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Homology
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A6H5JR37_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JR37_9PHAE) HSP 1 Score: 578 bits (1489), Expect = 1.140e-199 Identity = 285/304 (93.75%), Postives = 296/304 (97.37%), Query Frame = 3
Query: 258 MAAKRPANSMRSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
M AKRP +S+R PT HADGFR+VS AAAVWTD+TKA GF+DITYKVAYEDMTAKIAINRPELHNAFRPITVNEMR+AMDLAQDDSG+GVIILAGEGTLAFCSGGDQRV+GEGGYDDGSEDVPRLRVLDL VQMRRCPKPIIAMVAGYA+GGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGS+HMARIVGQKKAREIWFLCRYYSAKEAL MGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFL+KRKPEFRKLLTSKL
Sbjct: 1 MVAKRPVSSLRPPTQHADGFREVSGAAAVWTDVTKAYGFIDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRKAMDLAQDDSGVGVIILAGEGTLAFCSGGDQRVKGEGGYDDGSEDVPRLRVLDLHVQMRRCPKPIIAMVAGYAVGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSTHMARIVGQKKAREIWFLCRYYSAKEALDMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLEKRKPEFRKLLTSKL 304
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A7S4DGT8_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4DGT8_HETAK) HSP 1 Score: 486 bits (1251), Expect = 9.020e-164 Identity = 237/294 (80.61%), Postives = 263/294 (89.46%), Query Frame = 3
Query: 288 RSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
++PT DGF ++S A A W D+T F DITYKVAYED TA+IAINRP +HNAFRPITVNEMR+A+D+AQDD+ +GVIIL GEG AFCSGGDQ RGEGGYDDGSEDVPRLRVLDL VQMRRCPKPIIA VAGYAMGGGHILHMVAD+TI+ADNAV+GQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYY+A+EAL MGLVNTVVPL ELE E+++WCRRI+QNSPTAI+CLKAALNADEDGQAG MQLAGNATRLFYLSEEGKEG++AF+ KR P FRKL +SKL
Sbjct: 11 KAPTRKVDGFDEISTAPANWLDLTDQYSFQDITYKVAYEDGTARIAINRPWVHNAFRPITVNEMRKALDIAQDDTNVGVIILTGEGDKAFCSGGDQSQRGEGGYDDGSEDVPRLRVLDLHVQMRRCPKPIIAAVAGYAMGGGHILHMVADITISADNAVYGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYTAQEALDMGLVNTVVPLHELEGESLRWCRRIMQNSPTAIACLKAALNADEDGQAGSMQLAGNATRLFYLSEEGKEGRDAFMQKRPPAFRKLPSSKL 304
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A835ZE17_9STRA (Putative naphthoate synthase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZE17_9STRA) HSP 1 Score: 473 bits (1216), Expect = 1.200e-158 Identity = 236/295 (80.00%), Postives = 255/295 (86.44%), Query Frame = 3
Query: 285 MRSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
MR PT +D + +S W D T GF DITYK++ ED TA+IAINRPE+HNAFRPITVNE+R+AMDLAQDD +G IIL GEGT AFCSGGDQ VRGEGGYDDGSE VPRLRVLDL VQMRRCPKPIIA VAGYA+GGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFL R+YSA+EAL MGLVN VVPL +LE ETMKWCRRI++NSPTAISCLKAALNADEDGQAG MQLAGNATRLFYLSEEGKEG++AFL KR FR + TSKL
Sbjct: 1 MRQPTTASDNYHLISDTPGQWVDHTAKYGFQDITYKLSPEDGTARIAINRPEVHNAFRPITVNELRKAMDLAQDDPTVGAIILTGEGTYAFCSGGDQAVRGEGGYDDGSEPVPRLRVLDLHVQMRRCPKPIIAAVAGYAIGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLSRFYSAQEALDMGLVNKVVPLAQLEGETMKWCRRIMENSPTAISCLKAALNADEDGQAGSMQLAGNATRLFYLSEEGKEGRDAFLAKRPARFRAVPTSKL 295
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A7S1UL01_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1UL01_9STRA) HSP 1 Score: 467 bits (1202), Expect = 1.700e-156 Identity = 229/294 (77.89%), Postives = 255/294 (86.73%), Query Frame = 3
Query: 288 RSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
R PT DGF VS A AVW D T GF D+T K+AY D A+IAINRPE+ NAFRPITV E+RRA+D+AQDD+ +GVI+L GEGT AFCSGGDQ +RGEGGYDDGSE+VPRLRVLDLQVQMRRCPKPIIA VAGYA+GGGHILHMV DLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLC +Y A+EAL MGLVNTVVP+D LE T+KW RRI+QNSPTA++CLKAALNADEDG AGVM+LAGNATRL+Y+SEE KEGK AFL K+ P+FRK+ TSKL
Sbjct: 5 RGPTPRRDGFHLVSDAPAVWEDFTAQYGFRDVTLKIAYADGVARIAINRPEVKNAFRPITVAELRRAVDIAQDDTRVGVIVLTGEGTDAFCSGGDQALRGEGGYDDGSEEVPRLRVLDLQVQMRRCPKPIIAAVAGYAVGGGHILHMVCDLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCNFYGAQEALDMGLVNTVVPVDMLERTTLKWARRIMQNSPTALACLKAALNADEDGAAGVMELAGNATRLYYMSEEAKEGKRAFLRKQAPQFRKIPTSKL 298
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: W7TL55_9STRA (Naphthoate synthase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TL55_9STRA) HSP 1 Score: 442 bits (1138), Expect = 1.880e-146 Identity = 217/289 (75.09%), Postives = 240/289 (83.04%), Query Frame = 3
Query: 294 PTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLT 1160
PT D F S A A W D + A G D+ Y+ A E+ AK++INRP L NAFRP T+ E++R + LAQDD IGVIIL GEG AFCSGGDQ VRGEGGYDDGSE+ PRL VLDLQVQMRRCPKPIIAMVAGYA+GGGHILHM+ DLTI A+NAVFGQTGPRVGSFDAGYGSSHMAR+VGQKKAREIWFLCR+YSA EA MGLVNTVVPL LE ET+KWCRRI++NSPTAI+C KAALNADEDG AG+M+LAGNATRLFYLSEEGKEG+NAFL KRKP FR L T
Sbjct: 12 PTPRRDAFHLTSCAPAAWQDQSTALGLTDVIYRTAPEEGIAKLSINRPSLRNAFRPTTIRELKRCLALAQDDLKIGVIILTGEGDEAFCSGGDQSVRGEGGYDDGSEEAPRLTVLDLQVQMRRCPKPIIAMVAGYAIGGGHILHMLCDLTICAENAVFGQTGPRVGSFDAGYGSSHMARLVGQKKAREIWFLCRFYSAHEAQDMGLVNTVVPLASLEGETLKWCRRIMENSPTAIACCKAALNADEDGAAGIMELAGNATRLFYLSEEGKEGRNAFLQKRKPAFRALST 300
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: L1JM70_GUITC (Uncharacterized protein n=2 Tax=Guillardia theta TaxID=55529 RepID=L1JM70_GUITC) HSP 1 Score: 433 bits (1114), Expect = 3.170e-143 Identity = 211/294 (71.77%), Postives = 246/294 (83.67%), Query Frame = 3
Query: 288 RSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
++P DGF VS W D T+AQ F DI Y + E + AKI INRPE+HNAFRP+T+ E+R A LAQDD IGVIIL GEG AFCSGGDQ +RGEGGYDDG+E VPRL VLDLQVQMRRCPKP+IAM+AGYA+GGGHILHMV DL++AADNA+FGQTGP+VGSFDAGYGSSHMARIVGQKKAREIWFLCR Y+AKEAL M LVN+VVPL ELE ET++WCRRI+ SPTA++CLKAA+NADEDGQAG+M+LAG ATRL+YLSEEGKEG+NAF+ +R P FR + +S+L
Sbjct: 10 KAPQQEKDGFHLVSNKDTQWHDRTQAQNFKDIRYHTSDEGI-AKITINRPEVHNAFRPLTIQELRTAFALAQDDVSIGVIILCGEGPNAFCSGGDQTLRGEGGYDDGTEPVPRLSVLDLQVQMRRCPKPVIAMIAGYAVGGGHILHMVCDLSLAADNALFGQTGPKVGSFDAGYGSSHMARIVGQKKAREIWFLCRLYNAKEALEMKLVNSVVPLAELERETLRWCRRILALSPTALACLKAAINADEDGQAGIMELAGQATRLYYLSEEGKEGRNAFVQRRPPAFRSIPSSRL 302
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A7S0YTF3_9CRYP (Hypothetical protein n=1 Tax=Hemiselmis tepida TaxID=464990 RepID=A0A7S0YTF3_9CRYP) HSP 1 Score: 425 bits (1092), Expect = 6.490e-140 Identity = 208/304 (68.42%), Postives = 252/304 (82.89%), Query Frame = 3
Query: 258 MAAKRPANSMRSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
MAA + +SP ADGF VS +W D+T G D+ ++ E AKI INRP++HNAFRP T+ ++R A+ ++QD+ IGVIIL G+G AFCSGGDQ +RGEGGY+DG+++VPRLRVLDLQV+MRRCPKPIIAM+AGYA+GGGHILHMV DL+IAADNA+FGQTGP+VGSFDAGYGS HMARIVGQKKAREIWFLCR Y+AKEAL M LVNTVVPL +LE ET++WCRRI+Q SPTAI+CLKAA+NADEDGQAG+M+LAG ATRLFYLSEEGKEG++A+ KRK +FR +L+S+L
Sbjct: 1 MAALVKSGERKSPKQTADGFHLVSTQPTIWQDVTAKHGLQDVLLHLSGEGF-AKITINRPQVHNAFRPRTIKDLREALRISQDNVAIGVIILCGQGPNAFCSGGDQSLRGEGGYEDGTDEVPRLRVLDLQVEMRRCPKPIIAMIAGYAVGGGHILHMVCDLSIAADNAMFGQTGPKVGSFDAGYGSGHMARIVGQKKAREIWFLCRLYTAKEALDMKLVNTVVPLAQLEGETLRWCRRIMQLSPTAIACLKAAMNADEDGQAGIMELAGLATRLFYLSEEGKEGRDAYNQKRKVDFRSVLSSRL 303
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A7S2PKJ0_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2PKJ0_9STRA) HSP 1 Score: 419 bits (1078), Expect = 1.420e-137 Identity = 202/306 (66.01%), Postives = 248/306 (81.05%), Query Frame = 3
Query: 252 VKMAAKRPANSMRSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
M+A R ++ SPT DG +S + AVW ++T F D+TYKV+ +D A+IA NRPE+ NAFRP T+NE+R+A++LAQDD +GVIIL E +FC+GGDQ VRGEGGYDDG+ED PRLRVLDLQVQMRRCPKPI+A+V GYA+GGGHILHM+ D+T+A+D+AVFGQTGPR+GSFDAGYGS+HMAR+VGQKKARE+WFLC++YSA+EA+ +GLVN V ELE E M+WCRR++ NSPTAI+C KAALNADEDG AGV LAG ATRLFYL+EE KEGK AFL+KR P FR L +S+L
Sbjct: 14 ASMSAARSSDPNASPTHKRDGIHLISTSPAVWENLTGKYQFSDVTYKVSVKDKVARIAFNRPEVLNAFRPRTINEIRKAIELAQDDINVGVIILTSENQGSFCAGGDQNVRGEGGYDDGTEDAPRLRVLDLQVQMRRCPKPIMAVVYGYAIGGGHILHMLCDITLASDDAVFGQTGPRMGSFDAGYGSTHMARLVGQKKAREMWFLCKFYSAEEAVRIGLVNAVYKKAELEGEAMRWCRRMIMNSPTAIACCKAALNADEDGAAGVALLAGQATRLFYLTEESKEGKKAFLEKRAPRFRDLPSSRL 319
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A8J5XD70_DIALT (Uncharacterized protein n=1 Tax=Diacronema lutheri TaxID=2081491 RepID=A0A8J5XD70_DIALT) HSP 1 Score: 384 bits (987), Expect = 3.190e-124 Identity = 193/292 (66.10%), Postives = 232/292 (79.45%), Query Frame = 3
Query: 294 PTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
P +DGF VSRA W D T + ++D T ++ E + AK+ I RPE+ NAFRP TV E+ ++ A++++ +GVIIL G G AFC+GGDQR RG GGY DG+E PRL VLDLQ QMRRCPKPIIAMVAGYA+GGGHILHM+ADLTIAADNAVFGQTGPRVGSFDAGYGSS MAR+VGQKKARE+WFLC + A +AL+MGLVN VVP ELELET++WCRRIVQ+SPTA+ LKAALNADEDG AG+ +L G ATRLFY S+EGKEG AFL KR+P+FR + +++L
Sbjct: 14 PRTSSDGFHLVSRAPTTWVDATPIK-YIDTTLHLSAEGI-AKLTICRPEVLNAFRPQTVLELSESLHSARNNTQVGVIILTGLGDEAFCTGGDQRHRGSGGYADGAEPTPRLHVLDLQTQMRRCPKPIIAMVAGYAIGGGHILHMIADLTIAADNAVFGQTGPRVGSFDAGYGSSRMARLVGQKKARELWFLCNFVPAADALAMGLVNAVVPTAELELETLRWCRRIVQHSPTALQFLKAALNADEDGAAGLQELGGAATRLFYHSDEGKEGAAAFLQKREPQFRAMPSARL 303
BLAST of mRNA_P-littoralis_Contig1067.16.1 vs. uniprot
Match: A0A7S2PM52_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2PM52_9STRA) HSP 1 Score: 377 bits (967), Expect = 4.580e-122 Identity = 179/249 (71.89%), Postives = 214/249 (85.94%), Query Frame = 3
Query: 423 AINRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQRVRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHMVADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRYYSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNADEDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL 1169
A N PE+ NAFRP T+NE+R+A++LAQDD +GVIIL E +FC+GGDQ VRGEGGYDDG+ED PRLRVLDLQVQMRRCPKPI+A+V GYA+GGGHILHM+ D+T+A+D+AVFGQTGPR+GSFDAGYGS+HMAR+VGQKKARE+WFLC++YSA+EA+ +GLVN V ELE E M+WCRR++ NSPTAI+C KAALNADEDG AGV LAG ATRLFYL+EE KEGK AFL+KR P FR L +S+L
Sbjct: 1 AFNLPEVLNAFRPRTINEIRKAIELAQDDINVGVIILTSENQGSFCAGGDQNVRGEGGYDDGTEDAPRLRVLDLQVQMRRCPKPIMAVVYGYAIGGGHILHMLCDITLASDDAVFGQTGPRMGSFDAGYGSTHMARLVGQKKAREMWFLCKFYSAEEAVRIGLVNAVYKKAELEGEAMRWCRRMIMNSPTAIACCKAALNADEDGAAGVALLAGQATRLFYLTEESKEGKKAFLEKRAPRFRDLPSSRL 249
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 55529.EKX49304 |
| PFAMs | ECH_1 |
| Model size | 2485 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC01923 |
| KEGG ko | ko:K01661 |
| KEGG Reaction | R07263 |
| KEGG Pathway | ko00130,ko01100,ko01110,map00130,map01100,map01110 |
| KEGG Module | M00116 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005777,GO:0006732,GO:0006766,GO:0008150,GO:0008152,GO:0008935,GO:0009058,GO:0009108,GO:0009110,GO:0009987,GO:0016829,GO:0016830,GO:0016833,GO:0042180,GO:0042181,GO:0042372,GO:0042374,GO:0042579,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044237,GO:0044249,GO:0044281,GO:0044283,GO:0044424,GO:0044444,GO:0044464,GO:0051186,GO:0051188,GO:0071704,GO:1901576,GO:1901661,GO:1901663 |
| Exons | 7 |
| Evalue | 1.04e-150 |
| EggNOG OGs | COG1024@1|root,KOG1680@2759|Eukaryota |
| Ec32 ortholog description | naphthoate synthase |
| Ec32 ortholog | Ec-24_003920.1 |
| EC | 4.1.3.36 |
| Description | enoyl-CoA hydratase activity |
| Cds size | 1044 |
| COG category | I |
| BRITE | ko00000,ko00001,ko00002,ko01000 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789398.1092873-UTR-P-littoralis_Contig1067:23121..24434 | 1680789398.1092873-UTR-P-littoralis_Contig1067:23121..24434 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig1067 23122..24434 - |
| 1680789398.2011359-UTR-P-littoralis_Contig1067:42562..42690 | 1680789398.2011359-UTR-P-littoralis_Contig1067:42562..42690 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig1067 42563..42690 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789398.121166-CDS-P-littoralis_Contig1067:24434..24659 | 1680789398.121166-CDS-P-littoralis_Contig1067:24434..24659 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 24435..24659 - |
| 1680789398.1313934-CDS-P-littoralis_Contig1067:32727..32881 | 1680789398.1313934-CDS-P-littoralis_Contig1067:32727..32881 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 32728..32881 - |
| 1680789398.1421704-CDS-P-littoralis_Contig1067:34417..34632 | 1680789398.1421704-CDS-P-littoralis_Contig1067:34417..34632 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 34418..34632 - |
| 1680789398.1523263-CDS-P-littoralis_Contig1067:35509..35576 | 1680789398.1523263-CDS-P-littoralis_Contig1067:35509..35576 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 35510..35576 - |
| 1680789398.162524-CDS-P-littoralis_Contig1067:37404..37523 | 1680789398.162524-CDS-P-littoralis_Contig1067:37404..37523 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 37405..37523 - |
| 1680789398.1803312-CDS-P-littoralis_Contig1067:38182..38290 | 1680789398.1803312-CDS-P-littoralis_Contig1067:38182..38290 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 38183..38290 - |
| 1680789398.190067-CDS-P-littoralis_Contig1067:42406..42562 | 1680789398.190067-CDS-P-littoralis_Contig1067:42406..42562 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1067 42407..42562 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig1067.16.1 >prot_P-littoralis_Contig1067.16.1 ID=prot_P-littoralis_Contig1067.16.1|Name=mRNA_P-littoralis_Contig1067.16.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=348bp
MCLGDWSQYLNCTAVLAEEHWHWYTHRQRPGCLPTLRTGAAVKMAAKRPA
NSMRSPTVHADGFRDVSRAAAVWTDMTKAQGFVDITYKVAYEDMTAKIAI
NRPELHNAFRPITVNEMRRAMDLAQDDSGIGVIILAGEGTLAFCSGGDQR
VRGEGGYDDGSEDVPRLRVLDLQVQMRRCPKPIIAMVAGYAMGGGHILHM
VADLTIAADNAVFGQTGPRVGSFDAGYGSSHMARIVGQKKAREIWFLCRY
YSAKEALSMGLVNTVVPLDELELETMKWCRRIVQNSPTAISCLKAALNAD
EDGQAGVMQLAGNATRLFYLSEEGKEGKNAFLDKRKPEFRKLLTSKL* back to topmRNA from alignment at P-littoralis_Contig1067:23122..42690- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig1067.16.1 ID=mRNA_P-littoralis_Contig1067.16.1|Name=mRNA_P-littoralis_Contig1067.16.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19569bp|location=Sequence derived from alignment at P-littoralis_Contig1067:23122..42690- (Pylaiella littoralis U1_48)
GTCGGCACCGGTCTGCGGTGTTGCGATGTTGCAACGGTGTTGCCCGGCGC
CCGGCGCGCGCGCGCTCGCTGGTGTTCCACGCAAAAGAGGTCGCAGGGGA
CTTGCGTGAAACAAATGGATATACGGAGATGTGCCTTGGAGACTGGAGTC
AATACCTGAACTGTACTGCTGTACTTGCAGAGGAGCACTGGCACTGGTAC
ACACACAGACAACGCCCGGGCTGCCTGCCTACATTGAGGACGGGAGCAGC
TGTAAAGATGGCAGCCAAGCGACCTGCAAACTCTGTAAGTCCTGGCACCC
AAGAGCTGGCTAGTTGGCCGTGATCTGGTGTACCGGCATGCAACATGATT
GTACAGGTTCCTCTGTTATGGTTGGGGTCAATCCTTCACCAATGTCATAC
ATGACACCCTTGTCTTTGGCTACCCTCCATCTCTTCTACCGTGTCCCGGT
GACCATGCACTGCACAAAGCATTATTATGATGTTGCGAATCGGTGTTCTC
ATCCTTGTACCCACTGCGAAATCGGGAGCTGTTGTGCTGGACTCAGATAT
GGTGAACGCGATTGTTTTGGGTTTTGGGTTTGACATGAAATCTGCTCCTG
CTTCCTGTTTTTTTACTATTTATAATATAATACGGTGTTTAACACTCCCC
ACACATGACGGCGAAATCGAGCCGCCTCATGAGAACTCGTGTCTGTCATG
CATCATGTGGATGCCATGACATGATCATACGCCAGTACTGGGCCAGAAGG
GCGGCCGCACGTGGGTGAGGTGTTCATGTATCTGTTCTTCCTACGGCTTA
TGCATACCCTTGCACTTGTTATTTCAATTCTGCTGTATATGAGCTGTGGC
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTGTTTGTGTGTGTGTG
TTTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTCATCCCTTTCAT
TGGACGCCACTCTACACCTTTCGGGTAGGCAAACGCTCCAACCGGGGTCA
CACAGGGGGAAGTCAACACAGGAGTGTTTTTTTTTTTTCTCCACGTCCCT
CTGCGGTGCTTGCCTTTTGGTTGAGCTTTTTATCGCGAGAAAGGGGACAG
CAATCCCTTTCCCTCGTCGATGGTACGATCGAAATTTGTTTACTCACGAA
TTGATTGTGGCTGTTGGATCTAATTTGCCTCTTCCGCAGCTCGTTCTTGC
ACAACGATACAACGATATGATACATACGTATCATACAACGATGTTTTATG
TTTGTCAAAGAGTAATGGCCAAAAACGGATATACCCGGTGGTTTTGTGGC
CATTATCGGGTACCCTTCTTTTCCGCCGATATAAATGGTGTCAGGGAGCA
ATCCCATCGGCCAAACCGCACCGCCACCCGGTCCTGGCCAGATTTCTGCC
AGGTATACCCAGTTTTGGCTACTTTCCTCGCGGGAGCTACCCGATTTTCA
CATACACTACCGAAAGTGGCCCGACACAAACACTTTAACTAAGTTGTTTA
CACGAACTTCGTATCGTACAGCGTATGCGTATGATCATAGACGATGATGC
CAGTGTTGCACGCAATACTCCTACTGTACTACCCCTCGTTAACCGCTAGA
TGCAGAGGAACGGGGGTTCGATTCCCGGTGATTGTGTTCCTTTGCTACTT
TGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTTCGCCGACGAG
GGTAGAGATCGCGGATCCCTGCTCGCGAGAAAAAATCTCACGCATGTACC
GCAGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCCTGTGT
GACCCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTA
GTGTGCCAGAGAATATGGGATGACAACACACTCCTGTATCACCACCACCT
ACTGCTGCCGACTGTCATAAGCGCGTGCGTGTCTGTGTGTGCGTCTGCGT
GCATGGGTGTGTGTGTGGTGTGTGACAGAGAGGAGATATATGACGGGATA
TGGCAGCACGACCAAAGTCTATGATACGAAGTACATTCTGAACTACAGGA
GCAGCATGTAAACAACTTAGTTATAGACTGTGTGCAGGGCCACTTTCGGG
TAGTGTATGTGAAAATCGGGTAGCTCCCGCGGGGAAAGTAGCCAAAACGG
GTAGTGTATGGCAGAAATCTGGTCAAGACCGGGTGGCGGCGCGGTTTGGC
CAATGGGATTGCTCCCTGAGACCATTTCCATCGGCGGAAAAGAAGGGTAC
CCGATAATGGCCACAAAACCACCGGGCATACCCGTTTTTGGCCATTCCTC
TTTATCAAACGTACCGTATGTATGTATTAAGTTCTTCGTCTTGGCATCAT
TCGAGCATACTTCCATCACACAGCAGCGGCACCAACAGCGTGCATCATAG
CCAGCACCATCGGACAGCAGCAGCATCCACCACAACAGCAACACAGCCCC
TGCAGTATTCGTAACCACAACATGCTGTCTGACATGTGTGTACGTAGCAG
CCCAACAGACTTTGTTTGACTTGCGTTCAGCTGTCGACGAGAGAGAGAGA
TTCAAGTTTTTAATTCATGATATCTTGACAAAAACTCTCAATCAGTCACG
ACAGACAGCATTAGACAGTTTCGGATTTTTTTTTGCTAAGGCCTTTATCG
TACCAAGTTTGCATGGTAGCTCAAGCTTTGGCTCAGTCTTTTTTCGAACG
CCCAGGACGATGCTGACAGCACAAATACAGGCTGTAAATACTCACCACAT
GATGAAACGTGTGTCACACAAGACGACCACCAAATTGTCTTGTTGAGCCT
GATAACCCAGGGGAGCTGCAACGGATCACAGGCAGACCTATGTTATTTTT
TGTTTTCGTTGCTCATGGGCTCCGGATTCTCGTCTAGAGTCTAGAGAGAG
GCGGACAGTTTTTTATTTTTAAATAAATGAATAAATAAAGCCGCTTACGG
TTTCAAAAGCCTGAGCTAATTTCGTTTTTTTTTCATTTCTCGCACGTACG
AGTACGTATAATTTCGCTTTTGAGATTTTGCACAGGCAAACCTCACGACG
GAACCCCCAAAATCTGAGCCAAGTTGTTGCCCCTCGCTCGCTCAGATTGT
TGAGCGGGAAGACACACAAGTACAAACGAATTACATCGAACTTTCTTATG
ATATATATGATGCAACAAACAGCAGTTCCACAAACAACAGCGACGATTAA
GCAGCAGCAGCAGCAGCAGCAGCAGCATCCTGCAGTTTTTGTTTGTCACA
ACACGCGCCGGGACATACAGTAGCGGCAGTACAAGTGGAAATATACAAGT
ACCATATATACTGGCGGTGATGTGGTGACGATGGTGTGTGGCATCATCGT
GTGCTGATAAAAACAGACACACAGCGGAGAGAGAGAGAGAAGTGTCAACG
TGATCAGGATGCGCCTTCATGATGTACGTGTGTGTGCTTGACGATGATGC
TGCGCTTTCAAGCAAACAAACTTCTGGCTACCTACTTCCCCATTGCGCAA
CACACACTGCGGCTGAGCAGTGCTCACAATAACACACCAATAGCTAAGAT
GCCAGCACACCACAACGGCACACACAGTGACTGACTGCTGCTCTGTTGTT
CGCTTGCGGCAGCAGGGGGAGGAACAGCAATCTGGAAGCAAGAACTTGAT
GTGTGCACGTGCGTGCGATCTGTATTCTCCTCTGTGCTGTTGTCGCTCTT
GTTTTTGTTCCTCTCATCCTATCTGATTTCTTGAAGTGAATTATTGTCTG
CCTCCTATTACCAATTTGTTGACGAGCACCGACCGCAGACCACCGCGGTA
CACACAACGGCCGGCTGTGGTTGTGGGTTGTGATGATCGTGTGCAGCAAC
AGGGTGAGGAGCAGCTTGGGTTTTGAGTGCATGTGTGTGTCCGGTGTGTG
CGTGTGATGCCGGCCAGATGAATGAACACTATCTGCTCTATCTTTGTACG
TCTCTGCTTTCTTTTGCCTCTCCCTCCTCTCTTCAGCAAACCCTCACAGA
CCGAAGAACACACATCATACATACTTTTTTTCTTTTTTTTGCCCCATATA
TATAATGCGGCGGGTCTGTACTCCAATGACCACGTCGCCGATTCACACGC
CGTAATTTGTCTCTCCACGGCTTGAAAGCCTGATGATAGAAAACTGTCCG
TTTTTTATTTATTTATATTTTTCCTGAGTCAAATACCTTACGTAAAAACC
TGACCCAAAAGCCTGAGCAATTCGGGAAACGGCCCAAAACTGATGATTGA
CCGTTGCGTCATATCCTAATCTTGAGCGACAACCCACTCACTGGCTGCAG
ATGCGCTCTCCAACGGTTCACGCGGACGGGTTTCGGGACGTGTCCAGAGC
GGCGGCGGTCTGGACGGACATGACCAAAGCCCAAGGCTTCGTCGACATCA
CCTACAAGGTCGGTAGCCGCCACATCCTGTACCATTCGCAACAAAACGCT
GTCCACCAGGAAAGCTGCTGTAGAATAGTGTTGCGTTATCGAATCTTCGC
CGCCGACCCCGTGGATGGTTTCCGTACCTCATGGCGTGCATGGTACTTTT
TGTTGTTCTCTCTTTTTTCTTTTATCTGATTTGGTTTTATTTTGTTTCTT
TTTCTGTCTTTTTTCGCCACCTGATGTTTCTTGCACGTATGATATCATAT
CTCTTGTGTCTTATACTGTCTTCCGTTCTTGTCGGACTGCTATAATACCT
CCCTCTTTGTTCCGTTTGTATTGTTTTGGCTTGTTTTCAACTAATTCGTG
GATTTGTTCGAGGCGTCTGTTGAATCTGTCCCTTTTTCGAGGCATACAAT
ACACAGCCTTTTCTTGCTTTTTAATTAAAAAAAAATCTATAATACGTTTC
ATGTTTCCTTATCTACGGCAGTATGATAGCACAGAGAGCGTGTGCCTGGT
CCATATGACCACGGGCTAGACTTGGGCGGTGAGCTAATGCGAGAATTTAG
AAAATCAACTAACAACAACAATAGCAACAACATGCCAATATGCCAATGCT
GTACAGTCGACTTTGAACCGCTTGTTAAGGGAGATGAATATCATATGCAT
TACGTCTTGAACTGTAGGTGGCCTACGAAGACATGACCGCAAAGATTGCG
ATCAACAGGCCAGAACTGCACAACGCCTTTCGACCAATCACGGTCAACGA
AATGCGAAGAGCTATGGATCTCGCGCAAGACGACAGGTGTGTTTCTTTGT
ACGATACTAAAATGACAGAAGTAATATTATACCATACTCGTAATATATGT
CAACATACGAAGACAAGCGCAAGGATTATACCGTACACAAACACCAGGCC
TACCAACACCGCTGTACACACACATGCCAACCCAAGTGTGCGCACGATTG
AAGCCGTCTGATGCACAGCAGTACTGCACACAAGAAAATCATCACTTTGT
TGTTGCCAACTGCTGCTGTCTCGTGCTGGGCAGAACTGCACAGAAGGATT
CCATCAGTTTTTTCTGCGATTACGCATATTACTGTATCGAGGTAAACTCA
CCCCGCCGGTATGTCAGCCTGTACGCAAGGACTTCACAAGTTTTCAGGAG
CTGCTGAAACATGATGCGCCTGCTGTCCTATGCTCATCAGAACTGCACAA
ACATAAATATATCGAGAAGCTCGAACCGCCGGTGAGGCAAGCTCGACCCG
CCGAAATGTCAGTTTGAGACACGAGGACGAAGTGCTACATCAGGCCCATG
ATACGAACACTTGCACCTTACAGGTGCACACATCGACAGCCTCCGAAGAC
ACCCAAAAGCCGTGGCACGTGCAATTCGCGGTGTGCAGCATTGGTTGTGC
CTGAGAGCTTTATTTAGTGCTTTCAAAACGTCCTCGCCAAGTGAATGTGT
ATTGTTTTCACCTCAACGTCGATGCCGAGATATTTAGGTAACCAAGGTGT
ATGTCAATTTACTACGATCCGATGCCCAGCGGTACCGCATACACAAAGGG
TTTCATCAGTTGTGTTTGCGATTTTATATAGATATTCCTCGGTCTGCAAC
GTTTTAGCTCCTTAGATATGTAGATATTCAATTGTCACGACATGATTATG
GCACGACACGTGACCACCCCTACTCTCCCACGGAGGACGGGAAATAAAAA
TCAGGTGCCACGTGCCGAGCTCAGACATTGAGAGGGTGAAAATTCTACCG
ATGGTCTACCAAGCAAGAAAGAATGTAGTAACGCAAAGCAACAACAGAAA
AAAACAAGAAAAATACTTATCTTAAGAGCTCGAAATTGCAAGACGTAAAC
GCGGCTATCATATCAGGACGCCGCAATGGGGACGGGCGCAACGAGATCGA
GGGGTTTACTTCACAGCAGAAGAGTCAGGCAATCTGCTGGTGCATGCCGT
GCTATCTACTCGTTCCTTTTTTTTTCCCTCCTGGTCTCCTCTGCCGCCGC
TGTCACACAATTCTGAAACTCTCTACGCTTGCTTTCCCGAGACTCCCGCT
CCCGCTTCGTTTACTCCTGGGTTAGACCGAAAAAGCGAGTTTGGACAAAA
GACACCCTATCATGACTAGCGTACTTCCCTGCTCGCGCACCGACCAAAAT
CATAAAAGTCATGGCGCTCGATGTTTTTGTTTTGTTCTCCGGTGGTGCCG
ATGTGATGTCCGGTAACTTGGCATAATTGTTTTGTACCACGCGAAATCCT
AACAGCATTGGCGTCGCCGTGGTTCCCCGGAAGAAGAAGTCCTGGCTGGA
GGGTGCCCTCCTCGGTGTTGTTACCCTAAACACGTACTTCGAAGTACTTC
GTGTTACACTTTACACACCTGCTGTTGTACTTCGAAGTATTGTTTCCGTT
GCGCTCGCACCCTGTGATATCATAACAAACACGTATTTCGAAGTACTTCG
TTACACTGCATACACCTGCTGCGATCATGTATTATTTTCCTTGCGCTCTC
ACTCTATCATATCATAACAAGCACGTACTTCGAAGTACTTCGTATTACAC
TGCACGCACCTGCTCTAATCCTGTATTATTTTCGTTGCGCTCTCACCCTG
TCATATCGTAACAGCGGAATTGGCGTGATAATCCTCGCTGGAGAGGGGAC
GCTAGCCTTCTGCTCTGGAGGAGACCAGAGGGTAAGAAGGGTTAGGGTTA
GGGATGGCATGAAGCGTATTGGTTGCTCTTTACACCGGAGGGAAAATCGA
GTCTGTTGTGATTGGTGGGACAGAGGGTGAGGATTCGGACAGGGGAAGGC
GCGGGGATCGAATTGAAGCTGAGACTGCTTTGGTCGTTTCTGGTCCTTTT
CAGGGGTTTTGGAGTTTGCTCACAGGGACAAAGGCGGTAAACTCTAGTCT
GGTGGGGGAAGGGCCTGACTTTTCTCGTGTGGAGACTGGTGTGATGTGAC
TCACGCGGGAAGCTTTTCTCAAGGCCATTTCGTAGATATCGTGACGTATG
ACCTGAAGGATTCCTCGAACTTTTGAGCGGTAGTTTTTCTTGAGGGGTTT
CTAGTCTCCATGTACACGTACGTAGATTCGGACACAACGGACACAAATCA
ATTGTGCCGACTCCACCGCAACCCTTGAGGAGAGAACAAACAGCACGTCT
TCACTCAAACGAAGCAAACTTCCAACCGGATCAACCAATTGGGTTGCTTC
GTACGTGATGACCGAAAAACGGTGCCGCTGTAGCTGTAACCCGAGATACG
ATTCTTAGGGGATCTAAAGGTGGGTCGGATCTTGACGTCAGGTATAATGC
ACATGTCTAATGATGCCGGCAAACTCAACTACCATCCCGATTGGGCTGTA
CGAAAGCTGGAAACAGCCACGGTGCTCTGATGTCGGTGTACTTCGAAGAA
ACTTCGAAGAAGGTATGATACGTCAGGGGAGGTATGTATGATACTCAAGT
TTATACATACATACCCACCTTTGGCCGTGACACTTCATGCATGTAGAGTC
ACCATCACCACACCACCACCGTCTGTGTGCCCTCCATGGCCGTTTGTGCC
GGATCCAGGTTAGGGGGGAAGGCGGCTACGACGATGGGTCGGAGGACGTG
CCTCGCCTCAGAGTCTTAGATCTCCAAGTTCAGATGCGCCGTTGTCCGAA
GCCCATCATTGCTATGGTGGCCGGCTACGCCATGGGGGGCGGGCACATCT
TGCACATGGTGGCCGACCTCACCATCGCCGCGGACAACGCGGTCTTTGGG
CAGACGGGACCCAGGGTCGGCAGGTACAAGTGTAGATTCGATACGTGGAA
GGCCATTCTTTATTCTTTGATTTGCTCGCTTGCCTACTTTCTTGCTTGCT
CGCTTGCTCGCTTGCTTGCTTGCTTGCTTACGTTCGAAAATAATTCTGAA
AAGTAGATGAAGGCGGTCCATCAGTACGGCCAATTTCGTGGTCTGGCGCA
AACCGGAATTCACTGCCGAGATGAGACACGTAGGGTTCGACCTTCGTTGA
GCAACTTTCCATCGACTAAACATGATGGCCGTCCTTTGCTGCCATTGGGC
GATCCTGTTTGATGAAGAAAATTGGGGCCCTTGCAGAGACCCGTCCCACG
ACAGGGGCCGATCGCAACCTGCTCGGCCGAACGGCTACACCCATAATTGC
TCAAACTCCTTCATATTGAAAAGTATTAACAAAAAATGGTCCCTGACAGG
CAGCGCGCTCCACGTGTGTCTGGTAAATGACAGTGTCGAACAAAGTTTGA
GAGCGAGAATGAAAAAGAGGTATCAAAAAGTATTGATGGCCGCTCGGCCG
AGTAGGTCGCAATCCACGTTCCGAAAAGTGACCCCCCTATCGTCGGATAA
GGTCCAGATAAGGTTAAGTCACCACGAACGAGGTATGATTAAAAGTGTCA
TACGCCGCGAACTATAACCTACCAGTGCCTGGGTACCATCATAACCCAAA
CAGAGGCGTACTACTGCTGTGCGGCATTTTGCCCGTATGGAGATGACTTG
GTTTTCGTGTCTCTTGGTTGGCCGCGACATTCATCATGCGGTATCTGTAG
TAGTAGCGCACACAAGAGCCCATGCATTGTTGGCCATCGTGAGTGCGGTG
TTTCTGCGCCACCATATATATCTATCAGGTTCCCAAACGAGAGGGTTTCC
AAACAAGTCCCCGGGGCGGGCGGTGCTGCATATTGCTTCCATCCAGTAAT
TATCGTCCGCTCACCTGGGCGTCTACCCGTGCGTACTGCTGTTTCGCATA
TGTCATACTGGTACACACGTTAGTCCCCTCCGCGTCCTGACAACTGCTGT
CTCCTGCGGTAAACCGACTCTCACGACAACGCGGCCGAGCACATTTCGAG
TCCGTTGATCACATCAATCACACACAGATGTAGCTAGTTTGGCGTGTTCG
GATGTTCATGAAGGGACTGTGCTTTTGGATGCGTGGATGGACTGCCGGCA
GTTTTGTACTTCGAAGTACTCTCACAGTAGTGACGCGTGTAATTAGAAAC
CCGCCGTTCATCATCAAAATGACGCCGTGTGACCTCTCGGCACTGCGTAT
CATTATATGTAGGAATAATTAAACACATGTTTGATCCGCACGTGGCTGCC
GTGATCCATTGTGTTTCCGTGACATAAAGCACATACTTCTCCTGTCAAAG
CGCGATAAGTGTCTTGTTTGTGACCACGGGCTAGACTTGACCCTGGTGGT
GAGCTGATGCTGTGAGAATATAACAGCTACATCTCGTATACTTCTGTTGG
CGTGCTGTGTGTCCGTGTGATTCCTTCATGCCGCGGGATTCCATCCATGG
CGTGACCAGCTTTGACGCGGGCTACGGGTCGTCCCACATGGCGAGGATTG
TGGGGCAGAAGAAGGCCAGGGAGATTTGGTTCTTGTGCCGGTACTACTCT
GCAAAAGAGGCGCTGAGCATGGGGCTGGTCAACACAGTCGTGCCGCTGGA
CGAGCTTGAGCTGGTACGTTTCGATGTCCGTGTCTGTTTTTGCTGTCGTG
GTTGTTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCGTTTTTTCACAACAA
CACAGTGATTATTTTTTTCATTTGTTGTTTTTTGTTCTTGTTCTTGTTAC
TGTTGGTGGTGCTGGTCTTGGCCTTGGTCTTGGTCTTGGTCTTGTTGTTT
GGTGTTGTTGTTGGTCTTGTTATTGTTTGTTGAATTGAAGGTTGAATTCG
ACAAATGTTCACACCTCGGATAACGTAGTACGATATGTTAAATACGTTTA
CGTTTTTGTCGCAGGTTGGCGGGTGCGGGGTCACAAGTAACCCGTCCTAC
GGCTAGGTCTGCTAGCGTTTGACTGCTGGGTAACCTGTGTTGCAGCCGAG
GCTCGCCGATCGACTAACAGTGCAGTTTAGTATGAGGTCTCGAATGCAGC
TGTTCGTAGTACGTTGGTATTGTGTTATTCCTCAGGTCCGGGGCAGGCAC
TACGTAGTAGTACGGTCCCACCTTGGAGGTTCCCAATTTTTCTAACACAA
ATGGTATAGTCCAACAATCGGTTCCCCAATTTTCCCAACAAATTAACATA
GCTCTACAGGTTGGCTCCGCTTTTGATGTCAGTCGATAACCCGGTCCCAG
CCGTGAGGTTGCCAAAAGAATAATATAAAAGTTAACCCGTTCGCCTCGAA
CTATAACATGAGAGTGAACCCGTTGGTCATGCATAATTAGCGACTCTCAA
CAGCTGAGACCCTCCAAAATAACATTTTTTCTGCTGTAAGGCTACTTTTT
ATGTGTCAAATATCAAAATATCAATTCTGATTCGTTTTCGATATTGACAA
TTCCCGCAGTGTGGTATCAACATCAGATGTTATGTGTAAAATAAACAATT
TATCAGTATCAAAAACGTATTTTTCGTACAGCAGTACAGTATCGTATACC
GGGTACTCCGTATGTAGGATCCCAAGAAGAGCCGTTTGGGTAGTATACAG
CAGTAGTACAAGTAGCACATTTCAAAATTTTGGAGCGAGCGCAGCACCCT
CTCGGGATGGAGCACGACGCGCTGGGTCACAGCCAGAACAGAGCAGCACC
GCGCGTAAACCATACATCTAGACAACAAGGTGTTGTCCCTCCCGCTCAAC
TACTCGAAGTACACCCAGACCTATTTATTTCAAGCTTTTTTTGGGAGGCT
ATTCGTAGCAAGAACAAGTATAGACTGCTAGCAGGGCATCTATCTGCACA
GCAGTGTACGAGTGCTTGTAGGTGAAACGCAATCAGTCGCTCTCTGCTGC
TGCCGCCATGGGATGAAGGGCCACGCTGCTGGCGGGCGACGACGAGGAAG
TAACACGCTGACCGCCCGCGATAATGTAGCAGCAGCAGCAGTAGTGATGT
GGCAGTACTGCTGCTGCTGCTGTGGGTCCTTGTGTTGTATATGATGGCTT
GCGTCGGAGTCTCAAACGTTTTCAATAATCATTTTTGATATGCGGAGTAG
ATCAGAAATGAGGCTCATTTCTGAGCTGGTGCTGGATCAAAAATGATTAT
TGAAAATGTTTATATCAAAAATGGCCCATTTCTGATCACATAACATGCCG
GATCTGTGCCAAATATCGAAAACGAATCACTTTTGATATTCAGATTCGAC
ACATAAAAAGTAGCCTAAGGTCGGAAAACGTAGTATTTAACAGAAATTAC
TCTGTTACTGGCGTTGTTGAACCTCACCGGTAACTTAAGTTATGCAATTG
ACAAGTAGCTACCAATGACTGGAAACGTAAGTTAGACCGCTTAATTGTTC
CTATTATGAAAGGGTCAGTATTTGTCCGGTGGATCCACAATTTTCGGGTT
ACCCCATAAATACTGTATTTCAGTGTTACCAGCCTGGTCCTTTCGTGACA
TGGGGGTATACCATCGTGTCCGTTGTTGATAATTAATCCATATGGTATTC
CGTTAATATGTTACGAGATAAACCGTTCGGGGTACCAACATTATATTCAT
ATATTTAGGGTCCCTCTATTATTCCGTGTGGTATTTTATTACTGAGTTGC
TTTAGCTTCGCCGCGATCTCTTCGGTTTGCGTTATGCCCGTTGCCTCGTG
TAATGCTCTGTTCTTATCTTTTTTGCGTGTTGTTTTCAAATCATCCCATA
TAGCAGGTTAGTTAATATTGAAAATAGTGTCATACGAAGAACTTCGTATA
CAACAGATACATATGGTGTTTTTGCGTGTCTCCCTCTCTGTTGTGACGTG
TTCACCAATAATACGCAATAATAATAATGCTGCTGCCAACACCGGCAGTT
CACCGCTGAGTCGTGCTATAACCACGGTGGTGGTGGTGTGAGAGTTACGC
TCCTCCGACAGCAATTCAACAACGCAACCCGCGTGCGTCGTACTTTCTCG
GAAACACGTCGTGCTGGTTGGTGTGTTTTTATATTTCGAGGCATACACAC
AGCAGGTGCATACCGAGTACTGCTCTCGGAGTATATTTTTTTATTTCAAG
AATAATAAGTCGGTGTTCTTCCTTGATGTTATTTTTCCCAGATTTTTCTC
TCTCAAGAATAATGCGGAAAATGCGGGGAATGTGTTCATCCCATTCATTT
TGGGCACCATCCAGACCTTTCGGTATGAAGTAGATTCACCAGTTGGGGTC
ACACAGGTGTTCTGTACGAATGGCATCATTTGAAAACGACACTCAACTCA
TGGTGTAAGATGTGTCACACAAGACGACCATCAAAAATTGTCTTGTTGAG
CCTGATACCCTCGGGGGAGCTGTAACGGTACACTGGTTGCTGAGTATAGA
AACACTGGTAGACGTATTTCACTCTTTGTGTTCGTTGCAATATCTGCTCC
AGATCCTCGTCTGGAGAGAGGCGAACACATTGATGTTTTTGTAAGTTTAA
AAAAAAAACGACACACAAAGAAGATAGGAACAGAGCATCACACGACGCAA
CGGGCAGAGCGCATATCATTCCAAAGACATCGCGGCGAAACAAAAGTATC
TCAGTCATAAAACACCACATGGGATAATCGACGGACCCTAACTACGGAGT
ATATGTATATTGGTACCTCGGATAACTGTTCGGATGTTAAGAAAAAAAAA
CACGTAGTATCATACTCCACCAACCACCGCACCAACGACCCGACATCCCA
TCCCTCTCGACGGCCGCGGTGGAGAATGCTATTCCAAACCGGCTGAAGGA
TCCTCGGAAGAGGGCAGAGATTGCCGATATTGATGTGGTAGTCGTTGAAG
ATGTGGCCATGGTAGACGCAGAGGGCGGGATTGCGGATGATCTCTAACTT
GATTTGCTTGCAGATCGGTGCAAAGAGGGTAGCGACAACTTTGGAACATA
CTCTCCGCTGCCTTGAGCTTATTCGTTGTACCATTGGTGTTGGCGTGTAC
TGTCTTGTACAGTTAGTTTGAGGGTGCATTTTTATTTCTTCTGACAGGAT
ATTTATATGACACCAGGTAATGTCATCTTTGTCCGGGGTTATTTCATGAG
CACGGGCCTCATATAGCGGTGTCTCCCGACGACAGCAGTGATCAAGTGCG
GGTTGGTGAGACACCTCACCGCGCAACCTCAATTTTGGTCGCACTTTCTA
CAAACAACGAAGATGAACACCTACCTTCAGACAACATAGATAGAGACCTT
TCTGTATATTAAGATTAAACTAATATTATTACTTTCTTTTCACAACAACA
CATTGGGCGTAGTACGATAACAATATGTTATTGGTGGCCAGCTCACAACG
GTAACATGGTAAAATCGGGTTAGTACCAAAATGACGGGTGAGCGTAACGT
GGTAATATAGAGTAATTACCCGTAAAACACCATTCAAGGTACTGTAATAA
CAAGATGTTATTGGTGGCCGGCCCACAACGGGTAACTTGGTAAAATTGGG
TTATTGTAGTACCCAAATGACCGGTGAGCGTAACGTATTAGTATCGTATT
TTCCGATGTAACCCCCTAAAAAATAACACTACTCTACACTATACCATTGC
ATCCCATATTTCAAAACATGAATAACCTATGTTATGTTGTCCCCGTTGAT
CTTGGATAACACAGATAACTCATATTATTTCCTGGGGCCTTATTCCAAGT
TACTTAACATGATTGATTAGTTGTTACGTTATCCGAGGTATGCAAATTTT
GATACCGCTCAAAGACGTGGGATTGTTGTGCGGGACTATGAACAAGATCC
AATCGTAGCCAGGATTGAATGTTGGCGTCGGAAAGGTGTCTTGACCAACA
ACAGCAACATCAAAGCGAATGCAGACAAAAAAATTGGCGAGAAACAAACC
CAGCGGGTGGAAATGTCAACTAGAACCTTCGCTACAGCTATTTTGGCTCA
CATATCGAAACAAATGCACACTTGTCAACAGCCCCTCTACTGAAGCATCT
CTCTAATATGAGAAATCCAATTCATCCAAAAATGCAGCAGTTTTTACGTT
TTCACAGGAGAATGTTCCGGATGCCGCAAGAATAGCGGCAGCCCATGAAA
AATACCAATGGCACGTGATACATTTTCATTTACCAAACAGGTGAGCTACA
AGTTCAAACCACGGCACAAGAAACGTCGAACGGCACCTCCCCCCGGAACC
CACGCGAACATACAAACGAATCACGAGTAGTCTGTCAGCACGTACCTTTT
TGGAGCACTGTAGGTTAAAACCAGACTTCAATTTTCGAATGAAAACGCAA
GTATACCCGTCAAGAGCATGAATCGGAAATCCGAAACGACAAGAAAGCAC
ATCGAACATGAGTACCCCGGGTCCGCAATATCCACGAATACCCCCCCCCC
CCTGATCCACAGGTAAAGCGCAAATCACAAACAAAGAAGCCTGTCGGGAG
ACACATATCATACTGCGGAGTACCATTTTGGAGCATTGCAAATTCAAACC
AGGCTTGAATTTTGTTTTTTCGAAGGACATGCGCAAAAATTAAAAATTAA
AAATAACGTGAAGCACACAAATCGAAAATCCGAAACGACAAGGACTCTTT
CGGCCTCGACTGCGAGAAGGATCATTACGTCATATCGCCCCCCCCATGAT
TTTGGCAGGCAGTACAGCATGGAATACAAAGGCACAAAACACAAGAAATA
TCCCCCCCCCCCCCCCGCTTCGTCATAAAAATCAAATCGCTCACAACGAT
AGTTGGGAAATGAGTAGGAACGGCGGTCATGAAATCAAAGATTCACATCA
GAATTGCGGTGCACGTGAATCTCTTGCATGTGTACCGCTGTAGCGATTTG
GTATGGAAAGCCGCTTGTTGCCCTTGGGTCGAGAAGGACGATCAAAGCAC
GCCGAAAATAGAATCGAGACGCGACGCATACGTGTGTTCCGTCACCGACC
GCGCTAAACGTTTTCCTCGCGGAACTATGGTATACTATCGTTTTCTACTT
GTTTTTCAGCGGTGTCGAAGGGATGCAAGAGGGAGGCCCTTGTGTCGTTT
GCTGGGGTGGCGACACCGGCGCCCGCACTTGGTACGGGTGAAAGCCCTCC
CTCGCTGTGTGTCGTGAAGGGCTAACAACCTAGGCGCCCGCGACATCTGC
TCGAGGAGCGGTGACTGCGGCACATGCGGTGGTCGGCGGTAATGGACCGG
TGGTAGTGTCCCCCCCGCTGCGCTGGCGGGGATGCCGTTCGGTGCCCCTG
CCTGCCGCGGAGACGAGAGGAGCGGCGACTTATGCACCTGCGGTGGTCGG
TGGCATCGGCGGTAGTGTTTCCCCCGTTGCGTTGGCAATGATGACGGCGG
GTGCCCCTTGCCGGAGCGGGGAGGAGAGGAGCGGCAACTTCTGCACCTAC
GGTAGTCGGTGGCATCGGCGGGAGCATTTTCGACTCAGCGGGGGAAGCAC
TCCGCTAATGCCACCGACCACCGCAGATGCACAAGCCGCTGCTCCTCTCC
TCCCCGCCCCAGCAGAGGCACCTGCCGCCATCACTGCCAAAGCAGCGGGG
GAAAGACTACCGTCGGCACCTCCGACCGCCGCAGGTGCAGAAGTCGCCGC
TCCTCGAGCAGGTGTCGTGGACGCCCCAGTTCCCCCTCCAGCTCACACGG
CAGAGGGAGCTCTTTCACCCGTACACAGTACCTAGGTACATAGCAAGTGC
ACGCGTTGGTTTGCCACCCCAGCAAATGACACACACGCCTCCCTCGTCCA
TCCCCCCAGCCGACTCAGCGGAGAAGATATTGCTATAGGTCACTGCTGCT
GCTGCTGCTGCTGCTGCAGACGTTGCAAGCGCCCCGACTGCCCTCCCCAA
GCGATGCAACATAGGGAACAGCTCAGCACCACTCCGTGTTTGCCGGAGGC
AAACGCGATTACCGGTGGAAGGCCTCACCGCCACCACGGCTGATCCAGTT
GAGGACTTCCCCTCGGCAGGGGCAGAGATACGGGGATGCCTACAAGTATC
GGGGGCGAACGGGACCGCTGGTGGAGGTCGTCGATCCGGCCGAAAATGCA
GTGTTGAATGAGCTGCTTTGCGTTGTTGGGATGCAGATACCAATACCACT
GCGGTAGGCACCACCACCACCACCACCGTTGCCACCACGACGGAAGTCTA
TCGTTGTCACAGGCATCGATACGGGTATGCGATGGGCGCGGGGTGCGCCT
ACAGCAGTAACCATGATGTGTACACATATTTCGTGAGCGAAAGCAATTCC
TCCGCACACGGCACAATTTTGCCGTGGAAACGAAGCAGCACAACGCAGAC
GTCGAGGCGATGCCCGTCTTTTTCGCATTTGGTGCACCGGTGAATGAAGT
CCAGGGGAGCCTCTGGCAGAAGAGACGATTTTTCTTGCTCGTACAGTATG
GCGCGTTGCGTCGACAGCAGTCGTACCACACCCCCGCCAGGTTCCCAAAG
TGGCTGAGATCGGGAGGGGGATGATGAGCAGGCGGGGGCTGCGTGTAGTA
GTGCAGCGGTTGCCGCCGTCATTGCTTCTGCCGTTGCTGTGGCGGCCGCG
GTTGCGCTGTGTTGGTCCTCACGGAGCACGATCCCACGACCCCACGATCC
GTGATGTGTGTCACCCGCGCGGATGGATGCACATGACCGCTTGCTTCCTA
GATGTGCGTGCGGGTTGAACCTCGAAAATAGAATTTTTTAGTATCTCTTT
CCTCAAATTTAGACACACACAGCAGTACACCGGCCTCCTACGGCACAACC
GCTGGGTCTCTTGCATACCCGCGAACGCCAGCCAGGGTTTATACACACCT
GCCAGGGAGTGATTTTTGGTGGGGGAATCGCTGGTGAGCCACACAAACAC
ACGAAACACATGTGCGCACTGTAAGGATTCCAACTAACCCGCGCCCCGTC
TGTCAACCCACGACACGGCACCTTTCTGCGACATACATATGCCGACGGCT
CGCGAGCCCCACGATATCGTGCTGCAGTGTTGATGCGTGACTTCCACTGG
ACACGCGAGCACTTGGCCGAGGCGCCTTGCACAAGAGAAGCTTATGGTCG
GTTGAGTCATCACACCGGAGACGTGGAGAAAAATAAGGAAAGAAGAGAAC
TACGGCACACAACTGCGCGCTCCTTCCCCGGTTCCCCGAATACAATACAG
CTGTAAAGTACAGTACAGCAGTACAGTACAGGTACAGTACAATACCTCAT
GTGTGATGGATAAACTGCGCGATATGAAGGCTCTATGTGAGGTCGATCGT
ATGAAAGTCGCCTGGCCGTATGTGGCTAGCTTGTGCTTTTGCAGCTTGTG
CTTTTGGGAGAAATGGGGGGAAATCTTGATTATTACAAAGGCCTGCAATG
CCTGAGAGCCAAGCCTGGGAGCCACGTTGTGAAAGGGCGTAAATTGGCAA
CGAAAGGTAATCAGGTGGCGCTCCGGCACACATCCCGAAGGTGCCACCCG
TGGCATCCCACAGGATTCACAACCATACACGTAACCCCCCGCAGCATTCC
AGAATATTCCAGAATTCATCTCCTTAGAGCTTAACTCAATTCGACACAAT
CACATGTTGCTGTGAGTATATCCAACATGCTCAGGACATACTCCGGAATA
CGAATTAACATCCCCGTTAATTATAAATCATATTTACCGTGAATGCCACA
TTTTGTGTTTTATTATCCCGCCCATCCGCAGGAGACGATGAAGTGGTGTC
GGCGAATAGTCCAAAACAGCCCAACGGCTATATCCTGCCTCAAGGCTGCC
CTCAACGCCGACGAGGACGGCCAGGCCGGTGTGATGCAGCTTGCCGGGAA
TGCGACGCGGCTGTTCTATCTCTCCGAGGAGGGAAAGGAGGGGAAAAACG
CCTTCCTAGACAAGAGAAAACCGGAGTTCCGAAAGCTGCTCACGTCGAAG
TTGTGACCCACTCACTGTTTGTTCCGGCTAGCGCCTTAGCTGTTGGAGTG
GGAGGAGGGTTCTCCCTCGGCCTGAGGATTGATAGAATTAAGTGAAAATC
GCGGCCGAATTTTGATTTCTCCTGGTTTTCGTGGCGAGAAAGTTGGCAAG
AAACGTTTGGTAAGATAACTTGCCGTCGTGTTTTTCTTTTTCTAGGCGAG
AATCAAAAGAATGCCTACTCACTGACAAAAGAGGAAACCACGAGTCACTA
AACCGGCTCATATCATACTTGTATCATACTCAAATGTGGGCCGCACCGAA
TATTGAATTTGGAGAACTTCTGTGTCGAATGTGATGTTGGTTTCGGCGGA
TCGTGGTAACCGCACCGGTAAATGAATGATGAAGTACGATATCCCAGTTC
CGAACCTGTTTCAATGTTGTGGCCCGTTTTCTAGTCTCACCCGCGATGTC
TCTGGTGTACGTGGGAATCGGACTCTGGGTTTGATTACGTACAATAGGAC
GGCATGGATGGTGTATTTGACGCTGAGCATTTCATTATTTACTCTCATGT
ATTAGACCTATCGCGGGGTATCACATCATTGTGAATGACAACTTTTTTAT
CTTTCGTTTATACTCTGCGAGCGGTTGCAACGAGGTTCTGCCTCTTATGG
TGTGGCCAGGGGCCGTATGACGAGGCGAGAAGAAATACCGCATTTCGGAT
AGTACAAACGCTTGGGGGCATATAGCCCCAGTCTTAAGTGAATCTCACTT
AGCTTGAGGACCCCTCGAGAGGGAATACTCGTACGAGGGGTGGGGGGCGT
TGAAAGCCGAATGAAAGTTGATCGCGTTTGAAGAGGCGTGACCCACCCTG
CTGTGTCCTGGAGCTGACGACTCATCAAGTGCGCCTTCCTCCGTCGTCTC
GGATATTTTTTGTTTGTTTGAAGCAAGTGAGGATCAGACCAGACACATCG
GTCGTGTTTTCCAACCGTTGTCCGAGATACTTGAAGCAGCATTTCTTCGG
ATCGGAGTGTTCACTATATACACTGTAGTGACACATGCATTTCCGGACAC
AGGGTAGTAAGACGAGGAGCTAGATGGGATAAAAGCATACGTATACAGTA
TGTAGACCGTTCCTCTTGTTGGATAAGGCTGCGTAAGTGAACTGTCCCCT
TGAGAAGAAGTTTGTTTTTCCCTCAAAATGCAATGAAGCAACGCAAAACT
GGTTTATATGAAAAAACTATCGGCGTTATGGGTTTCGTTTTATTTCGGGT
TTGGGAAACTCACGTCCGCATCATGAGCTTAATAGTACAAAATACTGAAG
ATACATATTGATGACCGTG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig1067:23122..42690- >mRNA_P-littoralis_Contig1067.16.1 ID=mRNA_P-littoralis_Contig1067.16.1|Name=mRNA_P-littoralis_Contig1067.16.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1044bp|location=Sequence derived from alignment at P-littoralis_Contig1067:23122..42690- (Pylaiella littoralis U1_48)
ATGTGCCTTGGAGACTGGAGTCAATACCTGAACTGTACTGCTGTACTTGC
AGAGGAGCACTGGCACTGGTACACACACAGACAACGCCCGGGCTGCCTGC
CTACATTGAGGACGGGAGCAGCTGTAAAGATGGCAGCCAAGCGACCTGCA
AACTCTATGCGCTCTCCAACGGTTCACGCGGACGGGTTTCGGGACGTGTC
CAGAGCGGCGGCGGTCTGGACGGACATGACCAAAGCCCAAGGCTTCGTCG
ACATCACCTACAAGGTGGCCTACGAAGACATGACCGCAAAGATTGCGATC
AACAGGCCAGAACTGCACAACGCCTTTCGACCAATCACGGTCAACGAAAT
GCGAAGAGCTATGGATCTCGCGCAAGACGACAGCGGAATTGGCGTGATAA
TCCTCGCTGGAGAGGGGACGCTAGCCTTCTGCTCTGGAGGAGACCAGAGG
GTTAGGGGGGAAGGCGGCTACGACGATGGGTCGGAGGACGTGCCTCGCCT
CAGAGTCTTAGATCTCCAAGTTCAGATGCGCCGTTGTCCGAAGCCCATCA
TTGCTATGGTGGCCGGCTACGCCATGGGGGGCGGGCACATCTTGCACATG
GTGGCCGACCTCACCATCGCCGCGGACAACGCGGTCTTTGGGCAGACGGG
ACCCAGGGTCGGCAGCTTTGACGCGGGCTACGGGTCGTCCCACATGGCGA
GGATTGTGGGGCAGAAGAAGGCCAGGGAGATTTGGTTCTTGTGCCGGTAC
TACTCTGCAAAAGAGGCGCTGAGCATGGGGCTGGTCAACACAGTCGTGCC
GCTGGACGAGCTTGAGCTGGAGACGATGAAGTGGTGTCGGCGAATAGTCC
AAAACAGCCCAACGGCTATATCCTGCCTCAAGGCTGCCCTCAACGCCGAC
GAGGACGGCCAGGCCGGTGTGATGCAGCTTGCCGGGAATGCGACGCGGCT
GTTCTATCTCTCCGAGGAGGGAAAGGAGGGGAAAAACGCCTTCCTAGACA
AGAGAAAACCGGAGTTCCGAAAGCTGCTCACGTCGAAGTTGTGA back to top
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