mRNA_P-littoralis_Contig20.179.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig20.179.1
Unique NamemRNA_P-littoralis_Contig20.179.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A6H5L687_9PHAE (Peptidylprolyl isomerase n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5L687_9PHAE)

HSP 1 Score: 325 bits (834), Expect = 1.100e-101
Identity = 181/246 (73.58%), Postives = 195/246 (79.27%), Query Frame = 2 
Query:   53 MRAAAAAYALFWVPTSLGFVSPSISSSSVQGTSRCSSRQPQQQLQARPTASPPNDDAVMPHNHDGSECPSVSRRSLLERFSTTLAVASAAVVAGHPAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSSVF 790
            MR A+   AL  VP SL F SP  S S  Q             L ARPT+      A +  +HDG   P +SRRSL+ER S TLA ASAA++   P+PAAAKPERIKGGGP++TLEDGA Y+EMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGT+NGPGSVPPGLDEIVKGMRVGGRRK+TLPPQLAFGK GRPPFIP DATV MDVSLWSVKPAGTDPNVTLPGSSVF
Sbjct:    1 MRTASVLCALSGVPGSLAFFSPMASPSFTQPRGSGG-------LAARPTSIA----AAVVMSHDGEGLP-ISRRSLVERVSATLA-ASAALITAQPSPAAAKPERIKGGGPLVTLEDGASYREMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTVNGPGSVPPGLDEIVKGMRVGGRRKMTLPPQLAFGKEGRPPFIPPDATVDMDVSLWSVKPAGTDPNVTLPGSSVF 233
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A836CDH4_9STRA (Peptidylprolyl isomerase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CDH4_9STRA)

HSP 1 Score: 187 bits (476), Expect = 5.630e-51
Identity = 103/174 (59.20%), Postives = 122/174 (70.11%), Query Frame = 2 
Query:  248 SECPSVSRRSLLERFSTTLAVASAAVVAGHPAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVT 769
            S CP  +RR+ LE      A   AAV    P  A AK  R+K G P I L  G  YQ+MT+GDG  P++GDRVA+HYSLF KG +VESSR+S GLAARPLG+  GT  GPGSVP GL   ++GM+VGGRRK+T+PP+LAFG+ GR PFIP +  V  DVSLWSVKP GTDPN T
Sbjct:   28 SSCPQ-NRRAFLE------AGGFAAVAVLAPTCAGAKTTRVKDG-PKIALPSGVIYQDMTVGDGVIPREGDRVAIHYSLFCKGFQVESSRESSGLAARPLGFNYGTEAGPGSVPKGLQLGMEGMKVGGRRKITVPPELAFGEKGREPFIPPNTPVMFDVSLWSVKPKGTDPNFT 193
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A4D9CYF4_9STRA (Peptidylprolyl isomerase n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CYF4_9STRA)

HSP 1 Score: 187 bits (474), Expect = 1.590e-50
Identity = 100/176 (56.82%), Postives = 129/176 (73.30%), Query Frame = 2 
Query:  266 SRRSLLERFSTTL-AVASAAVVAGH----PAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPG 778
            SRRS++ +  T L A+ S A+ AG     P PAAAK  +     PV+ L  G +YQ+M+IG G +P+ GDRVAVHYSL+Y GLEVESSRDS GLAARP G+  G+ +G GS+  G+   ++GM++GGRRK+T+P +LAFGK G PPFIP DATV  DVS+WS+KPAG +PN+TLPG
Sbjct:   36 SRRSMINK--TLLGALGSVALTAGSVSTAPLPAAAKGVKRLKNAPVVKLPSGVEYQDMSIGSGATPQLGDRVAVHYSLYYNGLEVESSRDSSGLAARPYGFNWGSGSGSGSICKGVQLGMEGMQIGGRRKITVPSELAFGKKGLPPFIPGDATVLFDVSIWSIKPAGVNPNLTLPG 209
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A6T5QYZ8_HETAK (Peptidylprolyl isomerase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6T5QYZ8_HETAK)

HSP 1 Score: 181 bits (458), Expect = 1.650e-48
Identity = 92/173 (53.18%), Postives = 123/173 (71.10%), Query Frame = 2 
Query:  266 SRRSLLERFSTTLAVASAAVVAGHPAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSS 784
            SRR  ++    + ++  AA ++      A    R+K   P+ TLE+G +YQEM IGDGPSPK GDR A+HYS++Y G+EVESSRDS GLAA PLG+ +G      +VP  L + + GM+VGGRRK+T+P +LA+G+AG PPFIP +A V  D+SLWSVKPAG++PN+TLPG S
Sbjct:   28 SRREFVKELVESSSIVGAAALSFGSQAEAKGSRRVKNA-PIETLENGIKYQEMAIGDGPSPKKGDRCAIHYSIYYNGMEVESSRDSSGLAATPLGFNMGERFNR-NVPKSLQDAIYGMQVGGRRKVTIPGELAYGEAGYPPFIPKNAEVMFDISLWSVKPAGSNPNLTLPGQS 198
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A7S2V053_9STRA (Peptidylprolyl isomerase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V053_9STRA)

HSP 1 Score: 167 bits (423), Expect = 4.270e-43
Identity = 95/192 (49.48%), Postives = 118/192 (61.46%), Query Frame = 2 
Query:  209 PNDDAVMPHNHDGSECPSVSRRSLLERFSTTLAVASAAVVAGHPAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSS 784
            P+ D    H     +     RR  L     T  +A++ V+   P P  AKP R+K    V   E GAQ+Q+MTIGDGP PK GDRV VH+SLF KG+E+ES+RDSQGLAARP G+      G   +P  +   ++GMRVGGRRK+ LP   AFG+ G PP IP +  V  D+SLWSVKPAGT+PNVT  G S
Sbjct:   59 PSTDVSNSHASQTKQAGIFERRHFLSL--ATRGLAASVVLGMIPNPGEAKPMRVKDAPRVDIGEKGAQFQDMTIGDGPEPKAGDRVVVHFSLFCKGIEIESTRDSQGLAARPYGFDFLVDGGAPRLPGIVPSALQGMRVGGRRKIYLPADEAFGEKGYPPLIPPNTPVTYDISLWSVKPAGTNPNVTKFGQS 248
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: R7QK44_CHOCR (Peptidylprolyl isomerase n=1 Tax=Chondrus crispus TaxID=2769 RepID=R7QK44_CHOCR)

HSP 1 Score: 152 bits (385), Expect = 3.540e-39
Identity = 76/138 (55.07%), Postives = 103/138 (74.64%), Query Frame = 2 
Query:  380 GPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDP-NVTLPGSSVF 790
            GP +TL  G  Y++++IG G +P+ GD VA+HYSLF+K LEVESSR+SQGLAA P+G+T G  +GPGS+  G+ E + GM+VGG R +T+PP+LAFG+ GR P IP++ATV   VSL S K AGT+P +V  P + V+
Sbjct:   21 GPPVTLPSGITYRDISIGKGYTPRPGDSVAIHYSLFFKDLEVESSRESQGLAASPVGFTFGATSGPGSIMRGISEGMDGMKVGGLRLMTVPPELAFGQKGRMPLIPSNATVDFAVSLLSCKKAGTNPISVIDPKAQVY 158
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A7S0BNZ8_9RHOD (Peptidylprolyl isomerase n=2 Tax=Rhodosorus marinus TaxID=101924 RepID=A0A7S0BNZ8_9RHOD)

HSP 1 Score: 152 bits (384), Expect = 2.200e-38
Identity = 78/143 (54.55%), Postives = 104/143 (72.73%), Query Frame = 2 
Query:  362 ERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSSVF 790
            +R+K G PV T +DG  Y+E+  GDG SP  GD VA+HYSLF  G+EVE+SR+SQGLAARPL +T G   GPGS+  G+   + GM+VGG+R + LPP+LA+G+ GRPP IP ++ V+  VSL SVK  G++PNV+   SSV+
Sbjct:   67 KRLKMGPPVET-QDGVVYREIKTGDGYSPNQGDTVAIHYSLFCDGIEVETSRESQGLAARPLAFTWGVARGPGSILKGVPMGMDGMKVGGQRMIILPPELAYGEKGRPPLIPPNSNVEFAVSLLSVKRMGSNPNVSSSKSSVY 208
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A2V3IEK3_9FLOR (Peptidylprolyl isomerase n=1 Tax=Gracilariopsis chorda TaxID=448386 RepID=A0A2V3IEK3_9FLOR)

HSP 1 Score: 150 bits (379), Expect = 1.560e-37
Identity = 72/128 (56.25%), Postives = 96/128 (75.00%), Query Frame = 2 
Query:  380 GPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPN 763
            GP++ L  G  Y+++TIG G  P++GD VA+HYSLFYK LEVESSR+SQGLAA PLG+T G  +GPGS+  G+   ++GMRVGG R +T+PP+LA+G  G+ P IP ++TV   VSL S K AGT+P+
Sbjct:   85 GPLVELPSGVTYRDVTIGKGYEPRNGDTVAIHYSLFYKDLEVESSRESQGLAASPLGFTFGATSGPGSIMRGVTVGMEGMRVGGLRLITVPPELAYGAKGKAPLIPGNSTVDFAVSLLSCKRAGTNPS 212
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A0G4F8W6_VITBC (Peptidylprolyl isomerase n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4F8W6_VITBC)

HSP 1 Score: 147 bits (370), Expect = 2.750e-36
Identity = 86/177 (48.59%), Postives = 116/177 (65.54%), Query Frame = 2 
Query:  260 SVSRRSLLERFSTTLAVASAAVVAGHPAPAAAKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSSVF 790
            SV RRSLL R    L  A  A+    P PAAA  +R K     + L++G +YQ++ +GDG   + GD VA+HYSLF  G+EVES+RDS GLAARP G+T G       +P  L++ ++GM+VGGRRK+ LP   A+G+ GR   +P +  V+ DV++WSVK AGT+PN+TLPGS  F
Sbjct:   55 SVDRRSLLLRPLGALLAAGIAL----PLPAAAGVKRCKNCA-AVELDNGVRYQDVLLGDGNQLEVGDTVAIHYSLFCNGIEVESTRDSSGLAARPFGFTYGGDFNR-KIPKALEDALEGMKVGGRRKVVLPSAEAYGEKGRG-MVPPNTPVEFDVTVWSVKKAGTNPNLTLPGSQNF 224
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BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Match: A0A5J4YNQ5_PORPP (Peptidylprolyl isomerase n=1 Tax=Porphyridium purpureum TaxID=35688 RepID=A0A5J4YNQ5_PORPP)

HSP 1 Score: 145 bits (366), Expect = 3.070e-35
Identity = 71/131 (54.20%), Postives = 95/131 (72.52%), Query Frame = 2 
Query:  398 EDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLEVESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLPPQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSSVF 790
            E G +++E+T+G G  P+DGD+VA+H+SLFY  LEVESSR+SQGLAA P G+T G  +GPGS  PG++  + GM+VGG R + +P   AFGK G+ P IP DATV+  V L S K +GT+ NV+  GSS+F
Sbjct:  138 ESGVRFREITVGSGIEPRDGDQVAIHFSLFYNDLEVESSRESQGLAASPYGFTFGRSSGPGSTVPGINIGMAGMKVGGLRLIEIPANYAFGKRGKKPMIPPDATVEYAVQLLSCKRSGTNTNVSGIGSSMF 268
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig20.179.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5L687_9PHAE1.100e-10173.58Peptidylprolyl isomerase n=2 Tax=Ectocarpus TaxID=... [more]
A0A836CDH4_9STRA5.630e-5159.20Peptidylprolyl isomerase n=1 Tax=Tribonema minus T... [more]
A0A4D9CYF4_9STRA1.590e-5056.82Peptidylprolyl isomerase n=1 Tax=Nannochloropsis s... [more]
A0A6T5QYZ8_HETAK1.650e-4853.18Peptidylprolyl isomerase n=1 Tax=Heterosigma akash... [more]
A0A7S2V053_9STRA4.270e-4349.48Peptidylprolyl isomerase n=1 Tax=Fibrocapsa japoni... [more]
R7QK44_CHOCR3.540e-3955.07Peptidylprolyl isomerase n=1 Tax=Chondrus crispus ... [more]
A0A7S0BNZ8_9RHOD2.200e-3854.55Peptidylprolyl isomerase n=2 Tax=Rhodosorus marinu... [more]
A0A2V3IEK3_9FLOR1.560e-3756.25Peptidylprolyl isomerase n=1 Tax=Gracilariopsis ch... [more]
A0A0G4F8W6_VITBC2.750e-3648.59Peptidylprolyl isomerase n=1 Tax=Vitrella brassica... [more]
A0A5J4YNQ5_PORPP3.070e-3554.20Peptidylprolyl isomerase n=1 Tax=Porphyridium purp... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig20contigP-littoralis_Contig20:784940..800649 +
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.D8LJL8
PFAMsANF_receptor,FKBP_C,SBP_bac_3
Model size2769
Max annot lvl2759|Eukaryota
KEGG koko:K01802
Hectar predicted targeting categorychloroplast
GOsGO:0000413,GO:0003674,GO:0003755,GO:0003824,GO:0005488,GO:0005527,GO:0005528,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006457,GO:0006464,GO:0006807,GO:0008144,GO:0008150,GO:0008152,GO:0009507,GO:0009536,GO:0009579,GO:0009987,GO:0016853,GO:0016859,GO:0018193,GO:0018208,GO:0019538,GO:0031977,GO:0036211,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044424,GO:0044436,GO:0044444,GO:0044464,GO:0061077,GO:0071704,GO:0097159,GO:0140096,GO:1901363,GO:1901564
Exons7
Evalue3.12e-107
EggNOG OGsCOG0545@1|root,KOG0552@2759|Eukaryota
EC5.2.1.8
Descriptionhistone peptidyl-prolyl isomerization
Cds size741
COG categoryO
BRITEko00000,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig20.179.1prot_P-littoralis_Contig20.179.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig20 784992..797826 +


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

Feature NameUnique NameSpeciesTypePosition
1680789979.4373639-UTR-P-littoralis_Contig20:784939..7849911680789979.4373639-UTR-P-littoralis_Contig20:784939..784991Pylaiella littoralis U1_48UTRP-littoralis_Contig20 784940..784991 +
1680789979.5336025-UTR-P-littoralis_Contig20:797826..7994871680789979.5336025-UTR-P-littoralis_Contig20:797826..799487Pylaiella littoralis U1_48UTRP-littoralis_Contig20 797827..799487 +
1680789979.5510173-UTR-P-littoralis_Contig20:800334..8006491680789979.5510173-UTR-P-littoralis_Contig20:800334..800649Pylaiella littoralis U1_48UTRP-littoralis_Contig20 800335..800649 +


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

Feature NameUnique NameSpeciesTypePosition
1680789979.4526844-CDS-P-littoralis_Contig20:784991..7850811680789979.4526844-CDS-P-littoralis_Contig20:784991..785081Pylaiella littoralis U1_48CDSP-littoralis_Contig20 784992..785081 +
1680789979.4638853-CDS-P-littoralis_Contig20:792547..7926501680789979.4638853-CDS-P-littoralis_Contig20:792547..792650Pylaiella littoralis U1_48CDSP-littoralis_Contig20 792548..792650 +
1680789979.485709-CDS-P-littoralis_Contig20:793814..7940631680789979.485709-CDS-P-littoralis_Contig20:793814..794063Pylaiella littoralis U1_48CDSP-littoralis_Contig20 793815..794063 +
1680789979.4949043-CDS-P-littoralis_Contig20:795308..7954391680789979.4949043-CDS-P-littoralis_Contig20:795308..795439Pylaiella littoralis U1_48CDSP-littoralis_Contig20 795309..795439 +
1680789979.511321-CDS-P-littoralis_Contig20:795747..7958361680789979.511321-CDS-P-littoralis_Contig20:795747..795836Pylaiella littoralis U1_48CDSP-littoralis_Contig20 795748..795836 +
1680789979.5223255-CDS-P-littoralis_Contig20:797747..7978261680789979.5223255-CDS-P-littoralis_Contig20:797747..797826Pylaiella littoralis U1_48CDSP-littoralis_Contig20 797748..797826 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig20.179.1

>prot_P-littoralis_Contig20.179.1 ID=prot_P-littoralis_Contig20.179.1|Name=mRNA_P-littoralis_Contig20.179.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=247bp
MRAAAAAYALFWVPTSLGFVSPSISSSSVQGTSRCSSRQPQQQLQARPTA
SPPNDDAVMPHNHDGSECPSVSRRSLLERFSTTLAVASAAVVAGHPAPAA
AKPERIKGGGPVITLEDGAQYQEMTIGDGPSPKDGDRVAVHYSLFYKGLE
VESSRDSQGLAARPLGYTVGTINGPGSVPPGLDEIVKGMRVGGRRKLTLP
PQLAFGKAGRPPFIPADATVQMDVSLWSVKPAGTDPNVTLPGSSVF*
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mRNA from alignment at P-littoralis_Contig20:784940..800649+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig20.179.1 ID=mRNA_P-littoralis_Contig20.179.1|Name=mRNA_P-littoralis_Contig20.179.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=15710bp|location=Sequence derived from alignment at P-littoralis_Contig20:784940..800649+ (Pylaiella littoralis U1_48)
GCATGTCATATCCAGCAGCAAGGATCGCACCAAGAGAGAACAAGCGACGA
TTATGCGGGCAGCAGCGGCAGCATACGCCCTCTTCTGGGTCCCCACATCA
TTGGGCTTTGTTTCTCCCTCCATCTCTTCGAGCTCCGTCCAGGTCGGTGC
TGCAGTTCAAAGGCAACTTTTTGAGAAATCGAAAAAATCTGGTACCGGAA
AACTCGCCGCATTTGTTCTTTGAGTCGATGATCGATGATATCATGATACA
GTATTTCATCCACCACATTAGGTGATGTGGCAACAACCCAACAGCAGTGA
AAGTGTGCACATGTTGTGCACACAAACTCCGGTGTATTTCTGTGTACCCC
CCAACCCCCGCGCATACCCCCGCCTCTGCAGTCCTCAGTCGAGCTCCCTG
TTGGCTGGTGTACCTGCTGCACCACGCCATTGTACTGGTCGACTTCCTCA
CTTCCTCCCCATCTCCTCATATTATTCAGTACGAAGTGCTCTTCATACGT
ATACATGTAAAACTCGCCGCCTTCTGGGCAGTACGTGTCATCAGCAGTAG
CCTGGCCTGCAGCACCTCGTGCATACATATGATATGATATATTCTCTCGG
TACTTGGTAGACGATGTACAAGTATAATCCTTCGCACGACCTTTCGCATG
ATATGATAAACGAAGTATACAATTTACTGCTGTGAGTTGCCCCCGGAAGA
GATGGGATGGCAAGACGAGACACGCAAACCCACCGGGTGATGCAGAGAGG
AGCTCGGCAGTGCTTCCCGTGGGGCCGTGGGGCAATAATTTAGCACACCA
CGGAACCCCGTAGTTGTACTTGTACCCTTTGTGAGGAACAAGGTCTGCCG
CCCTTCCGCCAGCTTTGCCCTTTTTCATGACGATGGTTGAACAACGAGCC
GATTTGCACACTACCTGGTACAGCAGCAGCAGACATCTGCAACACAGCAG
TGCTGTACATATGTTTTATAGAAGAAACAGCAGTAGACGCATTTCCAGTT
TCGGTCAACAACTGTGAGGCGGTTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGCCTTCACGTTAAAAACCATTCCGATCTCTCCTCAGTACCTT
CTAATGTCCGTACTCCACCGATCAGGTACGATTTCCGTGGTCACAGGCTG
CTTGCCCCAGAAGAGGTATATAGTACTCGGGAGATCCCCTCAGTCCACCA
AATAAAAGGCACGACAAGGAGACTCCGGCAAAAACAAAAACGGACCCCGA
GAAATCACACAACGCTTTGTTACATGGTTGAGAATGCCGATCGATTTTCC
CCTGTCTCCATCCCATCGAGCATTTTACTACACTGCACATTTTCGATCCG
CTGTTCCTTTTGTCTTTACTTGCATCTTACGGTGATCGTTTTTCTCGACG
GGGCCATTTATTTTCGGTCTGCCAGCAAGAACCATCACAGCAGTAGTAGT
AGCAGCAGCGAAGGGTGCGTTTTCTCCTGTGGGAGACCAGTTTACGCTTC
AGCTTGAAATTCTCAAGTGAACGAGGCCACAGCAATGACAAAGCCATCCC
CCGTGAGCTGTGTGTATGGTCCTTCTCAAGTGATGATATTTTGAGCCCTC
GAAGCGTTTGTAGGCTCGCAACAAAGTCGGTTGTTGATGATGATGTATGC
CAAAACACACGCGAAAACATGTACTTCGAAGTATCAGGTATCACATCATA
CTTCGTACAAGAAAAACGAGCTGCCGATGCTCCGCGCAGCATAGAGGGGA
GGCCTATTGTTGTCTCTGGCACCGCTTTGCTTTGTCACCCACCGCTCTCG
AACGGATGCAGCCTCAGCAATGCCAAAGGCATCCGCTGTGAGCTGCGTGC
ATGGTTCTTGTCGCCTGGGCATCATCTAGGTTATAGGGCTAACGTCCGCA
AAAAACAGTTTGCTTGTCTCAAACCACATGCGGAAAGATTCAAAAGACCT
ACCGGCCGATGCTCCTGTACAGCAGAACAGCCACCTCTCTGGTCGTTACA
AAATGTGATTGCCACGAGCAAACTTGTTCGCGAGCCTACCGATGGCTGGC
GGGCCCAAATAATCATCTCACGAGAGGGATCACCACACAAAGCTCACGGC
AGATGCCCTTGTCACTGCTGCTGTGGCTGTATTCGTTCGAAAAAGTAAAC
CGGTGCCAAGGGCAAAGGACCTGCTGTGACACCCAGCACAAGCTTCTTGG
ACAGCAGCAAAGCAGCAGCAGTACCTCTCCTCCCCTGCTATTGTTGATCT
CCCTGCTTGGGTTGGGGCTTGTGCTTGATATGTACTCATATATATGTGGA
TGCGTGTGTGATGATGATGTTGGCAAGTCATCCACATCACTTATCATACC
ACACAAAGATAGAAGACCCAAGTCACCGACATCACTCATCATACCACAGA
TAAAGAGAGAAGACCCAAGCACAACATTCCCAATCGCAAAAGTTGAATCG
ATCGGTTGACCGCGTCGAATCCCTCAGATTTTCGACAGGGTTCTGATCGA
GAATGTCTCGTCGGAAATCTCAGATCGGAATTGGGTCATTTTCGCCTCCG
TAAGACATGTCTTTCTGCTCTGGATCTATGGATCGTTATTTTACCGGCAT
TTTCAACCTTATAAGGAACCGCTCGTGTGCGACAGCTCACAGCGACGTAT
AACCACAACAAAAAACGTACAAACACGCACACACACACTCAGCAGCAACA
ACCACAGCAATGCACACACAGCAACAACAACAACAACAACAACAACAACA
ACAGCAGCAGCAGCAGCAGCAGCCACAGCAGTTGTAGAAGCCGCAGCACA
TGAAGCACAAAACAGAGGAACTCCGGACGCCGCTCGTCCAGGACCTACAT
AGAGTACCGCAGATTTTTTTCCAAGACGAGTTCACATTTTCAACATGGGT
TCACACAACACAGCACACCATGATCGCGCCGTTTCCGTCCCTTCACTCAC
CACTTTGTGCGTTGCTTTCAGAGGCATCGCAGATTTTGTTTTGCTTTTCA
GGATGAATGGTGGAGAGTAGCGATGTTTCTTCGGAGACAGTTAAAATAAT
TCTCCGTCTGTTTGGGAATCGCGCGAAATCGAAACGGCTGTCTATTCGCC
GTTTTCCTTCGATAAGATTTTCGAGAAGTGTTGGAATAGGGGGCGGTGTT
ACCACAAAGCGCATACCATGGTATGAAATACCGGCAGCAGGATTTTATTT
TGTGAAGGTATGATATTCCCCAACATCGGCTGTACCCTCTGTGTCGGTTT
TCCTCTCTCTTTTTTACTTTCACTCTTGTGTTCTCTGTCACAATTTTTTT
TATAGACTAAACAGGCAAAATATTGAAGCACGAAAAGTTGAAGGAGCGGG
GTCACGTGGGAGAGAGCGAAAGAGGTGGTGGTGGTGGCAGGAAAAAGGAG
GAACAGCGTCATTAAAGCTGACAAAAAAGCGAGCTTTGTGACTGATGACG
ATGATGCTTAAAGAAATAACGTTTTTTTTGTTTTTGCGTCCCTCTGACGA
CAAATCCACCTGTTGTGTGATCGCTCATGGACGGACCGAAGTCAATCACG
CTTCCGAAATCGTGTTTTTCTTGTGTAGCCCCGCGACCACACGGGGGTAG
GGTAAAAGTCGTTGTCTCCCGAAACGGCATATTATCTTGTCCTACAGCCA
CGTACGGACGGCATACTACAAGAAAAATGCAGCCCATAGAAAGTAATTGT
CAAGGATTGTGAAATGATAACCATATGATCACAAAATTTGCTTCCAAAAT
GTGCTTAGTTGTTTCTAGAGAAGTGTAAATCCAGCTGGCTAGAGGGTCAG
ATGCTACCCATATGAATTTGCTGAGGTTTAGAGATTAAAATAAGTCGTTC
TTCCCCCATGCAGCAACAAATATATATTACCAAGAACCAAACTTCTCTAA
AAAGGACGTAATCATACCAGAAGCGACACCCAGAGAGTGTCAAGCATACT
GACGGTCGTCTGCGGTGACTCGTATTCATATGGTAGGCATCTGACGCTTT
TGGCAGTTACATTTTTCGCGTCTAACGCTCCTTTATATGCAAATATGAGC
GAATTTCGGTATTCATACAGTTAGCATCGAATCGAATCCATCTACTGCTG
TAGCCAGTTAATTTTCTTGTTTTGTCTTGATATTTGATATGCTGAATATT
TTTAAGGGAAGAAAATGTAGATCGTATTCGAATTTCGGAGGTGGCAGAGA
TCTGCGAAATCTTTTTCGAGACACTGGGAGCTTTGGGATATTTGGGAGAT
CCATAACATAACGTCAGCAGATCTGTTGAATGTGTTGGAACTGGAATAGT
TGCCGTTTCACCTGGCAACGTTTTGAAGGGTCTCCGCAAACGTACCTCGT
ACCGAGTAGGGGGGGCTGTTTCGGGGTACGCGACGTTCGGTACGGTACAC
GGAGTTCCTCTGGGGTTTGTATGAGATGCTAAGACGTTATTTTGTGTAGG
GTATGCGACCTAATGGGTTGGTGAGTGGCGGGGCTTCCTCCACCTTGGGG
CTCTCTTGCTTACTAGTCGTTTCGTGGAAGGAAACAAGCACTTGATATCT
CTACGATTCGGCGGCAGGGTGCTAACGTCTCGTCACCCGCCCTCAGAACA
AAATACATGGCGAGCCCGTATAACCGGTGAATTGCCAGTTGGGGCTGTCA
CGACGGATTAAGTTGCAGGTGGAAAGCCTGTATTAACGGTAGACTAAACT
AAAACAAAATGACGTCCGCACAGCCGAAATACTTTGGCTTCGAAGAAAAA
CGAACTGCTACTGTTGCACAGTGTAAAAGTGATCACGGCTGTTTTGTTTT
GTTTTTCGGGCATCCACCACGGACCTGATACTCACTGCTGTAGGGCGAGG
GAGAAGATGGGATGAGCGAGAGTAACACCATTTGCGTTGGCTTTTTTAGC
AGCAGCAAAGCTCACGTTTTTCACTGGAATCTCGCCCAAAACTGGAAGAT
ATTCCCCACCAACTGCACCGACACAGAAATAGGTCTATCCTGTGTCGGGA
CAGGTCGAGGTTCGGAGCAGTGCCGGGTCAAACGCGACGGGAAAGCCGTC
TTGGATCAACCTTCTCCCACGCAAAAGAGGCAGCATCGACTGTTCGTTGT
CTGATAGTTTTTGGATGGCTGATCACTCGTCTCCCGTCACGCTTGACACC
CACCGACCCCGAACCTTGGGCGTTCTCGATGGACAGCAGTAGACTCACCT
CTTTTAGGACACAGCTGCCAGGCTAGGGACGCAGCTGGCATGGAATCTCG
TCCGCTTTCCGGCGAGATATATGTGAAACCGTGACCTCGGCTGCTTGCGA
AACACACCCGAAAACTCATCAGAAAAACCGGCTAAAAGCACGCGCGGATC
GTTGCGCACGGGTTGAAGACTCTTTCCCGTCACGCTGGACACCCTCTGTC
CCAAACCTTGGGCATTTCCTGGTCGACGCTTCACTCGCCTCCCTAGACAT
TCGTCTGCTGTAGCAGGGAATGTCGTCCCTTGTGTGGCGAGTTATCAGTC
AACATGTGAACCTTTCTGCGATAGGAAAAAGTCTACCGGATACGCCTCGC
AGGGTTTGAGCGTCCCCGCAAAACGAGCCTCCCATGTCACACTCGTTTTC
GCTTTCGCGAAAAAAAAAAAAGGTGCGAAGCATTTTATATGTACGCCCCT
CTCGAAAAAGGCAGAGGTTAAGGGGTGGTGCCGTGTCAGAGCGGCGGGAA
GCAGGTTTCAAATCGACCCTCTCTCACACGAACGAGGTGAAGTCGACCTG
CTCCTTGCTTGAACTTCTGGTGTGACTGAGCAACTTGTATCCCGTCACGC
TTGACACCCACCGCCCGAACTCTTGACGATCCCGATGAACAGCAGTAGAT
CCATCTCTCAAGGGACGCACGCAGCAGTTGGGAGGGAATCTCGCCCGTTT
TCCGGCGAGATTTCCGTGAAACTGCAAACTTGGCTGCTTGCAACTCACCC
CAAAAACGGCTCAGAGCACGAGGGGATCGTCGTAGGCCCAAACGTTTTTT
TCCCATCCTGCTGGATACCCCACTGTCCCAAACCTTGGGCATTCGTAGTT
GACGCCAAGCCCATGTCTCTACCCATGCAGTTGGCAGGGAGTGAATGTCG
CCCCGTTTGTGGCGAGATATCAGTCATCATGTGGACTTGATCTGCTGAGC
AAAAGTCGACCGGACATGCCTGGCAGAACCGAAGCGTCCCCGCCAAAACA
AACGTTCCACGTCAACTGAGTTTTTCGTTTTCGCGAAAAAAAAAAACGGA
CCAAAACAGATATGCTGTATGTATGGTATTTTCCTAGGTTGGAAACGAAA
ACGCGCCTTCTCGTACAGCATTAAGGCGATCAAACGAAAATACGCCTCTT
TCGATTTTCTGCTCGCTGACCAGTCAGAGCCCAATTTCGTTTTGCGTTTT
GCGTATTGCGTTTTTGCGTTTTCGTCTTTTTTTTTTTTGTTCGAGCGTCC
AAGCCTGCCCTGAAATGTCGTACACGTACGACGTGGCATAAAAAAAGGAA
ACTTTAACTTTTCTCTGTTTCGACCGCCCCCGCCCTTCTCTTCAAGCATT
CGCCTACCAGTTTGCCCCCCCCCCATAACGATGATAAGCCCGGAGTCGTC
TTCGTCCCTGTCCAAATGCAACGAGTATTGTACACTCGCTAAAGTTAGAA
ATACGGCTGTGTAGTGGAACGAAGTCAAGGGGGGCGGTGCTTTTCGCCTT
TTTGTATCGTACCTCGCCGACAATCTGTGACTTGGGTGATTTTATCAGCG
TCTTTCCACATTCTCATTCAGACGAGACGAATACCGAAGCACCTCGAAAG
TATCATACCGCCGGTGTGGGTCTTCTTTTTTTTCATCGTTGATGTGTCGA
ATCTAGCATCATGTTCACACAAAAAATCTGCTTCGAAATTCTGCAGGGGT
GCTGTTGTTTGATATAATGCGTGAACACCTGTCTGTTAGTACTGCACCAT
CCAAAAAGAATGAAGACGATTTTCTTGGAACTTCTGCTGCTGTGTGCCTG
TGTTAGTCTACCCCTTAGGGTATGAGTTGGTCGCACCAGCGGGAGTCAAA
CACACAGGAACAGAGTCATCACATATTTTTTTTTTTCCTCCCCCTCTTGT
AATTGTGTGTGTGTGTTGTCATCCCTTTTATTGGACGCCACTCTGCACCT
TTCGGGTAGGTCAACGCTCCAACTGGGGTCACACAGGGGGAAGTCAACAC
AGGATTTTTTTTTTTCTCCACTTCCCTCTGCGGTGCTTGCCTTGTTTTGG
TTAAGCTTTTATCGCGAGAAAGGGGACAGCGATCCCTTTCCCTCGTCGAT
GGTACGATCGAAAAAATTTTACTCATGAATCAATCGCTTTCCACTTTCAC
GCGCATTGTGAGAAAAAAACCCAGATCGTGTTACTGCACTGGGATTCAAA
CTCACGCGTGAATGTCACAAGGTTACGTGGATTACCAACTGAACCACCGG
GGCGACCGGCTATTGTATGTACAGAAAAAAAAACAGCAAGTATTTGTGAG
TCGCTTCGTTCGTTCCTATTGAAATGCGTGGGACCTGGTACCAGACATTA
ATATATCGGTGCTCGCCAATCCGTCGATCGCGTTCGCTTGGCATGTGACA
TCAACCAGGGTACTTCTCGCTGCAGCAGCCGGCAGCCGCAGCAGCAACTA
CAAGCGCGCCCGACGGCTTCGCCTCCAAACGACGATGCTGTCATGCCCCA
CAACCACGACGGTGAGGTTCTGGTTGCTGTAAAACCAAACGACATTGCAA
CAGCTGTGCATGTTATTATCGTGCATGGGAGATGCAACAGCTCACAAGTA
AGTAACGATGAGGCTTGCTCTACATGTTGTGCCGATGCAGCAGCGCCATA
GCATTTGCTGCAGCGGCAGCCGTATGCATGTTGCTCTTCATGCGCGATGC
AACAGCTATATACCTTCCTAAACACCGTAGATGCGGTCGTCATGAATGTT
GTTGGGCATAATTTTATGTGCGACAGCTAGGAACAAATGAATTTGCGGTA
TGTTGTTGCTTCGCACAGATGAAATCCAACAACAGCTATTGTTGCTCTAC
TCGTATGATACGAAGTACGTTTGATGCTTGCCTCCATATATACATCAAAC
ATTTGTGAAGGTCGCTCGCGTCTCGTTGAGTCATGTTTTTTGGTTCTGTG
GAGATGGCCTTTCAAATTTCTTCCGGGTAGTGATCAAAATAGTTATCGTA
GGATCGCTCGTGTTCATACGTATTTTCCAGTTTTTTTTTTCTTCTGTGTT
TTAGGAGCAGCAGCAGTTTCATGCAGGTGTTGGTTTTCATAAAAGCACGG
CTCTTTTGTGGTGACGCGCAAGAAGATACTTTTTTTCAGCGGTTACACAA
TTTTTGGTTGGATTTGAAAAGTATCGTGTTTGTGTTTTACATTTTGTTAT
TTTCGTTTTACCAAGTGTGAGGTGCGAGTTCATCAAGTCAGAAGTCGACC
CGAGGCTGGAGGCGCGGACCTTTTGGACGAGGTGTTGGTTTTCATAAAAG
CACGGCTCTTTCGTGGTGACGTGCAAGAAGAGACTTTTTTTCAGCGGTTA
CACAATTTTTGGTTGTTTTGAAAAGTTTCATGTTTGTGTTTTACATTTTG
TTTTTTTTCGTTTTACCAAGTGTGAGGTGCGAGTTCATCAAGTCAGAAGT
CGACCCGAGGCTGGAGGCGTGGATCTTTTGGACGCTCTAGCGTCGACTTC
GCAATTGGTGGCAGTAGCGAAGCAAAACCTGACCTCAAACGACCCTGTAA
TACGCCAATACCCCCCCCCCCCCCTTCCCCTCTCTCTCTCCTTCTCTTGC
TGCTGAGAGAAAACAAACAATCGTTCAACTTTCCCCCTCCCACGCCCCCA
CCGCCTTTTACCCCGTCATGAACAGGCAGCGAATGTCCATCTGTTTCCCG
GCGATCGCTCTTGGAAAGGTTTTCCACAACTCTCGCCGTGGCTTCTGCTG
CCGTTGTCGCGGGGCACCCCGCCCCGGCCGCGGCCAAGCCCGAGCGCATC
AAGGGCGGGGGCCCCGTGATCACTCTCGAGGACGGCGCACAGTACCAGGA
GATGACCATCGGCGACGGCCCGTCGCCTAAAGACGGCGACAGGGTTGCCG
TACACTACTCGCTGTTTTACAAAGGTGACCGACGTGGTCGTGGTGATTTG
TTTCACATCTTTTTATCTCTGTACCGTATATACGACGTAACATCTGGACG
TTATGGATAAGGTTAGCCCCCCCCCCCCCTCTCTCCCACTCCACGACCAC
CTATGCCACCTGTAGTGTGGTCCATACATTTTCGAGAAAGCGGAGTAGGT
GCAACTCTGGTACGAGATGCGTGCTCTCTCTTAATACAAAGACGGACACT
CAATTATTGAGTTGTGTTGGGCATCTGAGAGACTATCCTACTCGCGGTAT
GTTCCTGCCGTCTCCACCACTCCCAAGGGCTGTTTTCGACCATCACCGTA
CGCCTCGGCGCCGAATCGCGAGTGTCCGTGCGTTCAAATACGCTCGGGAC
GCGTGTCCGCCGACTTTTGTTCGTTTCTACGGCGGCAGTCGAGAAAGCCG
CCAACAGCTACATCCCGCATCAGACAATACGTGCGTAGTTTTTTCGTCCT
GCCGAGTTCCATTCCTTCTGCTTACAGAGATAGTTCACCGTGTCTAGCTC
AAGTATGTATTCCTCGGCGGCAGCTAGCTATTCTATGCGGGGATAGCAGA
TGGATTCCTCTGTTCTTCCCGTGGTACTACGTTGTTAATACATCAATGTG
ATGCATGTATTCTTCGTAATCGAGAACCACAACAAAAAAAAGAAGGGGGT
CAGATGAGCCTGAGGCGACCCCCAGGCCATAATCAATATTTATATGAACA
CCAAGCTTCGGCGCTTGTCTCCAAGAAAGTACATGCGTGTGCGTTGTTAT
TTTATCAGCCTGGCCAGCACCTCGCCTTCCCGGCACCCACCCCCTTCATA
TGTATACAGGTCCCTGAAAGCTTCCACCCGTACAGCACTAGTACACTAAA
TTCAACACAGTAGTACCGAACCCCGCCTTCACTCGACAAAAGTGACATTA
GTCTTTGCGGCTGGCCGGCTAGCGTTCGTACCACTCGCCGAAAAAAACGA
TCAACACCCGGGGCACTCGGCCCTTGGCGCAATACCAAACAATAAATGCC
TCCCGAAGTCGGTGAAATCCCGGCGTGCTACGTGCCGTGTGGTACATATA
TGTAGCGACGACAAGGATATTAAGGTTTCGGATATCAGGCGGTCATGCAT
GATGAAACAGGTATCATGGTTTTGTCGCTGCTGCCATTCACGGAAATAAT
AACCCACGCCCGTTCTCCCGTCCTGCGCCCCCCCCCCCCGCGCGCGCTCG
TACCCCCCGCCGATTGAAGGCCTTGAAGTGGAGAGTTCAAGGGATAGTCA
GGGTTTGGCGGCCCGCCCCCTGGGCTACACGGTGGGAACGATTAACGGGC
CTGGTAGCGTTCCCCCCGGACTGGACGAGATCGTAAAGGGCATGCGAGTG
GTGAGAAGACAGAGATGGGTTCAATCGACTGGCTGTTCGCCAATGCGGTT
CAGTGATTTACACAACTTTTTATGCAAAGATATAAAGTATGCATTTATGT
TTTTAAATCGATCGGTCGTGGACACCGTTTTTGGCCGTTGTTGACGAGAA
AACCACGCGCAAGGCGAACATCTTATCATCCTCCCTCCGTCTTTACTGTC
ATCGTTTTCTCGAGAAAGGCAATCATTGATCCTTTGCTCCAGTCTTCTCA
CCCGACAATGGACCAGGACACACCGCACACATTTCTTCGCTTTTCGTGTT
TATTGCAGGGTGGGCGGCGCAAACTGACGCTTCCTCCGCAGCTCGCGTTC
GGGAAGGCTGGGAGACCACCTTTCATCCCAGCGGATGCTACAGTCCAGTG
AGATACCGAACAGTCAGGGTGTGCAGCGCGTCCGGCGTGGCGTCTTTGTT
TGTCAGCTTGCAAGTCTAGTTGTATCGCTGGTGTTTTGTTGCATGTAGAG
ACGCATACTTTGTGTTTCTCGCGTAACGCTGCATTGTACATAGCAGGCAC
GTCAAGAAAAATCAGCAAGTCCGACATGAAAAACCGCGACTACTCCTGTT
TGCGGGGCGATGACGTGCCGAGGGGGGGGGGTTGAGGTACGCACATTTCT
GGCTCGTGTATTACCTGCATGTTTTACCTGCATGTGCCATGATGCTTCGT
AGGTGTAGTGTTTGGGAAGACCAATTTCGCCTGAGGTTTCGATATGTTTT
GTTCCTCCTTCGAGGACCGTCAAAGTTGAGTGGATCTTTTCTAGGGTTTT
GGTCTTTCGCTCAGGTGAAAAGCCCCCAAAGACTCGAGCAGAAGACAGTT
TTGATATTTATCTCGAGCTTGTTTTTTTCGGAACATCACCATAATGGCCT
GGACGCCCCCGCATATCTTCCCGACATAACCACGTGATTGAAACACGTAG
ACTTTGTTTGATGCTCATCGCTGTCTTGGTTCTGTTCGCGTGAGGCATGA
CTGCGCAAGGATACTTGTTTTTTTCAACATCAACTGCACAACTACTTGTA
CAGCTACCAACCTCTTGTGAGCGGGTTGCTGGCTTGCTGTACACCCCAAC
CATGGGACAGGCATCGGCCACACACACATGCCTCAGCCTCCCCCGACGCA
ACACAGCCGGCCCTCCGAGGCTTTTTTTTCGTGGTATCAAGCAAGTGGTG
CGCGCATGGTGTTGCTGTGGCTGAACATTTTGTGTGTGCAAAGAGACACA
AATCTCAACACACATTAGCTGATCCCATTTCGTCGGGCAGACAGTATGTG
CGGTGGAGCGATACTTTAGTTTTGTACGTTGTGGGGGAAGTTCAGGCAAT
GTTTCGGACCTGAGTCAGATCTTCGAGACCTTAGGCTGTTTCTTAGGGTC
CATATTATTTTGATCTGGCGCTTTGACCCCCCTCCCCAAATCAAACTAGA
GAACCCCCCCCCCCACCCTCCCCCCCAGCAAACGGCCGTGATGGAAACAT
CTGCGACAGCACCAAGCAGAACTCGACCCCTGGGACACCGATGCCGATCA
AACCTGTTGGAGTATTGCTCCAATATTCTCAAGTTGGGCAAAGGAACTTT
GGTGGCAGTGGGTCTGGGCTTTAGCGATATTTTTGCGGCGGTGTGTGTTG
AGTAGGAAAAAAGGGATGAAACAAAATGTCAGACTTTTCACCGAATTTTC
CTACCTCAACCCACGCTGCCGCCGAGACCTCGCCACAGCTAAATCCCACA
CCCACCAAGTTTCCTGTGGCCAAGCTCAGAACACTGGAGCATACCCCCCA
ACAGCTGTGGTCTCGATCGGTGTCCCAGCGGTCGAGTTCTGCGCGGTGCT
GTCTCCTGCTGTGCTCAAGAAGTAGCTTTTTGAACCATTTGGGCTCTCTG
TTATTTGGAAGGGGGAGGGTACGTCAGGAAAAAAGAACACCAAGCGAAAA
AAAAGAGCGTAAGCAACGGTCTTATTCTAATTAAGTCTTCGCATTCACCC
TGGTCACTCGGGGGGGGGGGTCCGTGGCTGATGCCTTTGCTACACGGTTT
TTGAACGCACATTTATTCTGCTTTGCTGTGTTCGCCTCTCCTTCACGACT
ATTTTTGCTGCTAGAGCAAGATTTTTTTCCATGCAAAAGTACTTGGCATT
AATCAGTCTCACCCTCATCCTCCTCCTGCTCCGGCTGCCCCACCCGCGCA
CTCGCGCCTCACGCTCCCTTACGCGATACCGTCCGTTACATTTGCATGCC
CACCTCTCACTGCGTGCTCTCGTTTTTTTTGCTGCTCCTTGATCGCTTAT
CCCGGAAGGATGGACGTGAGCCTTTGGTCGGTGAAGCCTGCGGGGACAGA
TCCTAATGTCACTCTCCCGGGCTCGTCGGTGTTTTAAGGCCCCTTTGCTC
GAACGGCGAGTTTGCGTGCGCGCTGTGGGAGTTTAGTGTGGTTAGGCGTT
GGGCCACGTATGACATGACGTGTGTTTTGCAGAAGTGGACATATCATAGC
CGTTGCCTTTTTTGGTGGTGTTTGGACACTGGGACGGATATTGTGTCGCC
ACTCACCGGGCTATGAAAGTCGGAGTTTTCTTGTTTTTTTTTGTGAAGAT
GATCGGTTATCCTCTCTCGGTTTTGTGTGGTTGTATGCTGTTTTGTATGC
ACTCCATCGCCGTCGGATTACGTTCATCGCAGCGGTGCCTCTGGTTCCGG
TGGAACAAAATAAAAGATAAAAAGTGTTGCCTTGTCACGTGTTCCTTTGT
TCGTAGTCATTTCTTACTCGTCCATCTCTTTCTTTTTGTGACTCTCTCTT
CCTATCGTCTATTTTGGTGTGTCTGAGAGAGGGGGGAGAGGCAAAGGTGT
TTTTTTTAAATTGCGTTGTGCGATGGGTGTATACGAACTCTGAGTAAGTC
TAGATTGTTGTTTCGGCGGCATGACGCGCGCCCCTGCGAGCAATACGTAA
ACTCAAAGCTTTAAAATAAAGATAGTCCCGCGTCGCGATGCGATAGCTTG
TTGCACCGTAACTTGCGCAAACAATGTGTGTGTAGTGGCGAGCGTGCGCG
CTGGAGTGCTTGGTTCATTGGCGCAAGCCCATCTGCAGGGGAAAGTGGGT
GGAGTGTGCAAACGCTTGATTGACGGTCAGCGCATACCGGTGCATTTGTT
TTCAGTGTACAAGTCATACAACGCGCGTACCTCTCGTGCGGAAACGTTGG
CACCAAATGTATTTCTGTTCATTGTTGAAAGTGTCACACAAGTTTGACCA
AGTGCTACAATTTGTATTTTACACAACACAGCAGCAGTAGTATTTACCTC
CACTTTTTTTTCCACAGCCACTTCTACACTTCCTACTACCATTTCCTCGA
GAGAGAGAAACCCCCCAGCGGTACGTTGACGTTTGTTCGTCTCACCGGTC
TTCCAGCGCGCCCCCCCTCGCTCCATCGCTGGGGGAAAAAAGGGGACCGC
ATTTCAGTTTATAGGCTGTGGGGCTACCCCTGGGCGATTCTTTTTGCATT
ACAAAAAGAGAAACGGAAAACTGCGGGCACTTCTTTTGAATGGGTGTATC
AAACGCAGCTTGCGCGTGTTATGTAGGTCGGAGGGTTGATGAGGGCAGGT
TGTTGTTGTTGTTGTTGTTGTTGTTGATTCTCACATTAGCTCACTCTCGC
CGCAGTCGAGCCCGTGGTCGCAAACCAGGCACATATTGTGCTAAATTAGG
AGGAAAAACATAAAATAAAATAAATGGACTATGATCCACCCACATTCAAA
TCGGATATGGTACCGTTGGGGTACCATCTGTGGTGACCAAAGTACCAAAC
AAAATACAGAAAAAAAATAACAGGTTCGAAAGAAAAAACAAAAATTGGAA
ACAGTACGACAAACAATAGATAACCAAGACAAACCTCAACCATAATCATA
TATTACTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACA
GACCAAGGCAAAGGCAAACCAGGGCGATGGTCCAGTAACTATTTATATGA
TGGATACACGAGAGGAGGGGTACGGGGGGGCACAAGGGCAGCGGGGTAGT
GGGGTCGGAGTTGCACAGCACAAGAAGAAGCAGTCCAAAGCCAAGCTACG
GGGTGGCCGGAGTGGAAAACCTGTAGGGCGGAAATCTCGGAGCGGTGGTG
TAGCTGCTACCAAAGATGTGGGGCAGAAACAACTGGGTACGGTGGTGCCA
GTAGCGGGAGGCATGAGCGCGACTGAGGAGAGCAAGCGTGAACAGGCAGA
CCTCGTGGCAAGAAATGTTTGCGATTGATTGCATGCCTTTATTTTATTTT
TATCACCCCCCCCCTCCCCCCCGACTTCCGGTACGTCCGGTCTTCCCTCT
GCACTCTTCCATGCATGTATTTTATTCCTCTTTGCCTCTTTTTTTTTTCT
TTTCCCTTTTCGTTCCCCTGCTTGCTCTTTGTTTGGCGGCCTGTTTGTTG
TGTTTGTGTACGAGTGCACTCCCTCAGTCTTTGTGCCCTCCCTGTATCTT
CTTCTTTTCTATTTTTTTTTTGTCTTTCGCCTATTGATCATATGGTTATT
GGACCATCGCCCTGGTTTGCCTTTGCCTTGGTCTGTCATGGCCCTGGGCC
CTGGTTCGATGTACGAAGTACTTCGAAGTATATGGTTATGGTTGAGGTTT
GTCTTGGTTATTTTTTTGTTTGTCGGACTGTTTCCAATTTTTGTTTTTCT
TTCGAGCCTGTTATTTTTTTTTCTGTATTTTGTTTGGTACTCTGGCCACC
ACAGATGGTACCCCAACGGTACCATGTCTGATTTGACTGTGGGTGATCGT
AGTCCATATATTTTATTTTTTATTTTTTTCCTAGCACGATATGTGCCTGG
TTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCA
ACAACAACAACAAACAGGCCGCCAAACAAAGAGGGAGCAGGGGAACGAAA
AAGGAAAGGAAAAAAAGAGACAGAGAGGAATAAAATAGATACATGGAAGA
GTGCAGAGGGAAGACCGGAAGTACCGGAAGTCTGGGGGGGGGGGGAGGTG
ATGAAAATAAAATAAAAGGCATGCAATCAATCGCAAACATGTCTTGCCAC
GAGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTG
CTACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATCTTTGGCAGCA
GCTACACCAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig20:784940..800649+

>mRNA_P-littoralis_Contig20.179.1 ID=mRNA_P-littoralis_Contig20.179.1|Name=mRNA_P-littoralis_Contig20.179.1|organism=Pylaiella littoralis U1_48|type=CDS|length=741bp|location=Sequence derived from alignment at P-littoralis_Contig20:784940..800649+ (Pylaiella littoralis U1_48)
ATGCGGGCAGCAGCGGCAGCATACGCCCTCTTCTGGGTCCCCACATCATT
GGGCTTTGTTTCTCCCTCCATCTCTTCGAGCTCCGTCCAGGGTACTTCTC
GCTGCAGCAGCCGGCAGCCGCAGCAGCAACTACAAGCGCGCCCGACGGCT
TCGCCTCCAAACGACGATGCTGTCATGCCCCACAACCACGACGGCAGCGA
ATGTCCATCTGTTTCCCGGCGATCGCTCTTGGAAAGGTTTTCCACAACTC
TCGCCGTGGCTTCTGCTGCCGTTGTCGCGGGGCACCCCGCCCCGGCCGCG
GCCAAGCCCGAGCGCATCAAGGGCGGGGGCCCCGTGATCACTCTCGAGGA
CGGCGCACAGTACCAGGAGATGACCATCGGCGACGGCCCGTCGCCTAAAG
ACGGCGACAGGGTTGCCGTACACTACTCGCTGTTTTACAAAGGCCTTGAA
GTGGAGAGTTCAAGGGATAGTCAGGGTTTGGCGGCCCGCCCCCTGGGCTA
CACGGTGGGAACGATTAACGGGCCTGGTAGCGTTCCCCCCGGACTGGACG
AGATCGTAAAGGGCATGCGAGTGGGTGGGCGGCGCAAACTGACGCTTCCT
CCGCAGCTCGCGTTCGGGAAGGCTGGGAGACCACCTTTCATCCCAGCGGA
TGCTACAGTCCAGATGGACGTGAGCCTTTGGTCGGTGAAGCCTGCGGGGA
CAGATCCTAATGTCACTCTCCCGGGCTCGTCGGTGTTTTAA
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