Homology
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
D7FJP9_ECTSI (Rab8D, RAB family GTPase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FJP9_ECTSI)
HSP 1 Score: 401 bits (1030), Expect = 4.430e-125
Identity = 206/224 (91.96%), Postives = 213/224 (95.09%), Query Frame = 2
Query: 2411 MNGLGAPA-GGAARPTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKTRLEVTQAASDEQSSGETLRLNGSRNGGGGDADSLAQKMESCCT 3079
MNGLGAPA GGA +PTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAAELGVPYMETSAK+NLNVEETFGNLASRVKTRLE +QAA+D +GETLRLNG RNGG D +SL Q+MESCCT
Sbjct: 1 MNGLGAPAVGGAGKPTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAAELGVPYMETSAKENLNVEETFGNLASRVKTRLEASQAATDGAGAGETLRLNGGRNGGV-DTESLTQRMESCCT 223
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A835YM14_9STRA (Rab8D, rab family GTPase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YM14_9STRA)
HSP 1 Score: 247 bits (631), Expect = 4.410e-71
Identity = 126/184 (68.48%), Postives = 150/184 (81.52%), Query Frame = 2
Query: 2459 LLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKTRLEVTQAASDEQSSGETLRL 3010
LLIR+LMIG+SSVGKTSLVLRYDKRGFN +FTTTIGVDYSDR+L +D R VKLQIWDTAGQERFHSLTTSFFKRAEGF LV+DVS+R+SF++V+ WM DI EQGK SDVV+ GNKCD++ R VA+ E E+LA VPY E SAKDN+NV+ F LAS VK RL+ +AA + + + ET+ L
Sbjct: 22 LLIRVLMIGESSVGKTSLVLRYDKRGFNAKFTTTIGVDYSDRMLTVDARAVKLQIWDTAGQERFHSLTTSFFKRAEGFALVFDVSDRRSFDAVARWMGDIREQGKADSDVVLVGNKCDVKERAVAKGEAEKLAKHFAVPYFEASAKDNVNVDVIFETLASSVKRRLDA-KAADEAKKASETVTL 204
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A836CM00_9STRA (Rab8D, rab family GTPase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CM00_9STRA)
HSP 1 Score: 236 bits (602), Expect = 1.610e-67
Identity = 114/165 (69.09%), Postives = 137/165 (83.03%), Query Frame = 2
Query: 2477 MIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKTRLEVTQA 2971
MIG+SSVGKTSLVLRYDKRGFN +FTTTIGVDYSDR+L +DG+Q+KLQIWDTAGQERFHSLTTSFFKRAEGFVL +DVS+R SFESV+ WMKDI GK SDVV+ GNKCD++ R VA+EE + LAA+ VPY E SAK+++NV+ F +A+ +K RL+ A
Sbjct: 1 MIGESSVGKTSLVLRYDKRGFNSKFTTTIGVDYSDRMLTIDGKQIKLQIWDTAGQERFHSLTTSFFKRAEGFVLCFDVSDRASFESVARWMKDIEASGKPDSDVVLVGNKCDMKERAVAKEEAQALAAQFRVPYFEASAKEDVNVDAVFSTVANNIKRRLDAKAA 165
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
D7FJP4_ECTSI (Hydroxyacylglutathione hydrolase, putative n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FJP4_ECTSI)
HSP 1 Score: 206 bits (525), Expect = 1.210e-57
Identity = 99/118 (83.90%), Postives = 109/118 (92.37%), Query Frame = 2
Query: 422 AVSNALQGVAAKLPAATRVFCGHEYTVSNLQFAKSVEPENPAVSEKLDWSRRILAKRGYTVPSTIAQELEHNPFMRVDQEAVRKATGSGDSVGAMRQLREMKNNFRPPPETPGRFPAL 775
AVSNALQGVAA LP ATRVFCGHEYTVSNLQFAKSVEPEN AV +KLDWSRR+LAK GYTVPSTI+QEL+HNPFMRVD+ AVR+ATGSGDSV AM++LREMKN+FRPPPE PGRFP +
Sbjct: 8 AVSNALQGVAASLPGATRVFCGHEYTVSNLQFAKSVEPENSAVLDKLDWSRRVLAKGGYTVPSTISQELKHNPFMRVDETAVREATGSGDSVTAMKRLREMKNSFRPPPENPGRFPVM 125
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A6V1KKE1_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1KKE1_HETAK)
HSP 1 Score: 206 bits (524), Expect = 8.310e-57
Identity = 99/169 (58.58%), Postives = 132/169 (78.11%), Query Frame = 2
Query: 2444 ARPTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQG--REVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRV 2944
++ P +IRILM+GDSSVGKTSLV+R+D +GF ++ TTIGVDYSDRL+E+DG + KLQ+WDTAGQERF +LT+SFFKRA+GF L YD+S+R SF++V+ WMKDI EQ G ++++ GNKCD+ REVA +EG LA E G P++E SAK + NV++ F +AS V
Sbjct: 7 SKKQPPIIRILMVGDSSVGKTSLVMRFDDKGFLNKYATTIGVDYSDRLVEVDGDEYKLQVWDTAGQERFRALTSSFFKRADGFCLCYDISSRHSFDNVNRWMKDICEQAPSGFNLILVGNKCDVPEARREVAYQEGVDLAGEFGAPFLEASAKTDRNVDDVFMTVASAV 175
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
D7FJP8_ECTSI (Lactamase_B domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FJP8_ECTSI)
HSP 1 Score: 211 bits (537), Expect = 1.510e-56
Identity = 108/146 (73.97%), Postives = 121/146 (82.88%), Query Frame = 2
Query: 359 DPASLPFSFLG-TPFM------FVSDLTAVSNALQGVAAKLPAATRVFCGHEYTVSNLQFAKSVEPENPAVSEKLDWSRRILAKRGYTVPSTIAQELEHNPFMRVDQEAVRKATGSGDSVGAMRQLREMKNNFRPPPETPGRFPAL 775
D A+ P F G T F+ F D + +SNALQGVAA LP ATRVFCGHEYTVSNLQFAKSVEPEN AV +KLDWSRR+LAK GYTVPSTI+QEL+HNPFMRVD+ AVR+ATGSGDSV AM++LREMKN+FRPPPE PGRFPAL
Sbjct: 216 DGAAAPLVFSGDTLFVGGCGRFFEGDASQMSNALQGVAASLPGATRVFCGHEYTVSNLQFAKSVEPENSAVLDKLDWSRRVLAKGGYTVPSTISQELKHNPFMRVDETAVREATGSGDSVTAMKRLREMKNSFRPPPENPGRFPAL 361
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A7S2AY15_9STRA (Hypothetical protein (Fragment) n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2AY15_9STRA)
HSP 1 Score: 198 bits (503), Expect = 3.850e-54
Identity = 97/166 (58.43%), Postives = 124/166 (74.70%), Query Frame = 2
Query: 2462 LIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQG--REVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKTR 2953
++RILMIGDS VGKTSLVLRYD+ F+ +F TTIGVDY D++++++G+ VKLQIWDTAGQERF SLT++FF RA+G VL YDVS+R S+E + TWM +I + DVVICG+KCD+ R+V EEG+ LA + GVPY E SAK N NVE F LA+ + R
Sbjct: 18 VVRILMIGDSGVGKTSLVLRYDEDAFSHKFVTTIGVDYRDKVVQVNGKSVKLQIWDTAGQERFRSLTSNFFSRADGMVLAYDVSDRTSYEHIKTWMSEIRKHAPEDVDVVICGSKCDIDATDRKVTEEEGQTLAEDEGVPYFEASAKANTNVEAMFMQLATTIVDR 183
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A7S2SVP5_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SVP5_9STRA)
HSP 1 Score: 194 bits (493), Expect = 1.170e-52
Identity = 97/173 (56.07%), Postives = 124/173 (71.68%), Query Frame = 2
Query: 2432 AGGAARPTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDL--QGREVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRV 2944
A A P ++R+LMIGDS+VGKTSLVLRYD+ F+ +F TTIGVDY D+++++ G VKLQIWDTAGQERF +LT +FF RA+G VL YDVS R SFE V W + IVE+ +++CG KCD + REV++E+GE LA EL +P+ ETSAK N NV E F LA+ V
Sbjct: 2 AAAMATPKRKVVRLLMIGDSNVGKTSLVLRYDENRFSHKFVTTIGVDYRDKVVDIHGANVKLQIWDTAGQERFRALTANFFSRADGIVLAYDVSKRTSFEGVRRWHEQIVEKAAPEVQMLLCGTKCDCSPEEREVSQEDGESLAKELAIPFFETSAKGNRNVAEAFMTLATAV 174
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A1E7F4E5_9STRA (Ras-domain-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7F4E5_9STRA)
HSP 1 Score: 191 bits (485), Expect = 3.590e-51
Identity = 100/196 (51.02%), Postives = 139/196 (70.92%), Query Frame = 2
Query: 2462 LIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQG-REVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKT-RLEVTQAASDEQSS---GETLRLNGSRNGGG 3034
++R+LM+GDSS GKTSLVLR+D+ F+ +F TTIGVDY D++++++G ++LQ+WDTAGQERF SLT++FF RA+GFVL YD+SNR SF+ V WM+DI + D+V+CGNK DL R V EEG+QLA E GV + ETSA +NVE+ F L++ +K R++ +A + S+ G + GS NGGG
Sbjct: 22 IVRLLMVGDSSCGKTSLVLRFDQNVFSTKFVTTIGVDYRDKMVKIEGVPMRLQLWDTAGQERFRSLTSNFFGRADGFVLTYDISNRPSFDHVIGWMRDIKTRAPPDCDIVLCGNKSDLDNDRVVTLEEGKQLAEEYGVEFFETSALTGINVEKMFYGLSTTIKRKRIDEFEAGGNGNSASGGGASTAEQGSVNGGG 217
BLAST of mRNA_P-littoralis_Contig189.49.10 vs. uniprot
Match:
A0A7S4JU42_9STRA (Hypothetical protein (Fragment) n=2 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4JU42_9STRA)
HSP 1 Score: 189 bits (479), Expect = 7.350e-51
Identity = 103/194 (53.09%), Postives = 131/194 (67.53%), Query Frame = 2
Query: 2414 NGLGAPA-GGAAR----PTPL--------LIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTTIGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDVSNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQG-REVAREEGEQLAAELGVPYMETSAKDNLNVEETFGNLASRVKTR 2953
NG P GGAA P PL ++R+LM+GDSS GKTSLVLR+D+ F+ +F TTIGVDY D+ + ++G ++LQ+WDTAGQERF SLT++FF RA+GFVL YDVSNR SF+ V WM+DI + DVV+CGNK DL R V+ EEG LA E GV + ETSA NVE+ F +LA+ +K R
Sbjct: 4 NGSSPPGQGGAAAANPPPRPLQMGAKGAYIVRLLMVGDSSCGKTSLVLRFDQNVFSTKFVTTIGVDYRDKTVRIEGAPLRLQLWDTAGQERFRSLTSNFFGRADGFVLCYDVSNRPSFDHVHGWMRDIRTRAPPDCDVVLCGNKSDLDADRVVSTEEGAALAEECGVRFFETSALTGNNVEDMFMDLATAIKRR 197
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig189.49.10
>prot_P-littoralis_Contig189.49.10 ID=prot_P-littoralis_Contig189.49.10|Name=mRNA_P-littoralis_Contig189.49.10|organism=Pylaiella littoralis U1_48|type=polypeptide|length=224bp
MNGLGAPAGGAARPTPLLIRILMIGDSSVGKTSLVLRYDKRGFNLRFTTT
IGVDYSDRLLELDGRQVKLQIWDTAGQERFHSLTTSFFKRAEGFVLVYDV
SNRQSFESVSTWMKDIVEQGKRGSDVVICGNKCDLQGREVAREEGEQLAA
ELGVPYMETSAKDNLNVEETFGNLASRVKTRLEVTQAASDEQSSGETLRL
NGSRNGGGGDADSLAQKMESCCT*
back to topmRNA from alignment at P-littoralis_Contig189:225726..238250+
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig189.49.10 ID=mRNA_P-littoralis_Contig189.49.10|Name=mRNA_P-littoralis_Contig189.49.10|organism=Pylaiella littoralis U1_48|type=mRNA|length=12525bp|location=Sequence derived from alignment at P-littoralis_Contig189:225726..238250+ (Pylaiella littoralis U1_48)
CCCTTGTGTTCTCGGGGGATACGCTGTTTGTCGGCGGCTGTGGACGTTTC
TTTGAGGGGGATGCCTCGCAAAGTGAGTGCTCCTGCCTCGTGGGACAGGT
TGTGGTGCGGTACGGGATGGGATGGAACGAAGGAGGGTGTTTGAAACAAG
TACGGCTGTGTGGGTCGTCGTCAATTTTGTTTTTCGTTGGACGTGTACGT
CGGGAGATTCATAACGCAACACTTTCTTCTTGCCTCGGTACCTGTCGAGC
ACGCTGGTCGAAGAGTAGTGCTACCTGCCATGATGGTCCCGCCCACCTCT
TTGTTACGTTGGCGCGTGCACATTTATTTGTTCTTGAATGCTCGGTCGAT
AGGCTGGTGACCCTGCCTCTCTCCCCTTTTCTTTCCTGGGGACGCCTTTC
ATGTTTGTATCTGATTTGACGGCAGTGTCCAATGCACTTCAAGGCGTGGC
CGCCAAGCTCCCTGCCGCAACCCGCGTCTTTTGCGGCCACGAGTACACCG
TGAGCAACCTGCAGTTCGCCAAGTCGGTCGAGCCAGAGAACCCGGCTGTG
TCAGAAAAGCTGGATTGGTCCAGGAGGATTCTGGCGAAAAGGGGCTACAC
GGTCCCTTCCACGGCAAGTTCCTTAGGTTGACTTGAAATTACTTTGTATC
ACCGTTGTTGTTGTTGTTGTTGTTGTTGTCGATGGTTTTGGAACGGTAGA
CATTGGTCGTGGATATTCCCGAGGTTAAACGACCTACCCATCATAACAAC
ACCGCGTGGCTGTCTCCCCCGGCACTGGCATGTTTAGATTGCGCAAGAGC
TGGAGCACAACCCGTTCATGCGCGTCGATCAGGAGGCGGTACGAAAGGCA
ACGGGTAGCGGGGACAGCGTGGGCGCGATGAGACAACTGCGAGAGATGAA
GAACAACTTCCGACCACCCCCGGAGACTCCGGGCCGGTTTCCCGCACTTT
GACGAAACAAAAAATAGTCGTTGGTTTGAAGAGGTCGAACGTTGTGCTGC
GTCCCTGTAGCACTACTCGTAGCCTACCGCGCAGGAGTTTTGCGTACCGT
GGGCCGACAAGTGTGTTGACAAACAACCTGCCATGGTGCCAAGTAAATAA
CGTTCACGAAGATCACATCTTGAGTTCAGCACCAGGTGTCTGGCCAATAC
TTTACAATGCAGTAGTAATGAACCATGGAGAGTTGACACTGCTGCTGCTG
TATGCACCACCTTAGGGCACGAACACCCCCCCCCCCACCCGAGGGGAATG
ATTTATGCAGCGTCGATACATGCACACACTTCATGATGAGAGGCAAAGGT
GATATGAGGCAATTTATGTGAAGAACGCCAATCGACAAATTAATACTTCG
TCCCTCTTTGTTGACTTCTCATTTTCGTGTAAGCAGTAAATAAAATAAGA
ACATTCCGTTTTCTCTTTTCTGTAAGCCCGCAACCAAAAGGTTGGGTTAG
GCTTTGTCAGTCTGGCAGTGTGCGCGGCAATGTGTGTGCGTGTGTGTGTT
TTTTTTCTTTCACACTTGAAAACAAACGCTCCGATCTCCACAGCAGTACC
TTCTAATGTCAGTACTCCGATCGTGGACGATTTCAGTTGTCACAGGTTAC
CTGCCCAACAGGGACACTTCGTTGATAAATACGCGGGAGATCGATTGGTA
TTTTTTTTTTTTCATTTCTTGATTACGTACGTTGTGCCTATTGTATGTGA
GCTGTACCTTGGCGCCCACAGCAGTCTTATACATACTCCGTGTATCATGT
GATATGAGGGGTAATTTTTTTTCTTCGACGTGCGTTTTGTCCCATTCATA
CCGGGCACCTATCTTCACCTTTCAGTATGAAGTGGGTGGACTATAGAGTA
CACGTAGTGCGACATTGTTCGTACTAAAAGTGTCCGAGTGTTGCTCCATT
TCTCTTCGTCTTGTTTTTTGTCGAGAAGAAGTGGACGAGGAGGTCCGGTT
TTCTTTACTTTAGTTTTGCACGCCACAAAGAAAAAGTAATATGTTGGCTT
TCGAAACACGGAGCCCCCAGGATCTTCAGAACTACAGCGGCTCGATTTTA
ACTACAAGTAAAATGGCCACGTGAGACCATACAAACAACTTTGCTCCCAT
CTTTCCTTCTATTTCTTACCTTGTTCCCGCGTTTCAACGCGTTGCCTTCA
ACAACGAGGACAGAAGCTCTTGAGTGCGTGGTAGCACGCTTGGTTAAACA
TCGGTCGGGGATAACACTGCTGTGGGCTAGGGCAGGAGTCGACTGCTGTC
CTCCCGTGTAAACTCTCTTGCCTCCGCATTGTTTTTCGTGCGGCCTCTCT
CTGCTGTTTTGGAAAGGCGGACGTTGCTCTCAGCGAGGACAGGGTGGTCC
AGCTTGTGGAGGCACACAAACTCTCTGTCGCCAGGTATTCCTGTCTAGGG
GAACGTGCGTGCCTTACCGCGCTGGTGGTTGTCGGGACAAGCAGGGCCAA
AACATCGATTGGTTCGCTCTTTTCCTGGACAGCGAAAAGAAACGCGATTT
TTGTAGCTCTCTGCGGACTATCGTTACTGCTGCACAAAGGAGCGACACGC
GCCAAAAGCGAGAGAGTTTGAGTTTCTCCCGATCATGAATGGTCTCGGCG
CACCAGCGGGGGGCGCCGCAAGGCCAACGCCTCTGCTAATTCGGATTCTG
ATGATCGGGGATAGCTCGGTTGGGAAGACGTCGCTGGTGCTACGATACGA
TAAGCGCGGGTTTAACCTTCGATTCACGACAACCATCGGCGTAGACTACA
GCGACCGTCTTCTGGAGCTAGACGGGAGGCAGGTCAAGCTCCAGGTGAGA
CTCGAGGCAAAACGAAAGAGCGTCCATTGCTGCAACGTGTGATCGCGTTT
TACTGCATTCCAATGCGTGTCGTGGTGCACAGCTCCGCGAGGCCGTGTGT
ATGAGTCTATGTCCGTGTGTCTGTGTTCGTGGTGTTGTTGAGGTGGCGGG
TTGCTGCTTCGCTGTTGAATAGGTTCTGATGCCGTTGCTCTTTCGATTTT
AATTTAATTTGTACTCACCGAGAAGCCTCCTATTCTGTTTCCCCAATGTA
TGTACTGTATGTACACCAGTAGTCCCTCCGTCCCCCAAAAGTTATTGGCA
GCTGCCAGCATTTACACTCTTTGATGGGTGCAACAGCAGCACACCAGCAG
TAGCGCACGTTGAGAAATACTCCGTAGTTATCTTCCAATCTAACCTTTCC
AATTCCACACGACAGCAACTGTCCCCGCTCGCTGCACAACGTTCCATCAT
CCCGTTGGTGCCGACAAGATTTGCACGGAGTTCGTGCACATTCGACACAC
GTTTACGAAGTCCCCCGCATCGCGTGACGTGCGCTCAGAATTTAAACACA
CACATCTCCTTGCAGCACAAAAGAACCATGCATCTCGAGATGAAGCACGA
TCAAAAATTGTTCCAAACGTCTCTACAGCTTTAACTGCTTTACCTACAGG
ACACAGCAGGTATTACTCCGTACGTAGTAGTATCGTGTAAATCGTCCGTC
ATACAAGACAACAACCTACCAATACATCCTACGATAATTACAGCAGTCTT
GAGAGTCTGATGAGCTTATGAACATAAAAAGATGTATGATGAAACTCTAC
TGCTGCTGCAGAGGGTAACGAATGCACTCACATTCTTTCTTTTTTGCCCT
TCAAATAAATCCCGACGCACCGCAAACGAGCATCGGAGATTCCCATTGAC
CTCAAAGAGGTGGTTTCGAGACTTCGAGACTCGAATGTTTATGTTTTTAT
CAAACATCCCGAGCTCTTGGTACAAATCTGCGATTTATCCCAAAGCGTAC
CGTGGGTGTAAAAGACTTCGAAGTAGAGAACAACTACAGCAGTAGTAACA
GGCACTGGACTGGTACTGCTGTTGGCCATTACTGCTGCCGTACTGCTCTA
CTCCTGTACTTCTGTGCATCTGCTGAAGCTTTGCGTGATGGCTGCAACTC
GCTGTACAGACCAGCAGACAGTACCTCGTGAGGCGATCCGTTAGAACCAC
TGGCGCAACTCTTCTTCCTGCCCAGAATATTTATTCCGTACCGGGTGCAC
GTTTGAGACGGCGGCTGCTTTGGTCTTTCGATATACATGAGTAGCACGCT
CGTTCCAAGCAGTTGAGTGTGTGCGCGTGTTGTCATCCTATCTGTTGTGG
GCCCTGCAGTACTTCGGTATGATTTCCAGCTGATGGGTAGGTTCAGCACT
CCTGCACAGAGACAGTACTTGGACTGTTTCTTTTACCTTCCTCATGCCGT
TAAGGCCGCCGGAGAATCGGTTTCGAGTTGTTGCAGGCTTCCGACTTTCG
ATTAAAGTCTGATTATTCGATTATTCCGGGTTTCCAAAGTCCTATCTTGT
GAGTATAATAAAATCTACCGTCGCAGAGTGCATCAAGAGGCAGTCGCCGT
GACCAATGAGTAGTGTCTAGGATCCAAGTCCTTGCCACACACGAAGTACT
TTGTTCCACCTGTACAGATTCGCCGTCTGATTTATGAAACGAGCCTTCCT
TCATCGAGTGCTGTGGGCTACCAGGCGTAGTTTGGATGCTGCAGTAGCAG
CTGTGTTTTCGAAAGACTCCAGCACACAACGAAAAGAAGAGCATACGTGA
ATACCTGCGACCGCTATTCCAGCACAATGCTCGTCCCACATTCCCCACCC
ATTGCCGTGATTGATTTGAAGGCCGTAGGCACGCACGTATGCTCTGATTT
TCGGGCGCTGTGTGCTGGAAGCATTCAAAAGTATGGCCGCTATATCAGCA
TTCGAAATGCGCCTCGTAGCTCACAGAACTCGATGAAAGAGGGCTCGTTT
CAAAAATCACAGATCGCGAATCTGTGCAAGTACTATGATATGCCGCGAGG
ACTTTGATCCCAGACATTAGTTGTTGGTCTCAGCGACTGCCTGTGGCAGC
ATTATGCGATGGTGGATTCGTACGGAAGATAAGAGCTTCGACGATCAAAA
CAATGAGGCCCATGTCGAAAGCCTGCGAACAACCTTGCAACCCATTCCCT
GGTGTCCTAAGGGAGCACGAAACTGCTCTCTGCTGTTGGATGTGGTTGGC
ATACAGTTTTTCGTTTGAGGTATCATTTCGTGTGGTGTTCACGAACGGTC
CACCTTCCTGGGTTATTGTTTCTCGGGTTGCCTCGCACGCAAATATCAAG
CATTCGCCTCGCGTTAGACGAAGATCTAGAGATGTAGAGCGGACAAGCAA
CGAAGACAAAGAGTGAGTGACACATAAACTGCTGTGTTTCGGCGTCCAAA
AAAAAAGCAGAAACATTGTCACTTACTCGAAGTAGATAGCAGGAGCATTA
GCATCGCGCTGACTACGAAAGGGCGTGCGTTCGAGCACCAAAGAATCCCC
ATCTGGATGGTGTCGGCTCGGTTTTCACACTAGCTCGACGCCAAAATCTG
GCCCATTGACACGAACCAACCTTACTTTGGCTGTGTCGTGCTTTACAGGA
CCAGTTCGAAAAATGCAACAAACCTGCGCCGACAGCAGTAGTGCGGTTTG
TTCTCTGCTTCCGCCAGTTTCTGTTGTGTCACAGGGTGGCTGATAGCACC
AGCCCCGCGAGATGGAACGTTCGGTGATGCCACCGATTTGTCTTTGATCT
AACAACTGCTCGTGCATCCATGTGAACGGGAGGAAAACAATCGCAGGCGA
AAGGACACACATCATGTATACGAGACTTACCGCAGAGATGCGGAGAGCAA
AACAAAGGGGGGCAAAACACCTCTAGACGTTCTACAAGTTTGTTTCACGT
TCCAAGGAAACAAATGATTTGCACGCACATGCTGTAGCATTTGCCAGGCC
GTGTCTTTTGCCAAAGCACCCTCCAAAGAGACCGCCGTGCTTATGGCACA
CATTCATCCGCGAGACCCGTAGTTAGCAATTTACGCAAATTACCTCCCCA
CAGCAGTTGTACAAGTCACGCTCCATTCAGATCGCAGCATACGTGTCACC
CTGCATTATCTCAGTGTGGAAACCTTTCTCGTCGCGTTTTTTCCCTTGGC
CAGACAGCGTAGGGTGTCCTTGGCTCGAGCTTTCACAGGATACGATTTGT
TTCTCTCATCAATTTGATGTTTCTCTGTTCTGCTTCTGGTACAGTAGTTG
GTGTTTTTTTCACTCAATTCGCTGCCGCTTCTGATGCACAGTTGAGAATA
TGCCGTTTTTTTTCTGCCGTACACAGCTATCGTATCATGCATCGTTCCTC
CGCCGTTTCGAGTCTCCAATGATCTCCCGCTGTGACCTACCTGTCTTGCG
TTTGTTGCACGCCAGCGTATTCGTACTAATTACGAGAGCTCTTCAGCCCC
AGAGCACTAAATTACGCGCGCCTTTTTTCAACTACGACCCTTCATGCCTC
GGGCCAATCATTTTCCAGCATTTCTCTATCGACCATGCGCCGCTCCTCCG
AGTCACGCAGAGCTTACCATACGTGTGTGCGTGTTTACACCTTGCTATCC
GAAACAAAATCTCTTTAACCTATACTGCTGTATCCTTGTACTTCGTATAC
ACTATATACAACGTGCACCATGCTTTGCTGGGTTTCTTGGCGGAGAATTA
ACCCAACATAGACATGCGTGTGATATTCGACTGCTGTGTTTGTCGACGGC
CTCCCTCCCTGCCTTCCACACCTCTCGCGGGAACACGGTATACCCATCAA
AAGAATTAGGAGTGTGCTCCTGGTGTACCCGCTTCGCCCCGGCGCCTATC
CCTCTCTCTTGTGTTTTTCCTCGATAATCCATCCTGCCCGACGCCCTCCA
GCTAAATTTTATTCAACTGGTCTAGTAACATGTACTTCGTACCCGAAATC
TAAACGTTTCGTCGTTGTTTTTCCCACCGTTTTTCCCACCTGCTGCATAC
ACATCCGCTGCGTTTGTTCGCGCATTTGTGCCGGTGACCTGTATCCCGCG
TGTCGGCGGCGTGGTGCGTGTTGGTGTTTGGCGGTGGTGGCTCGTTGATC
TCCTATGGTGCGTCATGTCCGATCCCCGATCGATGGGGCTGATCGATCTT
CGTAGATCTGGGATACGGCGGGGCAAGAAAGATTCCACTCTCTGACGACT
AGCTTTTTCAAGCGAGCGGAGGGTTTCGTGCTGGTGTACGATGTTTCCAA
CCGGCAATCGTTCGAAAGCGTATCGACTTGGATGAAGGATATTGTCGAGG
TGAGATTTCACTCCTGCTGTTGCCGATATCGGGTACAGTACTCGAGCTAT
GTATTTTTACACGCCATAGTGTGCCAAACATTCCGTGGCTGCGGCCGCTG
GTCCTCTCGATTGAGGGTTCTTACACTCACTCCATCGCTGTTTTGCTGTT
TTGGTTTTGGTTGATTTGTTGTGCGCTCTCGTTTTTATACTGCGGCAAGA
AGAGTCGTTGTGGAAGTGGATTTCAGAGCTCCCGAGACAACAGCGATGCG
AAGATGAACAGCAGATGGCCAACCCGGCTTGACACTGCTTATCTGCCGTT
CTTGCATGAAGTGGGTCTTGGGATACTCCGTACTGTAGCACCCTATTTAT
TTCGTGAGATGCGAGGCCGGGCGGGAGTCTGCTCGGGGCTTTTGGCTACC
GTACTGGCTTTGCCGCCGCTAACGCGACTGCACACATCCTGAAGAACAAA
GTATGCCTGATGACGTTTTCTCGGCTTGTGTTTCCCGTTCACCACCACAA
CGTGGCATATGGCACCGCACGTTGGAAATTCGGACACTCTCAACCTCTCC
TGTGTTTTGTGTTTTGGTTTGTGGCGGGTGTCTCTTGGGGGTTCCACCAC
ACTGGCGCGATGGCGGCCTGAATTCTTGCGAGATGGCCCGTCTGCAAGCT
GTAATGGCGGTCCTGATTCTCTTTGATCTCCCATTTGTCGACCCGATTTT
TGTGTGTGCGCGTGTTGCACGGTTGATCCTTTGCTGCTGCTGCCGCCGCC
GCCGCCGCCCTGTTGGTGCTGCTGCTTGGTGCTGGACGGCTGGACGTTCG
CAGCAAGGGAAGCGGGGGTCGGACGTGGTTATTTGCGGAAACAAATGCGA
CCTCCAGGGGAGAGAGGTAGCACGAGAGGAGGGAGAGCAGCTGGCAGCAG
AGCTAGGGGTTCCATACATGGAGACCAGTGCTAAGGACAATCTTAACGTC
GAGGAGACCTTCGGCAATTTAGCTTCAAGGGTGAGAGGTCGAGGTATTAG
GAGTGGTGCCTGGCAAGTACATCGCTTTGTGGGATGGACAGAAAGAGAGG
CACGAACGAGGAGATGGGTGGGACATTCGGCGTCTCGGTGAAAATACCGT
GTGGAAATACCGTTTTACACAGCAGTGCAAATTAAAGTCTTGAAGAAGGT
TAGAGGTGAAAGTTTGACGTGGAAAGAAGAGGAGGCGGGAGGGACGTGAG
GAATCGTCGGAAGGATCTGTCTGCCTGGAGGCATGAAACGATACGGTGCA
TTGTGTTTCTGTGTGGCCGCTCGATGTCCGCCACCGTACATACGTAACTC
GGAGGCTGCCGAGGGTAAGCAGATGTTAAGCGATGCGTGTCACTGGGCCG
CGGTAGACGAACGGGGTGGCTTTCCTGCAAGGATGTCTAGCTTGCTTGCT
TGCTTGCTTGCGCGTGGCTGAAGCCTAAGTCGAACCAACGGCGAAGCGTT
TGTGGGGTACCCAAAAGAGAGCTTGGCATTGGACCTAACCTACCGTTAAA
AGGTCACGCAAGATGCCACGGGACCCCATGAACAGATCCGGAAGGTTATT
TTATCCACGACACAGAAGAGGGCGCCAACGCCAAGCGGTGCGTCGTCGGA
AAGCTCACTGACGTGGCTTAAGTGCCAACTCAAACGTATCTTTCATTCTC
GGGCAAAAAGTATTATTTCTGCCGTGGAGTAGGTGTGCGCCGATGCGAGC
TAGACATCATAGCAGCTTTAAACAGGAAACGGAGGCGGTGTGCGGGGCCG
GGGAGGCGGGGTGCAGCTGTCCGGTCATACTGCCCAGTTCGAAACTGAGA
GTATCGATCCGGGGGTAGGTGGGTCTTATGCGACTCACGAATCACAACTT
TTTTATGCACACGCAATTTGGTTCCAGGAGGAAAAAGGGCGCACCTGCTG
GTCGCCTCCCGAGATAATCTCCGAGAGAGAGCGGTTATTCGATACCGTCC
GACGCGTGTGAAGAACGTACAGCAGTAGCGCGTGAAGTAGCAATCCCTCT
CCGTCGTAGGCGGAGTACGAGTATACCTCGCGTTAGCTTTTGTGTAGAAA
GTAATCACGCTGGTCGACCGCGCTTGTCGCCACATGCGGTATGCGTTACA
AGGTGACACGACGTGTGTGTGTGTGTGTGCATTGCGCCTGGTATGTTCGT
CTTGTCATTGCCGACCATCGTTGCTGCTTTCGATGTGGCACTACGATAGC
TCATCTAGGCGTTGTAGCTCCATCTAGGCCTGCGGCTCATGAGAGCACAG
CAGTATTCGGCAGGCCTTCACGCCCCACGAACCTGTTCTGTCAGGGCGGG
TCGGACCTCATCTACTTGTTGACCATTGTTTCGGCTTGCGAAAACAAGCT
CGCAAATGCCCACGCTCTCTTTCTCTCTGGGGGCAACAGCAAGCAGACTG
GCTCAGCCGCTACCATCGTCCCGATCGACTCCCTGCCCCCGGACTCCTCT
GTTGTCTGAATTTTGGGTAGGCAGACATCGCACGCGTACTTATGTTTTTT
CTTTCCCCGAATGTACATTACCAATTTTCAAAGCCAATTTTGCCTGTTGT
GTGAAAACCGGCTAGGTTTTCTTGGTCGACCAATTTCACGCAAGGAGCGA
TGTATCACCACCGCCATCATCAACACATGGTTGTCCTGCCGCCGTAATTC
AGCGGATGTGTACTCTTTTTCGACCCCCCCCCCCCGCCGCCGCCGTCGAC
GCGACCGACTCCCGCACACGTTGTTGCCTTTTTTTATTTTCTCCCACCCC
GATCTGCGATACTGCCTGACCCGCAGCTGCTTTCGTACCTGTTGCCGTAC
ACTCTATATTTTGAACCGGCTCGGGGCCTCTCGCCTCGCAGGTCAAGACC
CGACTCGAGGTAACGCAGGCCGCTTCCGACGAGCAATCCTCAGGAGAGAC
GCTGAGGCTAAACGGGAGCAGAAACGGCGGGGGCGGAGACGCCGACTCTC
TCGCTCAAAAAATGGAGTCATGTTGCACGTAGGGTCGGCTGGGCTGCATA
TTTGGGCATAGGGGCGGCGAGCAAAGCACGGATAAGGCAGAGCACAGAAG
AGAGGCAGAGACATATGCACTTCGAGTGTTGTGGAAGGAGGGCAGGAGGT
TTAACCGCTACCTCCCGCCTGTGATATCTCCGGAGATGCCCCCAACAGGG
GGGTGTGTGTTACTCTTTCGTCTGGGGTCATAGTTCCATACCTCCTATCA
TAGCCCATATCCGCGCCCCCCCCTCCATCTATGACAGCGAGAGACCGGGG
GGGCGGTGACATTGGGGATTCGTGATGTCACAATATTGGGGGCCAAGGGA
GGCGGGCAGGAGGGGCGGGGTAAATATTTGTAGGGGCAGTTTTTGGCAGG
TACGGAATTGAGTGATCAGATCGTGCTCGAATGATTTCACGGCGCGTGCC
TTAGGTGGTGGGAAGCTGTGCAGCCAGAGGCAAAATAATTGTCGGTGTGC
TTGGGGCGGCGAGAAGGATCAGTTTGATGGTTGCATCGAAGATCTCGCGT
CGTGGGTGTTGCATCGAAGATGTTTATTATGTCAAGAGACCGTGCATCGG
AAGATCATCGCGAGCTGGAGCTCTCATGCTTCACCGTGGCCGGGCAGTGG
ACTCGACCGCACTCAGTTGGTTGGCCAGGGGCGAAGTAATAGCACCCCCG
AATGGATAGGACACGGCGATTACTGCCCCTGGAGACCTGGTGGGTGATGA
TAGCAAGACAGATAGCGTAGAGTCCAAACCGCCGGCATTGTGTCAAGCAA
GTCATTATCGTAACATTAGTATTTAATGTGCTGTGGCCTCATTTGTTTTC
GGCGGTGTGTTCCATAAAAAAAAGTGCGCGTGTTTGTTTCGTTTTTGCTC
GGTGAACGAGTCTGATTTTGTTGCCTCGTAAGTTTTTTGAGATTCGGCCT
AACAGAGGAGGGGGCATGATTCTTTCCTTGGCAATGCAGAAAGCTCGGGA
TAGGAATATGGTTGGTGTGGTACGCTCTGTTGTCGCTGTGACTGGCGATG
AGCGGTCGTCTTCCTGCCCCCGCCCCTGCTGGCGAGGCTCAGATGTGGGC
GTGGCATTGTGTGGTTTGATTCGTCGGGGTTTCACGGGCGCGTCGGATCG
ATGACCTGGTTTTTGCTTTATTTTTGTTCTCCACAGGGCACACCTGATGA
TCCGTTCGTTGCGCCCCCGTTGAGAGCTTGCGAGGGTCGGAAAATAGTGC
CAAATGGCTTCCGCCGTGTGCACAGTAGACGGTAAAATCCGCCGGAATGT
GACTGCTGTGCTGGCATCATTCTTTTTTGTGCCCCCCCCCCTCCCCTCTC
CTCCTTTCGCCGCGCCTGTATGGCGTCGGCTCCATCGCCGTTTCAAGTAA
TGGAGGCAAAAAGGCTTCCCACCTCATACAGTACATCCATTTTACTGCGG
TTGTCGCTGCCCTGTGTGTTGTTTTTCTTCAGATAGTTTTATGTCGTGAT
TCTCGATGTTCTGCCGTCTCCGTTTCTTTAGTCGAGGCTGTCTGTTTTTA
ATTTAAGTTGTGTCCGGGAAAAGCAATTTCATTTCCTTCGCATGATACAG
AGCTGATGTTTCTCTTTGTGTTTCGGGCGCCGCGTTCGTTTCGTTTTGTT
TTCCTTCCGGGGGCGCCGAATCAATATCCTATTGCCGAGAGTTTTTAGTA
GGAGCACGGGCAAGTTGTGCTGGGCTGGGCTTACGGCGTCGGTGTGCTTG
GTGCTGCCTTGCATCCCTCTCTTTGTTTTTCGTTCCATTCCAACAAATTG
CGAGGTAGATTTTGATTTTTTCGCGAGAGAGGGCTGGCCCGGCGCCCTCA
CACACACACACATTCGCCAGGCGTTTCTGCTTGTGGTATGCACGTACGCA
AGACAAAGACCAGTCGGCGATTACCGGGACCTGGTGAAATCTATGTCTGG
TGAAATCTATGTGGCCACCTTGTCCGCGGTCGTGCGCGCGAGTTTTTCGA
GCTGTATCGTTGCGGAAGCGTATGACGGTAAGCTGTGCCACGTACGGATC
ATCGATGCGTGTTTTGGCGGATCATATTAGTCTAGGCTTGAATGTGGCCA
TGCATGGGTGGTTATGCTTTTCCAGCCTTTCAAGTGGTGAGAGGCACGAC
AAGAGGAGGGCGTGTTTCTTCCGAAAAACGAGGGTACACCCGGTCCAACA
GCGGTATCCTTTGAAAACCGCCCGGCGCCTTTCCCCACTACTGTTGCGGT
GTTGCGCCGGCTGCGGCTTTCCCGGCCCGGGGTGGGGTGGGATAGGAGGC
GGGAGGTACTTGGTTGTATTGCGTCTTCCCGCGATTTTTAGACGGTTGAC
CGCGCTTGACAGCGGAGAAGAACTGTGACGTGCTCATCGAGCGAGTCTTG
GTGCCCGTGGGAGTGGTGAGGGTTT
back to topCoding sequence (CDS) from alignment at P-littoralis_Contig189:225726..238250+
>mRNA_P-littoralis_Contig189.49.10 ID=mRNA_P-littoralis_Contig189.49.10|Name=mRNA_P-littoralis_Contig189.49.10|organism=Pylaiella littoralis U1_48|type=CDS|length=672bp|location=Sequence derived from alignment at P-littoralis_Contig189:225726..238250+ (Pylaiella littoralis U1_48)
ATGAATGGTCTCGGCGCACCAGCGGGGGGCGCCGCAAGGCCAACGCCTCT
GCTAATTCGGATTCTGATGATCGGGGATAGCTCGGTTGGGAAGACGTCGC
TGGTGCTACGATACGATAAGCGCGGGTTTAACCTTCGATTCACGACAACC
ATCGGCGTAGACTACAGCGACCGTCTTCTGGAGCTAGACGGGAGGCAGGT
CAAGCTCCAGATCTGGGATACGGCGGGGCAAGAAAGATTCCACTCTCTGA
CGACTAGCTTTTTCAAGCGAGCGGAGGGTTTCGTGCTGGTGTACGATGTT
TCCAACCGGCAATCGTTCGAAAGCGTATCGACTTGGATGAAGGATATTGT
CGAGCAAGGGAAGCGGGGGTCGGACGTGGTTATTTGCGGAAACAAATGCG
ACCTCCAGGGGAGAGAGGTAGCACGAGAGGAGGGAGAGCAGCTGGCAGCA
GAGCTAGGGGTTCCATACATGGAGACCAGTGCTAAGGACAATCTTAACGT
CGAGGAGACCTTCGGCAATTTAGCTTCAAGGGTCAAGACCCGACTCGAGG
TAACGCAGGCCGCTTCCGACGAGCAATCCTCAGGAGAGACGCTGAGGCTA
AACGGGAGCAGAAACGGCGGGGGCGGAGACGCCGACTCTCTCGCTCAAAA
AATGGAGTCATGTTGCACGTAG
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