mRNA_P-littoralis_Contig12.66.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig12.66.1
Unique Name	mRNA_P-littoralis_Contig12.66.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A6H5KYK6_9PHAE (Aldo_ket_red domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KYK6_9PHAE)

HSP 1 Score: 755 bits (1950), Expect = 6.150e-268
Identity = 385/464 (82.97%), Postives = 410/464 (88.36%), Query Frame = 1

Query:   97 MRSSLLCVGASLSLYATPSRGFLPPRRPTLTPTRAAAAALATKHPASRSGARSRDVR-----SGELCMSLGLRDGDVFWAKELRHGMEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTKTKREELPKFVFNSSKLSRLDRN 1473
            MR++  C+GASLS+YA PSRGFLPP RPTL P+ AA             G RS          G L MSLGLRDGDVFWAKELR GMEY RLGKSDLVVS+ CLGTMTWG QNSD+EAFEQC+MAFHEFGVNFIDAAEMYPVPP  ETQGRTEIALGKWLK+V RHNV+VATKVAGRSDR+TWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFG+NERYDVAKE DDDTSFEEQLE MDEL RAGK+RAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVP+ARLNKFPG+YSRYRTPEC E TAR+AKIAA IG+TP+QMALAWVYSREFITSTIVGAT  ++LRENL ALNC VTE+AH +I+ V+EEFRDPTKTKRE LPKFVFNSSKL  L+RN
Sbjct:    1 MRTAAACLGASLSVYAVPSRGFLPPGRPTLAPSPAAVGI----------GHRSXXXXXXXXXGGGLHMSLGLRDGDVFWAKELRLGMEYSRLGKSDLVVSKACLGTMTWGEQNSDEEAFEQCNMAFHEFGVNFIDAAEMYPVPPKPETQGRTEIALGKWLKSVARHNVVVATKVAGRSDRLTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGANERYDVAKERDDDTSFEEQLEVMDELCRAGKVRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPDARLNKFPGYYSRYRTPECIECTARYAKIAADIGLTPAQMALAWVYSREFITSTIVGATTTESLRENLRALNCPVTEEAHEKIVAVHEEFRDPTKTKRELLPKFVFNSSKLPPLERN 454

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A836CJ26_9STRA (NADP-dependent oxidoreductase domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CJ26_9STRA)

HSP 1 Score: 438 bits (1126), Expect = 1.290e-144
Identity = 211/376 (56.12%), Postives = 280/376 (74.47%), Query Frame = 1

Query:  289 LGLRDGDVFWAKELRHGMEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTKTKR 1416
            +G   GD    K L  GM+Y +LG SDLVVS+VCLGTMTWG QN+D+EA+EQ  +AF EFG+NFID AEMYPV P AETQGRT+IA+ KWLK   R +V++A+KV GR D  T++R  G+  RV R +I+E+VD SL+RL TDY+DLLQ+HWPDR VP+FG +E Y+ AKE DDD +FE+QL  ++E+ +AGK+R IG SN+TP+G+ K  +L ERLG PRV S+QN+Y++L RAD EL  + E C+  NADV  LAYSPLAGGVL+GKY D D    ++RLN F G+ +RYR      +   + ++AA++G+TP+Q+ALAW Y+R F+TSTIVGAT+++ LREN+ A NC +TE+A   I +VY ++ DPTK  R
Sbjct:    1 MGPAAGDRHACKSLTEGMKYVKLGSSDLVVSEVCLGTMTWGEQNTDEEAYEQLSVAFDEFGINFIDTAEMYPVQPRAETQGRTDIAISKWLKDRNREDVVLASKVCGRQDTNTYIRKSGQPPRVRRADIVESVDASLQRLGTDYLDLLQVHWPDRYVPIFG-DESYNYAKERDDDVAFEDQLRGLEEVVKAGKVRHIGVSNETPFGVAKFVELSERLGLPRVCSIQNSYSLLVRADFELGGLVEVCAPRNADVGLLAYSPLAGGVLTGKYQDSDSDNSKSRLNHFKGYMARYRNSMSEAAVKAYVEVAAEVGLTPTQLALAWCYTRPFVTSTIVGATSVEQLRENIMAYNCPITEQADDMIREVYHKYTDPTKVPR 375

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A835Z0T2_9STRA (NADP-dependent oxidoreductase domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z0T2_9STRA)

HSP 1 Score: 419 bits (1077), Expect = 9.250e-137
Identity = 203/376 (53.99%), Postives = 274/376 (72.87%), Query Frame = 1

Query:  283 MSLGLRDGDVFWAKELRHGMEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTKT 1410
            + LG+  GDVF A+ L +GM+Y +LG SDLVVS+VCLGTMTWG QNSD+EA++Q  +A  EFG+NFID AE+YPVP  AET GRT+ A+ KWLK   R ++++A+KVAGR+  +  LR  G+ TRV + +IIE+VDKSL+RL TDY+DLLQ+HWPDR VPLFG    YD  +E  DD  FEEQL+ ++E+ +AGK+R IG SN+TPYG+ K   L E+LG PRV S+QN+Y++L RAD EL  + E C+  N +V  LAYSPLAGGVL+GKY DP+    ++RL+ F G+  RYR      +   + ++A + G+TP+Q+ALAW Y+R ++TSTIVGAT  D LR+N+ A NC +TE+    I +VY ++ DPTK+
Sbjct:   34 LRLGVAAGDVFHAEGLTNGMKYVKLGSSDLVVSEVCLGTMTWGEQNSDEEAYQQLKLAVDEFGINFIDTAELYPVPAKAETSGRTDKAIAKWLKGRKREDIVLASKVAGRAAHLGHLRSSGEPTRVRKADIIESVDKSLQRLGTDYLDLLQVHWPDRYVPLFGGG-IYDYEQERSDDIPFEEQLQALEEVIKAGKVRNIGLSNETPYGVMKFVTLAEQLGLPRVCSIQNSYSLLVRADFELGGLVEVCAPRNTNVGLLAYSPLAGGVLTGKYQDPNYDDSKSRLSFFKGYMGRYRNSFSEAAVKEYMQVAQEAGLTPTQLALAWCYTRPYVTSTIVGATTCDQLRDNIMAYNCPITEETTKAIQQVYRKYTDPTKS 408

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A7S2XWE6_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XWE6_9STRA)

HSP 1 Score: 372 bits (954), Expect = 2.180e-118
Identity = 190/368 (51.63%), Postives = 265/368 (72.01%), Query Frame = 1

Query:  319 AKELRHGMEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKT--VPRHNVIVATKVAGRSDRVTWLRD-DGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALN--CEVTEKAHTEILKVYEEFRDPTK 1407
            A  L   M+ ++LG SDL+VS+VCLGTMTWG QN+D+E  EQ D  F+E G NF D AEMYPVP +AETQGRT+  + KW+++  + R  +++ATKVAG SDR+TWL   +G+G+RV +K II +VD+SLKRL TDYIDLLQIHWPDR VPLFG++  Y++++E +  TSFEEQLE M E+ +AGK+R IG SN+TPYG+ K  QL ++LG PR+ S+QN+Y++L R ++E   + E CS+ N +V  LAYSPLAGG+LS KY   +     +RL  FPGF  RY+     ++ A +A IA Q+G+TP++ ALAW YSR  +TS+I+GAT++  L+EN+ AL    ++T     +  +V++ +RDP+K
Sbjct:   44 ASALNSPMQVRKLGSSDLMVSEVCLGTMTWGVQNTDEEGAEQMDYYFNECGGNFFDTAEMYPVPTTAETQGRTDNCIRKWMQSRGIDRSKLVLATKVAGASDRITWLPGRNGEGSRVTKKEIITSVDESLKRLGTDYIDLLQIHWPDRYVPLFGTS-GYNISEEREA-TSFEEQLEGMQEVIQAGKVRYIGVSNETPYGVMKFCQLADQLGLPRICSIQNSYSLLVRTEIE-QGLSEVCSKRNENVGLLAYSPLAGGILSNKYTGDEESTKNSRLTLFPGFMDRYKQSLAVKAVAAYADIAKQLGMTPAEFALAWCYSRPEVTSSIIGATSVAQLKENMGALEHVSKITPDVIAQADEVFKVYRDPSK 408

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A4D9D8L6_9STRA (Aldo_ket_red domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9D8L6_9STRA)

HSP 1 Score: 370 bits (949), Expect = 1.480e-116
Identity = 189/363 (52.07%), Postives = 255/363 (70.25%), Query Frame = 1

Query:  322 KELRHGMEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTKT 1410
            K L HGM Y++LGKSDL+VS+V LGTMTWG Q ++++A  Q +MAF E+GVN ID AE+YPVP   +T G +E  +G WLK   R +VI+ATKV G SD +TWLR DG   R+    IIEAV+ SL+RL TDYIDL Q+HWPDR + LFG +  YD ++E +D  SFEEQL  + +L +AGKIR IG SN++PYG+ K  +   RLG   V SVQN YN+L R ++++  + E CS ++ D+  L YSPLAGGVLSGKY+       EARLN+FPG+ +RYRT +  +    + +IA++ G+T +Q+AL WVYSR F+TSTIVGAT++D LRENL ALN  +      ++ +V+  +RDP++T
Sbjct:  111 KRLTHGMLYRKLGKSDLIVSEVALGTMTWGEQVTEEQAHAQLNMAFDEYGVNLIDTAELYPVPADPDTHGLSEKIIGSWLKKRNREDVILATKVTGYSDVLTWLRKDGGPVRLTAGQIIEAVEGSLRRLGTDYIDLAQLHWPDRYLNLFGVD-LYDQSREREDVVSFEEQLTALGKLVKAGKIRYIGLSNESPYGVMKFLETARRLGLQEVVSVQNCYNLLYRNEMDMG-LSEICSPSHEDLGILCYSPLAGGVLSGKYMFKGR-ASEARLNRFPGYMARYRTLQSQDCVFEYKEIASRYGLTMAQLALGWVYSRPFVTSTIVGATSVDQLRENLDALNVPIFSNVVHDLSEVFMRYRDPSRT 470

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: L1J0D5_GUITC (Aldo_ket_red domain-containing protein n=2 Tax=Geminigeraceae TaxID=589343 RepID=L1J0D5_GUITC)

HSP 1 Score: 359 bits (921), Expect = 9.220e-114
Identity = 186/360 (51.67%), Postives = 251/360 (69.72%), Query Frame = 1

Query:  340 MEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRD-DGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVP-LFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEA--RLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTK 1407
            MEY +LG SDL VS+ CLGTMTWG QN+ +E  EQ ++AF EFGVNFID AEMYP+P  AETQG T+  + KWLKT  R +V++ATKVAG SDR+TWL   DGKG+RV RK I+ +VD+SLKRL+TDYIDLLQIHWPDR +  LFG+   YD++K ++   SFEEQL   DEL R GK+R +G SN++P+G+     L ++L  P+V S+QN+Y++L+R D E + + E C+  N +V  LAYSPLAGG+LSGKY D   P      RLN F G+ +R+      ++   +A +A + G+TPS++ALA+  SR F+ STI+GAT +  LREN+ A + +  E+   EI K++   +DP K
Sbjct:    1 MEYVKLGNSDLKVSRCCLGTMTWGQQNTMEEGVEQLNVAFDEFGVNFIDTAEMYPIPVKAETQGDTDRTIAKWLKTKRREDVVLATKVAGYSDRITWLPGRDGKGSRVTRKEILTSVDESLKRLNTDYIDLLQIHWPDRHMGNLFGAPGTYDISKVYES-VSFEEQLRAFDELIRQGKVRYMGVSNESPFGVMNFHFLSKQLNLPQVVSIQNSYSLLNRVDFE-TDLDEVCAPNNCNVGLLAYSPLAGGILSGKYTDSADPEESKKWRLNLFEGYMARFMQSSAKKAADEYAALAKKFGMTPSELALAFTNSRPFVASTIIGATTLKQLRENIGAFSMDWNEELEKEIDKIFRVHKDPAK 358

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A7S0SYP4_9CHLO (Hypothetical protein n=2 Tax=Mantoniella antarctica TaxID=81844 RepID=A0A7S0SYP4_9CHLO)

HSP 1 Score: 356 bits (914), Expect = 2.970e-112
Identity = 183/358 (51.12%), Postives = 252/358 (70.39%), Query Frame = 1

Query:  343 EYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLK--TVPRHNVIVATKVAGRSDRVTWL-RDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPE-ARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPT 1404
            E ++LG SDL+VS+ CLGTMTWG QN+++EA EQ + A  + GVNFID AEMYP+P  A TQG T+  +G WLK  +  R ++++ATKV+GRS+R+TWL R++ +  RV RK I+E+V+ SL+RL+TDYIDLLQIHWPDR VPLFG+   YD      DD  F+EQLE  D L R GK+R +G SN+T +GI + A+L +  G P++ SVQN+Y++L R   E + + E CS  NA+V  +AYSPLAGG LSGKYLD     P+ AR   FPG+  R+      E+ + +  +A   G++PS +ALA+V SR F+TSTI+GAT+++ L EN+ A NCE+TE+   +I  VY++F+DPT
Sbjct:   65 ERRKLGDSDLMVSECCLGTMTWGKQNTEKEAHEQLNFAVGDSGVNFIDTAEMYPIPTEAGTQGLTDKYIGNWLKRGSTRREDIVLATKVSGRSERITWLPRENNETPRVTRKQIMESVEFSLQRLNTDYIDLLQIHWPDRYVPLFGAKS-YDACNVRADDVGFDEQLEAFDALIRQGKVRHMGVSNETSWGICEFARLSKLSGMPKLISVQNSYSLLVRGQFE-ADLAEVCSPGNANVGLMAYSPLAGGSLSGKYLDAGAEGPKGARFTMFPGYMERFNRSLTKEAVSAYVAVARDYGMSPSALALAFVRSRWFVTSTIIGATSMEQLGENIEAFNCEITEECLADIDAVYKKFKDPT 420

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: F0XXK7_AURAN (Aldo_ket_red domain-containing protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0XXK7_AURAN)

HSP 1 Score: 353 bits (907), Expect = 7.490e-112
Identity = 181/360 (50.28%), Postives = 251/360 (69.72%), Query Frame = 1

Query:  340 MEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTV-PRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLG-YPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCE-VTEKAHTEILKVYEEFRDPTKT 1410
            ++ ++LG SDLVVS VCLGTMTWG QN+ +E   Q +MAF ++G+NF+D AEMYPVP  AETQG T+  +G+WL+    R +V++A+K+ G S+R+TW+RDDG+GTRV ++++ E VD SLKRL TDY+DLLQIHWPDR VP+FG++  YD + E +   SF EQLE M +L+ AGK+R  G SN+TPYG+ + A    + G  P + S+QN+Y++L R+D E + + E CS    DV  LAYSPLAGG+LSGKY   D P P ARLN FPGF  RY+     E+   + K+AA  G++P+Q+AL W Y+R  + STI+GAT++  LREN+ A   + + E     +  +Y  +RDP+KT
Sbjct:   24 IQRRQLGSSDLVVSDVCLGTMTWGKQNTLEEGVSQLNMAFDDYGINFLDTAEMYPVPTEAETQGATDKTIGEWLRRRGKRDDVVLASKICGASERITWVRDDGRGTRVTKRDMEEGVDASLKRLGTDYVDLLQIHWPDRYVPIFGAD-AYDASNEREY-VSFLEQLEAMKDLRDAGKVRHFGVSNETPYGVCQFAAEAAKDGDLPEICSIQNSYSLLVRSDFE-NGLTEACSMT--DVGLLAYSPLAGGILSGKY-SGDEPPPGARLNLFPGFMPRYKQSLAKEAVNEYEKVAAAFGLSPAQLALKWCYTRPHVASTIIGATSLAQLRENVDAYFLDALPEDCEAAVADIYRRYRDPSKT 377

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: A0A7S4EDL0_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4EDL0_9STRA)

HSP 1 Score: 352 bits (904), Expect = 2.470e-111
Identity = 185/357 (51.82%), Postives = 244/357 (68.35%), Query Frame = 1

Query:  349 KRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHN-VIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGER-LGYPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCE-VTEKAHTEILKVYEEFRDPTKT 1410
            ++LG SDLVVS VCLGTMTWG QN+ +E  +Q D AF E+G+NF+D AEMYPVP  AETQG+T+  +G WLK   R + V++A+K+ G S+R+TW+R DG+GTRV   +I+E V+ SL+RL TDYIDLLQIHWPDR VPLFGS   YD ++E +    F EQL+ + +L   GK+R IG SN+TPYG+ +  Q  ER    PR+ S+QN+Y++L R+D E S + ETC  A  DV  LAYSPLAGG+LSGKY     P   ARLN FPGF  RY      E+   + ++AA   +TP+Q+AL W YSR  + STI+GAT++D LREN+ A   + + E     +  VY  +RDP+KT
Sbjct:   31 RQLGTSDLVVSDVCLGTMTWGKQNTLEEGVQQLDCAFDEYGLNFLDTAEMYPVPTEAETQGKTDETIGAWLKKRGRRDDVVLASKICGASERITWVRGDGRGTRVTEADIVEGVEGSLRRLGTDYIDLLQIHWPDRYVPLFGSG-TYDASQEREA-VPFVEQLQALKKLVDQGKVRHIGVSNETPYGVCRFIQEHERDASLPRICSIQNSYSLLVRSDFE-SGLTETC--AQTDVGLLAYSPLAGGILSGKYSGSKAPA-GARLNLFPGFMDRYSQSLAKEAVVEYERVAAAYDVTPAQLALKWCYSRPHVASTIIGATSMDQLRENIDAFFLDDLPEGCLDAVADVYSRYRDPSKT 381

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BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Match: B8C7K3_THAPS (Aldo_ket_red domain-containing protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8C7K3_THAPS)

HSP 1 Score: 349 bits (895), Expect = 2.680e-110
Identity = 182/361 (50.42%), Postives = 256/361 (70.91%), Query Frame = 1

Query:  340 MEYKRLGKSDLVVSQVCLGTMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIALGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKSLKRLDTDYIDLLQIHWPDRAVP-LFGSNE--RYDVAKEHDDDTSFEEQLETMDELQRAGKIRAIGTSNDTPYGITKMAQLGERLG--YPRVASVQNNYNMLSRADVELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFPGFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGATNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTK 1407
            M+Y +LG S+LVVS+VC+GTMT+G QN+ +E  EQ + AF E+GVNF+D AEMYPVP  AET G+T+ A+  +LK+ PR +VI+ATKV+GRSDR+ WLR DG  T VNRK I+E+VD SL+RL TDYIDLLQIHWPDR    LFG  +    ++ ++ ++  SFEEQL TM+EL  AGK+R IG SN+TP+G+  M +L +     YPR+AS+QN Y+++ R + E + + E C   + DV+ L YSPLAGGVL+GKY   +V    ARLN FPGF +RYR  +   +   + +IA + G+T +++AL+W Y RE + STI+GAT++  L E++ A + ++ E+   +I KVY+++ DPTK
Sbjct:    1 MDYVKLGSSELVVSKVCMGTMTFGEQNTLEEGVEQLNRAFDEYGVNFLDTAEMYPVPTKAETAGKTDKAVASFLKSFPRQDVILATKVSGRSDRINWLRTDGSSTIVNRKQILESVDASLERLGTDYIDLLQIHWPDRYTGGLFGQKDFSPRELQQKEEEYVSFEEQLSTMNELVEAGKVRYIGVSNETPFGVCSMVELAKHNPQLYPRIASIQNGYSLVDRKNFE-AGLAEAC--YHHDVALLPYSPLAGGVLTGKYSKEEVDS-NARLNMFPGFMARYRGSQNEAAVKAYGEIAKEAGLTSAELALSWCYHREHVCSTIIGATSLKYLDEDIKAYDIKLNEEVLEKIHKVYQKYTDPTK 357

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig12.66.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5KYK6_9PHAE	6.150e-268	82.97	Aldo_ket_red domain-containing protein n=2 Tax=Ect...	[more]
A0A836CJ26_9STRA	1.290e-144	56.12	NADP-dependent oxidoreductase domain-containing pr...	[more]
A0A835Z0T2_9STRA	9.250e-137	53.99	NADP-dependent oxidoreductase domain-containing pr...	[more]
A0A7S2XWE6_9STRA	2.180e-118	51.63	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A4D9D8L6_9STRA	1.480e-116	52.07	Aldo_ket_red domain-containing protein n=2 Tax=Mon...	[more]
L1J0D5_GUITC	9.220e-114	51.67	Aldo_ket_red domain-containing protein n=2 Tax=Gem...	[more]
A0A7S0SYP4_9CHLO	2.970e-112	51.12	Hypothetical protein n=2 Tax=Mantoniella antarctic...	[more]
F0XXK7_AURAN	7.490e-112	50.28	Aldo_ket_red domain-containing protein n=1 Tax=Aur...	[more]
A0A7S4EDL0_9STRA	2.470e-111	51.82	Hypothetical protein n=1 Tax=Pelagomonas calceolat...	[more]
B8C7K3_THAPS	2.680e-110	50.42	Aldo_ket_red domain-containing protein n=1 Tax=Tha...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig12	contig	P-littoralis_Contig12:291118..304734 +

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.D8LAT8
PFAMs	Aldo_ket_red
Model size	2312
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K09338,ko:K14521
KEGG Pathway	ko03008,map03008
Hectar predicted targeting category	signal peptide
Exons	12
Evalue	1.23e-259
EggNOG OGs	COG0667@1\|root,KOG1575@2759\|Eukaryota
Ec32 ortholog description	NADP-dependent oxidoreductase domain
Ec32 ortholog	Ec-27_006410.1
Description	oxidoreductase activity
Cds size	1380
COG category	C
BRITE	ko00000,ko00001,ko01000,ko03000,ko03009

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680789507.7639115-UTR-P-littoralis_Contig12:291117..291213	1680789507.7639115-UTR-P-littoralis_Contig12:291117..291213	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig12 291118..291213 +
1680789507.9061875-UTR-P-littoralis_Contig12:303898..304734	1680789507.9061875-UTR-P-littoralis_Contig12:303898..304734	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig12 303899..304734 +

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


Feature Name	Unique Name	Species	Type	Position
1680789507.7737617-CDS-P-littoralis_Contig12:291213..291359	1680789507.7737617-CDS-P-littoralis_Contig12:291213..291359	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 291214..291359 +
1680789507.781784-CDS-P-littoralis_Contig12:292203..292305	1680789507.781784-CDS-P-littoralis_Contig12:292203..292305	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 292204..292305 +
1680789507.7952795-CDS-P-littoralis_Contig12:292902..293041	1680789507.7952795-CDS-P-littoralis_Contig12:292902..293041	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 292903..293041 +
1680789507.8068244-CDS-P-littoralis_Contig12:293760..293877	1680789507.8068244-CDS-P-littoralis_Contig12:293760..293877	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 293761..293877 +
1680789507.820866-CDS-P-littoralis_Contig12:296491..296626	1680789507.820866-CDS-P-littoralis_Contig12:296491..296626	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 296492..296626 +
1680789507.8327374-CDS-P-littoralis_Contig12:297155..297215	1680789507.8327374-CDS-P-littoralis_Contig12:297155..297215	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 297156..297215 +
1680789507.8460062-CDS-P-littoralis_Contig12:297831..297903	1680789507.8460062-CDS-P-littoralis_Contig12:297831..297903	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 297832..297903 +
1680789507.8570774-CDS-P-littoralis_Contig12:299550..299649	1680789507.8570774-CDS-P-littoralis_Contig12:299550..299649	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 299551..299649 +
1680789507.8658383-CDS-P-littoralis_Contig12:300238..300351	1680789507.8658383-CDS-P-littoralis_Contig12:300238..300351	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 300239..300351 +
1680789507.8782635-CDS-P-littoralis_Contig12:301403..301542	1680789507.8782635-CDS-P-littoralis_Contig12:301403..301542	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 301404..301542 +
1680789507.8873649-CDS-P-littoralis_Contig12:302565..302735	1680789507.8873649-CDS-P-littoralis_Contig12:302565..302735	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 302566..302735 +
1680789507.8980823-CDS-P-littoralis_Contig12:303810..303898	1680789507.8980823-CDS-P-littoralis_Contig12:303810..303898	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig12 303811..303898 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig12.66.1	prot_P-littoralis_Contig12.66.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig12 291214..303898 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig12:291118..304734+
coding sequence from alignment at P-littoralis_Contig12:291118..304734+

protein sequence of mRNA_P-littoralis_Contig12.66.1

>prot_P-littoralis_Contig12.66.1 ID=prot_P-littoralis_Contig12.66.1|Name=mRNA_P-littoralis_Contig12.66.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=460bp
MRSSLLCVGASLSLYATPSRGFLPPRRPTLTPTRAAAAALATKHPASRSG
ARSRDVRSGELCMSLGLRDGDVFWAKELRHGMEYKRLGKSDLVVSQVCLG
TMTWGSQNSDQEAFEQCDMAFHEFGVNFIDAAEMYPVPPSAETQGRTEIA
LGKWLKTVPRHNVIVATKVAGRSDRVTWLRDDGKGTRVNRKNIIEAVDKS
LKRLDTDYIDLLQIHWPDRAVPLFGSNERYDVAKEHDDDTSFEEQLETMD
ELQRAGKIRAIGTSNDTPYGITKMAQLGERLGYPRVASVQNNYNMLSRAD
VELSSMPETCSRANADVSYLAYSPLAGGVLSGKYLDPDVPVPEARLNKFP
GFYSRYRTPECNESTARFAKIAAQIGITPSQMALAWVYSREFITSTIVGA
TNIDTLRENLHALNCEVTEKAHTEILKVYEEFRDPTKTKREELPKFVFNS
SKLSRLDRN*

mRNA from alignment at P-littoralis_Contig12:291118..304734+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig12.66.1 ID=mRNA_P-littoralis_Contig12.66.1|Name=mRNA_P-littoralis_Contig12.66.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=13617bp|location=Sequence derived from alignment at P-littoralis_Contig12:291118..304734+ (Pylaiella littoralis U1_48)
GTGAAGTAGCATCAACACTCCAGCAGTAGGCTAGGCAGAAGAAGCTCACA
GGCAGACGTCCCTGTGCGTAGAGCAGGTGTATCCATAATTCCTGCCATGA
GGAGTTCATTGCTCTGCGTGGGGGCGTCACTTTCCCTCTATGCTACTCCG
TCCCGAGGCTTCCTTCCACCCCGAAGACCAACGCTGACACCAACGCGAGC
GGCTGCTGCTGCGCTTGCCACCAAACACCCAGCAAGTCGAAGGTACGCTG
TGACCGTACCTTGCCGACAGCATGGCAGCTAACCTCTGATCACGAACACC
GCAGTTGGTTTCCCGGATCATTCCGAATGTAGATAGTCGCGACTAGTCAC
GCTGTGTCTTGCTGCATCGAATGAATCAGGCGAAGTTCTGTGTAACACAG
CAACCTCGACCCAGCAATGAATGCTCGGCTGTTGTGAGTCAAAGGTCGGC
GAGCACTGCTCCGACTCACGGCATAGAGAAGCTGCTGCTGGATCTAGGTC
GCAACAACACTCAGCTGCTGTGGCCCACATGAGTGTCGATTTTTCGTCTC
ATCGAACGAGGTTCGATTGGCAGGGCCAGTACGGTGTACAGCACCTTGGT
GAAGATGCCACGAGAAATCGTAGACTAGTCATGCAGCATATTTCTACGAA
GTACGATACGATGGTTCCACAGTCTTCGCATAACGATCGTATCGGAAACC
AAACACACACGAGGGGCCTCTTTTCTCATCCATCGTACACTTTCAGTCTC
CTTGTTCCTCACCAGGCAAGAGCGAGTCTCGTCATCTCTTGGCGCTGGTT
TTGTTGACTGGATACGCACGGCAGCCCACAATAACGGCAGGAAGGACTAT
ATTTTTGGAGGATTTTTTCAGCAACAGACTACGCCAACGGGGAAGTGCGT
GCGTGATGACGGCTGACTCTGACTGCGGTACCTTATTTAACGAACTATGC
TTTCTCCCGACCAAGGTAAAGGTTGGAAAACAACACACCGACCGTGACAC
GCTCTCGCCCCCCCCCCCCCCCCCCCTCCCCCCGTCTCCGCCGCGGTGCC
CCTTCCGACTCCAACCCTCTCCGCTCTTCGGCGCAGTGGGGCTCGCAGCA
GGGACGTTCGCAGTGGGGAGTTGTGCATGTCGTTGGGATTGAGGGATGGG
GACGTTTTTTGGGCGAAGGAGCTCCGACACGGGATGGAGTGAGTAAAACA
ATCAGTACCGAGCAGTCCCACGGAGTTTTTGTAGGTGACCAATGTGCTGT
GGGTGATTATTCCCGAATATGACCACCTGGGGTGATCAGACGCGGCCTTC
GTTTTATGCCCTGCCTGTCGTCTAGCACCACCGTGCTTTCGAGGGGCCGA
TCAGGGGTGCACCTGACACCTTGGAGAGCTGCCTTCTGTTGTGGACATGA
CGTAATCGGGGGTACAAAAGCAGTGCTTATCACTCCTGTGTCAAGATGCA
TACCGCCGCCGCACCCCCCCCCCCTCCCCAGCAGTACAGCAGCATTCTCA
TGCATGTGATGCTGCACCTGGTTCTTCTTGTTTCAGAGCGGCGGCGGGAT
GACCCTGCACCACCACGTTACGGTTAGGGCTTGCTGCTGGTGGGAAGGTA
ATCGGCCTCGTTCATCCGTTCGATTTTTTATCCACAGCACAGGTGTTGCT
GCTGCGGCTGCTGCTGTTGCAACCTTACTTGTATACGACGGTGACCACAC
CACCACCACCACCACCACCACCACCAACAACAACAACAACAACAACAACA
ACAACAACAACGGCACACACGCGAAAAACAACCAGGTACAAAAGACTGGG
AAAAAGCGACCTGGTGGTTAGCCAGGTTTGCCTGGGCACCATGACGTGGG
GGTCACAGAATAGCGACCAGGAAGCATTCGAGCAGTGCGACATGGCCTTC
CACGAGTTCGGCGTCAACTTCATTGTGAGCGAAAACTCGAGCGTCTGGTT
TGTCATATATACTGGTGGCAGCATCACGCTCCGCGGTGATTTCGTCAGCC
TTGTTTACTCCTGTGGCCGTTGTGGTTCTGGTTCCCGCGAGTGTTTTCTG
TTGTTGTTAGCAGCGGTGGCGGTGTTGGAAGTGCGGAAGACAAGGGGAAA
GTCGGCATGTAAAACGACCCTTCACGTACACGCAGTGTTTACGCTGCGGA
CGACGGGGAGCCGCGATGTGTTTATACGCTCTCGACGTGTTGGGGGTGGC
GTCGGGGAGACCACCGCGACTGTATGTGCGTTTCTTGGCACGATCCCCGT
TACGAACATCCGAACTTGGAGAATCCCTTTTCCCTCTTTTTTATGTTTCT
GGCGGCGCCGCAAGATGTGTCGACACACCAGGTGTCAAGTGTATTTTTTT
ATCTACATCAAAGGTAGCCCACCATTAAATTAAATAAGACCGCATGAATG
TAAAATTGTGGGCTTATCCAACTGCTGTCCTGTGCCTTTCTGTTCTCTCG
TGTTGAATAGACACCGACGCCGGGAAAGCGCCATATTTTCCCGCTAAGAT
AATTCATTCATTTTTCCGACCGAACGATGCAGAGCCAGTCGACACAGACA
CCGCTACATCGTTTGTAATGCTTTTGCTTGCACCCATGCATTATCATATC
CTTCTTATTTTTCTTTTCCCTCCCCTTTTTTTTTTTTTTTAAGGATGCGG
CGGAGATGTACCCGGTGCCTCCCTCAGCCGAGACGCAGGGGAGAACGGAG
ATAGCCTTGGGGAAGTGGCTCAAGACGGTACCTAGGCACAACGTAATCGT
GGCCACCAAGGTAGGAGCAGTCCCTTACCTCAAATCAACATCTTCCGTCT
CTTGATTTAGTCCAATAAATGGGAATCATTGAGTTTTAGGGGTTCTTCTG
TTTTCGTCGTTGTGGTGGTGGTGATGATAGCAGTGTTGCTGTTGGTGTTG
GTGTTGGTGTTGGTGTTGGTGTTGTTGTTCTTGTTCTTGTTCTTGTTCTT
GTTGTTGTTGTTGTTGTTTTTGTTGTTGTTGTTGTTGTTGTTCTAGTTCT
TGTTCTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTC
TAGTTCTTGTTCTTGTTCTTGTTGTTGTTGTTGTTGGTGTTCTTGTTCTT
GTTCTTGTTGGTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGT
TCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGCTGCTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGCTGTTGTTGCCAT
CGTCGTTGTTGCTGCTGTTGTTGTCGCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTCTTGTCCTCGTTGCCGCCGTTACCGCTGTTGGTGTTACTGTCAC
TCAAGCCGCCCCGACCAATCGGTGGGCGAATATTGGAATATTGGTCAAAG
GCTCACGTCAATACACGGTGTCCAAAGGGTCAAGCACCGAAGTGAAAAAC
AAAATACTGTACGGTACCGGTATGTGTTTTTTCCTATGTATCCGGTAGGT
TGTACGAAAGTTTTTTTCGCTTCTTCGAAGCATCTTGTTTTACGAAACAT
AGGAAGAAGGTGGAAGCACCGAAGGTTTAAAGGTGAGTCTAAACCGATCA
CATGCATGCACCTGCCGGGGAACAATAGAGGCGTCATAGTCTCGGGAGTT
GTCTCTCTCTCGGTGGATGCTGGCGTGATGTAGGCGTGGCCGCGACACGT
CGTGTTGCCTCCACCCGTATAACAGCAAGCTCAATTCATGTTCATCTGTG
TTTATATGGATGAATGGATGCATGCATGTATGTATTACAATCGATGCATG
TACGTATGTATGTATGTATGTACTTCCTCTGTATCATAAGTCTGTGCCGT
TATGTTTTTACGCCCCCTCAACGGTGTCCGATGTCTTCGGCGATAATTTT
TTCGAAATCTTCGGAGTTTTTTGGGTTGAAACACGTATATATATTTTTTC
TTGCGCACTACCCTGCGCATGGGCTAGCGGCTAACAAAAAAGTAGTCAGG
CCAAAACTGGCCGTATTTAACCCTTTCCAGAGGTGGAGTGGGGGGCGGGG
GCaaAAAAAAAAAACAATGCAATCCCCGCCAAAATTATCCCTAACCCTGA
ACCTAGCCCCCCTACCTCAAAGATTCATGTCGAGTCCCTCCTTACTAAAA
TCAGTATAATAGTGACGCGACGCATAAAACCAAGACACTTGGGTTTGCCA
CACTAAAACGAAGATACTTGGGACTCATGCTCTAAAACCAAGACATCTGG
CGGAATCAAAATTCTGTAAATGGGCCAAAATGGGCATATTTTGACTTCAT
TTTAGCACATAAACAACTGGCTTTTTTTTTTGCTTTTTTTTTTGCATCAG
CTTCTTTAAGACTTCATCTTTCGAACGCACCCAGCCAAAGGCTGAACGTC
AACGTGTAAGTAGCTTTACTACTTCACGCACATAACAGCCCAGACTTATG
ATACAGAGGAAGTATGTATGTATGTATGTATGTATGTATCGATGCATGTA
CGTATGTATGTATGTATGTATGTATGTATGTATGTATTGTACGAATTGTA
TGTAGCTATAAATGCATGTTGTCAGTAGTTTTTTATCGAATTCTCTGGGC
GGCTGACTTTGGATTCGTCCCATGATAGCCTCGGCTTGTCTTCGCCTGAT
ACACTCCTTTTATTGTCCTGCGAGGGGTTTCGCTTTCAGAGTTCTGTAAT
TGTAGTTTGTTGTACGAGTTTGATACAACAGTACTTCGAAGTACATACGT
AATTGGTGTGTGTTTTTGCTATTTTCTCCTGTGCCACCTTTAAATTGCCG
AAAGTGCCTGGTAACGGAGCGTAGGTTCGACTTTTCATGGGTTGTCTCCC
GCGCCTCATGCCTCGTGCCTTCTGTCCTACGTGTGCCTTCTTGTGTTTGT
GTTTTTTTACTACCGTGCGTCGTGCGTGTGCGTTGTGCCCTCTCTCTCCT
GTGCGTGCCTCGTTTCTTATGTTTTGTGTTTTGGGCCTTCTTTCTATCCT
GTTCGTGCCTTGCGTGTCTCTGGTATCGTGCGTCGTATACGTGTGTGATG
TGTGTGTTGTGTCTCGCGTGTCTCGTGTCGGTTGTCTCATTTTTCATGTC
TTGTGTGTCTGGCATCGCACCAGGTAGTGTTGGCAAGGCCATTTTCTATT
CTGCCTGCTTGTTTGCCTGTCTGTCTCTCTGTCTCTCCGCGCGCGTAACA
TTGAAAGCATCAGTTGTATCTAGTCTATCAGGTTGTTCTCGCTGATTCTC
GCATCAGCTTACGGCCTTCACGACTCGTGCTCCTTGTCTCGCGGCGCCAC
ACCACAATCACCCGCCGTCTTCAGGTGGCCGGCCGAAGCGACAGAGTGAC
TTGGTTGAGGGATGACGGGAAAGGAACGAGGGTGAACCGCAAAAACATTA
TAGAGGCGGTCGACAAGTCTCTCAAGAGGCTGGACACCGACTACATCGAT
CTACTGCAGGTACTGAATGGAACGAGAGGCTTTGTGCGTGTGTGTGTGTG
TTTGTTTGTCATGCCCTGTTAAACGCGGAAAGTGCTTAGACATGCGAGAA
ACTTGCCCCCCATTTTGTGGTGTGCGTCTCAATATACGCGCTTCCTGTTT
AGTGTGTGTGCGTGCGTCTTTATCGTCTTCGTCGTCGTTGACAGTCCTGC
CGACAGTCCTTTTGTCTCTGTCGCCTTCGTTGCTGTCATCGCTGTTGTTG
TTGTTGTTGTTGTTGTTGTGGACGACCGACTTCCGGCAGTATCACAGGAG
CAGCATGGGTGGGTTTCTGTCGCGCCATCCGTCGTGCTTGAGTGACCATT
GAGACCGCCGCGTAGCCCCAACACACACGCATGAAACGAGCACACATGTA
TCAAACGGTTCGAAACCCGGCCGCATCACCCACTCCGGTACACACATTAT
TGCCTCTCACCATCCCTCTACCGGTACCCCTCTCCCTTTTTCGCTGCCTG
TGCCCCCCCCCCCCCCCACAACATGATGCTGTTTATAGATTCACTGGCCG
GATCGTGCCGTGCCATTATTTGGTTCCAACGAGCGCTACGACGTCGCGGT
AAGAAGGAGAAGGGCGTCGCGGTTGGGAAACGGCGGGAGGGTGGGGAGGG
GGCCAATTTCGGGGGGTGGGGTGCCTAACGCACATGCTGGGTCTCGAGTG
GTCAGAATCATGAGACGATAGATGGTAGGGGCACTGATCACTTGGGGAGA
TATCGTGAGACGACGCCTTCCCAAAAGGGATGCCACCATCCATCCTGCTT
GCTGCGCGTCTTAGTTGTCCTGCGGCGACCATTTGAGGTCAGCTTGCTGT
TCACGCGTGTACGAGACCCCTGCAAGCTCCCGGCTACTTTTGGAGAGAGA
TCGGAGGGGGGGGGGGGGGGGAGGTTCTGCTGCCTCGCATCCCTTCGCAG
TGATGAGCCTTTCCCAGCCGGTGAATCGCGTCGCGAAATTTGTTTGTTTG
CTGGAGCTAGAAAAGGTGTCGTACTCCAATCGTATGAAGCAAGCACTGCT
ACATGCCGCTGTCTGATTGGCGTGCCGAGTACGGTGCTTTGCCGTATCAT
AGTCCTGCTCCCCCCTTCCCTCGCCCCCCCCCCCTCCTCCTCCTCCCCGA
ACATTTTTTTTTTCGCTTCTCGGGGGCATCTTTTTCTCTTTTTTTCCTCC
TTGTCCTTGAGCAGAAAGAGCACGACGATGACACCTCTTTTGAGGAGCAG
CTCGAGACGATGGACGAACTCCAGAGGGCCGGGAAGGTGAGGGGGGACGA
TGGTCGGCAAGAAGGAGAAGGGGGGGGGCGGAGAAGAAACCAAGTTTCTA
AGCAGTAGTTAGGGAAGGGAATGATTGTTTCACGTATGCTGAGTCTCAAT
TATTGTCTTGCGTAGCAGTCGAGTTGAGGCTCTACAAATGAAACTTCGAA
AAACATGCGGACTGCATACTTTCAGTATGGTCGTTTTTTTTTTTTCGCTC
TGCTTTGCTACGGATTCACAAAAACTCGGGTCCTTTCTACGAGTTGCGCA
ACAGCAGCAGTACCCAACCAACATTACGTGGAGATTCTCGGCGGATGATC
CATGTTCTTTGGAGCAAATGTGTCTTGGTGCCGTTCTCACTGCTGCGGCA
CCCTCTGTCATATGGGTACATTGTCCTAGGCAGTTCGTATTACGACGACA
AAAAAGTTCACACTGGGTTTTCTTCTCACAATGCGCGTGAAAGTGGAAAG
CGATTGATTCGTGAGTAAACGAAATTCGATCGTACCATCGACGAGGGAAA
GGGGTTGCTGTCCCCTTTCTCGCGATAAAAGTTCAACCAAACAAGGCAAA
AGCACCGCAGAGAGAAGTGGAGAAAAAAAAAAAATCCTGTGTTGACCTCC
CCCTGTGTGACCGCAGTTGGAGCGTCGACCTACCCGAAAGGTGCAGAGTG
GCGTTCAATTCAAGGGATGACAACACACACACACTGAGGTGGTGGTGGCA
GGGCAGTCGCCCGCGCACGATTTCTCCACCTCTCTGCGACGACGGCGTTT
GTGAGTCTTTCCGCCATGATGTTGGTGGCGCGACAAGATGTGGCGCGTAC
TTTGTCGTCGTTGTTGTCGTGCGAATGGAATGGTCGCCCACGCAGCGAAT
ACCCGCCGTTTTTTAGCGCGGCTGACGATCGGATGACGTCGCAGGCAGGC
AGCGCACTGCTAGTGCTGCGCGCCGCCGTGCAACGGGTGGCGCCATTTTC
TTTGTTTTTTTCTTGCTCAGCTGTGTCGTGTCCGCCCGACGATGGTTGAT
TCGCGGTCTCTCGTTTGACAGCGGTGTCGTTCCGTGCGATGCACGCGTCT
CCCGCTGGTATGCCCTCCCCGGCTGGCGACAGATCCATCGGTGCCATGAC
AGTCGCACGATGGTCTAGCTACAGCTTTGTGTCTATCCTGTGTGCGTGTG
TGTTTTGTCATCCCACCTATTCTGGACACCAGTCTACACCTGATGGGAAA
TGAAAAGCGGCGTGTGTGTTATGTCATCCCGCCTATTCTGGACACCAGTC
CTCACCTTTCGGGAAATGAATAGAGGCGTGTGTTTTGTCATCCCACCTAT
TCTGGACACCAGTATACACCTTTCGGGAAATGAAAAGAGGCGTGTGTATT
TTGTCGTCCCATCTATAAACTGGACACCAGTCTACACCTTTCGGGAAATG
AAAAGAGGCGTGTGTGTTTTGTCATCCCACCTATTCTGGACACCAGTCTA
CACCGTTTGGTTGCAACATGTCGGTTGTGACAATTGCCGGGGCGGGTCAC
AGAGGATGAGGTGCCGGTTATACATGATGTACGATGGCATTTGTAATAGC
GATGATGATGAAGAAGTTTTTTTGTTTTTTTGGACGATTCAATTCTTTCC
GACGCAATTTTTTTTAACGCCTTCTTTCTCCAGATCCGCGCAATCGGCAC
GAGCAACGACACCCCCTACGGGATCACCAAGATGGCCCAGCTCGGGGAGC
GGTTGGGCTATCCTCGCGTGGCATCGGTGCAGGTGACTAACTCACATTTA
TGTTGTTGCTAGGGTGCTCGGTTCTTGCGGCTGTCGAGTGACATCGGTTG
TTGCACCTGCTTGATCTACGGCCCGCCCACTCGAAAAGGATGACTTGAGC
AATCGCTAGAAGTCTAGACCTCGCGACATGATGTGGAACGGCGACTCAGC
TCTTGACGCTATCTCCATCGAGACGTGGCTTACAGACGGTAGTAAACATA
CCTATCAGGTACATACATTTAAAGTACACATACATAAAAACGTGCTGAAG
TCTCGTCGCCCTCCCTTTTTATCTGTGTGTCTCTCTCTCAACCTTAAAAA
AAAAAAAAATACAACACACGTCCCGACTTACAAATAAAAAAACCGGTTCA
GAGGTCGGACAACAAGTTTTCCCCAAGTTTTTCTGTACGCCTTTGGCTCT
GCTCTGCCCGCCCTCCCCTTCTTCCATCACTCACATCAATCAATCTCCCC
GAATACCTGCACAAGGCGTTTGACTTTCCCCCCCCCTCCCTCCCTCCCCT
CCTTCGCATATTCCGCTCGTACGGCGCCCCCTCCTCCCGTGAAATGCTGG
CTGGCACGGCTGCATCGGTAGAACAACTACAACATGCTCTCCCGAGCGGA
CGTGGAGCTAAGCAGCATGCCGGAGACGTGCTCTAGAGCGAACGCCGACG
TCAGCTACCTCGCGTATTCTCCGCTGGCCGGAGGGTGAGCACGCACAGCA
GCAGCAGCAGCAGCTTACGCGATTTTCGTTTCCCCGCAAATGTGTGTGTA
TGTGTGTGTGTCGACGTTCTGCGCGAAAGCACGCAGCGGTTCGGTTCGCA
ACCGCTGCGATATACTGGTACGATAACCTGTGGTGGTATCGGTTTATCAC
GTGTACCCTCCTTGAAAACATCTTGCCCGGGGCACAAGAACGAAAATGCT
TCATGTGAGCATGTGATGCATGGTGTGTGTGTTTGTGTCTTCGTCTCGTC
TATTCTGGGCAATAGTCTACATCTTTCGGTATGAAGTGGGTGCGCCAGCT
AGCCGGGATCAAGCTCAAGGATGCATGCAGTACACACGACCTTTTATGCC
CCACAATTGCACGAACGTTATGCCACGCCCTCTTTTACGTGGTTAAGGAG
TGTTTGTGTGTTTCCCCGTCCGTCAGGATGTTTGTCAAGCGGGGAGCCCC
TGACCCCGTACATCGCCGTAAGGGTGACTCTGACCCTACCTTTACTCCAC
ATTGGATGTCAAGCGGAGAGCACGAGCACTCAATAACCTCCAAATCACAA
CCCAAACCCTAACCCCTTGCCCTAACTTCGACCCCATCCGGGGCATAACC
CTAACCTCCACCGGGGTGTTGAACCCCGTTTAGGATGTTGAGGAAAAACC
TAGGCCTCTGCCCATTGATCGTGACCCTAAATCTACTTTTGACTCTTAAT
ACGGGCTTTGAGAAGGAAATCCCCAACCCTTACCCCTTGATCGTGGCCCT
CAGATTGATTTGGAACTCCCCAGTACAGGGCTTTGAGCAGGAAGACCCTG
ACCCAAACCCCATCCACGGTGTTGAGTTGATAATATCTGGACGCCTACAC
CCTGATTATGAACCTAAAACTGATTGCCGTTCATGGCTCTACACCAATCC
AGGGTGTTGGACCCTATCCAGGCCGCTGAGCGGGAGATACCTGGACCTTA
CCGGGCATTGTGGTGCAGGGAATACCCAGGCTTTGAAACCCCTGGATCGT
GACTCGGACCCCTCATTCCAACCGCCTCTTTCGCAGGGTTTTGAGCGGGA
AATACCTGGATCCTGACGTCCCCGTTCCCGAGGCACGGCTCAACAAGTTC
CCGGGCTTCTACTCACGCTACCGCACGCCTGAGTGCAACGAGTCCACCGC
TAGATTCGCCAAGATCGCAGCCCAAGTGAGTGGGCCGTCTCAATTGCCGC
CACTGGGCGGTACGTAGTCACGGTCTGCTTCGGACGTTGCCTACCGCTGT
TCACTCATGGCGTGGCGTGCGCTCTCGTGTAGTATCATCCGGTGGCATTT
CCCTGGTTTTAGTGGACTCTTGTCCACAATACGGCCTACACACGAAGCTG
TCCGAACGATCTGGTCGAAAGCTAAGCGTGGAAAAGTGTCGGCCCGAGAG
AGGTGGAGTTCATTCACCCGATTGTATGCGGTACGATTTGCGGTTTCACC
GCATTTTAGCCGCAATACAGTACCTACAGTTTATACTCGTAGGCCACGTT
GTGGTGGACAGAGTGTTGAAGTTTACTCAAAATTTGGCGCCAAGAAAAAA
AAAAAACTTCGGAGTGTTTTGTAGAAGAGCTGGAATGATCTGTGAAAGAC
GTCAGGGGGTGAGTGAGCACGGGTGAAGGCTGTTCGTTTTAGTATGATCA
TACACATACCAGTACTAAACTGGTGAAAAATACGGGAAATATCGTAAGTG
GGTACTAAACGGGACAAACCAACTCAAAATCACTTCGAAAAAGTATGCAT
GTACGTTCTTCTGTCTCACCTCCTCGCGGGTTATAACCGGTCCACCCCCA
AGAGTTGCAAGAACCAACTCCTTGCCCGGCCCTTACACGGCCGGTTCGTG
TGCCCTTTTCGAAGTTCTTCTGGAGTTACCCCTGCTTCTCCTCGACTTAC
ACCTGCTTATCCTCGACTTACCGCTGCTTCTCCTCGACTTACACCTGCTT
ATCCTCGACTTACCCCTGCTTCTCCTCGACTTACACCTGCTTATCCTCGA
CTTACCGCTGCTTCTCCTCGACTTACCCCTGCTTCTCCTCGACTTACCCC
TGCTTATCCTCGACTTACCCCTGCTTATCTTATCCTCGACTTACACCTGC
TTATCCACTTACCCCTGCTTATCCTCGACTTGCCCCTGCTTATCCTCGAC
TTACCCCTGCTTTGTCCTCTCCGCTCATTCGTCGTGCGTGACGACCAGAT
TGGCATCACCCCATCACAGATGGCCCTCGCCTGGGTGTACAGCCGCGAGT
TTATCACGTCCACCATCGTGGGCGCTACGAATATCGACACGCTGAGGGAG
AACCTCCACGCGTTGAACTGTGAAGTCACGGAGAAGGCGCACACGGAGAT
TTTGAAAGTTTATGAAGAGTGAGTGACGTACAGCGGTATGTCTTGTCTTG
TCTTGTCTTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTG
TCTGTTTGTCTGTCTGTTTGTCTGTCTGTCTGTCTCTCTCTCTCTCTGTC
TGTTTGCCTGTCTGTCTGTCTGTCTGTTTGTCTCTCTCTTGTCTGTGCCT
GTGCCTGCCTGGTGTTGGTGTTGTTCCCGTGCTGACGATGCCGTGCTGAC
GATGCCGTGCTGACGATAAGAACAAAGTTTGACAGCTGTTGAACGCCCTC
GAACTGGCTTCCCTAGTAGTGTGACGGGCAGAACGGCTTATGCGTTTCAC
AATTTGGTTGCTTGTTTATCACCTTGTCGTACTCATCGAAAGTTGTTGTG
GTTTGTATTGGCTCGGGGGGGGGGCGGCTCATGCTGTTGGTTTGCTTGTG
TGAGTTGGTGCTTGTTGTGTTGGTCTTGTCACTGTGTTTGACGGTGGTGG
TCACGGCCGTGTCTGGTGCTCTTAAGGGCACTCTCTTCTCGGCGCTCCAC
TTCACGTTGGAGCTTTACGCGTCGTTGTTTTTTTTTTTGCTGGTTTTGTT
TTTAGTTGGTTTCGGCCGTGTCGCTGCTGCTGCAGCCGTTGTCGTAGCAC
GGATCGTATGTTCTCCGTCTGCAGCTCCGATATCTTTACCCTTCCGTTGT
CCTTGAGCGTATTCGGCATATATAGGTTTCGGTTCCGTTGCCTTTCGCAC
CGTAGTTTCGACGTCAACTCGCTCGTTGCCTTTCCGAAGGCGATAAGAGG
CGTGTTCCGCACAAGCACACCGCCATAAATGCCCCCCCCCCCCTGTCACT
AGTGGTCAAACGACTCAGGCAATCAACAATCGAGCAACCTCCTCCGCCCC
GCACGTCGGTATCAGCTCCCGCCTTACTCATGTGGCGCTTTCCTTGCCAA
CCCCCCACGCTGTCTTCCTGAAAGTAATTCTTTCATCTCACGTCTCTTTT
CTGAAGCTAATTCTCTCATCGCACGTCTCTCACGTTTCGTTTCTTCCTGT
CTGTCGTGCCTCTCCGATCGCCCGCCCCTCGCGCGGAGAGCAGGTTTAGA
GACCCCACGAAGACGAAGCGAGAAGAGCTGCCGAAGTTCGTGTTCAACAG
CAGCAAGCTGTCGCGACTTGACAGGAATTAGGCTGCATGTACTACGCTGC
TGCTGCTGCTGCTGCTGCTGCTGTGTCGCCATACAATAATATTGGTCATC
GTTTGTCGTCTCCTTGAGCGACGAGACGGCGGTAGTCGAGGGGAGTGCGT
ATGTACCAATATTATTAACGGTTCGCCGGGGGAGATCCCGTCTTGGTTTG
AATCGGAAATCGGAAATGTTCAGTGAGCGCTGGCGCTAGGCAGCCGGAGC
TGGGTTTACAGTAATTAAGGCTGGCTTCCCGACGTCCTGACATTCATTTT
GAGAAACGGCAAGGGGACGTAGATGTATACGTCTTGTTTTTTGGCGAGTT
GTTGTGGCAGTGCTGACGTTGTTTATTGACTGCCACAGTACACGACTCGT
GCTATGTCTTGCAGGGTGCTCTTGCTCGATACAGGTGAAGAATGTGGTAT
TTCCTTGTCTCACGGCACACGTTTTTCACGGCAGTCTACTCTGATCAAAT
TGTTTTTCCAGCTGTACTTGACTGCGGTAGGAATAAACCATGCTCGCGGT
GTACCTGGTACACATCACGCCCCCCCACACACCGTTGTGATCTGCTGGAT
GGAGTTCTCTTGGCCGTGTGATTGGTTTCGTGCAGCGAAAGATGATTCGA
CCAGCGAGTGCTGTGCCGCCAGTCTTTACGCTCATGGTTCTGTTCTTGAA
ACCTTGAACTTCGAGAGCGGCAGTGCGTTAACCTTCCTACCCCTAGGTAA
CTAAATGTCGCCATTTTGGATCGCTATTTTTGTTGCGCGTAACTTGGAAT
GTCACGCTACTCCCAAAAGCTAAACTTTTGCCTCGCTAACCGACCGCTCA
ATTTCCAAACGCATTCC

Coding sequence (CDS) from alignment at P-littoralis_Contig12:291118..304734+

>mRNA_P-littoralis_Contig12.66.1 ID=mRNA_P-littoralis_Contig12.66.1|Name=mRNA_P-littoralis_Contig12.66.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1380bp|location=Sequence derived from alignment at P-littoralis_Contig12:291118..304734+ (Pylaiella littoralis U1_48)
ATGAGGAGTTCATTGCTCTGCGTGGGGGCGTCACTTTCCCTCTATGCTAC
TCCGTCCCGAGGCTTCCTTCCACCCCGAAGACCAACGCTGACACCAACGC
GAGCGGCTGCTGCTGCGCTTGCCACCAAACACCCAGCAAGTCGAAGTGGG
GCTCGCAGCAGGGACGTTCGCAGTGGGGAGTTGTGCATGTCGTTGGGATT
GAGGGATGGGGACGTTTTTTGGGCGAAGGAGCTCCGACACGGGATGGAGT
ACAAAAGACTGGGAAAAAGCGACCTGGTGGTTAGCCAGGTTTGCCTGGGC
ACCATGACGTGGGGGTCACAGAATAGCGACCAGGAAGCATTCGAGCAGTG
CGACATGGCCTTCCACGAGTTCGGCGTCAACTTCATTGATGCGGCGGAGA
TGTACCCGGTGCCTCCCTCAGCCGAGACGCAGGGGAGAACGGAGATAGCC
TTGGGGAAGTGGCTCAAGACGGTACCTAGGCACAACGTAATCGTGGCCAC
CAAGGTGGCCGGCCGAAGCGACAGAGTGACTTGGTTGAGGGATGACGGGA
AAGGAACGAGGGTGAACCGCAAAAACATTATAGAGGCGGTCGACAAGTCT
CTCAAGAGGCTGGACACCGACTACATCGATCTACTGCAGATTCACTGGCC
GGATCGTGCCGTGCCATTATTTGGTTCCAACGAGCGCTACGACGTCGCGA
AAGAGCACGACGATGACACCTCTTTTGAGGAGCAGCTCGAGACGATGGAC
GAACTCCAGAGGGCCGGGAAGATCCGCGCAATCGGCACGAGCAACGACAC
CCCCTACGGGATCACCAAGATGGCCCAGCTCGGGGAGCGGTTGGGCTATC
CTCGCGTGGCATCGGTGCAGAACAACTACAACATGCTCTCCCGAGCGGAC
GTGGAGCTAAGCAGCATGCCGGAGACGTGCTCTAGAGCGAACGCCGACGT
CAGCTACCTCGCGTATTCTCCGCTGGCCGGAGGGGTTTTGAGCGGGAAAT
ACCTGGATCCTGACGTCCCCGTTCCCGAGGCACGGCTCAACAAGTTCCCG
GGCTTCTACTCACGCTACCGCACGCCTGAGTGCAACGAGTCCACCGCTAG
ATTCGCCAAGATCGCAGCCCAAATTGGCATCACCCCATCACAGATGGCCC
TCGCCTGGGTGTACAGCCGCGAGTTTATCACGTCCACCATCGTGGGCGCT
ACGAATATCGACACGCTGAGGGAGAACCTCCACGCGTTGAACTGTGAAGT
CACGGAGAAGGCGCACACGGAGATTTTGAAAGTTTATGAAGAGTTTAGAG
ACCCCACGAAGACGAAGCGAGAAGAGCTGCCGAAGTTCGTGTTCAACAGC
AGCAAGCTGTCGCGACTTGACAGGAATTAG