mRNA_P-littoralis_Contig114.65.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig114.65.2
Unique NamemRNA_P-littoralis_Contig114.65.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: D7FXN4_ECTSI (Sar1A, Ras superfamily GTPase n=4 Tax=PX clade TaxID=569578 RepID=D7FXN4_ECTSI)

HSP 1 Score: 387 bits (995), Expect = 1.900e-127
Identity = 188/191 (98.43%), Postives = 190/191 (99.48%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDM AAVSEDELRYAMGLYDTFGKA+KPDSNPGVRPIELYMCSVVKRMGY+DGFKWLSQFI
Sbjct:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMQAAVSEDELRYAMGLYDTFGKASKPDSNPGVRPIELYMCSVVKRMGYSDGFKWLSQFI 191
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: A0A7S2V1B9_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V1B9_9STRA)

HSP 1 Score: 336 bits (862), Expect = 1.340e-107
Identity = 162/192 (84.38%), Postives = 175/192 (91.15%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKP-DSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MF VDW YGILASLG YHKSAKILFLGLDNAGKTTLLHMLKENRVQVH+PTLHPNQDELIVGKVRFKTFDLGGHETARKLW+DYFTTVDGVVFLVDALDR+RFPEAKKELD+LLT E L  VPFLVLGNKID+  A SE+ELRYA+GL++T+GK  K  D +  VRPIELYMCSVV+RMGYADGFKWLSQF+
Sbjct:    1 MFFVDWIYGILASLGLYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHEPTLHPNQDELIVGKVRFKTFDLGGHETARKLWRDYFTTVDGVVFLVDALDRERFPEAKKELDALLTSEELANVPFLVLGNKIDIARAASEEELRYALGLFETYGKENKSADKDSNVRPIELYMCSVVRRMGYADGFKWLSQFL 192
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: B7FXX2_PHATC (Predicted protein n=7 Tax=Bacillariophyta TaxID=2836 RepID=B7FXX2_PHATC)

HSP 1 Score: 329 bits (843), Expect = 8.910e-105
Identity = 153/191 (80.10%), Postives = 173/191 (90.58%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFL+DW+Y  LASLG YHK+AKILFLGLDNAGKTTLLHMLKENRVQVH PTLHPN DELI+G ++FKTFDLGGHETAR+LW+DYFTTVDGVV+LVDA+DR RFPEAKKELD+LLT E LQ VPFLVLGNKIDMP A SE+EL+YA+GL DT+GK   PDS+  VRPIELYMCSV++RMGY+DGFKWLSQF+
Sbjct:    1 MFLLDWWYSALASLGLYHKNAKILFLGLDNAGKTTLLHMLKENRVQVHVPTLHPNTDELIIGNIKFKTFDLGGHETARRLWQDYFTTVDGVVYLVDAIDRGRFPEAKKELDALLTSEELQDVPFLVLGNKIDMPTAASEEELKYALGLMDTYGKDKGPDSSSSVRPIELYMCSVIRRMGYSDGFKWLSQFL 191
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: B8BUA4_THAPS (Arf-type small G protein n=5 Tax=Bacillariophyta TaxID=2836 RepID=B8BUA4_THAPS)

HSP 1 Score: 324 bits (831), Expect = 5.370e-103
Identity = 151/191 (79.06%), Postives = 173/191 (90.58%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFLV+WFY  LASLG YHK+AKILFLGLDNAGKTTLLHMLKENRVQ H PTLHPN DELIVG+++ KTFDLGGHETAR+LW+DYFTTVDGVV+LVDA+DR RFPEAK+ELD+LLT + L  VPFLVLGNKIDMP+A SE+EL+YA+GL DT+GK TKPD N GVRPIE++MCSVV+RMGY DGF+WLSQF+
Sbjct:    1 MFLVNWFYDTLASLGLYHKNAKILFLGLDNAGKTTLLHMLKENRVQAHVPTLHPNTDELIVGQLKLKTFDLGGHETARRLWQDYFTTVDGVVYLVDAIDRGRFPEAKRELDALLTSDELVDVPFLVLGNKIDMPSAASEEELKYALGLLDTYGKDTKPDKNSGVRPIEVFMCSVVRRMGYKDGFQWLSQFL 191
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: A0A7S2LHQ1_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2LHQ1_9STRA)

HSP 1 Score: 323 bits (828), Expect = 3.110e-102
Identity = 155/192 (80.73%), Postives = 172/192 (89.58%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDS-NPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFLV+W Y  LASLG +HK+AKILFLGLDNAGKTTLLHMLKENRVQVH PTLHPN DELI+GK++FKTFDLGGHETAR+LW+DYFTTVDGVV+LVDA+DR RFPEAKKELDSLLT + L  VPFLVLGNKIDMP A SE+EL+YA+GL DT+GK TKP   N  VRPIELYMCSVV+RMGYADGFKWLSQF+
Sbjct:   21 MFLVNWIYDALASLGLHHKNAKILFLGLDNAGKTTLLHMLKENRVQVHVPTLHPNTDELIIGKIKFKTFDLGGHETARRLWQDYFTTVDGVVYLVDAIDRGRFPEAKKELDSLLTSDELCGVPFLVLGNKIDMPTAASEEELKYALGLIDTYGKDTKPSQENSTVRPIELYMCSVVRRMGYADGFKWLSQFL 212
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: K8YVP7_NANGC (GTP-binding protein SAR1 n=3 Tax=Monodopsidaceae TaxID=425072 RepID=K8YVP7_NANGC)

HSP 1 Score: 317 bits (811), Expect = 6.990e-100
Identity = 152/202 (75.25%), Postives = 175/202 (86.63%), Query Frame = 1 
Query:    1 MFLVDWFYGILASL----------GFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGK-ATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFL+DW Y  LASL          G YHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPT+HPN DELI+GK+RFKTFDLGGHETAR+LWKDY TTVDGVVF+VDALD++RFPEAK+ELDSLLT + L  VPFLVLGNKID+P AVSE++LRYA+G+ +T+GK ++  +  PGVRPIELYMCSV+KRMGYADGFKWL+QF+
Sbjct:    1 MFLLDWVYSALASLVLSAPSVHLAGLYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTIHPNTDELIIGKIRFKTFDLGGHETARRLWKDYLTTVDGVVFIVDALDQERFPEAKRELDSLLTSDELAHVPFLVLGNKIDVPRAVSEEQLRYALGMQNTYGKDSSGGEKQPGVRPIELYMCSVIKRMGYADGFKWLAQFL 202
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: A0A1E7FLB6_9STRA (Small GTP-binding protein sar1 n=3 Tax=Bacillariaceae TaxID=33852 RepID=A0A1E7FLB6_9STRA)

HSP 1 Score: 312 bits (800), Expect = 2.170e-98
Identity = 147/190 (77.37%), Postives = 166/190 (87.37%), Query Frame = 1 
Query:    4 FLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            F +DW Y  LASLG YHK+AKILFLGLDNAGKTTLLHMLKENRVQVH PTLHPN DELI+G ++FKTFDLGGHETAR+LW DYFTTVDGVV++VD++DR RFPEAKKELD+LLT E LQ VPFLVLGNKIDMP A SE+EL++A+GL DT+GK   PD   G RPIELYMCSV++RMGYADGFKWLS F+
Sbjct:    4 FSLDWMYSALASLGLYHKNAKILFLGLDNAGKTTLLHMLKENRVQVHVPTLHPNTDELIIGNIKFKTFDLGGHETARRLWADYFTTVDGVVYIVDSIDRGRFPEAKKELDALLTTEELQDVPFLVLGNKIDMPTAASEEELKFALGLGDTYGKDKGPDGT-GTRPIELYMCSVIRRMGYADGFKWLSAFL 192
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: A0A7S1U8E4_9STRA (Hypothetical protein n=2 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U8E4_9STRA)

HSP 1 Score: 312 bits (800), Expect = 5.160e-98
Identity = 146/191 (76.44%), Postives = 167/191 (87.43%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MFL DWFY ILA+LG YHKSAKILFLGLDNAGKTTLLHMLKENRVQVH+PTLHPNQDELIV  +RFKTFDLGGHETAR+LW+DYF TVDG+VFLVDA DR RFPEAK+ELD LL  E L +VP LVLGNKIDM +A SEDELR ++GL++T+GK  K D    +RPIE+YMCSVVK+MGYADGF+WL++F+
Sbjct:   28 MFLFDWFYSILANLGLYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHEPTLHPNQDELIVNNIRFKTFDLGGHETARRLWQDYFATVDGIVFLVDAFDRDRFPEAKEELDQLLNQEELASVPVLVLGNKIDMTSAASEDELRGSLGLFETYGKVDKLDEAYNMRPIEVYMCSVVKKMGYADGFRWLAKFL 218
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: K3X6J8_GLOUD (Uncharacterized protein n=32 Tax=Oomycota TaxID=4762 RepID=K3X6J8_GLOUD)

HSP 1 Score: 309 bits (791), Expect = 4.330e-97
Identity = 139/191 (72.77%), Postives = 169/191 (88.48%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MF+ DWFYG+L  LG YHK+AKILFLGLDNAGKTTLLHMLK++RV VH+PTLHPN +ELI+GK+R +TFDLGGHETAR+LW+DYF TVDGVVF+VDALDR+RFPE+K+ELD+LL  + L  VPFLVLGNKID+P A SEDELR A+GLY+T+GK  + D +  +RPIELYMCSVV+RMGYADGF+W++QF+
Sbjct:    1 MFIFDWFYGVLGYLGLYHKNAKILFLGLDNAGKTTLLHMLKDDRVAVHEPTLHPNSEELIIGKLRLRTFDLGGHETARRLWRDYFATVDGVVFVVDALDRERFPESKRELDTLLGYDELANVPFLVLGNKIDVPRAASEDELRSALGLYETYGKEARGDKDASIRPIELYMCSVVRRMGYADGFRWMAQFL 191
[Close]
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Match: A0A812ZYF4_SYMMI (SAR1A protein n=1 Tax=Symbiodinium microadriaticum TaxID=2951 RepID=A0A812ZYF4_SYMMI)

HSP 1 Score: 307 bits (786), Expect = 2.460e-96
Identity = 143/192 (74.48%), Postives = 166/192 (86.46%), Query Frame = 1 
Query:    1 MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQPTLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTT-VDGVVFLVDALDRQRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYDTFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI 573
            MF  DW+Y ILA+LG YHK AKILFLGLDNAGKTTLLHMLKE RV +H PTLHPNQDELI+GK++FKTFDLGGHE ARKLW++YF   VDGVVFLVDA+DR+RFPEAKKELD+LLT E L  VPFL+LGNKID+  A SED+LR+ +GLY+T+GK TK + +  VRPIELYMCSVV++MGY DGFKWLSQF+
Sbjct:    1 MFFFDWWYNILAALGLYHKDAKILFLGLDNAGKTTLLHMLKEGRVAIHNPTLHPNQDELIMGKIKFKTFDLGGHEIARKLWREYFAAGVDGVVFLVDAVDRERFPEAKKELDALLTSEELANVPFLILGNKIDLGRAASEDDLRHQLGLYETYGKETKGERDANVRPIELYMCSVVRKMGYGDGFKWLSQFL 192
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig114.65.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FXN4_ECTSI1.900e-12798.43Sar1A, Ras superfamily GTPase n=4 Tax=PX clade Tax... [more]
A0A7S2V1B9_9STRA1.340e-10784.38Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
B7FXX2_PHATC8.910e-10580.10Predicted protein n=7 Tax=Bacillariophyta TaxID=28... [more]
B8BUA4_THAPS5.370e-10379.06Arf-type small G protein n=5 Tax=Bacillariophyta T... [more]
A0A7S2LHQ1_9STRA3.110e-10280.73Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
K8YVP7_NANGC6.990e-10075.25GTP-binding protein SAR1 n=3 Tax=Monodopsidaceae T... [more]
A0A1E7FLB6_9STRA2.170e-9877.37Small GTP-binding protein sar1 n=3 Tax=Bacillariac... [more]
A0A7S1U8E4_9STRA5.160e-9876.44Hypothetical protein n=2 Tax=Phaeomonas parva TaxI... [more]
K3X6J8_GLOUD4.330e-9772.77Uncharacterized protein n=32 Tax=Oomycota TaxID=47... [more]
A0A812ZYF4_SYMMI2.460e-9674.48SAR1A protein n=1 Tax=Symbiodinium microadriaticum... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig114contigP-littoralis_Contig114:413892..424967 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FXN4
PFAMsArf
Model size2401
Max annot lvl2759|Eukaryota
KEGG koko:K07953
KEGG Pathwayko04141,ko05134,map04141,map05134
KEGG ModuleM00404
Hectar predicted targeting categoryother localisation
GOsGO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005798,GO:0006810,GO:0006888,GO:0006900,GO:0006996,GO:0008150,GO:0009987,GO:0012505,GO:0012506,GO:0012507,GO:0016020,GO:0016043,GO:0016050,GO:0016192,GO:0022607,GO:0030117,GO:0030120,GO:0030127,GO:0030133,GO:0030134,GO:0030135,GO:0030658,GO:0030659,GO:0030660,GO:0030662,GO:0031090,GO:0031410,GO:0031982,GO:0032991,GO:0034622,GO:0035459,GO:0043226,GO:0043227,GO:0043229,GO:0043933,GO:0044085,GO:0044422,GO:0044424,GO:0044425,GO:0044433,GO:0044444,GO:0044446,GO:0044464,GO:0046907,GO:0048193,GO:0048194,GO:0048475,GO:0051179,GO:0051234,GO:0051641,GO:0051649,GO:0051668,GO:0061024,GO:0065003,GO:0071840,GO:0090110,GO:0090114,GO:0097708,GO:0098588,GO:0098796,GO:0098805
Exons6
Evalue2.77e-137
EggNOG OGsKOG0077@1|root,KOG0077@2759|Eukaryota
Ec32 ortholog descriptionSar1A, Ras superfamily GTPase
Ec32 orthologEc-28_002410.1
Descriptionintracellular protein transport
Cds size576
COG categoryU
BRITEko00000,ko00001,ko00002,ko01000,ko04031,ko04131
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig114.65.2prot_P-littoralis_Contig114.65.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig114 415717..424967 -


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

Feature NameUnique NameSpeciesTypePosition
1680789464.9133945-UTR-P-littoralis_Contig114:413891..4157161680789464.9133945-UTR-P-littoralis_Contig114:413891..415716Pylaiella littoralis U1_48UTRP-littoralis_Contig114 413892..415716 -


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

Feature NameUnique NameSpeciesTypePosition
1680789464.9301028-CDS-P-littoralis_Contig114:415716..4157451680789464.9301028-CDS-P-littoralis_Contig114:415716..415745Pylaiella littoralis U1_48CDSP-littoralis_Contig114 415717..415745 -
1680789464.942013-CDS-P-littoralis_Contig114:416292..4164111680789464.942013-CDS-P-littoralis_Contig114:416292..416411Pylaiella littoralis U1_48CDSP-littoralis_Contig114 416293..416411 -
1680789464.9554014-CDS-P-littoralis_Contig114:417128..4172231680789464.9554014-CDS-P-littoralis_Contig114:417128..417223Pylaiella littoralis U1_48CDSP-littoralis_Contig114 417129..417223 -
1680789464.963633-CDS-P-littoralis_Contig114:418249..4183931680789464.963633-CDS-P-littoralis_Contig114:418249..418393Pylaiella littoralis U1_48CDSP-littoralis_Contig114 418250..418393 -
1680789464.9754753-CDS-P-littoralis_Contig114:419177..4193231680789464.9754753-CDS-P-littoralis_Contig114:419177..419323Pylaiella littoralis U1_48CDSP-littoralis_Contig114 419178..419323 -
1680789464.9837778-CDS-P-littoralis_Contig114:424924..4249671680789464.9837778-CDS-P-littoralis_Contig114:424924..424967Pylaiella littoralis U1_48CDSP-littoralis_Contig114 424925..424967 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig114.65.2

>prot_P-littoralis_Contig114.65.2 ID=prot_P-littoralis_Contig114.65.2|Name=mRNA_P-littoralis_Contig114.65.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=192bp
MFLVDWFYGILASLGFYHKSAKILFLGLDNAGKTTLLHMLKENRVQVHQP
TLHPNQDELIVGKVRFKTFDLGGHETARKLWKDYFTTVDGVVFLVDALDR
QRFPEAKKELDSLLTDENLQTVPFLVLGNKIDMPAAVSEDELRYAMGLYD
TFGKATKPDSNPGVRPIELYMCSVVKRMGYADGFKWLSQFI*
back to top

mRNA from alignment at P-littoralis_Contig114:413892..424967-

Legend: polypeptideCDSUTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig114.65.2 ID=mRNA_P-littoralis_Contig114.65.2|Name=mRNA_P-littoralis_Contig114.65.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=11076bp|location=Sequence derived from alignment at P-littoralis_Contig114:413892..424967- (Pylaiella littoralis U1_48)
ATGTTTCTCGTTGACTGGTTCTATGGAATCCTTGCCTCGCTAGGTGAGCT
TCCGGTCCATGCCAGTTTCAGCGTTTGCGTTCGGAATGTACAGCAAGAGC
TTTCACCAGAATTTCTTTTCTCTAGACCCGCCGTCACCCCTTTCTCTCTT
ACACTCCCCAGCTGTTCTCTGTTGCAAAGGAGAATTTGTAAACCAGGAAT
ACCAGCTACCTGGAATACGACTAGGGAGCAGAAGCACCAGCAGCACCAGC
AGCAGCACCAGAAGCAGCAATAGATTCAGTAGCAGCAGTAGGAGCAGCAG
TGGGAGCAACAACAGCAGCAACAGCAGCAACAGCAGCAGCAGCGGCATTG
ACTTCCGCAAACTTGACCGGCGCGTTTCTCTCTCTTTTCTCACCCTCCCT
TCTCCTGCTGTGCACTCTCACTCTCACTCTCTCTCTGCGCACAGCGAGCT
GATGATGCACAACTTGAGTTTCTACGAAGGACGAGTCCAGCAGTTCGAAG
TTCGAAGTACATTTTTCAGCAGAAAACGAAATGCGTCCGATGATATGGTA
TATGATCAGCGTACTTGTTTGTATCCACGCGCCGACACCTCTGCATACTG
CTTTACTATTCATCTCTATGTGATGCAGATGAACATCATAATAAGGTTTA
CAGGAAAAGCCCGCACTTTTTTGTACACATGCAGACATCCAGCACATATA
CATCTAACCTTCGAATGTACTTCGAAGTATGATACAGCAGTACAGCAGTA
GCAGGGATTTTGCGGGGTGTCTTGATCCGTCCGATATGCTTCAAAGATGT
GTGATGTTGTAAAATACTTCTAGTACTGCCGTACCCTCGGGTAAACTTGT
TTGCTGCTGTACACGCACCGCAGCACTCTCTTGACAACACGGACGGCACG
GACAGGTTCAAAGCGACCTGCCACAAAAGGCGTTGCACCTTTGGCACACT
ACTCCCTCTCCTTGACACCGGACCCCTTATCTCTCCCACGATACAACCCG
AATTGACGAATTTACGAATTTACCCCCCTCGCTACATACCACACCTGCAC
TTTGTATTTCGTATTAACTAACCCTTCTTGGCCTTTAGAGGGAAACATTA
CTTCAAAATTGGGCATCAGAATCGAGCAATTGTTTTTTGTTTTTATGTTC
CAGCCCGGTCTACTCGGATCCTGGGATCATAAAGCACGTGTGTGAACGAG
ACGAATTTATTGTAGCAGGCGGCTGTGCCGACCTCTGCGTAGGCGGTAGC
GTCAACCGCGGGAAGAACAGGCATGGTTGTGTGCTTAACGAGAGCCTTCA
CCAGGCAGCAGCAGCCAAAGGGTATGTCATTTTTCCCATGCCCTTTGGTA
GCAGCAGCAGCAATGGGTATAGGTACGCTAAAGGGGCCGAAGGCCTTCAC
ACCCAGGGGATTAGAGAATTACAGATACATGAAAACCTTCACCTAGGAAA
AACCGGGCATGTTCTCCAGGGCGATGGGATGTATACTGAAATAGACAGCA
AGAGCTACACACCGAAACCAGGGATACAACATGCTACCTCTGTCGGCTCG
TAATAGCGGCTGAGACATCCTTCTACTATCTAACTCTTAACCCATTTAGC
CTATCGCGGGCCTTTGCCGCGGCCCCTGCGTAGTTTTTGCTCGTGCCATA
GCTGCTGTGCTGCTGCAATTCTCGAGTCGATTTGCAGGCGTTGCGCGGCG
AGATTGCACGAAACGGAACCTTTCTGCCCGACAAAAAAATAAAAAGTAGG
CTTCTCGACTAGCCGCTTGTGTGAGGAGTGAGGAGCCTAGTACCAGGAGG
GTTAAACATTCCGTACCATATACGAAGTACGTATTGTACTTCATACGATA
CTTTCCCTGCACCACTCGTATCATTGTACAAATTTATCATGCCACAGCAG
TCTCCCGGTGACCGCTGCAAAACGAAAAGAAAATAAATAAATATTTTGGT
ACTCCGTACATCATTTCGTCCTTAGTGATGTCATGTCGTACATGCGTTGT
GCGTGCGTGCATTTTGTCGTGATCGTCATCCCATCCATATTGGGCGCCAG
ATGGACTGGAACACACCAGCCGAGGTAACTTACAGCAGTAGAGCAGGAAG
AGACCACCCGGAAAGTACTCTTGTGGTTCCCGTGTAAACCTACCAGCAGT
TCAGGTCGTAGGTTCGATTCTCTCTGAGAAATGAGAACGTTTCGTTTCGT
GCGACTTTTCAGTGGAAAGCGATTTGGTCGTGAGTAAACAGAGCGAAGGG
ATTGCTGAACCCGGCTCGCACTAAAACGAAAGGCAAGTACATGCCGCAGG
AGGAAAGGTGTGGGCAATAACAACAAAATAAATAAAAAAAGTCGTGTGTG
GCCTTCCTTCTGTGCGACTCCGGCTGGTGTACCTACTCTTGTTTTTACAC
CGAGGTGTAGACCGGTGCCCATGTTAAATGAGATGGATACAAACACATAA
CACATACACACATGGAAGCATACGAGGAAATGGATGGCCAGATGCTTGTG
CGGTTCTCCTCCAATGGCATGGCGACAAGACGGCGGCACACTGCTGCACT
CGTACATACAAGAGTAGTACCGTCAGTGAAATCAAAAGAAGGAGATTTCC
TTCGAAGCGCTCTCTTCCCTTTGACTTCACTGACGGTACTATTGTTTAAT
GTACGAGTGCAGCAGTGTGCCGCCGTCTTGTCGCCATGCCATTGAAGCAG
AACCGCACAAGCATCTGGCCATCCCTTCTTCCTTGTCTGCTTCCATGTGT
GAAGTAGTCGAGTTCTTTTGTGTACCGATGATCCACGGTTTAAGTCGCTC
CCCCTCATCATACATAGCCAGGTGCTTTCTACGGACACGCCGGCATGGGG
GTGCATGGGGTGCTAGTCATTTTCGGGCTTTCGACAAATTCCTGATATTT
CATGGTTTCCAAAGTCTACCTACACCGTATGATACGAATCTATGATATGA
TATCATCTCAGAAATGTGCTAGAGGCAGAGTCGCTGTGATCAATGACTGT
CCAGGGTTCCAAGTTCTTGGAAGAACTGCAGATTCGCCGCCTGTGACTCA
TGAAGCGATCCCTCTTTCATCGAGTTCTGTCAACGACGCGGCGCATCGTA
GTTGGGGTGCTGCTGTAGCAGCCAAATTTTGTATTCTTGAATGCTTCCAG
CACGCGGCACCCGGAAAATTCAGGGCATGTACGTGAGTTCTTGCGGCCTT
CAAAATCAAATCGCGGCGCCGGGTAGGTTGGCTGTATGCGCAGAGCACTG
TGCTGAAGTATCATAGCGGCCGCAGTTGGCGTTCTTTTCGTATGCTGCTG
CTGTACACTTTTTCGGGTTCTTTTTGCTGGAAGCGTTCAAAGAGCACGGT
TGCTACACCAGCATCCGAACCATTCCTCGTACAAGCAGCTCTCAGAACTC
GATGAAGGGAGGCTCGTCTCAAAAATCACAGACGGCGATCCTGTGTGTAG
CGTGTCGCAAGGACTCGAATCCTAGACGCTAGTTGTTGATCACAGCGACT
ATGGTAGATTCGTACAAGGTCGATAGACTTCGGAAACCCAAAATGATCAG
GCGTTCGTTGAAAAAAGCACTCAAATATATTGCACCGCGTGCCCGTTTGG
TCCCAAGTTCCATGGTCCTATGAGTTCCTGGGCGCGATATTACGAGAAAA
ATGGTCCGGCTCGCATGTGACTTTACTTCCTGTGCATATGATACAGCACG
CGCGACCGTTGCAGAAGGTTTAAAGGTTACGGTAACCAAGGTTGTGCACC
ACCGTAGCGACTGGACGCGTCCTAAATATCAAACACATTTCCCGGAAATG
GCACGCACACCCGCGCGCGCCTTGGTCCATTTTGTGCCACGTTCGGATCA
TCAGGGTACAGCAGCAGGGTATCGTCGTGCCGTTTCTGTACCAGGGTAGG
ATGCCACACTATAGCATAACTCGTCGATTCGGAACCCCCAAGACACAAAT
ATACGTGAGCGCAGCTGCTGTTTTCGTTTTTACACGACGTGGCCGCGACG
CGCAACGCACTGCGCGCTGTGTGGTTCTGTCGTACCAAACTCCCTGATTT
TATGGTGGAAAGCCGGGGATGGTCCTCGTAAGATCCCCGGAGATGTGATT
TGAGAAATTCCGCCCGTCACAGCACTCTTGCGAACGTCGAGTTGTGATTA
TCACTGCTCGCCTTCGAAGCAGGACGCTACAGGCGGCTGCTAATCTTGAA
ACCCGTGTATTTGGTTGGAAGAGCGGAACCTGCCTTGAACCGATTGAAGA
CAAAATCGTGGTCATGAGGAGTTTCGTTGGCATGGCACACCCTTCTCTAT
TTATCATACCTCTCTTGAAACCATAAAACTCCCACGGACTTTATCGTAAC
AACGTGTTGTTCCCGTCCTGCAAGAAAAGCAACGGGATGAGGCAAGAAAC
AAGCGCTGGCAGGCGTTCTCTCTGCCCCGCTCAATCGTCAAGCCATCACC
GCTGTAGTACCACTACTCGTAGTGCTGCTTGCTGCATGTACCGTATGCGA
CCAGATCCATGTCTGGAGAGAGACGACCTCAGATGTGTGTCTTGGTTCCG
GGTATAAAAGTACTAACGGTGCGGCAAAGAAAAGAGGCGTGTCCTCTCTT
GCGATCTTCGTTGATCTTATTCATGTATCTGTTGCTCAATCTTATCAGTC
ATTTGTGGTCACCCGCGATGGAATATTATCTTCCAAGTCGTAAAAAACAA
AAAAAAAATGGATAAATTTAAAGCTGAAAAACGATAAGGGTGAAAAAAAA
AATGCCACGCCAATGCCCTCCCAGCAAAGAAGAAAAGATGAATGTTCTTA
TACCTGGCATACCGCGAGAACGTTTGTATTGCAGCACAGCAGATGGGCCA
CTACTGCATTGATTTTTGGCACGGTGCTTGCAGCGAGACACACTACATGC
CAAACCGGCAGTACGGCTCCGTTCGACATTATTCCCTTGTATGGAATAAG
CGTGGTATGCGCGCGCGTCCGCCTTTGATTGTTTGGTGTCGTTTTCGGTG
TTATTAAAGACGGGAGGGCGGGGGGGGGGGGGGGGGTATTGTGCAACTTG
CGTGGTAAATATAGCAGTGGGAATACAGGGTTCGTGGTACTCAAACAAAC
TACTGGTGTGTTTTATGTACGTACTGCTGTACCTGGAAGGACTGCTTTTT
CTTTCTCGGCATGACATGGAACCAGTCAATGCATGCATAAAACGATCGAC
ACGAGCACACAAACGAAGCGCAATTACGTTTTCATCCATGTACGTGTTCT
TTGCATCTTTGTGGTATGGTAAATAAGGGCACCTCTTGTAGTCCAGCATT
ACACACGCGTGGTTTTTGCGTCGATCCCACCAAGTACGGCACAGCACAGC
AGTACAGCACAGCACAACACGACAGGTAGTAGTACTGTATGACACCTCGT
TTACGGTTGACAGGGGCTTTGTTACGCATACGTGCTGCTGTTGGTTGTGT
TTTTAACGTGGATGTGATACGATGCAGATGAAATGATAACTTCGAAGTTT
GTTACGTGGATGCGCCTACGAGTACGAATGACGTGCCAGCATAATGTTTC
ACTTGCATACCGTAGACGTGAAACGTATACGTACGTGTACTCAGCAGAAG
TTGTACTCTGTGGTTGACATTGATGTTTTCTTTTGCTCTCGTAGGGTTCT
ACCACAAGAGCGCCAAGATCCTCTTCCTGGGCCTCGACAACGCGGGAAAG
ACGACGCTCCTCCACATGCTCAAGGAGAACAGGGTGCAGGTGCACCAGCC
GACGCTGCACCCCAACCAGGACGAGTTGATCGTGGGAAAGGTGTGACACG
CAGGACGAGAGGTAGAAAGAGACAAGAGACGTACAGAGGACGAGAGTGCA
GCAGCAAGAGATGGAGAGTTAGCGAGACAGAAAGAGAAAGATGTAGAGGA
GAGAGAGAAAGAGACGGAGGCAGAGACAGAGAGAGGGAGAGGGAAGACGA
AGACACACAGATGAGAGAAATGAGACAGATGAAGTGGTTCTCATGTACTC
GTATGTTGCTTGCCTTTTGCTTTCGTGAGTCGATGTCTGACGGTCATCTG
ACCGAATTGACACACACATCTATCCCTTTCAAGATGGAACTCCTGGAAAG
GTCGCCACTAACATGCGGGGCTCTCTTCATGTTGAAAAAAGGGGGGAGGA
CGGGGTGTTCTCACATGCGAAAGGCCACGTGTCAAACCGATACAAAGATA
CTCGGTTCGTTGTTCTTGTCTTTGCCCTTGTCCTCGTCCTGGCTCTTGCC
CTTGCTCGTGCCCTTCTTGTTATCGTCCTTGTCCTTGCCTTTGCCTCCTG
TGCCTTTGCCTCCTGTGCCTTGCATCCTGTCTCTTGTCTCTCGTCGCTTG
TCATCTCTTGTCATCTCTCATCTCTTGTCATCTCTCATCTCTTGTCATCT
CTTGTCATCTCTTGTAATCTCTTGTCATCTCTCATCTCTTGTCATCTCTT
GTCTCTCATCTCTTGTCTCTCGTCTCTCGTCTCTCGTCTCTCGTCTCTCG
TCTCTCGTCGCTTGTCTGGTGTTCGTGTTCGTGTTCGCTTTCGTGTCCGT
GTTGTTGTTCGTGATCTCATTCAGGTCCGCTTCAAGACGTTCGACCTCGG
CGGGCACGAGACGGCTCGCAAGCTGTGGAAGGACTATTTCACCACCGTGG
ACGGCGTGGTGTTCCTGGTGGATGCGCTGGACCGGCAGCGTTTCCCGGAG
GCGAAGAAGGAGCTTGACGTGAGCGTGTCCGTATTTTGTTTTGCCCAAGA
ATTGAATATTCCATTGATTGTGTTGTGCACAGCAGTTTACCTTGTTGCTC
GCTCAGAGAAGAAGGAAGAGAGGAGGAAGTGGGTTGCGTGACAAATGATT
ATTGATTGTCGAATGGTTTACACTGTGTTGTGCGTAGCAGTTTTCCTCAT
TGCTCTCTCAGACGAGGAGGGAGAGAGGAGAGTAGGTTACGTTAAACGCG
GTTGGCTGGCGCATACAGCGGTACGAACAGCTTTTGGTCGCTCTTTTTCA
GTGCTGCGGTTTCGTTTTTCAGTTTTTTCCATTCCAAGTCATTTTACTGC
TGCGGTTGGTTTTGGTGGCTGTTGTTTATCTCCCTGACGTATTTGTATTT
TGATTCTCTTGTATGCTCGTTGTTCTGTCTGTTTTGCGTTGTGAGCTGTA
CAACAGGTGGTTTATTTAGACTTCGGCCCAGAATAGGTTGGATGACAACA
CACACACACACACACACATAAGAACGCACGCCGCTGCCTGCGCACACACA
GAGTATCAGGGTACATTTTCGTTATTTTCGAATTATTTCATCCGGCAGTG
CAAGATTATAGCACAGGAATGACAGAAAAGGGTTCTATCGTGCATTATAT
GTACCAGGTGCTGCTCCTGTCAGAAGTATTATTTCATTTTTCCTTGTTTT
GGATTTTCGTGCGGCTTGGCCTTGTTTTTCGTTTTTTTTCATCCAGCTCA
ACCTTGCCTGTTGATCTTAGTATTGAGCTGCGCCATTTGTTTTCTTCTTT
ATGTGGGTGTCTCCTGCTTCACCTACTTTATGTAATTCTGTCTGTCTCTC
TGTCTCTCCGTCTCTCTCTCTATCTCTCTCTGTCTGTCTGTCTTGTCTGT
CCGTCTCGCTGCCGGTCGCGGTGTTTTGCCGTCTTTTCTTTTCCTCTCCG
TGTGCCTTGTCTATCCGTTCTGTCCGTCTGTCCGTCTGCTGTTGCGTGCT
CTGGTGTGTCGGGCCCGAGGACTTTCATACATTGACATGAGTAGTCGCTC
CTCACGGACGAGAACCTGCAAACAGTCCCGTTCCTGGTGCTGGGAAACAA
GATCGACATGCCGGCGGCTGTCAGCGAAGACGAGTTGCGGTGAGATGAGA
TGGGATGGGATCGGATCGGATGGGTGGGATAGGATGAGATGAGAAGCGAG
AATATGACATGATACGATATGGGATGGGATGGGACGGGATGAGATAGGAT
TTTATGGGGTGAGATGAGATGAGACTAAATGAGATGAGGAATGCCGACAG
GTAAGCAGACAGGCAGGCAGACAGGCAGACAGGCAGGCAGACATATGATG
AGCCTTCTGTGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTTGTCATCCCTTAATTGGACGCCACTCTGCACCTTTCGGG
TAGGTCGACGCTCCAACTGGGGTCACACAGGGGGAAGTCAACACAGAATT
TTTTGTTTTTGGTCGAGATTAAAATGTTGCTCTCAAGCAAGCAGTATTTC
CAATCGCATGCATCAACGGAAAGGACGAAATCACTTTTTTTTCTTTTTTA
AGCTCTGCGTTTTCTCCTCGATAGAAGCGTAATACATATGATGCACGAGT
GATATGTTACTCTTTTAGATTAGAAAGAGAGACTTCGACATTACTCGTGT
ATGTTCACAAATCTAAAATTTTGCTGCGTTTTCTCCGGCGGATGCTTGTT
CCTGTCTCATTTTTTTTGGCATTTGGGGCGGGGGTTGCGGGATTTTGGCA
ACACAGGTATGCGATGGGGCTGTACGACACGTTCGGAAAGGCAACCAAGC
CGGACTCGAACCCGGGCGTGCGGCCAATCGAGCTGTACATGTGCTCCGTG
GTCAAGCGGATGGGGTACGCGGATGGTGAGCAGCACAGCAGCACAGTTAG
CAGTGCAGTACACCGCCGCTATTGTCGTGTCCACCTGCTCCTGCTTGTGC
TGTCCAGCCGTTGTTGTTGTACCCGCCTGCTCCTGCTTTTGCTGCCCAGC
CGGTGTGTGTACTGCTGTATGTAAATGTGTAAAAAACAAACAGGTTGCTC
TGGCGGTGCCGTGAAAAGGCGTTTTCGGTATGTTTTTCTGTTGGTTTGTT
TTTCTCACCTGCGACCGCGGTATCGAGTGTTGAAAACTTGTGAGTGCTTT
TTTTTTTTCGGCTCTTGTACACGTACATGTACTGGAATGTTACAATAGAT
TTGTCATTTGCTGGGAGACGGGGGGCCAAAAGAACAACAAAAACTGGAGC
GGAATACATTTCTTTCGTGACGACAGAAAACTGCTGTGTACACGAGCGAA
ACTTGAGAGAACAAACGATCACAATGTGTCGCTGTGTTACGAGAGACTCT
TAATGTTTATCACAGCCCCTCCCTCCCTTCCCTCTCTTCTCCGCCCTCGT
TTTACACCGGCGCGTCGAACAGGCTTCAAGTGGCTTTCGCAATTCATCTA
GACAGACAACAAAATAATCGGATTGCGCTGATGTGCTTTTGGCGAGAAAG
TTGGCGACGGGGGGGGTGGGGGAGGGAGAGGAGCGTTTGCGGCATTGAGC
GCTGCTCTTACAATGGGGGTTGTGGGGAGTACAGCGCAGGCCACACCTTT
GCGTCAAGCGGGGGACGGGGATTGGGGCGGCGGGTGTGTGCGCCTGCGTG
CGTGCGGATGTGTAACCTCGCCTGGCCGACTGTTTCTACGATACTCTTTC
AGGGGAGGGAGTGCTTCGAATATCTCTGTGCGCGCGTGGGAGGGGGGTGT
ATTTCTCGCCAAAGATTCCCTGGTTCCCTAGTTTCTGATGTAGGAGGGGA
TTGGCGAACTCTCCGTGAGGAAAATTACCCCCCCTCCCCCCCATCTCGGC
GTCGTTCTACGTGGGGGCTCAGCGATAGGAGTCCAGTTTTCTGGTGTCAG
CGGCGTTATTTGGGGATGAAAAGGGTCTTCCCTCCTGCGATGCCTCAAAA
TATATTTGGGGGGGGACGGGGGGGGGTTAACGTACAGGTTCATTCGTCAG
GCGTTCACAAGAAGTCCTCCCAGGTGCTGCGGGAAAAGGACGTGGCTGCT
GCTACTTTGTAGTCTTGGCTGGGGCAGAGGTGCATCATCGATTGTTTGTG
GGGATGGTGTACAGTATTTCTACTCGTAGAAGCAGCAGTATCAAAGGTGA
GTCGTTACATGAGGTCGGCGATTCTGATCGGTGCGTCGGCACACACGCGG
CCAGGGCTGTATTTTTGCTGTTTGGTCAAATCTGTTTGGTCAACCGCGCC
GGTCCTAAAATTTTTTTTGAAGGCCTTAGCGGTGGAATAAATAGTGTGGT
GTTCGGGTTATTTTTGGTGCTGTTGTGCGTGCTGCTGCGCGATCATGTTA
AAGCGGAGGTGGCTGCCGAACTGTAAAAGGCACTCCTCGTCGTGTATCAA
GCAAGTCGTGTTTGTCCGCCTGCCTGCTTGTCTGTGGTCGTGCAAATGTG
TGTGTGAAGTGCGTCTACCACCGCCGCCGCCGCCGCCGCTGCTGCTGCTG
CTGTTGTTGCCTTTGAATCCTTCGGGATGGTTTCGAAGGATTCGAGTGCG
AAATTTCGGAATTTCGAAATAAAGCGAATCATAGGCCCCATTTCGAATTT
TCGAAATTAAGCGCTCTGATTATAACAGAACACCCCTGACTGCACCTTTC
AATGCAAAGTAACTGCAGTATTCAAAACAAGGTAGCCGTAGAAAAGATGT
TCGTATGAAAAGAAAAAAAATACAGCAGCAGTGCAAACAAGACAAGAAAA
ATGCCCTTACAAAGAGAGGGTGACCGTCGTATTAAGTACCAGAAAAAGTA
CTCCGAAGTATACAGATATATATGGATTCATGTACACGAGGAAACGGCAC
AAGGGAGGGTAAAAGGTACTGGAGATGTTAATTAGAGCCTAAGATCGAGT
ATCGTACAAGCTGCAGACTTCAGAAAAAAAACTCCCCGGTGCTCTATGTA
TGATATCAATAATCATAGAGGGAGACCGCGTAGCACCACATGCTATACGC
TGTTTGCACGAAGATAGCAGAGAGGATACGTCGCAAGGTCTACAGGCTGA
GTCACCCATGGAGTAGGAACTTCGCTTTAACTGGAAGAGGTTCAGGGTTC
AATTTCCTTCAAATACGGAAAGTACGACACACCCTGTTCTTCAAACCGAC
AAACCGACTGACGTCGGTATGCTAGCTACGCCACAAACCAGCATGACGAC
ACCCCAAGTGGGGCGCAAAAAACCAAGGCTTTTTTATTTAAGGTCTTGCA
GCATGTGCCTGTAGAGCTGCCACCCC
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig114:413892..424967-

>mRNA_P-littoralis_Contig114.65.2 ID=mRNA_P-littoralis_Contig114.65.2|Name=mRNA_P-littoralis_Contig114.65.2|organism=Pylaiella littoralis U1_48|type=CDS|length=576bp|location=Sequence derived from alignment at P-littoralis_Contig114:413892..424967- (Pylaiella littoralis U1_48)
ATGTTTCTCGTTGACTGGTTCTATGGAATCCTTGCCTCGCTAGGGTTCTA
CCACAAGAGCGCCAAGATCCTCTTCCTGGGCCTCGACAACGCGGGAAAGA
CGACGCTCCTCCACATGCTCAAGGAGAACAGGGTGCAGGTGCACCAGCCG
ACGCTGCACCCCAACCAGGACGAGTTGATCGTGGGAAAGGTCCGCTTCAA
GACGTTCGACCTCGGCGGGCACGAGACGGCTCGCAAGCTGTGGAAGGACT
ATTTCACCACCGTGGACGGCGTGGTGTTCCTGGTGGATGCGCTGGACCGG
CAGCGTTTCCCGGAGGCGAAGAAGGAGCTTGACTCGCTCCTCACGGACGA
GAACCTGCAAACAGTCCCGTTCCTGGTGCTGGGAAACAAGATCGACATGC
CGGCGGCTGTCAGCGAAGACGAGTTGCGGTATGCGATGGGGCTGTACGAC
ACGTTCGGAAAGGCAACCAAGCCGGACTCGAACCCGGGCGTGCGGCCAAT
CGAGCTGTACATGTGCTCCGTGGTCAAGCGGATGGGGTACGCGGATGGCT
TCAAGTGGCTTTCGCAATTCATCTAG
back to top