mRNA_P-littoralis_Contig187.1.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig187.1.1
Unique Name	mRNA_P-littoralis_Contig187.1.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A6H5L9B9_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L9B9_9PHAE)

HSP 1 Score: 420 bits (1079), Expect = 1.800e-132
Identity = 225/298 (75.50%), Postives = 242/298 (81.21%), Query Frame = 3

Query:   39 GKFPGKIMLSSAVVARRCCSVGTA-RVAGLPRE-PTAXXXXXXXXXXXXXXXXXPRRGFAAGTPR---IAGDPRWLALRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSHKKVAPD 917
            GK     ML      R CCS   A R AG  R  P A                  RR F A  PR   IAGDPRWL LR+LLRKCDTPSLCDADK+LSSKVIDYAIRPRH+R++GI LLGLARTVRTVGG GEHPDFRNLVESLMESSPGEVLVVDCGGS IAVAGE+FSAEAKRRSLAGMLIEGACRDTETIARLRFPVY RFVNPMAG+CITLDRD+MQVPVT+GGV+IN GDVIMGDDDGVVVLGNDLDKIQ+TAL AS+ILRNE AVLTEV+DN RCL+EFMDMMDSHK+V+P+
Sbjct:  409 GKRVKGTMLVFPRALRGCCSTAAAARAAGSTRAVPDAGVRDC-------------RRLFVASPPRPPEIAGDPRWLPLRELLRKCDTPSLCDADKSLSSKVIDYAIRPRHIRTRGIGLLGLARTVRTVGGPGEHPDFRNLVESLMESSPGEVLVVDCGGSNIAVAGELFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYCRFVNPMAGRCITLDRDLMQVPVTIGGVKINPGDVIMGDDDGVVVLGNDLDKIQKTALAASEILRNESAVLTEVLDNNRCLLEFMDMMDSHKQVSPE 693

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: D7G556_ECTSI (Dimethylmenaquinone methyltransferase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G556_ECTSI)

HSP 1 Score: 282 bits (722), Expect = 2.180e-86
Identity = 149/196 (76.02%), Postives = 163/196 (83.16%), Query Frame = 3

Query:  330 DYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSHKKVAPD 917
            D A R    R+ G+   G   + R     G       L +SLMESSPGEVLVVDCGGS IAVAGE+FSAEAKRRSLAGMLIEGACRDTETIARLRFPVY RFVNPMAG+CITLDRD+MQVPVT+GGVEIN GDVIMGDDDGVVVLGNDLDKIQ+TAL AS+ILRNE AVLTEV+DN RCL+EFMDMMDSHKKV+P+
Sbjct:   23 DRAHRGWARRTPGLQKSGRGLSARASLATG-------LPKSLMESSPGEVLVVDCGGSNIAVAGELFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYCRFVNPMAGRCITLDRDLMQVPVTIGGVEINPGDVIMGDDDGVVVLGNDLDKIQKTALAASEILRNESAVLTEVLDNNRCLLEFMDMMDSHKKVSPE 211

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A835YLR9_9STRA (Ribonuclease E inhibitor RraA/Dimethylmenaquinone methyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YLR9_9STRA)

HSP 1 Score: 261 bits (668), Expect = 1.250e-77
Identity = 130/228 (57.02%), Postives = 174/228 (76.32%), Query Frame = 3

Query:  216 GTPRIAGDPRWLALRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSH 899
            G+  +  D RW +LR+ LRKCDTPSLCDADK+L+       +RPR+   +GI L+G ARTV+TV G    PDFRN+VE+LM SSPGEVLV+D  GS++AVAGE+F+AEA+RR LAG++I+GACRDT T+ RL FP Y+R V+PMAG C+TLD+ ++ VPVTV GV + +GDV+ GD DGVV LG D+D ++  A  A++I ++ER VL EV+++ RCL EFM ++DSH
Sbjct:   36 GSSDVHLDVRWPSLREKLRKCDTPSLCDADKSLTPLT---ELRPRYQFGRGIKLVGRARTVQTVVGRNGLPDFRNVVEALMSSSPGEVLVIDARGSRVAVAGELFTAEARRRQLAGIIIDGACRDTPTVCRLDFPFYSRSVSPMAGVCVTLDQSLLGVPVTVSGVTVANGDVLFGDQDGVVNLGQDMDNVELLARRAAEIRQHERLVLKEVLEHDRCLAEFMTILDSH 260

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A846NRI4_9ARCH (RraA family protein n=1 Tax=Candidatus Aenigmarchaeota archaeon TaxID=2093792 RepID=A0A846NRI4_9ARCH)

HSP 1 Score: 133 bits (335), Expect = 9.830e-32
Identity = 80/218 (36.70%), Postives = 133/218 (61.01%), Query Frame = 3

Query:  255 LRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSHKKV 908
            L++ L   DT S+ D ++ L  +V+D  IRP ++   GI ++G+ARTV   G      DF +++++L ++S  EVLV+D  G KIA  GE+F+ EA+R+ LAG++++GACRD + I  + FPVY+R++ P+AG    +     Q  V  GGV ++  D+I+GDDDG++V+  +  +  E    A +I   E+ V+ E I+  + L E ++  D + K+
Sbjct:    6 LKERLAVLDTASIYDVNEKL--RVMDPEIRPVNL---GIKMIGIARTVHCKG------DFLSVIKALHDASEDEVLVIDAEGDKIAFVGELFALEAQRKKLAGIVVDGACRDIKGIRNINFPVYSRYITPIAGTSSRIFPT--QEKVKCGGVSVSPRDIIVGDDDGIIVMSEE--EANEILDTAQNIQMIEKKVI-EKIEAGKSLTELLNFFDHYAKI 207

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A2E3J1E1_9BACT (Dimethylmenaquinone methyltransferase n=2 Tax=FCB group TaxID=1783270 RepID=A0A2E3J1E1_9BACT)

HSP 1 Score: 133 bits (335), Expect = 9.830e-32
Identity = 83/221 (37.56%), Postives = 127/221 (57.47%), Query Frame = 3

Query:  246 WLALRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSHKKV 908
            ++ +++ L   DT  +CDA+K L  +VID AIRP      G+  +G A TV        H DF  +++ L ++   EVLV+D  GSK A+AGE+F  EA R+ LAG++I+G CRD+  I  L  P Y R   P++G    L     Q+P+T GGV ++ GD++ GDDDG+VV      +I E   +A DI R E  +LT++ +    L++ ++  +  +KV
Sbjct:    3 FVEIKRRLTALDTACICDANKGL--RVIDPAIRPIQ---NGLKFIGRAHTVTC------HEDFLTVIKGLRDAVKDEVLVIDSQGSKTALAGELFPTEAIRKQLAGLVIDGPCRDSAKIRTLPIPYYARSFCPLSGTTSRLFET--QIPITCGGVAVHPGDILFGDDDGIVVAN--AAEISEAIPVAEDIQRKEELLLTKMGEGVS-LLQMLNFDEHSEKV 207

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A3D1DF23_9PLAN (Dimethylmenaquinone methyltransferase n=2 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A3D1DF23_9PLAN)

HSP 1 Score: 132 bits (333), Expect = 2.400e-31
Identity = 85/223 (38.12%), Postives = 125/223 (56.05%), Query Frame = 3

Query:  255 LRKLLRKCDTPSLCDADKNLSS--------KVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSH 899
            LR  L   DT  +CDA+K L +        ++ D AIRP  +R+ G+ L+G A T+R       H DF  +++ L ++ PGEVLV+D  GS  AV+G +F  EA R+ LAG++++G CRDT  I  L  P Y R   P +G    L     QVPVT GGV +N GD++ GDDDG+V+    ++++     +A +I R E  +L  +      L+E M+  D+H
Sbjct:    6 LRTRLMPLDTACVCDANKTLRAADPAVSQLRIADSAIRP--VRT-GLKLVGRAHTIRC------HNDFLTVIKGLGDAQPGEVLVIDSQGSDRAVSGSLFPTEAIRKGLAGIVVDGPCRDTRAIRTLELPYYARSFTPYSGTTSNLGET--QVPVTCGGVTVNPGDILFGDDDGLVIAT--VEELAAALPIAEEIQRKEEILLGRMASGTS-LLEMMNF-DAH 213

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A495YYZ7_9BACT (Dimethylmenaquinone methyltransferase n=2 Tax=Candidatus Poribacteria bacterium TaxID=2026781 RepID=A0A495YYZ7_9BACT)

HSP 1 Score: 131 bits (330), Expect = 6.040e-31
Identity = 82/206 (39.81%), Postives = 120/206 (58.25%), Query Frame = 3

Query:  255 LRKLLRKCDTPSLCDADKN--------LSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEV 848
            +++ L   DT  +CD +K            +VID AIRP  +R+ G+ L+G A TV        H DF  +++ L ++ PGEVLV+D  GS  AVAGE+F  EA R+ LAG++I+G CRDT+TI  L  P Y R  NP+AG    + +  + +P   GGV +N GD+I GDDDG+VV    +D++     +A +I R E  +L ++
Sbjct:    6 IKQRLLALDTACVCDGNKAGRAADPAVTELRVIDPAIRP--VRT-GLKLVGRAHTVTC------HEDFLTVIKGLRDAEPGEVLVIDTQGSHRAVAGELFPTEAARKGLAGIVIDGPCRDTKTIRTLNVPYYARSFNPIAGTTHKIYKTQISIPC--GGVIVNPGDIIFGDDDGLVV--GSIDELAAAIPIAEEIQRKEDQMLEQM 198

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A3B8M6Q8_9PLAN (Dimethylmenaquinone methyltransferase n=2 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A3B8M6Q8_9PLAN)

HSP 1 Score: 131 bits (329), Expect = 8.230e-31
Identity = 84/223 (37.67%), Postives = 127/223 (56.95%), Query Frame = 3

Query:  255 LRKLLRKCDTPSLCDADKNLSS--------KVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSH 899
            LR  L   DT  +CDA+K L +        ++ D +IRP  +R+ G+ L+G A T+R       H DF  +++ L E+ PGEVLV+D  GS  AV+G +F  EA R+ LAG++++G CRDT TI  L  P Y R  +  AG    L +   QVPVT GGV ++ GD++ GDDDG+V+    +D++     +A +I + E  +L  +      L+E ++  +SH
Sbjct:    6 LRTRLMPLDTACVCDANKTLRAADPAIDQLRIADSSIRP--VRT-GLKLVGRAHTIRC------HNDFLTVIKGLSEAQPGEVLVIDSQGSNKAVSGGLFPTEATRKGLAGIVVDGPCRDTRTIRALELPYYARSFSSYAGTTTILGKT--QVPVTCGGVTVHPGDILFGDDDGLVIAT--VDELVAALPIAEEIQQKEEIMLGRMASGTS-LLEMLNF-ESH 213

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: A0A7X3RM71_9BACT (RraA family protein n=2 Tax=Gemmatimonadetes bacterium TaxID=2026742 RepID=A0A7X3RM71_9BACT)

HSP 1 Score: 129 bits (324), Expect = 3.020e-30
Identity = 80/219 (36.53%), Postives = 127/219 (57.99%), Query Frame = 3

Query:  255 LRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLASDILRNERAVLTEVIDNKRCLMEFMDMMDSHKKVA 911
            +++ L   DT  +CDA+K+L  + ID AIRP    + G+ L+G A TV        H DF  +V++L ++   EVLV+D  GS+ A+ GE+F  EA R+ LAG++I+G CRDT  I  L  P Y R + P+AG    +     Q+P++ GGV ++ GD++ GDDDGVVV      ++ +   +A DI + E  +LT++ +     +  +DM++  +  A
Sbjct:    7 IKRRLSLLDTACICDANKDL--RAIDSAIRPI---TTGLKLIGRAHTVTC------HEDFLTVVKALRDAEQDEVLVIDSQGSRRALTGELFPTEAMRKQLAGVVIDGPCRDTAKIRTLPIPYYARSIYPVAGTTSKIFET--QIPISCGGVIVHPGDILFGDDDGVVVATTA--ELSKAIPIAEDIQKKEGLLLTKMEEG----VSLLDMLNFEEHSA 206

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BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Match: K0F5A3_9NOCA (Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase n=6 Tax=Nocardia TaxID=1817 RepID=K0F5A3_9NOCA)

HSP 1 Score: 128 bits (322), Expect = 5.440e-30
Identity = 75/168 (44.64%), Postives = 107/168 (63.69%), Query Frame = 3

Query:  270 RKCDTPSLCDADKNLSSKVIDYAIRPRHMRSKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKIAVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKCITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGND 773
            R  DT +LCDADK  S++V+D AIRPR   S  + + G A TVR  G      DF  ++ ++  ++PG+VLVVD GGS+IA AGE+F+  A  R L G++I+G  RD   +     P+Y+RFV PMAG   T +   +Q+PVT GGV +  GD+I+ D++GV+V+  D
Sbjct:   11 RAVDTTALCDADK--STRVLDSAIRPR---SGAVRIFGPAFTVRCTG------DFFAVLRAIETAAPGDVLVVDGGGSEIAFAGELFARGALVRQLGGIVIDGGYRDIAYVRSCPLPIYSRFVTPMAGS--TTELGELQIPVTCGGVPVVPGDLILADEEGVIVVAPD 165

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig187.1.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5L9B9_9PHAE	1.800e-132	75.50	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D7G556_ECTSI	2.180e-86	76.02	Dimethylmenaquinone methyltransferase n=1 Tax=Ecto...	[more]
A0A835YLR9_9STRA	1.250e-77	57.02	Ribonuclease E inhibitor RraA/Dimethylmenaquinone ...	[more]
A0A846NRI4_9ARCH	9.830e-32	36.70	RraA family protein n=1 Tax=Candidatus Aenigmarcha...	[more]
A0A2E3J1E1_9BACT	9.830e-32	37.56	Dimethylmenaquinone methyltransferase n=2 Tax=FCB ...	[more]
A0A3D1DF23_9PLAN	2.400e-31	38.12	Dimethylmenaquinone methyltransferase n=2 Tax=Plan...	[more]
A0A495YYZ7_9BACT	6.040e-31	39.81	Dimethylmenaquinone methyltransferase n=2 Tax=Cand...	[more]
A0A3B8M6Q8_9PLAN	8.230e-31	37.67	Dimethylmenaquinone methyltransferase n=2 Tax=Plan...	[more]
A0A7X3RM71_9BACT	3.020e-30	36.53	RraA family protein n=2 Tax=Gemmatimonadetes bacte...	[more]
K0F5A3_9NOCA	5.440e-30	44.64	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolas...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig187	contig	P-littoralis_Contig187:12987..32428 -

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	1133849.O3I_034050
PFAMs	RraA-like
Model size	2486
Max annot lvl	201174\|Actinobacteria
KEGG rclass	RC00067,RC00502,RC01205
KEGG ko	ko:K10218
KEGG Reaction	R00008,R00350
KEGG Pathway	ko00362,ko00660,ko01120,map00362,map00660,map01120
Hectar predicted targeting category	mitochondrion
Exons	8
Evalue	2.77e-33
EggNOG OGs	COG0684@1\|root,COG0684@2\|Bacteria,2I8VQ@201174\|Actinobacteria,4G4K0@85025\|Nocardiaceae
EC	4.1.3.17
Description	Aldolase/RraA
Cds size	867
COG category	H
BRITE	ko00000,ko00001,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig187.1.1	prot_P-littoralis_Contig187.1.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig187 14547..32369 -

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


Feature Name	Unique Name	Species	Type	Position
1680789893.269269-UTR-P-littoralis_Contig187:12986..14546	1680789893.269269-UTR-P-littoralis_Contig187:12986..14546	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig187 12987..14546 -
1680789893.3606288-UTR-P-littoralis_Contig187:32369..32428	1680789893.3606288-UTR-P-littoralis_Contig187:32369..32428	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig187 32370..32428 -

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


Feature Name	Unique Name	Species	Type	Position
1680789893.279429-CDS-P-littoralis_Contig187:14546..14684	1680789893.279429-CDS-P-littoralis_Contig187:14546..14684	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 14547..14684 -
1680789893.2890608-CDS-P-littoralis_Contig187:18016..18118	1680789893.2890608-CDS-P-littoralis_Contig187:18016..18118	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 18017..18118 -
1680789893.3025117-CDS-P-littoralis_Contig187:22675..22753	1680789893.3025117-CDS-P-littoralis_Contig187:22675..22753	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 22676..22753 -
1680789893.311729-CDS-P-littoralis_Contig187:24367..24469	1680789893.311729-CDS-P-littoralis_Contig187:24367..24469	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 24368..24469 -
1680789893.3236787-CDS-P-littoralis_Contig187:26450..26507	1680789893.3236787-CDS-P-littoralis_Contig187:26450..26507	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 26451..26507 -
1680789893.3321583-CDS-P-littoralis_Contig187:27493..27593	1680789893.3321583-CDS-P-littoralis_Contig187:27493..27593	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 27494..27593 -
1680789893.340706-CDS-P-littoralis_Contig187:31437..31570	1680789893.340706-CDS-P-littoralis_Contig187:31437..31570	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 31438..31570 -
1680789893.3516202-CDS-P-littoralis_Contig187:32212..32369	1680789893.3516202-CDS-P-littoralis_Contig187:32212..32369	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig187 32213..32369 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig187:12987..32428-
coding sequence from alignment at P-littoralis_Contig187:12987..32428-

protein sequence of mRNA_P-littoralis_Contig187.1.1

>prot_P-littoralis_Contig187.1.1 ID=prot_P-littoralis_Contig187.1.1|Name=mRNA_P-littoralis_Contig187.1.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=289bp
MLSSAVVARRCCSVGTARVAGLPREPTAAAAAAAATCLAAGQQQQPRRGF
AAGTPRIAGDPRWLALRKLLRKCDTPSLCDADKNLSSKVIDYAIRPRHMR
SKGITLLGLARTVRTVGGAGEHPDFRNLVESLMESSPGEVLVVDCGGSKI
AVAGEMFSAEAKRRSLAGMLIEGACRDTETIARLRFPVYTRFVNPMAGKC
ITLDRDMMQVPVTVGGVEINSGDVIMGDDDGVVVLGNDLDKIQETALLAS
DILRNERAVLTEVIDNKRCLMEFMDMMDSHKKVAPDTA*

mRNA from alignment at P-littoralis_Contig187:12987..32428-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig187.1.1 ID=mRNA_P-littoralis_Contig187.1.1|Name=mRNA_P-littoralis_Contig187.1.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19442bp|location=Sequence derived from alignment at P-littoralis_Contig187:12987..32428- (Pylaiella littoralis U1_48)
CAGACGTGGCAAGGCGGAACAACTGACATTTTTTTGTAGGGAAATTTCCT
GGAAAAATCATGCTGAGTTCGGCGGTCGTTGCGCGGAGATGTTGCTCCGT
GGGGACGGCCAGGGTTGCGGGGCTACCACGCGAGCCTACTGCTGCCGCTG
CTGCTGCTGCTGCTACGTGTCTAGCAGCGGGGCAGCAGCAACAGCCCCGG
CGGGGTTTTGCAGCAGGTGAAGTTGCTCTTGGTTGATGCTGCCCGCGGTA
CCGTTGGCAGTCCCGTGTCTCACTAACTGTTTGGTGGCGGTAGCCCTGCC
GGGGTGTTGGAGCAGGTACTGTATAATTGTTTGGAGTTTCCTCGTACGGC
ATTACGTAACTACCGGAGTCTGTCGCCAGGCATTCATTGTCACAAACGGT
TGTTCTTGTTCTCTTGTTCTTGTTGTTGTTGTTCTTGTTCTTGTTGTTGT
TCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTTCTGGTT
CTCAAATAAGCTCGCCGCCGAAGTAGAGCCCGTGGCCGCGAACTAGAAAC
GTTTCGCTCTACGATAGGAAGAAAGCTTAAAACTCAAAATGGAAAAAGAG
GTCGTACATACCATCCACAAGAAACAAAAAAAAAGGGATACTTCGGCACC
GCCCACCCAGGGGGCACCTGTCTCTCCGTCGTGGCGAAGATGCAGAAAAA
CAAACTGTGTACTCGAAAAATGAAAAGCGGCGTGTGTGAAACGAAAAGTT
GCGTGTGTGTGACATGAAAAGAAGCGTATGTGACATGGAAAGAGGCGTGT
GTGTATGTGTGTGTGAAATGAAGAAAGGCGGGTTGTTCTGTTTGTAATTG
CTCCGCAGGGACTCCGCGTATCGCCGGCGATCCAAGGTGGCTTGCCCTCC
GAAAGCTGCTCCGAAAGTGCGATACCCCCAGCCTGTGCGACGCCGACAAA
AATCTCAGCAGCAAGGTCATCGACTACGCCATCCGGCCGAGGTATCATAT
CAAAACACCAACAACGTTCCTCTTGTTGTATGTACACTTCCAAACATTAA
CAAAAAATATGATCACCCAAAAAAACAAATTTGACCGCAGTAGTGTCAGA
TGACGGCAGAAGGATTAAAGGCGTGGAGCTAAGAAAAATAAAGATCCTGT
GTTGACCTTCCTCTTGTGTGACCGAGAGCCCCAGCCCCGGCTACTGCGCC
CAACTTACACCGAAAGTTGTAGACTGGCGCCCAGATCTCCTCTGTGGCCA
ACCCCGGGTGGTACGCCCAACTAACACCGAAAGTTGTAGGCCGGCGCCCA
GAACTCCTCTGTGACCAACCCCGGCTGGTGCGCCCAACTAACACCGAAAG
TTGTAGGCCGGCGCCCAGAACTCCTTTGTGACCAACCCCGCCTGATTCGC
TCAACTTACACCGAAAGTTGTAGGCCGGCGCCCAGAACTCCTCTGTGATC
AACCCCGGCTGGTGCGCTCAACTTACACCGAAAGTTGTAGGCTGGCGCCC
AGAACTCCTCTGTGACCAACCCCGGCTGGTGCGCCCAACTTACACCGAAA
GTTGTAGACTACATTGTAGCGCCCAGATCTCCTCTGTGGCCAACCCCGGG
TGGTGCGCCCAACTAACACCGAAAGTTGTAGACCGGCCCCCAGAACTCCT
CTGTGACCAACCCCGCCTGGTGCGCCCAACTAACACCGAAAGTTGTAGGC
CGGCGCCCAGAACTCCTCTGTGACCAACCCCGGCTGGTGCGCTCAGCTCA
CACCGAAAAGTGTAAACTGGGGTCCAAAACACAGGGACGATAACACTAAA
TTTTTATCAGTCCACCAAAAAATGTGTAGTGCTTTTACACAACATGTTTG
CGTAGTCATGACAACGTGTTGCTCCTTGTGCAGCAGGTCATGGTTGCAGT
TACAGAGAGTTTGCCTAAGTGATAGGCCTGTTCACGAGAGGCCAACATTT
TTGTCTTTTTAGTATCCTTCGAAGTGCTTCGAAACACGAAAAAAAAACAC
ATTCTTCGCACGTTTAGTGCGAGCGATTGTTGGTCTCTAAGGGAGTTGTC
CCACGTGGGGCATGCGTGGAATATGTGGCACACCCTTTTCTCTTTAACCG
CCGCCGTGACTGCTGTACAGGGAGCACACGTTCCGGTCGCTCGATTCATC
ATATGGTATATATCACCGCCGGTCGCCCCGGTGGACTAGTGGTCCCCTCG
TTAACCACTAGATGCAGAGAAACGGGGGTTTGATTCCCGGCGAATGTGTT
CCTTTGCTACTTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCT
TCGCCGACGAGGGTAGGGACCGCGGATCCCTGCTCGCGAGAAAAAATCTC
ACGCATGTACCGCAGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCT
TCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAG
GGTGCAGACTAGTGTGCCAGAGAATATGGAATGACAACACATATGCTCAG
ATTGTGTACTCGGGGCCCCGCGAACGTAATATAAGTGAAGGGTGCTTCCG
GCAAAGGTGTGTGTGTGTGTGGGGGGGGGGGATCATATTCTAAGCCAAAT
AGGGCGAGGTTGGCGGTGTTGTATGCTACAACCGCAACGATGACTGCTGT
ATTAGTAAAAGATTAAATCCAACCCATGTGTTCAGACAACAGTAGTGTGT
TTTTTGTTTTTTCCCGTTAAAGTCGCGCCTCGTTAAGTTAAAAAAAAAGC
ATTTACCGGTATGAAAGCTTGAAAAACATAAAATATATTGTACTTCGAAG
TACTTCGTATATATACAGTAGCCTGATACAGTAGGCTGGCTGCGTTTGTA
GCTCCGCTCGGGAAGTTTTTCTCCTGCTTCCTGTTTCATGTACACTTTCT
TCGTCCAGCATTTTCTCGTCTTCCCAGACAAATCGCAGAGCGTTGTTTTC
CTTTCTGTCACAAACCTGCCCGTTTTCACGCCTGTCTACCGTACTAGATG
AAGCAAAGGGCCCCAAGTTTATCCCATCGACTCCATAGGAAGCCTTTTGA
GTACCGCAGGTGACGTTAGATACTACCCCCTCCTGATGGTTCTGTGTATG
GTTGATTACTCCACAGCAAGAAGAGTTTCAGCGCCGAAAATGACATTTCT
TTTATCGTGAATGGCTCTCTATTTTAAGAGCATTTACTAGCATAACTGCC
ACCAAATTGTAATCAGAAGACGAGCATATTTCGCCTGTTTTTCGAGCAGA
ATGAGCATAAATGGAGTTCATGGAAAGCATCATGGCATCAGTGAAGAGGA
GACAAGTGTCGTCGCCGAAAATGGTAGCGTTAGGCGTTACAAAGATCTCG
TCGGGAGCTTTCCGAGAACGTACCGTGTTGCATTGGCACCCTCTTCACTA
CGGAATCATGTACTCGGCCACCTGTAAAAATCGGCCGGGGGGGTCCCGTG
TGGTATCTACCGTCACATGGGGAAAACATTTTTACACCAAGATTGAGAGA
CAAAAAGTGATGATGCTTATTTCGATATGATACTGGCACTCTCTTTCGCT
ATGTACGGAATAATCGACCTATAAAACATCGGCCCAGGGGGTGTGTTATT
TTCCGTCACCTGGGGAAAACATTTTTAACATTTACGTTGTTGGGAGACAA
ACGGTCATGATGTTTTTCGATACTGTAGTGGCAACCTCTTCACTGCGGAA
TAATCGACCTGCAAAAATCAGCCGAAAAGGGGGTGTGTTGTCTTCCGTCA
CGTGGGTAACGCATTGACATTGGGACACAAACAGTGATGATGTATATACG
TATGTATTTCGATATTGGTACCCTCTCCACTACTGTACGGAACAGTCGAC
CGCCTGGAAAACTCAGACTAGGGGGTGTGTTATCTTCCGTCACCTGGGTG
ACGCATTATGAGACAAACAGTGATGACTAACAGCAGTATTTTGATATTGG
CAATCTCTTCGTCGCGGGGTAATCGATCAACCATTGAACATCGGTCCAGG
GGGGCCCCGTGTGGTATCTTGCGTCGTGTTACCCTACGGTATTCGTGTGC
GGGAGGGGGGGTCCCTGGAGAGAACTCCGTCTTCTTATTGTTGTTTTTTG
GCACCCACAAAAGTAAACATTCGAACTCTCTTGTGACGTACTTTGTGACG
TACTTCGTGTAACATAATCTGAAATCACGTCCCAGTTTGCGGTCTAAGGG
ACGTGGTATCTTACGTCATGTCACCTTCTGTATTCTTGTCGCCATGAAGA
GCAGTACTATGATACATGTGCGGGGGGGGTTCTTACAGGGAAACTGTATC
GCCTTTTTTTTTTTTGCAACCACAAAAGAAAACATTCAACGGACCCCCAC
CCCCCCCCCCCCCGGCCCAAAACTCTCCTGGGACGTATACTTGTATTAGT
ACGTCAGTCTGTCTGCTGGTGCACCCTACTCCGGCTGCAGTGCTGTCATA
CATACATACATAATCCCGACTCCTGTAAAGGTTGAGGTTTGGGGATGCCA
CTGTAGGTAGCCCTTCACTTTTAGGTCCCTTTCTCCTCTTGATTTGAGGA
TTCCTCGCATGGGCAACCCGCCCATGTTTTTGCCGAATCACTTTGATTTC
GAATTCGACTGATGGTTCAGCAATCATATCATAGCCCATCGGATTGCCTA
GCATCGCGTCGTATTTTTAGATTTTTTCAGAATCCGTTCTCGTCTGAGAT
ATCGAGAATCTTATCATAGCCTTGAAGCCCAGAAAGAGAAAGGAAAAGCG
AAGGGCCTACAACAGTATCGTGTTCAAACAACAGCAGCAGCAACAACACC
CAAGCGCTCCCTGTTCTGGATGAATGAATCTCCAGGCACATGCGAAGCAA
GGGCATCACCTTGCTGGGGCTGGCGAGGACCGTGAGGACCGTGGGAGGGG
CCGGCGAGCACCCCGATTTCAGAAATCTCGTCGAGGTTAGTTTTCTTGTT
GTTGTTGTTGACCCGAAATAAGCACAAAGTCGGCTGAAACAAGAAGCATA
TACTCGGTAACAAAAAAAAAGCAAAAAAAACAAAAAAGTGCCTAATGGAT
AAGAGCCTGGTTTAGTACTGCTGTTGTGGCTGGTGATGGAGTTGGAGGAG
GTGGTGGTGGGCGCGGTAGTGGTAGTGGTGGGCGTGGTGGTGCTGTTGTA
TGATACATGATGTTGATAGCTTCGGCGCTGGTGGTGGTGGTGGTGGTAGT
CTTGTTGTTACGTTGTTTTGTCGTCGTCGTTGGGACCGCTTTCGCAGGAA
AATTAAGTTAAGTAGGAATTAGAGAGGGGGGATTACGCAACCCTAACCCT
AACCCTAACCTCAACCCCGAACCAACCACTAATTTTAAGTAAACTTCATT
TTTTACAAACCCTGCGAAGGCTACTGCGTTGCTGCTGCTGCTGCTGCTGC
TGTTGTTGTTGCGATGGTCGGATAAAACTCTGCAACAATCAGGGGCTGGA
CCAAAAAACTTCCACACTTTCGGAAGGCTTCGACGGTGTGTGATATTTCC
ACACCGCCTCTGTGGAGATGTCGAGAGCTAGAAAAATCCAGGAAAAATCC
AGAAAAAATCCAAGAAAAATCGATCGGTGTCAGAGAAAGCGGGTGCGCTA
AACGCCATGCGAAGGGTGGCGAAGCTGCCTTCTGCTGCTGCTGCTCGCTT
CCTCCGGCCTCTTTTTTTTTTTTTTTGCTTTGCTTTCGGCACTTCGGCGG
CGATGATGTGAATATTGGACTTTTCTGTTCTGTCCCGTTTTACCTCGAAT
GTCTAAAATTCCGATCCTCCCCCTACATCCCCTTTCTCCCTCATTCACCC
TGGATCATTCTTTGTGTCTCGTTTTTATGTACGGTTTCATGGCTAAAACT
CCGATTGTTCCCCTGTATCCCCTCTCTCCGTCGTTCGCCCTGGCTTCTGA
CGTGACTGCCGGGCACGAAAGTCTCTCATGGAAAGCAGCCCGGGGGAGGT
CCTGGTCGTGGACTGCGGCGGGAGCAAGGTGAGGGCTGATTTGGTTCCAG
GCCTTTGTTTTTTTCGTCTTGTTTTCTTCGTATCATTTGTGTTGGGTCTG
GGTGGGTTCCAGGTTTTTGTTTCTTTTCGTGTGTTGTATCTCCGCATCAT
TTGTGCTGGGTTTGGGTTGGTTCCAGGTTGTTGCGTTTTTTCGTGTTGTG
TACCTCCGTATCATTTGTATAGGGGTTGGGTTGATTCCAGCCAGTTTTTT
GTTACATTCGTATTGCACCGTCGCATCATTTGTGTTGGGCCTGGGTTAGT
CTAGTCTTCTTTTTTTGTACAGTGCTGTTGTACTTCGTTTTGATTTTTTT
AGGGGCAGGGTTGGTTCCGGGTTCTCGGGAGAATCTGTGGTCGTTGACTG
CAGCGGGAGCAAGCAACGGTTGGGTTGATTCCATTTTTTGTAGGGGTTCG
GTTGGTTCCAGATGTTTGTAATGCCGATATTTTGTATATCGTACATTGCA
TTCATTTTGTGTACAGAAGGGGGTTAGGTTGGTTCCAGATTTTGGTATCT
TGTGTACTTCTAACTGTGGTAATTTGTGTAGGGAATGGGTTGGTTCCAGA
TGTTTTATCCTTTCTGTTGTTCTTTGGTCTCCTTTGTGTCGGGGTTGGTT
TGATTCCGTTTTTTGGTGTCTTTACTGAATTACCTCCATGTTTATTTGTG
GGGGAGTTGGGGGTTGGATTGCTTTCAGATTTCGGTTTTTCTTGCGTTCA
CTTTTGCTTTCATACTTGATTTTCGGTGTTCCGCGTCGTTTTAAGTGTAC
GTTTACGTTTTTCAACCTTTTTCCACAGCTGTACGGTTCCATGATTTCGA
TTGCGCAGATAATTGTGTTGGAGGACTCAGCACCGGCTGCTAAATCCTGG
TCTTGACCAGAGTGTGTGCTGTACTGCCGGGCAGGGCGCATGATAGATAG
ATCACGGTGGACAAATGCCCCCACTTACTACAAGGTTCCTGACCCCGAAC
GGCCTTGTGTAGACCTTGTGAAGCTGTTGACTGATCCCGATCCCGATCCC
GATCCCGATCCCGATCCCGATCCCGATCAATCGAAACCACCTTGACAAGG
TTCACACAAGGCCATTCGGGGTCGGGAACCTCGGTGAAAGGGGGGGGGGG
CATTTGTCCACCTACCCGTAAATGTGTTGGGCTCTTGTATTTTTGGTTCC
AAAAAGGGTGTAGACAAGAGACAGGAGGAGGAGGAGGTGGCATGCCCGCG
GAGCACGCGAAATCGCGGCGCCCCGGAACCTGCGGCGCAGCCACGCTGCA
ATAATCATGGAATCACGCTTACAGCACGCGTCTTGGTATCATGTGATTGG
CCAGAGTACCTACCATAAACGTCAGACGGAACTGCCGCAAGTACACCCGC
ACGGACAAATTGTAGCCGGGAGAGCTGTTCCGGGCCCAGGCAAAATGACA
GGGGCATGTCGAGAATACCCCCCCCTAGAAATACACGGAGCCCCCAAATG
ATGGCGTGGTGACTCTATATCGAGTAGGAAATAAATTCGTCTTCAGAGGG
ATGCTTGGTCTATGATCGAGTGACTGAGGCAACCAACAGACGAGTACTCA
ACCCCCTCCTCTATGCCTGTCTCGATGGGAGGGGTAAGTCTGGCAGTTGC
TGAGTACCGTCTGAACGCCCCCCTCATTTCCTTTCCCTTTTCTTTTTTTT
TATTGCTCGCTTTTCCTATTATTTCATCCCCTTTTTCTCCTCCACTTTTT
TTTGTACAAATCGCTTTCTCATCCTTTAATTTCCTTTTTTTTTATTGCTC
ACTGTCCCATTATATATGTTTTGCTTTTTTATTGTGTTTTTTGCTCGCTT
TCCTATCAATTCATATTCGTTTTGTTTTGTTTTCGTGGCTCGCTTTCCCG
TAATTTAATTTTCCTCTTTTTTTTTTTTTCACTGATCGTTTTCCCACATA
AATTCAGAATTTCCTTTTCCTTTTCTTTTATTTGTTTTGTTTGTATCGCT
TCTGAGCAGATAGCCGTGGCCGGGGAGATGTTCTCGGCGGAGGCGAAACG
GCGGAGCCTGGCGGGGATGCTGATCGAAGGGGCCTGTCGGGATACGGAGA
CAATCGCGAGGGTGCGTACCATGCGTGCGTATAGAATTCGCACCCTACGT
ATGATATGATACGCACTACTGTGTGTGTGTGTTGTCATCCCACATTCTCT
GGCACACTAGTCTGCAAACTACAGGCTAGGTCCATCGACGGGGTCACACA
GGAGGAAGGTCAACACAGGAGGAGTTACCCCCACCTTTCTTCTGCGGTAC
ATGCGTTAGATTTTTTCTCGCGAGCAGGGGTCCGCGGTCCCTACCCTCGT
CGGCGAAGCCGAATCTGCTCACTACTGTGTGTGTCCATGTGTGTCATCCC
ATTTTTTCCGGGCGCCAGTGTCCACCTTTCGGTGTGAGGTGGGTGCATCA
GCCGGGATTACACAGAAGGAAGGTCACACACGAGCTTTTTTCACTGAACA
TAATTTTTTTCCAACGTGTAGTTCAGCTTTTTAATTTCTACTGGACTCTG
GACGCGGCCGCTCCATATTGCTTTCCTGGCGTTTTCATCTTCATTTCTGG
ATTTTCATTCTCATTTATGCTTTGTATTATTTTCATTCTCATTTATGCTT
TGTATTATTTTCGTTCTCATTTATGCTTTGTATTATTTTCGTTCTCATTT
ATGCTTTGTATTATTTTCGTTCTCATTTATGCTTTGTATTATTTTCATTC
TCATTTATGCTTTGTATTATTTTCATTTTCATTTATGTTTTGTACTCCGG
AGTATTATTTTCATTCTCATTTATGCTTTGTATTATTTTCATTCTCATTT
ATGCTTTGTATTATTTTCATTCTCATTTATGTTTTGTATTATTTTCGTTT
TCATTTATGTTTTGCATTGTTTTCATTCACTTCTGGGCTGTATACATTGG
TTTCATTGTCATTTCTGTCTTGTAATGTTTTCATTTTCACGTCTGTTTTA
CTTCGAACTTTGTTTTCATTTTCTTTTTTATGTTTTGCATTGTTTTCATG
TGTTTATGTTTTACATGCACAAGTTTCACTTTCATTCCTGTCTGGTGTTG
TTTTTATTTCCACCTCCGTCTTGTGTAGGTTTTCATTTTCATTTCTGAGT
TTTTATTCTTATTTTTAGTTTTATCTTGTCTTGTTTTTGTTTGTGATTTA
TTTTCATTTCATGTCTGTTTTTTCTTTATTTTTATGTGTATCTGTTTTGT
TTTTATCTTTCATACTCCGGAGTACAGTACCTATTTTGTTTTTCGTTTTC
ACATCTGTTTTTTTCATTTTCATTTCTGTTTCGTTTTGTTAAATACTTCC
TTTGTATATTACCTGTACATACAACGGAGGCCAACAACACGAATGTTTTT
TTTTTTTTCCCGTTCCATCCGATTTTTTTTTTTTTTCATTTTTTGTTCCG
ACCCGCACCCCATCCACTTCCATTCCGTTTTTATTTTGTCTTTTCGTGTG
TGTGTAGGTGTGCGTGCTTTCGTCTGTTTATTTTTCTTGGACTGTGAACG
CAGCTCCGATATTTATTTTTTTTATTTCATCCTATCTTTTTTCTTGTTTA
GTTTTTGTTGCGACCCGTAAACTCTTACCCACTTCCATTCCGTCTTTTTT
TTTGTGTGTCCGTGTGTTTGTCCACTTGTCCGTTTGCCTGTTTGCCTGTT
TGTTCTGGTCCGACTATGAACGCAGCTCCGATTCCCGGTGTACACCCGCT
TCGTGAACCCTATGGCGGGAAAGTGCATCACCCTTGACAGAGACATGATG
CAGGTCTGTGCGATTGCGTGTGGTAAATTTAGCTTCTGCTTGCTGCTGTC
GCTGCCGCTGCTGCTTGCTGCTACCGTCGCGCCTTGTGCCACACCTATGA
TATGGTACCGGTAGTTGCTTGTGCAACTTGGGATGTTCAGAGACAGGTTT
GTGCTGCATGTGTGTGTGTAGTTGCTGCCACTCTTGCTGCCGCTGCGGCC
ACCTCACGTGCCTTCATGCCATGCCTACATATTGAGAGGTATGATGCAGA
GGTTTGGTGGTTGTTGATTCTCAACATTACCTTACCACCATCGCAGCCTA
GCCCGTGGTCACAAACCAGGCACATATCGTGCTATCATAGGAGGAAAAAA
AAAAGAAAAAAAAAGAAATGGACTATGACTACTTAATCAAAACTACCTGT
GGTGGGCATAAGTACAAAAAATGCAGAGAAAGCAGGCTCGAAAGCAAAAA
ACAAAAATCGGAAACAGGACGACAAAAGCCAATAAAACCTTATCAGTACA
TACCGGACCAGAGAACCGAACCAAGATAGACAAACCCAAGGCAAACCAGA
CAAGCCAGGAAAACCAGAGTGCATGGTCCAGCAAATACGACCAAAAATTC
TGAGGGGTGTGTGTGTGTGTGTGTGTCTGTGTATTCACTGCTGCTCGATT
GGCACGGCAAAGAGAGAGGCCTTGAAGTCATGGAACCACGTCGTCGAAAG
TGAAAAGAGGCGTTCTGTAGCTTTGGAACCATCTGTCCGAATATGGTGGA
CAGGCATCGCTTGATGATGGCATGACACCTCTGCGCTGTGCAGTACCGTG
ATTTCAAAATCGCACGATGTTGGGGGGGCGGTGACGCCATCTGGAGTCTC
CTGTAGATACCAGTTTTTTTTTCGCGTCTACATATGATTTGATATCATAT
GCCTCCAACTGTTTTGTTCCATGTTGTTGATGTTGTTGCTGATTCTCGCA
TGATAACGATTTACCTACCTGGCACGAAGTATCTCACGCGTGGTCGCGAA
TCAGGCACATACTTCGAAGCATATACACATATCTTACGAGGAGGAAAATG
AAGTAAATACTTCGCACTAGTACTTCGTATGACACAAAAGGAGGCATTAT
CCTACAATCGAAGCGAAATCTGCAGGCGTACATCGATACACCGTCGAACC
CAACCCCAGCAGTGTCTTTACAGCGTGGTAAAATTTTAGAGAAATAAATG
AAATACAGCCTCGAAAAAGAGGATGAAATCAAAACTTACGAATTATCGAC
GAGGGAAAAAACGGAAAGGCCAGTCCGAAAAGCGGAAGAGAAGAGAAAAA
AAAAGTTAAAACTAGAAGGAGAAACGGAGGTGAACGAATAAAAGGGGCAA
GGAGACGAAAAAGAACAAAAAAAAAGAGGGAAGAAGAGGAATTATACCAG
ACGATACAACAAGGCAGAAGAGGAAAAAAAGGAGGAAGTGCGGGTGAGCA
CGCTTCCAGCCGCAGACGCGTCTCGGCGCAAGGTCGGCCTGCTTACGCTT
GCTGTCCTCACACGCACTCATGCCTAGCGCGACGCGTACCACCGCGCACT
GCCTGCTTACGCTTGCTGTCCTCACAAGCACTCATGCCTAGCGCGACGCG
TACCACCGCGCACTGCCTGCTTACGCTTGCTGTCCTCACAAGCACTCATG
CCTAGCGCGACGCGTACCACCGCGCACTGCTGTTGCTCTTTAGCGGCACC
TCCACTCCCGCAATTTCCGCCCTACAATTGTTTTTTACACCCACCGCCCC
ACAGCTTGGGTTACTTCTTCTGCGCTACAGGGGTAGCAGTTTCTTTAGAA
ACGTCACTCCGAAACTCTGTGCCCTATAATATGGTTGTCTGTGTGTTTGT
TTATGTGTGAAATGAAACGAGGCGTGTATGTGTGTACCGCCTTTACATCT
AACTACCGTTCCGATCTCCGCATGTGTGTGTGTGTGTTGTCATCCCTTTC
ATTGGACGCCACTCTACACCTTTCGGGTAGGTATTCGACCCAACCGAGGT
CACACAGCAGGAAGTAACACAGAAGTTTTTTTTTTCTCCACTTCCCACTG
CGGTGCTTGCCTCGTTTTTTTATTGCAACAAAGGGTATAGCCGTCCCTTT
CCCTCGTCGATAATTCAGTCGAATATACTTCGAAGTACATGATACGAAGG
ACTTGTATCTTCTAGTGCCCGTACTGCTTATTCGTCCGAAAGTGGGCGCT
TCCGTGGTCACAGGCTGTTTACTTCAGCACCCAAAAAAGTGAAAGTATAC
TTCCGAGTACAAAAGTTTCGCGAGGCAAATAATTATGACGTAGCTTCCCA
TTAAATGAGCACCAAGGTGTGTGCGTGTTTTTTACATCGCATGACGCGAA
GTGTAGAAGAGTATTTCATCCATCTTCGAACGATAAAGGGCGGGGTCACT
CTTGACGAGTGACTGCGGAGTATCACACGCGGCAACGAGGATCCAACGGA
TGAGGCACTTCTCCAGAAGCCATCAGCTGTATCAACCACCGTCCCGTTCC
TCGCGCCCAGGTTGTAACTATACGATGCGAACAGAGTGATCGACAAACAC
TGAAAATACCTGAAAAAGATTACTCCCTCGTTGGCCCTTTCACAGCGGTT
CTTTCTGTGAAAGTTCTTGCTGCGCACTTCGAGAAGGTGGTATCCCAGGC
ACAGCAGTATCGTACTAATCCTCTAATACTTCTTGCTGTGGCATTTGTTC
CATGCTAGAGGAGGTGGCATCCCGGGTACACCATTGGCCTGGGGGGGGGT
TCCCGCGATATACTTCGTTGCATGTCTGCGGCAAAACTTCGCTACATACT
TCGTTCCATATCTGCGGTAACATTTCAACTGTGTTTTTAATAGAGACGAT
GGCATCCCAGGGACACCATTGGCCTGGGAGGGGGGTCCCGCTATATACTT
CGTTGCTTGTCTGGGGAAAATTTTCAAAATTTCAACTGTTTTTTTAACAG
AGACGGTAGCATCCCAGGAACACCATTGGCCTGGGAGAGGGGTCCCTCTT
TATACTTCGTTACATGTCTGCGGTAACATATCAACTGTTTTTAATAGAGA
CGGTGGCATCCCAGGTACACCATTGGCCTGGGAGGGGGGTCCCGCTATAT
ACTTCGTTACATATCTGCGGTAAATTCAACTGTTTTTGTAATAGAGACGG
TGGCATCCCAGGTAGAACATTGGCCTAGGGGGGAGTCCCGCGGTCAATTT
CGTTCACGTATGATTTCTGCGGTAAACTTGCAACTTTTTTTTCTGTTTTA
TCATATGATAGGTCTGTTTCACTTCTCTTTGTTTCTCTTTTTGCTCCTTG
TTTTTGCTCTTTTTTCTCCTTGACTACGTACTCGTACGTATTCCGTCTAA
CGTCACAGCTTTTTGTTGTTGAAGTTGCAGTGACCGCTATTTTTTTTTTT
TTCGCGGGGGGGGCAAAAGGGGGGGGGGGGGGGCAGTGAAGGTAAAAACG
ACTGGCAGCAGCGGCGGCACTGCTGGTTACGTACATATCGCTCGTTTGAC
TCGATGCCGCTGTAGATAATCATACTCGGAGTAGGTCATATCAGCCTTTA
TCACAAGCAAGTCCAGGCGCAAAATAGAAAATGGTGCCAAAAATATGTAT
ACGAAGTACATACTTATATGTGCAAGTACAGTACCGGCCCGCTAGTAAGA
AACTAAATATGGGCGTATTCTTACGCCGAATTTTTTTAATTCTCAATTTT
TTTAGGCTGACTTTCTTACTGACACGTTTCTGACGAGCAGGCGGGTACTG
TGTGCAAAGAGGGGGCACGCTCCCAGGGGGGGGTCCTTCCTCCATGGCGA
TTTAATGCCGTAAATACAAGTCACTACTGAAATAGTGAAATAAAACAAAT
CGCCACCTATTGAGTGGTGGACTCTGCTTGTGGCGTCACGAACGGTACAC
AGAACAACAGCACCTGTGTGGCGAACTATGCTTGTGACGTCATAAACGGT
CCAGAACAACAGCACCTGCGTGTCGGACTCTGCTCGTGACGTCGTAGGCG
GTACAGCACAACAGCACCAGCGGCAGCTGCAGGATCCCGAGAATCATTCT
CGAGTATGATACCGTATCATGGCGCAAAGATAATGTGGAAAGTACAACGC
ACCCAGTGTAGGCATAGACCACTTCCGAAGCACAGCAAGCAGTAGTACTG
TCTTGTTTGACGACATATCATTCGATCTGATACTCGAATGGTATGTTTCA
TGCCTGGACCGTTACTTTATTCATGCCGGGCTAGATTTTTCCAGGATGCC
TGAAATACGCCATTGTGGTGAGATTCTCCCTCTCTTTGCTGTTTTCTGCA
CAAGTTGCTGCTGCTGCTGCTGCTGCTACTCGTTTGTCCGGGTATTTCCT
CACCATATATATACGAAGTATAGGTTGCACCCCGTCTTTCATACGAAGTA
TTGAGCACGGAGTGAGTTTTTTCTTTGTTACCATGTGCACAACTTCATTT
TTGCTTCTCTGACACTTACTATACCTCGAGAGTATGATACTTTTTCGAAG
TTCTTGTTTTTTATTTCTCACTTTTGTTTTGTTTTTTTCTCGTTTTTTTT
TGTTTTGCAGGTGCCGGTAACCGTCGGAGGAGTGGAAATCAACTCCGGTG
ACGTCATCATGGGCGACGACGACGGTGTCGTTGTCCTCGGGAACGACTTG
GATAAGATTCAGGCGAGGGAACGGCATTTGTACCCTAGGTTTCATAGGAT
ATCACACTTTCATACGATACCACACCCCCTCCGAAAAGGTACGGGCGAGG
GAACGGCATTTGTACCGTAGGATTCACAAGATATCACACTTTCATAACGT
ATCACACACACCCTCAGAAAAGGTGCAGGCGAGGGAATGGCATTTGTACC
GTTGGTTTCATAGGATATCACACTTTCGCATATAAGATACCACACCCCCA
CCGAAAAGGTACAGGCGAGGGAACGGCATTTGTACCCTAGGTTTCAAAGG
ATATCACACTTTCATACGATACCACACCCCCTCCGAAAAGGTACGGGCGA
GGGAACGGCATTTGTACCGTAGGATTCACAAGATATCACACTTTCATAAC
GTATCACACACACCCTCAGAAAAGGTGCAGGCGAGGGAATGGCATTTGTA
CCGTTGGTTTCATAGGATATCACACTTTCGCATAAAAGATACCACACCCC
CACCGAAAAGGTACAGGCGAGGGAACGGCATTTGTACCCTAGGTTTCAAA
GGATATCACACTTTCATACGATATTACACCCCCTCCGAAAAGGTACAGGC
GAGGGAACGGCACCAGTATGGTAGGATCACAAGATGTCACACTTTCATAA
TATATCACACACACTCTGAAAAGGTACAGGCGAGGGAACGGCATTTGTAC
CGTTGGTTTCATAGGATATCACACTTTCCTATATAAGATACCACACCCCC
ACCGAAAAGGTACAGGCGAGGGAACGGCATTTGTACCCTAGATTTCATAG
GATATCACACTTTCATACGATATCACACCCCCCCCGAAAAGGTACAGGCG
AGGGAACGGCACCAGTACCGTAGGTTTCACAAGATATCACACTTTCATAA
TATATCACACACACCCTCCGAAAAGGTACAGGCGAGGGAACGGCATTTGT
ACCGTTGGTTTCATAGGATATCACACTTTCGTATAAAAGATACCACACCC
CCTTCGAAAAGGTACAGGCGAAGGAACGGCATTTGTACCCTAGGTTTCAT
AGGATATCACACTTTCATACGATATTACACCCCCTCCGAAAAGGTACAGG
CGAGGGAACGGCACCAGTACCGTAGGTTTCACAAGATATCACACTTTCAT
AATATATCACACACACCCTCCGAAAAGGTACAGGCGAGGGAACGGCACTA
GCACCGTAGGTTTCATAGGATATCACACTTCCATAAGATGCCACACATTT
CCCAAAAGTTCCACAATATCATACCATCATACCATTGCACAAGATATCAC
ACTTTCGTAAGACACCACACCCCCTTTGAAAAGTTCCACAATATCATACA
CACGTGTTGGCCTCCGTAGGAAATGAAAAAAAAATGTCTTCAAAATCGGA
GGCGTGCTTGTCTCACGGGAACATAGAACTTGTCAGCCCCTCCCCTAAAC
CTGCCGTCTCTAGACTGCGAGGTAGTTCCGCCGCGAGGCTTTAGGGGTGT
CTTTTCGCGATCTGCCCAGTGGCGATACTGTATCAAACATTGCCACGATC
TGATGGCATAGGCAGCCACACAGGTGTGGCGCGTTTTGGATCGCCACTGC
AGCAGCAGAAAATTGAGATCGAAGCTCCGTCCCAAGTGATTTATCAGTAT
GATTGTGAGCTTGTATTTTTTACGATATCACCACGTGTGACCAGCATACC
TGTACTTATATACTGCGCTGTGCTGCTGTGTACGATACCTCCGCCTGCAG
CAGTACTGCTGTGTGATACCTCCCTGCCACAGCAGCACACTCCTGTACAA
ATACTCTGATGTCCTGCTCCTGTACTACTCCTGTACTAGCACGATCATGG
CGATGTTTCCCCGGTCGCTAGAAGCCACACCGATTATTCTCGTACTGTGC
CACGCTGTGGGAAACGTTCGAAATAACATCTTCCTGGTGTCGAAGTGTCG
ACGAGGGAAAGGGATCGCTGTACCCTTCTACGCGATAAAAAACTTAGGCA
AGTACCGCAGTGGGAAGTGGGAAAAAAAAAAAAACTCCTTTGTTGACTTC
CTACTGTGTGACCCCGGTCGGAGCGTCTACCTACCCGAAAGGTGTAGAGT
GGCGTCCAATTATAGGGATGACAACACACACACACTACTGTGGCACGTTT
TGGATCGGCACTGTACCAGGAGGTGACGAGGAATTGCCCAGAATCCCGTG
CGGCGGAACGCCCGGGTTGTGATTCCACTTTACATTTTGAGTGCATAAAA
AAAAAACGAATTTCCATAGGGGACCAACACGTGTGCATACCACACCCGAG
TGCTATTTTTTTAATCCCGAAAAAGGCGCCAGTCTGTGTGTCTCAGTCAG
TCAGTAAAAAGGGCAGCAGAAGATACCACACCCCCACCCCCATTCAAAAT
TATGCAATATTACCACACTGGTGTGAGATATTTTTTTGAAACCCATAATT
GTTACCACACTGGTGCAATTCCTCATGCAACCTACGGTAGTGGTGCATAC
CGTATACCGTTTATGACACAAGATAACACACCCCGTGTTAGGTTTTTTGC
ATTCCGTATTACTCCACAACCAGGAGGGTACGAACATCAAACAGCCCGTC
ATACGAAAGCTCTCGACGAGATCTTTCCAAAACCACCCTTTTCGGCAGTG
GCACCCTCCTGGTCGTGGAGCTATACGGAATGCAAAAATCTTAACACGGG
GTGTGTTATCTTGTGTAGAATACGGTACTTCTGCGGTGCTTGCCCAAATT
TTACCGCGAGACGGGTTGTTCGAAGCACACAGCACAACAGCAGTAGTAGG
TTGTCTCACCGGAGTATTTTCTGTTTCTGGCTGGCTGGGCGGTATGGATT
CCTCTCTTGAATTCTAAGACGAGTACCGCTTCAGGCGGACTTTCCTTCTT
AATCTTGACGACTGTACTTTCCCAGAGTCCGTCCTGATCTGTGACTCCTC
ATACCCCGCCCGGTCACTCCCGGGGTTTCCAATGGCAATGGCGTCTTTTC
CTCCATATTTTTGGGTTGCCGTCCCCGGAACACAACAGCAGCGGTCTGTT
GGTCGAAAAAATACCTACCTGTAACCCTTCCATGATCGAAGCGGGCTTGC
TTGTGTTTTGGCAATTTTCAAGGAATGTACGATAGCAGATTTTGGTGACG
AGCAAACGGGGGAACCAACAGCAACAACACAGCAGCAACAACAACAACAA
CAACAACAACAACAACAACAACAACAACAACAATAACAAGTACTGCATCG
CAATCCTCGGGAATCGTCAATTGGACAGGATTAAGGCGACAAATCGATCC
CGAACATGTCGTGCTCTTCTGTCGTGTTTCTTTTTTTTCCCCAGGAAACC
GCGCTTCTCGCGTCGGATATCTTGCGCAACGAGAGAGCCGTTCTCACAGA
GGTCATCGACAACAAAAGATGCCTCATGGAGTTCATGGACATGATGGATA
GCCACAAAAAGGTCGCGCCTGACACGGCCTAATGTCGGCCAACCACGCTT
GCTCCGCCCATCAGTACCTACCTATACCTCCAGGGGCACGGCCTGGAACG
TACAGCATGTTTGTTTGGGTGTGAAAATGGAAAGAGGCGTGTGCGCTGTC
GTCCCACGGTATATAGGGGTATGATGATGGCACATTTTGGCCAGTCCATT
TTGGCCTAAAGTCTTTTCGTTTTTCGGGGTTCCGCACATGAGAAAACACC
CCCAAAATTTTGCAAAAATATCACTCGGATTTCGAACTTCTCTCTTCATG
CACCTACTACTGTAGCCCATTGAATTGCCTATCGCGCGGAATGACACTTC
CGCATATTTTCAGGGCGTACTTTAGGCTGAGAAACCGAGTCTTAGTTTTT
AGGCTCAAAGGAAAATAGTGCGCCCCTATCGTGGGATGAGTCGCCCCTCC
CCCCTCTCTTCCCCCAGTACCTCCAGGCACAGCGTTGAACGTTAACCATG
TGTGATATGTGGTGTTTGTGTGTGAAAATGGAAAGAGGCGTGTGCGTTGT
CATCCCATCCACTCTGGATGCCAGTATACAGCATGTGACAGTGCTTGTGT
GTGAAAATGGAAAGAGGCGTGTGCGTTGTCGTCCCATCCACTCTGGATGC
CAGTCTTTTTGGTCTGTGCGGGCGCATCAGCTGGGGCTGGTCACACAGGA
AGAAGGTCAACACAGGAATTTGCCAGTGGTGTATTTTGGAGGATGACCGA
TTTGGCATGCATGACCTGGCAATAAGCTAGGTTACCAGATCGATTTGGCA
CGCATGGTCTGGCAAGCTAGGTTTCCAGTTCGATTTGGCATGCATAACCC
GGCAAGCTAGGTCACCAGCACGTTTGGAGAATTCTTGAGGACCGTTTAAT
TTAATTTTTAAGTCAGGGATGTAAGACAGCGTAGTATGTGTCTTGTGTAA
GGTGACCCCTTTCTGTCGCAAACGACCTACCTAAGTGTTTTTTTGTCTCC
TGTCTCATCAACATCTTCTACATAGGCGATTCATTCGAGATACAGCAAGG
TAGGGCTCGCACCCGACTTGCTTCCACCCGAGTACCCGACCTCGGGTACC
CGGAACCGAGTTGCCTCACCGGATACCCGGTTCCAATTTTTTTAGTCGGG
TGTGACCCATAGTTTCGCACCCAACTTGCACCTATCCGGGTACCCGACCT
CGGGTACCCGAAACCGAACAGCTCCACCGGGCACCCAGTTCCAATTGTCG
GAGTCGAGTGCGAGCCCCATACCGCAAGGAGTATCACAAGCAGGTGGCAA
GTGGGAGAAAAGCGGACATGATACGCCGCCTTATCAGCGGTCGGCGTGCT
GTTGTTGCGGATGGTTGTGCGGTAGGTAAAGCGATGTTGATTTCGGTGTT
GTTTTGTTGTTGCGTTTGTCGTCTGACATTTCGCCACAGCAGTTTCGACC
TTTTTTCAGCACTGTACCGTCATGGTCGGTCGCGATTTTGAGGGAGTGGT
GTCCCACGCCATCCCAAGAACGCCTCCCCATCTGGTGGATACCGTGAAGT
CCATCTGATGACCAGACTTTGGACGATGACCCTATACTTCGA

Coding sequence (CDS) from alignment at P-littoralis_Contig187:12987..32428-

>mRNA_P-littoralis_Contig187.1.1 ID=mRNA_P-littoralis_Contig187.1.1|Name=mRNA_P-littoralis_Contig187.1.1|organism=Pylaiella littoralis U1_48|type=CDS|length=867bp|location=Sequence derived from alignment at P-littoralis_Contig187:12987..32428- (Pylaiella littoralis U1_48)
ATGCTGAGTTCGGCGGTCGTTGCGCGGAGATGTTGCTCCGTGGGGACGGC
CAGGGTTGCGGGGCTACCACGCGAGCCTACTGCTGCCGCTGCTGCTGCTG
CTGCTACGTGTCTAGCAGCGGGGCAGCAGCAACAGCCCCGGCGGGGTTTT
GCAGCAGGGACTCCGCGTATCGCCGGCGATCCAAGGTGGCTTGCCCTCCG
AAAGCTGCTCCGAAAGTGCGATACCCCCAGCCTGTGCGACGCCGACAAAA
ATCTCAGCAGCAAGGTCATCGACTACGCCATCCGGCCGAGGCACATGCGA
AGCAAGGGCATCACCTTGCTGGGGCTGGCGAGGACCGTGAGGACCGTGGG
AGGGGCCGGCGAGCACCCCGATTTCAGAAATCTCGTCGAGTCTCTCATGG
AAAGCAGCCCGGGGGAGGTCCTGGTCGTGGACTGCGGCGGGAGCAAGATA
GCCGTGGCCGGGGAGATGTTCTCGGCGGAGGCGAAACGGCGGAGCCTGGC
GGGGATGCTGATCGAAGGGGCCTGTCGGGATACGGAGACAATCGCGAGGC
TCCGATTCCCGGTGTACACCCGCTTCGTGAACCCTATGGCGGGAAAGTGC
ATCACCCTTGACAGAGACATGATGCAGGTGCCGGTAACCGTCGGAGGAGT
GGAAATCAACTCCGGTGACGTCATCATGGGCGACGACGACGGTGTCGTTG
TCCTCGGGAACGACTTGGATAAGATTCAGGAAACCGCGCTTCTCGCGTCG
GATATCTTGCGCAACGAGAGAGCCGTTCTCACAGAGGTCATCGACAACAA
AAGATGCCTCATGGAGTTCATGGACATGATGGATAGCCACAAAAAGGTCG
CGCCTGACACGGCCTAA