mRNA_P-littoralis_Contig124.15.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig124.15.3
Unique NamemRNA_P-littoralis_Contig124.15.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: D7G4U7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4U7_ECTSI)

HSP 1 Score: 382 bits (981), Expect = 2.020e-119
Identity = 175/222 (78.83%), Postives = 201/222 (90.54%), Query Frame = 3 
Query:  861 PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHAR 1526
            PLSP++I  FEE+GFV L+RAFDP VAAACRESLWKRL+G+G+R ++P+TWV KI + EIYG+ SSPK+RRG+PW   LS P+LK+A+NQLAG D+WEEFGCGWWMVTFPGF+QPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDV   GGGTAVLRGSHKK+A+ILW+RAGTTGLTGP +SSAAREALLPAA +DV+ET G AGDVLLTHPLLLH+R
Sbjct:   35 PLSPEDIRSFEENGFVMLKRAFDPDVAAACRESLWKRLKGDGIRREEPATWVRKIGIPEIYGISSSPKKRRGHPWKGALS-PKLKSAVNQLAGVDSWEEFGCGWWMVTFPGFAQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVRKHGGGTAVLRGSHKKVAKILWDRAGTTGLTGPELSSAAREALLPAADDDVVETNGDAGDVLLTHPLLLHSR 255
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A662YJD1_9STRA (Uncharacterized protein n=1 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662YJD1_9STRA)

HSP 1 Score: 250 bits (638), Expect = 7.410e-71
Identity = 128/271 (47.23%), Postives = 171/271 (63.10%), Query Frame = 3 
Query:  840 LPDPELPPLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            LP P  PPL  + I+ F+ DGFV L RAF  + A  CR  +W+RL  +G+   DPSTWV +  + EIY    +P       WD VL+ PRLK A++QL G D WE+FGCGWWM+TFP  ++PPW A GKWH+DGA ++H+  S+E G+L +FLFSD+ P  GGTA+  GSHK IA +L  +    G+ G AVS  AR+       E V+E  G AGDV+L HP LLHARS NL       VR+MC+P V L + ++L+ P   +S +E+ +
Sbjct:   42 LPLPLPPPLDANAIASFQRDGFVLLSRAFPESTAQQCRALIWERLVQDGIEKSDPSTWVERHGIPEIYTAEDAPV------WDGVLT-PRLKQAMDQLCGRDRWEDFGCGWWMITFPDQAEPPWEAAGKWHVDGAAYQHHLDSKESGLLAVFLFSDIAPGEGGTALSVGSHKWIARLL-EKNEPRGMKGGAVSFQARKFR----REQVVEVNGKAGDVMLVHPFLLHARSKNLGQKGADSVRMMCNPNVRLHQKMNLNRPDGAYSPVEQAI 300
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A835YWK8_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YWK8_9STRA)

HSP 1 Score: 244 bits (622), Expect = 1.410e-68
Identity = 131/266 (49.25%), Postives = 163/266 (61.28%), Query Frame = 3 
Query:  879 ISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLP---AASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLH-APPDTFSVLERVMWRAR 1664
            I +   DGFV L  AF    AAACR ++  RLR +G+  DDPSTWV + S+ E+YG    P      PW  V + PRL AA++QL GA AW +FG GWW  TFPG S PPWGA G WH+DGAH    P S E  ++ I + SDV  +GGGTA+  GSH+K A +LW   G  GL GP +S  A   L+    A    V+ET G AGDV+L HPLLLHARS NLAP     VR+MC+PAV L+  + L    P   S +ERV+W+A+
Sbjct:    4 IMREHTDGFVLLRGAFPRDAAAACRAAISDRLRQDGIAFDDPSTWVERHSIPELYGRELGP------PWSLVYT-PRLAAALDQLLGAGAWRDFGLGWWFFTFPGVSAPPWGAAGHWHVDGAHLNRTPASPEGALILIVMLSDVAERGGGTALAVGSHRKAARLLWAHGGEGGLRGPRLSRLALAELMDEEGALRCPVVETRGKAGDVMLLHPLLLHARSKNLAP----SVRVMCNPAVSLRAPMALRPGSPHAMSPVERVIWQAQ 258
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: K3W8D1_GLOUD (Uncharacterized protein n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3W8D1_GLOUD)

HSP 1 Score: 237 bits (605), Expect = 1.350e-66
Identity = 126/267 (47.19%), Postives = 164/267 (61.42%), Query Frame = 3 
Query:  861 PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVMWRA 1661
            PL+  EI  F  DGFV L+ AF  A AA CRE +W+RL  +G+R  D STWV +  + EIY     P       W+ VL+ PRL  A++QL G  +WEEFGCGWWM+TFP  + PPW A GKWH+DGA ++H+  S+E G+L IF FSDV P  GGTA+  GSH  IA++L  +    GL G AVS  AR+   P     V+E  G AGDV+L HP LLHARS NL       VR+MC+P + L + ++L    D ++ +ER +  A
Sbjct:   43 PLAAREIDAFVRDGFVLLKDAFSEATAAKCRELVWRRLEKDGIRKSDSSTWVERHGIPEIYNGDDDPL------WNDVLT-PRLHRAVDQLCGQGSWEEFGCGWWMITFPNQADPPWEAAGKWHVDGASYQHHLDSKESGLLAIFCFSDVGPTEGGTALSVGSHVPIAQLL-EKNQPRGLKGGAVSYNARK--FP--RRRVVEVNGKAGDVMLVHPFLLHARSKNLGTRGVDSVRIMCNPNIRLHKKMNLDRADDAYTPVERAIVNA 297
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: H3H2A3_PHYRM (Uncharacterized protein n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3H2A3_PHYRM)

HSP 1 Score: 233 bits (595), Expect = 2.470e-65
Identity = 129/285 (45.26%), Postives = 176/285 (61.75%), Query Frame = 3 
Query:  798 APGSAPSSEEVRVLLPDPELPPLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            AP S PS ++ RV +  P  PPL  + I+ F  DGFV L  AF  + AA CRE +W+RL  +G+  D P+TWV +  + E+Y     P       W  V++ PRLK A++Q+ G + +E+FG GWWM+TFP  ++PPWGA GKWH+DGA ++H+  S E G+L IFLFSD+ P  GGTAV  GSHK IA +L  R    G+ G AVS  AR+     A  +V+E  G AGDV+L HP LLHARS NL       VR+MC+P V L+  ++L+     +S +E+ +
Sbjct:   19 APTSEPSDKKQRVSIDAP--PPLGQEAIASFVRDGFVLLPNAFASSTAAKCRELIWQRLALDGITKD-PTTWVERHGIPELYTAEDDPV------WGQVVT-PRLKRAMDQICGKNRYEDFGLGWWMITFPDQAEPPWGAAGKWHVDGASYQHHVDSEESGLLLIFLFSDIGPGEGGTAVSVGSHKWIARLL-ERNEPRGMKGGAVSYQARQF----ARREVVEVNGKAGDVMLVHPFLLHARSKNLGLKGVESVRVMCNPNVRLRCKMNLNRADGDYSPVEQAV 288
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A0P1B5H3_PLAHL (Phytanoyl-CoA dioxygenase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1B5H3_PLAHL)

HSP 1 Score: 232 bits (592), Expect = 3.790e-65
Identity = 119/264 (45.08%), Postives = 166/264 (62.88%), Query Frame = 3 
Query:  861 PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            PL  +EI  F  DGFV L +AF P  A  CRE +W+RL  +G+  D PSTWV +  + E+Y + ++P       WD VL+  RLK+AI+Q+ G   WE+FG GWWM+TFP  S+PPW A GKWH+DGA ++H+  S+E G++ IFLF+D+ P  GGTA+  GSHK +A +L       G+ G AVS  AR+       ++V+E  G AGDV+L HP LLHARS NL       VR+MC+P V L   ++L+   + +S +E+ +
Sbjct:   22 PLDQEEIKSFIHDGFVLLRKAFTPVTARKCRELIWERLAQDGIGKD-PSTWVERHGIPELYTVENNPV------WDDVLTR-RLKSAIDQICGQGRWEDFGLGWWMITFPEQSKPPWDAAGKWHVDGASYQHHIDSKESGLVAIFLFTDINPGEGGTALSVGSHKNVARLLAVNE-PRGMKGGAVSHEARKF----EHQNVVEVNGKAGDVMLVHPFLLHARSKNLGQKGVDSVRIMCNPNVKLHHRMNLNRVDENYSPVEKAI 272
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A6A3TT35_9STRA (Uncharacterized protein n=2 Tax=Phytophthora TaxID=4783 RepID=A0A6A3TT35_9STRA)

HSP 1 Score: 230 bits (587), Expect = 3.430e-64
Identity = 127/286 (44.41%), Postives = 172/286 (60.14%), Query Frame = 3 
Query:  801 PGSAPSSEEVRVLLPDPELP--PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            P   P +++ RV   DPELP  PL  + I+ F  +GFV L RAF  + A  CR+ +W RL  +G+ PD P+TWV +  + E+Y       +     W  V++ PRLK A++QL G   WE+FG GWWMVTFPG ++PPWGA GKWH+DGA ++H+  S E G+L IFLFSD+ P  GGTA+  GSHK +A +L  +    G+ G AVS  AR+        +V+E  G AGDV+L HP LLHARS NL       VR+MC+P V L   + L      +S +E+ +
Sbjct:   16 PAGEPGTKKQRVST-DPELPSPPLDQESINSFVRNGFVLLPRAFPQSTADKCRQLIWSRLGQDGITPD-PTTWVERHGIPELY------TKEDDSTWGQVVT-PRLKQAMDQLCGDGRWEDFGLGWWMVTFPGQTEPPWGAAGKWHVDGASYQHHVDSLESGLLLIFLFSDIGPGEGGTALSVGSHKWVARLL-EKNEPRGMKGGAVSYQARQFR----RREVVEVNGKAGDVVLVHPFLLHARSKNLGQKGVESVRIMCNPNVRLHHKMRLDRADGAYSPVEQAI 287
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: F0XZZ7_AURAN (Uncharacterized protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0XZZ7_AURAN)

HSP 1 Score: 250 bits (638), Expect = 6.370e-64
Identity = 136/289 (47.06%), Postives = 179/289 (61.94%), Query Frame = 3 
Query:  861 PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWV----AKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAW---EEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREAL--LPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVMWRARPTNRRASDGGEA 1700
            PLS D++++F  DG+  L  AF   VA  CR++LW+R+   G+  DDP+TW      ++ L +++      +   G PW A   S RL+AA++QL GA  W   +  GCGWW+VTFPG +  PWGAEG WH+DG  + H   SREIG+LPIFLFSDV  +GGGTA+  GSH+ +AE+LW RAG  G+ GP +S+ AREAL     A + V+ET G AGDV+LTHP LLHARS NL  V+ + VR MCHPAV L   + +       S +E  +  AR     A  GG A
Sbjct:  564 PLSADDLAQFVRDGYCLLPGAFPRDVAFDCRDALWRRVGDLGIAADDPATWSLAPKGRLGLQDVFR-----ESDLGAPW-AECWSDRLRAALDQLCGAGRWVDDDALGCGWWVVTFPGVANAPWGAEGSWHVDGHGYAHRVDSREIGVLPIFLFSDVAARGGGTALAPGSHRAVAELLW-RAGAEGVPGPRLSALAREALGAEALAGDAVVETRGRAGDVMLTHPFLLHARSKNLRDVDAAAVRFMCHPAVRLAAPMRVADDGGAPSPVEAPVRAARRALEAAEPGGVA 845
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A329S5P2_9STRA (Uncharacterized protein n=2 Tax=Phytophthora TaxID=4783 RepID=A0A329S5P2_9STRA)

HSP 1 Score: 229 bits (583), Expect = 8.410e-64
Identity = 123/283 (43.46%), Postives = 170/283 (60.07%), Query Frame = 3 
Query:  804 GSAPSSEEVRVLLPDPELPPLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            G+ P  ++ RV     + PPL    I  F  DGFV L  AF  + A  CR+ +W RL  +G+  D  STWV +  + E+Y +   P       W  V++ PRLK A++Q+ G D WE+FG GWWM+TFP  ++PPWGA GKWH+DGA ++H+  S+E G+L IFLFSD+ P  GGTA+  GSHK IA +L  +    G+ G AVS  AR+        +V E  G AGDV+L HP LLHARS NL       VR+MC+P V L++ ++L+   D +S +E+ +
Sbjct:    8 GAEPIDKKQRVSN---DAPPLDKQAIDSFIHDGFVLLRGAFSSSTAQKCRDLIWTRLAQDGITKDS-STWVERHGIPELYTVEDDPV------WGDVVT-PRLKRAMDQICGKDRWEDFGLGWWMITFPDQAEPPWGAAGKWHVDGASYQHHVDSKESGLLVIFLFSDIGPGEGGTALSVGSHKWIAGLL-EKNEPRGMKGGAVSYQARQFQ----RREVAEVNGKAGDVMLVHPFLLHARSKNLGQKGAESVRIMCNPNVRLRQKMNLNLADDAYSPVEQAI 274
[Close]
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Match: A0A5D6Y7J4_9STRA (Uncharacterized protein n=1 Tax=Pythium brassicum TaxID=1485010 RepID=A0A5D6Y7J4_9STRA)

HSP 1 Score: 229 bits (583), Expect = 1.930e-63
Identity = 121/264 (45.83%), Postives = 160/264 (60.61%), Query Frame = 3 
Query:  861 PLSPDEISKFEEDGFVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMPSSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQPPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSHKKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLTHPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM 1652
            PL+P EI +F  DGFV+L  AF    A ACR  +W+RL  +G+   D  TWV +  + EIY     P       W  VL+  RL+ AI+QL GA AWE+FGCGWWM+TFPG ++PPW A GKWH+DGA ++H+  SRE G+L I  FSD+ P  GGTA+  GSH  IA +L       GL G AVS  AR+   P   + V E T  AGDV+L HP +LHARS NL     + VR+MC+P + L   ++LH     ++ +E+ +
Sbjct:   46 PLTPSEIQQFIRDGFVRLRGAFSRETATACRALIWQRLAADGISEHDAHTWVERHGIPEIYTREHDPI------WGDVLTE-RLERAIDQLCGAGAWEQFGCGWWMITFPGLAEPPWDAAGKWHVDGAAYQHHLDSRESGLLAIMCFSDIAPTEGGTALAVGSHAPIARLLAAHE-PRGLKGGAVSFHARQ--FP--RKRVEEVTCDAGDVVLVHPFVLHARSKNLGQRGVASVRVMCNPNIRLHAKMNLHRADGAYTPVEQAI 297
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig124.15.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G4U7_ECTSI2.020e-11978.83Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A662YJD1_9STRA7.410e-7147.23Uncharacterized protein n=1 Tax=Nothophytophthora ... [more]
A0A835YWK8_9STRA1.410e-6849.25Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
K3W8D1_GLOUD1.350e-6647.19Uncharacterized protein n=1 Tax=Globisporangium ul... [more]
H3H2A3_PHYRM2.470e-6545.26Uncharacterized protein n=1 Tax=Phytophthora ramor... [more]
A0A0P1B5H3_PLAHL3.790e-6545.08Phytanoyl-CoA dioxygenase n=1 Tax=Plasmopara halst... [more]
A0A6A3TT35_9STRA3.430e-6444.41Uncharacterized protein n=2 Tax=Phytophthora TaxID... [more]
F0XZZ7_AURAN6.370e-6447.06Uncharacterized protein n=1 Tax=Aureococcus anopha... [more]
A0A329S5P2_9STRA8.410e-6443.46Uncharacterized protein n=2 Tax=Phytophthora TaxID... [more]
A0A5D6Y7J4_9STRA1.930e-6345.83Uncharacterized protein n=1 Tax=Pythium brassicum ... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig124contigP-littoralis_Contig124:116930..136035 -
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.D7G4U7
PFAMsPhyH
Model size4059
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorychloroplast
Exons8
Evalue1.72e-125
EggNOG OGs2CV03@1|root,2RQ0Y@2759|Eukaryota
Cds size2265
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig124.15.3prot_P-littoralis_Contig124.15.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig124 118722..136033 -


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

Feature NameUnique NameSpeciesTypePosition
1680789540.8570082-UTR-P-littoralis_Contig124:116929..1187211680789540.8570082-UTR-P-littoralis_Contig124:116929..118721Pylaiella littoralis U1_48UTRP-littoralis_Contig124 116930..118721 -
1680789540.9556782-UTR-P-littoralis_Contig124:136033..1360351680789540.9556782-UTR-P-littoralis_Contig124:136033..136035Pylaiella littoralis U1_48UTRP-littoralis_Contig124 136034..136035 -


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

Feature NameUnique NameSpeciesTypePosition
1680789540.866918-CDS-P-littoralis_Contig124:118721..1193751680789540.866918-CDS-P-littoralis_Contig124:118721..119375Pylaiella littoralis U1_48CDSP-littoralis_Contig124 118722..119375 -
1680789540.8780718-CDS-P-littoralis_Contig124:119909..1199971680789540.8780718-CDS-P-littoralis_Contig124:119909..119997Pylaiella littoralis U1_48CDSP-littoralis_Contig124 119910..119997 -
1680789540.8914778-CDS-P-littoralis_Contig124:121330..1214511680789540.8914778-CDS-P-littoralis_Contig124:121330..121451Pylaiella littoralis U1_48CDSP-littoralis_Contig124 121331..121451 -
1680789540.9016235-CDS-P-littoralis_Contig124:122958..1230951680789540.9016235-CDS-P-littoralis_Contig124:122958..123095Pylaiella littoralis U1_48CDSP-littoralis_Contig124 122959..123095 -
1680789540.9123983-CDS-P-littoralis_Contig124:126016..1262291680789540.9123983-CDS-P-littoralis_Contig124:126016..126229Pylaiella littoralis U1_48CDSP-littoralis_Contig124 126017..126229 -
1680789540.9238977-CDS-P-littoralis_Contig124:128631..1287331680789540.9238977-CDS-P-littoralis_Contig124:128631..128733Pylaiella littoralis U1_48CDSP-littoralis_Contig124 128632..128733 -
1680789540.932595-CDS-P-littoralis_Contig124:131063..1317491680789540.932595-CDS-P-littoralis_Contig124:131063..131749Pylaiella littoralis U1_48CDSP-littoralis_Contig124 131064..131749 -
1680789540.9405189-CDS-P-littoralis_Contig124:135769..1360331680789540.9405189-CDS-P-littoralis_Contig124:135769..136033Pylaiella littoralis U1_48CDSP-littoralis_Contig124 135770..136033 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig124.15.3

>prot_P-littoralis_Contig124.15.3 ID=prot_P-littoralis_Contig124.15.3|Name=mRNA_P-littoralis_Contig124.15.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=755bp
MPYERRLLFWLLFLLSPAASAVPPSLLSSTSLLSSSILVSSSILRRLFWI
RLKACVVSSTTSVRRSLSRVVFASFTREVSEAILAFCLHSLLGLVHFIRQ
QERGSSAEGNPASPSEQIGQEAAEEEEEEGLGDTAAAAAEAWAGNPPTES
SGSRDNLNEGESAASAGTPVESPQPGERPQGLQAAPTPPAATQLPESAAS
VRIPLESPQPGELPPASVPAPPAITHLPKSAASVGIILESPQPGELPPAS
ASTPPATTQLPPQPPAPGSAPSSEEVRVLLPDPELPPLSPDEISKFEEDG
FVKLERAFDPAVAAACRESLWKRLRGEGVRPDDPSTWVAKISLAEIYGMP
SSPKERRGYPWDAVLSSPRLKAAINQLAGADAWEEFGCGWWMVTFPGFSQ
PPWGAEGKWHIDGAHFRHYPHSREIGILPIFLFSDVLPQGGGTAVLRGSH
KKIAEILWNRAGTTGLTGPAVSSAAREALLPAASEDVIETTGSAGDVLLT
HPLLLHARSTNLAPVEESGVRLMCHPAVPLKRHLDLHAPPDTFSVLERVM
WRARPTNRRASDGGEAGWEGGCPVISKPEQCDHSPVQLPPMSKRKRRCYQ
EAAGGKKLRRKKGQGRGSGTGSEVFQEQKKLEDRHPHHQQQQPQQQPDAV
RHWSAGEVTDYPTGGDQPDAEAERLDARGDQLDPRSKTDGKAHRADTTAT
GSPCREGGCSEMPDSSDGAAASGHGDAGVAKDAGEEIDAAIMAAMGFSEF
GRSR*
back to top

mRNA from alignment at P-littoralis_Contig124:116930..136035-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig124.15.3 ID=mRNA_P-littoralis_Contig124.15.3|Name=mRNA_P-littoralis_Contig124.15.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=19106bp|location=Sequence derived from alignment at P-littoralis_Contig124:116930..136035- (Pylaiella littoralis U1_48)
CCATGCCATACGAGCGCCGCTTACTTTTCTGGCTGTTGTTCTTGCTTTCA
CCAGCAGCATCAGCGGTGCCTCCCTCTTTGCTCTCCTCCACTTCCTTACT
CTCCTCCTCGATCTTGGTCTCCTCCTCAATCTTGCGAAGATTGTTCTGGA
TCAGGTTGAAAGCATGCGTCGTATCGTCCACCACATCAGTGCGCCGTTCT
CTCTCAAGGGTAGTGTTCGCTTCCTTCACACGAGAGGTAAGCGAGGCGAT
ACTTGCTTTCTGCCTGGCGCCCTGTGCCGCGACCACACCCGACAACACAA
CAAGAACAGGTAACAGAGTAACAGCAGAGGGTGAAAAAGCGACGGCAAGA
AACATCTTCGTTGAGGAAAAAAACCCTCAGACTACTTATTATAGCTGCAA
AAACCCTCCTTAGAAAAGCCGTTTTTTTATCTTGGGCGGTTTGACAACTT
GTTAAAGATGGAAAAACCCCCTTTTTTGATCTCAACTTTTCTAATAACTT
TTTCAGATCGACCCAATCGCTCAGAAAAACATTTTCTAAGCGATTCGATC
GATCAGAAAACGCTTATTGGAAAAGTTTGGGCCCTCCCTCACACAACCTC
TAACGATGGGTCGGGTGACTTTGAACAACTACAGCGGTATTATTATTGCA
AGCCTATCGATACCTCGCGGCCCCAGATGACCTACGGAGGAGAGGGACCA
GACACACAGCTCAAGGGCGATTGCTTTGTTGTTGCCGTGGGTTCAATCGT
TCGAGAGCAATGGACGGAACTCAAAAGTAGTGTGGGGTGAGGGAGGAGAG
CGGGCAGGAGGAGGGAGCCGCAGCAAGCAGCAGCAGCAGGTATTTGTATT
TTGGGCCGCTACATGAGTTTGGTTTTTCATCCATCACTCTCGAACCAATT
GAGCCACAGCAATGCCAAAGCCATCGCCCGTGAGCTGTGCCTCTGGTCCT
TGTCCTCCGGTTGTCATCTAAGGCCGCAAGGCATCAACTGGCTAGCAATA
GAAGCGTTGCAGAAACCGATGAGTTATGAAAAAATTGAGAAGAAAGAAAG
GCCGTTGAGAGTCCAGCAAATACATACTGCTGTACTTCGAAGTATATATA
CTCCTGTACAGCAGTACATACAGACAGACGGCGGAGATTTCTTCTCTTTA
TTCACGAGTGATCGGTTTCTGCAAGAGCTAGATTGTCAGCCTATTGATGC
CTTGCGGCCCAAGATTACCAACGGAGGAGGGGGACAAGACACACAGCTCA
CGGTCGATGGCTTCGGTATTGCTGTGGCTTAATTGGTTCGATAGTTATGG
AGGAGAAACCAAACTGGTGTACCTGCGCAAAATACCCAGCCTTGCTGCTT
CCTGCTGCTGCTGCTGCGGACTTCCTTCTCTTTTCCTATTTTTTTTCATA
CGTCATCGACGCCTGCACTCTTTTTTGTGAGTCTGTTGATGCCTCGCGGC
CTCAAACGACAATCGGAGGAGCACGACCATACACACAGTTTACGGGGCAT
GGCTTTGATATTGCTGTGGCTTCATTCATTCGAAAGTGATCAACAAATAC
GTTACAGCAGCAGCAGTAGCAGCCTGTTGAAACGATGTCAACACCGTCTG
TCAAAAAAAAAAGGAGTCACCCATGGAAAAATAAAACCAATTACGGTTAT
AAGAAGCGGTGCTTTTCGAAGATCCTGTTGGAATTCTTCTTATTGAAAAA
GGCGGATTCTACAAGTAAGGAGTTTTTTTTCAGCTATAATACGTAGTCTC
AGGACAAGATGACCGTTCGCAGCAGAGACGAAAAAAAAAACCAGTATGAA
GTGGGGAGAGCCAGTTGCTCGCCTGAATCGAGTATTACTCGATGCCGTTT
TGTGTACAACGCAGTGCTTGTTGAAGTCAAACCGATTTTTGGCGTCGTCA
GCCGGACCGGCGGAGGAACATTATGTCGTGGTCACTAGCCAAAAAAACGA
ATCGTCATGCCATATTTTACGTGTCGTTTGGGGGGTCAGGCGCAGCCCTA
CCTGTTATCTCCGGGATCTCCGGGGGTACCGTAGGTTCATGATGGGTACT
ATGGTCTCGACTGGGCCCCAGCAACATGCAAGCTGGGCTCACTTGCTCTG
TTTCATGAATCAACGAGTCAATCGTCTTTACATGCAAGGACGCTGCAGTC
AAGAGAGCTAGCGTGTTAACTGGTCACGCACCAACACAGAAACACGATAT
CGATTTGGCTCGCGAGCCGTTGGAACAGCTAAAGGTGCTGCAGGTCAGGA
AAGCCGCGGTGGCGAGTTTTCAGGCCATCGGGCGTATACTCGTACGTGTT
TACGTGTTTTTGTGGGCCCTCAGTAATTCCCTCGCTGTTGTGGTTACCAC
CTGTGGAGACTGATACGGCGGTGTTTCAAGGCCGGTGGTTACGTGTGAGT
GCATTTCGAGGAAAGAGTGGAGTATAGGTAAGAGCTGCTGCGGCAAGAAC
CTGCCGGCGAGCTTTTGTAAGGAGAGGACGGAGAGAGAGAGAGAGCGGAG
AAAGACATTTTTATTTTATTTTCGCGGTGTGTGGCTAACCCGCCCACATG
TGCGACGCGGTGCAACCCCGCATATGGTGTGGAGCATTGAAGTATTCGAG
AGGTACCTGGGAGGAAGCGATGACAGCAGTGAGGAGGAGGAGGAGGAAAG
CAGCCGTGGGTGTACGCGAGTTATTTCGATCCTCAGCAGCACTATGTATT
GTGGAACCGTGTCGATAAGGGACACCCCTGAGATGTTGTTACAAGCACGA
CACTGGACTATACATTGTGGGACCGCATCGGCAAGGAACATCCTCAAGAT
GTTGTTACAGGCACGACACTGGGCTATATATTGTGGGGCCGCAGCGGCAA
CAAACACCCGTAAAATGTTCTTACAAGCATGTCACTGGACTACAAGTATA
TACTTGGGTATTCCCTTGTAGTTTCGTTCTGTTTTTTGGATCTTCCTATG
GCTCAGCACTTTTAGTGACCACGGTCTAGATTTTGGCGATGAGCTAATGT
GAGAATCAACAACAAACAATATTATGGGACCGCATCGGCAAGGAACACCC
TAAATATGTTGTTGCAGGCACGACACTGGACTTTATATTGATTGTGGGAC
CGCATCGATGAGGAACACCCTTTAAACGGTGCTACAAGCGAGAGATCAAG
AGTGTGCCGCTGTGCTTTCCGCGAGCAGAGGCACACTTCGGCAGCAGACT
GCGATTGAAACATCCCCACTTGCGGTAGGTAAGCATCCCCGCTAAGGTGT
TTAATGTCAGATCTCTCTTGACATAAAGACAATCGTAGTTTCCTCTCAGG
AAATAGAGAACGGTTTCTACTGTGTGTGACATATTCACAACAGAGCGATT
TCGTAGTGCATACATACTGGGTACAGCAGAACTTACTCACAGGAGTGCTG
ACCACAGTATATACACGTTGTAAGACAATGGACCAGTCTCCGTAAGTAGC
ATCTTCAGTAGATGGCCAGTGTCAGCGTAGTTCTACGTAGTTACTCACAT
GGATCCAGAGAAGGGTTCCCAGGAACCTGAAACGGTCCATAAGAAGATCC
AGAACCATATAGAACGATCTTCATGGTTCTAGATCTGGTTCAGTAGGTTC
TAGAGAATATAGAGCCAGCACAGTCCAGAGGTAATCACAGTAGCAGTACA
GAAGGAGCGCCCTTACCGGTCTCACTCCCAGCCACCATCTGTCTCAAGCA
GACAGCAAGATAAATCATACCAATAAACATCAAGGACGCCTACTCTCTTA
CGGACTGCTTTATCATCCATATAAAGCACGTTTAACAACCGAGTGATTTT
CACAGTTCACGTGCATATCTCTGCACAGTCACTCCACGTGACACGCGCGA
ACAACTTAGGCTTATTTTCACTGGTGCCAATAACACAAGCGTGCTCGCTA
CCGTTAACTCACCACGCGTACTTTCTAGACCATCAGAAGTTTGACTCAAC
GTCAAAGTCTAGACTTGCTTATATGTCAATATAAACAATTTGATCAGTTG
CTTCTACTGAAATCTCGCAACGAGCAAGTCCTCGCAGCAGGAACACCGCA
CAAGCCAACAACACCACCGACATCCACACAATCGGTAAAACCACAACCCA
ACATAAGGGGTAGGTAAACATCCCCACTCGCGGTAGGTAGTAGCGCCGAA
GTTGTCGGCCGTGCATCAGTAGACGCTGTTTTTTTTGCATTGTTTTTTTC
TTCGCCCGCGGTACCACGGCACACCCGCCGAAACCCAGGCTCTGTTATAT
ATGTGTTCCCCGAGCAGTGTACTCCTACGGGTACAGCACTCACTTTTGGG
TTTGGTTCATTTTATTCGCCAGCAGGAGCGCGGCAGTAGCGCGGAAGGTA
ACCCTGCCTCTCCATCCGAGCAAATCGGGCAAGAAGCTGCGGAGGAGGAG
GAGGAGGAGGGCCTCGGGGACACCGCGGCTGCAGCAGCTGAAGCGTGGGC
TGGGAACCCCCCTACGGAGTCTAGCGGGAGCCGGGATAACCTCAATGAAG
GGGAATCGGCGGCCAGTGCCGGAACTCCTGTGGAGTCGCCGCAACCAGGG
GAGCGTCCCCAGGGGTTGCAAGCTGCGCCGACCCCACCCGCCGCCACCCA
GTTGCCCGAATCAGCGGCCAGTGTCAGAATTCCTCTGGAGTCGCCGCAAC
CGGGGGAGCTTCCCCCGGCGTCCGTGCCAGCCCCACCCGCCATCACCCAC
TTGCCCAAATCGGCGGCCAGTGTCGGAATTATTTTAGAGTCACCGCAACC
GGGGGAGCTTCCCCCGGCGTCCGCGTCAACCCCACCCGCCACCACCCAGT
TGCCGCCCCAGCCACCGGCCCCCGGATCAGCTCCGTCATCCGAGGAGGTA
CGCGTGCTCCTACCGGACCCCGAGCTGCCACCCCTGTCGCCGGACGAGAT
ATCCAAGTTCGAAGAGGACGGCTTCGTGAAGCTCGAACGAGCCTTCGATC
CCGCGGTGGCAGCGGCGTGTAGGTGAGAGAGGCGAAATGCACGAAAATGT
CGGGGTCCGATTTGTTTTTGGAACAGCAGCATCAGAGTCGGGTGCGTCTG
CTGCGGGGGGGGGTGGGGTTATTTGTGCAGCTGAGAGGTATCGATCGAGC
CTTTGTATCTAGGTTGCGTGGTGTGCTTCGTAGGTTTGAAGTGCAGTTCC
GCTCCAGTTTGTTACTCCCATCACCGTCATTACATTGGCTCAGGGGGTCG
CCACAATGCGGCATTTGGGCAGGCCTCATGGCAACTGGGCAGGCCTCACG
GCAAAACAGGGCACGGAACGTAAGTGTTGGTCGAAAACCGACCGCGCTGC
AGCAAGCAGACGAAATAAAATATGTTCTCCGCGCGGATGCAGTGGGGCCC
TACAAAAACCAACAGCGTTCCATTCTGCAGCGGCGATCTTGGGAGCCACC
GCGCGGGGCAAAGAAAACCAACCAACCACGATGAAGGTGGTCCTGTCTTT
GTCTATGACGCCCAACACACCCACCCCACCCCCGTGCGCGATATACATAT
ACATGTACTTCGTATGTTATTTATATATTAATTCATGTATACATATTTAC
ATATATATCATGTGCAAGTACATCAGTAAAGTATTATTTGACCCGTATAT
ATTTACAAGATCCTCCTCCGACGTGGGTAAATGCGTGAACTTGGCCAGAG
GGAGCGGAGTGATTCAAGACGAATGAGTATTATATGATACGGCACTGATA
TAATATATTGGCAACATCTGATACAGCAGTACTAACACACGAAACAACGT
GAAACAGCGGGCGTCCCCAGCATTTATTTGTATTGTAGAGAAGGTTTAAT
ACGAAGTACTTTGAGTATATAATTTTGGCTGGTGCAAAGAAACAGGCTGC
AAGAAGACAGAATAGCTGATATACTTCGTACATATCGTACAGCGTAGTAG
TAGGAGGTATGCTGTTGAGCGTGAAACGGAGTATCGGATAAGTTGGGAGG
AGGAAAACAAAAAGATCTCGAGAGAGAGGTCTTTCGGCGAAAACTAGTCA
CTCAATTGTGATGCACGCTTGTTTGCTGTCCGTCCTTTCAGGAATTAATT
TAATAATCAAGTCGATTTCTGTTCGTTTCCTTGCATTGATATAACGGAGT
ACAATGCGTTCTTGCACTGCTGGTGACAGGGTATGGTATGCCCCCAGCAT
ATGTTCGTTACCTTGCACTGTAATAACGAAGTATAAAACGGTCTCCTACA
TACTTACTGCTGACAGGGTGTGGTTTGCCCCCAGCCGCCAGCATGCGTTC
CATCATATATCTGTTTGCGTTCGTTATAATATTCGATACCCCTGTGATAT
CATACTACGAATAACAGGTTGTGGGATTGTACCGTAGACAGGTTATTGGA
TACCGCCACAGCCACTATCTGTTCTGATCCGTTCTATCTTAGCTTGTCTT
CGTACCGTATATCATACTGAAACACGTGCTACTGCTGATAAAGTGTGGGA
CGCCGCAAGCCTCCGGTCTGCCCCTCCCTGTATCTTGTTGTACGTGCTTC
AACTATTAAAAATTACGAGTATGACAACAACCCCAGCATGTACCAGGTAT
AGTACTTCGTACGTATTTTTTCATGCATACACTATCATACTACAGCAGCA
CTGTATGTGTGCCCTGTCTGTGGTACAGCAGTACCGTGCACCATTCGCCT
GTTTCAGCGTGTTACTCTCTGTGGTACAGCACAGTTAGTACACACAGGAT
GCTTACCTCCAGCAGCAAACTCATAGCTGCACTTTGTGTTACACCTGTGT
GCGGTTATACCCCAGTCAGTGTCTGCTTCTTATATCATACGCCCACACTG
CTCCTGTTGTTATGCGGACCAACAGTGAACAGCAGCAGTAGTGAACAGCA
GTGTCTCCTGTCGTAAAAAAAGAAGAAAAAAAAAGCCGTCATGTTTTCAG
GATGATGGAACGGCCTGTCTACTGTCGCAGCTGCTATGAGCCGTAGTCAT
AGATACCCTATTAAATAAAATAAACTAAAAGGCTTGACGTTTTCCGAATG
GTGAACAGCCTGTCTGCTGTCGGTCAGATGTCTCAACAGGTGACTTTCAC
AGCGACCGGCCTGAACAGATGACGACCTGAAAAAGTGAAATTTTCAATAG
TCATACTTTCAGAATGGTGAACAGCCTGTCTGCTGTCGAACGGGCCTGTC
TGCTGTCGAACAGATCTTTCAACAGGTGACTTTCACAGCGACCGGCCTGA
ACAGTGAACGACCTGAAAAAGCGAATTTTTTATAAAGTCATGAAAGTAAA
TTTGTACACATGTGCAATTCTGCTGCTGCGGCGGCGGCGTTTTTTTGCGC
AGGGAGTCCTTGTGGAAGCGCCTGCGAGGGGAAGGGGTCCGTCCGGATGA
CCCCTCGACGTGGGTCGCGAAGATAAGCCTCGCGGAGATATACGGCATGC
CGAGGTGGAGTGCGCGTCGTGTTGGCGTTTCGGTTGCTATGAATAGTTCC
GGCTGTTGTAGTGGATGGATGGACTCTCCGCACTGCTTGCTGCTCTGTAG
GCGCTTGCCCGCGGACCTGCGATGCCTTGTCCCCACACGCGAGAAGGTTT
GCGATGCTCAGCCGCGGATCGTGTTGATGTTGTCGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGCGGGCGAGTTGTTATTCCTCGCACCCCTGGGT
TTAGCCAAATGTCGCCATTTTGGGTCGCCATTTCATTTTCAGTCACGTGG
AAAAAATACTACGTGACTCTCAATAGCTAAACTTTTACCTCGCTAGCCGC
TCAAGAGTAGCTACACTTTACCTCGCTAACCGCTCGAATAATAGCCGCAC
TTTTACCTCGCTAACCGCTCAAATAAAAGGTACCTGGTACACTTTTACCT
CGCCAACCGCTAAAACAATAGCTACACTTTAACCTCGCTAACGGCTCAAA
TAATCGCTAAACTTTTACCTCGCTAACCGGTCAAATAGTAGCTACACTTT
TACCTCGCTAACCGCTAAAATAATAGTTTTAACCTCGCCAACTGCTCAAA
TAACAGCTACACTTTTACCTCGCTAACCGCTCAAACAATTGCTACACTTT
AACCTCGCTAACCGCTCAAGTAATAGCTAAATGTTTACCTCGCTAACCGC
TCAAATATTAGCTACACTTTTACCTCGCTATGGTATCGTCCCATCTCAAA
CCATGCGTCGACGAAAGCTACACAACAGAAAAATGTGGTCGAAATAATGG
AACATCGAAGCGGGGTAAAAATGGTTGGGGTGTACTCCATATGTGCTGCT
GGCTTGAGAGAAAGCTCCCTTTGAGTCCCGGGAGCATCTTTGGCAAGGGC
GGCAGACTCATGCGCGGGTCGATTGCGATGGTTGGTTCGCTGGTTGATCG
GTTAGTTGGTTGGTTGATGGGTTCGTCCCTCGGTAGGCTGCAGAAGTGGC
CGCCGTTTGATGACGTTCAAGTTTCAGAGAGAAGCAGGCAAGGGGCTTGG
TGAGTTGGACTCGTATACTGCGAGTCTATTCGAATTTATTTACTGGTTCG
GCTGCCGTCAGCTGTTCGCAAGAGTATTGGTCCGTGTAGGATTCAAAATG
TACAAAATTGAGCGTTCAAAGGAATGTTGGTTGGTGGGTACGGAGCGGCT
ACCGTAGGTGGCATAAGATTACAAACCCCCTGGACCGATTTTTAAAACTC
GCTTTCTCCACACCGGCGAGGGTGCCACCATCAAACGGTACGTTTTTGGA
AAGCTCTCGACGAGATGGTTCCAACGCCGCCCTTTCCGGCACCCGCACTC
TTTCCGCTGTAGAGTAATTGTGCTTTGAAAATCGGTCCAGGGAGTGTGGT
ATCTTATGCGACCTACGGTAGACGAACGCCCATCCCTTCGTCATGTTCTG
GTTGATTGATACCTTCGGTACGTATGATGCACGTGTGCGAACGATTCCTG
CTCTTCATGGGACCCACCTCTTTTCAGGGCGTTACGTGGTGCCTTCGGCA
TCACGTGGGATGGTTTACCATCAAAAAGCCCGCCGCTGGCGGAATTTGTT
TTGGGCTTACTACCACGTGTGATGGGATGGTATTCACATCGCATGTTGAT
GGTATTGAGATGGGATGGGATGGCCGAGTAAATCTGTTCCTGGGATGGCA
TAGTTATGAGTGTTGGGCGTTGATGGGATGGGATGGTTACGGGTGTCGAG
TGATGATGGGATGGGATGGTTACGGATGTGCGAACGAGTCTTGCCCTTCT
CGGAACACGCAATTTTTTTCTTCCAGCGATGAGGGGCCTTTCGCCAGTAT
CATACCCGACCCCCAAAACCGTTACAACAGCAGCGACACGTCCCGCGGCG
GCATACGTAGTGTTCGGTACACCCGTACAGTAACCCGAACCAATTCCTAT
TATTCTTCGTGTGCCACGCGTGTGATGTGGTGTGATGTGATATGATGTGA
TGTGATGTGATATGATGTGATGTGATGTTCTGTTCAGCTCTCAGAAGAAG
CGTCGTGGCACCTGTACAGTATCCCTGACCACTTCCCGATATTCTTCGTG
TGCCACGCGTGTGATGTGCCATGTGATGTGATTTAACGTGATGTGATGTG
GTATGATGTTCTATTCAGCTCTCCGAAGAAGAGTCGCGGCACCCGTACAA
GTATCCCTGACCAATTCCCATTATTCTTCGTGTGTCACGCGTGTAATGTG
TGATGTGATGTGATGCAATGTGATGTGATGTGGTGTGATGTTCAATTCAG
CTCTCGGAAGAAGCGTCGCGGCACCCGTACATCCCTGACCAATGCCCATT
TTTCTTCGTATGCCACGCGTGTGATGTGATGTGATGTGATGTGATGTTCC
ACTCAGCTCGCCGAAGGAGCGTCGCGGCTACCCCTGGGACGCCGTCTTGT
CGTCGCCGAGGTTGAAGGCCGCGATCAATCAGCTGGCTGGGGCCGACGCC
TGGGAAGAATTCGGGTGCGGGTGGTGGATGGTCACGTTTCCCGGCTTCTC
CCAGCCCCCGTGGGGGGCGGAGGGGAAGTGGCACATCGATGGGGCGCACT
TCAGGCACTACCCGCACAGGTATACCGCGCTCGCCAACACGCTTGAAACC
CTGTATACCAAACCTCTCCAGTCGAGGCGTCGATGTTTCACTTACTTTTA
TCGTTGAGCCTTCTTTTGAGATGTCGTTAAAAAAAAACAAATATGCTCAC
CTCAAGTTACCGGTATGGAGGACGCGTGTTTGCGTTTTTTTTCTTTCTTT
TGTGATGGCAGTTTGAGGGCTTTTGCGAGCACCCACGAAAACGTCACGGA
CGGGTGAAATAATCCAAGGGTGTGTTCTGTAGGGTAACGGTATGTTCTGT
CGGGTATTTGAATTGTTACAGAAGTCACAGATATTCTCTGTATGGTATTG
AGGTGTCCACAGAACTCATAGAGATTCTCTGTAGGGTATTGGGGTGTCCA
CAGAACCTTCTGTAGGGTATTCAAAGTGCACAGAGCTACAGAAGTTCTCT
GTAGGGTATCGAGGTGTCCGCAGAACTCACAGAGATTCTCTGTAGGGTAT
TGGGGTGTCCACAGAACCTTCTGTAGGGCATTCAAACCGCACAGAGCTAC
AGAAGTTCTCTGTAGGGTATTGAGGCGTCCACAGAACTCACAGAGATTCT
CTGTGGGGTATTCATGTGTCACAGATGGTAATGACCCCCGGTACTCCCCT
TTATCTACCTGCATGACTACATATCGCACTGACGGTGCCCCCTTTAGCGC
TGTGCTCGACACAGCACAACAGCACACATCATCAGCAGCAGCCGCACCAC
CAGGGCATCACACATCACACACAGAACCAGCAACACAGCACCAGAGCAGC
AAGCACTGCGCCGGCAGAGTATCACAAGCAACCAGCAACATGGCCGAGAC
TGGTCCTGCTGGGAGCCCAAGCAGCACATACGGAGATTTAGATCTACGCT
TCTCCTTTGTAGCTTTCGCACAGAAGCACAGGGCCCGTCGTGAACAGATG
TGGGGTTTACGGCTGGGGCGACCGTCTTTACAATCCTACAGCAGTACCTT
CACCTTCCAAGTACCTTCAAACCACTTTGTAGTTTCGTTCGTGGGCCTTA
CTAGATGCAGAGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCCTTTGC
TACTTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGA
CGAGGGTAGGGACCGCGGATCCCTGCTCGCGAGAAAAAATCTCACGCATG
TACCGCAGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCCT
GTGTGACCCCGTCGATGAGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAG
ACTAGTGTGCCAGAGAATATGGGATGACAACACACGTCAGTCACAACCTG
GTGGGGTATTCCACAGATGTTTACCCGTACCTCGGGTATTGTTCCAGAGC
GCATACATGTCTGTAGAGTATTGAAATTGTTGCAGAACTCACAGAAGTTC
TCTGTAGGGTATGGACGTGTCACAGAACTCACAGAGATTCTCTGTAGGGT
ATTGAGGTGTCCACAGAAGTCACAGAGATTCTCTATAGGGTATTGAGGTG
TCCACAGACCTCACAGAAAGTTCGAGGGTATTGTGCTGACCTGTCACAGA
AGTTTTCTGTAGTGTATTTGGAAAGTTACAGATCTTACAGAGATTCTCTG
TAGGGTATTGAGGTGTCCACAGAACTCACATAGATTCTCTGTAGGGTATT
GAGGTGTCCACAGAAGTCACAGAAGTTCTCTGTAGGGTATTGAGGTGTCC
ACAGAAGTCACAGAGATTCTCTGTAGGGTATTGAGGTGTCCACAGAACTC
ACAGAGATCCTCTGTAGGGTATCGAGGTGTCCACAGAACCCACAGAGATT
CTCTGTACGGTACTCACAGAGGGAAACTACCACCGGTACGTCTCTGTGGG
TACCCTACAAACACACCCTTTTGAAATAATCTAATGGCAGGGAAGATTTT
TGTTCTGAACTCAAATATTTAAAAATTCCACCACAATGTCCGTCTCAACG
CATCACAGCAGAATACATCCCTGATTTCGCAGGAAAATCCCCCCCCCATC
TATTCTGAGGAAAAACAATTATTTCCGGGAGAAACAGAATAATTGACCGC
GACGACCTTTCCGTTCTGAGCTCACTCCCCTTTGTAGCCAGCATAACCGA
AAAAAACGAAATGTAGGAGGAAAAGCGAGAAATTTGGCGTTCCCCACAAT
AAAAAAGCAGCAATTTGCTTGGGAAGGAAGCATTGGTCGCGCTCTACTTT
AGACTCGTCCGCTGATTATCGAAAACATCCTACAAACGAAGAAGAAACGA
ACAAAATGCATCTTCCAGATCCCATTTTCCTCAAACAATTTGTCAATTTT
TTTATTTGTCAGGAATTAAGAAGAAAGTATGCATCTCGGGTCAATATCGA
GAGCTGTGTCAATCCGGTGCCGTTTTTTCTCACGAGAAGTACACGGCCCA
GCCAAAAAACGAACAAGACTTTTCAGTGTTTTTGGCATCAAGAGGCGAGA
AACCCCACCAAAAAAATAAAGTCACCCGATCTCTTCACCGGGAATCAGGG
CTTTCATCGATGTGTTCCATGAAGAAGCTGAACAACCATTCACAAACCCC
AAGAACAGCAGTAAACCTGTCTGTGGTTCGTATTGTATCGATAAAAAAAA
CTGTCCACACGGACCACACTGCTGCTGTACTCCTTTGCACACGACCTTTC
AAAAACCCCGAGAACAGCACAAGACATATACTTCGTATATGGTTTGCGAT
GAAATGGACAAAAACAAAAAAGGCCCACACGGACCACACTGCTGTACTTC
TTCGCGCACCCGCTGTCATATGATATAATCTTGAACGCATTTTTTTTTTT
GCGGTGTTTTCTTCTCTTCTCGGACTTTTTTGCTTTTTTTTGCTTTTTTT
TGCTTTTTTTTGCTGTCGTTCCTTTTTTGACGGCCAGCAGCCGCGAGATT
GGAATTCTCCCGATTTTCCTCTTCTCAGACGTGCTACCGCAAGGGGGCGG
CACCGCTGTACTCCGAGGGTCCCACAAGAAGATCGCGGAGATACTTTGGA
ACCGCGCCGGGACAACAGGGTTGACGGGTGCGTATCATATGGACGGCGCG
ACGTCGGCAACTTGGGCTTCGATGCCGTTGCGGCCCGGCGCGGCTGACGG
TTCGTCGGTTTTTGTCGACTGAGAACATTTTAAGAACATCCTACAGCAGT
AGGTGATCAAGGTGCATGCCGTTCGCGGGGCTGCTGTACAAGTTTAGCGG
CGTAGCTGTTGATGATAGCTCTCTGGATGTGATGAGGGCTTTCTCTCCAC
AGCCGCTTGAGGAGAATACAGCTTTCATTTACACAATATTTTGCCGGACT
GAAAATATTCATATTCTGCCTTTTCATAGTAGTGTAAGTCGAGGGCGGCT
AAATTTCATATGCGTACAGTAGTTCTTTATGATGTCACGACTAAAGAATG
TGGTATGATACAGAGCTCTCTCTCGACAGCCGCTCGAGAAGAATACCGCT
TGACACATAATTTGCCGGACTGAAAATATGAACATTCTCTTTCAAAATGG
TGCAGTTCGAGGGCTACTGAATTTCATAAGCGTCGTTCTTTATGATGCCA
CGGCTAACGACTATGGTATAATACAGAGCTCTCTCTCGACAGCCGCTTGA
GAAGAACGCTCGTCATGTTAAGCTTGATCCCTCTGCAGACGAACCTCTGC
AGACGAACCGCGGCGGGCTTGCCACCACCCGGCACTCTCTGGACAGTCCA
TGTCCCGCTTGGCAAGGCCATAATCGCCCGATCTCTGGTACGGGTGGGAT
GTCGACTCTTCCGGGATATGATGAGAATGGTCTCATCCCACGGCAACATG
CCCAAACCTTCTCCCTAGAGGTCGATGATACTCGCAAACAAACAGCAGAC
ACATCCTTGACCCCGTCGACATGGCGCTCTCCCTCTGCTCCTCGCGCACA
TCGAAACCGCGTCTTCCTCGCTGGATTCCTGAAAAATTTGGATGCGGTCG
GTCGACGAGCAGGCAGAGTCGCCTGCACCCATGTCATCGCCTGGAAACTT
GCTATGATATCATACATACGCGGTGTTCGGCATGTATTCTGTAATAAATG
TTTATTTCGTCTTATTTTCCCACGCCAGCAGGGGGCACCAGGCGCGCGGA
CTTTCTTCACTCGATCTAGGGCTCTTCACCATGTTGGCACCTCTAACATG
CCAGATAAAGACCAACATATACTTCGAAGTACTTCGTATTAGGAATTTAT
ATGGATTTTTACACTGTTGGTGTAAGTGTATTTTATGGAAAAAGTAGGAA
GGGCGTCGACCCAACCCGCTCTGACCCTAACCCTAACCCTAACCCTGACC
CAAACCTTAACGCCGGATGACGCCCAGCGCGACTTCGCCGCGCGCTGAGG
ACGAGGTGTAGAAACAAAAAGGGCAGCAAAATTGAAAAAATGCTAAATAA
TCCCGGTCTTTTCACCTGGTATGTCAAGAGGGCCACGCGCGCGGACTTTC
TCCACTCGATTGTGAATTGCAACTGATGTAACCTCTCTGCTTGGCGTTTT
TCTCCGCTTTGATGATTTACGGTGCCGCATCTAGGACCGGCGGTGTCGAG
TGCTGCTCGTGAGGCACTCCTCCCTGCCGCCAGTGAGGACGTGATAGAGA
CGACCGGCTCCGCTGGCGACGTCCTGCTGACGCACCCTCTGCTTCTGCAC
GCGCGGTAGGCTTTGAGTGGCTGTTTTCCGGCATTTTTACTTCTATGATT
TCGTATTCCTGACCAGAGGGGGGGGATTGGTCGCCGTTCTTTTGTTTTGC
TGTTTTTTTCGTTTTTCTGACCGGACAGCAGTACAGTGCAGAAGGTGGGT
GGGTGGAGAAAAAAGAAAAAAACACTCCTTCGTGACCTTCCTTCTTTGTG
ACCCCGGCTGGTGCACCCACTTCACACCGTCACACGGAAAGGTGTAGACT
GATGCCCAGAATAAATAGGACGAAAACACATACACACACACACACACAAC
ACACACACACGCTACTTCTGCACGCGGGGTAGGTCTCGAGGGCTGGTTTT
CGTCAGAGCTTTCACTTTTATTTTTATTCTGTATTCCTAACTCCTAACCA
GGTGGGAGTGTGGTGGTGGCGGTTTTCGTTTCCTTTTTTGGTGATCGTAG
ACTATGTCGCGAGTAAACAAACACATATTCGACTTAACAGTTGAGGCGGG
TAACGGACAGGGTCGCACCTTTCTCGCGAAAAAAAACTGAAAGGCTAACA
AAAAACATACTGTAGTAGAAGGTGGGTAGAGGAAAGAAAGAAAAAACATA
TCCTGTGTGACCTTCCTTCTGTTTGAGCAACCCCGGCTGGCTGGTGCACC
CACTTCATACTGAAAGGTGAACACTTATGCCCAGAATAAATGGGACGAAA
ACACACACACACACTGTTAAGATGTACGAATATCCACTGCTGTACCACTA
GTCAGCGCCGACTAGTGGTACAGCAGTGGATATGTGTACATCTTGACGCA
AACCAGGTACACACAGTGTGTCGGGCGTCGTAGCTCGGGCGGCCGTGTTT
AGTGTACGCGGGTCTCGATACGGATCCATGTGGTCTCTGGGGCTACATGT
ATTGTATGCGGTGGATAATGTGTGGTGTTTGGTATCGAGTGATGATGTGA
CGGGGCCCCTATGTGCGTTGGCCATGTCTGTCTCTCTCACTCTCTGGATA
ATCAAGTCGTTGGGTCAACCTTTTCCCGGCGCTTCTGACTAGGAGCTGTC
TTCATCATGCGAACAGAACGGTCGACCGTGAAGTGGATGGTCCATCGTCC
GCATTGCTGGGGTGCAGCTTGTGGCGGAGGTCGGTTGCGCTTTGAAAGAA
CACAGCGAAAGCGCAACGATATCATATGAAGTTTAGTAGATTAGATTGAT
CACGAATACGTCGTTTTACGATGCGGGTTTGAAGTCAAAAGTTGTAAGGA
AGGCCAGAGACACCCCACTCACTTGTGAGCATGCACCCCGCCCGTCCTCT
TTTCCCTGGATTTGTTTTTTTCTGTTTGACATGTCCAGTTCCACAAACCT
TGCACCTGTCGAGGAATCCGGGGTGAGGCTCATGTGCCACCCTGCGGTGC
CGCTCAAGCGCCACCTCGATCTGCACGTGAGACGCAGCGGAAAGAGTGAA
GTCCGCCGAAGCTGCTCCGACTTCTGTCAGGCATAGCTCGTACGCCGCTG
GATTGGAGCGTTTCGGGTGGTAGTCATTCTATCCACGCATCCATGACGCT
GTCGTATGCCCTCCCTCTCAGGCTGCCGTTCTGAGTCATTTATAACGTTA
GACGAAGACAAAAAAAAAGCAGCTGAGAGCCGTCGTTTTGCCTCTTCTTT
TTTTTGTTTGGCCACAGGGTGCAAGCGACGGAGAAGAGCAACCTCCGCCG
CCATGGGGATGCCATTGCCATTGCCACGCTTTCTTAGTTTCCACTGACTG
GAACTTCGTTTCGCCCGTCGTATATACGGTGCTGCCCATCCTCCCTTTTC
ATTTCCCACCTTCTTCTCATCTTGGCATATCCCTCGCCCCACCCCGCCTT
GCCTTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCCCTCCG
CTGGCGCTGGCCTTTCGGCCCTCTTCACCGCCTGGTTTGGTCCGATGGAC
CAAATAAAAGGCTCCGCCGGATACATTTTCCGTCCTTGAGCGTGTCATGT
GGCGCGCGCGTCCTACCAACCGTCGGGCCTCTGATGGCGGTGAAGCCGGA
TGGGAAGGAGGGTGCCCCGTGATTTCGAAGCCGGAGCAGTGTGATCACTC
CCCGGTGCAGCTCCCACCCATGTCTAAACGCAAACGACGTTGTTACCAGG
AGGCCGCCGGTGGCAAGAAATTGCGACGGAAGAAAGGGCAGGGGCGGGGT
AGTGGGACGGGATCTGAGGTGTTTCAGGAACAGAAAAAGCTGGAAGATCG
TCATCCTCATCACCAGCAGCAGCAGCCGCAGCAGCAACCAGACGCGGTCC
GCCACTGGTCCGCCGGTGAAGTTACCGATTACCCAACGGGAGGCGACCAG
CCCGACGCAGAGGCCGAGCGGCTCGACGCGCGAGGCGACCAGCTCGATCC
AAGGAGTAAAACGGACGGAAAGGCCCATCGTGCTGACACAACCGCCACGG
GCAGTCCTTGTCGTGAGGGGGGGTGCTCGGAAATGCCGGACTCAAGTGAT
GGTGCGGCTGCAAGCGGTCATGGTGACGCGGGTGTCGCCAAAGATGCAGG
CGAGGAAATTGACGCTGCGATCATGGCGGCGATGGGATTTAGCGAATTTG
GGAGGTCGCGGTAGTCATGGCCGCGGTGGGGTCAAGCGCATTCGAGAGTA
CGCGCGGGTGAAACTAATGGGTCTACCACCGTAGTCAAACAATAGCCAGC
ATCCGGGTGCAATTTCCATGCGCCGAACGTTTCGGCATTAGAGGGGTATT
TATGATACCGGTATCACTGGTATCATATATATGCATGAATAGTTTTTGGT
TTGGTTTTGGGGAGGGCAAATGGTTGCCTGTCCTTGTCCACAGTATGTGT
GAGGATCGAAGCGTTCCCCCCTCTTCCAATCCATCGCATCGCAAGGTCTG
CGGAGAGCCAACGCGGCCGAGAGCAGTGTGCATCTGGCTGGCACAAACTA
AGGCCCGGCGTCAGGAAATACGCGCCGCCATTCTTTCGTTCCTATGTTTC
AGTCTATCTGTCCTAGGACAAAGGTTTTGTTCCAATGGCGTGTGCATGTA
TGTTTTTGTTTTGCGTGAAGAAACACAAGATGAAAAACGAGCGGAACTCA
TGCTATTGAACGGATGAGCTTTCTAGGGCCTTGCTGTGAGTGGGAGGAAT
ATTTTTTCCGAGTCGGCGTCCCTCGATATCAGGGGATCCGGCAAAGCGAC
GGAAACATGTGTTCCATCTCAATGCATTGGTTGAGTGTGTGCTGTTTCGG
GGCAGCGGAACACGCGTGGAAACCCTGCAGTGTTCTCGGACGTTTCCGGT
ACATGTGGGGGTTGCGCATAGCAGGTGCCTACGAACTTTACGTTTGTGGC
AGGTGCAAGGACGCAAGCAACCAAGCTTCTTGTTGTACTAAGTACATTAA
TTCTTGCCGAAGGAACACGGGGTTTCTTATCCGTGAAGTGACAGTTAGTT
TTGCACTTGGATGTGGAAACCCCCCTTTGTGTGGTCACAGGAGGAGTGAA
AATACACGGAAAAAAAATTATGTTTGGTGAGGGAGGACAAAGACTTTCAG
TTTTCTCCTGAGGGTTGTACCTCTGACCGCTCCTCTGACCGCTCAGAGGG
CATCCGGAATATACGAAGTACCCATTTAACACACTCATCTAGAAGAATGG
GAGCATTGAACCTGGGGGGAGTCGGAACACCCACCTTCTGGAGTGACGAA
AGTGGTCTAGTTAGGGGGAATAGGTGGGCAATTGCTGCTTGCTGTGTATG
CTCTAAGGAATCGTGAGACTCCAGCAGCATCAAACCAAAACGACGGTGCC
GGCGGTTTCCTCGAGACGGGGGTTACCAAGCAGCAGTTTGTGTAAAAAAT
AAAAAACGCAACCGTAAAAAATGTATCACATCAAAGTTTGTGTGACAGCG
TCGAAGCTAGGCTTTTCAAACCGTCTCGAGGGTTTCTTTCCATAACGAGC
ACTTTAACGGAAGGGCAGGCAGGAAATTGAACTTAGTAGGCTGTTTGTTT
GGTACGTCTTCTTTTTCGAGAGGGGAATTGTTTTCAGTGTCACCCCTCCC
GCAGAAATCCCGAGAGCCCGCACGGCCGAAAAGACAAGTTTTGATCACAC
AGCAGGAGACAACACCAAGCAGACCTCGCCAATTGGGGCAAAACTCGAGA
CCAAAAACTTTCTATCGTGCGCTCTGGTGATGTGTGAAGTTGGTCGACAT
GAGGTTCGGTGGGTGTAGGCTTTCGTTGTGGCGACGTTTTGGTATAACGG
TGTGCGCTGTGGTGGAAAATCCGGTAGAACCGATTCGAACGGGGCCTTTT
TTCTGCCCCACCGGAATTTTTGGCTCAACACATCAACCGCCACCAAATTA
CCACCATTACAGCCACATCCCACACCCACCACACTTGATTTGGCTAACCT
CAGAAC
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig124:116930..136035-

>mRNA_P-littoralis_Contig124.15.3 ID=mRNA_P-littoralis_Contig124.15.3|Name=mRNA_P-littoralis_Contig124.15.3|organism=Pylaiella littoralis U1_48|type=CDS|length=2265bp|location=Sequence derived from alignment at P-littoralis_Contig124:116930..136035- (Pylaiella littoralis U1_48)
ATGCCATACGAGCGCCGCTTACTTTTCTGGCTGTTGTTCTTGCTTTCACC
AGCAGCATCAGCGGTGCCTCCCTCTTTGCTCTCCTCCACTTCCTTACTCT
CCTCCTCGATCTTGGTCTCCTCCTCAATCTTGCGAAGATTGTTCTGGATC
AGGTTGAAAGCATGCGTCGTATCGTCCACCACATCAGTGCGCCGTTCTCT
CTCAAGGGTAGTGTTCGCTTCCTTCACACGAGAGGTAAGCGAGGCGATAC
TTGCTTTCTGCCTGCACTCACTTTTGGGTTTGGTTCATTTTATTCGCCAG
CAGGAGCGCGGCAGTAGCGCGGAAGGTAACCCTGCCTCTCCATCCGAGCA
AATCGGGCAAGAAGCTGCGGAGGAGGAGGAGGAGGAGGGCCTCGGGGACA
CCGCGGCTGCAGCAGCTGAAGCGTGGGCTGGGAACCCCCCTACGGAGTCT
AGCGGGAGCCGGGATAACCTCAATGAAGGGGAATCGGCGGCCAGTGCCGG
AACTCCTGTGGAGTCGCCGCAACCAGGGGAGCGTCCCCAGGGGTTGCAAG
CTGCGCCGACCCCACCCGCCGCCACCCAGTTGCCCGAATCAGCGGCCAGT
GTCAGAATTCCTCTGGAGTCGCCGCAACCGGGGGAGCTTCCCCCGGCGTC
CGTGCCAGCCCCACCCGCCATCACCCACTTGCCCAAATCGGCGGCCAGTG
TCGGAATTATTTTAGAGTCACCGCAACCGGGGGAGCTTCCCCCGGCGTCC
GCGTCAACCCCACCCGCCACCACCCAGTTGCCGCCCCAGCCACCGGCCCC
CGGATCAGCTCCGTCATCCGAGGAGGTACGCGTGCTCCTACCGGACCCCG
AGCTGCCACCCCTGTCGCCGGACGAGATATCCAAGTTCGAAGAGGACGGC
TTCGTGAAGCTCGAACGAGCCTTCGATCCCGCGGTGGCAGCGGCGTGTAG
GGAGTCCTTGTGGAAGCGCCTGCGAGGGGAAGGGGTCCGTCCGGATGACC
CCTCGACGTGGGTCGCGAAGATAAGCCTCGCGGAGATATACGGCATGCCG
AGCTCGCCGAAGGAGCGTCGCGGCTACCCCTGGGACGCCGTCTTGTCGTC
GCCGAGGTTGAAGGCCGCGATCAATCAGCTGGCTGGGGCCGACGCCTGGG
AAGAATTCGGGTGCGGGTGGTGGATGGTCACGTTTCCCGGCTTCTCCCAG
CCCCCGTGGGGGGCGGAGGGGAAGTGGCACATCGATGGGGCGCACTTCAG
GCACTACCCGCACAGCCGCGAGATTGGAATTCTCCCGATTTTCCTCTTCT
CAGACGTGCTACCGCAAGGGGGCGGCACCGCTGTACTCCGAGGGTCCCAC
AAGAAGATCGCGGAGATACTTTGGAACCGCGCCGGGACAACAGGGTTGAC
GGGACCGGCGGTGTCGAGTGCTGCTCGTGAGGCACTCCTCCCTGCCGCCA
GTGAGGACGTGATAGAGACGACCGGCTCCGCTGGCGACGTCCTGCTGACG
CACCCTCTGCTTCTGCACGCGCGTTCCACAAACCTTGCACCTGTCGAGGA
ATCCGGGGTGAGGCTCATGTGCCACCCTGCGGTGCCGCTCAAGCGCCACC
TCGATCTGCACGCTCCGCCGGATACATTTTCCGTCCTTGAGCGTGTCATG
TGGCGCGCGCGTCCTACCAACCGTCGGGCCTCTGATGGCGGTGAAGCCGG
ATGGGAAGGAGGGTGCCCCGTGATTTCGAAGCCGGAGCAGTGTGATCACT
CCCCGGTGCAGCTCCCACCCATGTCTAAACGCAAACGACGTTGTTACCAG
GAGGCCGCCGGTGGCAAGAAATTGCGACGGAAGAAAGGGCAGGGGCGGGG
TAGTGGGACGGGATCTGAGGTGTTTCAGGAACAGAAAAAGCTGGAAGATC
GTCATCCTCATCACCAGCAGCAGCAGCCGCAGCAGCAACCAGACGCGGTC
CGCCACTGGTCCGCCGGTGAAGTTACCGATTACCCAACGGGAGGCGACCA
GCCCGACGCAGAGGCCGAGCGGCTCGACGCGCGAGGCGACCAGCTCGATC
CAAGGAGTAAAACGGACGGAAAGGCCCATCGTGCTGACACAACCGCCACG
GGCAGTCCTTGTCGTGAGGGGGGGTGCTCGGAAATGCCGGACTCAAGTGA
TGGTGCGGCTGCAAGCGGTCATGGTGACGCGGGTGTCGCCAAAGATGCAG
GCGAGGAAATTGACGCTGCGATCATGGCGGCGATGGGATTTAGCGAATTT
GGGAGGTCGCGGTAG
back to top