mRNA_P-littoralis_Contig124.2.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig124.2.1
Unique Name	mRNA_P-littoralis_Contig124.2.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: D7G4V1_ECTSI (Peptidylprolyl isomerase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4V1_ECTSI)

HSP 1 Score: 426 bits (1095), Expect = 1.320e-142
Identity = 222/259 (85.71%), Postives = 233/259 (89.96%), Query Frame = 1

Query:    4 GGQGEATGRGEFLSRAVISSTAALLGVGTASGMAGVPPASALVKGNAPPPGYNKKRGSGSGNGEREATPTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKESNGRIF 780
            GG+G +T RG+FLS A +++ AA+LGV  A  +   PPASALVKGNAPPPGYNKKRGSG GNGE EATPTA A P D DPSRTFSVT SGIRFKDLKIG G EV PANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLG+GRL+ AVDE +VGMRVGGVRRVAVRPERGWKK DPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKE NGRIF
Sbjct:   53 GGEGGSTNRGDFLSGAAVTA-AAVLGVSAAGTVGAPPPASALVKGNAPPPGYNKKRGSGYGNGEPEATPTADAGPEDSDPSRTFSVTSSGIRFKDLKIGVGPEVKPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGSGRLISAVDEGVVGMRVGGVRRVAVRPERGWKKQDPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKEGNGRIF 310

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A835YV71_9STRA (Peptidylprolyl isomerase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YV71_9STRA)

HSP 1 Score: 245 bits (626), Expect = 3.400e-73
Identity = 135/238 (56.72%), Postives = 161/238 (67.65%), Query Frame = 1

Query:  115 PASALVKGNAPPPGYNKKRGSGSGNGEREAT---------------------PTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERG--WKKLDPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAK 759
            PASALVKGNAPP    + R       ERE +                      T     G D     F VT++G+R+KD+ +G GA+V   + VD+RYRV KLGKRSY+G+SGE   VFSLGYGEDDDKEG V+TVP+G G+L+ AVDEAIVGM++GG RRV VRP+RG  WKK DP CA  ID+G+ SG+PGA +AKVEDCID TLEPRPV YGA RRMARRFDE LIVE+E V  +
Sbjct:   28 PASALVKGNAPPTAEERARKRAEA-AEREKSRSISEAKDAGEKREVEMRSKYETEETALGSD---TAFKVTQNGVRYKDIALGAGAQVNKGSTVDLRYRVMKLGKRSYNGLSGEATMVFSLGYGEDDDKEGSVVTVPVGKGKLITAVDEAIVGMKLGGKRRVLVRPDRGQGWKKDDPNCAALIDVGIASGIPGATIAKVEDCIDETLEPRPVSYGAKRRMARRFDEALIVEIEPVAVR 261

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A6H5JW52_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JW52_9PHAE)

HSP 1 Score: 224 bits (570), Expect = 2.040e-65
Identity = 116/126 (92.06%), Postives = 117/126 (92.86%), Query Frame = 1

Query:  124 ALVKGNAPPPGYNKKRGSGSGNGEREATPTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEA 501
            ALVKGNAPPPGYNKKRGSG GNGE EATPTA A P D DPSRTFSVT SGIRFKDLKIGDGAEV PANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLG+GRLV AVDEA
Sbjct:   92 ALVKGNAPPPGYNKKRGSGYGNGEPEATPTADAGPEDSDPSRTFSVTSSGIRFKDLKIGDGAEVKPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGSGRLVSAVDEA 217

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A7S2XW09_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XW09_9STRA)

HSP 1 Score: 192 bits (489), Expect = 1.090e-53
Identity = 103/219 (47.03%), Postives = 143/219 (65.30%), Query Frame = 1

Query:  115 PASALVKGNAPPPGYNKKRGSGSGNG---EREATPTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDPK-CATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAK 759
            P +ALVKG+APP GY K +      G   ++ A P+  A    +      S T SG+RFKD+ +G G EV   + V +RYR+ + GKRSYDGISGE   +F LGYGEDDDK GD L V +G+G++V A+++ ++G + GGVRRV VRP+ GW+K D + CA ++D+G    VPGA +   E C+DL L P P  + A R++ARRFDE+LI E+E+V  +
Sbjct:    8 PTNALVKGSAPPEGYGKIKSQAPKEGASLDKSAEPSTIAEGSMEAAEGELSFTPSGVRFKDMVLGSGQEVGSDSKVSLRYRILRSGKRSYDGISGEGSLIFGLGYGEDDDKVGDTLKVGMGSGKMVKALEDGLIGAKAGGVRRVLVRPDMGWQKSDLEACAPKLDLGATGTVPGA-ITYTEGCMDLDLLPSPRTFQAKRKLARRFDESLIAEIEVVSVE 225

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A7S2XYV7_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XYV7_9STRA)

HSP 1 Score: 192 bits (489), Expect = 8.560e-53
Identity = 103/219 (47.03%), Postives = 143/219 (65.30%), Query Frame = 1

Query:  115 PASALVKGNAPPPGYNKKRGSGSGNG---EREATPTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDPK-CATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAK 759
            P +ALVKG+APP GY K +      G   ++ A P+  A    +      S T SG+RFKD+ +G G EV   + V +RYR+ + GKRSYDGISGE   +F LGYGEDDDK GD L V +G+G++V A+++ ++G + GGVRRV VRP+ GW+K D + CA ++D+G    VPGA +   E C+DL L P P  + A R++ARRFDE+LI E+E+V  +
Sbjct:   77 PTNALVKGSAPPEGYGKIKSQAPKEGASLDKSAEPSTIAEGSMEAAEGELSFTPSGVRFKDMVLGSGQEVGSDSKVSLRYRILRSGKRSYDGISGEGSLIFGLGYGEDDDKVGDTLKVGMGSGKMVKALEDGLIGAKAGGVRRVLVRPDMGWQKSDLEACAPKLDLGATGTVPGA-ITYTEGCMDLDLLPSPRTFQAKRKLARRFDESLIAEIEVVSVE 294

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: L1JF69_GUITC (PPIase FKBP-type domain-containing protein n=3 Tax=Guillardia theta TaxID=55529 RepID=L1JF69_GUITC)

HSP 1 Score: 189 bits (481), Expect = 1.700e-52
Identity = 101/224 (45.09%), Postives = 139/224 (62.05%), Query Frame = 1

Query:  112 PPASALVKGNAPPPGYNKKRG-----------SGSGNGEREATPTAGAVPGDDDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMV 750
            P A ALVKG APPP + KK+            +     +REAT         D     FSVTK G R++D++IG GAEV P + V+++YRV +LGKRS DG+SGE   VFS GYGEDDDKE D L   +G   L+ A+  ++ GM+ GG+RR++V+PERGWK  D  C   +D+G   G+PG A+ + E C+D    P P  + A R+++RRFDE L++EVE++
Sbjct:    8 PNAQALVKGIAPPPDFGKKKDLPTKKITNIQEAQEYGAQREATLF-------DKQDGNFSVTKEGDRYRDVRIGTGAEVKPGSEVEIKYRVLRLGKRSRDGLSGEASLVFSYGYGEDDDKETDTLKFVVGEANLINALSSSLPGMKQGGLRRISVKPERGWKLEDASCVKSVDIGSAVGLPGGAVTEAETCLDYFRVPSPATFQAKRKLSRRFDENLLMEVEVI 224

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A6U4XZ85_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A6U4XZ85_HEMAN)

HSP 1 Score: 189 bits (481), Expect = 1.950e-51
Identity = 101/224 (45.09%), Postives = 145/224 (64.73%), Query Frame = 1

Query:  118 ASALVKGNAPPPGYNKKRGSGSGNGEREATPTAGAVPGD--------DDPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDP-KCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKE 762
            A ALVKG APP GY K++    G  E++ T    A+           ++ +  F  T SG R++D+K+G GAEV     VD++YRV +LGKRS DG+ GE   + S GYGEDDDKE D  T+ +G   LV A++E+I+G++ GGVRRV+VRPERGW+  D  +C   ID+G + G+PGA++ + ++C+D    P P  + A R++ RRFDET++VEVE+V  +E
Sbjct:   86 AEALVKGVAPPEGYGKRKEKAEG--EKKITNKQDALEAGAKKEAEMFENQATDFEKTPSGDRYRDMKVGTGAEVVTGKEVDIKYRVLRLGKRSRDGLGGEASLIMSYGYGEDDDKETDFKTITVGQTPLVLALEESILGIKEGGVRRVSVRPERGWRLPDSSQCGAAIDVGTVLGLPGASVTEADNCLDTNRVPSPTTFQAKRKLGRRFDETVLVEVEVVAVRE 307

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A7S1E5E0_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S1E5E0_HEMAN)

HSP 1 Score: 178 bits (451), Expect = 2.780e-48
Identity = 85/171 (49.71%), Postives = 121/171 (70.76%), Query Frame = 1

Query:  253 FSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERGWKKLDP-KCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKE 762
            F  T SG R++D+K+G GAEV     VD++YRV +LGKRS DG+ GE   + S GYGEDDDKE D  T+ +G   LV A++E+I+G++ GGVRRV+VRPERGW+  D  +C   ID+G + G+PGA++ + ++C+D    P P  + A R++ RRFDET++VEVE+V  +E
Sbjct:   47 FEKTPSGDRYRDMKVGTGAEVVTGKEVDIKYRVLRLGKRSRDGLGGEASLIMSYGYGEDDDKETDFKTITVGQTPLVLALEESILGIKEGGVRRVSVRPERGWRLPDSSQCGAAIDVGTVLGLPGASVTEADNCLDTNRVPSPTTFQAKRKLGRRFDETVLVEVEVVAVRE 217

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A812IG78_9DINO (Peptidylprolyl isomerase n=4 Tax=Symbiodinium TaxID=2949 RepID=A0A812IG78_9DINO)

HSP 1 Score: 177 bits (449), Expect = 8.370e-47
Identity = 116/246 (47.15%), Postives = 150/246 (60.98%), Query Frame = 1

Query:   73 LLGVGTASGMAGVPPASALVKGNAPPPGYNKKRGSGSGNGEREATPTAGAVPGDD------------DPSRTFSVTKSGIRFKDLKIGDGAEVTPANVVD---MRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDV-LTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERG--WKKLDPKCATEID-MGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVG 753
            LL +G A G AG+  A ALVKG+ PP GY      G G G +EA         ++               +TF VT SG R+KD+K+G+ A+   A V D   +RYRV + GKRSYDG+SGE  ++FSLGYGE DD++ D  L  PLG GR V A+DE +VGM VGG+RRV VRP+ G  WKK   KCA  I  +G ++G+P A   K   C+D +L P+P  + A RR  RRFDE+LIVE+E+VG
Sbjct:   78 LLVMGAAWG-AGLASAQALVKGSTPPKGY------GLGKGIKEAADCKSLAECEELGAKREEEKYGTKMEKTFKVTASGARWKDMKVGNEADGV-AKVGDDLKLRYRVMRAGKRSYDGVSGEATTLFSLGYGEGDDEKKDATLNAPLGTGRFVKAIDEGLVGMSVGGIRRVQVRPDYGLGWKKPG-KCAEAIGAVGAIAGLPAAGAEKESACLDTSLLPQPEDWNAKRRFERRFDESLIVEMELVG 314

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BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Match: A0A7S1SCJ5_ALECA (Peptidylprolyl isomerase n=1 Tax=Alexandrium catenella TaxID=2925 RepID=A0A7S1SCJ5_ALECA)

HSP 1 Score: 174 bits (440), Expect = 3.000e-46
Identity = 117/264 (44.32%), Postives = 152/264 (57.58%), Query Frame = 1

Query:   13 GEATGRGEFLSRAVISSTAALLGVGTASGMAGVPPASALVKGNAPPPGYNKKRGSGSGNGEREATP------TAGAVPGDDDPSRT--FSVTKSGIRFKDLKIG--DGAEVTPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRPERG--WKKLDPKCATEID-MGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKES 765
            GEA GRG     A++  ++ALL    A G A    A ALVKGNAPP GY    G G    E+            G    D+  ++   + +T SG R+ D+  G  +   + P  V  ++YRV + GKRS DG+SGE   +FSLGYGEDD  +  VLT P+G GR V A+DE +VGM VG  RRV VRPE G  W K +  CA E+  +GV+ G+PG      E CID +  P+PV + + RR +RRFDE+LIVEVE+VG  ES
Sbjct:    5 GEAEGRGRRA--ALVGCSSALLAAALAWGSA----ARALVKGNAPPSGY----GVGKNLTEKAECKFLADCQEIGRKKEDESFTKAVKYELTPSGARYYDMTPGSKEAGVIQPGTVARLKYRVMRQGKRSSDGLSGEASPIFSLGYGEDDGPKDAVLTAPVGTGRFVKALDEGLVGMAVGAKRRVQVRPESGLGWDK-EGNCAEEVKAVGVVGGIPGGGAQNEETCIDASKLPQPVDFASRRRFSRRFDESLIVEVELVGIGES 257

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig124.2.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G4V1_ECTSI	1.320e-142	85.71	Peptidylprolyl isomerase n=1 Tax=Ectocarpus silicu...	[more]
A0A835YV71_9STRA	3.400e-73	56.72	Peptidylprolyl isomerase n=1 Tax=Tribonema minus T...	[more]
A0A6H5JW52_9PHAE	2.040e-65	92.06	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A7S2XW09_9STRA	1.090e-53	47.03	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S2XYV7_9STRA	8.560e-53	47.03	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
L1JF69_GUITC	1.700e-52	45.09	PPIase FKBP-type domain-containing protein n=3 Tax...	[more]
A0A6U4XZ85_HEMAN	1.950e-51	45.09	Hypothetical protein n=1 Tax=Hemiselmis andersenii...	[more]
A0A7S1E5E0_HEMAN	2.780e-48	49.71	Hypothetical protein n=1 Tax=Hemiselmis andersenii...	[more]
A0A812IG78_9DINO	8.370e-47	47.15	Peptidylprolyl isomerase n=4 Tax=Symbiodinium TaxI...	[more]
A0A7S1SCJ5_ALECA	3.000e-46	44.32	Peptidylprolyl isomerase n=1 Tax=Alexandrium caten...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig124	contig	P-littoralis_Contig124:57084..69410 -

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.D7G4V1
PFAMs	FKBP_C
Model size	1933
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	6
Evalue	1.98e-142
EggNOG OGs	COG0545@1\|root,KOG0552@2759\|Eukaryota
Ec32 ortholog description	Secreted FKBP domain protein
Ec32 ortholog	Ec-20_000240.1
Description	histone peptidyl-prolyl isomerization
Cds size	684
COG category	O

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig124.2.1	prot_P-littoralis_Contig124.2.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig124 58234..69311 -

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


Feature Name	Unique Name	Species	Type	Position
1680789540.5814478-UTR-P-littoralis_Contig124:57083..58233	1680789540.5814478-UTR-P-littoralis_Contig124:57083..58233	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig124 57084..58233 -
1680789540.6607823-UTR-P-littoralis_Contig124:69311..69410	1680789540.6607823-UTR-P-littoralis_Contig124:69311..69410	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig124 69312..69410 -

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


Feature Name	Unique Name	Species	Type	Position
1680789540.5997179-CDS-P-littoralis_Contig124:58233..58377	1680789540.5997179-CDS-P-littoralis_Contig124:58233..58377	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 58234..58377 -
1680789540.610176-CDS-P-littoralis_Contig124:62435..62572	1680789540.610176-CDS-P-littoralis_Contig124:62435..62572	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 62436..62572 -
1680789540.6202245-CDS-P-littoralis_Contig124:65225..65334	1680789540.6202245-CDS-P-littoralis_Contig124:65225..65334	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 65226..65334 -
1680789540.6321487-CDS-P-littoralis_Contig124:67498..67579	1680789540.6321487-CDS-P-littoralis_Contig124:67498..67579	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 67499..67579 -
1680789540.6434903-CDS-P-littoralis_Contig124:68169..68282	1680789540.6434903-CDS-P-littoralis_Contig124:68169..68282	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 68170..68282 -
1680789540.6518846-CDS-P-littoralis_Contig124:69211..69311	1680789540.6518846-CDS-P-littoralis_Contig124:69211..69311	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig124 69212..69311 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig124:57084..69410-
coding sequence from alignment at P-littoralis_Contig124:57084..69410-

protein sequence of mRNA_P-littoralis_Contig124.2.1

>prot_P-littoralis_Contig124.2.1 ID=prot_P-littoralis_Contig124.2.1|Name=mRNA_P-littoralis_Contig124.2.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=228bp
MAGVPPASALVKGNAPPPGYNKKRGSGSGNGEREATPTAGAVPGDDDPSR
TFSVTKSGIRFKDLKIGDGAEVTPANVVDMRYRVEKLGKRSYDGISGETQ
SVFSLGYGEDDDKEGDVLTVPLGAGRLVGAVDEAIVGMRVGGVRRVAVRP
ERGWKKLDPKCATEIDMGVMSGVPGAALAKVEDCIDLTLEPRPVGYGATR
RMARRFDETLIVEVEMVGAKESNGRIF*

mRNA from alignment at P-littoralis_Contig124:57084..69410-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig124.2.1 ID=mRNA_P-littoralis_Contig124.2.1|Name=mRNA_P-littoralis_Contig124.2.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=12327bp|location=Sequence derived from alignment at P-littoralis_Contig124:57084..69410- (Pylaiella littoralis U1_48)
GCAGGGGGCCAAGGAGAAGCCACTGGCCGCGGCGAATTCCTCTCGAGAGC
CGTGATTTCCTCAACGGCGGCGCTGCTCGGAGTGGGGACAGCCTCCGGCA
TGGCCGGAGTCCCTCCCGCCAGCGCGCTCGTGAAGGGCAACGCGCCACCC
CCGGGGTACAACAAGAAACGCGGGAGCGGCTCCGGAAACGGAGAACGGGG
TGAGGATGTGTGGGTTTCCCTTGGGTCTTGGTCTCGGTCGTTTTTTTTCT
TTTTCTTTTCTTCTCTCTGTTCTTGGTGTCGTCATCCATCCACCTCTGTC
GAATGGAAGGTCGCGAAGGTCGAAAAAAAACGAAAGTTACGCTTGTTTTT
TTCGCTTGCATTTTTTTTTTTTTTTGTCTTGCGTGTAGTGGCACCGGTTT
GATCCCGTCAAAGGTTCGAAAGCTGAGGGTTGTACCATGAGTCGGTCAGC
ACAAAACAGGGATTGGAAAAAACATCCACCCAGCAGGCCATGGTAAAAAT
CTTCACTGATTGATATGGTATCGTTGTTGTGCTGTACGAGCAAAGCTCCA
GTGGCTGAATGCTTCGAGGGAGATGGACGAAAACATCCGAGATGGGGGAA
AAAATACGTCTGGACCATAGCGTCGTTGTGGTCCTGGACAGGCAGGTCCG
AAAAGACGGGTACGGGATGGCCCGGACCCGGCCTGCATATGTATTTTTTT
TTATGCCGAAACTTTTACCAGTTTTGTTTGTGTTTGGCATGCACCTCGAA
ATATCGTGATATGTGAGATAGATTCCGACATTTAAGGTTCTTCTCTCCTA
CACAGGATATGATATGTTGCCGCTTCATGGTTGCGTTGGTGCTTCCACCG
CAAACTACTGCTGTATCAAAGTATTAAAATGTTTCGCCCTCTGGAACCTC
CTTCATTGCACCGTCACACCTTGAAAATGTTCACCACGCGCGGCCTGACT
AAGCTGCCGGATTCACAGCAGCAACCCACCTCCAGGAGTCACGTGCGATC
CATACAACTTTACGGTTGTTCCCGTTTGATCTGTCGGGCTCACAGCAGTA
ACCCGCCTGCACGTCTCACTTGCGATCGATCCATCGTACATCCTTACGGT
TCTTGCCGTTTTGTTTTCCGCGTCGAAGAGGCCACCCCGACGGCTGGAGC
CGTCCCGGGAGACGACGATCCATCGCGGACCTTCTCGGTCACGAAGTCGG
GGATTCGATTCAAAGACCTCAAAATTGGGGATGGAGCGGAGGTGAGACGG
GGCTGATAGTTGTTGTTGTTGTTGTCGTTGTTGTCGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCGTTGTTGTTGTTGTTGT
TGTGCTTTTCTTGTTGTTGTTCTTGTTCTTGTTCTTGTTGCTGTTGCTGT
TGCTGCTGCTGCTGCTGATGATGACTCTTGTCACCATTGGGTATGAGGAC
CTGGTGCTTACTGTAGGCAATCCCTTGACGACTCTGCGCGTTCGTTCGCC
TCACTTTTGTGAGCGCCGAGGATTCTCTGATTATATTTTCCTCTCTGCTC
GCCCTTTTCATCATGTTTTGTTTTGTGGCCCTTTTTGTTTTCTCTCTCGG
TCCACTCGTATTACCTGTCGGTTATCTCGCAGCACATCTTCGTATCTCAT
AAAGATATTCCCTGTTTATCTCAATGGATTTTTCCCTGAACACTCGGCTC
TACGTATCAGGTCCATTTTGTCGCCCCCCCCCCCCCCCCCCCGTTCCCGC
TCCCCCCCCTCCATGTGTTCAATCCGTTGACCCCCACCTCTTCTTCCTCC
TTTTCGCCGTGCTACCCCCTCCACGGTGCAGGTGACGCCTGCGAATGTCG
TGGACATGCGTTACCGCGTGGAAAAGCTGGGCAAGAGGAGCTACGACGGG
ATCTCCGGAGAGGTGAGTGCCAACCATCCTACCTGGGTTTTTTTTTGCCC
GCGCTTTGTCGACTTTTTTTTTTTTTGTTGAGGGTATCGTTAGTTTCCAG
AAGACAGCACTCGCTTTACAACAACACCGCAGGATGTTGTTTTCAAGCCC
GCCTGTAGTGCGGCAATCGCATGATGTTTGATCGTTGTACCTGCCGGCTG
GTCCCGATTGTTCGGGTCGCAAATATTTCGTGTGTTCGATTCTCTCCCGT
GTCATGTGCGTTTTTTCCGTCGCACCATCCATTTTGCCTTTTCTTTTTCG
CACCGTGAAAAAAAAAAAAACGTACAGGCTGGTTGACGGAAGAAACCCAA
AGGTATTCAACATCATTTTCTCACGCGGTTTCTACGAGGTAGACCTTGAA
ATTTCGCGAGCACGTTCTATGGAAGCATTTTTTGTACATATTTTTGGGAG
TATTTTTGTTCGATAGACATGTTAGTGTCTAAGGTATTTCGGGGCAATTA
TCGTCATTCGGGACCCCGGAAATCTGGTGAACAAAAAAAGATGAAGAACA
CCTCGGTCGTAGAAAGTTGCGTAGGGACCCATACGACATGCTCGCAAAAT
TCCAGGGTCTTACTCGCAAAAACCGCGTGAGGAAATGAGCGTTAGTTGGA
ATCGGGTCTTTTTGGGCCCTTTGAAGCAATAATTAGCCAAAACTAGGCTA
GTTTGTGTACATGACAAAAAATTTTGTGTGAATACCTCCCTTGAACCCCA
TGAAGGTTACCCATGTTGAGAAAAATAAATAAAAAGACCAGGGGCCGTTT
TTTTTGGGGTCCCGCGTTTGGGGCTATCTCCAATTACTTAGATACAGTAG
GGATTTGGCCCGTGTTTAGAACTTTACTGTATCATTAGCCAAACTACGCC
AGTTTTTGTGGAATTTCGAAAAATAAAACCGTAAATGCCTTCCTTAGGAC
ACAGAGAGACCATACGTGTGAAAAAAATGTGTATATCTCGAAATGATTTT
ATAAAGCATTTAGTATAGGGAAGCCTGATCTTGGGGGGGGGGGTGTTATA
TCACGTCATTCCGCGAAATGACACATTTCCTCCCCTAGCGCCACCGCTAG
AGTCTTGTGCAAAAAATCAATGATGTAATGGTCTTCTGATAATGGTGGCG
GTCAGTTTTGTACCAAATTTGTCGCGATCGAGTTTTTATTGCGCTCGGGA
CAGTCTGTTGACTATATGTGGGCTATTTTCCGTGAACCAGCCTGTAGCTC
TCCCTGTGTTGACATTCCTTCTGTGTTGTTGCTGTTATTGTTGTTGTTGT
TATTGCTGTTGCGAAGTAGTCGTCGTTTCTTCCCACATTACTGTAGCTCA
CCACCAAAGTCTTGCCCGTGGTCAGAAGTCAGGCACACACACATCGTGCC
GCTCGGAGGAAAATAAAAAAACAAAATACAAACAAAAATCGGAGATGGTA
CCGTTTGGGTGGGTTACGTTCTGTGCTGGCCACAGTACCAAAAATACAGA
AAGACAGGCACAGGCTCGAAAAAAATTGGACACGAACCTAACCGTGACAA
ACCAAAAGAAGGACCAAAAGAAGGAGAGACGAGTATCATATCAGTCCGAG
ACGAAAAAAAGGGGAGAAAAAAGGGGAAAAAACAGCGTGAAAAAACAAAG
GAGAGAAAAATATAAATAAAAAAAGGGGAAAAATAAGTGTGCGATCCCCG
CTGACGCGCCCGCTTTTATTGGAAGGTGGAGACTGTCGAAAACTGGCGCC
CGGAACAGATAGGATGGTAACACACACAAACACACACACGCACAGACAAT
GGTAATTGCACCTCATTTCAAGTGGAACGAACTGGAACAAGACTACCTGG
GACTCACGGTTCACGATGTTGTGCCGTTTTCGGAACAAATTTTCCGTGCG
GCCCCATCCATCCCGCTTTACAGGGTAGCTCCGATAACTTTCACGTTCTT
GACGAACCGTTCGCTGACTGCTGTCGCCATGTCATCCGTGGACGCGCTCG
TCTGGCCATAAACATGCAGCATCCCCATCTTCGGGGTTGGTTTTGGTTGA
TCATTTCGCAATTTGGGGCATAAATGCCAGGCGGAAAAATCTGGAAAATT
TGTTCAAATCGCGCTATCATATCATAAGGCTTGACCATGTCCCAATCCTT
CTTTTGGTTCGACCACCCTGATTCAGACGCAATCTGTGTTTTCTCTGGGC
TACGGGGAGGACGATGACAAAGAGGGAGATGTGCTGACGGTTCCGCTTGG
AGCCGGCAGGCTGGTCGGCGCCGTCGATGAGGCAAGTCTGGCCTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTCTTGTCCTTGTTCTTGTTCTTGTTATTCTCGGTGCTCTAGTG
CTTGCTCTTGCGCGTGTTGTCGCCGTGGCATGGCATCGTTGTTGCTTATC
TGTGCTTGTGCTTGCTGTTGTCGGTGTTGCTACTACAGCTAGTGGTGACC
ACACATATAAATGCTTACTGGACTAACGCTGCCGACGAGGCGAGGGTTAT
CGTACGTATGTAGCGCAAGAGGCTACGTGCAGAGGGAACAGTGGAGGCGT
CGAAAATAATTTTCATCAGGTGTGCTAGTTCGGAGGGGTGAAAGTACCGC
GGCGAAAAAAACGAACCGACGCGGCGCGTTCCCCCGAACGGGCCGGGCAC
GCGAGGCGTGAATCAGTGACACGTATTGTGTGTCATCCATCTCAAAGCGT
GAGGAGCGAATGCGAACCCCTGTCGGCGCCAGGTAGTGTCGGGCCTGTAG
AGGTCTGCCCCGTCTACATTTTTGGGACCTGGGTACTCACTCGTCTGGGC
TCGAGGGGGTGGACCCGACCGGGTACCCGGGTAGTTGGGAAGTGGAATAC
GGTGCCCCCTTCCTTCCGAAAAAGTGAAATATGATACCCCCAAAAAATCA
GGGGTTGCCGTGTGTGATGTTCGTGGGGGTACCCCATTACCGGAGGGCCA
CCGTATACTGTAGCGATTTCAATTACTCGGGTAACAAATATGCTACCCGG
ACCCGACCGGGTAGTGCCGGGACCCGGGTACCCGCATCGGGTACCCGGGT
AATTTGTAGACCTCTACGGGCCTCACACGATGGCCGGCGCATGCATACCC
TTTTAACAAACCCCCCGCGCGGAGTCCAAGCTTAGCTACGTACAATACCT
CCGATGAAAGAAGGGTCCACTGCAGCAGTCTTCGCGTTTGCTGGACTGCT
TTCGTTTCTAGTTTTGACGAGAGGCTGGCAGACATGAGGTGATGAGTCGT
TTTTCTGGGAAAGTAGAAGTCCGAAGGTAATCCATTTCGCCACGCGGTGG
TTGTTGTGCTGTTGCAGAGGTATCCTCCTTTGCGATGTCTGTTCATCAGG
TGTGGCAAGCACTCCGCGCCGAGGACGCGCGCCGGTTGTGTTTGTGGTAC
TACTGTAGGCGTCATACAACGATTCACGGGGAGTTGGGGGTTCCCTGGTA
TTCTGCATTCATGTGTGCAAGCACTCCGCGCCGAGGAGGCGCCCCAACTG
CGTTTGCGGTACTAGGCATCATACAATGGTTTACGGGGACCGGGGGTTCC
CTAGTATTCTGGATGCATGAATGCGATGGGGCGAGGGGACAAATTACGTT
CGGGTGATCTGGTCCCCCGTGTCCTCCTTCTCACTTTTGTCTCTTCTCGT
CTCGGGGTATCTTCTCATGCTTGGATAGCTGGGCCTTCACGTGCGGGGTA
TTACATGTGGCTCGGTGGACATCACGGCGTGTCGGACAACAACAGCAGTT
CCTTCATACCTCGCTTTCCGGACCACAAAGCAACTGCTTCACATCCGAGC
TTGCTAGACTCTTGCCATCCCATTTTCCCGCCCATTGGTCCGGTTTTTAC
TCCCCCCCCCCCGTTTTGGGCTCCGTGCGGAACCCCGTTTTGTACGGGAG
CCTCTGCACGCAGGACGGTCCTGCATCCTCCTCTGTGCGGGACTCCAACC
CTCTCAAAACCTTTGTTTTTTTTCCTCCGCTTTCGTACCCCTCCCGACCC
TGACCCTGACCCTAACCCTGACCCGCAAAGCGCCGACTTGATCCACGGCC
CGTTTTTGTTTTTAGAAAATCACGCCTTGATAATGAAAAAACAGAGGCGG
GTTTTTGTTCAAACGCGGACGCAGTGTATACCGTCCTGCAGAAGGAACTG
GCTCTCGTTTTGTTTGCACCCGAGTTATTTCAGTGAGACAAGAAGCAACG
CAACCAGAATCAACAGCAGAAAGGAGCTGTCACCCAGCACAGCTCGTAGC
TGTGGCCTCCTTCGCTGCCCTGCCTTTGTGCCGCTGTTTGCCCCCGTCTC
TTCTGGTGAAACTTCTTTGCGCTGCACGATTATTTGTGGGAACAAACACT
TTCGAGGCACACCCACGATGTCGGTTGTTCCCCTGTTCCCGGCGTTGTCG
TGAAAAAGTGTGCTGCGGTTTGATTGATGTTTTTTCTTTTTCTTTTCTAA
TCGTCGTTGAAGCATTGTGATGATGCACCCACCTCTTCGTCATACTATAT
TACAGGTCTTCTTTCCTCTCGCTACACAGCTACCAGAACTACTACTGCTG
CTGCTGCTGCTGCTGCTGCTGCTTCTGCTGGCTCTGTTTGTTCGCTCCCC
AGCCGTTGACCGACCAATCCTCAATTCGTTCCCAGTTTGTTACATTGTCG
TTGCTGAGTACGTAGTCATCCCTTCAGGCGATGCAGCACGTCCGTCCTCT
CTCCAGCCGCCATACACTCAGCACAAAAAAACTTCATGTAGACATGGTGA
CAATTGAGGCGCCATGCACAAAGCGAAAGCTGTCGCAACCGTCGGTGTTT
TCGTAACGTTCGGTGGCTGTATCTCAGTGTTTTCCGCGTTCTGCACATTT
GTTTTTGCTCCGCCCGGCACTGGGGGGTTTCCAGGGAGTTGTAGGCATGC
GCGTCGGAGGCGTTCGACGAGTTGCTGTGCGGCCGGAAAGAGGCTGGAAG
AAACTGGACCCCAAGTGCGCAACGGAGATTGACATGGGCGTCATGTCTGG
CGTGCCGGGTGCCGCTTTGGCGAAGGTGAGTGTGTAACCGTGTATATGCT
AGGCGATCTGATGCTGTTTTTTTCGTGGACAAACGGGTTTAATAAAAATC
AAATAGACGAAGTAACACTTTAGTTTGAGGGGAGGAGACACTCGGCGAAA
AATTAAAAATGAGAATAAAACCCGGCAAAACCTTGTGACGGTGCCAATTT
TGGTTTTTTAGGGCCACAGCTCCACTAGCATGGGCTACCGTCACGCCATT
CATCCAGAAAACTGGCGAAAAATAAAAAATAACTGAAATAAGCCTCACCT
TCGCCAAAGCGGCGCCCGGTTTGATGTCCTCTTGTCTCTTATTTCTAGAT
TCTAAGAGACAAGAGGACATCAAACCGGGCGCCGCTTTGGCGAAGGTGAG
GACGGTGGTAGATATGACGCCCCCGTATACATGATGGGCGATCTAATGCC
GATTTTATTCGGCGGTTCACAGAAAAAAACGGGGCAAACTGTTGTGGACA
AACAGGTATAATAAAATACGGAGTAATTAAATAGCACTTTGTGGGGACAC
TCGGCGGAAACGTGAGAAAAACCCGGTAAAAACTTGGGACGACGCCAAAA
TAATTCCTCCTCTAGTATCGTTTTTTGAGGGCCACAGCTCCACTAGCATG
GGCTACCATCACGCTGCTTATAAAAAAAACGGCGAAAAATAACTGAAAAT
CAGAGACAAGAGGACATCAAACCGGTACAGAAAATCTAGATATCGGTGAA
ACGGGCCCTCTCCAGCGGGATTCGGCGGGTACGATACGCCCCAATCTAAG
CACTTTTGATAGTGTTTCAGTGCCCCAAAATGTCGTTTTCTTTTTTTCTT
TTCGTATATCGTTTTCGACGATCGCCAACGGAGGCAGAACCCAGTACTGT
ATCCCACCCTTTCAACCGGCAACAAATCCCTCCGCGTATTCACTTCGAAC
CGACAAGCTATCGTGACAAAAAAACATACTCCGGAGTATGTACTTTTGAG
GTATTCCACATTTCACCACCACCACCACCACCACCACCACCACATTCTGT
TGCCCGCCTTTGACGAGAATTTCCGGTGCCCCGGTAAACGTATGATGTCG
CGAGTCATTACCTGATGTAGCCTTTTACGGTGAGCGTCGCGAAACCTGAA
ACTCCTCGCATGCACGAGGAGCAGTCGGGGTTCGGGATGGAGCTTTGGTG
GGGGAGGATTTCCACCGCATTCTCTGTGCATTTTTTTTTGTCCTTCATTC
AGGGCGTCGTCCATTTGCGTGTTTCTCAGTGGGCGTCTGTGCCTGTGTCT
TTGTCTTGTTTGTATCTGCGTCTTTGTCCCTATGTATGTCCGTGTCTGGT
GTGTCTGTGTCTGTGTTCGTACGCACGTGTGTCTGTGTCTATGTTTGTGT
CTGTGTTCGTGCGTGTGTCTGTGTCTGTGTCTGTGTCTGTGTCTATGTTC
GTGCGTGTGTTTGTGTGAAATCACGGTTAACCCTGGCCGTGGTCTTCAAG
CCATGGAGCTGGCCTAGCTAGCACCACACAATGATCACGCCGAGAAACGC
CGGGGCGGAGGCAGGTAGCCTTCGCCCGGCCTCCTTCGTTTTCTCTCACC
GTTTGCCCAAAAAATCCTGAATAAGCATCGGTACAGTCGTGCCCCGCTCT
GCCCCAAATATTTTCACCGTCCACCAGACCTTCAACGCGCATGGTAATCT
AATCGACGTCCTTTTTTCTGACCATACCTCATACCTGCGATGTTTTTTTT
TTTTTTGTGCGATGTTCATTTTTTCCTCTGAAGCCATGAACGTTTCATAA
CAGAATAGAGTCTCACCGATAAAATGACGCTTTTGCCTGACATGCCACTT
TTCCAAGAGGACTTTCGAAGCACGGTTCTTTGCAGAACTGATCGGTGATT
CAAGAACAAAATACCCCGGAAAAGCCTTTCACGTGGGGTTGCTGCGGGCC
GCGCTGATGCTGGACACCCATTCATTGTGATTATTTTGGTGGTACGTTCA
TCACTCTCGACCGGTTGAAGCCAGATCGACGCCAATGGTATACCCCGTGA
GCTGTCCATTTGTGATCCTCTGGTGTGGTGATTGCCGAAGGCCGCGAAGT
ATCGATAGGTTTACAGAGGACGTCAGTGACGCGTCACGCGCATGCGTCTA
AAAAAAGAAAAGAAGAGACCGCCTGCCTGGCCTGGCCTGCTGCACGCAGC
AGCAAAAGCAGCAGCGGTTGATCAGGTGTTTTTTCTTTTTCTCTTTTTTT
TCTTAAGGTGTTCTTTCGGCGTGCTGCTAAGATATCGAAAGAATCCATCG
ACACCTCACGGCCTCAAACGACTACCACCCACACGACTAGAACCGCACAC
AAAACCCACGCGGCGGAAAGCGTTGGCATTTCTGTGGCTTTTTCGGTTCA
AGAGCGAAGGACGAAATGCTAAACCACCGGCGGCGCAAAATTCTTTTGGC
TGCTGGTTTCTCGTGTGTTGAGCTCGGATCATACCAGCTCTCTGCGCGCA
GGTATAACTTCGGTTGTTTTTCCCCTCGCTCTCAAACGAATAAGACTTGA
GGCGGGGGTTCGGCAACTGCTTCCTGGCAGGTGTAGCCTGTGTATAAACA
ACAAACGTACCTTGAGGCGGGGGTTCAGTAACTGCTTCCTGACAGGTGCA
GGCTACATACGTATATACAACAAATATGCCTCGAGGGGCAAATGCTTTCC
TGACAGGTGCAGTCTGTGTATAAACATCAAGCATTCCTTGAGGAGGGGGT
TGAGTATCTGCTTCCTGACAGGTCCAGGCCATGTATAAGCAAAACACGGG
AGACGGTAAACGAACCCCATGAGGTTCATCAAAAAACGAACACCACCTTG
GGGCTATGAGTTTTGTTGTTGTTCATGACTCACTCATGACTCATGACTGC
TCACAGTTCTCAAAGAAGGGTATGGTAGATAGAGCACACACACCCACACC
TTTTACTCTAACCCTAACCCTAACCCCAACCCCAAAGCTCGTAGTTAGGA
TGCTGTACCGTTGCGGATTGGCTAGGATGCTGTACCGTGGTGGATTGGCT
AGGATGCTGTACCGTAGTGGATTGGCTAGGATGCCGTACCGTGGCGGATT
GGCTAGGATGCTGTGCCGTGGTGGATTGGCTAGGATGCTGTGCCGTGGTG
GATTGGCCAGGATGCTGAGCCGTGGTGGATTGGCTAGGATGCTGTACCGC
GGTGGATTGGCTAGGATGCTGTACCGTGGTGGATTGGCTAGGATGCTGTA
CCGTGGCGGGTTGGCTAGGATGCTGTACCGTGGCGGATTGGCTAGGATGC
TCTACCGTGGTGGACTGCTACTTCGTTACCGATCTATTACAATACCTATG
ATTCAAGTTGTTAATTGCCGATGCTTTCCAACGACGTTTCGCACTTTCTT
CTATATTTTCAACTCTTGTAAACCTACTGCTTTCGTCTGCGCCAAATGAA
TAAAAATGGAACAAACTTCGCACTCTATATCATTTATACATACACATAAT
ATGTGACTTCGTTTTTCACACAAGCCCCAGGGTGGGGTTCGTTTTTTGAC
GAACACCATGGGGTTCGTTTACCGTCTCACAACAAAACACATGCCTCGAG
GCGGGGGTTCAGTAACTGTTTCCCAACAGGTGTAGGCTACGTACGTATAA
ACAACAAACATGCCTTGAGGCGAGGGTTCAGTGACTGTTTCCTGACAGGT
GCAGGCTATGTATTACAACAAACATACCTTGAGGCGGGGGTTCAATTAGT
GCTTGACAGGTGTATGCTATAGAAAAAAAACACGCCTTCTGATCGTCGGG
AAATATCAGGATAATGTGGTCAGCGAAAGTTTGCATCGATCAAGTCCTTG
ATTTTTTCTAATGACCTACGATAGCGGACGCGAGAGTTTTTTCCCGTGCC
AATGAGGGAGTTTTTGTTTTTCTGAAACGCCCAAGTTTCTGAAACGCCCA
AGAGCCGTCGGTCACACGTAAATGTTTATGTTTTGATTTTCACGGAGTAG
TTGCCTTTTTGCCTCCGAGAATGAATGAAAGAGATACGCTTGCTTTCTCA
TCTTTGATGATGCTTGTACTTGGTTGGCCTCAGGTGGAAGACTGCATCGA
TCTTACCCTGGAACCCAGGCCGGTGGGCTACGGCGCGACGCGACGGATGG
CCCGTAGGTTCGACGAGACCCTTATCGTGGAGGTGGAGATGGTCGGAGCC
AAGGAGAGTAACGGAAGAATATTTTGATTTTCGGGGTCAAAGGCAGGACG
ACGGGAGATTGATTGCCCTCACGGTATTTTTATTTTCTGTTGCTGATCTT
TGTTCCTGACACGAGCTCCCCGCTAATTCTCAACCAGCATCATGCGAGTA
TCGAAGCGTAAAGGCCCTTACAGGCATTCCTGTACGTACCCCGTTGTCAG
CGCTTTTTGTTTTGGTGTTTGTGCTTTTCGATCGCACCACAAAGCACCTT
ATCGCCCCGATGAAGTCTACGGCCAGACCGGTCGAGGTTGCGATGGTGGG
TGCCAAGGAGGGCAACGACGGAAGAATATTTTTTCAACATTTTTCCGACA
TGTCGGAGGCATTAGCAACCTGCAGCGCTTGTTGCGGTCGATATCGGCTT
GGATGCGCTCCCTCTTGGAAGGAGGAGGTGGAAAGCCCGCAGTAGATGTA
CTTACTTGTCCCACACAAGACACGGTGCACCGGCGACATGTGCATCACAT
GCACCGATTTCCTGTCAACCTCGGGTGATTGTGAGCAAAAGTGGTACGTA
CACCCCACGCTACCGTTCTGTGTATCCCCATGAATAAACGAGTTTGGCGC
TCTATTGGCTGCTTTATCAACGGCAGATCGTGTCGAGACAACAATGGTCA
TTTTCCGTCAGGCAGAGATTTTTTGTTTTATCGCTTTCAGCGGCGTAAGA
AATGGCCAGCCGGAAGGCCAAAATCTCGAGTTCATTTTCACTTCCGCAAG
TGGTGCCACATGTGATGGTTTGGCACTTTTTTCGTCTTGTATGGTAGCGA
CAAAAAGTTTGTCAGTGGTATTCATAGTACAACGATGCAACCGACACATC
CTCGGAGCCCCTCCTCAATTTGTCAAAATTTGAGCTGCCAGTACCATTCG
GGGTCGTGACCTGTGTCACCGCTGTTGCTGCTCCTCGTGCAGGCCGTGGC
TTGCTACGAAATCAATAGGAGACCTCGGAAGGGCCTTATTCTACCTTTCA
CAGTAGTTCATATGCCATGGTTTTGCTTCACACCGTAGAAATACTGCGCC
ATCGCAACTGAAGGCAAGCCCTTTTCTTAAAATTATGTTGCCTCCAGAGA
GCTTGTTTTTTTAGTCTCGGGAGGCAAACTTCGTGCCAAGGATTGCCAAA
CGGTGAATTAATTGACCAAATTGCCTG

Coding sequence (CDS) from alignment at P-littoralis_Contig124:57084..69410-

>mRNA_P-littoralis_Contig124.2.1 ID=mRNA_P-littoralis_Contig124.2.1|Name=mRNA_P-littoralis_Contig124.2.1|organism=Pylaiella littoralis U1_48|type=CDS|length=684bp|location=Sequence derived from alignment at P-littoralis_Contig124:57084..69410- (Pylaiella littoralis U1_48)
ATGGCCGGAGTCCCTCCCGCCAGCGCGCTCGTGAAGGGCAACGCGCCACC
CCCGGGGTACAACAAGAAACGCGGGAGCGGCTCCGGAAACGGAGAACGGG
AGGCCACCCCGACGGCTGGAGCCGTCCCGGGAGACGACGATCCATCGCGG
ACCTTCTCGGTCACGAAGTCGGGGATTCGATTCAAAGACCTCAAAATTGG
GGATGGAGCGGAGGTGACGCCTGCGAATGTCGTGGACATGCGTTACCGCG
TGGAAAAGCTGGGCAAGAGGAGCTACGACGGGATCTCCGGAGAGACGCAA
TCTGTGTTTTCTCTGGGCTACGGGGAGGACGATGACAAAGAGGGAGATGT
GCTGACGGTTCCGCTTGGAGCCGGCAGGCTGGTCGGCGCCGTCGATGAGG
CAATTGTAGGCATGCGCGTCGGAGGCGTTCGACGAGTTGCTGTGCGGCCG
GAAAGAGGCTGGAAGAAACTGGACCCCAAGTGCGCAACGGAGATTGACAT
GGGCGTCATGTCTGGCGTGCCGGGTGCCGCTTTGGCGAAGGTGGAAGACT
GCATCGATCTTACCCTGGAACCCAGGCCGGTGGGCTACGGCGCGACGCGA
CGGATGGCCCGTAGGTTCGACGAGACCCTTATCGTGGAGGTGGAGATGGT
CGGAGCCAAGGAGAGTAACGGAAGAATATTTTGA