mRNA_P-littoralis_Contig67.17.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig67.17.1
Unique Name	mRNA_P-littoralis_Contig67.17.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: D7FVL9_ECTSI (Xel-1 protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FVL9_ECTSI)

HSP 1 Score: 429 bits (1102), Expect = 4.620e-130
Identity = 307/427 (71.90%), Postives = 317/427 (74.24%), Query Frame = 1

Query:  373 MSSTIITAKRSPDAAATSPGYQGSDGASQAKLTTELPGSTEQIEGQPAPSSEPPKPSEALESKTKGTAAAVAASEVDVKGAKASEE---DATPAREPPAGKEGGE--GDAAGAASENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAEDHHRRVQRQEQGQH-VKGGRGTGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMYRGNRNQNLGPRHG-HMAHGYM---GMQAPPTDGS-PLA-QSMMGRYGMQVPAGGPA 1617
            MSS  + AKRSPDAAATSPGYQGSDGAS  + TTE   +    E Q AP+SEP K +E +E  T   AAA  A EV   GAKASEE   DATP        EGGE    AAG  SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAA  AINGMAI+RKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVV VFEQ      CRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAEDHHRRVQRQEQGQH VKGGRG                                          XXXXXXXXXXXXXXXXXXXXXXXXMYRGN NQ++GPRHG HM  G+M   GMQAPP DGS PL  Q MMGRYGMQVPAGGPA
Sbjct:    1 MSSANVAAKRSPDAAATSPGYQGSDGASSNQQTTEQH-AVSGAESQAAPASEPAKANEVVEPST--DAAADGAGEVAA-GAKASEESGGDATPKE-----AEGGETAAAAAGTPSENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAATLAINGMAIDRKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVEVFEQ------CRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAEDHHRRVQRQEQGQHGVKGGRGM---------------------DSIQGAGDQYGNQQGPHQGKXXXXXXXXXXXXXXXXXXXXXXXXMYRGN-NQSMGPRHGGHMNPGFMNNMGMQAPPPDGSSPLTHQGMMGRYGMQVPAGGPA 390

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A7S3HB55_9STRA (Hypothetical protein (Fragment) n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HB55_9STRA)

HSP 1 Score: 162 bits (410), Expect = 5.130e-39
Identity = 85/182 (46.70%), Postives = 125/182 (68.68%), Query Frame = 1

Query:  676 EGDAAGAASEN-NLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAEDHHRR 1218
            E D A  A EN NLI+NYLP  + ++ L+ +F   G++   KVV DR+T KS+GYGFVKF   + A  A+  +NG  I+ K +KVS+ARP+S +I+N KLYVTNLP  +++  V+ +F+++G IIECR L D  +  ++  AFVQFD + +A +AL  +NG  L G ++GL+VK+AED H++
Sbjct:   25 EHDDARQAMENCNLIVNYLPHDIDDLALKGLFVEFGEIVSAKVVTDRNTKKSLGYGFVKFLCEDDAKLAIQRLNGFTIDNKCLKVSVARPASLEIRNCKLYVTNLPKDYTEIDVIHLFQEFGDIIECRVLKDRNSRTNKGVAFVQFDNKTQANNALS-LNGCQLEGGQRGLVVKYAEDQHKK 205

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A0S7GNH3_9TELE (ELAV-like protein n=2 Tax=Poeciliopsis prolifica TaxID=188132 RepID=A0A0S7GNH3_9TELE)

HSP 1 Score: 150 bits (380), Expect = 1.420e-36
Identity = 74/167 (44.31%), Postives = 112/167 (67.07%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            S  NLI+NYLP  +++ ELR++F+  G++   K++ D+  G S+GYGFV F  +  A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY++ LP   SQ  +  +F  +G+II  R LVD  + +SR  AF+++D R EA+DA+K +NGHV PG  + + VKFA
Sbjct:   54 SRTNLIVNYLPQSMSQDELRSLFSSVGEVESAKLIRDKVAGHSLGYGFVNFVNHSDAERAISTLNGLRLQSKTIKVSFARPSSDTIKDANLYISGLPRTLSQQDLEDMFSSFGRIINSRVLVDQASGLSRGVAFIRYDKRSEAEDAVKHLNGHVPPGGSEPITVKFA 220

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A1A7ZS83_NOTFU (ELAV-like protein (Fragment) n=18 Tax=Aplocheiloidei TaxID=45443 RepID=A0A1A7ZS83_NOTFU)

HSP 1 Score: 150 bits (379), Expect = 5.050e-36
Identity = 75/167 (44.91%), Postives = 114/167 (68.26%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            S  NLI+NYLP  +++ ELR++F+  G +   K++ D+  G S+GYGFV F  +  A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY+++LP   SQ  +  +F  +G+II  R LVD  + +SR  AF++FD R EA+DA+K +NGHV PG+ + ++VKFA
Sbjct:   60 SRTNLIVNYLPQSMSQDELRSLFSSVGVVESAKLIRDKVAGHSLGYGFVNFVNHSDAERAISTLNGLRLQSKTIKVSFARPSSDMIKDANLYISSLPRTVSQQDLEDMFAPFGRIINSRVLVDQASGLSRGVAFIRFDKRAEAEDAIKHLNGHVPPGSSEPIIVKFA 226

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A7S3XNQ1_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XNQ1_HETAK)

HSP 1 Score: 147 bits (371), Expect = 5.800e-36
Identity = 77/179 (43.02%), Postives = 116/179 (64.80%), Query Frame = 1

Query:  706 NNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAEDHHRRVQRQEQGQ 1242
            +NLIINY+P  + + E + +F  +G +   +++ D  T +S+GYGFVK++    A AA+ A+NG  ++ KR+KV+++RP ++DIKN KLY+ N P  + Q  V  +  QYG IIE R LVD  T +S+CTAFVQ  TR+EA+ A+  +N   +PG  + L +KFA D   + + QE GQ
Sbjct:    4 SNLIINYVPPTMAQEEFKALFEPYGTVESCRLMIDMKTNRSLGYGFVKYSNEMEAQAAINALNGHQLQNKRLKVAVSRPPTEDIKNCKLYIQNFPATYDQAAVEQMLRQYGTIIESRLLVDHATGMSKCTAFVQMGTRQEAQAAIDALNQTQMPGCTRPLYMKFAVDKAAKKRTQEFGQ 182

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A3B4URJ8_SERDU (ELAV-like protein n=21 Tax=Percomorphaceae TaxID=1489872 RepID=A0A3B4URJ8_SERDU)

HSP 1 Score: 149 bits (377), Expect = 8.620e-36
Identity = 75/167 (44.91%), Postives = 112/167 (67.07%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            +  NLI+NYLP  +++ ELR++F+  GD+   K++ D+  G S+GYGFV F     A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY++ LP   SQ ++  +F +YG II  R LVD  + +SR  AF++FD R EA+DA+K +NGH  PG+ + + VKFA
Sbjct:   12 ARTNLIVNYLPQSMSQDELRSLFSSVGDVESAKLIRDKVAGHSLGYGFVNFVNPSDAERAISTLNGLRLQSKTIKVSYARPSSDMIKDANLYISGLPRTLSQPELEDMFARYGHIINSRVLVDQASGLSRGVAFIRFDKRAEAEDAVKHLNGHTPPGSSEPITVKFA 178

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A3P9NG85_POERE (ELAV-like protein n=19 Tax=Cyprinodontiformes TaxID=28738 RepID=A0A3P9NG85_POERE)

HSP 1 Score: 150 bits (380), Expect = 9.530e-36
Identity = 74/167 (44.31%), Postives = 112/167 (67.07%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            S  NLI+NYLP  +++ ELR++F+  G++   K++ D+  G S+GYGFV F  +  A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY++ LP   SQ  +  +F  +G+II  R LVD  + +SR  AF+++D R EA+DA+K +NGHV PG  + + VKFA
Sbjct:   54 SRTNLIVNYLPQSMSQDELRSLFSSVGEVESAKLIRDKVAGHSLGYGFVNFVNHSDAERAISTLNGLRLQSKTIKVSFARPSSDTIKDANLYISGLPRTLSQQDLEDMFSSFGRIINSRVLVDQASGLSRGVAFIRYDKRSEAEDAVKHLNGHVPPGGSEPITVKFA 220

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A8C6NSD6_NOTFU (ELAV-like protein n=1 Tax=Nothobranchius furzeri TaxID=105023 RepID=A0A8C6NSD6_NOTFU)

HSP 1 Score: 150 bits (379), Expect = 9.750e-36
Identity = 75/167 (44.91%), Postives = 114/167 (68.26%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            S  NLI+NYLP  +++ ELR++F+  G +   K++ D+  G S+GYGFV F  +  A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY+++LP   SQ  +  +F  +G+II  R LVD  + +SR  AF++FD R EA+DA+K +NGHV PG+ + ++VKFA
Sbjct:    7 SRTNLIVNYLPQSMSQDELRSLFSSVGVVESAKLIRDKVAGHSLGYGFVNFVNHSDAERAISTLNGLRLQSKTIKVSFARPSSDMIKDANLYISSLPRTVSQQDLEDMFAPFGRIINSRVLVDQASGLSRGVAFIRFDKRAEAEDAIKHLNGHVPPGSSEPIIVKFA 173

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A672KVF2_SINGR (ELAV-like protein n=4 Tax=Sinocyclocheilus grahami TaxID=75366 RepID=A0A672KVF2_SINGR)

HSP 1 Score: 147 bits (372), Expect = 9.910e-36
Identity = 75/169 (44.38%), Postives = 115/169 (68.05%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFAED 1206
            S+ NLI+NYLP ++T+ EL+++F   G++   K+V D+ TG+S+GYGFV +   + A  A+  +NG+ ++ K IKVS ARPSS  I+++ LYV+ LP   +Q ++  +F QYG+II  R LVD  T +SR   F++FD R EA++A+K +NG   PGA + + VKFA +
Sbjct:   42 SKTNLIVNYLPQNMTQEELKSLFGSIGEIESCKLVRDKITGQSLGYGFVNYVEPKDAEKAINTLNGLRLQTKTIKVSFARPSSASIRDANLYVSGLPKTMTQKELEQLFSQYGRIITSRILVDQVTGVSRGVGFIRFDRRVEAEEAIKGLNGQKPPGATEPITVKFANN 210

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BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Match: A0A667Y9X8_9TELE (ELAV-like protein n=2 Tax=Myripristis murdjan TaxID=586833 RepID=A0A667Y9X8_9TELE)

HSP 1 Score: 150 bits (380), Expect = 1.170e-35
Identity = 74/167 (44.31%), Postives = 114/167 (68.26%), Query Frame = 1

Query:  700 SENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTGKSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKLYVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRREAKDALKFMNGHVLPGAKKGLLVKFA 1200
            +  NLI+NYLP ++++ ELR++F+  GD+   K++ D+  G S+GYGFV F     A  A++ +NG+ ++ K IKVS ARPSS  IK++ LY++ LP   +Q  +  +F +YG+II  R LVD  + +SR  AF++FD R EA+DA+K++NGH  PG+ + + VKFA
Sbjct:   63 ARTNLIVNYLPQNMSQEELRSLFSSIGDVESAKLIRDKVAGHSLGYGFVNFVNPNDAERAISTLNGLRLQSKTIKVSYARPSSDAIKDANLYISGLPKTVTQQDLEEMFTRYGRIINSRVLVDQASGLSRGVAFIRFDKRSEAEDAIKYLNGHKPPGSAEPITVKFA 229

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig67.17.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FVL9_ECTSI	4.620e-130	71.90	Xel-1 protein n=1 Tax=Ectocarpus siliculosus TaxID...	[more]
A0A7S3HB55_9STRA	5.130e-39	46.70	Hypothetical protein (Fragment) n=1 Tax=Spumella e...	[more]
A0A0S7GNH3_9TELE	1.420e-36	44.31	ELAV-like protein n=2 Tax=Poeciliopsis prolifica T...	[more]
A0A1A7ZS83_NOTFU	5.050e-36	44.91	ELAV-like protein (Fragment) n=18 Tax=Aplocheiloid...	[more]
A0A7S3XNQ1_HETAK	5.800e-36	43.02	Hypothetical protein (Fragment) n=1 Tax=Heterosigm...	[more]
A0A3B4URJ8_SERDU	8.620e-36	44.91	ELAV-like protein n=21 Tax=Percomorphaceae TaxID=1...	[more]
A0A3P9NG85_POERE	9.530e-36	44.31	ELAV-like protein n=19 Tax=Cyprinodontiformes TaxI...	[more]
A0A8C6NSD6_NOTFU	9.750e-36	44.91	ELAV-like protein n=1 Tax=Nothobranchius furzeri T...	[more]
A0A672KVF2_SINGR	9.910e-36	44.38	ELAV-like protein n=4 Tax=Sinocyclocheilus grahami...	[more]
A0A667Y9X8_9TELE	1.170e-35	44.31	ELAV-like protein n=2 Tax=Myripristis murdjan TaxI...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig67	contig	P-littoralis_Contig67:108352..126798 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FVL9
PFAMs	RRM_1
Model size	5347
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K13208
Hectar predicted targeting category	other localisation
Exons	10
Evalue	3.47e-141
EggNOG OGs	KOG0145@1\|root,KOG0145@2759\|Eukaryota
Description	RNA binding
Cds size	1776
COG category	DU
BRITE	ko00000,ko03019,ko03041

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig67.17.1	prot_P-littoralis_Contig67.17.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig67 108724..122793 +

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


Feature Name	Unique Name	Species	Type	Position
1680791392.917091-UTR-P-littoralis_Contig67:108351..108723	1680791392.917091-UTR-P-littoralis_Contig67:108351..108723	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig67 108352..108723 +
1680791393.0442271-UTR-P-littoralis_Contig67:122793..122796	1680791393.0442271-UTR-P-littoralis_Contig67:122793..122796	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig67 122794..122796 +
1680791393.0564673-UTR-P-littoralis_Contig67:123602..126798	1680791393.0564673-UTR-P-littoralis_Contig67:123602..126798	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig67 123603..126798 +

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


Feature Name	Unique Name	Species	Type	Position
1680791392.930474-CDS-P-littoralis_Contig67:108723..109002	1680791392.930474-CDS-P-littoralis_Contig67:108723..109002	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 108724..109002 +
1680791392.943142-CDS-P-littoralis_Contig67:110349..110457	1680791392.943142-CDS-P-littoralis_Contig67:110349..110457	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 110350..110457 +
1680791392.9566174-CDS-P-littoralis_Contig67:117028..117193	1680791392.9566174-CDS-P-littoralis_Contig67:117028..117193	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 117029..117193 +
1680791392.969442-CDS-P-littoralis_Contig67:117774..117882	1680791392.969442-CDS-P-littoralis_Contig67:117774..117882	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 117775..117882 +
1680791392.9804788-CDS-P-littoralis_Contig67:118606..118816	1680791392.9804788-CDS-P-littoralis_Contig67:118606..118816	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 118607..118816 +
1680791392.9951773-CDS-P-littoralis_Contig67:119877..120120	1680791392.9951773-CDS-P-littoralis_Contig67:119877..120120	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 119878..120120 +
1680791393.0058553-CDS-P-littoralis_Contig67:120880..120964	1680791393.0058553-CDS-P-littoralis_Contig67:120880..120964	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 120881..120964 +
1680791393.017595-CDS-P-littoralis_Contig67:121558..121955	1680791393.017595-CDS-P-littoralis_Contig67:121558..121955	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 121559..121955 +
1680791393.0311828-CDS-P-littoralis_Contig67:122611..122793	1680791393.0311828-CDS-P-littoralis_Contig67:122611..122793	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 122612..122793 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig67:108352..126798+
coding sequence from alignment at P-littoralis_Contig67:108352..126798+

protein sequence of mRNA_P-littoralis_Contig67.17.1

>prot_P-littoralis_Contig67.17.1 ID=prot_P-littoralis_Contig67.17.1|Name=mRNA_P-littoralis_Contig67.17.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=592bp
MSSTIITAKRSPDAAATSPGYQGSDGASQAKLTTELPGSTEQIEGQPAPS
SEPPKPSEALESKTKGTAAAVAASEVDVKGAKASEEDATPAREPPAGKEG
GEGDAAGAASENNLIINYLPSHVTEIELRNMFAVHGDLAHVKVVYDRSTG
KSMGYGFVKFTTNEAAAAAMAAINGMAIERKRIKVSIARPSSKDIKNSKL
YVTNLPDHFSQDQVVGVFEQYGKIIECRTLVDPKTTISRCTAFVQFDTRR
EAKDALKFMNGHVLPGAKKGLLVKFAEDHHRRVQRQEQGQHVKGGRGTGN
NQGGGSGHYGNQQQQQQQQQQGPHEGKGRGRGKGKGGRGGGGGGGGGGGG
GGGGGGGGGGGGGMYRGNRNQNLGPRHGHMAHGYMGMQAPPTDGSPLAQS
MMGRYGMQVPAGGPAAAVAAHQAAAYHAAQQVPGGYNMMHLNNAMGMMNV
GTGTAAGPPGGGRPDGTTAGPVDGSAGGAVTFGMVGANRSMIRGDQQQQG
QPQQQQQQHGAPAGVPQQMLPPSGGFGAAGPGMTPYVKDMPGANLSGASG
VTPAKPHQHHQQAGGDRGDQLQPKQQQQQQQQQQGFVLRGV*

mRNA from alignment at P-littoralis_Contig67:108352..126798+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig67.17.1 ID=mRNA_P-littoralis_Contig67.17.1|Name=mRNA_P-littoralis_Contig67.17.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18447bp|location=Sequence derived from alignment at P-littoralis_Contig67:108352..126798+ (Pylaiella littoralis U1_48)
CCCACCCGCCCCACCAACTTCTTCTGGGCCGCTAGTTGCTCCTCCATTCA
TCTACTTCTGCTGTGCGACTTCGTCTTCCATCATCCTTGCGCAGGCAGCT
GGCTTCTTCGCAGACGAAAATCTGATAAAGCGAGCAGCAGCAACACGAAC
GCGTGTGTGTGTTTGTGTGTTTGCTGCGGGAATACACAGACAGGCAATAA
TCTCCATTTTTGACCCCTTCGGACCGAGAGGCTGTCACAGGCACACAGCA
CACAATCAACGTACACACACACATACGCACAAATAGCACTTGGCCGGACA
TCTTCAGCATCCCAACCAGAGGGCACCGCCTGAGGACAACTGGCGTGGAG
CACAGGGAGGCGCACCGTTGCCATGTCGTCTACTATCATCACCGCGAAGA
GATCTCCGGACGCCGCAGCCACATCCCCAGGATACCAAGGGTCTGATGGA
GCATCACAGGCGAAGCTAACCACCGAACTACCAGGAAGCACTGAACAAAT
TGAGGGGCAACCAGCGCCTTCTTCGGAGCCGCCCAAGCCATCGGAGGCCT
TAGAATCTAAAACCAAAGGTACAGCAGCTGCAGTGGCTGCCAGCGAGGTG
GATGTGAAAGGCGCGAAGGCTAGCGAGGAAGATGCCACGCCTGCGAGAGA
AGTGAGTTACAACCGCGCCGTGTGAAGAAAACAAGTCATCTTATTTTTCT
CCTGTTATCCAGTCAAATCTGGATTATATAATGCTTCGAGAGTATGTATT
TGTACTTGTATTGTTTTATACAAATGAGAGACTCTTTTTGCATAACCAAG
AATAAGTGTGTCGTGTGTTGGTATCTTGTCGGATTTTTTTCTATCCTGGA
CAACGCAAAGCTGAGCACGAGTGCATGTCTTAAGAAAGAGAGCAATGCAG
CTGGCGCATCCGTGTTGCACAGCAGTCTCACGCACGCGAGTTTTTAGTTT
TTCGATGCATCGGCGCTCTGGTCCTAGTGTTCCCATCAAGTCGACCGTCG
AAAAATCTTAGAGGGGCCGGAAAAACAATCGCACCCACCCACAAATTTGT
TACGGTCTCCCCAACAAGAAAGAGGCAGCAGACAGATTCGCTGGAGTTTC
GTTCGTCAAAAAGCCTTAGCTGGGATAGAAAGACAAACAGACAACCTGGA
GGCGCGCGCGTTTGTTGGACCTTTACATTTGTCTCGTCGTTGCTCCGGAA
GTTTACATCTTTGGCAATCCTGTAGTGTCTTTCTTATCCTGTCACGCGCA
TTTGGGGCCCTTCATTAACCACAAACTAATCTGCTTCTTTTCACAACACT
CGAGGATTAAGAACTGAAGGAAAAATATTCCCGCAGCCAGCGCCAGCTCC
AGCGTCAGCGCCCCAGCAGCCTCTCCTGTGCGGCCCTTTCTTCCTTCTCT
TTATACATATATACAATGGAGTAGGAATGTTTGACACAAGTTTTTGTCGG
TGCCCCAATATTCTTCCGTATTTTTCCGTCGTTTTCTTTGTTTTGCTCTT
TGTTTCACAAAATGTCGCTCTCATCCCCTGCTTGCTTCCTTACGCTTCTC
TGCGTCCCTTGATATGTTCGATGCCCACACACAGCAGAAGTACATCAAAG
TTTGATATCACAATGCAGACTCAAAGTCCACCGCTCGTTTTTTTGCGGCG
CTCTGTCCATGCGGGTGATGTGTGTGTCAGTTCAACCTCAATTCAATCAT
GTTTAACCACGCATGTCCGGTGACGTTTTGTTTGGCGCTGCCCTGTTGTT
GTGCAAAGGCACGTACATTTACCTCGAAGTATCACACAGGCTAAAGCCTC
ATCCCCTCCGACACGACAAGACCACAAACCATTTGCATTCGTAACGAGTC
AAATGGGACACCGATGGGCAAGAAGGGAGCAGCTGAAAACACCCACCAGC
CCCCTTTTGTTTGCCGTTGTCTCTTTTTCCCAAACCCTCCGTTATTCCAA
AACCTGTTGTTGTGACTCTCTACGCGAAAACAACAACAAACACAACAGCC
GCCAGCAGGCAAGGAAGGAGGAGAGGGAGATGCAGCTGGAGCAGCCAGCG
AGAACAATCTTATCATCAACTATCTGCCATCTCACGTGACGGAGATCGAG
CTGCGGGTAAGCCAATCTTCAATCTTCCGTTATGTACTGCTGTACATCGT
ACACGCCCCCGGAGGTTACTCCGTCCCCCTGTCGTTGTATCCAGAAAGTT
GGAATGACGGCTGATGTCGGGAATATTTTATTGATTTCAAGTACCCGGCA
AGTACTGCTGTTGCTCCCGTGTTGCCGTTGTTGCCCGAGAGCAGGTGGAA
ACGAGCCCTCATTTCGTGTTACCTCCTAGTGTACCATGTCCTTTAATCTC
TAATTTCGGGTGAAGTGTATGCTTTTCAGCGTTTTTATTGCGAAGAGTTT
TGTCCTGTCTCCTGTATTACATAACAATGATGACAACTTTTTTTATGGCG
ATATTCCTCCCCTTTTTTTGAAATGGTATTTTGGGTCTTCCTGGTTTTCT
TTACTCTTATGGTACATCAGATGTCCCATACCTTCGTAAACAATACAGCA
GTAGATTACAACCACTTCTGTAAACATCACTCGTGAATATCATATCATAC
ACATGATATGTCACACGCATGTGATCTGGTCGGCTCATTTCAAAATCTAT
ACTTTGAAGAATTTTAGAGCACCACATGTTTTTTTATGCATACCGTGATT
TTAGGAACTCGTGCGAATTCGTATTTCATTTTATTGTATCCTGACATGCA
TTTATATCCCGCCATCTTTTTGGAGGCCGTTTAGTAAGCAGAGGCGTCGG
GGTACGAACAGCAGCGCTCTGCATTGAGTATGCATCCAACCATGATTTGT
CGTTCATCGCATGATGTCAACCAGTAACACAAAACGTTCGGCGTCTGCAG
TACTAGAATAGTTTGAATCACGTTTCAAAACTCCATACACGCGAGGTCCG
GGTGTGAGTGACAGGCAGCCATCCACCTCTACGAATATGATGTGGTTCTC
TGGGAGTACTCAGTACCCAGCCGACTTTATGTCCGGGATCACTGCTGTCC
CTGTATGTATCCATTGTCGATTGCAATTGTGAAACATGTATGATATGTGT
GTATCCATAAACGAGCGCAATACCGGCACGCTTACATAGACACGCGTTCC
TTGTTGCTCCTGGATTTAAGGGCAAAAGTCTATAATTTGCACCAGCGCGT
GCGCTCCCAAATTTTTTATGGCACACAAACCGCGGCCACCTCCTCTCGTC
GCTCTCTTGAAAGTTCTCCACATCAACATCGACCTCTATGAGAAACATTT
TTCATTGGGTCGTCGTCCACCAAGGAGCTTGCCAACACTCCACCACCTCT
CCGTCGCGTGTGCGAGTGGAACAAAGAACGAGACGAGTCATTAGTCGGCA
CAGCCAAAGCACAGACCAAGGATAGAAAAAGGAGATGAAATCCTTTTTTT
TCACTGTGTATGAGAGGGTCATTGTTTCTCCCAACCAGTCCAGCTGCTCG
TGCAAGTAATGCTGTATAGTTTGCTGTGCACATGTGTGAAAGAGCCAGCC
AGTATTGGCACATCAAAATGTGTGTGTGTCTTGACATTTTCACACCCCAC
CTTTCCAGCTTCACTACCTTCGAAGTACCATGTCATATCGCAAAATGATT
CACATGTCGTGTGGATGATACGAAGAAGTCGTGGGTATTTTTGCTTTCAC
CAGGCCCCAGGTCACAGCAGCTGTTTCAGTCGTTGTTGCCCGTTTCGGCC
AAGTGTCTCGGCGCCACTCTGTTTTTGGCACGAAGTTCGAACAGCCCCAG
TGTGATTTGTCTCGAATAAACATAAAAACAAGCACACACGGCGATCTGAT
CAGAAACCTCACCACATTTTGCTTTACCTTTTCACACCCAACAAAGGTGT
AGGCTTGGTGCCCAGGGAACAAACGGGGATAATCAAAGGACAAAAACACG
CACACACCCTCAACTGGGGCCACCCACCCACAACCGAGTCCCTTTGTTTC
TCTGACAGCAGTTCTACACACCGGTGTACGATATGTGCCTAGTTTATGAC
CACGGGCTAGAGTGCGGCGGTACAGTAGCGAGCTAATCTGAGGATCAACA
ATGTATATTATGTGTTCTCAATTACGAAGCACCATTTGCACAAATGCACA
AATACAAGGTATCATCGATGGTTAATAATCTACCAAACCATCTGCCAAGT
ACTAGAAGAACAAAATTGGGACTCGACACGATGGGTTGATATATGAAACA
AGCGTGATGACCTGATACTAATTTCAAGACGGAATACTTGAAGGTCTTCG
AAGATACTATCAGAAGCATCGGAATGATATCTCTGTTTGTAGATACGAGA
TACGAGACACGAGACATATCCCCAGGATATCGGAACACAAATCAAAACCA
AATGGTCAAGAGAGGCTGCATATTTAGGCATAAACTTTATGCAGTCACGT
TAGGGGCGCAGGTATATATATGTTCAACTCATGATATGCAACCAACCATT
GCATACGGCGTTACCCAGCAGCTCCATTGTCGTGTCGAAATCATGTGCAG
CAGTGTTTCCGCCAAATCCTTTCCAAATATCACACAACTGCTGTATGATG
TACTCGTATCATACATGCGCCTTCGAAAACAAATATTCACCCAAGCACCC
AACTGCACTGGTAGATTCAGGTTTCCAAAATACCATACCGAAAGGCGAGG
ACTGGCACCCAGAACAAACGGGACGATAACCACGTAACACACATCGTACG
TACGTGCAACAGGAGGAGAAGGAATGTGATAAAGAAACTGCTCTTTGCGC
TGAAAAGGCCATACTGCTGTGCAGTGATTGTTACAAGCCCGATCTGTGCT
GAGAAGGCTAGTAAGGGTATGGCATGACACAAGCCGGCTCTGTCACACAT
GAGGACGCATTATTCAGAGTGCCCAGTCCTTCTTATTTCCAATGGCATGC
GTGAACGGAAGAAAATATTCCTGGTGATCAAGACGAGGCAAAGATGGCGA
GAGTTGGGGATAACTTGTCCGGAAGTTGGCCTTGAGAGAGAAGGGAAAGG
TGGACCCACAACAATCAGCTTGCCCTAGAGAGGTGGGCCAGTGGACAGGA
CCAGAAGATAGTGGTGTTGAAAACACTTATCTACACGAGTAGTGGTCACA
CGAGACACCACGACGACAATTATCTTGTTGAGTCTGGCTACCTCAGAGGA
GTTGCAAAGGTACATATCTATGCCTCCGTTGATATTCTACTCCAGGTCCC
AAGGTGGACAGAGGAACACATCCACTAGCGTATGTAGCATGACACTGTTT
GTACTTGTCATGTGTCGGTGGGGAAAACAAAACTAGTGCTGCCAGCAGTA
CGAGTACCGGTATGGTATCATATGCATTCATATCTTGAACGAAGTATGTA
GTTGTTGCGACGACGAAGAGCCAAGGGCCAAGGTGTTACAACTCTCACGT
TTTTCGGGGGACGAAAAACTGGCCGTCTAGCCAAAATCGGATCACGCACA
CACAACGAAGCACCTCGATGGCTCCCTCCATCCTTAATACAGAAAGCAGG
GTAAATAATCCAGTCGTCCACACGTCCGTAGTCTGCATCCACGCGCCGCC
GTGATTCAACCGATTACCAGTCATTCCAGGCTTGGCCGCGCTCTACACTT
TTTCAAAATAGTACGGCAGTGCTCCAAAACTTGTTGGAAACCTGTCACCG
AGCTTTTCCGATGAGGAGTTGTACTCTCCTCAGCCTCTCGACACTGGTAT
CATAGGCCTGAATTCTGGGTTTGTTTGGTAGCCAACCTTCTTGTGCCCGT
GCGTGTCGTGAACACACTAATGCATACTGCTGCTGTACACCACACCAGCA
GCAGGACAGCACCCTCACCGGTGTGAGATATTTGAAGCGCCGTTGTCGTT
GGGCCGAAAGTTCAAAATTTCGGAAATTGTCTCCTGGGTTCCACGGGTTA
TCTTCTGAGAAGCAAGAAACGATTTGCATGACATGATATCATACGAGCTA
AATACTCGGAGTATATGCTTTGATATGTGACACTTCGAACATGATGTGAT
GTACCGTGAGAGCCTCTTCATGCCACGTGCCTTTATTTCGGACGAGTCTG
CAGCCACATTCGCGCGTGATTCCCGTTTTTTATGTGGTAAACACACCGCC
GCGTGTATTTTCCCAAGTAGCCCTTTTGCCCCTAGATAGCCAAATGTTGC
CATTTTGGGTCGGTATTTTGATATTCGTCACTTGGAATATCACGTGACCT
CCAATACAGCAGCTAAAGTTTCACCTCGCTAACCGCTCGATTTCAAAACG
CATTCTAACAGCAAGTGAACGCGTCGCTATTTTTTGGCGACCCGCTTTTT
TCCTCCTACTACAGAGCTTTTATTTATCAATGCTTTCATCATTTTTCACA
CGGGGGAAAAAGGGTTAAGGCGTGTTTATCCCACCAAAGGCGACCTCCTT
TTTGGCGGGACTGACGACCATTGCTAGGATTTTGCGAAGAATTGCAACGC
TGCTACGTACAAGCAGCGCTTTGTTTGAACAGTTCGATATTTCGTCCTTG
ATGTCGATTTTTAATGTTTCGTGAGTAAAAAATCACGAAATCACAGGGTT
GAAATAGCAAAAGTGGACACACGGTATTCTTTTCATCGTGTTGTGCTCCC
GTCACCAGAAAACAACAAACGTCGAAGCAAAACCGTCAAAAACCGAGGGA
ACCCCGACAAACATCCGGCCATTATCGCGTACCACGTACCATGTTTTCCG
GCGACGGAAATGGTCTCAGGGAGCCATCGTATGGGTCAAACCACGCCACC
CTGTACCCGATGAATACAAGTATCCGGCCATGATCGGGTACTCTTTATGA
TCGGGTACTCTTTGTGCTTTATCAACAGAAATGGTCTCAGGAATACGTGC
CATGGGCCAAACCACGCCGCCACCCAGCCCTGGCCTCTATTTCGCCAGAT
ATGCCCGATTTTGGCGACTCGATTCACAAAGGGTGCCCAACTACTTCCCT
CACCCGAAGGTGGCCAAGAACACTCGGGCTCGGCGGTGAATGGCCCGCAC
AAGTCATCGTCACCTTAACCCCCCCGCTACGAACGGTACTCGTGGCATAC
GCATACTGCTGTATGCTCATGTTGATGCGCGAGATCTCTCACTCTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTTTGTCTGTCCCTAGAACCTACGTATTA
GTATTACTCAGAATCGTATGAATGAAAACGTAAAATACTTGGAGCTCGCG
CTAGAATCTCAAATCATCGTCTTTCGTCCTTCCCTCTCGTGACGGGCACA
GCACAGCAGTTTCCTCACGCAAAAAATGGCTCGTAGATGTCGAGATATAC
TCCACACAGATTGTTGCCACACACTCACGCTGTCCCCTGACTGTCAACAT
ATAAATGAAATTATCAAAATGTCAATGAAAAAAACAAAAGTAAAAATACC
GGCAAATTCCTCCGACCGACCCGGTCGGACAATGGTACATTGGTTCTTTT
ATTTTATTGATGAATTGTTCGGAGACACACGGCAGCAGTGGTTCGCGACC
CGGCGAAGGTTAAAGTATGAATAAGACGAGCTACTGCGCGTACTTGTAGA
CCTATACTAGCTTCTACCCTACATTTCCGAGTCTAATTACTCCAAAATCT
TTGTACAACAAAAATTCTCATAGTCATAAATGTCCACAGCAGTGTTTGCA
CTGTTCTTCTAAATTAAGAAGAACATGGGGCACGATAAGAAATAAAATAT
GATAACGAGTTGCAGATTTGTGATGTATGCAGTGCTGGCTTTCTCCGAAT
CACTTGAAGACCTGCGCCGCAGGAGGCAGCACGCTAGGCGCTTCTGCTGC
TTTCACCTACATGGTACACCGCTGTCACGTTACGCTCAGACACACATACG
CCGTGATCACTACAGCGGGGACAACGCCGATTGCAAAGCTAAAGCGATTG
ACGTGGACCCGTTCAGTGCAAACAGCAGCTTGTGACCTAGCGGTACGTTG
TTGAAGGCTCAGTCCGAGTGATACCTTACAGTGGGTTCTTTGTCGAGAGG
GACGAGTCGAGTAGCCAACAGGATGGCTTCCTGAGACGATTTCTGTCGCT
GGAGAACAAGGGTATGTATCCGATAATGGCCGGATGTTCACCGGGTATTC
TCGAATTTGGTCAGTCTTCTCGTTTGTTCGTGTTTTATATACCATAAACT
CGGTAAATAGGGTGTGTGTATTTCTACATAAGTGTCGCATAGAACTGGAC
CAAGGTTAGTCGTCAAATACCGGCGTGATACTCTTACAGCACGTCGCTGT
GGTTTTCCTTGTCAAAGACGAATACAACAGCGCGTCAAGTCACCACCGAC
AGTCTGGTACTCACGTACGCTTTCAGTATACGCGCATGATTTGGGCATGC
ACTCCTTCATAGGCCATATCATACTTGAAGCAGTGACAGCGACACTGAAG
CACGACTTTTGAACAGCAGTACCATGCCGAATGTCGAAGCACCGGTATCC
TCAGGTGATGCGCTCGCGTGTTAACCGTTGTCCGTCGGCCGTTCACTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TGTCTCTCTCTCCCTCTCTTGGTCGCCCGCTCTCTCTCGCTCTGCTTCAC
TGACTGATCAATTGCGTGCTGCTGCAGAACATGTTCGCGGTGCACGGAGA
CCTCGCGCACGTGAAGGTCGTGTACGACCGGTCGACAGGAAAGAGCATGG
GCTACGGTTTCGTCAAGTTTACCACGAACGAGGCAGCGGCGGCGGCAATG
GCGGCCATCAACGGCATGGCCATCGAGCGGAAACGGATAAAGGTGCTCGT
ACCTGTATGATGCAGCATTCATAGAAAGTTATGACGAGACAGAGGCCCAC
GTATACCGTCGGAGGTGCGTGATGTCAGGACGAGCACCGTTTGTTGGTCA
GCTTTCAAAACAGATCCAATTACAGGTAGAAGGAGCACAAAAAAGATGTG
GTGTAGACGTTTGGAAGATTTCCTCTCAACTAACGTGGCATGCCTGTCAC
GGCAATGCGGATGGGGTTGGTTCGTTCAGAAATTGTGAAGAAAAGGCAGC
CCGGGGCGCGAGGTCTGCAGAGTTTATGGCGGCCGCTGTTTCCGCCCCAG
GCGACGGACGGCTTCGGGTTCAAGGACTTGTTTCGGACTGCGTACCGTGT
TAACGCTACGCGTATCAGTAGCTCAACCCATTCGCCAGTTGCACGATCTA
TGTAGAGCGCGACCAGCTGACCGGAAAGCACGTCTTCCAAGTCCGGCATG
CATTCCTTTGTTCAAAGGTTCGGCAGGCGTTTTGTTCGTAACGTTACGAA
CGCGCGCCGGGCCGGACGGTCACGCCGCTCACGTTCGGAACTCCCTACCT
TGTGGCTTTCATGCTTTTTGCAGGTCAGCATCGCACGGCCGTCGTCGAAG
GATATCAAGAACTCCAAGCTGTACGTGACCAACCTGCCAGACCACTTTAG
CCAGGACCAGGTCGTGGGCGTCTTTGAACAGGTACGCATGGCGTGTGCTT
GTGAATTGTGAAGGATTTCGGCTAACTTTTTCGCGAATAGTCTCATTTGC
AATCCGTGCCTCTCTTACAGACGTGCGAATTATTTTTATTTTTCTTCTCT
GCTTCGTTCGACGGGAACGGTCGGTCAGTCAAGTCAAATCGGATAGATCC
CTCTCCCAATACGTACGCTCTGCAGCGTTGCGCTCCTTCCCCCCCAATCG
TTTCCATTTCACGACCCTCAGCGTCACCCCTCAAATCGAAGGCGTTTGAG
GACTGTCGTGGCTAACGGCTCTACTGCGCTGCCGTTCTCCGCTTTTTATT
TCCTGCTTGTGGAGCCTGGTATCCTCTTCTTCACTCTCTTTTCACTTGTC
CCTATGTGACTGCTTTGGCATCGCGTTAGACGGCGTATCATTCGTACCAT
ATAGTATGTGCTCAAGAGACTGTCAACAAACGCGTGTGGTGTTCGGTGTT
CCTGTCCCATGCATGACATTCCTATGATACAACCTCCCCTGAGCATACAT
ATGGGTCCGGCGGTACCTTGGGCACGAGTCCGCTTTTATTATGTTCCTGG
AGCGGTCGCTACAGCACTGGTGTGGCTTAGTTTGGTGAGACGCTCCTGCT
GCATCGTGACTCGTGCCTTTTGCTCAACACGTCGTTCGCATGTTGTTGCA
CTCGTACGGCCTGCGAAATTCCATCATTCTTGGGCGACCCAAACAAAATA
AACAGTATGGGAAGATCATCGAGTGCCGTACCCTCGTGGACCCGAAGACC
ACCATCAGCCGCTGCACGGCCTTTGTGCAGTTCGACACGAGGCGAGAAGC
CAAGGACGCGCTCAAGTTCATGAACGGCCACGTCCTCCCCGGGGCCAAGA
AGGGACTTCTCGTCAAGTTTGCCGAGGACCACCACCGCCGTGTTCAGCGT
CAGGAGCAGGGACAGGTACTGGTACTGGTATGTCAGTAGATACCCTTGTA
GATGTTCTCACACAGAGGTCGTTGTTGTTGTGGTTGTTGTTTCGTTTCGG
TGGTGGTAGAATAGATGCACGCGAGGCGTGTTTTTTTTTTGTTATTTTTG
CGTCGATGCAGTAAAAGTTGCGCCGAGTTTCGGCAAGGACCAACATCGCC
GATGCCTAGTGATGACGGCCACGAGCGACGAGCAAGTGCCACGCAGGTAA
ATAGATGGGTGCACGACTGGCCCCGAGCCCAGCGCACGCGCACGCGCTCT
TCGGGGTTGTGAAGTAGCGTGGCGCTGTGTCGTGGCGCGCTTGCCAAGAG
TAGACGCGAGTAGACGCGGCTGTACTTACACTTCTGCCGAGGGCGGTAGA
CGAGTGATGCGATGGCACCCCTGAAGGTTGTGGCGGAAGCGGGTTGAAGT
TTGTTGAAGGACCCACTCTCCCGTCATGTCGCGCCAGCAGGAAAAAGAGA
GAAAGAGGGGAACAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGACG
ATCTCTGTGAAATCGACCTTACGTTTAGTTGCGTTAAGTTGAACTCTGTG
ATCGTGAATCAGGCAGGCAGCACCTCGTTCCATGACACCCCCTCGCCGTG
TCAAATGTGCGACACCACAACAAGACGAACGAGCTGTTGTCGCTCGTGTG
TAGACAAAGTCGCGCAGATCTGATTTCTCTCATTTGCCCGGTCCTGTTTA
AGCAAGGCTGATCCGCTTGTGGCAGAATCGCAGCAAAACGTGTAGCGACG
TCCAAGCCTTAAACAACACCCAGCGCGACTTAAGTTTGCATGTTTGCTCT
CTACGTCAAGGCTTGCACCACTTCCCCTGCACCGGGCACACCAAGACGAT
AATTGTATGATGTTAAAAACCACCCCCCCTCTCCCGCCGCCGCTGCTGCT
TGAGCCGTGGGCAAAGCTACACTGCATGCAGCGCCGCATGACATGACACT
CATACTCCCCCCCCGGTACCTGAACGACGTGTTGCCATGCTCTTGAACAA
AACCGAACCTCGGGAACTACGACCAGCACGTGAAGGGTGGCCGCGGAACG
GGCAACAATCAGGGCGGGGGAAGCGGCCACTACGGCAACCAGCAACAGCA
GCAGCAGCAGCAGCAGCAAGGCCCGCATGAGGGTAAGGGGAGAGGACGGG
GCAAAGGCAAGGGGGGACGCGGCGGCGGCGGCGGCGGTGGTGGCGGTGGT
GGCGGTGGCGGCGGCGGCGGCGGCGGCGGTGGCGGCGGTGGCGGGATGTA
CCGTGGCAATCGTAACCAGGTGGGGTGGTGGGTGGACGGGGTGCTCAGGT
GTGCTTGTTTGTGAACATGTGACTTTTTTTTCATTTTTCTATTATACTAG
GTAATTCCTTTCAGTATCAGTTCTCCCTTTAACAATGAAGGCTTTGATGG
GGTATGATATGATAGCACCGCCGTAGAGGGAACGTGAGCGACAAAAAAAC
CCCCCGATAAAAACTGGATTTTTTGTGTGGCCTTGGTGGAGCATCTAGAA
ACGATTATCGCGCTAGCGCTCTCGTGCCAATCCAGGCGTAGTCGATCTAT
CATATCATATCACATGTGACATGATGTGTTGGACACGTGTGGTGTGCCTA
CAGAGAAAACACGCGCAGCAGTATGTGATTTTTTCAAGGGTCGAGTGGGT
CTTAGCTGTAGGAACGATCTCGTTGTTCGCCTCTTGTGTATGTGCGCTGT
ACGTCAAGGCGGTAAGTAAGCCCTCTGTGCCACAAAAAACGGCCGTGCAT
GCTCCGTGTGGTGTTGTTGGAAAGTGTTCGGCCCGTTGTGATGAAATTGT
AAAGTGTGTTCACGGCAGTGAAGGCCGCTGCTGCTGCCGTCGCCGCCACC
GCCCGGAGCTACTCTCGTGAATTTCAGCCGAAGCTCTACACACCCACCCC
CATGTTGTTATATCAGCGTCCTCGCTGTGCTTCCTCACTCACTCACCTGT
GCGTTCGGTTGCGCGCAAACACGACGTGTTCTGCTGTTCCACAATTTTTC
GTCACGTACACGTGTGTGCGTGTGCGCAGAACTTGGGCCCGCGGCACGGA
CACATGGCCCACGGGTACATGGGCATGCAGGCGCCTCCGACGGACGGGTC
GCCGCTTGCACAGGTGCGGAGGAGCGACCTCAAGCCAGATTATGTGTACT
GCTGTTGTAACGTCAAAAGCACGCTATTTTCATGCTTGATCTCCTGGCTC
CGCCGTTTCGTTCTTGCGTTACATCGTTGCGGCCCCCATTCTGTTTCATG
TCGTATGATGGTTTATTTTTACTTTTTACTTCCACGGTCGAGATAAGTTT
CGTGATATGATAACTTAGTGGATCTGTTCCGTCTTGCCTGTCCCGAGCGC
GGTGTGTTGGTTCGCTTCCGTGTCTTACGACTCCGTTTTTTCTCCAGAGG
GCGAAATGAAGGCGCGTGCATGGTGTGGTGTAATATGAACAAGAACAAAG
AAACGTCAGAAGCATCCGCGCCATATTGTCTTTGCGACGTTCGTACTGTA
TGACAGGCAGTTGTCTTCGAACCAGGTGTTGACCGTGATACTTGCGTCCT
CGGCAATTTTGTCGCCATCGTGTTGCATGTTACGGAACCCCCCCCCCTCT
CTCTCTCTCTCTCTCTTTTCCTTTGCGGTTTATCTGACACTCGAGTTCAC
TAAATAACCACTCCATGTACCTACGTCCCTTTGCCTGCTATGTACTCACT
CACGCAGAGCATGATGGGGCGCTACGGCATGCAGGTCCCCGCCGGCGGCC
CCGCGGCTGCGGTGGCGGCTCACCAGGCCGCGGCGTACCACGCCGCGCAG
CAGGTGCCCGGAGGCTACAACATGATGCACCTGAACAATGCCATGGGCAT
GATGAACGTCGGCACCGGCACAGCTGCCGGCCCCCCGGGGGGTGGTAGGC
CGGACGGCACGACTGCCGGCCCGGTCGACGGGAGCGCGGGAGGCGCGGTG
ACTTTCGGAATGGTCGGCGCTAACCGGTCGATGATAAGAGGGGACCAACA
ACAGCAAGGGCAGCCACAGCAGCAGCAGCAGCAACACGGAGCGCCTGCGG
GGGTTCCGCAGCAGATGCTGCCCCCATCGGGCGGTTTCGGGGCAGCCGGG
CCAGGTACGAACGTGATGTTTGGTGTCCTTCCTTTTTTTTGCAAAGTAAA
GGCAGATGATAAAAACACATATATATGTGTCATTTTATTTGACACATAAA
GGATGTGCAGGAGCCATCCCCGTGGTTTCGCAGCGGAATTCGCAGCAGAA
TTTCGGTTATGAAGGTGTGAGCACGCACACATGAGCAGACAAACCTAGCA
TGTACACCATCCTAGCACACCCACACCAACCTAGCGAACCCGCCCGAGCA
CACATGCACACCAACCTAGCAAATCTGCCATGCACACCAACCTAGCAATA
CGCCACATGCACACCAAACTAGCTGTTCTGTACGATTTTGGGGTTAGGGT
TAGGGTTGGAGAACAGAAAGGTGTGTGTGTAGTGTGGTGGTGTAAAGCAT
CATATCATACATACTTGTAGACGTTGTTCAGCAGTACAGCGTGTCGGTGT
GCACTGCTGTACGGCATCAGTACAGCAGTCTCCGTGCATGTCCCTGTCAT
ATTTATGTGTCAAATAAAATGACACATGTGTATGTGTTTTTATCATCTCC
CGTAAAGTGAACGCCACTCCCAACCCGTGAACGCCACTCTCAACCCCCCC
CCGCCCTCCCCGTTGTTTTCGGTATTGGTCTACTCAACCACCGAACAACC
TTTTATTCAGGGATGACCCCGTATGTAAAAGACATGCCGGGCGCAAACCT
AAGCGGGGCCAGCGGCGTGACTCCGGCCAAGCCCCACCAGCACCACCAGC
AGGCTGGGGGTGACCGGGGCGATCAGCTCCAGCCAAAGCAGCAGCAGCAG
CAGCAGCAGCAGCAGCAAGGGTTTGTCCTTCGGGGCGTATAGACGGTGCG
ACGGATGTGGAGAAATATTTGTTGTTGCTCCGTGTGCCGTTTCGGCTCCT
CTCGCTTTGCGCGCGCAACATTTGGCGCCGCCCGATTTTTTTTGTTTTGT
TCAAGAAACAATCCGCCGGTCATATAGTTTGACCTACACGCAGTAGTTCG
CAAAGTCCGTAACTTCGCTTGCCGTTGTTTTTATTTCAAGTGCGAATGGA
AATGCACATAACAAGGAGCGAATTCTATAATAGTGCCTTGTTTCCGTTGC
CGTGGGAGAGGCGTTGCCGTCACTTGCACGGTGTTGCAGCAGGATTATTT
TTTGTTTTTCTCAAAAAAAGAATCATTCGCTCGTTTTTCCCCTATAGGGT
GTTAAAAATGGAAATGATAGTTACTTGAGTTGAGCCTGCAGTGCAGCAGT
AGTACTCTGCTCCTGCGAAGACATGGAAACAAGGCCAGTCCCCCCTTAAA
GGTCACCCTTGCGGTCTCGGTATCTCGGTTTTTGTTTCCCGGGTCAATGT
ACGAGAAAGAAATATTTCACTCCTAGGACAAAAACACACCACAATAAGCG
GGGTTATGGCCACCAGAGGCACGTGTACTGATTGCGTCTCTCCCACCTTA
GGTTTCGCGTCAACGAGGATATGTTTTTTTTCGTGTGTCTGCAAGGGGGT
TGTGGATGGGTTTTGTGCGGTAAATGTTTTGTGAAATTTGCCGTGATACA
TACGCCATGCGTCCGAGTTCGCTCTCTCTCTTGCGCCGCTTACGTCCTCT
CTTTTTTATCTCCCGTGTCGGTCGGCTTGTTCGTTTCGTCGCGTATCATA
GCGGGAGGCTGGTTGGGTGGGCTAGCCGGCTGGCCTTCTCTCTCTTTCTC
TCTCTCTCTCTCTTCCCCATTTGGTGTTCGGGTCGGCCCTTTGCGCTGGT
TCGTGTCCCCACCCCCGCCTTCTTTCATAGATTCCTGTCGGGGGAAGACT
CACGCAATCGGTCCTTGTTTCAACGTGCGTTGGGAAGGACACGGCAGGAT
TGATCAAAGTTGCGGGTTTTTAGGTTGGCTGCTGCTGCTGCTGCTTCCCG
CGTCGACTGAGAGACCCCGGGAAAGCAAGGAACCTGCGATGAATCTTTCG
TGCCCTTGCCATGGCCTCGTTCGGGCGTGCGCCAAGGTCGACGAGAGAGA
CCACGGGGAGCGAGAAGGAGCGTGCGGGTTGGCCTGCTGCTGTCTTTTCC
GGTCGGCCGTGACGTAGCCGTGACGCTATTTGCGGCTTCGTCGTTGGGGC
GAAGTTTCGATTTTGGTCCGGTGCACGCGCGACTCGCGAGTATATACATA
CAGTACGCAGACGCGGTTTTGAAAGTCTTGCTCCGACGAAACCATGGTTG
TGAGTGTTCCCGTTCGATACTCGTTGGCGTGCGTGTGTGGATGCCTGTGG
TTTTTTCCTTTTTTTTTTCCATGATGCAGAAAGGTGCGTGTGATCTACAG
GTGGTGTTGAGAGTTTTTTTTTGTGATGCGGAATACTATATATCGGTGTT
CGGCTGTTGAAAGGAAGTACGTAGGGATATATACGTCTATGAACAAAAAG
GAGGCCGGGGGCACGGAGAGAGGAGTGGCAGCAATGCCTGCACCCTCCCC
TGCGCTCTTTTCGCCCCCTTGTGCAAATGCAGAAGATTTGAGCGTTGGGA
AGAGTTTTAGACACAAACCGCGCGCACGCTTTTTGATGGCGCTGACGCTC
AGAGCGGGTCAACTACACGCGCGTTTTTTTTTTTATGTTGCTCACTTTGG
CATGTAGAGAACAGGGCTGCGACCGGCCGTCTTCCAAAAGGTGTTCAAAA
AAAGAGACAAAAGTCGGTGCCTTTTTTTTCGTTTCGGTGGGGACGAACTA
CCAATCGTATCTGTGTTTTTTTTTTCTCTTTTGTGTGTTTTTATTTTCTT
TTATTTCTATTGGACGTTTTGTCGGTTCGCGGATATGGTGGATGATGATT
GCTGTCAAGTAAGAATTCGAAGAACCACGTGGAAGGTGTTTGTTTTCATC
GCGCGGACACATTTTTTTTTCGTCCCGTCTCTCTTTTTTTTTGTTTCCTA
TACCTGTTTTGGTTGCATCGTGAAAAACTCGATTTTCCCGCTCCCGGGAG
ATCACGAGTCTTCACTGTGTGGCTTGTAATCTAGGAGCTCGGGGATGGGA
GGGGGGAGAGAATAGCAGTGGGATATCAGCTTTTACTAGGTTGGTCTTGC
TTCCGTCTTGTGCAGGGAGTGTTCTTTTTTTGGGACCGTCGGCACACCCA
CCACCACCTTGAACGCGAGGTTGGTCACACCGTGGCTTTGTCTCCCTCCG
AGAGATGGGGAGAGAAACCGCGGCGGTTCAACCTCGCCATGTAATTCTAT
CTAGATACATTGTCGGCATGCGATGCAGCAGCAGCAGCAGCAGTGCCATG
GCGAAGCGTACAGCGGTATGGATATTTATATCACGGGGTAACTCTGTGTG
TCACCTAATCCTTGGAGGGGGATGTCTGGTCCGGTCGCCTGCGGTGGAGT
GAGGTCTGGAGTGCCGCAGGCGGTGGGGACACGTCTTGCCTGCTGGTATT
GTCGTGGAGTTTTAGTCGGCAGGGAAGGCACGAAGGGAGGAAGAACGTTG
CTTCAGTGCCGCTCTCTGGTCACGGCGTTGTTAGTATTTTTTTTTTTGTG
TGTGTTTGTGCGCTTTTTCTGCTCAATTTGTTAAGTTTTGTAGTAATTTT
TGTTTTCGTCGAGTCACATACATCGTGACATGAAATACGATACGAGTGTG
TGTGTACCAGGTAATTTTTTTTGTTTGGCGGGGCAGATAAAAAAGAGTGA
GTGTGTGTGTCGTGCGTGTGTGTGCGCCTGGCCACACCCCACGGTTAGTG
ATGGGTGCGTGCGTGTGCTGTTTCGTTTTGTCTTGTCATCTCGGCGAGTG
AGCGAGTTTCAGCCTATTGTTGGTGGTGTGATGGTTCAGGCAGTGGTAGT
GCAGAATGGGGTATTCTAAAAATGTAATACTTCGAGGAGCAAGCAGGACA
AGAAAACAGCTTCGGATTTGACGATCCGAAAAAACGGGACAGCGTCAAAC
GCAAAATGGGGTGTACTTGTACTTGTAGCGAACATCACAGCCCCCCCCTC
CCGGATGAGGTACAGAGAGATCTGGACGTGCGTGTGTGTTGGGTGTGTAT
TTGTGTGTGTGCGGGCGTATCTATCACACCCGTCTTCATCGTGAGTGCCT
GGGTAGAGGTTGACAAGGCCTATTAACATTAGTTGACAACAGTGGCGAGC
GTGTTTTGTCGGCCGAGGGAGGTTAGTCCGTTCCTGTGCCGATTTGTATT
TTTTGCATTTTTTCACGAGCTGGGCAAATAATCGAACTGATCATGAGAGA
GAGATTGAAGTGATGACATGGCGTGCAAGTTGAAGTGCGGCCGAGCGAAA
AAAATGCCGAGAGTTCTAGTCGGCGGCTTCGCGGGGCGCCAAGGCCTTAA
ATTAGGGAGGCAGGCAGGCAGGAGCAGCGTCGTTGCCACCCCGCCAACAA
CACAACCCCTGTCAAAAGTTCCGTGCGGCAATTTGTTGTCAACATTTATC
GTCAGGCTGAAGGCCCTGATGATGAGTTGTTGTCGTTGCCGCAAGCTTTG
TTGTGACGATTTCGCTCTTTATTTTTTTCGACGGTTTCATTTCAACAGGG
CGTCCACGACGAAGGCGGAGGGTGGTGGTGGTGTGGTTCGGTCAGTTGGC
TCAATAGCGGTTTATCGATCTATTATTATGGCAGGGAGGTGGCGCTGTTA
AGGCCGGCTGGCTGCCGCATGTGTGGTTAGTGGGTGGTTTCATCCAGATA
TTCACTGTCATTTAGAAGGAGGGAACACCCGAATTTTTGGAACGGACATC
CGAGAAAAACCTATTCGTACAATAGGTATTGAAGGGGTTCGGGTGATTTC
GATGCTTTGTGGATGGTATTAGTGATTTGATTGATTAATAGTGGTGGCGA
CTTGGGGCGACTGTGGTCGTCGTAGGAAAAATAGCAGAGCGGGCAGG

Coding sequence (CDS) from alignment at P-littoralis_Contig67:108352..126798+

>mRNA_P-littoralis_Contig67.17.1 ID=mRNA_P-littoralis_Contig67.17.1|Name=mRNA_P-littoralis_Contig67.17.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1776bp|location=Sequence derived from alignment at P-littoralis_Contig67:108352..126798+ (Pylaiella littoralis U1_48)
ATGTCGTCTACTATCATCACCGCGAAGAGATCTCCGGACGCCGCAGCCAC
ATCCCCAGGATACCAAGGGTCTGATGGAGCATCACAGGCGAAGCTAACCA
CCGAACTACCAGGAAGCACTGAACAAATTGAGGGGCAACCAGCGCCTTCT
TCGGAGCCGCCCAAGCCATCGGAGGCCTTAGAATCTAAAACCAAAGGTAC
AGCAGCTGCAGTGGCTGCCAGCGAGGTGGATGTGAAAGGCGCGAAGGCTA
GCGAGGAAGATGCCACGCCTGCGAGAGAACCGCCAGCAGGCAAGGAAGGA
GGAGAGGGAGATGCAGCTGGAGCAGCCAGCGAGAACAATCTTATCATCAA
CTATCTGCCATCTCACGTGACGGAGATCGAGCTGCGGAACATGTTCGCGG
TGCACGGAGACCTCGCGCACGTGAAGGTCGTGTACGACCGGTCGACAGGA
AAGAGCATGGGCTACGGTTTCGTCAAGTTTACCACGAACGAGGCAGCGGC
GGCGGCAATGGCGGCCATCAACGGCATGGCCATCGAGCGGAAACGGATAA
AGGTCAGCATCGCACGGCCGTCGTCGAAGGATATCAAGAACTCCAAGCTG
TACGTGACCAACCTGCCAGACCACTTTAGCCAGGACCAGGTCGTGGGCGT
CTTTGAACAGTATGGGAAGATCATCGAGTGCCGTACCCTCGTGGACCCGA
AGACCACCATCAGCCGCTGCACGGCCTTTGTGCAGTTCGACACGAGGCGA
GAAGCCAAGGACGCGCTCAAGTTCATGAACGGCCACGTCCTCCCCGGGGC
CAAGAAGGGACTTCTCGTCAAGTTTGCCGAGGACCACCACCGCCGTGTTC
AGCGTCAGGAGCAGGGACAGCACGTGAAGGGTGGCCGCGGAACGGGCAAC
AATCAGGGCGGGGGAAGCGGCCACTACGGCAACCAGCAACAGCAGCAGCA
GCAGCAGCAGCAAGGCCCGCATGAGGGTAAGGGGAGAGGACGGGGCAAAG
GCAAGGGGGGACGCGGCGGCGGCGGCGGCGGTGGTGGCGGTGGTGGCGGT
GGCGGCGGCGGCGGCGGCGGCGGTGGCGGCGGTGGCGGGATGTACCGTGG
CAATCGTAACCAGAACTTGGGCCCGCGGCACGGACACATGGCCCACGGGT
ACATGGGCATGCAGGCGCCTCCGACGGACGGGTCGCCGCTTGCACAGAGC
ATGATGGGGCGCTACGGCATGCAGGTCCCCGCCGGCGGCCCCGCGGCTGC
GGTGGCGGCTCACCAGGCCGCGGCGTACCACGCCGCGCAGCAGGTGCCCG
GAGGCTACAACATGATGCACCTGAACAATGCCATGGGCATGATGAACGTC
GGCACCGGCACAGCTGCCGGCCCCCCGGGGGGTGGTAGGCCGGACGGCAC
GACTGCCGGCCCGGTCGACGGGAGCGCGGGAGGCGCGGTGACTTTCGGAA
TGGTCGGCGCTAACCGGTCGATGATAAGAGGGGACCAACAACAGCAAGGG
CAGCCACAGCAGCAGCAGCAGCAACACGGAGCGCCTGCGGGGGTTCCGCA
GCAGATGCTGCCCCCATCGGGCGGTTTCGGGGCAGCCGGGCCAGGGATGA
CCCCGTATGTAAAAGACATGCCGGGCGCAAACCTAAGCGGGGCCAGCGGC
GTGACTCCGGCCAAGCCCCACCAGCACCACCAGCAGGCTGGGGGTGACCG
GGGCGATCAGCTCCAGCCAAAGCAGCAGCAGCAGCAGCAGCAGCAGCAGC
AAGGGTTTGTCCTTCGGGGCGTATAG