mRNA_P-littoralis_Contig190.33.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig190.33.1
Unique Name	mRNA_P-littoralis_Contig190.33.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A6H5KK91_9PHAE (Abhydrolase_2 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KK91_9PHAE)

HSP 1 Score: 420 bits (1079), Expect = 7.050e-138
Identity = 200/270 (74.07%), Postives = 231/270 (85.56%), Query Frame = 2

Query:    8 SLARPSRIGAFCSRNIPRHSHDNQRQSRNMAASMSTSSQVQLDRVSGDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKKVLPE 817
            SL RP+RIGAFCSRNIPRH++  Q+      +  ++++ +  + VSGDT+GGSG TLVPK GAY NVVVWLHGLGDTA GW+  MP+ KL +TKFILPTAD RPI+LNGGY MPGWSDIFGL+EDS ED  GF+ASADRVRAILE+EKAKGKE +RMVVGGFSQGGAVALH CLRATEPLAGCVACSTW+P+NKDYP ALGS AKDIPVAQFHGTRDEVV+FTWGQHSH L+K+ LGM+ TFEAI GMGHS+S  E+ES+ DFLK+VLP+
Sbjct:   12 SLVRPNRIGAFCSRNIPRHNNRQQQAQHGKLSMAASAAPIDFEHVSGDTLGGSGITLVPKDGAYTNVVVWLHGLGDTAAGWASMMPQLKLPNTKFILPTADTRPITLNGGYEMPGWSDIFGLQEDSPEDAVGFNASADRVRAILEAEKAKGKESTRMVVGGFSQGGAVALHFCLRATEPLAGCVACSTWIPLNKDYPTALGSAAKDIPVAQFHGTRDEVVQFTWGQHSHILMKEKLGMTTTFEAITGMGHSSSNAEMESVADFLKRVLPD 281

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A836CN32_9STRA (Lysophospholipase-like protein II n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CN32_9STRA)

HSP 1 Score: 237 bits (605), Expect = 5.200e-69
Identity = 119/228 (52.19%), Postives = 155/228 (67.98%), Query Frame = 2

Query:  125 VQLDRVSGDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAK-DIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKK 805
            + L R  GD  GG+G  ++P    Y NVV+W+HGLGDTAD          ++   FILPTA  RPISLNGG+ MPGW+D++GL+E S ED +GF+ SA R++A+++SEKAKG    R+VV GFSQGGA ALHV LR  + L GCVACS W+P+ K+YPAALG GAK  + V Q HG  D VV+  WG  S+N +K  +G++A  E   GMGHSA P ELE +  F+++
Sbjct:    1 MTLTRSRGDGNGGNGIVIMPADQKYANVVIWMHGLGDTAD----------VSVLNFILPTAPTRPISLNGGFMMPGWTDVYGLDETSKEDKEGFEQSAARIQALIDSEKAKGIPAQRVVVAGFSQGGATALHVALRTKDALGGCVACSGWLPLAKEYPAALGDGAKAGLKVLQCHGDADVVVRHHWGSQSYNALK-AMGIAAELETYRGMGHSAIPDELERVSAFIQQ 217

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A6V1K3U7_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1K3U7_HETAK)

HSP 1 Score: 235 bits (599), Expect = 4.490e-67
Identity = 121/236 (51.27%), Postives = 160/236 (67.80%), Query Frame = 2

Query:  107 MSTSSQVQLDRVSGDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKD-IPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMS-ATFEAIPGMGHSASPGELESIGDFLKKV 808
            MS+S +V+  R  GD++GG G TL+P+   Y NVVVW HGLGDTA GW  +MP F L  TKFILPTA  RPI+LN G +MPGWSDI GL+++  ED  GF+ S  R+ +I+ SE  KG  PS++VVGGFSQGGA+AL+  L+ T  +AGCV  S+W+P++  +PAA+   A+  + + Q HG  DEVV+  WG+ SH  IK  LG + A +E  PGM HSA   EL+   +FLK +
Sbjct:   65 MSSSEKVKASR--GDSIGGDGITLIPEDEEYTNVVVWNHGLGDTAMGWYSAMPAFGLTKTKFILPTAPTRPITLNMGMAMPGWSDIRGLDKEDDEDEPGFEESRARIESIVRSEVDKGISPSKIVVGGFSQGGALALYYSLQNTHGIAGCVGFSSWLPLSAKFPAAVSDAARGGLKILQCHGDADEVVRTAWGKLSHEKIKGELGFADAAWEEYPGMAHSACDEELQRCAEFLKGL 298

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A7S0SWW0_9STRA (Hypothetical protein n=1 Tax=Chromulina nebulosa TaxID=96789 RepID=A0A7S0SWW0_9STRA)

HSP 1 Score: 223 bits (569), Expect = 4.510e-64
Identity = 104/206 (50.49%), Postives = 136/206 (66.02%), Query Frame = 2

Query:  191 GAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGL-GMSATFEAIPGMGHSASPGELESIGDFLKK 805
            G Y  V+ W HGLGDTADGW+  +PE  L  TK+ILPTA  RPI+LNGG SMPGWSDI+GL+E S ED+ GF+ SA+RV+AI+  E + G   S + +GGFSQGGA+ALH  LR+   L GC+A S+W+P NKDYP+ L   +K +P+ Q HG  D VV+F WG H+H  + + +     TF  IP  GH   P E   +  F+ +
Sbjct:    2 GEYNRVLFWFHGLGDTADGWADLVPELNLEKTKYILPTAPIRPITLNGGMSMPGWSDIYGLDETSKEDLAGFNESAERVQAIVNQEISSGISASNIFIGGFSQGGALALHYSLRSPLKLGGCIAFSSWLPFNKDYPSVLSDSSKTLPIVQVHGDNDYVVQFKWGSHTHKFLSEIITNPPPTFVKIPKHGHGFHPDETNILKSFIVQ 207

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A7S2SSS9_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SSS9_9STRA)

HSP 1 Score: 215 bits (547), Expect = 5.710e-60
Identity = 113/224 (50.45%), Postives = 146/224 (65.18%), Query Frame = 2

Query:  146 GDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWS----GSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGK-EPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMS-ATFEAIPGMGHSASPGELESIGDFL 799
            GD +GG G TL P GG +  VV+W+HGLGDTA GW     G  P  K+     +LPTA+ RPI+LNGG SMPGW DI GL+  + ED +G   S+ RVR I+E E  +G   P  +++GGFSQGGAVALH  LRA   L GCVA STW+P+ ++YP ALGS A+D+ V   HGT D VV+ +WG+ SH+ + + LG++  ++    GM HSA   ELE I  FL
Sbjct:   52 GDGIGGRGVTLTPSGG-HDGVVIWMHGLGDTAMGWYQALWGLAPRMKI-----VLPTAETRPITLNGGMSMPGWFDIVGLDSSAPEDAEGMAESSARVRRIMEKEMEEGGLGPEAVIIGGFSQGGAVALHTALRADVQLGGCVAASTWLPLREEYPGALGSAAQDLRVLFCHGTEDPVVRPSWGRGSHDFLIENLGIANVSWREYEGMPHSACEDELEDIRKFL 269

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A4D9D0F4_9STRA (Abhydrolase_2 domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9D0F4_9STRA)

HSP 1 Score: 207 bits (526), Expect = 4.390e-57
Identity = 98/220 (44.55%), Postives = 139/220 (63.18%), Query Frame = 2

Query:  149 DTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKKV 808
            D VGG+G TL P GG  ++ ++W+HGLGD+ +GW+G+        T+ I PTA  RPI+LNGG+ MPGW DI GL+E S ED  GF+ +  R+  I++ E   G    ++V+GGFSQGGAV LH+ LR+   L G V  S W+P+  DYPAAL    K +P    HG  D +V+  WGQHS   +K+ LG++ TF+   G+ H A+P E++    F+K++
Sbjct:   56 DNVGGAGITLNPVGGPAQSSIIWMHGLGDSGEGWAGAFDPKVFPTTRMIFPTAPTRPITLNGGFPMPGWFDINGLDESSPEDRAGFEEAKQRIARIVQGEVEAGVPADKIVLGGFSQGGAVTLHLALRSEVRLGGAVILSGWLPLKADYPAALTEVGKAMPYFHGHGDADGIVRHQWGQHSAEKLKE-LGLNYTFKTYRGLDHGATPEEMKDAVAFMKEI 274

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A6T6ARW1_9RHOD (Hypothetical protein n=1 Tax=Compsopogon caeruleus TaxID=31354 RepID=A0A6T6ARW1_9RHOD)

HSP 1 Score: 201 bits (511), Expect = 4.740e-55
Identity = 102/233 (43.78%), Postives = 143/233 (61.37%), Query Frame = 2

Query:  134 DRVSGDTVGGSGTTLVPK----GGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMS-ATFEAIPGMGHSASPGELESIGDFLKKVLPE 817
            DR  GD  GG+G  +  K      + K+ ++WLHGLGDTA GW+ +MP F++   +F+LPTA +R + + G + +P WSDI  L+E++ ED +GF  S  R+++I++ E A G  PSR+ VGGFSQGGAVAL V +R+   L   +  STW+P+   YPA L    +  P+   HG RD VV   WGQ S + +K   G+S  T +   GM HSA P E   IG+FL+K +PE
Sbjct:   40 DRQGGDGHGGAGMVIPSKLRGDDPSRKSSLIWLHGLGDTAQGWASAMPMFQVPYMRFVLPTASSRHVRVAGPFPVPAWSDILDLDENAPEDREGFLGSVQRIQSIIDGEIASGVLPSRIAVGGFSQGGAVALSVMMRSRVTLGAFIGASTWLPLRDSYPAELSEANQKTPLIVLHGDRDGVVSPRWGQMSADFVKSSCGVSDVTVKIYRGMDHSACPEEFVDIGNFLRKAIPE 272

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A7S0DPB2_9EUKA (Hypothetical protein n=1 Tax=Amorphochlora amoebiformis TaxID=1561963 RepID=A0A7S0DPB2_9EUKA)

HSP 1 Score: 195 bits (496), Expect = 2.030e-52
Identity = 101/224 (45.09%), Postives = 134/224 (59.82%), Query Frame = 2

Query:  146 GDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLAD--TKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKKVL 811
            GD +GG G  + PKG A+   ++W HGLGDTA+GW     E        K ILPTA  RPI+LNGG+ MPGW+D++GL  DS ED  G+  S +R  A++ +E   G    R+V+GGFS GGAVAL++ LR+   LAG +  STW+ +   +P ALG      P+ QFHGT DE+V ++ G  +   + D     A F AI GMGHS S GE+E    FL  V+
Sbjct:   92 GDGIGGQGLVVNPKG-AHTATIIWFHGLGDTAEGWLAGALEMCAGQDFVKVILPTAPNRPITLNGGFQMPGWADVYGLGADSREDESGWLESFERAEALINNEIENGIPSHRIVIGGFSMGGAVALNIALRSKRKLAGAIGMSTWLSLRDKFPEALGPDECKCPILQFHGTNDEIVDYSLGLSTSATLID-FKRDAEFIAIDGMGHSVSVGEIEQAKSFLASVI 313

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A7V5M3T8_9BACT (Abhydrolase_2 domain-containing protein n=2 Tax=cellular organisms TaxID=131567 RepID=A0A7V5M3T8_9BACT)

HSP 1 Score: 186 bits (471), Expect = 7.720e-49
Identity = 95/227 (41.85%), Postives = 134/227 (59.03%), Query Frame = 2

Query:  146 GDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKA-KGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGL--GMSATFEAIPGMGHSASPGELESIGDFLKKVLPE 817
            GD  GG+G T  P  G +   +VWLHGLGDTADGWS ++PE +L+ T+ ILPTAD  P++LN G  MP W+DI+ L E++ ED +G   S  R+  I+E E   +G  P R+ +GGFSQGGA+AL   LR+   L G    STW+ +  +  AA+    +   +A +HG +DE+V + WG HS  L++  L  G   +F  + G+GH+    E       L+K L E
Sbjct:   98 GDAHGGAGKTFEPLRGKHTATLVWLHGLGDTADGWSSAVPELRLSSTRVILPTADTVPVTLNFGTRMPAWADIYSLSENAREDREGILRSVSRILKIVEEECTNEGVRPERIFLGGFSQGGAIALQAYLRSERDLGGFAGLSTWLALRNEVFAAVPKSRRKGRIALWHGDQDEIVNYHWGVHSAELLRQNLAPGFEVSFRTVQGLGHAVDREEFAE----LRKTLQE 320

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BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Match: A0A7S0L9L1_9EUKA (Hypothetical protein n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0L9L1_9EUKA)

HSP 1 Score: 183 bits (464), Expect = 1.510e-48
Identity = 94/245 (38.37%), Postives = 139/245 (56.73%), Query Frame = 2

Query:   98 AASMSTSSQVQLDRVSGDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTADGWSGSMPEFKLA-------DTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVEDVKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEPLAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSHNLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKKVL 811
            A+ + T  + QL   +G+++      ++     ++  V+++HGLGDT DGW   MP+             ++I P A  RPI+LNGG  MPGW D+ GL  D  ED +G  A+A ++  ++E E+A G    R++VGGFSQGGA+ALHV LR+T   AG    STW+P+  DYPA++   A+D P    HG  D VV   WGQ S + +++  G++A F   PG+GH A    L  +  F++  L
Sbjct:   14 ASDVRTQFRTQLCATAGNSIPSLDAVVIEAERKHRCSVIFMHGLGDTGDGWGSLMPQIDAVLPPALRGSIRWICPHAPQRPITLNGGLRMPGWFDLRGLTADEEEDAEGLSAAAAQIEELVERERAAGIPTERILVGGFSQGGALALHVGLRSTARYAGVAVLSTWLPLAADYPASISEAARDTPFLVAHGDADMVVSHAWGQGSFSKLEE-AGLNARFVTAPGVGHGADAMMLREVAGFVEAAL 257

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig190.33.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5KK91_9PHAE	7.050e-138	74.07	Abhydrolase_2 domain-containing protein n=2 Tax=Ec...	[more]
A0A836CN32_9STRA	5.200e-69	52.19	Lysophospholipase-like protein II n=1 Tax=Tribonem...	[more]
A0A6V1K3U7_HETAK	4.490e-67	51.27	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
A0A7S0SWW0_9STRA	4.510e-64	50.49	Hypothetical protein n=1 Tax=Chromulina nebulosa T...	[more]
A0A7S2SSS9_9STRA	5.710e-60	50.45	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A4D9D0F4_9STRA	4.390e-57	44.55	Abhydrolase_2 domain-containing protein n=2 Tax=Mo...	[more]
A0A6T6ARW1_9RHOD	4.740e-55	43.78	Hypothetical protein n=1 Tax=Compsopogon caeruleus...	[more]
A0A7S0DPB2_9EUKA	2.030e-52	45.09	Hypothetical protein n=1 Tax=Amorphochlora amoebif...	[more]
A0A7V5M3T8_9BACT	7.720e-49	41.85	Abhydrolase_2 domain-containing protein n=2 Tax=ce...	[more]
A0A7S0L9L1_9EUKA	1.510e-48	38.37	Hypothetical protein n=1 Tax=Coccolithus braarudii...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig190	contig	P-littoralis_Contig190:172645..187600 +

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.D7FSL3
PFAMs	Abhydrolase_2
Model size	2586
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC00037,RC00094
KEGG ko	ko:K06130
KEGG Reaction	R02747,R03417
KEGG Pathway	ko00564,map00564
Hectar predicted targeting category	other localisation
Exons	8
Evalue	1.46e-136
EggNOG OGs	COG0400@1\|root,KOG2112@2759\|Eukaryota
EC	3.1.1.5
Description	acyl-protein thioesterase
Cds size	726
COG category	J
BRITE	ko00000,ko00001,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig190.33.1	prot_P-littoralis_Contig190.33.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig190 172739..185834 +

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


Feature Name	Unique Name	Species	Type	Position
1680789915.4831455-UTR-P-littoralis_Contig190:172644..172738	1680789915.4831455-UTR-P-littoralis_Contig190:172644..172738	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig190 172645..172738 +
1680789915.6110547-UTR-P-littoralis_Contig190:185834..187600	1680789915.6110547-UTR-P-littoralis_Contig190:185834..187600	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig190 185835..187600 +

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


Feature Name	Unique Name	Species	Type	Position
1680789915.5080397-CDS-P-littoralis_Contig190:172738..172831	1680789915.5080397-CDS-P-littoralis_Contig190:172738..172831	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 172739..172831 +
1680789915.521081-CDS-P-littoralis_Contig190:176342..176393	1680789915.521081-CDS-P-littoralis_Contig190:176342..176393	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 176343..176393 +
1680789915.5342598-CDS-P-littoralis_Contig190:176670..176747	1680789915.5342598-CDS-P-littoralis_Contig190:176670..176747	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 176671..176747 +
1680789915.5501297-CDS-P-littoralis_Contig190:179089..179174	1680789915.5501297-CDS-P-littoralis_Contig190:179089..179174	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 179090..179174 +
1680789915.5608351-CDS-P-littoralis_Contig190:180668..180819	1680789915.5608351-CDS-P-littoralis_Contig190:180668..180819	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 180669..180819 +
1680789915.572368-CDS-P-littoralis_Contig190:183305..183444	1680789915.572368-CDS-P-littoralis_Contig190:183305..183444	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 183306..183444 +
1680789915.585607-CDS-P-littoralis_Contig190:185143..185214	1680789915.585607-CDS-P-littoralis_Contig190:185143..185214	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 185144..185214 +
1680789915.6008692-CDS-P-littoralis_Contig190:185775..185834	1680789915.6008692-CDS-P-littoralis_Contig190:185775..185834	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig190 185776..185834 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig190:172645..187600+
coding sequence from alignment at P-littoralis_Contig190:172645..187600+

protein sequence of mRNA_P-littoralis_Contig190.33.1

>prot_P-littoralis_Contig190.33.1 ID=prot_P-littoralis_Contig190.33.1|Name=mRNA_P-littoralis_Contig190.33.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=242bp
MAASMSTSSQVQLDRVSGDTVGGSGTTLVPKGGAYKNVVVWLHGLGDTAD
GWSGSMPEFKLADTKFILPTADARPISLNGGYSMPGWSDIFGLEEDSVED
VKGFDASADRVRAILESEKAKGKEPSRMVVGGFSQGGAVALHVCLRATEP
LAGCVACSTWVPMNKDYPAALGSGAKDIPVAQFHGTRDEVVKFTWGQHSH
NLIKDGLGMSATFEAIPGMGHSASPGELESIGDFLKKVLPE*

mRNA from alignment at P-littoralis_Contig190:172645..187600+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig190.33.1 ID=mRNA_P-littoralis_Contig190.33.1|Name=mRNA_P-littoralis_Contig190.33.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14956bp|location=Sequence derived from alignment at P-littoralis_Contig190:172645..187600+ (Pylaiella littoralis U1_48)
GTTGAGCTCGCTGGCACGTCCCAGCCGTATCGGAGCCTTCTGCAGCAGGA
ACATCCCGCGCCACAGCCACGACAACCAAAGGCAATCTCGAAACATGGCA
GCATCCATGTCCACATCATCGCAGGTCCAGCTCGACCGTGTCTCCGGTGA
TACCGTCGGGGGAAGCGGAACCACCCTCGTACCAAAGGTACATTTGTTTT
GTTTGTCTTCCTCTTTATCTCTATATATGTTTCGCTATTTCTCTCTCTCT
CTCTGCGATGGTATTTTTATCTCGAGGTTGATCACTACTGCACTCAAGGG
ATATCCGATTTCTGATGTGACTGCAAAGAACTTATGAGGTGATGTCCTGA
GTCCCTTGTGCCTCACCCTCCCTCCGAATTTTGAGTCAAGACCACCCCCA
AATTGTCTCGTTGAGCCTGATACCCTCAGGGAAGCTGCAACGGCGGCATG
TCATCCCATGAGCTGCACAGAAACACAAGTAGATCTACATGTATCGCTCT
CTGTGTTAGTTGCTGAATCTACTCCACTCTAGGATCCTCGTCTAGAGAGA
GGCGAACACATTGATGTCTTTTTTCCTTTTTTCAACACATCTATGTGTTC
GCCTCTCTCCAGACGGGCGTCTGGAGATACAGGTAGCCTGCTGTACGCAG
CTTTGGTTACGTAAACATTTGAGATAAAATATGCAACCTGCGAAGGCGGT
CCAGTAGATATTGCAGCCAACACAAAGAATAAGATATATCTACCAGTGTT
TCTATGACGCATCGGATAATGTAACGTTGCAGCTCTCCTGAGAGCAAAAA
AAAAAGCTGCACGTATCGTATCTTACCTGGTACATGCCGTACCCACCACA
TGATGTACCGCGTGTCACAAGACGACTCCCGAACTGTTTTGTTGAGAGCC
TGCTACTCTTAGGGGAGCTGCAGCGGAGCGGTGCTTTATCTGATGTGTAG
CAAAAACACAAGTCGACGTACAGTATTTTTACTCTCTGTGCTCGTCACTA
ATCTACTCCAGATCCTCGTCGTGAGAGAGGCGAACACATTAATATCTTGT
TCAGAAAAAAAAAAAAAATCGTGTGTGTTGTCTGGGGTGATGATAAAGAC
GTACACGTGTATGTTGCTTTATTCGACATACATGGATGATATCGTTGTGG
AAGAGCTGAACCAACAAATTTACACCTGTTTAGAGGATCTTCAGATCTGA
GAAGAAAGTTCGACTTCAGTTCAGCACACGAACCATGAGATACACACGTA
CCCACCCCAACCCAACTCAACCCAACCCTAACCCTAACCCTAACCCTAAC
CCTCACGACCGACCGAGGAGGGCCGTAGCGAACACAACCGCAGCTGCGCC
CCGGTCGTGGAACGCCGGTGGTCCGCAAGACAGAACGCGGTGTGCTTCAC
GTACACATGAGGTTAACCAATCAGAGGACCCGGGGAGGGTGACATATCAT
CCCTGTATGTCGAATAAATGACACACACGAGTACGTTTTTATCACTTTCC
GTGTTGTCTGTGTTGATGTTTCTTACATTTCTTACACCAGACTGTTTCTC
ACGGTACACCGGATTTTTGGTTTTGATATCAGACCCGCCCAAATTAAACT
AAAGGATCCCCCTTCGAAACGACCCTGTCAACCACCACAGGAAACAGCAC
CAACCAGAACTCGGCCCCTATGACACCGATAGCAATCAAACCTGTTGGAG
TGTGCGCTCCAGTGTCCTGAGGTTGGCCACAGCAGTTTTCGTGGGCGTGG
GCCTCGGTTGTGCCGAGATATTGTCGGCGGTGTGTGTTGAGGTGGAAATA
TCCGGTGATCGTCCCTCAGACGACCTATTTTTTGTTGCCGAATTTAATTT
TCCTACCCCAACCCACACCGCTTCCAAAATCTCGCGACAGCAAACGCCCA
CTACCACCAAACTTGCTGCGGACAATCTGCAGCAGGCTTGATCGCGATTG
GTGTCCCAGGGGCCGAGTTCTGGTCGGTGCTGTCTCCTGTTGCGCTAGAA
AATTAGCCTTTTCAGCCGCTTGGGGTCTCTGAATTTCGGGTGGGGGGGAG
GGGGTAGTACCAAGCGATAAAAATCGCCCTGAACAATAGCAAGCCGTGAT
GAAACGGTCTCAGCTCTCTTCCCAGAGATTCCTAGCCCGTGGTCACAAAA
GTGCAGAGCCCTAGGAAGATCCGAAAACACACGGAAAATAAAAGGAGGGG
TACACCAAAGGCAGAAGAAGGTACGCCTGCCCACTACCATATAGTTGGTG
TGCACTATCATAGACAAACCTATACCACGCAGGTCTCCATTCGACTTCAA
CATCGTGTAAAACTGCCCCCCCCGGTTCCCCCCCGTCACGCTAGTAGCCA
CTCGTGGTTGCGGACTACGAGCAGCAGTACTAACTATGTTCCTGTCTGAA
GTGCTGCCTGCATCGTACGGTAGGCCCGATATTCGGAAAATCAGAACAAT
AAAGAGACGTGTACGTGGTCGTCCCATCTATTCTGGACACAAAAAAAAAA
TCGTGTGTGTATGTGGCCCTCCTTCTGTGTGACCAACCCCGGCTGGCTGG
TGCACCCACTTCATGCTTCATACCGAAAGGTGTAGAATGATGCCCAGAAC
TCCTCTGTGTGACCAACCCCGGCTGGCTGGTGCATCCACTTCATACTTCA
CACCAAGAGGTGTAGACCGGTGCCCAGAACTCCTCTGTGTGACCAACCCC
GGCTGGCTAGTGCACCCGCTTTCATACTTTTATACCGAAAGGTGTAGAAC
GATGCCCAGCACTCCTCTGTGTGACCAACCCCGGCTGGATGGTGCACCCA
CTTCTCATACCGACGGGTGTATAGGTAGGCCCCTGCCCAGAGTAAATTAA
TATCTGGTACGAAGTAAATGATATGTAGACACACACTTACGCCGAAGCTG
CTGTATCAAGCATATCGGATATCACTGTGGACGCCCTTGTGTGTGAGTCT
GCTGTGTCTTGGTTGGGGTCTGGATACGGGGGGGGGAGGGTGTGAAATGG
AAAGAGGCGTGTGTGTGTGCGTGCGTGTCTGTGTGCGTGTTTGTCTGTGT
CTGTGTCTGTGTTGGCGTCTCTCTCTCTCTATGTTGGTGTGTGTGCTGTG
TCTCATCTATGCTGCACGCTACTCCACACACCCTGCGGTACATGGGTGCA
TTGGCCGGGCGGGGTCGGTCACACTAGAAGGGACGTCGACAGCGAGGCGT
TTCATTTTTCCTCGCCTTCCTCTAGCGGTGCTCTTGAATTAATCTTGAGT
CACAAAAAAAAAAACGGCTCGAATGTCGGAAAAAAAAGTTATCGTCGAAC
CCTCATCTGATCGCCATAAAAAATCAAATCAAGCACCGTACAAGTGGATC
GGAGTTGAGAAGCAGTGCGCGTTGGTGTGGCCGCTGCTCAAATTAGTGCG
TTGAGCCGTGTGCGTCGCGATTTGGTGGCGTATACCCTTACAGTATTTGG
GGGCAGACGTGGCGTATACCTTTGCTGCAGTGCTGCAGAACAGCTCGAGT
GCCAACACAACGAACAAGAACGCCTCTCATCATTTTTCACGAAAAAAAAA
AACACATCGAAAATTTCGCGCCTCCGACAAAATACATAACTGCGCGGCGC
GTAGGACACGGGTTGCGGTGAACCCAACAGCATTTTTTCTGGCGTCTTTC
CTGAACAAATGCTGCTGATTTCGGCCGCGGCGCTGTACGTTTCCGCAGGG
TGGCGCCTACAAGAACGTCGTCGTGTGGCTCCATGGCCTTGGGGATACGG
TGAGTGTTTGGTGTACCCAGCACTTCTTCGATTGACGGGGTCGCCGGGTA
CCTGACCCTCATTGTAATTGATGTGGCGGAGCCCCTGCTCCCGTGTCATG
GCCACTCGCCGACGCAATGACGATCGAACACATGGTGTGCATCTCCGTCT
CTTTTTCGAAGACGGCGTTCGCATGATTTAATCGTCTTGCCGGAATATCA
ATAATAAAAAAAAGGCTTTTTTTTTGTAGCTGCAACAACGACAAACAAAC
AAGAAAAAAAACAAAATTATCCTCAGGCCGATGGTTGGTCCGGTTCAATG
CCGGAGTTCAAGCTCGCGGACACCAAGTTCATCCTTCCCACGGCGGACGC
CAGGTGAGAGAGTAATCTCCCCGTTACGTGCCCAAACGCACCTAAGCCGT
TCTTCAATCTCACTTTTTTTTATTAATTCTGTTCCCACAGCAGCATGTTG
TTGTTGTTGTTGGTGGTGGTGGTGGTGGTGTTGCTGATTCTCACATGTGT
TCACCGCTCAAGTCTAGCCCGCGGTCACAAACGTGTGCCCATCCATTAAT
CCTGAACCCCAGTCTACACCTTGCGGTATGTTAGGTTGAGCGCGCCAGCC
GGGGGGTCACACAGACAGAGAGAAAGGTCAACGCAGGAGTTTTTGTTTTG
TTTTTGCTCTCCACCTCCTTCCTCACTTCATTTCTTCCTTTCTTCTACGG
CGATGCTTGCCTTCAATTTTTATCGCGAGAAGGGTTCGAGCGTCCAGGTT
TCTTATCGACTGCTGTTTAAGACTCGAATGTGTGTGAGGTGTGTGTGTGT
GTGTGTGTGTTTGTTCATCCCATTTATTCTGGGCGCCAGTCTACACCTTT
CGGTATGAAGTGGGTGCACCAACCAGCCGGGGTCGGTCACACAGAGGAGT
TCTGGGCGCCAGTCTTCACCTTTCGGTATGAAGTATGAAGTGGGTGCACT
AATCAGCCGGGGTCGGTCACACAGAGGAGTTCTGGGCGCCAGTCTGCACC
TTTCGGTATGTGAAGTATGAAGTGGGTGCACCAACCAGCTGGGGTCGGTC
ACACAGAGGAGTTCTGGGCGCCAGTCTACACCTTTCGGTATGTGAAGTAT
CAAGTGGGTGCACCCACCAGCCGGGGTCGGTCACACAGAGGAGTTCTGAG
CGCCAGTCTTCACCTTTCGGTATCAAGGATGAAGTGGGTGCACTAACGAG
CCGGGGTTGGTCACACAGAGGAGTTCTGGGCGCCAGTCTGCACCTTTCGG
TATTAAGTATCAAGTGGGTGCACCAGCCGGGGTCGGTCAAACAGAAGGAG
GAAAGTCACACAGGAATTTAGTGGGTGCACCAGCCGGGGTTGGTCACACA
GAAGGAGGAAGGTCACACAGGAATTTATTATTGTTTTCATTTTGTTTTCT
TGCCCACACCTTTCCTACGGTACCCCCTGTGATGTGTTGTGTTGTGCGTC
GTAGCATATGATTCGAAAAAATGTTCGTTGACCCTTCATCTACCCTAAGC
TTGTCAGTCGCAGTTTTAAACCTGGTACCTGTATGTTTTTTGCGATCCCC
AGTTCGCTGGGCTATGTGTGCCCGCCAAGGTATGTGTAACACCTGTGTTG
CCGGTACTGCTGGAGATTCATTGTTGTTTCTGAAACACCTTCGAAGTATG
ATGCTATACTTGGAAGTAATTTTTCATTTTGCATTGGCACCGCAAGTGAC
ACAAGATACCTCATACATTACACAAGATAGCACACCCCCTGGACAGACTT
TGACATGACACAAGATAGCACACCCCCTGGACTGATTGTGACATGACACA
AGATACCACACCCCCTCGACTGATTGCGATATGGCACGAGATACCTCACC
CCCTGGACTGACTGTGACATTACACAAGATACCACACCCAATGGACTGAT
TGTGGCATTACACAAGATACCACACCCCCTGGACTGATTGTGGAATGCAC
AAGACAACACACCCTCTCCACTGATTATGACATGACACAAGATACCACAC
CCTCTTGACTGATCTTGAAAGCGTCGTTACTCCGTGCGGTACACAGCAAG
ACGAGTGTCAGTGTCAGTGCCGATACTGGTGGCGCAAGAGAGATCTCGTC
CAGAGCTTTGCGGAAATGTATATTTCGGTACTTGTTTCCTCTTTGTCGCA
GAGGTGTGCGATAAGTCGATATGTAATATTTGACCCGGAGGTGTGGTATT
GATTCAAAACAAAATCCTGCTTTGTAGACGAAATTGTTCCTGTCTGTCGC
GACCCCACGTAAAAAGCAAAAGGTGTAGACTGGAGCCCAGAACAGGTGGG
AGATAATGAGCACAGGCACGTGAACAGAGTCAAATACGCACAAACTCTTC
TTTTTGTTCAACACACGAACGCTTGCTTTTGTTTCACACACAAACGCCTC
TTTTCGTTTTTCACACAAACGCCTCTTTTCGTTGTACACATAAACGCCTA
CTTTCGTTTTACACTCAAAGGCTTCTTTTTGTTTCACACACAAACGCCTC
TTTTCGTTTTACACTCAAACTCCTCTCTTCGTTTTACACACTAACGCCTC
TTTTCGTCCCACACACAAACGCCTCTTTTCGTTCAACACAGCAGACACGC
CGGCCTCTTCACATCGTCGATGTGAGAACAAACTAATCCATGCCGCCTTT
TTATTTATTTTTCGTTGCCCGACCCGTCTTTTGTGTTTTTCTCAGGCCCA
TCTCTCTCAACGGAGGGTACTCGATGCCGGGGTGGTCGGATATTTTTGGA
CTCGAGGAGGATTCCGTGGAAGACGTTAAGGTACTTGCAGCAGTAAATGG
TACCGCCTCCATGTGTTTGTGCTAAGTACAAGTAAATTTTAATTTTTAAT
TATTTGCAGCAGTAAAAACGTAAAAAACAATAGCCCCTAAAACAATTCAA
GAACGTGCGTTCGTGCACCTGTGACATGGTGACTTCGTGTATGCTTCATG
ACGGAAAGCATACCCTCCTTTTGCTTCTGAGATCTATCCATGGTGAGGTT
CTTTCGATCGGCACGTTGTGTCGAATGGTACCGCCTCCACGTGTTTGTGC
TGAGTAAAAATTTATTTTTAATTTTTTGCGACTTGAATCTATTTTGCAGG
TCTTTAGAGACCACCACCAAGCATCATCATTGTCTCCCGGCACAAACAGC
ACAAACGCAAGAATCTCCCGGCACAAACGGAACGAATGCGGAATAAGTAC
ATGGGGAAATCCGAGACTCTCCTTCAAGTCTGGCTGCTGCTTTTATCACG
TGATTTTCAAAATATCGTTTTTCGGAAATTTATTCGAAATTTCAATTTTC
ACAAAAGGGAGAAAAAAAAAAAAAAGTGGGTCAAGAACAAAGGCAACTCT
AATTTGTTCACAATTACTTATTTACTCCGTCCATCTCTTTCTTTACCTCT
GATGATTTATACTACGATATATCGTGTCGGTGGTAAGGCTGGGTAGGCCA
CACAAAAGAACTCGCATCCCACGGAGCCCCCCTTTCCGTCTGTGGTTCGT
GCGCACCGTCCACCTTTTCCCTTCTTCTGTTCTTGGCATCCCACCTACAT
TTTGCTGCACGATACAAGTACACATACAATACAACATCCGTGTCTACTCT
GGTGCTCTTTTCTCTGCCTCCTTCGGTATTTATGGCACGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTCGTTGTTGTTGTTGTCGATTCTCA
TTTTAGCTCCCCACCCCAAGTAAGTCTAGCCCGTGGTCACGAACCCGGCG
CACACCGTGCTATATACTTTCGAAGTATGTAGGAGGAAGACAAATAAAAA
AACGATGGTCACGGATGCAAGTTTTGTTACATAGCACAAGTCCAGCCAGG
GACGGTAACACAAAAGCATTTTATCTCTCCGTGACTCCCCCCCTCCACAG
TTGCATTGCTCAATACCGTTGCCAATCGAATTCTTGACATCTTGGGGCCA
CAAGAAGGGATTCCTCTCTCCCCTTGACCCCCATTCCATCTGCGGTGCAC
CCCGATGTCTGTTTCGCCACATGAATTTGCCGATAGTAGTGTTGCCAATT
GTGGGCCGCACGAAGGGTGTCGTATCTTCTCAGTCTTGAGCCCCTCCCCC
CATTCCATCTGCGGTGCATTCTGATCTCTGTGTTGCATAATAACTTTACC
GATCGAATTTTTGCCGTTTGGGGGCCACACGGAGGGTACCCTCTCTCTTA
TTGACCCCCCCCCCCCCCCCCCAATTCCTGCTGCGTTTTTCATATGCCTT
CATTTTATTCCGCGATTCGTTAAGGGGTTCGATGCGAGTGCCGACCGAGT
CCGTGCGATTTTGGAGTCAGAAAAGGCCAAGGGGAAGGAGCCGTCAAGGA
TGGTGGTCGGAGGATTTTCGCAGGGGGGCGCCGTCGCTCTGCACGTGTGC
CTGAGAGCCACGGAGCCCCTCGCAGGTTTGTTGAGTGAATTGAGCATGAC
TACTGTATTTAGTTATTTTCGTGTAGGATAATTGATTTAACTTTCATCTC
ATCGCCAGTAATTTTTAGAATTGTTGATTTCGATTACAGCTGTAGTGACA
TCGTGACTGTTTCAAGGACATGCAACAATATGAGGGAAGAGACAGGTTGT
CTCGGAATATTCCAGTCGAGGTCTGTTGATCTCCTGATAGTCTAACGGAT
ATATCCGGCTCTTGTCCAACGGATATCTGACTCTTCCTTTTTGGTGGTCG
AATTGTCCGCCCTTTCGGTTTACTACCCTGTGCCGCTCCATATTTTGGCT
CTCCTTGCTTAATCTCCTGAAGAAAAGATTGCCTGCCTTTGGTCCTTGGC
TATCGTCCAACGGATATATCCTGCTCTTGTCCAACGGATATCTGGCTCTT
CCTTGTTCAGTGGGCAAATTGTCTACCCTTTCGATCTACTACCCTTTGCC
GCTCTACCCTTTCTTTGCCACTCTACTATTAGAACTCTCTTCGATAAATC
TACGGATGGAAGAAAACGTTGCCTGCCCTTTGTCGGTGGCGACGTCGATG
GAGAGTCCCGGTATGAAAGCCCAGGGTCGCATTGGCGTCGATGAAAACAT
AACTTTGTATGTCTTGCTTTCCGACTTTTGCCCTCGCTTTCACGATGTGT
CACGCAGCATTGTGCCAGTCTGCTAGCACTACCGCCACTCGGAGCTTCAG
AACCCTCATCCTATCGTCGTCGAAGGGAATACATTTACGGCGCTATCATA
TCAGTTCGTTGCGTCATGCAGCAGTGCGCCCGTCTGCTAGCACTGCCGCC
ACTCAGTGCTTCAGAATCCTATCGTCGTCGTCGACAAGATAATTCTACGT
CCCGCATTCCGACGCCTACCCTATAGCTATCAGTACGTTGTGTCAGATGA
TACAACAGTGTTTTCCGTCTTCTAGCACTACCACCACCTATTGTAAGGCC
TTCCGAATCCTAATCCTTTTTGTCTTATCCGAGAGGTTACGCTCGAGGTT
CGGCTTGGTGTATCCCTGGCCTGTCCCATAGTATTTGCAACTCTTGCCGG
CTGTGCGTTGGCGAGACGATGCTGCCGGACTACCTGCTGCCCCCTGGATC
GATTCGGAGGGTTCGGCCACTCCGTATCTAAGAGGTTATGAGCCTATCTA
CAGCAAACGATACTCCGTAGCTAAGAGGTTATGAGCCTTTCTAAAGCAAG
CGATACGTTTTCGGGCAGCTCTTTCTGTCGACGAGATATGATTGATGATT
CCATGATTTCAACGCCAGTCACCCTTTTTGGTACCGACACTCCTCTTGCT
GTGGAGTTTGTCGAGATTCGAAAATCGGTTCAGGGGGTGTCGTGTGTTAC
CGCCGACGATAATTATTGGCAAAGGCGACGTAGACGACACGAGATACCGC
ACGGGACCCCCTGGATCATTTGCAGTGCTTGGCCAGGTTATGAGCCCACA
GCAAACGATTTGTTTTCAGACAGACAGCTATTTATCTCGACGAAAGTTCC
ATTATTTCAACGCCAGTAACCCTCTTCGGGGCCTACAGACATGTTATTAG
TATGTTTGGCCTAGGCGAGATTCGAACATCGGTTCAGGGGGGGTGTATCT
CAAAGCCAACGGACGGTAGTATGTCGTGGGTTCGGCGTCGATAGTACACG
ATACCGCGCGGGGTCCCCTGGATCATTTTTGTGCTCGGCTACGTCGTAAT
CAAGAGATCATGAGCCCGTAGCAAACGATACGTTTTTAGACAACTTTGTC
TAGACGAGACAAGATGGTTCCATGATTTCAACGCCAGTGGACACTTTCGG
GATCGACACTCTTTGGGCGGCGAAAATACCGAGGTCAAATACTCGGCCTC
GAGAGGGTAGGGGAATCTGCGATACACGGAGCTTTGCTTTTTTAAACCTC
CTGCTCTTCGAATGCACATGACAACGTGTTTGCTCGTTCTCTCTGATCGC
AACCCATCGCTTTTGCTCGCATACAGAAAAGGCTGCGACCACTAGAAAAA
CAACTTTCGTAGTAAAGAAGTCTGAACCGTTTCTAGGAACAACGAAAGCA
GCAGTAGTGGCAGTATCTCGAATCTGAGAATTTTGATGTCGTAATGCTGC
GAAACCAGCTAGCTGGATTCGCAGACTGCCCGTGTGCCCCGGCCATCACG
ACAAGGGTGCCTGTTCAGAAAAAAGTACTTCGAAGTACGTACTTGTACTT
GCCTGAGACGGGGATCGGCGGAGCATGTCTTGAATTCCTTTCAGAGGGGG
TTTCACAGAATTCGTGTCACGGAAGATGCTTTCGTAAATGGTTTCGTTTT
GATCTCTGAGACAACGTGCTTGGATATATCTGCAGCACAATCAACAGCAT
GTGCGGGTATGTGGGCGGGGATATTATTTTGTAGTAGAAAAGGGTCTTAT
CGTCCCCCCCCCCCCCCCCCCTCCATCCCCTCCTCGGTGCGGAACGGTTC
GGCTCAACCAGGCTGCGTCGCTTGCAGCACTTGGGTCCCGATGAACAAGG
ACTACCCGGCCGCTCTCGGCAGCGGAGCCAAAGACATCCCAGTGGCACAG
TTCCACGGCACAAGGGACGAGGTCGTGAAGTTCACCTGGGGCCAACATAG
GTCAGTCTCGTCGCCGCAAGTGTGTCAGGGTTCCGGGCAAAGGTTGAGGG
TTTTATTTTGTTGTTGTTGTTGTTGTTGTCGTTGATGCTCACATTAGCTC
ACTACCGCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAAAG
AAAAAAGAAAAAAGAAAAGAAATACTTTCTAGACTATGACCACCCACAGT
CAAATCAAACAGGGTACCGTTGGGGTACCATCTACTGTGGGGTACCATCT
ACTGTGGTGGCCAAAGTACAAAACAAAATACAGAAAATAATAGGTTCGAA
AAAAAAACAAAATCGGAATATGAGCCCTCGACCAACCGCAGCGGCAGCCC
CATCTATCTCCAACTTTTGGGCGCCGCGGGCCAGTTTTTTTGGTACCCCA
AGGGATGCTAGTGAGTGTTGGGGGGGTGTAAGATAGGATAAGCCTTAAAC
CAACCCCCACCCTCGCGCTAGGCCCAACAAAGGCCAGCTTTGTCCCGGCC
CCCTTAAGGTTGTGATGAAGGATGACTGCCGTTCACTAAACGTATCTGTA
GTATTTGGAATTATGGGTAAGGATGCAGGAGCAGCCTTTTGAACCAACCG
TAGGCGTTGCCCAAACTACTGCTTGTAGCCCTTACCCTCTGTGAGGTTGT
TGTTATCCTCAAGCGTGGGTATTATGGGTGAGGGTGCAAGACTGCTTTCA
TACGGTAGCCTAAAATGTATCGTAAGCCGTCGCTTCTCTTGGACCGAACG
AAACCGTACCTCTTCCATGGGGGCCGGCATCGGGAAGTTTCTCCGCCCTG
ATGGTCAGAGCCGACGATGAGGGTCACCGTAGATCTTTTACGATTCCACA
CCTCCCATACCGATTTCCGACGCCCGATTGTAGTCCACCCCCAACGAAGT
TCGGAGGTCTTGCGCCAGCACCAATCGAACGACACGTTGTCGGAAAGCAA
GGCGTTAAGGCGTCGACAAGATGGGTCCTTGATTTCAACACCGACGGTTC
CATGATTTGCTCTATGATATCGATTATTTCGTTCTTGGTTCCATAATTTG
CTCTATCGACGAGATGGTCCCATGATTTCAAAGCCGGTCGATCACCCTTG
TCGATACAGCACCGACGCTATCTCCGCTGTGAGGTTATTGAGCTTTGAAT
ACCAGTCCACGGGGGCCCCGTGTAGGACGTTGTGCGGCGCACGGGAGGGT
GCAGCTTACGGGTTAAGAATTATGACCTCGAACCAACGCCGTATCCCGGG
GCCAACATGGATCGATATCTTCGTGCCGCTCGAAGCATAAAAGCCTAAAC
CTAAACCGTCTAGACACACAGCAGCAGTAAAAAGTTGCCTCTACTTGACT
TGTATGGCGACACGGAACTGTTTTATCCTACCGCTCCACGTCTGACGCGT
GCGAGACAACCATGTGTGCGGGGGCCCTACCCTTCGGACCTTTTTTCCCG
TCCTCCGTCCCCCCGCACATTTCGGACTATCATACGTATGACCGAACACC
TGAGTATTTGGGGGGGGGCCCGTCGGTACTTTTGGATTGGTGCTGCTATA
CCGCTGTGCGCTACTGCTGTGGTGGCTGCGCAGGCGGACTATGTCACACC
ATACCCTGACAAAATCGTGAATACAAACGTTCAAAACCGTCACCTCCTCG
CTGTTTTTTTTGTTTTGTTTTACACTTTGTTTGATGTTTTGCACCGCAGT
CACAATCTCATCAAAGACGGGCTCGGCATGTCGGCGACTTTCGAGGCAAT
CCCTGGCATGGGGCATTCAGGCAAGGCAGTTGGTCGTTATTGTGGGTGCT
TGCTTGTTTGTTGTTGTTGTTGTTGCTGTTGTCGTCGTTGCTGTTGTTTT
CGTTCTTCTTTTTTCTTTTTTCTTTTTTCTTTTTTCATCTTTCTTCTTCT
TTTTCTTTTTCTTCCTCTTTTTCTTTTCCCTCTTTTTTTCGCTTTCTTTT
CTTTTTCTTCTCCTCCCTCTTTTTTTTCCTTCTTCTTGCTGTTGTTTCTG
CCCTTGATGTTATCAGTGTTGTTCTTGTTCTTGTTCCTGCTCTCGCTCTT
GCTTTTGTTTTTTTTTCTCGAAATCTCCGTCAGCGCCGTTTGCCCTACCC
CGTTAACCTTGGTTTCCTCAATGCGTGTACTAACTAACCGCCGGCTCGAG
GAGGAAATTTTAAGTTATGCCGAGGTGAAAATACACCCCCGAACTATGCA
GTATGGGCATCCAAGCCTAAACCCAATCCCCGTTTTCTGTGCCCCCCCCC
CCCCCTCTGCACGCGATGCGATGCAAACTTCTGTGCGGTGCTTCCTCCCA
CGCCACTTCTCCTTGCGTCAACAACGACTAGCTTCCCCGGGAGAGCTGGA
GAGCATCGGAGACTTCCTGAAGAAGGTTTTGCCGGAGTAAGACACATTTT
TTTTTCTGTGTCATGTCTTGGCCTGTGATCACGGAAGAAGCCAATCCTGT
GTCGGATGCCCCTGCGTGTGCAGTGTGTCGTGGTGGTAGCCGTTTTGGCC
TGTCCCCGACCGCGTTTTTTTTTGTTTATTTCTTCCCGCTATCAAAAGCC
ATTTTCTTGAATAGGAACACCCACCTGTAAACGGGACCCAAGCAGGAGGT
GTTGAATTATTTTGCATGTCAAGTACAGACCAGCTGCTCAGCGCCTCATG
TCGGACCACAAGGCCGTGATTCTCTTTTGATCTCTCGCAACGAGCTTTGG
AGGCTTTCATTCTGGGGAGAGTTTCACCGGATGGAGCAAAACAAGAAGGT
TTCACCGCTGGAAAAAATCAAGAAATTTCCACGGGACGAAAAAACAAGAA
AGTTTCACCGCACGAAACAAACCTAGAAAGTTCCACCGTACGGAATAATA
CTCCGAGTATAAGAATGTTCCACCGAACGGAACCAAACAAGAAAGTTCCA
CCGGAAGGATTAAAATATAATTGAACACTGCTTGGTTTTCAGTCGGTTTT
GACTTTCTTTGTTCCCGGCTGGCTTCATCGTGGATGCAATCCATGATTGG
TAGTCCATCCTTGTTGTTGGTGGACTCTGTTAGCTGCTGTCCGCTGATTA
TGTGGTTGAACATCGGCATGCTGATGGTGCAATGGGAGGTTGACTGCAGT
CCTGTGGGGGCGTGTTGCCTCGTGGGGGCTGTCTATAAAGTCATTGGCTT
TTGACGTGCACCGGTATTCAATCCTGTCTGGCTAGTGACCGTTCGCAACG
TTGGCAATCAATCCGCTTGCGCGGCGTGTCGCCACTCTGGGAGCTGTGTG
TTGTGGACGATCGGCTGTTCCTTCGCACTTACTGTATGTCCTGGTGATGT
GGCCACCTTTGGCAGTCCCGTTTGTTTCGTTTGTAGAATAATCGTGCACC
AAATCGAGTGTCGATCCTCTCCCAGACGATCTCGTCCGAAGCGTTCAGCT
CCAGAACGCGCTCCGCCAATTCGGCGGGACAGAACAGACCTCCGGCATAC
ATGTTCGCGGCGTACGTGAGTAACGGTAAGAACACGACATTTCTACAGTA
GTCGTGTTGCCTCCACGTACAGCAGCGAAATGCTTTTTCGGGTTATGTAT
TGGCTGTTGATGTGGACTGGTTAGTACCAGGTAGTCTTGAGAGCCTCCCG
GTGACGTGCATTTTCGGCAATCCTGGTATGATACAATATGCGGCGGGATT
TCACTCTCAGGAGGCTTTCTTCAGCACTGGCGAGGGAGAATATTTGATAG
GATGGACCTGATGTAATATTTGCGTGGATTGTCGGCACAATGTACTGCTG
TACAGCGTCGATGCCCTCTCGCTGATCGCGTCCGGGCGGAGCCTTTTTTT
GTGTGCGCCGATCATCGCTTTTGTGCACGTGCATCTCGATTTACATTCCG
TAGATTTAGTGCGGCCGTTTTTAAACGACACGCAAACAGCAATGTGGAAA
CGCGGGTCGTACACCTGTTTGGTTCGAATCTGGGCGTGGATTGTTGTCGT
TTGACACAACAACTTGAACTTTTTTTGGAAAGCTCTCGACGCCAGTTTAC
CAGTACAGTGTTGATGAAACGCTTCTCGCGGAACATCGAACGGGGGCCCG
GGAATTCCGTGTTTATTATGTTATGACCGTGTGCGAGGCGCATACCCCCC
CCTCCCCTGCTGTGCAAAATCAATGGCGATGGGTGGTTTATCGACCTCTA
CGGTAC

Coding sequence (CDS) from alignment at P-littoralis_Contig190:172645..187600+

>mRNA_P-littoralis_Contig190.33.1 ID=mRNA_P-littoralis_Contig190.33.1|Name=mRNA_P-littoralis_Contig190.33.1|organism=Pylaiella littoralis U1_48|type=CDS|length=726bp|location=Sequence derived from alignment at P-littoralis_Contig190:172645..187600+ (Pylaiella littoralis U1_48)
ATGGCAGCATCCATGTCCACATCATCGCAGGTCCAGCTCGACCGTGTCTC
CGGTGATACCGTCGGGGGAAGCGGAACCACCCTCGTACCAAAGGGTGGCG
CCTACAAGAACGTCGTCGTGTGGCTCCATGGCCTTGGGGATACGGCCGAT
GGTTGGTCCGGTTCAATGCCGGAGTTCAAGCTCGCGGACACCAAGTTCAT
CCTTCCCACGGCGGACGCCAGGCCCATCTCTCTCAACGGAGGGTACTCGA
TGCCGGGGTGGTCGGATATTTTTGGACTCGAGGAGGATTCCGTGGAAGAC
GTTAAGGGGTTCGATGCGAGTGCCGACCGAGTCCGTGCGATTTTGGAGTC
AGAAAAGGCCAAGGGGAAGGAGCCGTCAAGGATGGTGGTCGGAGGATTTT
CGCAGGGGGGCGCCGTCGCTCTGCACGTGTGCCTGAGAGCCACGGAGCCC
CTCGCAGGCTGCGTCGCTTGCAGCACTTGGGTCCCGATGAACAAGGACTA
CCCGGCCGCTCTCGGCAGCGGAGCCAAAGACATCCCAGTGGCACAGTTCC
ACGGCACAAGGGACGAGGTCGTGAAGTTCACCTGGGGCCAACATAGTCAC
AATCTCATCAAAGACGGGCTCGGCATGTCGGCGACTTTCGAGGCAATCCC
TGGCATGGGGCATTCAGCTTCCCCGGGAGAGCTGGAGAGCATCGGAGACT
TCCTGAAGAAGGTTTTGCCGGAGTAA