGGAACAGGTGTGAACGGCACGTTCC
CCCCTCTGGTGTCAGCAAGGCCCGAGTTTGTGGCAGGGAGATTACTTTTC
TTCTTTGTTGGATGTTGTTTCTAGTTTAGTCTAAATGCACTTGTTACTTT
GGCCAAAGACGTTTTCGCCAAAGGGAAATCTGCAAATTTTCTCGCCGACG
AACTCAAGGAGCGCATTCGATTGTATTGTCAAATGACGTAGAGTCAACAA
TATGAGCAGTCTACAGTACCACCCCAAAGGTCAGCAGTCACTCCCGTCTA
GAGCGGATTGGAGAATGCGAGAACAAGTCTTCCAAATTGGTAAAGCTCGA
GCCCAGTTCACGATGCCATCAAATTTTACGTGAAAAAGCCTTTCTGATTA
ATGCTTCAACGCACCATATAAACTGAACAGCCGATCGCATGGCATTTTGG
CTGTTCAACTTTGCTTATTTTTCTATGCAAAACTCCGCACTCAGGTCCGA
TCACCCCCGGCGGAGGGAGTGTACATCCACGGCCTCTTTTTGGACGGCGC
CGCATGGTCGAAGCAGGAGGGGGTCATGGTGGAGTCAGAGCCGAAGAAGC
TCTTCGTGTCTTTGCCCGTGTTATTCGTCAGCGCTAATACTAAGAGCGAC
CAGGTGACATGTTCGGATGGTTGAGTATTCGTCTTGTGAGAGTGCTTGCG
AGGGTATAGGCCATCATGAGGGAAAGGGATGAAAACCCCCCACTCGGAAA
TGAATGAATCCCGGTTGTTGGAAGAATGGCCAAATTACAATTACAGCGCT
GACTTTGTTACGATGTGAACGCAATCGCAAAGCCAATGGAGACAAGCACA
ATAAGTGTACCGTTCATCCCAACCTTTAGATAACCACCACCACCACCACC
AACAACAACAACAACAACAACAACAACAATAACAACGACGACGACGACGA
CGACGACCCTACTACAACCAAACAGGTGAAGGTGAAGCGCGAGATGTTTG
GGGCCCAGGGGCCCTTTGAGTGCCCCTGTTACAAGTACTCGGCCAGAACG
GACCGCTACATCATTTTCATGGTCAACCTCAAGTGCACGATGGAGAAGAA
TCCGCCTTTCTGGACACTCAGGGGGACCGCACTGCTTTGCAACACCGACT
GATTTGAC

Coding sequence (CDS) from alignment at P-littoralis_Contig115:440034..454241-

>mRNA_P-littoralis_Contig115.121.1 ID=mRNA_P-littoralis_Contig115.121.1|Name=mRNA_P-littoralis_Contig115.121.1|organism=Pylaiella littoralis U1_48|type=CDS|length=3777bp|location=Sequence derived from alignment at P-littoralis_Contig115:440034..454241- (Pylaiella littoralis U1_48)
ATGAAGTTCTACCACGAAGCTTCCAAGATTGTCAAGCCGAAGCTAGAGGC
ACTCGCCATCGCCGAAGGGCAGATGGACGCCGCTAACAAGGCTTTAAACG
CCGCCGAGATGCGTCTACAGGCGTGCACGGGGCGGCTCCAGGAGCTGCAG
AGCATGTTCGACAATCAGATGGCGGAGAAGAAGAGGATCGAGGACGGGGC
CATGGCCTTGCAACGCAAGATGAACCAGGCGTCGACCCTCATCGGTGGCC
TGGCGGGCGAGCGCACGCGTTGGACGGAGGATAGCGAAAAATCTGCCGAT
CTTAAGCGGCGTTTGGTTGGGGACTGCGCCCTAGGCTCGGCCTTCGTGTC
GTACTGCGGCCCCTTCAATCAGGAGTTCCGACACTTCATGGTCACCGACA
AGTTTACGGCCGATTTAACTGTTCGAAAAATCCCGGTGACTCAGAACCTT
GACATCATCCCCTTTCTTGTGGACATCGGAACTATCGGAGACTGGAACAT
TCAGGGCCTGCCCACCGACCCGCTTTCCATTCAGAACGGTATCCTTGTGA
CGAGATCTTCCAGGTATCCATTGATGATTGATCCACAAGGGCAAGCGGTT
AGCTGGATCCGCAGCAAGGAGTCCTCTAACCTCCCCACCTTTGGCACGGC
CGCCTTGAACGACCCCAAGCTAAGGGACAAGCTGGAGTTCACCATGGGCG
ACGGAAAAGCTTTGATTATCTTGGGTGTCGAGCAGGACATCGACCCCATG
CTAGACCCTGTGATGGAGAAACAGTTCGTCGTCAAGGGCAAGAAAATGTC
AGTCAACGTGTCGGACAAGGTCATGGACTTCGACCCCAAGTTCATGATGT
ACTTCATCACTCGCCTGCCCAATCCTAGTTTCAGTCCGGAGCTCCAGGCG
AAGGTCACCCTGGTGGATTTCACAGTTACCCAGAAAGGGCTGGAAGAGCA
GCTGCTTGGCCGCGTGATCGGCAAGGAGCAGAAGGCTCTCGAGGAGCAAC
TCAGCGACGTGCTGGAGGAGGTTAACTCTAACACTAAGTCGCTTCTGGCT
TTGGACGCGTCTCTGCTGGAGCGTTTGACCTCCAACACCGGAAACCTGCT
GGAGGACGAGGAGCTTATTGGAGTGCTTGCGAATACCAAGGCGAAAGCCG
CAGACGTGAACCAGAAGCTAGTGGCCGCGGACGAGACTAAGAAATCCATC
AACGAGAAGCGAGAGCAGTTCAGGCCCGTCGCCACGAGGGGCTCCGTCTT
GTACTTCTCCGTGGTAGAGTTGTCGCTGGTGAACGTCATGTACCAGACGT
CGCTCGACCAGTTTCTGGAGATCTTCATGGGAAGCATGGACAGGGCGGAG
AAGGCATCCTTGGCGTCAAAGAGAGTGGCCAACATCATCGAAACGATGAC
GTATATGTGCTACCGCTACATCAACCGCGGCCTGTACGAGAAAGACAAGC
TGACGTTCGTGCTGCTGGTCACGATGAAAATTCTCATCACGGCCGCTCTC
CTCAAGACCACTGACTTAACCATCTTCCTCAGGGGAGGTGCCGCGCTGGA
CATCAACTCGGTGAGACGGAAGCCCTTCAACTGGCTGTCGAACGAGTCTT
GGTTGAACGTGCTGGAGCTGTCCCAGTCATCCAAATTCTTTTCCAATCTG
CCCAACGATATGGCCGGCAATGAATCCATGTGGAGAAGGTGGTACGAGGA
CAACGAGCCAGAGTCGATCGCTATCCCGGACTACGAAAACCGCATCCTCG
AGCAGGTATCGATCGGGCCGTTCTACAAGCTGCTGCTCGTACGCTCCATG
AGAATGGACCGCACCATCCTGACGTGCAAGGAATTCGTGAGAAACACCGC
CGAGATGGGGCCACCGTTCGTGGAGCCCGTGACGGACACGATAGAGATGA
TCTTCGACGAGATGAAAGCTGAAATTCCTGTGATCTTCCTGCTCTCCGTT
GGAGCCGACCCTACCGAGAGTATCGAAGTATTGGCTAGACGGAAAAAGCT
TGCCCCGCCGTCAGTCATCTCCTTGGGAGAAGGGCAAGAGCCCGTGGCGA
TTCGCGCCATGAATGCCGCCGCGGTGAACGGCACGTGGGTGCTGCTGCAG
AATTGCGAGCTCGGTCTCGGCCTCATGAATGAAATGGAGGCGAGTTTTCC
GGACTTGTTTGGGAAGCTGAAGGAAGGGATGGACCCCGGCTTCAGGCTGT
TTATCACAGCCCTGCCCAACAACGAGTTCCCGCTTGGATTGTTGCAAATG
TGCACCAAGGTCACCAACGAGCCACCGGCGGGCCTGAAAGCTGGTATCCT
CCGGTCGTACACGGTCATCGTGGACCAGGAGAGGCTGGAGAGGGTGGAGA
CTGCTCAGTGGAGGCAGCTCTTGTTCGCCCTCTGCTTCCTGCACTCGGTG
GTGCAAGAGCGAAGGAAGTTTGGTCCTCTTGGGTGGTGCATTCCGTACGA
GTACAACAACGGCGACCTTACGGCCTGCATTCTCTTCTTGGAAAAGCATC
TCTACAACGGGCCCATCAGTTGGCCGACCTTCCAGTACATGGTTTCGGAG
GTACAGTACGGCGGGAAGATCACCGACGACCTCGACAGGCGTATGTTCAA
GACATACACACAGGTGTGGCTCACGCCGAGCACCTGTGCGGACAGCTTCA
CGTACAACCCGCCCGCGCCGATCTTCCGTATTCCCCACGACTTCAAGTAT
ACCATTCCGAGCTCGGAGCAGCTGGGCACGTTCAGGGACTTCATCAAGAC
CTTCCCGGAGATCGACACGCCGGAGATCTTCGGGCTGCACCCGAACGCCG
ACCTTACTTTCCGAGTGAAGGAGGTCAACGCCCTCTTCGGAACTCTGGGA
AACACTCAGCCCAAGGGTGGGGGGGGAGGTGGCGGGGCCAGCCGCGAGGA
CGTGGTGTTTGAGAAGGCCGCCGAGCTCCTGGAAAGGTTACCCGAAGACT
ACATCGAAGACGATTACAAGGCAAAGCTTCAAAAGCTGGGCGGGCTGACG
GTGCCGTTGAATATCTTCCTCTTCCAGGAGATCCAGCGTTTGCAGAGAGT
GATTGCAAAGGTTCGATTCATCCTCACGCAGCTACAGCAGGCGATCAAGG
GGGAGGTTGTCATGACGGAGGAGCTGCAGGAGACTCTTTACGCCGTGTAC
GATGCGAAGGTGCCGAGGTTATGGGCCTTCACCATCACTGGGGACGAGTT
TTCGTGGATCCTGCCCACCTTGGGGCTTTGGTTCAGCTCTCTCATCACGA
GGGACGAACAGGACCGGGCGTGGCTCAACAATGGACGGCCGACATGCTAC
TGGCTCACCGGGTTCTTCAACCCACAGGGTATGCTGACGGCGATGAAGCA
GGAGGTCACCCGGAAGCACAAGGCCGAGAAATGGGCGCTGGACGACGTTG
TCTATCACACGGAGGTCACTTCGTACGAGCGAATGGAACAGGTCCGATCA
CCCCCGGCGGAGGGAGTGTACATCCACGGCCTCTTTTTGGACGGCGCCGC
ATGGTCGAAGCAGGAGGGGGTCATGGTGGAGTCAGAGCCGAAGAAGCTCT
TCGTGTCTTTGCCCGTGTTATTCGTCAGCGCTAATACTAAGAGCGACCAG
GTGAAGGTGAAGCGCGAGATGTTTGGGGCCCAGGGGCCCTTTGAGTGCCC
CTGTTACAAGTACTCGGCCAGAACGGACCGCTACATCATTTTCATGGTCA
ACCTCAAGTGCACGATGGAGAAGAATCCGCCTTTCTGGACACTCAGGGGG
ACCGCACTGCTTTGCAACACCGACTGA