mRNA_P-littoralis_Contig168.78.4 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig168.78.4
Unique NamemRNA_P-littoralis_Contig168.78.4
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: D7FZA4_ECTSI (Adenylyl-sulfate kinase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FZA4_ECTSI)

HSP 1 Score: 357 bits (917), Expect = 2.170e-119
Identity = 176/209 (84.21%), Postives = 191/209 (91.39%), Query Frame = 1 
Query:   91 AVHEDVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYL--QQPSIPS 711
            AVHEDVVWH   V+RE+RWELKGQ+G+VLWLTGLSGSGKSTVANALDVKLTAEGRH+YILDGDNVRHGLNSGLGFS EDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDR++AR RFNSGEFVEVHVSTSL+TCE+RDPK LYKKARAGEITN+TG+AADAPYEAP+NPEI L  E C+V+ C D LLSYLRERGYL  Q P+  S
Sbjct:   12 AVHEDVVWHCTHVSRERRWELKGQRGVVLWLTGLSGSGKSTVANALDVKLTAEGRHTYILDGDNVRHGLNSGLGFSPEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRERARGRFNSGEFVEVHVSTSLQTCEQRDPKDLYKKARAGEITNMTGIAADAPYEAPENPEIQLLAEGCSVEACVDNLLSYLRERGYLNVQPPTAGS 220
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A836VT28_9PLAN (Adenylyl-sulfate kinase n=1 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A836VT28_9PLAN)

HSP 1 Score: 246 bits (629), Expect = 2.570e-76
Identity = 115/196 (58.67%), Postives = 145/196 (73.98%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYL 690
            ++ WH   V++++RW+L G +G VLW TGLS SGKST+AN +D KL A G+H+++LDGDN+RHGLN  LGFSAEDR EN+RR+ EVA+L  D GI+ L   ISPYR DRDK R     GEFVE+ V TSL+TCE+RDPK LYKKARAGEI   TG+  D PYE P NPEI+L  +   +D  AD++++YL E GYL
Sbjct:    8 NITWHEHHVSKQERWQLMGHRGAVLWFTGLSASGKSTIANTVDHKLHAMGKHTFVLDGDNIRHGLNKNLGFSAEDREENIRRIGEVAKLFCDAGILTLTAFISPYRADRDKVRKLLEPGEFVEIFVDTSLETCEQRDPKGLYKKARAGEIKGFTGI--DDPYEPPLNPEIVLDGDTKGIDELADQVVTYLDEHGYL 201
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A3M1VBW0_9BACT (Adenylyl-sulfate kinase n=1 Tax=Planctomycetes bacterium TaxID=2026780 RepID=A0A3M1VBW0_9BACT)

HSP 1 Score: 247 bits (630), Expect = 2.720e-76
Identity = 113/199 (56.78%), Postives = 146/199 (73.37%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYLQQP 699
            ++ WH   V+ E+R  LKG +G+VLW TGLSG GKST+AN +D KL A G+H+Y+LDGDN+RHGLN  LGFS EDR+EN+RR+ EVA+L  D G+I +   ISPYR+DRD  R     G+F+E++V  SL+TCE RDPK LYKKARAGEI   TG+  DAPYE P NPEI+L +++  VD  AD++++YL   GYL  P
Sbjct:    8 NITWHEHHVSHEERCRLKGHRGVVLWFTGLSGCGKSTIANTVDHKLHAMGKHTYVLDGDNIRHGLNKNLGFSPEDRKENIRRIGEVAKLFCDAGLITMTAFISPYREDRDAVRKLLKDGQFIEIYVKASLETCESRDPKGLYKKARAGEIKGFTGI--DAPYEPPLNPEIVLDSDNLGVDELADQVIAYLDRHGYLNLP 204
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: UPI001FF5B05D (adenylyl-sulfate kinase n=1 Tax=Alcanivorax sp. CY1518 TaxID=2933565 RepID=UPI001FF5B05D)

HSP 1 Score: 243 bits (620), Expect = 7.250e-75
Identity = 118/201 (58.71%), Postives = 150/201 (74.63%), Query Frame = 1 
Query:   76 EASATAVHEDVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRE 678
            E    A   +VVWH A V R  R  LKGQ+G  +WLTGLSGSGKST+ANAL+V L   GRH+Y+LDGDNVRHGLN  LG S +DR EN+RRV E++RLMVD G+IV+   ISP+R DR+ ARA F SGEF+EV+V+ SL  CEERDPK LY+KARAG I++ TG+  D+PYEAP+ PE+ + T+  +VD C  ++L+YL +
Sbjct:    6 ERRENASEAEVVWHRASVTRADRARLKGQRGCCIWLTGLSGSGKSTIANALEVALHQAGRHTYLLDGDNVRHGLNKDLGMSDDDRTENIRRVGELSRLMVDAGLIVISAFISPFRVDRESARALFESGEFIEVYVNASLDKCEERDPKGLYRKARAGLISDFTGI--DSPYEAPERPEVQVCTDTNSVDACVQQILAYLTD 204
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A517Z6Q1_9PLAN (Adenylyl-sulfate kinase n=1 Tax=Maioricimonas rarisocia TaxID=2528026 RepID=A0A517Z6Q1_9PLAN)

HSP 1 Score: 240 bits (613), Expect = 6.420e-74
Identity = 116/205 (56.59%), Postives = 149/205 (72.68%), Query Frame = 1 
Query:   76 EASATAVHEDVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYL 690
            E  AT VH    WH+  V  E+R  LKG +G VLW TGLSG+GKST+AN +D KL A G+H+Y+LDGDN+RHGLN  LGFSAEDR EN+RR+ EVA+L  D G+I L   ISPYR DRD  RA    GEFVE++V  SL+TCE+RDPK LYKKARAGEI   TG+  D PYE P+N E++L ++   +D  AD+++++L ++G+L
Sbjct:    3 EQVATNVH----WHDHSVTSEERKRLKGHKGCVLWFTGLSGAGKSTIANTVDHKLHALGKHTYLLDGDNIRHGLNKNLGFSAEDRAENIRRIGEVAKLFADCGVITLTAFISPYRVDRDNVRALLPEGEFVEIYVKASLETCEDRDPKGLYKKARAGEIKGFTGI--DDPYEEPENAELILDSDGKGIDELADEVVAHLNQKGFL 201
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A2D6SY03_9PLAN (Adenylyl-sulfate kinase n=1 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A2D6SY03_9PLAN)

HSP 1 Score: 239 bits (611), Expect = 1.320e-73
Identity = 114/196 (58.16%), Postives = 146/196 (74.49%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYL 690
            +V WH+  V+RE+R +LKG  G VLW TGLS SGKSTVAN +D KL A G+H+Y+LDGDNVRHGLN  LGFSAEDR EN+RR+ +VA+L  D G I     ISPY+ DRDK R   + G+F+E+ V  SL+TCE RDPK LYKKARAGEI   TG+  D PYEAP+N E++L  ++  +D  AD++++YL+E+GYL
Sbjct:    8 NVTWHDHTVSREERHKLKGHCGAVLWFTGLSASGKSTVANTVDHKLHAMGKHTYVLDGDNVRHGLNKDLGFSAEDRAENIRRIGQVAKLFADSGTITTTAFISPYKADRDKVREIMDDGQFIEIFVDASLETCEARDPKGLYKKARAGEIKGFTGI--DDPYEAPENAEMVLDADNNGIDELADEVIAYLQEKGYL 201
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: UPI000287DECF (adenylyl-sulfate kinase n=1 Tax=Oceanobacillus massiliensis TaxID=1465765 RepID=UPI000287DECF)

HSP 1 Score: 239 bits (609), Expect = 2.310e-73
Identity = 111/197 (56.35%), Postives = 149/197 (75.63%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYLQ 693
            ++VWHN+ V +E R +L   +G VLW TGLSGSGKST+  AL+ +L   G H+Y LDGDNVRHGLN  LGFS EDR EN+RR+ EV++LMVD G++ L   ISPYR+DRDK RA  +  EF+EV+V  SL+ CEERDPK LYKKAR+GEI+N TG+  DAPYE P++PE+++ TE  +++ C  +++ YL+E GY++
Sbjct:    6 NIVWHNSIVTKEDRGKLNNHKGAVLWFTGLSGSGKSTLTVALEKELYDLGTHTYRLDGDNVRHGLNRNLGFSPEDRAENIRRIGEVSKLMVDAGLVTLTAFISPYRKDRDKVRAILDEHEFIEVYVKCSLEACEERDPKGLYKKARSGEISNFTGI--DAPYEEPESPEVIVNTEQLSLEKCVGEIVDYLKENGYVK 200
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: UPI001931FF1F (adenylyl-sulfate kinase n=1 Tax=Marinobacter mangrovi TaxID=2803918 RepID=UPI001931FF1F)

HSP 1 Score: 239 bits (609), Expect = 2.640e-73
Identity = 114/203 (56.16%), Postives = 151/203 (74.38%), Query Frame = 1 
Query:   94 VHEDVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYLQQPS 702
            + E++VWHN +++R +R E+K Q+  ++W TGLSGSGKST+ANALDV L   G H+++LDGDNVRHGLN  LGFS ++R EN+RR+ EV++L  D G+IVL   ISP+  DR   R  F +GEF+EV ++T L+ CEERDPK LYKKARAGEIT+ TG+  DAPYE P +PE+ L T   +VD C DKL+SYLR+R  + + S
Sbjct:    1 MEENIVWHNHRISRAERAEIKNQKPCLIWFTGLSGSGKSTIANALDVALYQRGYHTFLLDGDNVRHGLNKDLGFSDDERVENIRRIGEVSKLFADAGLIVLSAFISPFTSDRRMVRNLFPAGEFIEVFMNTPLEACEERDPKGLYKKARAGEITHFTGI--DAPYELPSHPEVTLDTTQYSVDQCVDKLVSYLRDRKLILECS 201
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A0B4XQK0_9GAMM (Adenylyl-sulfate kinase n=2 Tax=Alcanivorax TaxID=59753 RepID=A0A0B4XQK0_9GAMM)

HSP 1 Score: 239 bits (609), Expect = 3.440e-73
Identity = 118/196 (60.20%), Postives = 145/196 (73.98%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYL 690
            +VVWH   V+RE R  LKGQ+G  LWLTGLSGSGKST+ANAL+V L  +GRH+Y+LDGDNVRHGLN  LG S  DR EN+RRV E++RLMVD G+IV+   ISP+R DRD ARA F  GEF+EV+V+ SL  CE+RDPK LY KARAG I + TG+  D+PYEAP+ PEI + T+   V+ C  ++L YL  R  L
Sbjct:   15 EVVWHQGSVSREDRDRLKGQRGCCLWLTGLSGSGKSTLANALEVALFEQGRHTYLLDGDNVRHGLNKDLGMSDADRTENIRRVGELSRLMVDAGLIVISAFISPFRADRDAARALFAEGEFIEVYVNASLGKCEQRDPKGLYSKARAGLIRDFTGI--DSPYEAPERPEINVCTDSATVEACVAQILEYLTARQRL 208
[Close]
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Match: A0A518CNU2_9PLAN (Adenylyl-sulfate kinase n=1 Tax=Polystyrenella longa TaxID=2528007 RepID=A0A518CNU2_9PLAN)

HSP 1 Score: 238 bits (608), Expect = 3.600e-73
Identity = 111/197 (56.35%), Postives = 147/197 (74.62%), Query Frame = 1 
Query:  103 DVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKSTVANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVARLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERDPKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLLSYLRERGYLQ 693
            +V WH  +V+ ++R EL G +G++LW TGLSG+GKSTVAN +D  L ++G HSY+LDGDN+R GLN  LGFSAEDR EN+RR+ EV +L V  G+I     ISPYR+DRDK R     GEF+EV+V+ SL TCEERDPK LYKKARAGEI N TG+  D PYEAP+N E++L ++   +D  A+++++YL  +GYL+
Sbjct:    8 NVTWHEQRVSDKERCELNGHKGVMLWFTGLSGAGKSTVANTVDHLLHSKGNHSYVLDGDNIRMGLNKNLGFSAEDRAENIRRIGEVGKLFVGAGVITSTAFISPYREDRDKVRELMGEGEFIEVYVNASLATCEERDPKGLYKKARAGEIKNFTGI--DDPYEAPENAELVLDSDSKGIDELAEEVVAYLESKGYLK 202
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig168.78.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FZA4_ECTSI2.170e-11984.21Adenylyl-sulfate kinase n=2 Tax=Ectocarpus TaxID=2... [more]
A0A836VT28_9PLAN2.570e-7658.67Adenylyl-sulfate kinase n=1 Tax=Planctomycetaceae ... [more]
A0A3M1VBW0_9BACT2.720e-7656.78Adenylyl-sulfate kinase n=1 Tax=Planctomycetes bac... [more]
UPI001FF5B05D7.250e-7558.71adenylyl-sulfate kinase n=1 Tax=Alcanivorax sp. CY... [more]
A0A517Z6Q1_9PLAN6.420e-7456.59Adenylyl-sulfate kinase n=1 Tax=Maioricimonas rari... [more]
A0A2D6SY03_9PLAN1.320e-7358.16Adenylyl-sulfate kinase n=1 Tax=Planctomycetaceae ... [more]
UPI000287DECF2.310e-7356.35adenylyl-sulfate kinase n=1 Tax=Oceanobacillus mas... [more]
UPI001931FF1F2.640e-7356.16adenylyl-sulfate kinase n=1 Tax=Marinobacter mangr... [more]
A0A0B4XQK0_9GAMM3.440e-7360.20Adenylyl-sulfate kinase n=2 Tax=Alcanivorax TaxID=... [more]
A0A518CNU2_9PLAN3.600e-7356.35Adenylyl-sulfate kinase n=1 Tax=Polystyrenella lon... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig168contigP-littoralis_Contig168:435454..453421 -
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.D7FZA4
Preferred nameMET14
PFAMsAPS_kinase
Model size1422
Max annot lvl2759|Eukaryota
KEGG rclassRC00002,RC00078
KEGG koko:K00860
KEGG ReactionR00509,R04928
KEGG Pathwayko00230,ko00920,ko01100,ko01120,map00230,map00920,map01100,map01120
KEGG ModuleM00176
Hectar predicted targeting categoryother localisation
GOsGO:0000096,GO:0000103,GO:0003674,GO:0003824,GO:0004020,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006082,GO:0006520,GO:0006790,GO:0006793,GO:0006796,GO:0006807,GO:0008150,GO:0008152,GO:0009987,GO:0016301,GO:0016310,GO:0016740,GO:0016772,GO:0016773,GO:0019379,GO:0019419,GO:0019752,GO:0043436,GO:0044237,GO:0044238,GO:0044281,GO:0044424,GO:0044464,GO:0055114,GO:0071704,GO:1901564
Exons5
Evalue2.5e-124
EggNOG OGsCOG0529@1|root,KOG0635@2759|Eukaryota
Ec32 ortholog descriptionAdenylylsulfate kinase
Ec32 orthologEc-19_000180.1
EC2.7.1.25
Descriptionadenylylsulfate kinase activity
Cds size666
COG categoryF
BiGG ReactioniMM904.YKL001C,iND750.YKL001C
BRITEko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig168.78.4prot_P-littoralis_Contig168.78.4Pylaiella littoralis U1_48polypeptideP-littoralis_Contig168 436147..453358 -


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

Feature NameUnique NameSpeciesTypePosition
1680789809.763975-UTR-P-littoralis_Contig168:435453..4361461680789809.763975-UTR-P-littoralis_Contig168:435453..436146Pylaiella littoralis U1_48UTRP-littoralis_Contig168 435454..436146 -
1680789809.861703-UTR-P-littoralis_Contig168:453358..4534211680789809.861703-UTR-P-littoralis_Contig168:453358..453421Pylaiella littoralis U1_48UTRP-littoralis_Contig168 453359..453421 -


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

Feature NameUnique NameSpeciesTypePosition
1680789809.777995-CDS-P-littoralis_Contig168:436146..4363411680789809.777995-CDS-P-littoralis_Contig168:436146..436341Pylaiella littoralis U1_48CDSP-littoralis_Contig168 436147..436341 -
1680789809.7939386-CDS-P-littoralis_Contig168:437235..4373591680789809.7939386-CDS-P-littoralis_Contig168:437235..437359Pylaiella littoralis U1_48CDSP-littoralis_Contig168 437236..437359 -
1680789809.8024552-CDS-P-littoralis_Contig168:444017..4442201680789809.8024552-CDS-P-littoralis_Contig168:444017..444220Pylaiella littoralis U1_48CDSP-littoralis_Contig168 444018..444220 -
1680789809.8113124-CDS-P-littoralis_Contig168:444576..4446401680789809.8113124-CDS-P-littoralis_Contig168:444576..444640Pylaiella littoralis U1_48CDSP-littoralis_Contig168 444577..444640 -
1680789809.8514004-CDS-P-littoralis_Contig168:453278..4533581680789809.8514004-CDS-P-littoralis_Contig168:453278..453358Pylaiella littoralis U1_48CDSP-littoralis_Contig168 453279..453358 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig168.78.4

>prot_P-littoralis_Contig168.78.4 ID=prot_P-littoralis_Contig168.78.4|Name=mRNA_P-littoralis_Contig168.78.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=222bp
MAKKEASATAVHEDVVWHNAQVAREQRWELKGQQGIVLWLTGLSGSGKST
VANALDVKLTAEGRHSYILDGDNVRHGLNSGLGFSAEDRRENVRRVAEVA
RLMVDLGIIVLVPVISPYRQDRDKARARFNSGEFVEVHVSTSLKTCEERD
PKYLYKKARAGEITNLTGVAADAPYEAPQNPEILLPTEDCAVDVCADKLL
SYLRERGYLQQPSIPSKTTDT*
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mRNA from alignment at P-littoralis_Contig168:435454..453421-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig168.78.4 ID=mRNA_P-littoralis_Contig168.78.4|Name=mRNA_P-littoralis_Contig168.78.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=17968bp|location=Sequence derived from alignment at P-littoralis_Contig168:435454..453421- (Pylaiella littoralis U1_48)
GTGTCCGCGTGTCTGCGTAGCTGCAGCTTCCTTGCGTAGTGAAAGAGGTC
CACCAAAATCACCATGGCGAAAAAAGAAGCCTCAGCTACTGCAGTGCATG
AAGATGTGGTGTGGCACAATGCCCAAGTTGCCCGAGAACAAAGGTGAGCA
TGTAACACACAGGCACAGACAGCAGGACGACAAACTTCTTTTCAGAAAGC
AAAGAGAGGGAAAAGGTGGCACAGCAGTAGTTTCCTAATTCAAGAACGTT
CAGCGCAAAGACACAAGCAAGCAGCGTCTGGGTCTCGATGGCGTGTATCA
TGACGTGCTCATATGTGTATATGGCATTGACACGGAATGCATGCGCTCAC
AGTCGAAAGTAATGTCGGAGGTCCCTGTTGTAGATGTGTAACTTGATTTC
GACCGCAGCAGCTGATCATTGTTCCACTGTTTTTGGCGGAGTTCTGGTCT
AAGTTGTACCAGGTATGATATTATACATCATGACATATGATCTGATTTCT
TGAGAGCCGCGACTGGAATGCAGAACACAGCATTTAGCGGTGTATGATAT
CAATCTGCTGTGCTTGTGTAGTGTGACTTTTGCCATCCCATTCCGGACGC
CGCACCTTTCGGTGTAATTTGGGCGCACCAGCCGGGGTCACGACAGACAG
GAGGAAGGTCAAGGGAGTTGTTTTTCGGGCAAACGCCAAGAAGCGGTTTA
CCGTCTGGTTTCCGCCCCACAAAGCGATACACCAAATTAGGGTACTGCTG
TACCCCCACCCCCCACATCCCACACCGACCCCTGCAGGAAGGTGCCCTGC
TGTGCGCACCGAGCCCTGCAGGACGGTGCTCTGCTGTGCGTGACAAAATA
TATACTCGTACTGCTGTACTGCTGGATCTCCGTGTGTGTATGTGTGAGCC
CTGCGTCTGTACCGCCGTAGGCTTGTGCTACTTCCTGCTGTAGGCTTTCC
CTTTCTATTAAGTAGCTTGTCTTGGAGTACCGCCTGCTGTAGTGTGTGTG
TTGCCATCCCTTATTCTCTGGCACTCTAGTCTGCACCTTCCGGTTCAAAC
TACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGCTCAACACAGG
AGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTC
GCGAGCAGGGATCCGCGGTCCCCACCCTCGTCGGCGAAGCCGAATCTGCT
TTTACTGACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCG
GGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGGACCACT
AGTCCACCGGGGCGACCGGTGTAGTCAGGTTGTATGATAGTCAGGTCCCC
ATGAAGTTATGCACCGGTCGCCCCGGTGGACTAGTGGTCCCTCGTTAACC
ACTAGATGCAGAGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCCTTTG
CTACTTTGAAAGCGGCTATGCTGTTAGTAAAATCAGATTCGGCTTCGCCG
ACGAGGGTAGGGACCGCGGACCCCTGCTCGCGAGAAAAAATCTCACGCAT
GTACCGCAGAAGAAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCC
TGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGCAGACTAGTGTGCC
AGAGAACATGGGATGACAACACATGTTTGATGTGTTGCACCCAAGTGAGA
CACGTCGCCAGCGCGGTGGTGGCGAATGGATGATCGCGTGCGCCCGCATG
GGCACATTGTGATGTGTGGTGGTGTCTATGTGTGTGTGGTGTGCGATCAT
ATTGATGTGCTTCACGGGCCGACAGCAGTATGTGTGGTGATCGATTTGGT
ATTTGTCAGGCGCACAGCAGAGCACCTTCCTGCGTCGGTGTAGGATGTGG
GGGTACGATGTGACGTAACTTCCTTGGTTGATCGATGGTGACGTGTGATG
TGGAAGTATCAAGGGCTGTTGGGCGATGGCCTGGGGAATATCCCGCTAGA
AAGTGGTGTAGGTCGCGCCAAAAAACGGTGAAGGCCGACCTGAGAAGCCC
AGATGTGATATGCCGCCGGGTGCTGGTGCCTGAAAGTAGTTTGAGGCTTC
ATCGGCCAACCAGTAGGGTTGTGCATCGTCGCGCAGCGACGATCAGCGAC
GATACCACACGAAGTATACGAAGTATATCGGCAAATGGGCGGAGTAGATA
TGCCGATATATTTGCCGATATATCGGCAAAATATTGGCATCCGAGCGAGC
GAAGCAAAGCGGCGGAGCCACGTTTTTTGCGACCAACAGCCCTCCGGCTG
GTGAGGGGCCCCGCTGGAGGCGCCGCCGGAGGCAAAAAAAATTATGCGGT
TTGGCTTCATTTCCCTTCAAAATCGGGCAACAATTTTGACCACCGAACGG
GGTTCTATCTACAGCAGCATCGGAATATTTAGATATTTATTACTCCGGAG
TAGTAGTTAAGTAGGTGACGTAGAATTATGAAAAAAATATGTGTTGCGGT
ACTTCATACAATGCCGACAGACGATGAAATGCCAGCTGCCGCGTGTTGCC
GTTGACGAAACCACCAACAGTATGTAGCAGCAGTGTAGATACGTTGGCCT
TTCCTTAGATATTAGATATTAAACGTACGCTCATCTACGCGGTCCCGCAC
TTGCAGCAACACCAGCCCCTCGCAGTAGATGCCAAGAAGCACAAAAGAGC
AACACACACGGTAACATATGAAGCTAACACCACAAACAAACTCCCCCTAG
CAGCATTCAACCACGCATCCACACAAAACGAAGCCACCAACAAGAGGGAC
ACAGGTGGACAAATGCCCCCACTGACCAAGGTGCCTGACCCCGAATGACC
TTGTGCACACCTTGTCAATGTGTTGACCTCTAGATTTCGATCAAAATCAC
CGACAAGATCTGCACAAGGCCATTCAGGGTCAAGCAATTTGGTCAGCGGG
GGCATTTGCCCACCGGTGGAGTAGCAACAGTGAAGATACGTCGGCCTCTT
CGTTAGATTAAAGGTGCACACACGGTCCTGCACTTGAAGCAGCGCCAGCC
CCTTTCGTGTAGATGCCGACAAGCACCAAAGAGTAGAATAGCACATGGTA
TCAAATGAAGCTAACACAACAAACAAGCTCTCCCTCTAGTTTGCAGCAAT
CAATCACGCATCACACAAGGGTCGCCTTCGACCGCTCCCATTCATCCACC
ACACCCCACAAGCTTTTCAACGAGATCAAAAGCTCGACGCTCTCCGATGA
CAGGCGGTTGCGCGTTTGGGTGACAAAATTGCTCTTGGATATTGTCGCAG
GTATACCTGTCCTGCCGTTACGTGCGGAGACATCACCCACTGCGCTTAAT
TTCTACAAACCAACGGACAAACAATATAAACACTGGCCACATCGTCTCAA
CATCACACCAAAAAAACAGTGCCGCAACAACACGCGAAAGGCGCTCCTAT
CAATCAAAGCTTGGCCTACCTGGAGCCTAGAGCGGCGTCCAAACAAAAGT
ATCTTGCATCTGGCACAGCACATCTTCTGATTCTCATCTGATATGATATC
ATATGTGGTATGATACGTGCATGAGATACAGCAGGCCTCGACGTTTCGCC
AAATTAGAGGCCCGCTGTGTTGATGAGAAGTTCACCCAAACGGAGCATCG
TATTTACCACGTAGTTGTATTTCATATTTTACATACTATATATATCGGCA
ATATATTGGCATCCGAGCGCAGCGAGGCGGCGGAGCCACGTTTTTTGCGA
CAGCAAAAAAAGTGGCGGAGCCACCAACGGCCCCCCGGCTGGTGAGGGGT
CCCGCCGAGGCGCCGCCGGAGTCAAAATGTTTTACGCTATTTGGCATAAT
TTCCCTTCAATATCGGGCAACAATTATTGACCACCGAGAACGGGGTTATG
TGTACAGCATCATCGGAATATTTAGTTATTAATTACTCCGGAGTATAGGT
GAGGTAGGATTGATGAAAAAAAAAAAAGATGTTGGGGTACTTCATACAAT
GCCCCGACAGACGATGAAATGCTAGCTGTGCCGCGTGTTGCCGTTGACGA
AACCACCAACAGTAAGGGTAACAGTGTAGATACGTCGGTCTCTTCGTTAG
ATATTAAACGTACGCTCATCTACTACACGGCCCCGCACTTGCAGCAACAT
CAGCCCCTCGCAGTAGATGCCAACAAGCACAAAAAAAGAGCAACACACAC
GGTAACATATGAAGCCAACACGACAAACAAACTCCCCCGAGCAGCATTGA
ACCACACACATCCACACAAAACAAAGCCACCAACAACAAACAGTGACAAG
CACCAAAGAGTGAGCAACACATGGTATCAAATGAAGGTAACACAACAAAA
AAACTCTCTCCCTGGTTTACAGCAATCAATCACGCATCACACAACAAGGG
TCTCGCCTTCGACCGCTGCCATTCATCCACCACACCACACAAAGTTTTTC
AACGAGACTAGAAGCTCGACGTTCTCCGATGACAGGTGTTTGCGCATTTG
GGTGACAAAATTGCTCTTAGATATTGCCGCAGGTACACCTGTCCTGCCGT
TAAGTGCGGAGACATAACCCGCTGCGCTTAATTAAGGCCACCCTGGGTTC
AGTACAAAAATAATGGGGAAGGCTCCGGTTTCATGGGTAGGGGTTGCTCT
ACCAAGAATTAAATTATTTGGGCGAAAAGGGACAAAAACACAAAACTTAC
TACCGTAGAGTTTTACTCCAACAGATGAAAAAGTACGAGGAGGCGTGCGG
CGCTTTTCGACGAAAAAACATACCACAGGACGACCGACTACTCTGTAGAC
AGCAGTATAATGCTGTAGGTGCAACAGGTACAGCAGCAGTTTATCCACTT
CCTGTGATAAATAAAAGCCTCGTATGAGGAGAAGTGAGGAAGCTCGGTCT
GGTCTATGCGGAGCTTGGCATCTCATGCTGCTTCTCTGTACGTCGCTTTG
TCACGGTGGTAAACGATTGATTGCAGATTTATCCACCTGCATGCAAGGAT
ATATTTTGATATTTATATGCTGCAGCAGCAGCAGAGCCGAAGGCAGAAAA
GTACAGGTAATTTTTTACCACGACGGGGGACATCAATCAATCTCGTTCTT
CGCCCGTAGAACGAGACCGGCCGCTCTTTACTGCTCACTGCTGCTGATGC
TTCTGGTGTCAGTTATTCGTACAATCAATGCTGCTTCCGTGTTGTTGTTG
TGAAGTACAGCAGCTGCTAGCAGCAGCAACAACAACAGCACTCACACTTC
ACACACCACCATCGACTTCTCTGTGTCTGTTGGAATGGTTTGGGTTGGGA
TGGTCCCGGTTTGCACTACCAATGGCGGGGTCTGATTGGCTTGCACTACC
ATAAATTGGTTCCAATGGAGCGCTGTGATTGGCTTACACTACCATAATTA
AACCCTACCCAAATAGGTCAAGCCATGGGGAAGACGCCGTGCCGGTATCC
CGGGGTTACGTTGTCGCATTTTTGCTCCAACGCGGTATCATTTTTTCTCT
CAACTTCGAGATAAAAAGTATTTGGCGTGCCCCCCCTGACTGCTGTATAC
TCCACATCCCATCCCATCCCCTCCCCTGTTTGCGTAAGGAGACAAAAAAC
CTCCGGATGTTTTTGCAAGCACCTCTCTCTCTTGGCTTGTCATCCTGAGT
GGATCAACAATGTGCGCTATGCCAGTTTAGGCCTTGGAGCGCGAGATCGA
GACAATCGAAATTATCGTTTTGAGCATCATCTCCCCGGGTAGAAATTGGT
GAAAAATCCCAGAAATCTGTGCTTCAGTTCACTACAGCGCAATATCATCA
CAAGAAGGAGCACTGACTGCTCGAAAGTACCACAGCCCACAGATAGATGT
GGTGGACGAGAGGAGTCCCGTGCCTTGACAGCAAGAAGCAACAACAGGCA
GCCAGAAACGATTCTAGAGGTACAGTTTGTACCGGCCCACTCATAAGAAA
CACCTATTTTGAGCGTGGCTCGAAACCTTATATCTTACCCTACCCACCAA
GCACACTGTAGGCTGTTCCTTAGCCTCGGAGTATATGGGATTTGGTAGCG
CCTGCCGCTGAGCCCAATTTCTGGGGGCGATTTTCTATTTTTTTGAGAAT
CTGAGGCTGGATTTCTTCTTATTATGAAGATGTTCCCCATGAGTGGGCCG
GTACTATTACTGTATTCTTCGGAGCTGCTTGTGATTTTGTATCTAGATGC
ATGCGGCGGCCCGAAATTTTTGCACCGCACTGGGAGATCTGTTGCTGGGT
GCGATGATGCGAAACTGCTGTTCTCCGCGTGCGTGTGCATCCCCGATTAA
CACACGGATTCGACGCGAATGTTGCTGGCTTACCGAGCTAGGACAAAAGC
AATAAAAACATGCGGAGGTTTTTGAAAGTGCGGAGATTAAAAATTCCACC
TACCGCGCAAAATGCTCCTCAAAAAGATGATTTCCTGCTGATTGTTTTGT
CCCCGGAAAGAAAGCTGCATTTATGCAAATCCCCTTGTCTATGTTCCAGT
GACAGTTTTTTTAGCTAAACGCCGTTCGTTTCCAAACCCTTATTTCTTAT
CCCTTCTTTTTGTACTGAACCCAGCATGGCCTTAATTTCTACAAACCAAC
GGACAAACAATATAAACACTGGACACACCGTCTCAACTTCACACCAAAAA
AACAGTGCCGCAACAACACGCGAAAGGCGCTCCTATCTTTCAAAGCTTGG
CCTACCTGGAGCCTAGAGTGGCGTCCAAACAAAAATATCTTGCATCTGGC
ACAGCACATCTTCTGATTCTCATCTGATATGATATCATATGTGGTATGAT
GCGTGCATGAGAAACAGCAGGCCTCGTCGTTTCGCCAAATTAGAGGCCCG
CTGTGTTGATGAGAAGTTCACCCAAATGGACACAACATGAGTCGCATCGT
ATTTACCACGTAGTTGTATTTCATATTTTACATTCTACGCGTCCTCCCCG
GTGTCCACAGGGAGCTGGAAACAATGCCGCTACTTCTGTAAGAGTAGGCC
AAAATAGCTGGAAATAACCAGCTGGAAATATCCGTATATATCGGCACTCA
TATATCGGCGTACGGCCGATACATCGGCTTCGCCAATATATCGAACATAT
CGGACTGGCGCAAAATCGATAGATAGATAATATCGTATCGTGCGATATAT
CGGCCTTTATCGTATACGATACGCAACCCTAGAAATAACCCTATATATCG
GCACACATACATCAGCTTCGCCAATATGTCGAATATATCGGACTGGCGCA
TATCGATAGGTAGGTGATATCGTATCGTGCGATATATCGGCCTATATCGT
AAACGATACACAACCCTACCAATCAGCGACGCGAACGAGGCTCGAAAGTC
AAGATGTACTTTGGTGTACCGCTTAGCGGCGCGGAAACCAGGCCGTATAC
CCCTTTTTGGCGTTTGCACTTTTTTTTCTTCACCTTTCATATACCCGTAT
CTGACTTTCCCTGTCATTTGCAGGTATCGCGAGTGAATTAGGGATAAGGT
TTCGCGTTTGGTAATTCCTTTCTCTCGTCGACTTTTTTAAGTCGAACTTT
CAATTTTGAATGTGTGTATCATACTGGCGAAAAAATAAAAAAATCGAATT
GAAACAACTCGTTTGTTAACTGGTATTTTGTTTTGGGTAAGAAAATAAAA
TACGTTCGAGGTCTTCGAACTCCAGGCATCAAAATATACTCTAATTTTTA
CGTGTTGGGAGCACGGAAAATCGTCCATGCTCGAGGTAATACGGTTATTA
GAAGGCGCTGAGGAGAGATCGGAGTTGTTTTTAGTGTGAAGACAGCACAC
AACACACCCACACAGTTCGAAGCATATTTTTATGGTGGGGAGGGTACGGC
CGTCTCTGTTTCCGCGTCGACTGCGTGGTTAGCTCGAGTTGAAATTAGCT
TACAAGTTTTCTCAGTGATCGCAGCGAAATACTAATACAGGATCGCCTTC
TACCAGCATGTTTCGTGAGTATACAGAGTCCGACTTGAAAAAGTCAACAC
GAGGGAGGAGAGGGACTGCTGGTGAACGCTTCTCCTCGCGTTGCAAATAG
AATAAAGCATGGTAGAAAGAAAGGTGGAGAAAAAAACAAACTCCCATGTA
TCTCGTACGTTGACCTTCCTCCTGTCTGTCGCGACCCCGGCTGGTGCACA
CATATACATACCGAAAGTTGTAGGCTGGCGGTCCGGATAGATGGGATGAC
AACACACACGCTACATGGGCAGTGTCCTAGAAAAAATCCATTTTATTGGC
GTCGGGATTCGAGCCCACGACCTCCAGTAGTAGTTGTGAGAGGGTTTCGA
GATTTCACACCGGACCACCGAGGCTACCGGGTAATTGTAGAAGGTGTCAT
ACAGAATGCGTTGAACAATTTTTGTTGAAGTGCATGTGATGTTTTGAGTG
TGTTGTCATCAGAGCAATCACAGCTCTTTTTAGATGAAAGTGAGGAAATA
TATACCCGGTTTCGTCCAGTACTACCATACATTTGGGGTATCTGCATGAT
CCTCGCCCGTACTATAGAACCCGCCAGTTGAGATTGCAGGTGGCAACTCT
CTTCTTTTGCACCCAATGTTTGAGCCAATGCAGTGTAAGTATGCCATACA
AATCATACCGTCCATCGTACCCCTCCAGACTGCTGTTGTTGTCTTGCTCC
TATTGTTAAAATCCGGCACGCCCAATATTCGACAACCGTCATCATGGAAG
TCCTGTTTCTGGATTGCACTGATGTGCTACATGCATGAATGATGTCACTT
TGCTGTACTGCTGTTGTCTGCTGTGTGGCAGGTGGGAGCTAAAGGGTCAA
CAAGGGATAGTGCTGTGGCTGACGGGGCTCAGTGGATCGGGCAAGGTATG
ATATACTTCGAATGTAGTGCATGAATGAATCGTGTTGCCGTGATGACCTC
GATTGAGTCACAACTGTGAGCCCAAATGTATCTGTCGCAGGAGCCGTGCC
CTCGACGTGCGCCATGCGCCCTTACAATAACAAAAAGCGCCCCCCACACC
TTACAGCACCGCATCGAGCTGAATAGAGGTGCTAAAGGCGACAATCAAAG
AATCATTTCTCACGTGAAGGTGGCAGTTGTCTTCTGTGTTTTCGCCCTCC
TCGTGCTTTCCCACGCCAAGTTTTGGGTTTGCTACTACTGCTCTCTGTGT
GTTGTGAACGTCATCCATCGGGCGTGTCCCACCCTCGGCCGGCGTCGGCA
GAGCACGGTGGCGAACGCTTTGGATGTGAAGCTGACCGCGGAAGGCCGCC
ACAGCTACATCCTGGACGGCGACAACGTGCGCCACGGGCTCAACAGCGGG
CTGGGGTTTTCGGCCGAAGACAGGCGGGAGAACGTCCGAAGGGTCGCCGA
GGTGGCGCGCTTGATGGTGGATCTAGGCATAATCGTCCTCGTGCCAGTCA
TCAGGTATACTGCAGATCTACGTCAGACTCGCGGGGAGTGAGTGAAAGAC
TTGTGTGTTATATCTATACTCGATCAAACGTTTCTTTTTTGTAGCTGCTG
TTCAGCTCTCTTTTTCGGTCACGATCGATTTTGCTCCTTTTCAGCGGCCG
GGTAGAGAGACGGCTTTGCTAAAAATACTGGTACGTACAGAGTTTGCAAA
CCTGAATACTTGTATCATACTCGAAGTACAATTTTCCAAGGTTAGGTTCT
GTAGGGTACGTTAGGTTCTGTAGGGTATTGGATCTGTTACAGAACAGGAG
GGTAATCCCTGTAGGGTACGGGATGTGCTACAGAACTCACAGAAGTGTAG
GGTATTGTGGCATGACCGTCACAGAACTCACAGAAGTGTTGGGGTATTGT
ATACAGACCAAGAGGGTAATCTCTGTGGGGTACCGTGTGTGCTACAGAAC
TCACAGAAGTGTAGGGTATTGTGGTGCAACCGTCACAGAACTCACAGAAG
TGTAGGGTATTGCGGCACGACCGTCACAGAACCCACAGAAGTGTTAGGGT
ATTGTATACAGACCAAGAGGGTAATCTGTGGGGTACCGTGTGTGCTACAG
AACTCACAGAAGTGTAGGGTACTGTGGTGCAACCGTCACAGAACTCACAG
GGTAGGCTCTGTAGGGTATCTGTAGGGTAACTACAGACGGTCATTACCCT
CGGTACCCGCGCGAGTCTCTGTATTTGCACACTGCTGTTTGCCTTGGTTC
GACTCGGTTTCAAGGTACTAAACCAAGACTTGAAAAGATGAAGCGTGCTT
GCGTACGGCCCCTATGTATCCCAGTCCTCAACTTCCCAGGTGACAGCGGA
GGACTACTGCTAAAAAAAAAAACATGGAACATAAAAAAAAAGCATTTCAC
GTTTAGACTTTGTTACGTTTTCATCTACCCTCTCCACTTCCCAGAGGGGG
AAAAACCTGCACGACGAAAAAAAGATCAAGACTGAAAACTTCACGTTGCT
AGGAACCTGAGTGCAAAGGATTAGGATTTCGTGGTGCGCCCCCACGACTA
CTCCTCGCCAGCAGGCAAGGGGCAAACTCCGTTCCCATCCGACTTTTTCC
CAACACAACAGCAGTAGCGAGAAGCAAAGAGGGGTCTCTCCTGAACACCC
CCCCCCGACAGTCAGTCTACACGCCAATGTCGTTCGCGGTGTTGTTCACC
ACGTCCAAGGCGGCCTCAGCGGCGTTCAGGTCAGCGTCCCTCGCGCCGGT
GAACTTTGCCGGCAGACACTTGCGGATGTCCTTATCGGCGATCATGGGAG
TGTCCTTCAACGCGGGGATGTGCTTGTAGTTGACCTTGAGGAACATCAGC
ATCTCCACCCAGTAGGTGTCGATGCGGCTCCTGTTGGGCACGAGTAGGTT
ACCGCAAGCACTGAAGTCGCGCTCAACCTGCGCCGCACCGGCCTGATTCC
CGAACACCTGCTGCGCCACGGGTGCGAGGTAGGGGAACATCTTCCGGCCG
GTCTCCCGCCACCAAGGAAGTATGTCCCGAGTGTCCAACTGCAAAAAGAA
ACATGAGGCATAGGGCAACGAAAATAAAAATACAAATACAAATAGATTAA
CGTTTTATACCAAAATGAAAATGCTGCGCACAGAAAGTAGAATGATGGCA
TACGAGGATACGAGGCAAAACAAAACAGATCTGCACCGACAAGGTAACAC
ATCAACAGACAAAAACAACAATCAATGTCCTCACTGTCGACGCCCTCCCC
GTCTTCAGTGCTGCGGCGGGCCCGCCTCGCCCGTACGATGCAAACCTAGG
CTCCTTGGCGCGAGGGGTGAAGTCCATCATGCGGGGGCGCTTGGAAGACG
ATTGACCGCCGCTGCCGCTTGATGCAGCGCGCGAGTTTGCCTTGAGCGCG
GCCTTCACAGCCCAAGCTTTGATCTCCGCCCAGCGCCTGTTGTACTTTGC
TTCCGCGTCTGTCTCGGTCGTAGGAGCCAAGTGCTTCTTACTGGCGGGGA
GGTGCTGCTCGTCGGCCAACGTGAGTCCGAGGTCCATCAAGTAGCCTTTG
TTGTTGTATGACGGGGTGAGAAGCACGGCGGCGTCGCGGAAGGGGGAAGG
GTCAGGGGCTTCGTCGTCCCAAACCTTGGAGTACATCCTCTGAACAAGGC
CTTTTCTCATTTCTTCCCGACACTTCACGGTGGCAGGGCGCAAGCTCTCC
GGTTCCACCATCGAACGCGGCAAGGGCGGTTTGCCTCTCTGCCCCTCGTG
CGCCTGTTCGGCCTGCTCCGCTTCCGGGGAATTCGGCGCCGGGGGGATGT
CGAACACCCGGAGCGCCTTCGGGGTCGAGCACGCTCGACTTGAGGTGTGC
AAACGCCATGTGAATCTCTGCCGTCATGGGCACGGCGCCGTACTGCCCAT
CCCGCGTGATGGCGGCGAGAGGCTGAAGTAGCGAGTAGAGCTGGAGGATG
TCGTCCTTGTTGTTGTCCTTGTCGAGTGGAAACTCCTCGCCATCGTCGGC
GTAGACCCTCCTGGAGCACGTGCCACAGACGGATGATGCGCTCCATGACG
CGAACGAGACTCAGCCACCGCTGGGGCGCGTGCTTCGAGATTTTGAAGAC
CTCGTTCAGCATGTCCAGCTGGGCCTCCTCGAACTTCTGCTTGAACGTTG
GGGACTGGTTGACCTTGGCCGCGGCCTTGATGATGAGCTGTACCACCTTG
CGCGCCTCCGGGTTCTTGGACTTCCGGGGGTCGGCTGAAGTGCCGAAGGC
GTGCTCGGCAGCCTTGTCGGCCAGGTGGCAGCTGCACCAATCCCACCAGA
TCTGGTGCAGCTCCAGAAGGAAATTGACGCACATGGCCCTGACGTCGGGG
CCAGCGTCCGTGGTGCCACCAGCGACGTCCTCCAGGCCGATGCCAAACTC
TGCCAGCACCGCCTTGAAGATGGCGAAGAGGACTTCGCTGGCCTTTGCCG
TCCCCTGCGCTTCGGCCGAAGGGGCGTAGTGCTTGACCTGTACCATACAT
GCGGCGGGCGGGAAGGGGGCGGGGGCAGGCAACATTTGCACGTGAGCTTT
CACATTTCTACGTGAACAATGATACCGCGCGATCCCACCGGTCCGAAGAA
AACATGGGAATTAACCTGCACAAAACACAGCAGTCTGGAGCTCACCAAAG
CTGAGAAAGGCGGTATTGCGTGTACTTTCTGAAGGAGGAAAGTACCGATA
GTCTACAATGAATCTTAGCGTTTTATTTGTATAACGCACGTGGGCAGCGC
CGTTCCGCCCGTGAACAACAAGCACGACTTGTCCAATCGGTAAGGATCAA
CCACAGTTTCGTGACTTACAGCAAGGAGCGCGTGGCGCAGGGTGAAGTTG
CTGTCCACGTGGAAAGCGTGCACATCAATGAACTTTCGCCCGGAGCGCGT
GCAGGTCCACAGGTCAACCCCGTAGTGAACGATAGGTAGCGGTGCCTTCT
CGATCTCCTCTCTCATGTTCCCCACCACTGCCTGCATGGCCGGTCGGAGG
CAAACACCGATGGCGGCAGTTAACATTTATTTGTTGCGTGCGGGAAACAG
ACAACACGGCAGTGGCGGTTGAATCAAAATCAACGGTTTCCGTGCGTGAT
GTGAGATGTGTAGCAAACAGCAGCAGTAGAGCAGGGCACGGTACGTTCGG
CGGTATACTGCTTTGATTCATATTTAATATTTCGGCACATTTCATCACCC
ATCAATCGCATCATGTGTTTTTGTTTTTGTTTTTCGGTATATCTCGAGAT
GAGCCGAAACGGGCATGCACACATATCGCACATGCACACATTTGACGTTC
GCACAGACATACCGCACAGGAGCAAAAAACAAACGAACGCGGTTTGCGTT
CAGGGAGCATCAGCATATCCCCTCCCCAGACCAAAAACAAAACTGACGAA
ATATAAATATACTAAACACTAAACACAAGCGCAGGGGATCTCTACACGGA
GATCACCTTGTTTATTTGGGAATATGAATATCAATATTGGACATCGCTCA
CGTTTCACGTTTCTTTTTCGGCGAAGACTGCGTGCTCGCAGTGAAACCTA
ATTTAAATTTTGTGAAACAGTAAAAGTTACTGCCTTCTGTAATCGGTATA
TTTCAGTATTCATTTTTTTTTGGCAGACTTAACAAATACGGGATGCGAAC
GAGGGGCGAAAACAAAATAACGGCCGACAGCTGACAGGGGAGAGCACCAC
CCACCTTTTTCGTCGCGACGAACATCTCCACCACGAGGTGCTTGACGCGC
TTGCTGGTAAGCGGCGGAAAAGGTGTGCACCCCCTTCGGCAGTGACTGTA
CCCATCAGCTCCTCCCACGACCCAGAAAAAGGAGAACGGCAGGAACTTGT
CCACCACCATTTTCGCAGCCAAGAGCTCACGAACTCTGGAAAGAAGCGCG
CACAAACACCGCCGCAACAACCGAAAGAATTTGAACATGTTTGATATTAG
CAAGTGTTTCCTTGTCATAGCCTACTTTCTACAGAGCACAACGGAAACGG
CGCTGGGTTAGAACCAAAAATAACAAATAAGAAGCACCACAAGTTCAGCA
CCGCGAAAGTAAACGCTAAACGCCTATTGTACTCGCACCTGTTTGTCCCA
AGACCGGAGTTGGCGCTCATCTTCAAGCTCGTAGCGATGCTGACAGTCTT
TGCGTGCTTCTTTCCCGCCTTCACGACTGCAGCTGTCCCCTGCATGTTGT
GCGCTGACTTGAGGTGGGTGTTGACGTTGCTGCGGTCCCCTTTTTTTACA
GGGGATCACCTTCGAGTTCCTCCTGCAGCGTGAGTTGGCCAGGCAGTAGT
ACTTGTGGTTGCCGCTTCCAGGTTCCGTGTGCGCCACATACACCCCGACC
GAGTACATGTAGGACTTCTCGCGCGAGCCCTCTCTCACATAGCCAGTGGG
CGGCGTGAACTTATAATTACCCGCGGTACGGGTAAACATTTGTGGAACTA
CCCTCCACATTTGTGATTACCCCGGGATGCTGACGTCAGTCCAACTTGAA
GAATACCCTCAAAAAACACCACACAACACACAGAGCAAGACCCTCCTTCA
GCAGAGAAACAGAACACATCTGGTACATACAGCAGAACAAACACACGTAC
GACGCGGTATCGGGTTCAGCGGGAGCATGAGCGATGCAGACCTCAGCGGT
AATACGCCAGAGCCCGCGGGCGATGTTCAGGTGGAGGCAGGTGCAGGCGC
AGGCCCAGGTGGCGCCGGCGAGGAACCTCAACAAGATTCAAACGAGGTAG
AGGTTGTTGAAGGAGGTAGCGGTACCGGTGTACCCGTCATCACACCGGCG
CCCGTCTACGACAAGAAGGGGGAGGTAGTGGAGGTGACCCAGGATATCGT
CGACGCGGTGGATAAGTTACACCGCGTCGACGATATCCTGGGTCACCTCC
ACTACCTCCCCTTCTTGTCGTAGACGGGCGCCGGTGTGATGACGGGTACA
CCGGTACCGCTACCTCCTTCAACAACCTCTACCTCGTTTGAATCTTGTTG
AGGTTCCTCGCCGGCGCCACCTGGGCCTGCGCCTGCACCTGCCTCCACCT
GAACATCGCCCGCGGGCTCTGGCGTATTACCGCTGAGGTCTGCATCGCTC
ATGCTCCCGCTGAACCCGATACCGCGTGTCGTACGGTGTGTTTGTTCTGC
TGTATGTACCAGATGTGTTCTGTTTCTCTGCTGAAGGAGGGTCTTGCTCT
GTGTGTTGTGTGGTGTTTTTTGAGGGTATTCTTCAAGTTGGACTGACGTC
AGCATCCCGGGGTAATCACAAATGTGGAGGGTAGTTCCACAAATGTTTAC
CCGTACCGCGGGTAATTGTGCCGCCGGCATACAGAACAGGAGGGTAATCT
CTGTGGGGTACGGGATGTGCTACAGAACTCACAGAAGTGTAGGGTATTGT
GGCATGACCGTCACAGAACTCACAGAAGTGCTGGGGTATTGTATACAGAC
CAAGAGGGTAATCTCTGTGGGGTACCGTGTGTGCTACATAACTCACAGAA
GTGTAGGGTATTGTGGTGCAACCGTCACAGAACTCACAGAAGTGTAGGGT
ATTGTGGCGCTACGGGCACAGAACTCACAGAATTGTTCTGTAGGGTAAAA
CAGAGGGTAATTACCCCCGGTATAGATCTGTGGGTACCCTACAGAACCTA
ACCTTGCAATTTTCTGTCACTATGCGTATTTGTATCATAGAACAACCGCA
GAGGGTACCACCGAGGACGTACGAACAGCAGCAGCGGAGCATGAACATGT
GCAGCACTTCCATCGCGAAGCATGAACACATGCCAGCAAGGTCTGCCCGT
GGTCGACCGGGCAGCTATTCGGTGCAGCAGTATTGCCTTTCGATATGTGT
GTGGCCGGTGAGCAAGGCGGGTGAAGTCACGTGTCATCGAGCGCCGTGAT
TGTGCGCCAGGGGTTTCAATTTTTCACGTTTGAAGTAGCAGGACATCCAG
AGGTTATAGACCACGGGGTGGAAAACCTGTTTGAGTTATATCAACGTTGC
CCCATTTTGGATGAAATTTGACCTCTTTTCGACTGAGAGGGTGAAAACAA
GCCTACCGTAAGTTGCGGTGTCTACACAGAAGTCCTTATGCTCCGATTGT
CTTTGCCGGGGGGGGGGGTTGTTTTTTACACGTAATTTTCGATAATTCTG
TGACACGAGCAGCCCTTACCGCCAAGACCGGGACAAGGCGCGAGCCAGGT
TCAACAGCGGAGAGTTTGTCGAAGTGCACGTGTCGACTTCGCTCAAGACG
TGCGAAGAACGAGACCCGAAATACCTATACAAGAAGGTATGGATATGCTG
CTGGACGTGTTTATACAAAAAGTGTTTGTGTTGTTTCCCGTCTACTCTGG
GCGCCAGCAGCGAACAACCCGCGGTCTATGCGGGGGGCGCGTCAGCTGGG
ATCTCACAAGAGTGCGGTCAAACACAATTTTTTTTTTTTTTTATCCGCTC
TCCTTCTGCGGTACCTACCATAAGTTTACAGTATCGCGAGTAAAGCATTT
ATTCTCCACCGCTAGCTAGGCATGATGTGAAGAAAAAAAAAAAGACAGCT
CGTATGACGTACTCGTAGCCGAGTTCGAACTTGCGGTATGTCAGAAGGTC
GTCGAGGTCGGTCACTACTGCGTTGTTTGAAGTACTTCGTATGTATTATG
GAGAATCATATGCATTTTGAGCAAGTTTCCAAAAAAATCTCCATTGTGTT
GCTCCTATTTTTGGTAACGTTTCTCGTGCCTGAACCACAAGCGAAATATG
TTTTCGGTAAACAACGGGCGCGGCGTTGAACATCTCTGTTAGTCTGGATT
CGAGAGCCAGATCAATCCGCGAACTGTCAGTGAAAGGCGTAATGCCATAA
ACCATCTCGCTGCAGTGCATAACAGTAGCTTCTACCCTCGCAGTTTCTTT
CCCGTGCTGAATGTAGCTCTGGTCCCGAGTCGCACAAGATGGCTCATCGT
CTCAAAGAGACCCCCCAGGGACCTTGTTGGGCGTGTTTGCATGCTTCATA
TTGTCTCCACTTTGTCGTGTTCACTCCAAAGTAGCGTATCATACGTAGCT
GTTTTTAGTTGTTTTCGTGTTTTTGTACACACCACGTGTATTTCCTTTTC
GTGGGACAATGTTTTCATGTTTTGCTCGTCGTTTATTTGTTATTCATCTC
TTTTTTTTGTCTCGTGTGAACGGTGCACAGGCGAGGGCGGGCGAGATCAC
CAACCTGACCGGCGTCGCCGCTGACGCTCCGTACGAGGCACCCCAGAACC
CCGAAATTCTGCTGCCGACGGAAGACTGTGCGGTCGATGTTTGCGCCGAC
AAGCTTCTGTCGTACTTGAGAGAGAGAGGCTACCTGCAGCAGCCGAGTAT
TCCTTCAAAAACGACCGATACATAGTTTCATGAGATGAGGCACTAAGGTG
GCCGCGGCGTCCGCGGTGAAGACCTACGACGGCTGTACAAGTTTACCGCT
GGGAGAGCGGGCCATCTGCAGCCGGCCAAGAGGCTATAAAGCATTCCGCG
ACCCATTGGACCTCAGGCGACCGGTGTCAGCGTTGTAGGGTTATAGGGTG
AAATGAGTGGTCATAAGGGTATGATAGGTTGCCTTCGTGAGGTGGCCAAC
GTCGGCGCAACCGAAACATTTAAACAGCACAAGGTACTCTGGTTGTGACA
CGTTCCCGCCACAAGGTACCTATGACAGGTGCTTGCAACGTATCCGACAC
AACGTCTCGTCCGTGAATAGAACCCCCAAAAATGGAAAAAGAGTGAAAAG
AGAACAGTGTAACCTTTTTTTTTATGGTCTCGCGGCAATACCCTCTCGCA
CCTCGCACGAATAGTTCACTCACGAGACGGGAATTGAACATGCAGCGCTT
GCTGTGGCCGCAGAGCACATACCTGCCTCCCACAGAGAGAGATAGCAAGG
TGCCCGCAGTTTTCTGATTGGCCAACATTTTTGAAAGGATATTTCTGATT
GGCCAAACATTCTTGGTCGACATGTGACGTTATCCACGGTCAGACTGAAA
TATTTCGATTTTTCTCGAACAAAGTGACGCCGCCGTGGATGACGTCACCG
GTCGACCAGGGATTTTTG
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Coding sequence (CDS) from alignment at P-littoralis_Contig168:435454..453421-

>mRNA_P-littoralis_Contig168.78.4 ID=mRNA_P-littoralis_Contig168.78.4|Name=mRNA_P-littoralis_Contig168.78.4|organism=Pylaiella littoralis U1_48|type=CDS|length=666bp|location=Sequence derived from alignment at P-littoralis_Contig168:435454..453421- (Pylaiella littoralis U1_48)
ATGGCGAAAAAAGAAGCCTCAGCTACTGCAGTGCATGAAGATGTGGTGTG
GCACAATGCCCAAGTTGCCCGAGAACAAAGGTGGGAGCTAAAGGGTCAAC
AAGGGATAGTGCTGTGGCTGACGGGGCTCAGTGGATCGGGCAAGAGCACG
GTGGCGAACGCTTTGGATGTGAAGCTGACCGCGGAAGGCCGCCACAGCTA
CATCCTGGACGGCGACAACGTGCGCCACGGGCTCAACAGCGGGCTGGGGT
TTTCGGCCGAAGACAGGCGGGAGAACGTCCGAAGGGTCGCCGAGGTGGCG
CGCTTGATGGTGGATCTAGGCATAATCGTCCTCGTGCCAGTCATCAGCCC
TTACCGCCAAGACCGGGACAAGGCGCGAGCCAGGTTCAACAGCGGAGAGT
TTGTCGAAGTGCACGTGTCGACTTCGCTCAAGACGTGCGAAGAACGAGAC
CCGAAATACCTATACAAGAAGGCGAGGGCGGGCGAGATCACCAACCTGAC
CGGCGTCGCCGCTGACGCTCCGTACGAGGCACCCCAGAACCCCGAAATTC
TGCTGCCGACGGAAGACTGTGCGGTCGATGTTTGCGCCGACAAGCTTCTG
TCGTACTTGAGAGAGAGAGGCTACCTGCAGCAGCCGAGTATTCCTTCAAA
AACGACCGATACATAG
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