mRNA_P-littoralis_Contig110.8.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig110.8.1
Unique Name	mRNA_P-littoralis_Contig110.8.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: D7FRY1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FRY1_ECTSI)

HSP 1 Score: 394 bits (1011), Expect = 5.490e-137
Identity = 207/243 (85.19%), Postives = 216/243 (88.89%), Query Frame = 1

Query:   28 ADPPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGDIPSTDNVVTTKKSKLS 756
            +D PQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTT SICVKTDRTD+CPAKTI+ETVAVVPILR           GGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDP+IASSRTINAVVSIVKKWGAKTIKVVTLVASR GLEAL KMHPEV+VHLASIDELA NG DL+PGIGD GDRLYLGTN++   P +D  V TKK K S
Sbjct:    4 SDCPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTTSICVKTDRTDQCPAKTIAETVAVVPILR-----------GGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPIIASSRTINAVVSIVKKWGAKTIKVVTLVASRSGLEALNKMHPEVQVHLASIDELAPNGQDLIPGIGDAGDRLYLGTNSLETAPPSDVEVPTKKPKQS 235

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A835YL27_9STRA (Uracil phosphoribosyltransferase-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YL27_9STRA)

HSP 1 Score: 266 bits (680), Expect = 2.770e-86
Identity = 134/225 (59.56%), Postives = 169/225 (75.11%), Query Frame = 1

Query:   34 PPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGD 708
            PP   VS HPVL HKL+LIRR+   +++FR+LFREI+FYLGYEAT  L TK   + T   + C  + I++ VAV+PILR           GGLGMT+A+LELLP++PVYH+GMYRNPGS++P+QYYNRLPKG   DVA++LDP+IAS++TI A VSI+KKWGA  +KVVTL+ SR GL  L  +HP+V VH A++D LA NG DLVPGIGD GDRLYLG + + D
Sbjct:   22 PPGVQVSSHPVLMHKLSLIRRKSTNSREFRSLFREISFYLGYEATQDLHTKVAHIHTHTAEFCEVRKIADKVAVIPILR-----------GGLGMTDAMLELLPNAPVYHIGMYRNPGSSMPIQYYNRLPKGQSCDVAILLDPIIASAKTICATVSIIKKWGAARVKVVTLIVSRTGLAQLLAVHPDVIVHCAAVDTLADNGHDLVPGIGDAGDRLYLGPDHVDD 235

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A024UPY9_9STRA (Uracil phosphoribosyltransferase n=4 Tax=Aphanomyces TaxID=100860 RepID=A0A024UPY9_9STRA)

HSP 1 Score: 186 bits (472), Expect = 4.340e-55
Identity = 105/218 (48.17%), Postives = 145/218 (66.51%), Query Frame = 1

Query:   31 DPPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLY 684
            D  + ++S HPVL HKL  +R  +  A  FR L REITFYLGYEAT+ L+T    +KT       ++ ++ TVA+VPILR            GLGM EA+L+LLP++ V+H+GMYRN  S +PVQYYN+LPK    D A++L+PVI ++ TI A V+I+K WG   IK+++ +AS+ GL+ LY  HPEVEV +A+ID+  S    +VPG+GD GDR +
Sbjct:   16 DNSKVILSTHPVLAHKLTKLRDAKTDANLFRHLLREITFYLGYEATSDLSTVPKQIKTPLGPHQGSE-LATTVALVPILR-----------AGLGMVEAMLDLLPNARVHHIGMYRNSNSLLPVQYYNKLPKECHIDCAIVLEPVINTAGTIIATVAILKVWGVSQIKIISTIASKDGLKDLYSKHPEVEVIVAAIDDTLSESGVIVPGLGDAGDRQF 221

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: B8CAC1_THAPS (Uncharacterized protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CAC1_THAPS)

HSP 1 Score: 187 bits (474), Expect = 5.750e-55
Identity = 107/229 (46.72%), Postives = 148/229 (64.63%), Query Frame = 1

Query:   37 PQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTD-----KCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGD 708
            P   VS+HPVL HKL+++R    +   FR+  REITF+LGYEAT+TLTT+ + +    TD     +     +++ VA++PILR GL           GM +++LEL+  + V+H+GMYR+  S +PVQYYNRLPK    DVA +LDP+IA+S TI +V  I+KKWG   I VV+++AS+ GL  L K HP+V V L  IDE  +   D++PG+GD GDRL+ GT  I D
Sbjct:   40 PNLHVSKHPVLAHKLSILRSSSTSPSSFRSTLREITFHLGYEATSTLTTRDVPLTVPGTDHKTHIEATGTKLAQKVALIPILRSGL-----------GMVDSMLELISSAEVHHIGMYRSK-SLMPVQYYNRLPKKCDVDVAYVLDPLIATSATIISVAGILKKWGVSEIHVVSVIASKQGLSELMKFHPDVHVTLGHIDEELNADGDVMPGLGDAGDRLF-GTPLIED 255

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A485KLW8_9STRA (Uracil phosphoribosyltransferase n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485KLW8_9STRA)

HSP 1 Score: 185 bits (469), Expect = 1.340e-54
Identity = 103/213 (48.36%), Postives = 141/213 (66.20%), Query Frame = 1

Query:   46 LVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLY 684
            ++S HPVL HKL  +R  +  A  FR L REITFYLGYEAT+ L+T    + T       ++ +S TVA+VPILR            GLGM E +L+LLP++ V+H+GMYRN  S +PVQYYN+LPK    D A+IL+PVI ++ TI A V+I+K WGA  IK+++ +AS+ GL  LY  HP+VEV +A++DE  S    ++PG+GD GDR +
Sbjct:   26 ILSTHPVLAHKLTKLRDAKTDANTFRHLLREITFYLGYEATSDLSTMPKKITTPMGPHQGSE-LSTTVALVPILR-----------AGLGMVEPMLDLLPNARVHHIGMYRNSNSLLPVQYYNKLPKECHIDCAIILEPVINTAGTIIATVAILKVWGASHIKIISTIASKDGLRDLYSKHPDVEVIVAAVDETLSEAGVIIPGLGDAGDRQF 226

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A7S2MFT6_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2MFT6_9STRA)

HSP 1 Score: 184 bits (467), Expect = 2.610e-54
Identity = 103/239 (43.10%), Postives = 155/239 (64.85%), Query Frame = 1

Query:   22 TTADP------PQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKT----DRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGD 708
            TT +P      P   VS HPVL  K++++R    T   FR++ R+ITF+LGYEATATLTT+ I +      D  + C  K ++E VA++PILR GL           GMT+ +LEL+P + V+H+GMYR   + +PVQYYNRLP+   SD+A ++DP+IA+++T+ +VV+++KKWG   I V++++AS+ GLE   K HP+V V +  +D+   +   ++PG+GD GDRL+ GT  + D
Sbjct:    6 TTVEPSFCAPLPNVHVSTHPVLHDKISILRSSSTTPASFRSVLRDITFHLGYEATATLTTRPIALTVPVGHDHIE-CKGKKLNERVALIPILRSGL-----------GMTDPMLELIPKAEVHHIGMYRQ--NLMPVQYYNRLPRKCESDIAFVVDPLIATAQTLVSVVAMLKKWGVPKIHVISVIASKPGLEEFLKSHPDVLVTVGHVDDELRDDGTIIPGLGDAGDRLF-GTPMLDD 229

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A7S2S8E3_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2S8E3_9STRA)

HSP 1 Score: 184 bits (467), Expect = 3.510e-54
Identity = 100/218 (45.87%), Postives = 142/218 (65.14%), Query Frame = 1

Query:   37 PQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLG 690
            P A VS HPVLQHKLAL+R  +   ++FR L REIT+Y+GYEAT  LT + I V++          +S+ +A+VP++R            GLGM + +LELLP++ V+H+GMYR  GS+IPVQYYNRLP+   +DV+ +LDP+IAS RT+ A V  +KKWG   I VV+ VA+  GL+ L+   P+  VH+A+  +  +    ++PG+GD GDR + G
Sbjct:    5 PMAAVSGHPVLQHKLALMRNVDQPPREFRRLLREITYYVGYEATTNLTVEQIDVQSPL-GAGKGGHLSDKIAIVPVMR-----------AGLGMVDGMLELLPNAAVHHIGMYRMQGSDIPVQYYNRLPRDAVADVSFVLDPLIASGRTLCATVGTLKKWGCPKIVVVSCVATEQGLKNLFDEFPDTIVHVAATGDTLTPEGKVIPGLGDAGDRQFNG 210

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: W7TML2_9STRA (Uracil phosphoribosyltransferase n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TML2_9STRA)

HSP 1 Score: 184 bits (466), Expect = 6.100e-54
Identity = 110/248 (44.35%), Postives = 156/248 (62.90%), Query Frame = 1

Query:   34 PPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGS-NIPVQYYNRLPKGHP--SDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNA-IG---DIPSTDNVVTTKKSKLS 756
            PP    S HP+L HK+ L+R ++ T +DFR L RE+T YLGYEAT  +T K   V+         + +S+ +A+VPILR           GGLGM +A+ E+LP++ VYHVGM+ N  S ++P+QYYNRLPK     +D+  +LDP+IA++ T +A VSI+KKWG K I V+ +V +  GL  L + HP++ VH+A+IDE  S    ++PGIGD  +RL+   NA +G   D  S  N+  TKK+K S
Sbjct:   25 PPSVHCSGHPLLHHKMTLLRDRKTTTRDFRHLMRELTLYLGYEATTEITLKPRVVE-GSLGPVEGQKLSDKIAIVPILR-----------GGLGMVDAMTEILPNAAVYHVGMFSNHRSLSLPIQYYNRLPKEKDKVADLTFVLDPLIATAGTCSATVSILKKWGTKKIIVIGVVGALQGLHKLTQAHPDIRVHVAAIDEAVSADGHILPGIGDASERLF---NAHVGEPDDETSVLNLCATKKTKRS 257

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A7S4JLL4_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4JLL4_9STRA)

HSP 1 Score: 183 bits (465), Expect = 9.410e-54
Identity = 102/228 (44.74%), Postives = 150/228 (65.79%), Query Frame = 1

Query:   37 PQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTK----SICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGD 708
            P   +S+HPVL HK++++R    +   FR++ REITF+LGYEAT++L+TK    S+ V  D  + C  + I++ VA++PILR GL           GM +++LELLPD+ V+H+GMYR     +PVQYYNRLP+    DVA +LDPV+AS  T+ +V S +KKWG   I V++++ASR GL  L K HP++ V + ++D+  ++    +PG+GD GDRL+ GT  I D
Sbjct:   34 PNVHLSRHPVLSHKISILRSSSTSPASFRSVLREITFHLGYEATSSLSTKPVPLSVPVGHDHIE-CTGQKIADRVALIPILRSGL-----------GMVDSMLELLPDAGVHHIGMYRR--DMMPVQYYNRLPRKCECDVAYVLDPVVASGSTVMSVCSQLKKWGVPKIYVLSVIASRSGLAKLIKTHPDIVVSVGTVDDKLNDDGMCIPGLGDAGDRLF-GTPMIDD 246

[Close]

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Match: A0A8K1CH49_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CH49_PYTOL)

HSP 1 Score: 182 bits (462), Expect = 1.160e-53
Identity = 103/211 (48.82%), Postives = 139/211 (65.88%), Query Frame = 1

Query:   52 SQHPVLQHKLALIRRQEGTAKDFRTLFREITFYLGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLSQGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVALILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVEVHLASIDELASNGLDLVPGIGDCGDRLY 684
            + HPVL HKL  +R +   +  FR L RE+TFYLGYEAT  L T    +KT   +   A+ ++ +VAVVPILR            GLGM E +L+LLP++ V+H+GMYRN  S +PVQYYN+LPK    DVA++L+PVIA++ TI A V+I+K WG   IKV++ VAS+ GL+ L   HPEVEV +A+IDE  +    + PG+GD GDR +
Sbjct:   23 TSHPVLLHKLTKLRDERTDSTVFRHLLREVTFYLGYEATYDLQTTPKAIKTPVGEHSGAE-LTTSVAVVPILR-----------AGLGMVEPMLDLLPNAAVHHIGMYRNKHSLLPVQYYNKLPKQCDLDVAIVLEPVIATAGTIVATVAILKTWGVTKIKVISAVASKPGLQDLLSKHPEVEVIVAAIDEALTEEGYIFPGLGDAGDRQF 221

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig110.8.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FRY1_ECTSI	5.490e-137	85.19	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A835YL27_9STRA	2.770e-86	59.56	Uracil phosphoribosyltransferase-domain-containing...	[more]
A0A024UPY9_9STRA	4.340e-55	48.17	Uracil phosphoribosyltransferase n=4 Tax=Aphanomyc...	[more]
B8CAC1_THAPS	5.750e-55	46.72	Uncharacterized protein n=1 Tax=Thalassiosira pseu...	[more]
A0A485KLW8_9STRA	1.340e-54	48.36	Uracil phosphoribosyltransferase n=1 Tax=Aphanomyc...	[more]
A0A7S2MFT6_9STRA	2.610e-54	43.10	Hypothetical protein n=1 Tax=Helicotheca tamesis T...	[more]
A0A7S2S8E3_9STRA	3.510e-54	45.87	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
W7TML2_9STRA	6.100e-54	44.35	Uracil phosphoribosyltransferase n=1 Tax=Nannochlo...	[more]
A0A7S4JLL4_9STRA	9.410e-54	44.74	Hypothetical protein n=1 Tax=Odontella aurita TaxI...	[more]
A0A8K1CH49_PYTOL	1.160e-53	48.82	Uncharacterized protein n=1 Tax=Pythium oligandrum...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig110	contig	P-littoralis_Contig110:42012..61930 +

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.D7FRY1
PFAMs	Bac_DnaA,FYVE,UPRTase,Xan_ur_permease,adh_short
Model size	765
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC00063
KEGG ko	ko:K00761
KEGG Reaction	R00966
KEGG Pathway	ko00240,ko01100,map00240,map01100
Hectar predicted targeting category	other localisation
Exons	7
Evalue	9e-138
EggNOG OGs	COG0572@1\|root,KOG4203@2759\|Eukaryota
Ec32 ortholog description	Uracil phosphoribosyltransferase
Ec32 ortholog	Ec-03_003570.1
EC	2.4.2.9
Description	UMP salvage
Cds size	765
COG category	F
BRITE	ko00000,ko00001,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig110.8.1	prot_P-littoralis_Contig110.8.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig110 42012..61930 +

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


Feature Name	Unique Name	Species	Type	Position
1680789432.5244112-CDS-P-littoralis_Contig110:42011..42074	1680789432.5244112-CDS-P-littoralis_Contig110:42011..42074	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 42012..42074 +
1680789432.5370402-CDS-P-littoralis_Contig110:58965..59057	1680789432.5370402-CDS-P-littoralis_Contig110:58965..59057	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 58966..59057 +
1680789432.5472102-CDS-P-littoralis_Contig110:59619..59766	1680789432.5472102-CDS-P-littoralis_Contig110:59619..59766	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 59620..59766 +
1680789432.555128-CDS-P-littoralis_Contig110:60082..60255	1680789432.555128-CDS-P-littoralis_Contig110:60082..60255	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 60083..60255 +
1680789432.5631227-CDS-P-littoralis_Contig110:61041..61100	1680789432.5631227-CDS-P-littoralis_Contig110:61041..61100	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 61042..61100 +
1680789432.5716882-CDS-P-littoralis_Contig110:61273..61372	1680789432.5716882-CDS-P-littoralis_Contig110:61273..61372	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 61274..61372 +
1680789432.5806448-CDS-P-littoralis_Contig110:61798..61930	1680789432.5806448-CDS-P-littoralis_Contig110:61798..61930	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig110 61799..61930 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig110:42012..61930+
coding sequence from alignment at P-littoralis_Contig110:42012..61930+

protein sequence of mRNA_P-littoralis_Contig110.8.1

>prot_P-littoralis_Contig110.8.1 ID=prot_P-littoralis_Contig110.8.1|Name=mRNA_P-littoralis_Contig110.8.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=255bp
MSAAVDTTTADPPQALVSQHPVLQHKLALIRRQEGTAKDFRTLFREITFY
LGYEATATLTTKSICVKTDRTDKCPAKTISETVAVVPILRQGLTAFRSLS
QGGLGMTEALLELLPDSPVYHVGMYRNPGSNIPVQYYNRLPKGHPSDVAL
ILDPVIASSRTINAVVSIVKKWGAKTIKVVTLVASRCGLEALYKMHPEVE
VHLASIDELASNGLDLVPGIGDCGDRLYLGTNAIGDIPSTDNVVTTKKSK
LSHV*

mRNA from alignment at P-littoralis_Contig110:42012..61930+

Legend: polypeptideCDS

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

>mRNA_P-littoralis_Contig110.8.1 ID=mRNA_P-littoralis_Contig110.8.1|Name=mRNA_P-littoralis_Contig110.8.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19919bp|location=Sequence derived from alignment at P-littoralis_Contig110:42012..61930+ (Pylaiella littoralis U1_48)
ATGAGTGCTGCTGTAGATACCACAACGGCTGACCCTCCGCAAGCGCTGGT
TTCACAGCACCCGGTAAGCTTGCTGCAAAACCATTTTCTCTCGTCTGTTC
TCCCGCCCGCTGGCACAGCAGAAACCGTACACCCAAATCTCTGACTATTA
TTCAGAGAGACACAAGCAGTTCGGCATATATGGCATCCTATCTCCTAATC
CTGTGTGATAGGAACGGTTGAATAGACGGCACCAGCAACACCTTCCAAAG
CAGGGAAAGAAATGCTCAGTCCGAAGCAAGCATATACAACAATGTTTTCT
AGGGACGAACGGAGGGCCAATCCCCCCCTACTCCTGATATCATACATATG
ATATGCGTGTGTTGTTGTTGTTGTTGTTGTTGATTCTCACATTAGCTCAC
TACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGAACGTATCGTGCTAG
GAGGAAAAAATGAAATATAATATATGGACTATGATCACCCACAGTCAAAT
CAGATATGGTACCGTTGGGGTACCATCTGTGGTGCCCAAAGTGCCAAACA
AAATACAGAAAAAAAATACTGGTACCAGGTAACAGGTTCGAAAGAAAAAG
GGCAAACGCCCAAAAGCGGTATACCGCCATGGTTCCGCGCCACAAAGCGG
TACACCAAATTACACCTTGGGATTTGAGCCCTGTTCGCGTCGCTGATTGG
CCAACTAAGCCTCGTATCGCTTTCTGGCACCAGCAACCGGCGGAATATCA
CTTTTGGGTCTGTCAGGTCGGCCTTCACCGCTTTGTGGCGTAACCCACAC
CGCTTTCTGGCGTGATATTCCGCAGACCATTCGCCGAACAGCCCTCCCCA
CTTTCATATCACACGTCACACCATCGATCAACAAAGGGAATGGATCAACT
AAGAGAGCCACACGGTTCCACGCGTACCCGCACACCCCATACTGATCCCT
TCAGGATGGTTGGTGCCGATGTGCGTAACAGAATACCAAATCGATCACCA
ATATCGAGGCACTGCTGTCAAGCCGTGACCCCAGGCACCCTCATGATGGC
ACAGAGGGCACGCGTACACGCACACACATCAATACGTGCCAGTTATGGCG
CACGCGATCGCCACACCGCCCTGGCGGCATGAGGGCAAACACCTGCACAT
ATTTATGACGCGCCGCTGATTGGACAGACTCTTCGGGGTTTACATCCTTC
CACCCTACCTACATGCAATTGCCTACAACTTGTACATCCTTTGCGCATTG
GTTGGTAGGCCTGGATGGCATGGATTTCAGTGTAGACAAATTTGACACTT
CATTTTGGAGCGTTGCATTTACCCTTCGTTGTACTAGTATAATTGGTGAT
CGATTTGGTCCTCTGTCACGCACATCGGCATCAACCATCCTGCAGGGATC
GGTGTAGGGTGTGGGGGTACGACGTGGAGCTGACGACGTGACGTGGCTTT
CTTGGTTGATCGATGGTGTGACGTGTGGTATGAAAGTGGGGAGGGCTGTT
CGGCGAATGGTCTGCGGAATATCACGCCAAAAAGCTGTGTGGATTACGCC
AAAAAGCGGCGAAGGCCGACCTGAGAAGCCCAAAAGCGATATTCCGCCGG
TTGCTGGTGCCAGAAAGCAATACGAGGCTGAGTTGGCCAGTCAGCGACGC
GAACGGGGCTCAAATGCCAAGGTGTAATTTGGTGTACCGCTTTGTGGCGC
GGAACCATGGCGGTATACCGCTTTTGGGCGTTTGCCCAAAGAAAAAACAA
AAATCGGAAAACAGTACGACACACAAAAAATAACCAAGACGAACCTCAAC
CATAACCATATACTTGTTGTGTTTGTCTACGAATGCACTCCCTCAGTCTT
TGTGCCCTCCCTGTATCTTCTTCTTTTTTATTTTCTTCTTTTTTATTTTA
TTTTTTGTCTTTCGTCTGTTGATCATGTAGTTACTGGACCATCGCCCTGG
TTTGCGTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACG
AAGTACTTCGAAGTATATGGTTATGGTTGATGAGGTTTGTCTTGGTTATT
TTTTTTTTTTGTTTGTCGGACTGTTTCCAATTTTTGTTTTTCTTTCGAGC
CTGTTATTTTTTCTGTATTTGTTTGGTATTCTGGCCACCACAGATGGTAC
CCCAACGGTACCATATCTGATTTGACTGTGGGTGATCATAGTCCATATAT
TTTATTTTATTTTTTTCCTTCTAGCACGATATGTGCCTGGTTTGTGACCA
CGGGCTAGAATGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAACAA
CAACTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAGA
CCAAGGCAAAGGCAAACCAGGGCGATGGTTCAGTAACCATATGATCAATA
GACGAAAGACAAAAAATTAAATAAAAAAGAAGAAGATACAGGGAGGGCAC
AAAGACTGAGGGAGTGCACTCGTACACAAACACAACAAACAGGCCAAACA
AAGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAAAAAGCGACGAAGAGGA
ATAAAATACATACATGGAGAGTGCAGAGGGACGACCGGAAGTACCGGAAG
TCGGGGGGGGGAGGTGATAAAAAAAAAAATTAAAGGCATGCAATCAATCG
CAAACATGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCTCCTCAGT
CGCACTCATGCCTCCTGCTACTGGCACCACCGTACCCAGTTGTTTCTGCC
CCACATCTTTGGCAGCAGCTACACCACCATTCCGCCCTACAGGTTTTCCA
CTCCGGCCACCCCGTAGCTTGGCTTTGGGCTGCTTCTTCTTGTGCTGTGC
AACTACAACCCCACTATCCCGCTGCCCTTGTGCCCCCCCGTAATCCTCCT
CTCGTTTATCCCCGCCATCCGTTCTCCTTCTTTTGGCCAAGGCCTGCCCC
TCAGCCGCGTCCCTCTCCCTTTTCAGTCGACGTGTCTCTGATAAGTCTCC
CTCTTTCTTGAGCCACTCATCCGTGAACCGCCGCGCACCCTCGTCGGTGT
GTGTGTGTGTGTGCGTTGTCATCCCTCTAATTGGACACCACCTGCACCTT
TCGGGTAGGTCGACGCTCCAATTGGGGTCACACAGGGGGGAGTCAAGACA
GGAGTTTTTCTTTCTTTTTTCTCCACTTCCCTCAGCGGTGCTTGCCTTTT
TTTGGTTGAGCTTTTACGGCGAGAAAGGGGACATCAATCCCTTTCCCTCG
TCGATGGTACGATCGAATTTCGTTTGCTCACGAATTAATCGCTTTGCACT
CTCACGCTCATTGCAAGAAGAGAAGCCAGATCGTGTTATTGAACTGGGAT
TCGAACTCACGCGTGTGTGTCAGAAGGTTACGTGGATTACCAACTGAACC
ACCGGGGCGACCGGTGATATGCACAAACTGCTGTATATGGATCCTTGCGA
GACGGCGATTATATTATACTTCGAAGTATCATATCGTACCACATGATGCA
TCGAACACTAAATACTTCGAAGCACAAGTTCAGCACCAGATATCCAAACT
GCTGAACCAGACTGCTTCATACTTCGATGATACTTACTGCTGTACTGCTG
CTGCACTCTCATCACTACGGTTTAAGGCCACGCTGGGTTCAGTACAGAGA
GAAAGGGAAGAAAGAGGAAGAAATAAGGGTTTGGAAACGGAGGGCGTTTA
TCATAGCTAAAAAAAACGTAACATGGAACATAAATTAAGGCCACACTGTA
CTCCCCCTCCAGGGGACCCGTGTTTGTATTTTTGAACACGGTATTTCGAA
GATTTTTTTTTCTTTCCCAAATGGGTCAAACTTCCAGATAAAAAGCAGCA
GTTGTGTGCCCCCGCTGACTACTGTACGCTCCCCTCCCACCCCTACCCCA
TTCAGCCTTAGGAGGCACAAACCGCTATAGGTTTTTTGAGATCTTACATC
AGCTTGAACTCCTGTGTGGATTAAAACTGTGCCCGACCCCCGCATATACC
TTGTAGCTCGAGATCGAGGTGCTCGGCATGATCGTTTTGAGCACCATTTC
GCCGAACGGGTTTTGGCGAAAAACACCGCAGAAACTGTGCTTCAGTCACG
GACATAGCCCGCTCGTCACAAGCAACCTCACTGCTTCAAATTGCCAGAGC
CTACTGATGTGGTGTGTGAGTGGCGTCTCATGCGTTTACAGCAGGAGCGC
GCAGCCAGAAACTATTTTAGAGGTACTCGTGTGAACTACTTCTGGAGGCC
TGCAGCAGCCCGAAATTGCACCAAAATGGGAGATCTGCGGGTGCGTCTGC
GCGATGCCACCGTCCTCCGCAGGTACAGCTCCGATCAACATGGAAATTGG
ACGCGAATGTAGCTGGCTTACCGGGCAATCTGAAAAGCCAATAACCTATA
AAGGTTCGGAATTGGGCGGAGTTTATTTTTTCAATCTACGGCCCAAAAAG
CTACGAAAAGACGTTTTTTAAAGTAGTTTTGGACTCCCTCCAAATAAAGC
TACTTTTGTGCAAACCCCTGACACTATATTGAAGTCATTTGGTCCTCGGT
TGCAAAATGCCAACACTTCTTTACAAACCCGGTTTCTTATTATACTGAAT
ACAGGGTGGCCGTAAGGAATTGCATCATATATGCAGCTTTCTTTCCAGGG
GACAAAACAATCAGCAAGAAATCATATTTTTTAAGAGCACTTTGCGCGGT
AGATCGAATTTTTAATCTCCGCACTTTCAAAAACCTCCGGATGTTTTTAT
TGCTTGTGCTAGCTCGGCAAGCCAGTTACGTTCGCGTCGAATCCGTCTGT
TAATCGGGGATGCACACGCGAAAACAGCAATTTCGTATCATCGCACCCAG
CAGATCTCCCAGTTCGGTGCAATTTCGGGCCGCTGCATGCTTCTAGATGC
AAAATCACAACCTCTGAAGAATACCTCTAGAATCGTTTTTGGCTGCCTGT
TGCTGCTGTCAAGGCACAGGACTCCTCTCGTCCACCACATCTGTGGGCTG
TGGCACTTTCGAGCAGTGTGGTTGCTTGTGATGTGCTTGCGCTGTAGTTA
ACTGAAGCACAGTTTTCTGAGATTTTTCACCAATTTCTACTCGGGGAGAT
GATGCTCAAAACGTTAATTTCGATCGTCTCGATCTCGCGCGACAAGGCCT
AAACTGGCATAGCGCACAATTTTGATCCACTCAGGATAACAAGCCAAGGT
GCTTACTGCAACAACATCCGGAGGTTTTTGTCTCCTAACGCAAACAGGGG
AGGGGATGGGATGTAGAGTATACAGCAGTCGGGGGGGGCACGCCAAAAAA
TATTATTTACTGTAGAAGTTGAGAGAAAAAATGATACCGTTGGAGCAAAA
ATGCGACAACGGAACGCCGTGATACCGGGACGGCGTCTTCCCCATTTTTG
TTGTACTGAACACAACTTTTTTTGGTCAGGGAATTTGACATGATTTTTTG
TCCGATTTTTGCCTATTCAGTATCTGCAAGAAAAACGAATACCGTCAGTT
CGTGGATTTTGAAGGCGGCTTCGGGTGCCGCAGGGCGGACTGGGCGGTTG
GCGCTAAAAAAATATGCAAGAAACGAGGCGTTTTCATTTTTTTTTCAAGC
GCTTGTGTGCTTTGTGCTTCAATTCAGCCGATTTTCCGCAAAAAGGGGGA
TTTTGGTCTGATGCTGTATGGGAGCTGCGATGACTTTTGGCCATGAGCAC
CTCCTGATTTGGTTCTTTTTCCTATACAGAGTCATGTCTTTTGTGTGGGG
ACGAAATATTATGTTGTGAAGGGACGAAACATTCAGTTCCGGCTGCAAAA
TCACGAAAAACGCCGTCGGCGTCGGCGAACTCCCGCAAAGAGTATGCAAA
CATAGGAATCGCTATTATTTGTTGCTATGATACATATATGCTGTCATGCA
TGGATTGCCTCATAGTTTTGCCGCAGCGCGCATGACTCACAGCTAAACCC
ACCCGGCGTTTCTTTACCGCAGATCTCAACGCTCTACTTCACCATAGGAT
GCCCGATAGTGCCCGAAAGTCTATTACGTCGCATTTTTTTTTGTTTTTAG
AGAAAAGATACGCGCGCACTCGCAGGAACTTTTTGGCGGTGACGCGAATC
CCGCAGGACACATGGCCGATAGTATGGGCCATCCGTCGTTTCAGGAGGTT
GTCCTGGTGCAACAGCAAATCGATTCTGGCATACTCGTAGCTCTGCATTT
GTCTTGATTTGTGATTCCGCATATCACGTGACCAAACTTTCGAGGCGACG
CTTGATTTCTCTTCGTTTGTGCTGCAATTCGATGAAACCAAAGGCAGGAG
TGATAATCAAGGAGCATGCGGTTCTATTCGTACCTCCTGCAGGCTCTACG
GTGCCTTGGTTGTGTTGCTGTGCTTCGTGAAAGGCGGTGAGATCAAGGGG
TTCCACAGCCCGAATTTCTCCCTCACTGAAGTTTTTAAAGTCAACGGAAC
CCCCGTAAGAGAATTGCCGGTTTAAGAGAGGCCAAAATGGCTTGGTACAC
ACTCCCTTAAACCGAACGCCGATTCTCTTAAATCGAACCTACGTTGTAGC
CCAGTCGAAAACCTATAATGTACTGCTGTGCAGCAGTCCTGCTGTAGTGT
GGGCTTCATAGCTGGCGAGACAATAGCTACCAGCTATACCGGCTGCAGCA
CGATGCTTTGCTGCCGACAAGCACATGTTATGGACGTCTGTTGAAGGGTT
GGGGGGATGTAGCCTCTTGAGCCCACTGGTACGCACCACTATAGGTCTGA
GTCACTCATCAAGTGAATACTGCTTATTTTCTTATTTTAGTATTATTGGT
GAAAGTCGACAAGGAAAGAAAAAGGACGGTCAGACCCTTCTCGCGATAAA
AATTGAGACAGGCACCTCAGAAGGAGAGTGAAGAAAAACTCCAGTGTGCG
ACCTTCCTCCGCCCGTCTGTGTGATCCCGGCCGATGCGCGCACATTGAAA
CCAAAAAGGTGGAAACTAACTGGCGTCAGAGTACTAAATGGGATGACAAC
ACGCACACACACACCAGGAGGAAACAACGAAATTGGAGAAAAAAAATGTG
TGTTACCTTCTCCTTTGTGACCCCGGCTGGTGCTCGAACAAATATACCGA
AAGGGTTTGTGTAGACGGGGGTCCAGAGGAGATGGAAAGATCACACCCGC
AAACGCACAAACACATCAAAATTTTTCGTTCATTCTAGACGAGGATATGT
AGCAAAACGAACACATCATCAGATAATGTACAGCGAGGAAAATGAGGAAA
TGAAGCGGTCGGTGCAATAAAGAGAACCTATCAATCATAGAGTTCTCTCA
CAGAACCAATGTGTTTGGTTCAAGAGCTCGGTTTGAGACAAATTCCCTCA
AACCGGGTTAGGAGAAGGTCGGGTTTCAGAGCGGTCGTTTTGGCATGGCA
CACCCCTCTCTTAAACCGTAGTGCAGTTGATATAGTTGTAGATATGCGCA
TGATATCATATGCATACAGCAGTACCTGGTATTTCGTATACTGGTAAGAC
ACTAGTCTTGTATGTATGTAGGCGTAGACTTTGGATGGAACACCATCACA
ACGGCAATTTATGTCTCCGTCTAACAGCACAGATAGTTCAGTCACTTTGG
CACAAGTTTAAATCACAACAGCAGTATCGACATCATATCGAGAAACAACA
GGGGCACAAAGATTACGGAGTACAGCAGTATTTCCATCGCCAAAGTTTAA
GTTTCGCCGTCATCCGTATAGTACTTCGAAGTACTTGTGTACACCATTGC
GGCAGGAAAGGCTGTGAAAGAGAGGAAAATTAGTTGAAAAATTCCATACA
AAATCGATTTCTTACGCGATTTTTTCGGTTTACACCGGATTTGCCGCAAA
CACATTTCTCCCCCCCCCCCCATCTACTTTTCAGCCGAAAGCATGGAAGC
TTAAGCTTTGATTTGCCCCCGGGGCGAACGCAAAAAAAGAACACGTTCCC
CCCAACCTTCCTTGAATTTTCCCCCTCTGGTAAATTTTTCTCGAAGACTC
CCCCCCGGTGTTGTTTGATTTTTCAACATCGTTGCACTGTTGGGGCTGAC
ACGCCGTTTCGTTCGGCCCTTCCTTGGAGGGCGCTTGGGAAGTCAATGTG
GAAACCGGTCATGGCCGGTGTCGTATGCAACTGCACACACGGTATCTGCC
GCCAAGTTTTGGAGTGTTGGTCATTGTGGAAATGTTGATGTCCACAGCTC
GAAGGCCGAACAGCATGATGTCAAAGCAAAGACGCGCGAGCATCGAAACC
AAAATGTCATACTTTTTAATATACATTTGTCGGAAAATGAATCTGGCTGA
AAACGACCAGATTGACACATAGATTCTCTGGGTGGCGGACCCATCCTTTT
TTTTTTTGTGAGATAAACCGTCATCAACGCCGGAACGCTGTTTCCCACGT
GCTGTCGTCATTCCTCTTCCTCTCGAAGTATTGCTCGTACATTTTATCCA
TCGCGGGTTCAGCAAACTCTAGAGAGCGGGCGAGAGTGCGTGTGTGTGTG
TGCTCCCGCAAATGCATATTTGTGTCTCCCTCCGGGGGAGGGTACCCCCC
AGGGAAGATTTGACAAAAAAAAAATCCTCCCCCATCACATTTTCCCCGGG
GGCTTGGATTAAAAAAATATATCCCCTCTCCGGGGGAAAACGAAGGGTTT
GCGTCAATGGAGACGAATCATTTGTGAGAATGCCAATCTTTGTAAGGATT
TTCCCAACAGGATTTTATTCCACTTGTTACAGGGGAAAACGCTTCGAAAA
ATGCAGCCGAATATTTCTCAAACCGATCATTCCCGGCCTTTTGTGGGAAA
TATTTGGTATACATTTCCCAAACCGAGCAGTCTTGAAAATCATGACGCGG
CGGACATCAAAAGTCTGGCCGCATATTTGCATCGATTGGCGACGCGCGAC
ACACGCGAACACATGACTCTTCCAACGGCACCCATGGCATAGAGGCCGAC
ACACGCCACCCACACCGCCCACGGTCACACACGAGTGTACGCACGACACA
GAGGGCTCGGAGCAACTCTAGAACCACCGCAATCAACACAACAGCTGTGT
TGGTTGTGGACACCCGCCAGGCATGCGATTTGTTTTTTGAGGAGCAACTC
TTCATTCGTGACACGTGGCACGTACGTGCGGTTGTCGTTTCAACCGCGAA
GACGCACGCAGCAGTTCAGAAAAGCCCCAATACGCAACAATCAGCAGTCG
CGTACACTCCCTACCCCACCAATTAACGTGAACTGTTACTCGCTGTCACC
CTCATCTACTGCCCTCCGTTGGTAGGGCGTTGGGTTGGAGATGGGCCCAT
CCAGTCTACAGAGGGAAGCGTTCCTCGTTGTTTGAACTACCAACAGACAC
CAAATCTTACTTCGAAGTACCTTTTTTTACACTTAAAAACATAATGCTTC
GAAGTACGAAGTACTTGTGCCGCCTAAAAAAACGGTTCCGCATCACTGCA
GCAAGCAGCAGTGAGATATGTCGATTGAATGATCCCGCCTCCAACCCAAC
GCCCCATCGATAGCGGGAGGGGAATGGAAGTGACATCCAAGAAGATTTCG
TGTTTGGAGGTGTGGTGTAGAGAACGAGATGGTGACTGCCGGGGTGTGCG
GTGTATCTGACGTCTATCTCTTGAACGTCTCACGTGAACGGCTGCTGTCG
GTTGGGAACACAGAACACGCACGCACGTCTCACTCATCTAATTTAAGAGC
TGCTGGGATTTTGTTTCGCATGTCTGATCCACTCCCACCACCAACCAGCG
GTCAAGGTCTTATCACGGTAACTTTAGGGTTGCCCCGAACCCTCTGCGAC
CTCCCCACGTTCAGATTCCATGGCGCAGTGGTTATTTTTGTCCAAAACAT
CCGTTGACACGGCCAGCCGGAGGCGATCCCACTGGGAATAAAAAGGAGAC
TGGAAAAAACTCGAAAATCAAGATTCTGTTACGAAAGGCGGCGGTACGAA
TTCTTTGGGAAACGAAGATTTGGCTCCACAATGCTGATGAGCATTTGGCG
AAACTTCTGCATCTTGACAAATTTTGCTGTCTCTATTAAAGCCGGTTAGG
TCCTGAAACTTTTGCACACATTTTCAGTGGGCGAAGACGCAACTCTGTGG
AATCCGTTTTTTTTTTCAATATACATTCGAGTACAAAGGCCGTTCCGGAC
TGATTGGGTCGACTGGGACCCCAGATATCTGGTGAACAAAGAAAAACGGA
TTTCACGAGGGTTGTGTATCGGCGTGCCGGTACAACATTTATCGGAAATC
GGCGCAGCCGATATGCCGATATTTCCTCGAGTAAATATCGGCATCCGAGT
GAAGCGAGGCGGCGAAGCCGCTGGAGGCAACTTTTTTATGCCATTTGGCT
TCATTTCCCTTCAAAATCGGGCAATAATTTGGGGTATCGAACAGGACTTC
CATCGACAGCGACACCGATCGGTATTAATTACTGAGTTTCTTTGCGGAGT
TTATTAGTATTGACCCAAAAATGTTGCGGTTCTTCAGTGAATGAAGATGA
AAAGCTGCCGCCTGTTGCCGCTGACGAAACCACCAACAGCAATTACTGGC
AACACTTGTTGATTCACGGGCTCATCGCTACAATCTAGCCCGTGGTCACA
AGCTAGACACATACCAGCCTTGCTTGGAAGAAAAATAAACAAGAATAATG
CAGAAGAATACAGTCAGGCGTACGGCCCGTAGGGGGCGGTATCTTCTGTA
GCAGTGGCCTAAAAGAAAAAGCTACAAAAAGACAGAAAGACAGACTCGAA
AGGAACAATCACTCAAACGAGTCGAAAAAAGAAACCAAACCAAAGCAGGA
TACAGCAGTTATCGACGATACAAAGCAGATACATACGTGTTGTTGTTGTT
GGTTCTCACATTAGCTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAGT
GCTGAGCCCTAGGAAGATAAAAAAAACAGAAAGAAACTACAAGGGAATAC
CCAAGAAAGACCGAAGAATATACACCTTCCTACGCGGTGTGCATCACTGA
AATACAGCAGTCACAGCAGTACCAACATCAAACGTACTTCCAGCGTTGTT
CATTTGACTACAACATCGTGTTCAGTCTCCTCCCGCCCCACTCATAACTA
ATAACCACTGCTGCTACAAGCAGTCAGTAGCTGCAGACTACAGCAGTTAG
TTGTTGTCTGGAGTGCTGCCTGCAACGTACAAGTAGCCCCGGCAATCGGA
GAAGACAGAAAAAGAAAAAACACAAAAACACACACGTATCATCAGATGTT
GTCGAGGATGGTGTCTCCATGCCGTCCTTGCGACGCTGGTGATGATGTCG
CCCTAAACATGTCCTCCTTGTCTGGGTCCACGTTGCTGTCGGCGTTGCCC
AAGGCCACATCACCAGCACCATGCTCTCGTAACGCTTCTTCACTGCCGGC
GTTGCCTTAGGTCACCGCCATCACCGCCGCTCTCTCGCATAACAGCTCTT
CTTCTTGTTGTTCCTTTCCAATCAGTTCCATAAGCTTCGCTGTGCACTTG
AGGTACAAGTCTTCTGAAAAAAAAGTTCACGCTCGGAGTGAGATCGACCA
AGCTCTTCCCCGTTCGTCGCTGCTCGTCTACCTCCGTCCTTGGCTGCGAA
ACTGGTTACTGGACGGCACAATCCCTCTGTGCATCCTAGATCGTACCGTC
TTTTCACCTGTGGTGTCGCCTGCCTCCGAGCACAAGTGCTCGTGATGTAC
ATTGCTGTACTGCCGCTGTAACCAAAAGGCCCGCGAATCCGCACATTTGC
ACCTGGCACACCAACTGCGACCCAACTCTCCCGTGGCGTTCGACCACAGC
GCAGCAGCAAGAAGGTATCACTCCTTGATGGTGAGTCCGGCCTTACACCC
GCCAGAACGACCCCCTCAACTCGCTTTGGGTCATGCTTACAGCAGACCTC
GCGTAGGCAGCGAGGGAACGGAGAGCTATGTGGGTCTCTTCGTTACATTA
AATATGTGCCAACGTTTGCGCACGGCTTCACACGGTCCTGCACTTGTAGC
AGCAACACCAGCCCCTCGTACTTGATGCCAACGAGTAGAAGGTCACACAC
ACTGTTACCACTGTAACGAATGAAGTTAACACAACGACACACAAAGTCGC
AAAGCAGTACATACGGAACATTCGGAGAGCGTATTGCAGGCTGCTGTAAA
TGAGGAGGTCTAACGTCATAAATACCTTAGAGCAGAGGGGTCACTCGTGC
ACTACAAGAAGCGCCAGGAGCCTGCGTCAGTTCAGCTGAAGGTAGCTGCG
GATGCGGAGGGTATGGTCCCTGTTATCATGGACAAATTTGACTCACAGGG
GTGCATGTTCGTGTGGGCGGGATGACTTCGCTCTTCCTACATACAAGGTG
GGGGGGGGGAGAGGGTATGTCATCGTCATAGTCTAGCGGCAGACTAACTA
GCGGTGGCGTGTGAGAGGTGTATTCTTCGTGCAAAGCCACGGTATTTTTG
TTTTCGTCCCATCTATTCGGTGCACTTGCCTTCACCTTTCGATTGAAGCG
TGTGCACCGGCTCACATGAAAGGAAGGTCACACCGGCACACCGGAGTTTT
TCTCTCTCCACCCCCCCCCCCTCTACGGTTTGTACGAAAAACAAAAAATA
AATAGTTGTATATTACTTCGAAGTATAACAAATAACGACTTAATGATGTG
AACGATTTCACAAGAAGCGTGGATGCTGAGGTGGGCCTCTTCGTTTCGCC
AATGTAAGCCCACTCTGCCGGTGAGAATTTCACCAAAATCCACATGCTTA
TCGTGTCCTCTTCGGCGTCCGGGGGGAGCTGGAAACAAGGCCGCTTGCAG
TGATCAAACACACCGATATATCGCAACATATTGGCATCGATATATATTGG
AACATCGGTAAATCGCTAAACCGTACTTTGATAAATGCACAACCCTAGAT
TTCACAGAGTAGTGTCCCGTAGCATATGTGTGCGAAATTTCAGGACCTGG
CTCGAGACAATCGCGTGAGGAATCGCAAGTGCGGTTAAGTACTGCAAAAA
AAATCTACTTGGACAAAACATTGAGTCGGCCCTTTGTAAGAACTTAAAAC
GCTAAAATTAAAAAATTAACCAAACTACGTCATTTCGTGGAGTTTCGAAA
AAAAAATCGCGAAACCGTCCTTTTTCGAAAAAAGTACTTCGTATTACCTT
ATTTTGGGGAAACGACACAACAGGGTGCGTGCGCCCTGGTCATTCTGCGA
CTCAGGAGGGTGCATACTTTTTCCGAGCGTGAAACGAACCAAGCTGATTT
GTCGAATCTCGAAATCACCCTGTTGAGCCGGAAAAGTGCCCGGGTGCACC
CCGCGAAGGCTACTTTTCTTCAAAACTACACCCTGATTTTTACAGGTACC
CTGTTGTCTGTAAATGACACCCCTCCACCGGATATTCCTCCCGTATGAAT
CACTTTCCGCACCCGCCAAAGGGCACCAAATATGAGATCTTCCATCGCCA
AACATACAATGGCGAACACCATGACCGGCACGACGGACCTACCGCATACC
CCTCCACATCGACTCTTCAGGCTCTCAACATACAATGGCACACTGCTGTG
CCAACAGATCAGAGTGCCGCTGCCAGCAAACAAACTGCAGATCCGCCGGC
AGCAAACAGAGACACCAGCCCGAAACAGAACGCATTTGTTCGCCCTGCTG
CAAACACTCGTAGAGCACACAAGAAGAACGCAGTAGAACGACAAAGTAGC
CACACAACACACAAAGGAGGTATGGAAGGGGCGACCACTGGGGTGACAGC
TGCGGCGGCGGGCCTGTCCGTGCCTACTGCTCTAGCCATCGACAAAGGTC
GACTGTTCCCCAGTCGCGACGCTGCGAGGACTGCGGCAGAGACCGAGCTT
GCCTCGACCGGCTGTTCCATCAAGAACGGCCCATCGGCCGGCAGGGTGAC
TTTGCACGTTGTGTGCAAGAAGTGCAAGTGACTCCTGCGGGAGGAATATC
CGGTGGAGGGGTCTCATTTACCGACACAACAGGGTGCTTTTAAAAAAACA
GGGTGTAGTTCTGAAGAAAAGTAGCCTTCGCGGGGTGCACCCGGGCACTT
TTCCGACTCAACAGGGTGACCTCGAGGTTTGACCAATCAGCTTGGTTCGT
TTCACGCTCGGAAAAAGTGTGCACCCTGCTGAGTCGCAGAACGAACAGGG
TGCACCCTGTTGTGTCGTATCCCTTTTTACTTTCATTGGGAATTTGCTCT
GGAAGCTTGGTTTTATTCAACTCAGGGACGTGTTAAACTTCATTCGGCCG
AAACATACTTTCTCCCCTAGCGCTGCCACTAGAGCCTCGGACCAAAAACC
AGCAATGTTATGGTCTTCTATTATTGACGGCGGTCAGTCTGGTACCAAAT
TTGTCGTGATCGAGTATTTATTGCGCTGGGGACAGTCTGTTGACTATATT
CTATACTCGAAGTATTTGGGTTCTTCACCGCGAACCATCCTGTAATGTCA
TCCAATTTCTCGGGTGCATTTGAAAAAAAAAATGCACTGCCAAAAAAAAC
AAAACTTGTTTAAAGTTTGTACTATGCGTGTGTGTTTTACGTACCAATAG
TGCTCGTGGTAGGTGTAACCGCCGTACGCACTCCTCAGTGCTAGTCTGTT
TTTTTTTGTGATTTTCGACTGCTTTTTTTGAACGATTTTAATTTTCACGA
ATCGAGGCCGTGGGGCACGAATGTTGTTCGTTCGTGGGGATGCACCTTGC
CTGTCGGCGGCAAATAACAAGCGGCAAAGCAAAGTGATACCCGGTACCGC
AGCAGTAGGACACAAGCATAAAAGTGGTGACAAATACGGCCTGAACCCAC
TGCTTCTGCTAATGAAGCTGCTCTGCTTTAGCTGCTGTAGCACCAGCAGT
TTGGTGGGCTTGGTGGTTGTGGCGATACTCCTGCTGCTGTTGCGCGAGAG
AGATGCTTTGCGTGATTGTTGGGTTGCTTACGACCGTGCGACGGTGCTGG
TCATGAACCTTGCGCGTGATCGCCGGTCTGCCTGACATTCTACCCCTTTT
AAGTGCTCGACGCCTCCGATAGGTCCATGCCCGCTCTCTAGGCGAAGTGC
TGGCGTGTGCTTCGCACGCGTCTTGCTTGTCGAGCTCTTGTCGAGGCTGT
GCCCCCCCGTATGGGTGACATGACATGTGTGATCGTGTCCGAACGGCCCA
CTTGGAAGCACTTCTCGTTCGAATCGCTCTGTCATTGGCTTGTTCTCGCC
GTTCTCACGAAAGCATTCAGAGTTGTTTTGTTAACATGATTTTATCTTTG
TTTGGTATTTTAGAATATATCATAGCAACATATACCTCGACCAAAAAGAG
GGCGCAAAGAAGAATGCAATCGCCCCGAGCCATTCCCACTACCACGTCGT
CATCGCCACTTTTCCCTGCCGATATGACGCACCCTCAGCTGTCAGCTCCA
GTAAGTGGGGTTTTAAAATCCATGTAATATACGCTGCTCCGCTTACACTT
GCAAGTCTACATCGTAGAGCCTGTGGGGACGTTGTGGCGACTCTCCTCGA
TTGTGCTCCGGCTTCACCTGGAATATATGATGTGTGTTCGCGGTACCGGT
TGTTGCTGTTGTTGTTGAGTTTACGCACGAAGAACCGATCCGGCCTCTAC
CCTGGTGCGCCTCCGCGCTCCTTGGTCACAGACCATCTCTGAAAGGTCCT
AATGACCGTCCAAAAAATCCAAATGGCTGAAAAATTAATCTTCATCATCC
CAGACACGGGTACTCCAAATGAGGAAACGATGGAACAATATATGCCAAAA
CAATCATAACCATAGAGCTCTTGTGACATGGATACAACCACATAAAAATG
CCAAGAAAATACCGGATGGGGGATTGGGAAGAGGTCACCTCAGCCCCGTC
CCCAAACTGGGGATATTCCCGGTCGGGTTTCCGCCACTCACCCATATCTC
CGTGCACATACACGGGTCAACCGTTTGGAAAGAATATTCTTCAGAATTTC
CTGTTGTATGCACAGCGGGATATACAAACCACTTGTACCGGTTCCCACGA
ATCAGCCGAGAAGAGGCAGCATGAAATCACTTTCTGCTTCAAGCAGCGGT
GCGTTCACTGCTACGCCGTTATACCAATGAAAGAGGAACAGCTTTGGAGA
TGAAACAGTTGGATGACTGCGACGGCACCAGCCAAATAACTGAAGAACCG
AGGGTGATTTTCTGTGGGATCACTCTGAAACTATATTTTGCGTGGAGATG
ATTCTCGACGGAATTGGCAAGGGCTACCGGCTGGCTACGGGAGGTTGGGA
ACAGCAGATGTTTCGAAACAGCAAAATTATTTGCCAAGGTTCAAAGTTGG
GTTGTGAAATGGCACCGAGTTATTTACTATATCACCCAGTTTAGATCGGA
ATCAGAAGTCAGCTAATGTGGCCGACCTAAATTTCAAATGATGACTCATG
TTTTGCGGGTATTCGTGTCACGATATGCTCGTACCTTATCATTAGAGAGG
ATGATACCGGATGCTGTATTCGCCGCCTCGGCAGAGGCTCCTCTTGCCTG
CATCAGTAACACTTCGTTGCTGCTATCCATTTACCCCCCTCTCTCCAATG
GCGACCCCCTACTGCAATGGCTGAAAACGCACCGCTTTGTGAATAAAACC
TCGAAGATGAACACCGGTTTCTGGTGTTCATTTCCTACTTTTTTTCGAAC
AATATTTTATGTGCAAAGTCGTTCCCTCGAAGTTTTTTTTTTTGTTGGGG
TTGTGAAAGGAATTGGAGCCAAATTTCCCACAACTTTGGCCTCCGGCCGA
GCCATGATTGCACTGTGTGTCGGCGGCGCCGACAAAGGTTAATACGAAGT
ACCTGGGTTTCGTCATCAACAACCGATATGCATACCTGCACACAAGTTGG
GAGCGTGCCAACCGAAGGGCATTCAATGAGTTGCGATTAGCATCAAACGT
GTTCCCCTTCATTTGGTGTTCTTTCCGTTGTTCGATGATGTGCGACTTCG
AAAGGTCCTCCAGCATAAGCTGGCTCTCATCCGCCGCCAAGAGGGGACGG
CGAAGGACTTCAGGACTCTCTTTCGCGAGATTACATTTTATCTAGGGTGA
GATGGATACGACGTCCGGGAAATCCGACATTTATGAGTGCTTTAGCTACG
CCCTCTACTGCTGCATTGCTTCTAGACACCCACAGCTGTTTCGCTTCCGG
TCTCCACGATCTTGGTGTAGGGCCAACGGGCTTCTCGTGGAAGTGTTGTG
GGATAACGGCTGTAGTAGCGCCCGATGTAGTTGCATTTCGCCCCGTTCGC
CTCGGTTTGTACCGGTTGTACCGTTGGCAAAATCCTCGCGGATGGCTTTT
CACCCCTGTGCGGTCAAGGATGTGTTAGGCTTCCATTAATCGAGCCTCAT
CAACAGACAAAATATGCAGCGGTTTTCCGTCCTCCCGCGATCATCTCAGC
GGACGTAACCCCAGGTGACGTCATTCATCCGTGCCCTTGTTTCCGTCCAC
CCCTATCGTCCTTGGATGACACGAACCGTTACCCATGGAACTTCCATCGG
ATCGATCTGAAATTTCGGCCCAAGGCGTGTTGACCAACCAGGAACTGCGT
GCCACTTTTCCCTTTGTCTCATGAGCACGAGCCTCGCCGACGTGCTGTTT
CTACGCAGCTACGAAGCCACTGCGACCCTAACGACAAAGTCGATTTGCGT
GAAGACAGACCGCACGGACAAGTGCCCGGCAAAAACGATATCCGAAACGG
TCGCTGTGGTGCCCATCCTCAGGCAAGGCTTAACCGCATTCCGGAGTTTA
TCTCAGTTTCAAATGTCTGCGCATACCTTACAGCGTATGATCATACTCAG
CATGTTTGGCACACGTGGGTTTCAGCCTTGTCACTGTGAGTTCGGTGCAG
CCGAGTGTGCTTTGCGCTTTTGTGCCATTTGATGATTGTGTGTTCCCGAG
GCCTGTGTTTCTCGCGATTGAAAGTATGCCCTTCGCAACATGGTATACTT
GAACTACTCCGGCTTCGTGTTCGCACGACCAGCATGGTTGTTGCCAAGTG
AACAAAGTAGCACTCTGTATTGGGTTCGTTGCCGTTGATTAATCATTTGC
GCGCGAAAAACTATCCTTCAGGGGTGGATTGGGAATGACAGAAGCGCTTC
TGGAGCTTTTGCCGGATTCGCCTGTCTACCACGTCGGCATGTACCGTAAC
CCTGGGAGCAATATTCCAGTCCAATACTACAATAGGCTACCCAAGGGACA
TCCCAGTGATGTCGCCCTCATCCTTGACCCTGTCATCGCTTCATGTGAGG
GCGCCCGTCACAGCTCCACACTGTCGACAAATTGTCACAATTTGCTTCGC
GGTTTGCTATATATATACCACGTGAGAGCCAAAAAAACGAACTTCGAATG
GAGCAACAGAGAGTGTGCTTTAAGCACGGGCAACAAGGGAGGCATTAGTG
CGTGGGGGGAGAACAAGCGTGGGTAGGCACCCGTTCTGGCGAGACTGCTG
CCCGATTGGGTACGTGAACACCCATCTTTTCCCCATAAGTTTTTTTTATT
TCCATCTTGCTCTTGCTCTCTTTTCTTCTTTGTTCCTCGGGCTGCTTTGC
TTTTCGCCCTGTTGTTTTGTTTGAAATTTGCAATTTTGCATTGTAGTCTT
CCTCCTTGCAAGATAATGTGCCTGGTTTGTGACCGCGGGCTAAGTTTTGA
CGACGAGCTACAAATTATAAATTATTTGTATGTGACAATCTACAACAACG
ACGTCGAGCAATTCCTTTGTGTGCTGAACCAGTGGTGCATACTTCTGCGA
TCAGTGGTCTATAGAATATAGCCCAATTCAGAAGGCCAAGTAATACTTTT
TTCGGATGCGTTATCGCAACAGTTTCCCGAATTTTCTGCGATGCATCCCC
CAAAAGTTTCGAGCCTGTTACCCTGCATAACCAAATGGGTGGAATTAACT
TCGTCGGCCATTCGCACATGACTGCCTGGAAAAGGGGAAGCTGACAAAAA
CGGTTTCCTTTCTCTCTCCTCCTGTCGGAACCATGCCGCCTCTGCCTGCT
TCTCCACGCTACGCAACCACCACCGCACAGCGCGTACAATCAACGCAGTG
GTGTCTATCGTCAAGAAGTGGGGAGCAAAGACCATCAAGGTGGGTCGCAT
GGCGACAACATTGCGCGTGCTGTCTGTGGCGTGTCCCAGGTCCTTCTCCC
GACGTGGCCCTTCGCTCCTATATTGCGGCATGAATCACCACAGGTACTTG
ATCTAAAATCCAACGCTGGCCCCATGCCTCTCGATCTTCCAACCCTCTTT
GCCGCGCACTAGGTGGTGACTTTGGTGGCATCACGATGCGGGTTGGAGGC
TCTGTATAAGATGCACCCAGAAGTTGAGGTGCATCTTGCCTCCATCGACG
AGCTCGCATCGGTAAGGAACCCGGCCTCAGTCTCTTACGGCCTTTGAAAC
CCCCCCCCAACTTGCCCCGTTTAGACAGTTAGCCAAGGTATCGTGTTACG
GTGTGTCCATCTTTTCTCTCCCCCTCTGCGTTGAAAGAAATACGTGAGCA
TTGCGGAGGAGCCGTAATGTCGCACATTAGCCGTGCTTTCTCTTGAGTTT
TCGCTTCCGAGTTCCGTCCGCATCACAGCGTGTAACACAGCACCCATTTT
ACCACCCCAAGCGTTCAAGTTGTGTGTTCTTGGTACAGAGAGAAGGTGGC
TTGGAGGATGTCCACCAATCGGCAGTACTTTCGCAATATCGAAGATGATG
TACTTATCGGCATGATACATGACGTGGCTGCTTACTTTTCTGTTATTTTT
TCCCTCGCCGCACATGATCGTTGGAACGCGACTCTAGAACGGCCTGGATC
TCGTTCCTGGGATTGGGGATTGTGGCGACCGCTTATATTTGGGTACAAAC
GCGATTGGTGACATTCCGTCAACAGACAACGTGGTCACGACGAAGAAATC
CAAGTTGTCTCATGTGTGA

Coding sequence (CDS) from alignment at P-littoralis_Contig110:42012..61930+

>mRNA_P-littoralis_Contig110.8.1 ID=mRNA_P-littoralis_Contig110.8.1|Name=mRNA_P-littoralis_Contig110.8.1|organism=Pylaiella littoralis U1_48|type=CDS|length=765bp|location=Sequence derived from alignment at P-littoralis_Contig110:42012..61930+ (Pylaiella littoralis U1_48)
ATGAGTGCTGCTGTAGATACCACAACGGCTGACCCTCCGCAAGCGCTGGT
TTCACAGCACCCGGTCCTCCAGCATAAGCTGGCTCTCATCCGCCGCCAAG
AGGGGACGGCGAAGGACTTCAGGACTCTCTTTCGCGAGATTACATTTTAT
CTAGGCTACGAAGCCACTGCGACCCTAACGACAAAGTCGATTTGCGTGAA
GACAGACCGCACGGACAAGTGCCCGGCAAAAACGATATCCGAAACGGTCG
CTGTGGTGCCCATCCTCAGGCAAGGCTTAACCGCATTCCGGAGTTTATCT
CAGGGTGGATTGGGAATGACAGAAGCGCTTCTGGAGCTTTTGCCGGATTC
GCCTGTCTACCACGTCGGCATGTACCGTAACCCTGGGAGCAATATTCCAG
TCCAATACTACAATAGGCTACCCAAGGGACATCCCAGTGATGTCGCCCTC
ATCCTTGACCCTGTCATCGCTTCATCGCGTACAATCAACGCAGTGGTGTC
TATCGTCAAGAAGTGGGGAGCAAAGACCATCAAGGTGGTGACTTTGGTGG
CATCACGATGCGGGTTGGAGGCTCTGTATAAGATGCACCCAGAAGTTGAG
GTGCATCTTGCCTCCATCGACGAGCTCGCATCGAACGGCCTGGATCTCGT
TCCTGGGATTGGGGATTGTGGCGACCGCTTATATTTGGGTACAAACGCGA
TTGGTGACATTCCGTCAACAGACAACGTGGTCACGACGAAGAAATCCAAG
TTGTCTCATGTGTGA