mRNA_P-littoralis_Contig11.53.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig11.53.1
Unique NamemRNA_P-littoralis_Contig11.53.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A6H5L0E9_9PHAE (Aldo_ket_red domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L0E9_9PHAE)

HSP 1 Score: 521 bits (1342), Expect = 3.150e-170
Identity = 328/553 (59.31%), Postives = 371/553 (67.09%), Query Frame = 1 
Query:  721 TAVRRKATRRRGSVVRVGAFAGGEDSYAEPRARGTKGDRERRRKDEEERARIRAGGDYQQEVADGAPGAWAGAVLEDPTKIKIGRGEGDRRLEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLEESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLIKSPAGSS-----------------------------------ERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGGSDTDLGRRNDLGDPVIVVGNSSATVAAAAVSIPVRVNSAGSLSARRSADAEEDRIGGRRGAELAEMLDGDDLESIAAAVGEGETTARAAPATNLGWE-EDLLWGAEGEEEEGGELWGV-GAGWEGATIFL 2268
            ++VR   T RRG  ++V            PR RGTKGD  RR +D  E     A    QQE A        G    DP K+ +G  EG   LEVCRV+NGLCQGPLDDTSGDP DALR+MDRLAE GLTTF LGN AGGGRALAE+R GSYLK+ AG+  G  E+RFLNTLSL RG+PVTRK VK+ALELSLRRMGVERLDLVQLCW DFEDRYFLDAL YLEE E VSNVGVCGFP  PLALA  NGFTV SNLVASSLIK+P GSS                                   ERT LA+QC+EQGVA+I +GASLGG AA+EWLYRS PS   +E L LASR+ALSDILAWG S+ + + K   GD W LYQ+KLLPELQAVARKHG G SPADVATAFHLYR+P  P  G S TD G  ++            A  +A AVS+PVRVNSAGS+SARR+A+A+EDR+ GRRGAELA+ LD +D++ IA AVG G           LGWE E+LL GAEGE+E  G LW   G G EG TIFL
Sbjct:   99 SSVRHINTPRRGGALQVS-----------PRPRGTKGDIVRRDRDRNEEVLREA---QQQEEA-----RQRGT---DPMKVSLGS-EG---LEVCRVINGLCQGPLDDTSGDPTDALRSMDRLAEMGLTTFMLGNGAGGGRALAESRAGSYLKSAAGAASGEQEVRFLNTLSLRRGVPVTRKTVKSALELSLRRMGVERLDLVQLCWRDFEDRYFLDALYYLEELEWVSNVGVCGFPGEPLALAAKNGFTVVSNLVASSLIKTPMGSSSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXERTGLARQCREQGVALIASGASLGGFAAEEWLYRSPPSVSNEEELPLASRQALSDILAWGRSNGNDDLK---GDPWALYQNKLLPELQAVARKHGGGISPADVATAFHLYRRP-VPPFGSSRTDPGTASET----------QAVNSAVAVSLPVRVNSAGSVSARRAAEADEDRVAGRRGAELADALDPEDIQRIATAVGAGSEREAIQVGGALGWEDEELLGGAEGEDE--GALWAEQGVGLEGPTIFL 609
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BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: D7FTT7_ECTSI (Aldo_ket_red domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FTT7_ECTSI)

HSP 1 Score: 495 bits (1274), Expect = 3.340e-162
Identity = 307/518 (59.27%), Postives = 346/518 (66.80%), Query Frame = 1 
Query:  721 TAVRRKATRRRGSVVRVGAFAGGEDSYAEPRARGTKGDRERRRKDEEERARIRAGGDYQQEVADGAPGAWAGAVLEDPTKIKIGRGEGDRRLEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLEESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLIKSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGGSDTDLGRRNDLGDPVIVVGNSSATVAAAAVSIPVRVNSAGSLSARRSADAEEDRIGGRRGAELAEMLDGDDLESIAAAVGEGETTARAAPATNLGWE-EDLLWGAEGEEEEGGELWGV-GAGWEGATIFL 2268
            ++VR   T RRG  ++V            PR RGT GD  RR +D  E     A    QQE A             DP K+ +G G     L VCRV+NGLCQGPLDDTSGDP DALR+MDRLAE GLTTF LGN AGGGRALAE+R GSYLK+ AGS  G  E+RFLNTL L RG+PVTRK+VK+ALELSLRRMGVERLDLVQLCW DFEDRYFLDAL YLEE E VSNVGVCGFP  PLALA  NGFTV SNL                     C+EQGVA+I +GASLGG AA+EWLYR  PS   +E L LASR+ALSDILAWG S+    + R  GD W LYQ++LLPELQAVARKHG G SPADVATAFHLYR+P  P  G S TD G  ++            A  +AAAVS+PVRVNSAGS+SARR+A+A+EDR+ GRRGAELA  LD +D++ IAAAVG G           +GWE E LL GAEGEEE  G LW   G G EG TIFL
Sbjct:   11 SSVRHINTPRRGGALQVA-----------PRPRGTIGDIARRDRDRSEEVLREA---QQQEEAR--------QHGSDPMKVSLGSGG----LHVCRVINGLCQGPLDDTSGDPTDALRSMDRLAEMGLTTFMLGNGAGGGRALAESRAGSYLKSAAGSASGEQEVRFLNTLRLRRGVPVTRKSVKSALELSLRRMGVERLDLVQLCWRDFEDRYFLDALYYLEELEWVSNVGVCGFPGEPLALAAKNGFTVVSNL---------------------CREQGVALIASGASLGGFAAEEWLYRPPPSVSNEEELLLASRQALSDILAWGRSN---GNARLDGDPWALYQNRLLPELQAVARKHGGGISPADVATAFHLYRRP-VPPFGSSRTDPGTASET----------QAVNSAAAVSLPVRVNSAGSVSARRAAEADEDRVAGRRGAELANALDPEDIQRIAAAVGAGSEREAIEVGGAVGWEDEQLLGGAEGEEE--GALWAEQGVGLEGPTIFL 465
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A432HXD9_9ARCH (Aldo/keto reductase n=6 Tax=cellular organisms TaxID=131567 RepID=A0A432HXD9_9ARCH)

HSP 1 Score: 108 bits (269), Expect = 1.120e-21
Identity = 99/299 (33.11%), Postives = 140/299 (46.82%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCA---GSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYL---EESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFA 1869
            L VCR++NG+ Q        DP  A+R+M    +AG TT+ L +  G     AE  +G + +  A   G    S    F  T  +P   P+TR+ V+  +++SLRRMGVE LDL+Q  W D+ D  + DAL +L    E   + ++ +  F    L      G  V SN V  SLI + P        +AQ C+E  + ++  G   GGL +  +L +  PSG A    SL   K + D  AWG               W L+Q+ LL  L  VA KHG   S A++A  + L R   A
Sbjct:   15 LRVCRILNGMWQVSGSHGHIDPAMAIRSMFDYFDAGFTTWDLADHYG----PAEDFIGEFRRQLAEHRGEAASSSIQAF--TKWVPHPGPMTRQIVERNVDISLRRMGVEILDLLQFHWWDYNDPRYTDALTHLASLREEGKIRHLALTNFDTEHLRQITDQGIRVVSNQVQYSLIDRRP-----MIQMAQYCQEHDIKLLAYGTVCGGLLSKRYLGQPAPSGAALNTASLHKYKQMID--AWGG--------------WELFQN-LLATLGDVAGKHG--VSIANIAVRYMLERPAVA 283
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A2E2DVQ2_9CHLR (Aldo/keto reductase n=4 Tax=Chloroflexi TaxID=200795 RepID=A0A2E2DVQ2_9CHLR)

HSP 1 Score: 106 bits (265), Expect = 3.770e-21
Identity = 97/307 (31.60%), Postives = 146/307 (47.56%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQ-----GPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTC-AGSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLEESEC---VSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGG 1884
            LE+CR++NG+ Q     GP+     DP  A++ M    +   TT+ L +  G     AE  +G + +   A  G  + E     T  +PR  P+TR  V+ A+++SLRRM  +RLDL+Q  W +++D  +LDAL +L +      + +V +  F    L     +G  + SN V  SLI + P        +AQ C +QG+ ++  G   GGL +D +L    PS  A    SL+  K + D  AWG               W L+Q +LL  L+ VA KH      A+VA  + L R   A +  G
Sbjct:   15 LEICRILNGMWQVSGGHGPI-----DPAAAVKDMFPYVDEEFTTWDLADHYG----PAEDLIGEFRRQFEAAQGPQAWESVQAFTKWVPRPGPMTRGVVEQAVDVSLRRMDTDRLDLLQFHWWEYQDESYLDALSHLSDLRDEGKIRHVALTNFDTERLKRIAGHGIKIVSNQVQFSLIDRRP-----EVEMAQFCLDQGIHLLAYGTLCGGLLSDRYLRTPEPSRSALNTASLSKYKQMVD--AWGG--------------WELFQ-ELLGALRPVADKHQVNI--ANVAVRYVLDRPAVAGAIVG 288
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BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A6L7TSG9_9CHLR (Aldo/keto reductase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A6L7TSG9_9CHLR)

HSP 1 Score: 106 bits (265), Expect = 3.770e-21
Identity = 94/278 (33.81%), Postives = 138/278 (49.64%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSY---LKTCAGSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYL---EESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKH 1806
            L + R++NG+ Q      S +P  ALRAM    +AG TT+ L +  G     AE  VG +   L    G    +G L F  T  +PR  P+TR+ V++ +++S RRMG+ERLDL+Q  W D+ D  +LDAL +L    +   +  V +  F    +    A+G  V SN V  SLI + P        ++  C+EQ  +++  G   GGL +D +L +  PS  A    SL   K + D  AWG               W+L+Q +LL  L+AVA +H
Sbjct:   15 LTINRILNGMWQVSGAHGSIEPSAALRAMFDYMDAGFTTWDLADHYG----PAEDFVGEFRRQLTAVRGPDAANGILAF--TKWVPRPGPMTREIVESNIDISRRRMGMERLDLLQFHWWDYRDIRYLDALSHLADLRDEGKIREVALTNFDTQRMQDIAAHGVRVVSNQVQYSLIDRRP-----EVAMSAFCQEQESSLLAYGTLCGGLLSDRYLGQPEPSVGALNTASLRKYKQMID--AWGG--------------WNLFQ-QLLSALKAVADRH 264
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A6N8YYM8_9CHLR (Aldo/keto reductase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A6N8YYM8_9CHLR)

HSP 1 Score: 105 bits (261), Expect = 1.250e-20
Identity = 95/307 (30.94%), Postives = 150/307 (48.86%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLS--LPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLE---ESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLIKSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGGSDTDL 1899
            L +CR++NGL Q        DP  A+R+M    +AG TT+ L +  G     AE  +G + +    S  G   L  +   +  +PR  P+TR+ V+  +++SLRRMGV+ LDL+Q  W ++ D  +L+AL +L    E+  + ++ +  F    L +   NG  V SN V  SL+           +A  C+E G+ ++  G   GGL +  +L +S P+G A +  SL   K +  I AWG               W L+Q +LL  L ++A +HG   S A+VA+ + L +   A    G+   L
Sbjct:   14 LNICRLLNGLWQVSGAHGRIDPTAAIRSMVDYHDAGFTTWDLADHYG----PAEDFIGEFRRQLI-SERGEAALAEVQAFTKWVPRPGPMTREIVENNVDISLRRMGVDCLDLLQFHWWEYGDDRYLEALGHLSDLREAGKIRHLALTNFDTEHLKVIVDNGIRVVSNQVQCSLVDMRPSQQ----MAPYCQENGIYLLTYGTFCGGLLSAGYLGQSEPAGAALDTASLNKYKQM--ISAWGG--------------WALFQ-ELLECLNSIADRHGA--SIANVASRYILDQPAVAGVIAGARLGL 292
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: UPI0016823A4B (aldo/keto reductase n=1 Tax=Microcoleus sp. FACHB-831 TaxID=2692827 RepID=UPI0016823A4B)

HSP 1 Score: 104 bits (259), Expect = 2.270e-20
Identity = 92/306 (30.07%), Postives = 147/306 (48.04%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLN----TLSLPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLEESEC---VSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGGS 1887
            L +CRV+NG+ Q        D   A+++M +  +AG TT+ L +  G     AE  +G + K    +    GE    N    T  +PR   +TR+ V+  + +SL+RMGVE LDL+Q  W +++D  +LDAL Y+ E +    + ++ +  F    L +   +G  + SN V  SL+ + P        +A+ C+E  + +   G   GGL ++++L +  P G      SL   K + D  AWG               W L+Q +LL  L+ +A KHG   S  +VA  + L R    P+ GG+
Sbjct:   15 LNICRVLNGMWQVSGAHGRIDAKSAIQSMFKYMDAGFTTWDLADHYG----PAEDFIGEFRKQLVAT---RGEEALSNLQAFTKWVPRPNKMTRRLVEDNINISLKRMGVESLDLMQFHWWEYQDTNYLDALKYMSELQAEGKIKHLALTNFDTEHLKIIVDSGIKIVSNQVQFSLVDRRPL-----VNMAKFCEEHDIKLFAYGTLCGGLLSEKYLGKPEPRGGELATASLRKYKNMVD--AWGG--------------WSLFQ-ELLNALKQIASKHGVSIS--NVAVRYILDR----PAVGGA 285
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A6N8Z4D9_9CHLR (Aldo/keto reductase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A6N8Z4D9_9CHLR)

HSP 1 Score: 103 bits (258), Expect = 3.060e-20
Identity = 98/298 (32.89%), Postives = 144/298 (48.32%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLS--LPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYL---EESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHLYRKPFA 1869
            L +CRV+NG+ Q        DP  AL AM    +AG TT+ L +  G     AE  +G + +  A +  G+  L  +   +  +PR  P+TR+ V+  +++SLRRMGVE+LDL+Q  W ++ DR +LDAL +L    +   +  V +  F    L     +G  V SN V  SLI + P        +   C+EQ V ++  G   GGL +D +L +  P   A    SL   K + D  AWG               W L+Q +LL  L+ +A KHG   S A+VA  + L +   A
Sbjct:   15 LPICRVLNGMWQVSGAHGRIDPEAALDAMLAYHDAGFTTWDLADHYG----PAEDFIGEFRRRLADAR-GADALSEIQAFTKWVPRPGPMTRQIVENNVDISLRRMGVEKLDLLQFHWWEYGDRRYLDALEHLAALRDEGKLHRVALTNFDTQRLRDIADHGVRVVSNQVQYSLIDRRP-----EVQMTAVCEEQRVWLLPYGVLCGGLLSDRYLNQPEPGVGALNTASLRKYKQMVD--AWGG--------------WGLFQ-RLLTALRVIADKHG--VSIANVAERYILEKNTVA 283
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: A0A2N0LRR4_9CHLR (Aldo/keto reductase n=1 Tax=SAR202 cluster bacterium Io17-Chloro-G7 TaxID=1926616 RepID=A0A2N0LRR4_9CHLR)

HSP 1 Score: 102 bits (255), Expect = 8.290e-20
Identity = 94/306 (30.72%), Postives = 149/306 (48.69%), Query Frame = 1 
Query:  952 PTKIKIGRGEGDRRLEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLS--LPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYLEESEC---VSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHL 1851
            P+     R E     + CR++NG+ Q        D   A+ +M    + G TT+ L +  G     AE  +G + +    S  G G L  +   +  +PR  P+ RK V+  +++S+RR+ VE LDL+Q  W ++ED  +L+A+ +LE+      + +VG+  F    L      GF + SN V  SLI + P     +  +A+ C+ QG+ ++  GA  GGL  D +L +  PS  A +  SLA  K +  I AWG               W+L+Q +LL  L+++A +H    S ADVA  + L
Sbjct:    7 PSLPPSSRFEFSPNFQTCRILNGMWQVSGAHGHIDADKAVESMFDYLDLGFTTWDLADHYG----PAEDFIGEFRRRLVESR-GLGALADIQAFTKWVPRVGPMNRKVVEGNIDISMRRINVECLDLLQFHWWNYEDERYLEAVGHLEDLRNEGKIRHVGLTNFDTQILQNIVDQGFEIVSNQVQYSLIDRRP-----QVRMAEYCERQGIHLLAYGALAGGLLTDRFLGQHEPSRAALDTASLA--KYIRMIEAWGG--------------WNLFQ-ELLVTLRSIADRHQ--VSIADVAVRYVL 283
[Close]
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Match: K9S5K0_9CYAN (Aldo/keto reductase n=2 Tax=Geitlerinema sp. PCC 7407 TaxID=1173025 RepID=K9S5K0_9CYAN)

HSP 1 Score: 101 bits (252), Expect = 1.960e-19
Identity = 92/292 (31.51%), Postives = 142/292 (48.63%), Query Frame = 1 
Query:  994 LEVCRVMNGLCQGPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLKTCAGSGVGSGELRFLNTLS--LPRGMPVTRKAVKAALELSLRRMGVERLDLVQLCWHDFEDRYFLDALCYL---EESECVSNVGVCGFPAAPLALAGANGFTVASNLVASSLI-KSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRSVPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLPELQAVARKHGRGFSPADVATAFHL 1851
            L +CR++NGL Q         P  A+ AM    +AG TT+ L +  G     AE  +G + +       G   L+ +   +  +PR  P+TR+ V   +++SL RMGV+ LDL+Q  W D+ DR +LDAL +L   +++  + ++ +  F    L L    G  + SN V  SL+ + P        +AQ C+E+G+ ++  G   GGL ++ +L +  PS    E  SL   K + D  AWG               W   Q+ LL  LQA+A+KH    S A+VA  + L
Sbjct:   19 LSICRLLNGLWQVSGGHGRIQPQQAIAAMQDYHQAGFTTWDLADHYG----PAEDFIGEFRRQMLALH-GPESLKDIQAFTKWVPRPAPMTRQVVTENIQISLDRMGVDCLDLLQFHWWDYRDRAYLDALGHLADLQQAGKIKHLALTNFDTERLQLILDQGIPIVSNQVQFSLVDRRPL-----VKMAQFCQERGIHLLAYGTLAGGLLSEAYLGQREPSRWGLETASLRKYKQMVD--AWGG--------------WAQLQT-LLQTLQAIAQKHR--VSLANVAVRYVL 281
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig11.53.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5L0E9_9PHAE3.150e-17059.31Aldo_ket_red domain-containing protein n=1 Tax=Ect... [more]
D7FTT7_ECTSI3.340e-16259.27Aldo_ket_red domain-containing protein n=1 Tax=Ect... [more]
A0A432HXD9_9ARCH1.120e-2133.11Aldo/keto reductase n=6 Tax=cellular organisms Tax... [more]
A0A2E2DVQ2_9CHLR3.770e-2131.60Aldo/keto reductase n=4 Tax=Chloroflexi TaxID=2007... [more]
A0A6L7TSG9_9CHLR3.770e-2133.81Aldo/keto reductase n=1 Tax=Chloroflexi bacterium ... [more]
A0A6N8YYM8_9CHLR1.250e-2030.94Aldo/keto reductase n=1 Tax=Chloroflexi bacterium ... [more]
UPI0016823A4B2.270e-2030.07aldo/keto reductase n=1 Tax=Microcoleus sp. FACHB-... [more]
A0A6N8Z4D9_9CHLR3.060e-2032.89Aldo/keto reductase n=1 Tax=Chloroflexi bacterium ... [more]
A0A2N0LRR4_9CHLR8.290e-2030.72Aldo/keto reductase n=1 Tax=SAR202 cluster bacteri... [more]
K9S5K0_9CYAN1.960e-1931.51Aldo/keto reductase n=2 Tax=Geitlerinema sp. PCC 7... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig11contigP-littoralis_Contig11:319032..330881 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FTT7
PFAMsAldo_ket_red
Model size3108
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorysignal peptide
Exons6
Evalue1.3e-167
EggNOG OGsCOG0667@1|root,KOG1575@2759|Eukaryota
Ec32 ortholog descriptionNADP-dependent oxidoreductase domain
Ec32 orthologEc-25_001490.1
Descriptionoxidoreductase activity
Cds size1992
COG categoryC
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig11.53.1prot_P-littoralis_Contig11.53.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig11 319311..330044 +


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

Feature NameUnique NameSpeciesTypePosition
1680789428.290935-UTR-P-littoralis_Contig11:319031..3193101680789428.290935-UTR-P-littoralis_Contig11:319031..319310Pylaiella littoralis U1_48UTRP-littoralis_Contig11 319032..319310 +
1680789428.3735933-UTR-P-littoralis_Contig11:330044..3308811680789428.3735933-UTR-P-littoralis_Contig11:330044..330881Pylaiella littoralis U1_48UTRP-littoralis_Contig11 330045..330881 +


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

Feature NameUnique NameSpeciesTypePosition
1680789428.3060348-CDS-P-littoralis_Contig11:319310..3200601680789428.3060348-CDS-P-littoralis_Contig11:319310..320060Pylaiella littoralis U1_48CDSP-littoralis_Contig11 319311..320060 +
1680789428.3152964-CDS-P-littoralis_Contig11:326445..3265981680789428.3152964-CDS-P-littoralis_Contig11:326445..326598Pylaiella littoralis U1_48CDSP-littoralis_Contig11 326446..326598 +
1680789428.3256361-CDS-P-littoralis_Contig11:327453..3276111680789428.3256361-CDS-P-littoralis_Contig11:327453..327611Pylaiella littoralis U1_48CDSP-littoralis_Contig11 327454..327611 +
1680789428.334292-CDS-P-littoralis_Contig11:328375..3285201680789428.334292-CDS-P-littoralis_Contig11:328375..328520Pylaiella littoralis U1_48CDSP-littoralis_Contig11 328376..328520 +
1680789428.345612-CDS-P-littoralis_Contig11:328901..3290931680789428.345612-CDS-P-littoralis_Contig11:328901..329093Pylaiella littoralis U1_48CDSP-littoralis_Contig11 328902..329093 +
1680789428.360523-CDS-P-littoralis_Contig11:329450..3300441680789428.360523-CDS-P-littoralis_Contig11:329450..330044Pylaiella littoralis U1_48CDSP-littoralis_Contig11 329451..330044 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig11.53.1

>prot_P-littoralis_Contig11.53.1 ID=prot_P-littoralis_Contig11.53.1|Name=mRNA_P-littoralis_Contig11.53.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=664bp
MGSLLPLLLQISKRGGRVHSTITLTYLFAAVVYGGGVQRQQPLRTHIHGG
CRSSSSSTTTTTTTTATTTERYSIIAKAQPTRTTIIASGITSSATARCFA
PPPSSPLLFVSTPPERVKKNANSNNFVPTRRGAPPPPPAAAPAAAIKTAV
RRKATRRRGSVVRVGAFAGGEDSYAEPRARGTKGDRERRRKDEEERARIR
AGGDYQQEVADGAPGAWAGAVLEDPTKIKIGRGEGDRRLEVCRVMNGLCQ
GPLDDTSGDPIDALRAMDRLAEAGLTTFQLGNEAGGGRALAETRVGSYLK
TCAGSGVGSGELRFLNTLSLPRGMPVTRKAVKAALELSLRRMGVERLDLV
QLCWHDFEDRYFLDALCYLEESECVSNVGVCGFPAAPLALAGANGFTVAS
NLVASSLIKSPAGSSERTTLAQQCKEQGVAMIFTGASLGGLAADEWLYRS
VPSGDAKEGLSLASRKALSDILAWGSSSSSSNDKRSVGDSWHLYQSKLLP
ELQAVARKHGRGFSPADVATAFHLYRKPFAPSTGGSDTDLGRRNDLGDPV
IVVGNSSATVAAAAVSIPVRVNSAGSLSARRSADAEEDRIGGRRGAELAE
MLDGDDLESIAAAVGEGETTARAAPATNLGWEEDLLWGAEGEEEEGGELW
GVGAGWEGATIFL*
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mRNA from alignment at P-littoralis_Contig11:319032..330881+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig11.53.1 ID=mRNA_P-littoralis_Contig11.53.1|Name=mRNA_P-littoralis_Contig11.53.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=11850bp|location=Sequence derived from alignment at P-littoralis_Contig11:319032..330881+ (Pylaiella littoralis U1_48)
TGTCAGACAACGCTCGTGTGCCTCTTCTTGCTGCAGTGTCTGGCGAAACG
TGAAGCAACGAAAGCGGCGACGGCGGTGGTGGTGACACTGATCGACCCAA
GCACGGATACTGCATGGCTAGTTGTCTCCGTCGGGCTCTTGATTTCGAGA
CTTGGGTATCATACATCTGTGTCGTAACTGTACAGCTACCGCCGTAGCAG
CATCCCCACGAACTTGTGACCTCTCGACGACAAGCACACCAACGGGGTGA
AGCAGGAAGTGTCCAAGGGAGATATAAGCATGGGTTCGCTCCTCCCGCTG
CTCCTTCAGATAAGCAAGCGCGGTGGTCGCGTTCACTCTACGATCACATT
GACGTACCTTTTTGCGGCAGTGGTCTATGGTGGTGGAGTCCAACGTCAAC
AACCACTTCGAACACATATTCACGGCGGTTGCCGTAGCAGCAGCAGCAGC
ACCACCACCACCACCACCACCACTGCCACCACCACCGAGCGTTACAGCAT
CATCGCGAAAGCCCAACCAACAAGAACAACAATAATAGCCTCTGGAATCA
CTTCGAGTGCGACGGCACGCTGCTTCGCACCACCGCCGTCATCGCCATTG
CTGTTTGTTTCCACACCTCCCGAGAGGGTAAAAAAAAACGCCAACAGCAA
CAACTTTGTTCCAACAAGAAGGGGAGCACCACCACCACCGCCAGCAGCAG
CACCAGCGGCAGCAATCAAAACGGCCGTCCGGCGCAAAGCCACAAGAAGA
CGGGGATCCGTGGTTCGTGTTGGTGCTTTCGCGGGGGGGGAAGACTCGTA
CGCCGAACCGCGAGCGCGAGGCACCAAAGGAGACAGAGAGAGGAGGAGGA
AGGACGAGGAGGAGAGAGCAAGAATAAGAGCTGGCGGGGATTACCAGCAA
GAGGTGGCTGACGGCGCGCCGGGCGCGTGGGCGGGGGCCGTGCTGGAGGA
TCCAACGAAGATTAAGATTGGGAGAGGGGAGGGCGATCGACGGTTGGAGG
TGTGCCGTGTTATGAATGGCTTGTGCCAGGTGAGGAGTCGAAAACCGGGT
GACTACACACTACTACCGTATTGCAACGCGATCAGTAAATATGAATATGT
ACAAGGTATTTGGGCGGCTGACGCCGCCACGGTCAGACCGAATCCAAGAC
ATACTGTAGCGGGAGGGTGACAACGGAAGATATAACGTACGTGTTTACAG
CGACTAAGCAGAAGCGCGACTGCAACGGACATGCACGAATGATTACGCGA
GACATGTACCCGTAAGTGCAGGGAGGAAAGAAGAGCCATGCGAATACGAA
TGAAGATGAAAGATCTGTTTTCATTCTCGCGAGTAACCCTGACGCACATG
GCACGACGCACATACCGTATTCTACACAAGATACCACACCCCGTGTTAAG
CTTTTTGCATTCCGTATAGCTCCACAACCAGGAGGGTGCCACTGCCGAAA
AGGGTGGTTTTGGAAAGATCTCGTCGAGAGCTTTCGTATGACGGGCTGTT
TGGTGTTCGCACCCTTCTGGTTGTGGAGCAATACGGAATGCAAAAAACCT
AACACGGGGTGTGGTATCTTGTGTAGAATACGGTAGCGACAGAGGCCTGG
TAGGAAAATATATCGCAGGCGGAACTGTGTGCAGCAAGTGCGCACACCGC
GGACGCGAAAGAGTAGGAAATAAAAGCAAAACATATATTGGCCAGCTCCA
CATTAGTATTTGCCCTGTGATGACATGCACACGCCGTGTTAGCAACGACA
GAGACCCAGGAGCAGAGACCCAGGAGCAAATCAACGCTGAAAAGCCAAGC
TTAACCCATGCACACACCTTGCAAGCAACGACTGAGACCCAAGAGCAAAA
TAACGCTGAAATTCCAAAATTAAACCAGAAAGGAGGAAAAGCACAAGCTT
TAACAAAAGTCAGAAGTCCGTAGGCCAGTCACACCGCTGGTAAGCACAGA
AGAACTATGGCTCGTTACACCGTTCACGCCACTAATAAGTCAAAGAGGCC
AACACCATCCGCACTGATGTGAATACGGCGGCCACACCAAAGGGTTGCAA
CGCACACGGTCCTAATGAAACACCCCAGAGCAGCTACGCCGTTGGAAGGC
ACGAACGAAAGAAAGATAGCTCGGAAGGACGCGGAAAAAAAGCGCGAAAG
CGCGCTCGCAACAAAGGGGAACCAAGCAAAAGGAAAAGAAAAGCACCGAG
CCACGAATATAGCACAGGCACGGCAAGAGAGCCAAACGTCACGGCGTCAA
GAGACATGCTGAGGAAGAAATCATGACGTTCCTTTGGCTTCGAACCAGCC
CCCATCGCAGTCCTGATTGGAATGGCGCGGTTCAGAAGGGGGTAGAGAAC
CTGGTATCACGGCTGGCAGGACAGGGCCCGGAAGCGGAGCCGAATCTGGG
ACAGGGGGGGAAAGGGTAGGGGAACACCCGATAAAATCAAGGTATGGAGT
AGGCAAGGAGGGAGAAGCAACGGCGGAATCAGCGGCAGCGGAAACAAAGG
CAGGAAAGGTAATATTGGCGACAAATGCGGCTCGGTTGACGACGCCACGC
AAACGAGCGGGCGAAGTGAGGCACATGAGGGAAGAACGTTTCTCAGCACG
GCTTAGCGCGACGTACAGCTGGCGATGTGTGAAAACATCTGTACGGAGAT
CTAGCCCAATCTTAGACAGCGTTTGACCCTGACTCTTTTTTATCGTCAGT
GCGTAGCAAACGCGAAGGGGGAGCTGCAATCTTGAAGAGGTTACGCCGTT
GCGGCCGACCTGGGATTTGAAACGAATGCGGGGGATCATGACGAGAGTGG
AATCGGTGTCTAACGATTCGACACCAGCAACACGAGTTGAAAAATCACGA
ACAATGACTTTCTGACCGTTCACCAGGCCTTGTTTGAAATTGAGGTCGCG
AGTGATCATAACCATGGAATTGAGCTTAAGGTTCAAGGCGTGGGGCAGAA
CACCGGCAACATCTATGGCGTTGAGGTCGGCTTCAAGGACGAAGTCAGCG
AGGCCGTTGTCAGAAGAATGCGGGTCGACAGAATCACAACTATAGGCTGT
AAGCAGGTCACCCGGGAGAATGTCAAGGACGTGGGCGTTGATGGTGTCAA
TGGTTGCATTAGTCGAGGACAGAATCGCGCGTGAGGCGAAGGCAGCCGGG
TCGGCATCGAGAACATCTGGGTACACAAAATGGACCAGATCTTGAAAAGA
ATCGGTGTTTTGAATGACGAAAGAATCACGCGGCTGGCCAGGCTCGTCAT
GAATGTAAGCTAACCGAACGGTTTCAACACCGTCGGGCGTGGTCGCATGG
GGCTGGGTGCCGATACCAATGCCACGGACGAAGGCGGCGTAAGCGTTATC
GTCGCGGCCACGCTGGGATGTAGTAAGGCGCATGCGGTCGACGTGGACCC
ATAAGGAGCTAGATAACAGAGCAGCATCGACCGTTTCAGCAGGGCCGCCG
TACTTGACGACAGGACCTATTTGTCATAAGTCGCCGCTGAGCAGGACAGC
TTTACCACCCATCAAAAGGGTATTGTTCATCAAATCTTGCAAGGTTAGAT
TCAGGGCTTCAACAGAAAATCGGTGACTCATGGGAATCTCGTCCCACACA
ATAAGGTCACACTTACGCAGGACTTCGGCACGTTGCGACTCGGCGGGTAT
ACTGCACATGGCGCCAGATACGTTCCTTTCTTCAAGTTTAAACATGCTGT
GAGCCGTCCACCCCCCAGGTAACTGAAGACCCGCAATACCGGTGCTGGCG
ACACACAGAACTAGTTTATCGAGCGACCTAAGATGAGCTCAAATAGCGTT
TTCGGTGTAGGTTTTCCCTGTACTAGCAGGAGCATCGATCATGAAAATAT
TCGGGGAGCCTGACATGGCGCTATCAACGACCTTATCGTACACATGACGT
TGTTCGGTGGTAAGGTTGGGAAGGTGCTGCTCGGCGAAGGCCGCCATATC
TACGGGCTTGAACATGCCTTTGAATCGCGTGTATTCCGTGTCCAAATGCA
CAACTGTTGGCAAACCAACGATATGGTTGGTACGGCCATGGTACTGTAAA
GAGAGGTCGATTTCACGGAACGCGGCCGTGACGGCATCATCGTCGGACAA
AGTCATGCGCAAGTCGTGCGTGAAGTCGGACATGAACTGCTCCCAAAGTA
CTTTAGCGGGGGCGCCGTCAAGGATTAGTGTGACAAAGAGTTGGCGAAGT
TGCCTGCCCGTGTTGAAAAGGATTGCTTCCTGCATGCATATACGATACTC
CTCATCATGTCGCACAATACCCATGGCCCTAGCGGCGTCCTGAAAGGTAT
CATAAACGGTGCCGTTGTGATACCTGATGCCCTCGAAGGATCTAGAAGGC
TTATGATGAAGTAGCAGGCGCAAATAGAAGACATCACCTTTGTCCGGAGA
AATGTCCGGAGAAAAAGCAGTGAGACGTGCAACATGCTGATCGGAGGAGC
GAGGTGTAACGTAAGAGCCATGAATGTCACGGAAAACACGACCTTGCCGG
CTCTGCCTATCACTATTAACGGTGTAGTTTTCGAAGTAGTCGAGGTACGT
CAGGCTATCAAAGATGGGGTCGAGCGGCGACCGAAGATGAGATCGGTCTT
ATTGCTAGCGGCAACCGATCGTTGTTCACTGCGCGAGAGTGAAGCATCTA
CAATAATCTGTTGTTCACCAGGGAGATGGAGGCGGAGAGGCGTGACCGAA
GGGCGACGCTCCATGGTATGAAATCCCAATAAACGCCACGCTGCTTCGGC
GGTCGAAATATAACGCGCGCTACGATATGCTTCAATCTCGTCATTCCCGC
ACAAAATGCTTGCCTTGACAAAGTCGGCGCCCTTTGTAATATACTTAATA
GATGTAAAGCACTATAGCGGCTGCCGAGCACACATCGGTGCAGACGTGAC
TGTTGTACTTTGAGAGTAGCCAGATGTTGAACGGGGCGATCCATTGGTTA
TCAGCGAAAGATTCGACATATTTTCCGTTCACTTTGTGCTTGTACGGGAA
TTTGTCACCCGTGCCGCGACGTCGGTATTCGACTCTACCGGTATTGCCAT
TAATAACGGCTGCAGCGCGAAGAGGTTGAGGGTACTTCTTCCCGCAGACT
TTGACCCCAGGGCGGGCCCTATCATGTTGCATGCATGGAGAATGGACATT
GGTACCGCCACACTGTCTGTGGACCATCAAAGCCAGGACTTGTGCACGCG
CTATCCCACCGTTGAGTCCTTCAGGCGGAACCTCGGCCCAACACCACTCA
TCCATTTCACCCAACTGATCCGGGGAAGGACCCTCGAATTTACAAACCAA
GTGCATATGCGGCATACCCCTATTTTGGAATTCAACGCAGTACATTTCTA
CTTCCATAGGGCCAAATATTTTGCCACTCCGCAAATCTTTCAGAAGCGCA
TCCTCTCTGAGCTTGAATGCCCGCGCACAGAGGTCAGGTCTATCGTACGT
GGTCTGACCCGGCAGCAAATTAGCCTTCATTTCCTCCCAACTACCGTTAC
ATGTCATAGTGATCCATCGGATGAGGGCGACCTTTTCTCGCTACGATGGC
GAGGGCGTCTGTTGTATGAGATTTCATCTTGGCTGGGTGACCGTGAAACG
ATTTCGGTAACATCTTGCCTACCTGGGCTGACTGCGCCGAATCTGCGAGT
ACCTTGTACGCTGTCACACGTTTCTGGCCGGCAGGTGACGAGAGGTACTG
TAGGGATTGCTCCTCATAACGGGAAAGCATGTCACACAAGAATTCCTGGG
TGACTCTACTCAGCATGTGGAAAACGGGCTCCGATAACATTATTTGTCTA
ACGTAGTGGGCGAGGGGTACGGGTAAGGGGTAAATTATGGTTTTGATTTT
TCGTGCCATGAGCATGCCTAATTACGGGTGGGGGATATCAATTATGGTTT
TCGAATGACTAACTTGTAAAAGGGGTGAATAGGTATATTGTCACGTTTTG
ATTTTTCGTGCCATGTCGGGGGTGGATTATAGTGGCTTGTTGCCCTGCTG
AGTGACACAACAGAAGAGAGGCGGCCAGGTCTGGTCGTAAAGAACCTGCT
TGGAAAACATCGTTGGCTTGGATTTGGTCTTGCACGTGATTCATATTTTT
TAGGTGATATTGAATATAGAGGGAGGACTACACCAACAACTCGGCCACAA
TGTGACGCTGCCGTGAAGGGCATGCTGCTGTGTAAGGCATACTGCCCTGT
ATATCCTTGCTGTGGAGGCCGGGGATATCTGTTTTCTGTTGTGAAAGGGT
ACACTGCTGTCTATATCTAATAATGGTGAGCTGTGAGTTGGATCACATGA
ACCACGATTTGCAGATTTGGAACCTCGCGTAATATTGGTGAACATGCAGC
GAGCTTTGATCAAATAAAATATGGGATGCGGACATGGAGCCTGACTCCTG
TGAAGGGCGTTACCGCTGCTGTATAACTATGCTTGCTGTGATATGCGGGA
GGTGGCTGTGCCGTAATGGGCATTATTATTGAGGCGGCGAGGCAGGCTGA
TGCCATCGTGAGCTGTAAGTTGGGTCGCATGAACCACGACTGCTGCGAGA
TTTTGGATGCTCACGAAATGCGGGTGAAATTGTGCATCGTTCTTTGATCA
AGTAAACAAATGAGATGCAGACATTGAGCTCGCATCCCGGCGGAAAGCAC
ACGTGGTCCCGCCCCAGTCTAATTTTAAGTTAAAGTGGAATGGAGGCCTC
TCAGCGATCGGAATGCTGCGATATGGGAGATTTCGTAATGCGTATCATAG
TTACGACAGGCAGAAACAGGCCTGCTGCTGCTGCTGCTGCTGCTGCTCCG
CTGCTGCTCTGCTGCTGCTGTGATGCCAATGGACGGAACATGACTGGATG
GTATCATATTCATATGATGTGCGTATCATATCTACGAAGTATAAGGTACA
GGGCAAGGTGCTCGCCTGTATGAAAGGGTGCTGCCTGTATGAAAGGGTGC
TGGCCAAAAGAAATCACTGCTACTGCGGATGCTGCTGATGTTTTGTGAAC
ATGTGGCGTCGCGAGATATAATGTTCAAAGCTAGGGTCAACAGTTCGGTT
TTGTCCGGGCTCGATCTCTCCCTCCACATGCGTGCAGCAGGCAGTCAGTG
ATCCCGTGTGTGTCTATCACATACCTGTTTCCTCAAAACCTATTGCTGAT
ATTTTGTGCAGTACGTTCGCAGTATACGCAACAGAAAAACCAGCAACCAA
AAACAGGCACTGCTGCTGCTGCTGCTGCTGCTGCTGCGGTGGTGGTTAAC
ATGTCGCACTGCACGATGTGGAAGCAAGGAGCGAGGTCCCAGCTGCCGGG
TCGGAGCATTTTCATGTGTGCGCTGTATCATATGATATCCGTGCAGCAGT
CTGATCCTGTTGTCTGTCCCCGTCTCTTCAAAACTGGTGCTGGTATGCCC
CTTTCGCGTCGCAGGGGCCTCTAGATGACACCTCTGGCGATCCAATCGAT
GCCCTCCGCGCCATGGACCGGCTGGCGGAGGCCGGGTTGACGACCTTCCA
GCTGGGGAACGAGGCCGGTGGTGGGAGAGCGCTTGCAGAGACGCGGGTGG
GATCCTACCTCAAAACGGTGTGTGTACGTGTGTGCGTTTGTGTGTTTTGT
GTTCGTGTGCGTGTGTACGTTGTGTTTTGTGTGTACGTTTGTGTGCGTGT
GTGTTGTCTTCGCAGCTAAAAAAACCCGTTCCACACATTCAGCACCGATT
CAGCTGATGAGGGCTCGCGCGATTTCGGCATGGGCACAAGATGCCTACCC
AGCAGAAGAGGCACAGCAAAGCTAACTCTACACATAAGACTTCAGTAGGT
CGGGTACGGGCAAGAGCTTCCTTTCGACATGTTCGCGCATGTACAGCCGG
CGGGGAAAAAAGATCCTGATCGTATTCTCGGATGGGGAGGAAGTAAGCGG
AAAGCAAGCCACGTCTCTCAACGGGAGGGCGAGAGGGAGGGAGAGAGGGA
GGGCGGAAGGGAAGAAGGGAGGGTGAGAAGAACAGAGAAAAATTTGTTAT
ATATCATCCGAAGAAGTGCGTTTTCTTCAGCAGCCGCTATTCGAAAAATT
GTCGTTTGCTACTCGTAGGCGGCAGGTGCTGTCTGCCTGCCACCTTAGCG
TTGTGGGGACCAGAAGGTCGGCTGTGATTTTCGCATGCCATTTTCCATGT
CGTCCACGCGCACCACACCAATGCCACCCTTGTCTGGACAGAGGATGCAG
ACAAGCGTTGAAGTAGACGCAAAGCGCTGTCTACCTCCTTGTGATTTCTA
CGTACCTCTCTGAACCCATAATGAAGTATTCAGTTCCACCTCCCCGCACC
AACAGCGCCCCCCTCCCCCTGTGTGCTTAGACTCGGAGAAATAGTTTAGT
CCCTTTCAGAATCGGTTGCGAGGATGATGAGGATGACGATGGTCCTTAGC
TTCCCATCCGTTTTTCCAACAGTGCGCGGGGTCAGGAGTTGGGTCGGGGG
AGCTCCGTTTTCTGAACACGCTGAGCCTGCCGCGCGGCATGCCCGTGACC
CGGAAAGCAGTCAAGGCCGCGCTGGAGCTGTCCCTGCGCAGGATGGGGGT
GGAGCGTTTGGATCTGGTGCAGCTGTGTTGGTGAGTTTGCACACCGTTAA
GCTTGCCTGATTAGCCAGCCCCGGCATGTCACGTGAACACGGTAACTTCG
CGCGGACGCCACCTTGCAAGAGGGCTCTTCTGTCGACTTCGAACCACAGT
TATTTCATGGGAGAGGGAATCAAAGGGGTGAGCAAGCTATGCTTGAGCGA
TGAGAAACGATCAGCGGGGCTCCTTCTATCGTCATCAACAAAAACCCTCA
AATCGTTTTATCCGCCGTGTTCACTCAAACATAATTTTTCACGTTCGGAG
TTGTGTGCTACTTCGAAATCATGCTTAGTACAAGTAGGTTTAATTTATCG
TCTTGTTGTAAACAAGATGCCCGTTGGCTGTGCGGTTGGCTTTGCTATCG
TTGTGGTCGACGTCGTGTTGTGTTTGTCCGTGACGTTGCTGCTGCTGACA
ATCTACAGTGGGCGTCTGGATGTCGCTGGCGGCGGGTTTTATCTCGCCAG
CAAGCTTTTTGTCTGTCCGCACGGAATGTTGTTGCCCGCGTGTTCTCGTT
ACCCCCGCCCACGACTAAAAAACAAATACCTGGTACGGAGTAATAACAAT
AACAGCGACGACAGCACCACACGATTACCACCACCAAGACCGCCGCCGTC
GCCACAACAAACACTAATGCGTCTTGTCGCAATCGTCTTGTTCCATCCCG
CCATTCTACACGGTGTACTAAACTTGATGATACATGATGCACATACCATG
AAGTCAAACAATCCCTTCCATTCCGCACCATCTTTCAACGTCAGGCACGA
TTTCGAAGACCGGTATTTTTTGGACGCACTCTGCTACCTTGAGGAATCGG
AGTGCGTTTCGAACGTAGGCGTTTGCGGGTTTCCGGCGGCGCCTCTGGCA
CTCGCGGGCGCTAACGGCTTCACGGTCGCTTCAAACTTGGTGAGACTCTT
TTTCCTCTCACTTTCGTTTTGTTTTTTTGTCGACGTTGTTTCAAGTGTCA
CATCTTTGTTTTGTTTTTCATGGTGTGTCTGGAGTCATTGACAAGCGCCT
TGTGTGTTTTTCCGTTTTGTAGAAAATTTAGGAGAAATCGGCAGTCTTGT
CTTTTTTTTTTTTCTTCGGAGTATAATTGATATTTTGTGTTTCATGTCGC
GCAGCAGTAGAAGTCACGATATTAATACAAAACTGCCCAAGTGCCAAGCT
CCAATCCCATCTCTCTCTCATCTAGAACAGATGCATACATGCATGCTTCG
AAGCACATATATACATACTTGTACAACAGATCCCCAAATTCGATTTGGTC
GTTTTTCGTGCTGATCGCAGGTGGCGTCCTCTCTCATTAAGTCTCCGGCA
GGCAGTAGTGAGAGGACAACCCTCGCGCAGCAGTGTAAGGAACAAGGCGT
GGCGATGATTTTCACTGGTGCGTCTCTGGGAGGTCTCGCCGCTGACGAAT
GGCTCTACCGGTCCGTACCTTCTGGGGATGCCAAGGAGGGGCTATCGCTT
GCATCTCGAAAGGTGGGTGTGGTGTCTTGAAAATTGTCATGTGGGGACTT
GACGCGGTTGTTCAGAGCCTTTGTTGATGTGTGCTTCTATTGATCGCTAC
AGCAGCAGCATGTCCGAAAAGGTTGGTGCGATTTTGTGCACGTAACCTGC
CGTGGTTGCGCACATGCGAATGAGCCGAAAGGAGTGCGTTGCTGCTGTAT
TTAGATGGATACATCGCCCGTCTCGCTCGCCCTGAAATCTGTCCATCTCA
ATGTATCAGCCGCCGAAAACCGTTTATTTATGACGAACCTGAGTGTACTG
CGCACGAACTCCCGTCCTCCCTCCCCGTCGCCTTCCCCTTCTATTTTCAC
GAATTGTGGCGACAACCAGGCTTTGTCGGATATTTTGGCGTGGGGCAGCA
GCAGCAGCAGCAGCAACGACAAAAGAAGTGTTGGTGATTCATGGCACCTA
TATCAGAGCAAGCTTCTGCCCGAGCTTCAAGCCGTCGCCCGCAAGCACGG
CCGCGGGTTTTCTCCCGCAGATGTGGCGACCGCCTTTCACCTCTACAGGA
AACCTTTCGCCCCGTCAACCGGGGGGTCGGATACCGATCTCGGAAGAAGG
AACGATCTAGGAGATCCCGTCATTGTTGTAGGAAACTCAAGTGCAACGGT
GGCGGCAGCAGCGGTTTCGATTCCTGTCAGGGTGAACTCTGCCGGGAGTT
TGTCCGCAAGAAGGTCAGCGGACGCCGAGGAAGACCGCATAGGAGGTCGC
CGAGGTGCCGAGCTGGCCGAGATGCTCGACGGCGACGATCTGGAGAGTAT
CGCTGCTGCGGTCGGAGAAGGGGAGACCACTGCGCGTGCTGCCCCTGCGA
CTAATCTTGGGTGGGAGGAAGACTTGCTGTGGGGGGCAGAGGGGGAGGAA
GAGGAGGGTGGGGAGTTGTGGGGCGTTGGGGCAGGCTGGGAGGGAGCGAC
GATTTTCCTGTGACGAGCCAAGTATTAACGAAGTAACTCTTGCTCGCCTG
TTTGCTCCAGCGCCACCAAGTGAATGTTTCTCCAGATAAGTGTGGTAGCC
GCAAGTGCAGGTCTATCCTTCAGTGTACATAAAAATGTGCGGTCGTGATG
TTTTTGAGCCTTTTTTGCGGCGTTTTCTTTGTGGCGTTAGATTTTTTTCC
GCGCTGAGGGTCGTCCATCGCGTGTTTTATGCGCGGGTATTTTTTTTTGT
GACGCACTCGGCGCTGCTTTCCACTCGTTTGCGATCGTCCTTGTTCACGC
TGGGGGGGTGGCGTGCATGTCGGGATAGTGTAACCGATTTCCATGTAGGA
CAGCAGGGTGAAATCTAGCGAAATGTTGAAGGCCACGCTGGGCTCAGTAC
AAAATAGAAAGGAGAAGAAAGGGGAAGAAGGGTTTGGAAACGAACGGCGT
TTAGCTAAAAAAAAACATCACTGGAACACAGGACTAGGAGATTTGCATCA
ACGCAGCTTTCTTTCCAGGGGACAAAACAATCAGCAGGAAATAATGTTTT
CTAGGAGCATTTTGCGCGGTAGATCGAATTTTTAAACTCCGCACAATCAA
TAACCCCCGGATGTTTTTATTGCTTGTGCTAGCCCGGTAAGCCATCTACA
TTCGCGTCGAATCCGTCTGTTACTCAGATGCACAAGCGGAGAACAGTAGT
TTCGCATCATCGCACCCAGCAGATCTCCCAGTGCGGGTGAATCTCGGGCC
GCTGCATGCATCTAGGTACCAAATCAAAAGCCCCGAAAATTCCTCTAGAA
TCGTTTTTGGCTGCCTGTTGCTGCTGTCAAGGCACGGGACTCCTCTCACC
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Coding sequence (CDS) from alignment at P-littoralis_Contig11:319032..330881+

>mRNA_P-littoralis_Contig11.53.1 ID=mRNA_P-littoralis_Contig11.53.1|Name=mRNA_P-littoralis_Contig11.53.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1992bp|location=Sequence derived from alignment at P-littoralis_Contig11:319032..330881+ (Pylaiella littoralis U1_48)
ATGGGTTCGCTCCTCCCGCTGCTCCTTCAGATAAGCAAGCGCGGTGGTCG
CGTTCACTCTACGATCACATTGACGTACCTTTTTGCGGCAGTGGTCTATG
GTGGTGGAGTCCAACGTCAACAACCACTTCGAACACATATTCACGGCGGT
TGCCGTAGCAGCAGCAGCAGCACCACCACCACCACCACCACCACTGCCAC
CACCACCGAGCGTTACAGCATCATCGCGAAAGCCCAACCAACAAGAACAA
CAATAATAGCCTCTGGAATCACTTCGAGTGCGACGGCACGCTGCTTCGCA
CCACCGCCGTCATCGCCATTGCTGTTTGTTTCCACACCTCCCGAGAGGGT
AAAAAAAAACGCCAACAGCAACAACTTTGTTCCAACAAGAAGGGGAGCAC
CACCACCACCGCCAGCAGCAGCACCAGCGGCAGCAATCAAAACGGCCGTC
CGGCGCAAAGCCACAAGAAGACGGGGATCCGTGGTTCGTGTTGGTGCTTT
CGCGGGGGGGGAAGACTCGTACGCCGAACCGCGAGCGCGAGGCACCAAAG
GAGACAGAGAGAGGAGGAGGAAGGACGAGGAGGAGAGAGCAAGAATAAGA
GCTGGCGGGGATTACCAGCAAGAGGTGGCTGACGGCGCGCCGGGCGCGTG
GGCGGGGGCCGTGCTGGAGGATCCAACGAAGATTAAGATTGGGAGAGGGG
AGGGCGATCGACGGTTGGAGGTGTGCCGTGTTATGAATGGCTTGTGCCAG
GGGCCTCTAGATGACACCTCTGGCGATCCAATCGATGCCCTCCGCGCCAT
GGACCGGCTGGCGGAGGCCGGGTTGACGACCTTCCAGCTGGGGAACGAGG
CCGGTGGTGGGAGAGCGCTTGCAGAGACGCGGGTGGGATCCTACCTCAAA
ACGTGCGCGGGGTCAGGAGTTGGGTCGGGGGAGCTCCGTTTTCTGAACAC
GCTGAGCCTGCCGCGCGGCATGCCCGTGACCCGGAAAGCAGTCAAGGCCG
CGCTGGAGCTGTCCCTGCGCAGGATGGGGGTGGAGCGTTTGGATCTGGTG
CAGCTGTGTTGGCACGATTTCGAAGACCGGTATTTTTTGGACGCACTCTG
CTACCTTGAGGAATCGGAGTGCGTTTCGAACGTAGGCGTTTGCGGGTTTC
CGGCGGCGCCTCTGGCACTCGCGGGCGCTAACGGCTTCACGGTCGCTTCA
AACTTGGTGGCGTCCTCTCTCATTAAGTCTCCGGCAGGCAGTAGTGAGAG
GACAACCCTCGCGCAGCAGTGTAAGGAACAAGGCGTGGCGATGATTTTCA
CTGGTGCGTCTCTGGGAGGTCTCGCCGCTGACGAATGGCTCTACCGGTCC
GTACCTTCTGGGGATGCCAAGGAGGGGCTATCGCTTGCATCTCGAAAGGC
TTTGTCGGATATTTTGGCGTGGGGCAGCAGCAGCAGCAGCAGCAACGACA
AAAGAAGTGTTGGTGATTCATGGCACCTATATCAGAGCAAGCTTCTGCCC
GAGCTTCAAGCCGTCGCCCGCAAGCACGGCCGCGGGTTTTCTCCCGCAGA
TGTGGCGACCGCCTTTCACCTCTACAGGAAACCTTTCGCCCCGTCAACCG
GGGGGTCGGATACCGATCTCGGAAGAAGGAACGATCTAGGAGATCCCGTC
ATTGTTGTAGGAAACTCAAGTGCAACGGTGGCGGCAGCAGCGGTTTCGAT
TCCTGTCAGGGTGAACTCTGCCGGGAGTTTGTCCGCAAGAAGGTCAGCGG
ACGCCGAGGAAGACCGCATAGGAGGTCGCCGAGGTGCCGAGCTGGCCGAG
ATGCTCGACGGCGACGATCTGGAGAGTATCGCTGCTGCGGTCGGAGAAGG
GGAGACCACTGCGCGTGCTGCCCCTGCGACTAATCTTGGGTGGGAGGAAG
ACTTGCTGTGGGGGGCAGAGGGGGAGGAAGAGGAGGGTGGGGAGTTGTGG
GGCGTTGGGGCAGGCTGGGAGGGAGCGACGATTTTCCTGTGA
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