mRNA_P-littoralis_Contig121.68.3 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig121.68.3
Unique Name	mRNA_P-littoralis_Contig121.68.3
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: D8LEJ3_ECTSI (Methyltranfer_dom domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LEJ3_ECTSI)

HSP 1 Score: 492 bits (1266), Expect = 1.490e-150
Identity = 436/881 (49.49%), Postives = 500/881 (56.75%), Query Frame = 3

Query:  399 PLTVAIVAATLGSANISRQRLKKLADSPAVTSQLESALSGGGMQASRAQAKLRKLLEAVEQVV-GEKGDGDGCASAAAIAAKVVTGCPELLLLEGRKLLGAAKQLREMEGITERTATQLAINFPAFFTLPPAARERIGFFVGQVGLTPKEVGRLAKRHPDLINDIGGGHVRRLVDLFLDDLEVGKAAFLRMVRRQPGLLSVNLSGNVLKVTEFFEKEMGLGRDQISKIYCSHPQASVLCLDLEKNIRPVIEWLGAPDPGDTQQXXXXXXXXXXXLPPSLGKSTLTPKTGVDEIQSLPRNPTAATTRDHKVAASGGLSIAVGPDSERDRHWDGVDAATNQGVLDRLDSHDANGRAFQGRGGAVRGAKMDARPPAPALATPEYGKKDGWDWGLGLEPQGRNKVVSKQGDLLWKSVPGNLAVSTAWFVVEVGLSWDEMRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRMQAMRAAGAPPAFPHLRALCTYPDGRFAIWFERIVAAAXXXXXXXXXXXXXXXXXXXXXXXLPGRNSALTTIXXXXXXXXXTRPPRGRRLRG-VGDATRPSVCTTSLAELGISYTVSGRSSXXXXXXXXXXXXXXXXXXXXXXXXAAAEEIEACFSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRRE--------------GEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMVVVVYEPGDGVFKTPEEMTAVFTSAAARAGLSFSLSLMEAAS 2993
            P TVAI+  +LG  ++ ++ L+ LA SP   SQLE  LSG G +ASRAQAKLR LLEAVE VV G +   DG ASAA    +VV GCP LLLL+G++LL    QLR+MEG+TE TA QLA+ +P +FTLPPAAR RIGFFVG+VGLT K+VGRLAKR PD+I +IGGGHVRRLVDL L+DL VGKAA LRMVR                                                    IRPV++WLGAPDP + Q XXXXXXXXXXX                                    A+    +   G D +  R  D + AAT  G  D          A +      +GA  + +   P LA P Y +  G         + R K+V KQGDLLWKSV GNLA S +WFV EVGLSW    XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX                                                           AMRAAGAPPAF HLRALC YP+ RF+ W ERIV  A                        P   S+  +          +RP  GRRL G   D    S+ TTSLAELG++Y  +  ++    XXXXXXXXXXXXXXXXXXXX         F+PGRA+ K LVRKL++GLDVLDL CGTGGFALNAAAG ARSV+GVDKAARAVRTATKNA ANGL   ATF+KA+VAAFA A                      G      WD+VVVDPPSF  KSARST+RAV AFTR+AESV+LVVRPSGGM+VVVYEPGDGVF TPEEMTAVFTSAA+ AG+S SLSL+EA S
Sbjct:   72 PFTVAILLESLG--DVPQRTLRHLAGSPPA-SQLELTLSGSGARASRAQAKLRGLLEAVESVVVGAQEKDDGLASAAT---RVVAGCPALLLLDGKELLNRGTQLRDMEGVTEETAAQLAVEYPGYFTLPPAARARIGFFVGKVGLTAKDVGRLAKRRPDVIENIGGGHVRRLVDLLLEDLHVGKAALLRMVRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX--IRPVVDWLGAPDP-EAQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSASVRQTTNPSGLDRKSGR--DRIAAATTAGFPDDAGELTLRRAAREEVAAVGQGAGPEPQRAEPTLAVPVYTEGVGXXXXXXFGREERRKIVCKQGDLLWKSVVGNLAKSASWFVEEVGLSWXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-----------------------------------------------------------AMRAAGAPPAFRHLRALCNYPEDRFSAWLERIVLDADDSSS-------------------PATASSAVS---------PSRPRPGRRLGGDADDPPTSSLSTTSLAELGLTYAAATMNAPRRQXXXXXXXXXXXXXXXXXXXX---------FAPGRAEVKALVRKLARGLDVLDLMCGTGGFALNAAAGGARSVIGVDKAARAVRTATKNARANGLDDAATFLKADVAAFAGASXXXXXXXXXXXXXXXXXXXXXGPGERKAWDLVVVDPPSFLAKSARSTARAVKAFTRLAESVALVVRPSGGMLVVVYEPGDGVFDTPEEMTAVFTSAASAAGVSLSLSLLEARS 845

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A3M7KSP6_AUXPR (Methyltrans_SAM domain-containing protein (Fragment) n=3 Tax=Auxenochlorella protothecoides TaxID=3075 RepID=A0A3M7KSP6_AUXPR)

HSP 1 Score: 87.0 bits (214), Expect = 7.520e-14
Identity = 58/138 (42.03%), Postives = 78/138 (56.52%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSG 2861
            F   + D++L++R+LSKG  VLDLCC TGGFALNAAAG A  VLG+D + RAV  A  NA  NGL    TF + ++ A+       R  +    G  WDMVV+DPP  +    ++  RA   +T    +   +V P G
Sbjct:  286 FYADQRDSRLVLRQLSKGKRVLDLCCYTGGFALNAAAGGATHVLGLDSSHRAVHAAAANAALNGLDQVLTFERQDMKAW------GRGSQPPPGG--WDMVVLDPPKLAP-GKKAMVRATRQYTAYNAAAMRLVAPGG 414

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A2P6VPY9_9CHLO (Ribosomal RNA large subunit methyltransferase I n=1 Tax=Micractinium conductrix TaxID=554055 RepID=A0A2P6VPY9_9CHLO)

HSP 1 Score: 83.2 bits (204), Expect = 3.430e-12
Identity = 54/138 (39.13%), Postives = 79/138 (57.25%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSG 2861
            F   + D++ ++R L+ G  VLD+CC +GGFALNAAAG A + +GVD +A AV  A +NA  NGL   A FVKA+  AF +   A R++        WD+VV DPP  +  S ++  +A   + ++      +V P G
Sbjct:  315 FYADQRDSRAVLRGLAAGKTVLDMCCYSGGFALNAAAGGATAAMGVDSSATAVALAARNAELNGL--QAEFVKADSTAFMKQALAERKQ--------WDIVVFDPPKLAP-SRKTLDKATRKYRKLNAMAMQLVEPGG 441

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A7S0SED3_9CHLO (Hypothetical protein n=1 Tax=Mantoniella antarctica TaxID=81844 RepID=A0A7S0SED3_9CHLO)

HSP 1 Score: 77.4 bits (189), Expect = 1.860e-11
Identity = 62/171 (36.26%), Postives = 93/171 (54.39%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLD-VLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMVVVVYEPGDGVFKTPEEMTAVFTSAAARAG 2957
            F   + D + +VR L+ G + V+D+CC TGGFALNAA G A+ V+GVD +  A+  AT+NA  NG+  + +FV  N  AF    A     +    GT+ DM+++DPP  +  +A +  RAV  +  M +    ++RP G +V        G       +T V ++AAA AG
Sbjct:   99 FYVDQRDNRAMVRALAAGKNRVMDVCCYTGGFALNAALGGAKKVIGVDSSQPALDIATQNAALNGVSKSCSFV--NAEAFRHLDACIEAGQA---GTY-DMIILDPPKLAPNAA-AVPRAVPKYVGMNQRAMKLLRPGGLLVTCSCS---GAITQRGLLTEVVSAAAASAG 259

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A2K3CSS2_CHLRE (PUA domain-containing protein n=2 Tax=Chlamydomonas reinhardtii TaxID=3055 RepID=A0A2K3CSS2_CHLRE)

HSP 1 Score: 79.3 bits (194), Expect = 3.560e-11
Identity = 62/169 (36.69%), Postives = 90/169 (53.25%), Query Frame = 3

Query: 2499 GLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMVVVVYEPGDGVFKTPEEMTAVFTSAAARAGLSFSLSLMEAASSSCY 3005
            G  VLDLCC +GGFAL+AAA  A  V+GVD +  AV+ A  NA  NGLGG A+FV+A+V+ +         RE    G  +D+VV+DPP  +     S +RA   +TR+      +V+P G ++        G      E T +   AA + G   + +L EA ++ C+
Sbjct:  510 GPTVLDLCCYSGGFALSAAAAGASRVVGVDSSEAAVQLAAANAELNGLGGVASFVRADVSDY--------MREAVQQGHQYDVVVLDPPKLAPD-RNSLARARIKYTRLNSLAMRLVKPGGLLITCSCS---GAMTQSGEFTEMVIEAARQVGRQ-ATALREAGAAPCH 665

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A2R6XIF6_MARPO (PUA domain-containing protein n=2 Tax=Marchantia polymorpha TaxID=3197 RepID=A0A2R6XIF6_MARPO)

HSP 1 Score: 77.4 bits (189), Expect = 8.620e-11
Identity = 50/139 (35.97%), Postives = 74/139 (53.24%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGT-ATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSG 2861
            F   + +++  +R L +G  VLDLCC +GGFALNAAAG A  V GVD +  A+  A  NA  NG+    +TF++ ++  F     A  R         WD+V++DPP  +    +  SRA+  + R+      V+ PSG
Sbjct:  286 FYADQRESRFFLRSLCEGKTVLDLCCYSGGFALNAAAGGASHVTGVDSSGPAIELARANAALNGIDPCRSTFIRQDIKNFLSHSVAEGRS--------WDVVILDPPKLAPN-RKVLSRAITQYRRLNALAMKVINPSG 415

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A6U0E2A8_9CHLO (Hypothetical protein n=2 Tax=Ostreococcus mediterraneus TaxID=1486918 RepID=A0A6U0E2A8_9CHLO)

HSP 1 Score: 77.4 bits (189), Expect = 9.620e-11
Identity = 54/141 (38.30%), Postives = 84/141 (59.57%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMV 2870
            F   + + ++ +R LS+G  VLD+CC TGGFALNAA G A SV+ VD +  A+R A +NA  N +     FV+A+  AF   Q A  R E   +GT+ D+VV+DPP F+    +S ++A+  +  + +    ++RP G ++
Sbjct:  314 FYVDQRENRMAIRDLSRGKKVLDVCCYTGGFALNAAVGGATSVVAVDSSDAALRVAARNAELNNVQDKINFVRAD--AFDFMQEAIDRGE---SGTY-DVVVLDPPKFAPNK-QSLTKALPKYVGLNKRAMALLRPGGVLI 447

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A7C2DQB7_9FIRM (Class I SAM-dependent rRNA methyltransferase n=1 Tax=Firmicutes bacterium TaxID=1879010 RepID=A0A7C2DQB7_9FIRM)

HSP 1 Score: 75.9 bits (185), Expect = 1.620e-10
Identity = 53/135 (39.26%), Postives = 77/135 (57.04%), Query Frame = 3

Query: 2466 DAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMV 2870
            D +L    L K +DVLD+ C TGGFA+ A  G ARSV+ VD +  A+  A +NA  NG+ G  TF++AN  AF E     RRR G   G  +D +++DPP F+ +S  +  RA  A+  +      ++RP G ++
Sbjct:  205 DNRLAAAALVKDMDVLDVFCYTGGFAIQAVLGGARSVIAVDSSGGALSLARRNAELNGVDGRCTFLEAN--AFDEL----RRRAGA--GERFDAIILDPPPFA-RSKEAAERAAAAYKEINLRALKLLRPGGVLI 330

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A7S2FEA7_9CHLO (Hypothetical protein n=3 Tax=Pycnococcus provasolii TaxID=41880 RepID=A0A7S2FEA7_9CHLO)

HSP 1 Score: 75.5 bits (184), Expect = 4.170e-10
Identity = 51/122 (41.80%), Postives = 73/122 (59.84%), Query Frame = 3

Query: 2508 VLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSGGMVV 2873
            VLDLCC TGGF+L+AAAG A+SVLGVD +  AV  A++NA  NG      F   +  A A        RE + NG  +D+VV+DPP  +  SA++ ++A   + +   +   V++P GGM+V
Sbjct:  361 VLDLCCYTGGFSLSAAAGGAKSVLGVDSSEHAVALASENARRNGFSEQCLFQSGDAIAVA--------RELKANGEMYDVVVLDPPKLAP-SAKAVAKAKRKYAQFNAAAIDVLKP-GGMLV 472

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BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Match: A0A5J4XSA4_9CHLO (PUA domain-containing protein n=1 Tax=Trebouxia sp. A1-2 TaxID=2608996 RepID=A0A5J4XSA4_9CHLO)

HSP 1 Score: 75.5 bits (184), Expect = 4.640e-10
Identity = 52/139 (37.41%), Postives = 76/139 (54.68%), Query Frame = 3

Query: 2448 FSPGRADAKLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATKNAVANGLGGTA-TFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSFSTKSARSTSRAVNAFTRMAESVSLVVRPSG 2861
            F   + D++L +R L++G  VLDLCC TGGFALNA AG A  V GVD +  A+  A  NA  NG   +   F+K +V  + + Q         V G  WD+VV+DPP  +    +S +RA+  + ++      V++P G
Sbjct:  385 FYADQRDSRLAIRHLAQGKAVLDLCCYTGGFALNALAGGAHHVTGVDSSVPALALAESNAQLNGWPQSQYCFLKDDVVKYMQQQI--------VEGRQWDLVVLDPPKLAPN-RKSLNRALAKYRKLNILAMRVLKPGG 514

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot

BLAST of mRNA_P-littoralis_Contig121.68.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LEJ3_ECTSI	1.490e-150	49.49	Methyltranfer_dom domain-containing protein n=2 Ta...	[more]
A0A3M7KSP6_AUXPR	7.520e-14	42.03	Methyltrans_SAM domain-containing protein (Fragmen...	[more]
A0A2P6VPY9_9CHLO	3.430e-12	39.13	Ribosomal RNA large subunit methyltransferase I n=...	[more]
A0A7S0SED3_9CHLO	1.860e-11	36.26	Hypothetical protein n=1 Tax=Mantoniella antarctic...	[more]
A0A2K3CSS2_CHLRE	3.560e-11	36.69	PUA domain-containing protein n=2 Tax=Chlamydomona...	[more]
A0A2R6XIF6_MARPO	8.620e-11	35.97	PUA domain-containing protein n=2 Tax=Marchantia p...	[more]
A0A6U0E2A8_9CHLO	9.620e-11	38.30	Hypothetical protein n=2 Tax=Ostreococcus mediterr...	[more]
A0A7C2DQB7_9FIRM	1.620e-10	39.26	Class I SAM-dependent rRNA methyltransferase n=1 T...	[more]
A0A7S2FEA7_9CHLO	4.170e-10	41.80	Hypothetical protein n=3 Tax=Pycnococcus provasoli...	[more]
A0A5J4XSA4_9CHLO	4.640e-10	37.41	PUA domain-containing protein n=1 Tax=Trebouxia sp...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig121	contig	P-littoralis_Contig121:286249..296005 -

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	554065.XP_005843989.1
PFAMs	Methyltrans_SAM
Model size	4136
Max annot lvl	3041\|Chlorophyta
Hectar predicted targeting category	signal peptide
Exons	11
Evalue	3.82e-15
EggNOG OGs	COG1092@1\|root,2QS1I@2759\|Eukaryota,37IID@33090\|Viridiplantae,34H8I@3041\|Chlorophyta
Ec32 ortholog description	Mitochodrial transcription termination factor
Ec32 ortholog	Ec-21_004440.1
Description	S-adenosylmethionine-dependent methyltransferase
Cds size	3459
COG category	J

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig121.68.3	prot_P-littoralis_Contig121.68.3	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig121 286855..295934 -

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


Feature Name	Unique Name	Species	Type	Position
1680789521.230109-UTR-P-littoralis_Contig121:286248..286854	1680789521.230109-UTR-P-littoralis_Contig121:286248..286854	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig121 286249..286854 -
1680789521.361714-UTR-P-littoralis_Contig121:295934..296005	1680789521.361714-UTR-P-littoralis_Contig121:295934..296005	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig121 295935..296005 -

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


Feature Name	Unique Name	Species	Type	Position
1680789521.2422009-CDS-P-littoralis_Contig121:286854..287572	1680789521.2422009-CDS-P-littoralis_Contig121:286854..287572	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 286855..287572 -
1680789521.2553482-CDS-P-littoralis_Contig121:287939..288169	1680789521.2553482-CDS-P-littoralis_Contig121:287939..288169	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 287940..288169 -
1680789521.267069-CDS-P-littoralis_Contig121:289527..290115	1680789521.267069-CDS-P-littoralis_Contig121:289527..290115	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 289528..290115 -
1680789521.2757142-CDS-P-littoralis_Contig121:290683..290860	1680789521.2757142-CDS-P-littoralis_Contig121:290683..290860	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 290684..290860 -
1680789521.2887952-CDS-P-littoralis_Contig121:291457..291568	1680789521.2887952-CDS-P-littoralis_Contig121:291457..291568	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 291458..291568 -
1680789521.3006506-CDS-P-littoralis_Contig121:292058..292471	1680789521.3006506-CDS-P-littoralis_Contig121:292058..292471	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 292059..292471 -
1680789521.3099053-CDS-P-littoralis_Contig121:292549..292739	1680789521.3099053-CDS-P-littoralis_Contig121:292549..292739	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 292550..292739 -
1680789521.320123-CDS-P-littoralis_Contig121:293368..293521	1680789521.320123-CDS-P-littoralis_Contig121:293368..293521	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 293369..293521 -
1680789521.3320892-CDS-P-littoralis_Contig121:293984..294110	1680789521.3320892-CDS-P-littoralis_Contig121:293984..294110	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 293985..294110 -
1680789521.3405929-CDS-P-littoralis_Contig121:294462..294567	1680789521.3405929-CDS-P-littoralis_Contig121:294462..294567	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 294463..294567 -
1680789521.3520405-CDS-P-littoralis_Contig121:295286..295934	1680789521.3520405-CDS-P-littoralis_Contig121:295286..295934	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig121 295287..295934 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig121:286249..296005-
coding sequence from alignment at P-littoralis_Contig121:286249..296005-

protein sequence of mRNA_P-littoralis_Contig121.68.3

>prot_P-littoralis_Contig121.68.3 ID=prot_P-littoralis_Contig121.68.3|Name=mRNA_P-littoralis_Contig121.68.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1153bp
MWLTLAWASPPFSSSTLCLPCDNPANTTLGHACHDKKAYAHVRPACSCRT
SSFRMMLSAAAFAPPGKHAHRLGIQAANAGNSASAIAETAAGATTAVAAT
ASSRRLSSSPLTVAIVAATLGSANISRQRLKKLADSPAVTSQLESALSGG
GMQASRAQAKLRKLLEAVEQVVGEKGDGDGCASAAAIAAKVVTGCPELLL
LEGRKLLGAAKQLREMEGITERTATQLAINFPAFFTLPPAARERIGFFVG
QVGLTPKEVGRLAKRHPDLINDIGGGHVRRLVDLFLDDLEVGKAAFLRMV
RRQPGLLSVNLSGNVLKVTEFFEKEMGLGRDQISKIYCSHPQASVLCLDL
EKNIRPVIEWLGAPDPGDTQQQQQQQQQQQQQLPPSLGKSTLTPKTGVDE
IQSLPRNPTAATTRDHKVAASGGLSIAVGPDSERDRHWDGVDAATNQGVL
DRLDSHDANGRAFQGRGGAVRGAKMDARPPAPALATPEYGKKDGWDWGLG
LEPQGRNKVVSKQGDLLWKSVPGNLAVSTAWFVVEVGLSWDEMRKLVTRS
PALLSLSVEKNLEPTLAFLVKELGLDPGSVKKTIVNQPSILTLSVTGNLR
PKAAFFQDELGASERDVADLLNRCPRVMNASVKGRILPRMQAMRAAGAPP
AFPHLRALCTYPDGRFAIWFERIVAAAAAAAASSPTAPHPHPPPPPPPPP
LPGRNSALTTITTATTTTKATRPPRGRRLRGVGDATRPSVCTTSLAELGI
SYTVSGRSSSSSRRVGSTSAAAAAAAAVTSKNEAAAEEIEACFSPGRADA
KLLVRKLSKGLDVLDLCCGTGGFALNAAAGKARSVLGVDKAARAVRTATK
NAVANGLGGTATFVKANVAAFAEAQAASRRREGEVNGTWWDMVVVDPPSF
STKSARSTSRAVNAFTRMAESVSLVVRPSGGMVVVVYEPGDGVFKTPEEM
TAVFTSAAARAGLSFSLSLMEAASSSCYSSSASGHDRSSGSSDGRSGSRG
SSSGGTSDNGNRGGEGGSFDDSGVSPPTAAASRVATSALRSSSAAVPAAE
RRLKGVERQAEGASDGVGDERSLTLLGSRDNDVAVEGAKRGGRNDIESDG
SSSSSSSSLPLLSPSPWFVLFVSSKAPSRPSSPPPPPAEDADPLLGRSRN
GA*

mRNA from alignment at P-littoralis_Contig121:286249..296005-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig121.68.3 ID=mRNA_P-littoralis_Contig121.68.3|Name=mRNA_P-littoralis_Contig121.68.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=9757bp|location=Sequence derived from alignment at P-littoralis_Contig121:286249..296005- (Pylaiella littoralis U1_48)
TGCTCTTGCGTCTCTCGTCTCGCGTCCCCCTCCACACTCCTCCGTCTCCC
ACACGTGCGTGCGTGTGTGTAATGTGGCTCACACTTGCCTGGGCGTCTCC
GCCCTTCTCCAGCTCCACTCTGTGTCTACCTTGTGATAATCCAGCCAACA
CCACGCTGGGCCATGCGTGTCATGACAAGAAGGCGTACGCACATGTGAGA
CCGGCTTGCAGTTGCAGGACCAGCTCTTTTCGCATGATGCTGTCAGCAGC
AGCGTTTGCCCCACCTGGAAAGCATGCGCACCGGCTTGGCATCCAAGCCG
CTAACGCTGGAAATTCGGCAAGTGCTATCGCTGAAACTGCTGCTGGCGCC
ACCACCGCTGTTGCTGCTACTGCTTCCTCGCGAAGGCTATCCTCGTCCCC
CTTGACGGTCGCCATCGTTGCGGCAACACTCGGAAGCGCCAATATCTCCC
GGCAACGGTTGAAAAAATTAGCTGACAGTCCCGCCGTTACCTCGCAGCTC
GAGTCGGCGCTTTCCGGCGGAGGCATGCAAGCGTCGCGAGCCCAAGCGAA
GCTCCGGAAACTTTTGGAGGCCGTGGAGCAAGTGGTAGGGGAGAAGGGGG
ATGGTGATGGTTGCGCTTCTGCCGCCGCCATAGCGGCGAAGGTGGTAACC
GGATGCCCAGAATTACTGCTCCTGGAGGGGAGGAAGTTGCTGGGTGCGGC
GAAACAACTTCGAGAGATGGTAAGATATGGTATGTAAAAAATAGAGCGCT
TAAAACCCTTTTTTGATATGTGAAAGCTGTTTCTATGTTTGATACGTTCT
GTACGTTGCACAGAGTTAGGGATAAGTTAGGACGCGTTCCCGATCCCGCA
ATCCTCAAATACGGTGTTACTATATGAGGGACAATGGACGGAACTGGACC
CCAAAGATGGTTCAAGTCGTGAAAAACTCTCCGCCGGTCTAAGCACACCC
AGGTTACAAACGAGGTGCCGCGGTCGGAATTGTTACTTGTTTGGTCAAAG
TGACTGCTATTTGTTTTTGCTTGCTCGCTCGCTTGCGCGAAGCTTGCGCG
AACGGCGGAACTACTGTATAATTTTCACGCCCAGGACGTACGTGAGTTCG
AATCCCAGTGAAGTCACACGATCTCTATTTTTCTCACATTAGTTCTTGGG
AGTGGAAAATGACTTTTTCGCGAGCATACAAGCACATTCTCCTGAACAAT
CGACAAGGGTAAGGGACGGTTGAGCCCTTCTCGCAATAAAAAGCTAAAAG
CCAAAAAAGACCAAGCACCGCAGGAGGTGGGTGGACAAAAAAAGAACTCT
TGTTTGACCTTCCTTCTGTGTGACCCCGGCTGGTGCACCAACTTTATTGC
GAAAGGTGTAGACTGGCGCTCAGGATACATGGGATGAAACACACACACAC
ACACACACACACACTCGGCTCGCTCGCTTTTTGTGCAGGAAGGGATCACG
GAGAGGACAGCCACGCAGCTGGCGATAAATTTCCCGGCGTTCTTCACCCT
GCCACCCGCGGCGAGAGAGAGGATCGGCTTTTTCGTTGGACAGGTGTGTG
CGTGCTTCCAACTTTTACGATGCAAAAAAAGGTGTGATGGTTGTCCGAAA
ATGACGGTTGCGATATTTGGTAAATCCTTCCATTGCAGCCAGCGTTCGTA
GCCATGCCTGACAGTCGCTGCCGCAGTATGCGGAAGGCTCATTTTTTGTT
ATTGGCGGGCAGGAGAAGTGAGGGCTCTGCTCATGAAGAAGGGGGTGAGG
GGGTGAAATATCGTTTCCGCCGCATGGTGCTTCGCCGCACTTGCTCTAGC
CGCAGGCTTCCCGGCAGTATGATCCGCAATGCTAGTGTACGAAGATTCCC
ATGTAAATTTAAATATGTTTATCGTACGTATCTAAACTTGAACAGGTGGG
CCTCACGCCCAAGGAAGTGGGTCGGTTGGCGAAGCGACACCCGGACCTGA
TCAACGACATCGGTGGTGGACATGTGCGCCGACTGGTAGACTTATTCTTG
GACGATCTGGAAGTCGGCAAGGTGATTTTTAACCTTCAACGTCGTAGTGT
GACCGGGGGGGGGTGGGGGGGGCACGGACTCCTGAGCTCTCCCCCCCTCC
TATAGGGCCTTGCGGCTTGGCCAGCTCGTGTGAACGTTCTATGTCAGTGT
GTTAGTTGCAAAGTGGGGGAGCAGGCGGGGTTTGTTCCGACTGAGCTGTG
TTGCACCCACATGCCGCCCGTCCAAATGGCAAGTACACAGTGCGTCTGTC
AACCATAGCATAGAAGAGTATGGACAGGTTTCATGGCTAGGACAGTCCGG
TCCGTGCGTACGGCTCTGTCGCTGTCTGCAGGCGTATCAGCCTTTCGTCA
CACCTGTTTTGTTTCAGTCACGACTCGTGTAGGAGAGCCTTCGCCCGTCA
ACAAAATGCTTTTGTATTTCTGCTGTGGTTGCCTTACCCCCCTTGCTCAT
GCTCTGACTATCGGGGTTTCAACGTCCTCGGCAGGCAGCTTTTTTGAGGA
TGGTTCGACGCCAACCGGGGCTCCTGTCCGTCAACCTTTCTGGGAACGTC
CTTAAAGTGACGGAGTTTTTTGAGAAGGAGATGGGACTGGGAAGAGACCA
GATCTCGAAAATTTATTGTTCGCACCCGCAGGCAAGTGTTTTTTTTTTTT
AAGGCAGAGAAAACTAAGAATTCTACCTTGAAACAGTAACACTTCTGCAG
AGATATGCGTAATGTTCAGGGCCCAACCATTTATCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTGCTCTTTGGTGGCTGGTGG
TCGTGCCTATGATAGTAGCATGCCTGAGAGGTAATTCATGCCTCATGGTC
CATGTTTCTCAGAGCTCCTGTTCAATAAATGCGCGACGAGCCCAACACAA
CTATTCACAGATGCACTCATAATTTGGCGAAGAAACGTGGAACCATTTGG
GCAGCCCGTGTGAAAAGTCACAGTAAGACCAATACCGCGCTGTCCACACA
AGCAAAGGGACGTTGCGTGTCATTTTGGTCACGGGTGTTGATGCTTGGCT
CAGCCGCTGAGGAAAAAGAGCAGCTGCATTTATTTTTTCGCGTTTGCGGC
GTCGTCTCCGTGTGTACCCCCACCGTGCAAGAAGGCACGAGCCGCAACGG
ATTCCATCATGCTTCGACCGAACGACGGGCCAGAGTCGAGGAGAACTCGG
CTTGGACGAAGCACGCCTCCATATTTATTGGAACACTAAAAAAGCGTCCC
CTCACACTCTCTCCAGGTCCTGTGCCTGGACCTCGAGAAAAACATCCGAC
CCGTCATCGAGTGGCTTGGAGCCCCGGATCCTGGGGACACACAGCAGCAG
CAGCAGCAGCAGCAGCAGCAGCAACAGCAGTTGCCCCCTTCTCTAGGAAA
AAGTACGTTGACACCAAAAACAGGAGTCGACGAAATTCAGTCTCTACCGC
GAAATCGTCCAATGGGCTCGGCTTCGGCTACCGCTTCGGCTACCGCTTTG
GCTACCGCTTCATCCTCGCCGTCAGCAGCCGCAGCGACTGCTGCGACGAC
AAGAGACCACAAGGTCGCGGCGAGCGGTGGCTTGTCGATAGCGGTTGGAC
CTGATTCGGAACGGGATCGTCATTGGGATGGCGTCGACGCTGCCACCAAC
CAGGGGGTTCTAGATAGACTAGATAGCCATGATGCTAATGGGAGGGCTTT
CCAGGGTAGGGGGGGCGCGGTGCGGGGGGCGAAGATGGACGCGAGGCCAC
CGGCACCAGCATTGGCAACGCCGGAATACGGGAAGAAGGACGGATGGGAC
TGGGGGCTGGGGTTAGAACCCCAAGGGCGTAACAAGGTTGTTTCTAAGCA
GGGGGACTTGCTGTGGAAAAGCGTCCCGGGTAACCTGGCCGTGTCGACGG
CGTGGTTCGTGGTCGAGGTGGGGCTAAGCTGGGACGAGATGCGTAAGGTG
GGGGTTTTTACGTTTTCTGATTTTTTTTTTGGGGGTGGGGTCGTTCACGC
GTACGGTACTGCTGTATGAGAAGTCAAGCTGGCTTGCAGCGTTCAATGTT
TGATGTCTTTCCAATTCAGTAGACCCACTGACGTCGTTTCTTTAGCGTGC
TGTCTGCCGTCAGGGGGGCGGCTTACGCAAATAGCACACGTTTTGGTGTT
TTGCTGGCCGACAAAAAAAGTGTACGTCGCGCACAACGTTGTCGCACGAG
CTACTAACAGAAGTATGAGCCGAGTTTTATCGCAAGTGGTGGCATTCTAT
CGTACTTTTTCTGAGCGAGTGCTCTCTCAATGTGAGCTTCCAATTACTTA
AACTCGTTCAACTAGCCTGCTAGTCCTAGGTTCCATGTGCCCGTACGCAT
CCCTTCCATTCCCCACACCGCCTGATCGCTACCCCTGACCCCGCCGTGCT
TTTTGCTGGGCGTTGCAAATGGAACACGATCAAGCAGCTGGTGACACGTT
CGCCAGCTCTTTTGTCCCTGAGCGTGGAGAAGAATCTCGAGCCGACATTG
GCTTTCTTGGTGAAGGAGTTAGGCTTGGACCCTGGATCCGTGAAGAAGGT
GACGCTTGCCACTGTATTCGTAGAGCGCAGGCTCCCCCCCCCCCCCCTCT
TTTCTTCCCTCCATTTCCGTGTGGAAGGCGCCTTTGTTTAAGCTGCTGCT
GCTGCCGTCGTTGTTGTTGAGGCTTGTGAAGTTTTCTTCTTTGTTGTCGA
TGCCGTTGATGTTGTCACGCTAATGGCGGTGGTGCGAAGGCTCACCCTCG
TTGATCCGACGACACATCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTC
CCTTTTGTTCTCTGTCTCTGCCTCCATACCTCTGTCCCCTCTCGCTCTGT
CTTTCTCTATCCCTCTTTCTCGCTCTCGCTTTCTCTCTCTCTCTCGAAGC
CTTGTTTTCTCTCTGTCCCCCTGTTTCTCTCGTTCACTCTTTCCCTGTCT
CCCTACCCCTCTGCCTTCCCGCTCTCAATCCCATCTCACCTCCACCTCAG
AGAATTATCTTGATCTGCGGTGCATTTCACGACATAGTGTCAGCATTCCG
ACAATAAAACCCAACATGCTCATTTCCACTGGTGGTTTTGCCTTGAACCT
GCCCCCCCCCATCTACGCGTATCCGCGCCGCCTCTCTCTCTCCAGACAAT
CGTTAATCAGCCGTCCATCCTGACGCTCAGCGTGACGGGCAACCTGCGAC
CGAAAGCCGCCTTCTTCCAGGACGAGCTGGGGGCGAGTGAGCGCGACGTC
GCCGACCTCCTGAACCGATGTCCCCGGGTCATGAACGCCAGCGTGAAAGG
CCGGATACTGCCGAGGATGCAGGTGTTGATGGGCGCGGGACTAGAAAAAA
AATAGTTCTGGCGTATGGCCTATGAATTCCTGTGTTGTGTTTGTGCTTGA
AGCAAAACCAACAACGCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCC
CCTGCAAAAGAATCGTAGAAGGCCCTGGCCTGCTGGCTCATACACACGGG
CTTTCTTTTTTTCGTGTACGGCGCTCCAATCAAAGCAAGAAATGAGCGAC
AACGCGCGCTTTGTGCATGCATTCTCTTCCAAGAAATGGAATAGAAAAGG
CCATCGCCATGGTGGGGGCCTGATGGTTGATTCATTTCTTCACGTTTGCA
TGGAGTGCGTGGGCCCTAAAACTGCCGCCGTCGCACGCAAGTTTACCCTC
CTTCGTATGAATCATCTATATCTCCCCCCCCCCCCCCCCCCCTTCATGCC
TGGTCGGCGGGCACCCGATGTGCTCCTTGTACGCAGCAGCGATGGTGTAT
GTATGTACTCTCCCGCACGCGGGTGGGTATTTCATTCTTACCCATCATCC
CAACATTATTCCGACGCCGATCGCGGCAAAACAAAAGCAGGCGATGCGAG
CGGCGGGAGCCCCGCCGGCCTTCCCCCACCTCCGCGCGCTGTGCACCTAC
CCGGACGGGAGGTTCGCGATCTGGTTCGAGAGAATAGTCGCCGCCGCCGC
AGCCGCTGCAGCTTCTTCTCCTACTGCTCCTCATCCTCATCCTCCTCCTC
CTCCTCCTCCTCCTCCGCTTCCAGGGAGAAATTCCGCCCTGACAACAATA
ACAACAGCAACAACAACAACAAAAGCGACGCGACCGCCGCGCGGAAGGCG
GCTGCGTGGCGTGGGCGACGCGACTCGTCCCAGTGTCTGCACCACCTCTC
TGGCAGAGCTGGGCATATCGTACACCGTGAGCGGTAGAAGTAGTAGCTCG
TCTCGGCGGGTGGGGTCGACATCGGCGGCGGCAGCAGCAGCAGCCGCGGT
TACGTCTAAGAACGAAGCGGCTGCGGAAGAGATTGAGGCGTGTTTTTCAC
CGGGGCGAGCGGACGCCAAGCTGCTTGTTCGCAAGCTTTCCAAGGGGCTC
GACGTGCTCGACCTGTGCTGCGGGACGGGGGGCTTTGCTCTAAACGCCGC
CGCCGGCAAGGCGCGGTCCGTGCTGGGGGTAAGCGAGAGAGAGGGGGGGG
GGGGGGGAGAGAAAGAGGAGGGAGAGAGACAGAGAGAGAGATAGAGATAG
AAAAAGATAGAGATACACTTCGAAGTATAGAGATAGAGAGAGACGGAAAG
AGACGGCGAGAGGGAGAGCAAAGAGCGATGGCAACAGCTATAGCGAACGA
AGCGGGAGTGGAGTGGAGTGGAGTAGAGCGATAGGGGATTGTGGTTCCGT
CGTCACCACTCCATTTTTTGTTTTTGGCAAGTTGCGCTGCCTTTCCCTCG
GTGTGCTGCTGTACACATAGTCTTTTTTCTCAGGCGTGTACAAAATAAAA
TGTCGTGTTTGAGGGGACCCCATTCGCCAGGTTTGAGTCCAGTCCCGCTC
TCACCTACGCTCGCGGTTGCCGTTGATATATATATATACTTCCTCTGTAT
CATAAGTCTGTGCCGTTATGGGCGTGTAATTGTTTGCGCATCCATACTGT
TTCGATCATCCTATAGTTAGGTTCGTTCGAAAGATGAAGTCTCAAAGAAG
CTGATGCAAAAACAAAAGCAAAAACAAAAGCCAGTTGTTTATACTAAAAT
GAAGTCAAAACATGCCCATTTTGGCCCATTTAAAGAATTTTGATTCCGCC
AGATGTCTTGGTTTTAGAGCATGAGTCTCAAGTATCTTCGTTTTAGTGTG
GCAAACCCAAGTGTCTTGGTTTTAGCGTCGCGTCACTATTATACTGAGTT
TAGTAAGGAGGGACTCGACATGAATCTTTGAGGTAGGGGGGGCTAGGTTC
AGGGTTAGGGATAATTTTGGGGGGGATTGCATTGGTTTTTTGTTTGCCCC
CGCCCCCCACTCCACCTCTGGAAAGGGTTAAATACGGCCATGTTTGGCCC
ACTTTTTTGTTAGCCGCTAGCCCATGCGCAGGGTAGTGCGCAAGAAAAAT
ACATATATGTGTTTCAACCCAAAAAACTCCGAAGATTTCGAAAAAATTAT
CGCCGAAGACATCGGACACCGTTGAGGGGGCGTAAAAACATAACGGCACA
GACTTATGATACAGAGGAAGTATATATATATATATATATATTTTTTTGTC
CAGCCTCCTGAGTGCTCCCCCCCGCCTGCTATTTAACCGTTTCACCTTTG
CTTGTCTCTCCCGTGTCTGAAATAAGAAAGATTTACTGCTGTAAGTGTAT
ACCAGGCTTATTCAGAGTATTCTGTGTTTTGTGTGTATGTGTCGCAGATC
CAACTTGTATTGAGTAATTCACACCTGGAGTACGTACGATTCATTTGTAT
TTGGTGCAGTACATGTGCAATGCCTGAGTGTTCTTGTTAGCTGATTGGTC
GATTTACATTCCTGTTGGACCTCTTGTTTCTCGCAGGTAGACAAGGCCGC
GCGCGCTGTTCGCACGGCGACCAAGAACGCCGTTGCGAACGGCCTGGGCG
GAACTGCGACGTTCGTGAAGGCCAATGTTGCCGCTTTCGCTGAGGCGCAG
GCCGCCTCGAGGAGGAGAGAAGGCGAAGTCAACGGGACGTGGTGGGACAT
GGTGGTGGTGGACCCACCCTCCTTCTCCACCAAGTCGGCACGATCTACAT
CCCGAGCCGTCAATGCGTGAGTGTGTGTCTCTGTGTGCGCGTGTCTGTGT
TTGTGTCTCGTGCTGGTTGGCGGTGTTGATGTGACCGCCACTCCACCCAG
CAACGGCTCTATATTGAGATGCGGGGTAAATGGTCTATCTCACGACGAAG
ACTAGCAACAGATGCCCCCCCCCCCCTCCCCTTCCCCCGCCCACGGGCAC
CCCTCTTGCCTCTGCTACCGCCAGTCATCGCCCATCATTTTCGTTTATCG
CAAACCGTGTGCTTTTTCCGGCCATCACCGTCGTTTTTTCCGGCGCTTGA
ATTTACACCTTCCGGAAACTGCCGTTCCCTGGCGTGCGCACCCCGCTCGC
TCTCAATGACTGTGCTGTGCATGTATGAACCAGTTTCACGCGCATGGCGG
AGAGCGTGTCCCTCGTGGTCCGACCGTCCGGAGGCATGGTAGTGGTGGTG
TACGAGCCTGGCGACGGAGTTTTCAAGACTCCGGAGGAGATGACGGCGGT
GTTCACCTCGGCCGCGGCCCGCGCCGGTCTCAGCTTCTCCTTATCCTTGA
TGGAAGCAGCCTCGTCTTCTTGTTATTCCTCCTCGGCCAGCGGCCACGAC
AGAAGCAGTGGCAGTAGCGACGGCAGAAGTGGCAGCAGAGGCAGCAGCAG
TGGTGGTACCAGTGACAACGGCAACAGAGGTGGTGAAGGGGGGAGCTTCG
ACGACAGCGGCGTTTCACCACCCACAGCGGCTGCTTCTCGCGTTGCTACC
TCCGCGCTTCGTTCGTCTTCTGCAGCGGTGCCGGCAGCGGAGAGGCGGTT
GAAGGGGGTGGAGAGGCAAGCAGAGGGTGCGTCGGATGGGGTAGGAGACG
AAAGGTCGTTGACGTTGTTGGGTAGTCGCGATAATGATGTTGCTGTTGAG
GGGGCGAAGCGCGGTGGCCGAAACGACATTGAGAGTGATGGGTCGTCGTC
GTCGTCGTCGTCGTCGCTGCCTTTGCTGTCGCCATCGCCGTGGTTCGTGC
TTTTCGTGAGCTCCAAGGCACCATCACGACCATCATCACCGCCACCGCCG
CCTGCTGAAGACGCTGACCCTCTGCTAGGACGATCACGGAACGGGGCGTA
ACGGTATATTACTTGGGGCAGTCTAGCCTATTTTTGGACTGAAATGGGAA
GGGCAGTCATCCACCCCCCCCCTTTGGCAACCGCTCGCTGGCTGCGCGGT
TCTCTCGTTTCGTGTGCCTTATGGCACCAATGCTCTGAGGCACCAGTGTC
ACACCACCCGGCTGTACGCGCATGAACGGTGCGTATGCAGCGGGAGTGCC
GGTACTCCCTGTCCCGTTTCGGTAGGAAGGGGACCGAAGCCGGGGGTTGT
GTTCACAAAAACACAGTGTCAAATACGGATTACATACCGGTATCCCTTTG
GCGTCGTCGGAAACGCGAGGGCATGTACATGCGCATGTGTACACTTTTCA
TTGACCTGGAAAGTGGGTGGGGGGCAAGTTTTCGATTGATGTTTTGTGGC
AGCATGAGTAGATTCTAGGTTTCTATCGCCGGGGCACTTCGAGTCTGGCC
CGGGGATTGAGACATGCGAAGCACGCGCCAGCGTTGGTTCATCACGTCCC
GATCGAGATACATACCATCCGCGATTTCCTGTGAGGTGTGTGGCGAAGGG
GTAAAACTTTCAGGTATGAACCCCTTGAGGTTCATTTTGTCGTGTTGTAG
GAGCGGG

Coding sequence (CDS) from alignment at P-littoralis_Contig121:286249..296005-

>mRNA_P-littoralis_Contig121.68.3 ID=mRNA_P-littoralis_Contig121.68.3|Name=mRNA_P-littoralis_Contig121.68.3|organism=Pylaiella littoralis U1_48|type=CDS|length=3459bp|location=Sequence derived from alignment at P-littoralis_Contig121:286249..296005- (Pylaiella littoralis U1_48)
ATGTGGCTCACACTTGCCTGGGCGTCTCCGCCCTTCTCCAGCTCCACTCT
GTGTCTACCTTGTGATAATCCAGCCAACACCACGCTGGGCCATGCGTGTC
ATGACAAGAAGGCGTACGCACATGTGAGACCGGCTTGCAGTTGCAGGACC
AGCTCTTTTCGCATGATGCTGTCAGCAGCAGCGTTTGCCCCACCTGGAAA
GCATGCGCACCGGCTTGGCATCCAAGCCGCTAACGCTGGAAATTCGGCAA
GTGCTATCGCTGAAACTGCTGCTGGCGCCACCACCGCTGTTGCTGCTACT
GCTTCCTCGCGAAGGCTATCCTCGTCCCCCTTGACGGTCGCCATCGTTGC
GGCAACACTCGGAAGCGCCAATATCTCCCGGCAACGGTTGAAAAAATTAG
CTGACAGTCCCGCCGTTACCTCGCAGCTCGAGTCGGCGCTTTCCGGCGGA
GGCATGCAAGCGTCGCGAGCCCAAGCGAAGCTCCGGAAACTTTTGGAGGC
CGTGGAGCAAGTGGTAGGGGAGAAGGGGGATGGTGATGGTTGCGCTTCTG
CCGCCGCCATAGCGGCGAAGGTGGTAACCGGATGCCCAGAATTACTGCTC
CTGGAGGGGAGGAAGTTGCTGGGTGCGGCGAAACAACTTCGAGAGATGGA
AGGGATCACGGAGAGGACAGCCACGCAGCTGGCGATAAATTTCCCGGCGT
TCTTCACCCTGCCACCCGCGGCGAGAGAGAGGATCGGCTTTTTCGTTGGA
CAGGTGGGCCTCACGCCCAAGGAAGTGGGTCGGTTGGCGAAGCGACACCC
GGACCTGATCAACGACATCGGTGGTGGACATGTGCGCCGACTGGTAGACT
TATTCTTGGACGATCTGGAAGTCGGCAAGGCAGCTTTTTTGAGGATGGTT
CGACGCCAACCGGGGCTCCTGTCCGTCAACCTTTCTGGGAACGTCCTTAA
AGTGACGGAGTTTTTTGAGAAGGAGATGGGACTGGGAAGAGACCAGATCT
CGAAAATTTATTGTTCGCACCCGCAGGCAAGTGTCCTGTGCCTGGACCTC
GAGAAAAACATCCGACCCGTCATCGAGTGGCTTGGAGCCCCGGATCCTGG
GGACACACAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAGCAGTTGC
CCCCTTCTCTAGGAAAAAGTACGTTGACACCAAAAACAGGAGTCGACGAA
ATTCAGTCTCTACCGCGAAATCCGACTGCTGCGACGACAAGAGACCACAA
GGTCGCGGCGAGCGGTGGCTTGTCGATAGCGGTTGGACCTGATTCGGAAC
GGGATCGTCATTGGGATGGCGTCGACGCTGCCACCAACCAGGGGGTTCTA
GATAGACTAGATAGCCATGATGCTAATGGGAGGGCTTTCCAGGGTAGGGG
GGGCGCGGTGCGGGGGGCGAAGATGGACGCGAGGCCACCGGCACCAGCAT
TGGCAACGCCGGAATACGGGAAGAAGGACGGATGGGACTGGGGGCTGGGG
TTAGAACCCCAAGGGCGTAACAAGGTTGTTTCTAAGCAGGGGGACTTGCT
GTGGAAAAGCGTCCCGGGTAACCTGGCCGTGTCGACGGCGTGGTTCGTGG
TCGAGGTGGGGCTAAGCTGGGACGAGATGCGTAAGCTGGTGACACGTTCG
CCAGCTCTTTTGTCCCTGAGCGTGGAGAAGAATCTCGAGCCGACATTGGC
TTTCTTGGTGAAGGAGTTAGGCTTGGACCCTGGATCCGTGAAGAAGACAA
TCGTTAATCAGCCGTCCATCCTGACGCTCAGCGTGACGGGCAACCTGCGA
CCGAAAGCCGCCTTCTTCCAGGACGAGCTGGGGGCGAGTGAGCGCGACGT
CGCCGACCTCCTGAACCGATGTCCCCGGGTCATGAACGCCAGCGTGAAAG
GCCGGATACTGCCGAGGATGCAGGCGATGCGAGCGGCGGGAGCCCCGCCG
GCCTTCCCCCACCTCCGCGCGCTGTGCACCTACCCGGACGGGAGGTTCGC
GATCTGGTTCGAGAGAATAGTCGCCGCCGCCGCAGCCGCTGCAGCTTCTT
CTCCTACTGCTCCTCATCCTCATCCTCCTCCTCCTCCTCCTCCTCCTCCG
CTTCCAGGGAGAAATTCCGCCCTGACAACAATAACAACAGCAACAACAAC
AACAAAAGCGACGCGACCGCCGCGCGGAAGGCGGCTGCGTGGCGTGGGCG
ACGCGACTCGTCCCAGTGTCTGCACCACCTCTCTGGCAGAGCTGGGCATA
TCGTACACCGTGAGCGGTAGAAGTAGTAGCTCGTCTCGGCGGGTGGGGTC
GACATCGGCGGCGGCAGCAGCAGCAGCCGCGGTTACGTCTAAGAACGAAG
CGGCTGCGGAAGAGATTGAGGCGTGTTTTTCACCGGGGCGAGCGGACGCC
AAGCTGCTTGTTCGCAAGCTTTCCAAGGGGCTCGACGTGCTCGACCTGTG
CTGCGGGACGGGGGGCTTTGCTCTAAACGCCGCCGCCGGCAAGGCGCGGT
CCGTGCTGGGGGTAGACAAGGCCGCGCGCGCTGTTCGCACGGCGACCAAG
AACGCCGTTGCGAACGGCCTGGGCGGAACTGCGACGTTCGTGAAGGCCAA
TGTTGCCGCTTTCGCTGAGGCGCAGGCCGCCTCGAGGAGGAGAGAAGGCG
AAGTCAACGGGACGTGGTGGGACATGGTGGTGGTGGACCCACCCTCCTTC
TCCACCAAGTCGGCACGATCTACATCCCGAGCCGTCAATGCTTTCACGCG
CATGGCGGAGAGCGTGTCCCTCGTGGTCCGACCGTCCGGAGGCATGGTAG
TGGTGGTGTACGAGCCTGGCGACGGAGTTTTCAAGACTCCGGAGGAGATG
ACGGCGGTGTTCACCTCGGCCGCGGCCCGCGCCGGTCTCAGCTTCTCCTT
ATCCTTGATGGAAGCAGCCTCGTCTTCTTGTTATTCCTCCTCGGCCAGCG
GCCACGACAGAAGCAGTGGCAGTAGCGACGGCAGAAGTGGCAGCAGAGGC
AGCAGCAGTGGTGGTACCAGTGACAACGGCAACAGAGGTGGTGAAGGGGG
GAGCTTCGACGACAGCGGCGTTTCACCACCCACAGCGGCTGCTTCTCGCG
TTGCTACCTCCGCGCTTCGTTCGTCTTCTGCAGCGGTGCCGGCAGCGGAG
AGGCGGTTGAAGGGGGTGGAGAGGCAAGCAGAGGGTGCGTCGGATGGGGT
AGGAGACGAAAGGTCGTTGACGTTGTTGGGTAGTCGCGATAATGATGTTG
CTGTTGAGGGGGCGAAGCGCGGTGGCCGAAACGACATTGAGAGTGATGGG
TCGTCGTCGTCGTCGTCGTCGTCGCTGCCTTTGCTGTCGCCATCGCCGTG
GTTCGTGCTTTTCGTGAGCTCCAAGGCACCATCACGACCATCATCACCGC
CACCGCCGCCTGCTGAAGACGCTGACCCTCTGCTAGGACGATCACGGAAC
GGGGCGTAA