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Homology
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: D7FLT3_ECTSI (tRNA(His) guanylyltransferase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FLT3_ECTSI) HSP 1 Score: 520 bits (1340), Expect = 2.330e-179 Identity = 290/421 (68.88%), Postives = 313/421 (74.35%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFRAQPQAAVLPPPR-----PSRQSSQQDGTAATSNGKNGDGATPAADCAPPIDGA--GEEISSGQQ---TDGKTTSLVAAEFNRGACSPVGEN------------PEPASPRRVAQPGVVLARPAAVKDQGIEFSEMSGEGNNAEEAKTAGGESAAVEVVSSSDGKSKSKRLLKKGHAPPGAIEEDACDLIRDHFWDRNPQILAGVARRR 1407
MANSRFQYVKKFELSDALLPDT+L+ARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEW DLVMAFGQSDEFSFLLPASS LYGRRSAKLSTSFVSLFSSSF FFWPKHFPDTPLLYPPNFDARIVSYP+A+HVRDYF+WRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRF TNYNEIPQRFRKGTTLFRA+P A P RQ S+QDG AA + G P + P A GE ++G+Q T + L A E N + +G PE S AQ GV + A K QG + G+G +E+A A A V+VVS SDGK ++KRLLKKGHAPPGAIEEDACDLIRD FWDRNP ILA RR
Sbjct: 1 MANSRFQYVKKFELSDALLPDTYLVARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWSDLVMAFGQSDEFSFLLPASSPLYGRRSAKLSTSFVSLFSSSFVFFWPKHFPDTPLLYPPNFDARIVSYPSAQHVRDYFSWRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRFDTNYNEIPQRFRKGTTLFRARPTAVAAXXXXXXXETPLRQPSRQDGAAAVDGSGDKGGRGPPVESGPISATATGGETPTAGRQAGETGVEAPRLAAQETNNRVENNIGVETIPDSRPSEDGKPEAGSEGGDAQAGVAASGAATGKGQGDKRPRGRGKGGASEKAGGAPRGDAVVKVVSCSDGKGRAKRLLKKGHAPPGAIEEDACDLIRDDFWDRNPHILAAGTMRR 421
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A6H5KZK5_9PHAE (tRNA(His) guanylyltransferase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KZK5_9PHAE) HSP 1 Score: 463 bits (1191), Expect = 3.860e-155 Identity = 290/542 (53.51%), Postives = 312/542 (57.56%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAE-----------------------CARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTA------------------------------------------------------------------------------------------EHVRDYFAWRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFRAQPQAAVLPPPRPS-----RQSSQQDGTAAT--SNGKNGDGATPAADCAPPIDGA--------GEEISSGQQ---TDGKTTSLVAAEFNRGACSPVGENPEPASPRRV------------AQPGVVLARPAAVKDQGIEFSEMSGEGNNAEEAKTAGGESAAVEVVSSSDGKSKSKRLLKKGHAPPGAIEEDACDLIRDHFWDRNPQILAGVARRR 1407
MANSRFQYVKKFELSDALLPDT+L+ARLDGHRFTKFTAEHGFTKPNDERGLLLM E CARQVMSEW DLVMAFGQSDEFSFLLPASS LYGRRSAKLSTSFVSLFSSSF FFWPKHFPDTPLLYPPNFDARI+SYP+A EHVRDYF+WRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRF TNYNEIPQRFRKGTTLFRA+P A P RQ S+QDG AA S K G G PP++G GE +GQQ T + +L A E N + +G P S R AQ GV + A K + G+G +E+A A V+VVS SDGK ++KRLLKKGHAPPGAIEEDACDLIRD FWDRNP ILA RR
Sbjct: 1 MANSRFQYVKKFELSDALLPDTYLVARLDGHRFTKFTAEHGFTKPNDERGLLLMTEPTRMRAIDLRTFGPLLVAFVSVQCARQVMSEWSDLVMAFGQSDEFSFLLPASSPLYGRRSAKLSTSFVSLFSSSFVFFWPKHFPDTPLLYPPNFDARIISYPSAQASTPVVMLRVFLWHNHYFPLPLVHSGFKGVDGVINDKVLGVKVALRRLEADERSVNPSRAEGDLRAKDIVVDDTIDALKTTVDEEKGAAEHVRDYFSWRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRFDTNYNEIPQRFRKGTTLFRARPTAVAAPXXXXXXXXXXRQPSRQDGAAAVDGSGDKGGRG--------PPVEGGPVSATATGGETPMAGQQAGETGVEAPTLAAQETNNRVENNIGVETIPDSRRSGDGKPEAGTEGGDAQAGVAASGAATGKGLSDKGPHGRGKGGASEKAGGTPRGDAVVKVVSCSDGKGRAKRLLKKGHAPPGAIEEDACDLIRDDFWDRNPHILAAGTMRR 534
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A409V997_9AGAR (tRNA(His) guanylyltransferase n=1 Tax=Panaeolus cyanescens TaxID=181874 RepID=A0A409V997_9AGAR) HSP 1 Score: 275 bits (702), Expect = 4.010e-86 Identity = 131/214 (61.21%), Postives = 162/214 (75.70%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MANS++ YV+ FEL D LLP T+++ RLDGH F +F+ H FTKPND R L LM A+ VM E+PD+V+AFG+SDEFSFLL S+ LY RR +K+ ++ SLF+S + F+WP++FPDTPL YPP+FD RIV YPT + VRDYFAWRQAD HINNLYNT FWALV G + DA L+GT S +KNE+LFSRFG NYN I RFRKG+ +FR
Sbjct: 1 MANSKYAYVRNFELPDPLLPGTYMLFRLDGHSFHRFSDVHSFTKPNDIRALQLMDHAAKHVMEEFPDIVLAFGESDEFSFLLRKSTSLYNRRESKIVSTLTSLFTSCYVFYWPQYFPDTPLQYPPSFDGRIVLYPTEQLVRDYFAWRQADTHINNLYNTTFWALVQQGGQTTTDAHATLRGTLSKEKNEILFSRFGINYNTIDARFRKGSVIFR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A5M3MYM2_CONPW (tRNA(His) guanylyltransferase n=1 Tax=Coniophora puteana (strain RWD-64-598) TaxID=741705 RepID=A0A5M3MYM2_CONPW) HSP 1 Score: 273 bits (699), Expect = 3.780e-85 Identity = 130/214 (60.75%), Postives = 159/214 (74.30%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MA S++ YV+ FEL D LLP TFL+ RLDGH F +F+ EHGF+KPNDER L +M A+ VM E+ D++++FG+SDEFSFLL S+ LY RR AK+ T+ S F+S + F WPKHFPDTPL YPP+FD RIV YP+A VRDYFAWRQ D HINNLYNT FWALV G S A LKGT S K+E+LFSRFG NYN +P++F+KG+ L R
Sbjct: 1 MAGSKYAYVRNFELPDPLLPGTFLVCRLDGHSFHRFSDEHGFSKPNDERALRVMDAAAQSVMEEYKDILLSFGESDEFSFLLRKSTQLYNRRHAKILTTLTSYFTSCYVFHWPKHFPDTPLRYPPSFDGRIVQYPSAREVRDYFAWRQVDTHINNLYNTTFWALVQQGGQSTTQAHATLKGTFSKQKHEILFSRFGINYNALPEQFKKGSVLVR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: W4K9K2_HETIT (tRNA(His) guanylyltransferase n=1 Tax=Heterobasidion irregulare (strain TC 32-1) TaxID=747525 RepID=W4K9K2_HETIT) HSP 1 Score: 276 bits (707), Expect = 5.700e-85 Identity = 132/214 (61.68%), Postives = 163/214 (76.17%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MA SRF+YVK FEL D LLPDT+++ R+DGH F +F+AEH F KPNDER L LM AR VM E+PD+V+AFG+SDE+SFLL S+ LY RR AK+ ++ SLF++++ WP HFPD PL Y P FDARIV YP+A VRDYFAWRQAD HINNLYNT FWALV G +S ++A +L+GT SG K+E+LFSRF NYN +P RFRKG+ + R
Sbjct: 1 MAESRFEYVKGFELPDPLLPDTYMLMRVDGHSFHRFSAEHNFEKPNDERALRLMDRAARAVMDEYPDVVLAFGESDEYSFLLRKSAALYNRRHAKILSTLTSLFTAAYVMHWPAHFPDEPLRYAPAFDARIVLYPSARAVRDYFAWRQADTHINNLYNTTFWALVQQGGLSTKEAHESLRGTVSGQKHEILFSRFNVNYNALPARFRKGSVMVR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A0C2YE59_HEBCY (tRNA(His) guanylyltransferase n=1 Tax=Hebeloma cylindrosporum h7 TaxID=686832 RepID=A0A0C2YE59_HEBCY) HSP 1 Score: 275 bits (702), Expect = 7.390e-85 Identity = 129/214 (60.28%), Postives = 165/214 (77.10%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MANS++ YV++FEL D LLP TF++ RLDGH F +F+ +HGFTKPND R L LM A+ VM+E+PD+V+AFG+SDEFSFLL S+ LY RR +K+ ++ SLF+S + F W K+FPD PL YPP+FD RIV YP+ +H+RDYFAWRQAD HINNLYNT FWALV G + +A L+GT S +K+E+LFSRFG NYN++ RFRKG+ LFR
Sbjct: 1 MANSKYAYVREFELPDPLLPGTFMLFRLDGHSFHRFSDKHGFTKPNDVRALQLMDHAAKDVMTEYPDIVLAFGESDEFSFLLRKSTTLYNRRESKIVSTLTSLFTSCYVFHWAKYFPDLPLQYPPSFDGRIVLYPSDKHIRDYFAWRQADTHINNLYNTTFWALVQQGGQTTTEAHATLRGTYSKEKHEILFSRFGINYNQLDARFRKGSVLFR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A0C2X7D8_9AGAM (tRNA(His) guanylyltransferase n=1 Tax=Serendipita vermifera MAFF 305830 TaxID=933852 RepID=A0A0C2X7D8_9AGAM) HSP 1 Score: 271 bits (694), Expect = 3.820e-84 Identity = 125/214 (58.41%), Postives = 166/214 (77.57%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MANS++ YV+ FEL D+++P TF+I RLDGH F +F+A+HGF KPNDER L LM A+QVM +P++ MAFG+SDE+SFLL + LY RRS+K++++F SLF++++ F W + FP+TPL YPP+FD R+V+YP+++ + DYFAWRQAD HINNLYNT FWALV G +S +A ALKGT S K E+LFSRF NYN +P RFRKG+ L+R
Sbjct: 1 MANSKYAYVRSFELPDSIMPSTFMIVRLDGHAFHRFSADHGFEKPNDERALRLMDAAAKQVMKAYPEVAMAFGESDEYSFLLRKTCNLYNRRSSKIASTFASLFAATYTFSWAEFFPETPLQYPPSFDGRVVAYPSSKEIIDYFAWRQADTHINNLYNTTFWALVLQGNMSTSEAHNALKGTISSQKQEILFSRFQINYNTLPDRFRKGSVLYR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A409WZW4_PSICY (tRNA(His) guanylyltransferase n=1 Tax=Psilocybe cyanescens TaxID=93625 RepID=A0A409WZW4_PSICY) HSP 1 Score: 271 bits (694), Expect = 9.210e-84 Identity = 129/214 (60.28%), Postives = 165/214 (77.10%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MANS++ YV+ FEL D+LLP TF++ RLDGH F +F+ +H F KPND R L LM A+ VM+E+PD+V+AFG+SDEFSFLL S+ LY RR +K+ ++ SLF+SSF F WPK+FPDTPL Y P+FD RIV YP +++RDYFAWRQAD HINNLYNT FWALV +G + +A L+GT S +K+E+LFSRFG NYN++ RFRKG+ LFR
Sbjct: 1 MANSKYAYVRNFELPDSLLPGTFMLFRLDGHSFHRFSDQHEFKKPNDVRALELMDHAAKDVMTEYPDIVLAFGESDEFSFLLRKSTTLYNRRESKIVSTLTSLFTSSFVFNWPKYFPDTPLQYLPSFDGRIVLYPEEKYIRDYFAWRQADTHINNLYNTTFWALVQEGGQTTTEAHATLRGTFSKEKHEILFSRFGINYNQLDARFRKGSVLFR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A0D2P8S9_HYPSF (tRNA(His) guanylyltransferase n=1 Tax=Hypholoma sublateritium (strain FD-334 SS-4) TaxID=945553 RepID=A0A0D2P8S9_HYPSF) HSP 1 Score: 272 bits (695), Expect = 1.090e-83 Identity = 127/214 (59.35%), Postives = 162/214 (75.70%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MANS++ YV+ FEL D LLP TF++ RLDGH F +F+ H FTKPND R L LM A+ VM E+PD+V+AFG+SDE+SFLL S+ LY RR +K+ ++ SLF+S + F WPK+FPD PLLYPP+FD RIV YPT +H+RDYFAWRQAD HINNLYNT FWALV G + +A LKGT S +K+E+L++RFG NYN++ R+RKG+ L R
Sbjct: 1 MANSKYAYVRNFELPDPLLPGTFMLFRLDGHSFHRFSDTHEFTKPNDVRALQLMDHAAKDVMEEYPDIVLAFGESDEYSFLLRKSTALYNRRGSKIVSTLTSLFTSCYVFHWPKYFPDRPLLYPPSFDGRIVLYPTEKHIRDYFAWRQADTHINNLYNTTFWALVQQGGQTTTEAHATLKGTFSKEKHEILYARFGVNYNQLDARYRKGSVLLR 214
BLAST of mRNA_P-littoralis_Contig19.76.2 vs. uniprot
Match: A0A166L6M4_9AGAM (tRNA(His) guanylyltransferase n=1 Tax=Fibularhizoctonia sp. CBS 109695 TaxID=436010 RepID=A0A166L6M4_9AGAM) HSP 1 Score: 270 bits (691), Expect = 1.350e-83 Identity = 130/214 (60.75%), Postives = 158/214 (73.83%), Query Frame = 1
Query: 211 MANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTKPNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSAKLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYFAWRQADCHINNLYNTCFWALVADG-VSKQDAQVALKGTTSGDKNELLFSRFGTNYNEIPQRFRKGTTLFR 849
MA SRF+YV+ FEL D LLP+TF++ RLDGH F +F+ EH F KPNDER L LM A+ +MSE+ D+V+AFG+SDEFSFLL S+ LY RR K+ T+ SLF+S + F WPK+FPDTPL YPP+FD RIV YP +H+RDYFAWRQAD HINNLYNT FWALV G S A L+GT S K+E++ SRF NYN+I RFRKGT + R
Sbjct: 1 MAGSRFEYVRNFELPDPLLPETFMLCRLDGHSFHRFSDEHAFVKPNDERALKLMDHAAQDLMSEFKDIVLAFGESDEFSFLLRKSTSLYNRRHTKIVTTVTSLFTSCYVFHWPKYFPDTPLKYPPSFDGRIVLYPGDKHIRDYFAWRQADTHINNLYNTTFWALVQQGGESTTQAHATLRGTNSSAKHEIMHSRFQMNYNDISARFRKGTVIVR 214
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 | 2880.D7FLT3 |
| Preferred name | THG1 |
| PFAMs | Thg1,Thg1C |
| Model size | 1645 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K10761 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000966,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0006139,GO:0006396,GO:0006399,GO:0006400,GO:0006725,GO:0006807,GO:0008033,GO:0008150,GO:0008152,GO:0008192,GO:0008193,GO:0009451,GO:0009987,GO:0010467,GO:0016070,GO:0016740,GO:0016772,GO:0016779,GO:0034470,GO:0034471,GO:0034641,GO:0034660,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0044237,GO:0044238,GO:0044424,GO:0044464,GO:0046483,GO:0070568,GO:0071704,GO:0090304,GO:0099116,GO:1901360 |
| Exons | 5 |
| Evalue | 1.34e-181 |
| EggNOG OGs | COG4021@1|root,KOG2721@2759|Eukaryota |
| Ec32 ortholog description | tRNAHis guanylyltransferase Thg1 |
| Ec32 ortholog | Ec-26_001350.1 |
| EC | 2.7.7.79 |
| Description | tRNA guanylyltransferase activity |
| Cds size | 1368 |
| COG category | BQ |
| BRITE | ko00000,ko01000,ko03016 |
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 |
|---|
| 1680789909.6893044-UTR-P-littoralis_Contig19:404596..404831 | 1680789909.6893044-UTR-P-littoralis_Contig19:404596..404831 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig19 404597..404831 - |
| 1680789909.7596183-UTR-P-littoralis_Contig19:416239..416281 | 1680789909.7596183-UTR-P-littoralis_Contig19:416239..416281 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig19 416240..416281 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789909.7061503-CDS-P-littoralis_Contig19:404831..405529 | 1680789909.7061503-CDS-P-littoralis_Contig19:404831..405529 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig19 404832..405529 - |
| 1680789909.7183902-CDS-P-littoralis_Contig19:405925..406013 | 1680789909.7183902-CDS-P-littoralis_Contig19:405925..406013 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig19 405926..406013 - |
| 1680789909.729009-CDS-P-littoralis_Contig19:406349..406443 | 1680789909.729009-CDS-P-littoralis_Contig19:406349..406443 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig19 406350..406443 - |
| 1680789909.7377162-CDS-P-littoralis_Contig19:410716..410868 | 1680789909.7377162-CDS-P-littoralis_Contig19:410716..410868 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig19 410717..410868 - |
| 1680789909.7491543-CDS-P-littoralis_Contig19:415903..416239 | 1680789909.7491543-CDS-P-littoralis_Contig19:415903..416239 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig19 415904..416239 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig19.76.2 >prot_P-littoralis_Contig19.76.2 ID=prot_P-littoralis_Contig19.76.2|Name=mRNA_P-littoralis_Contig19.76.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=456bp
MLGAGCIVAAIFAPQHSSSSSSSSIHHRSSLSQQVVSTAQSLQRYSSSPR
VTPITIMANSRFQYVKKFELSDALLPDTFLIARLDGHRFTKFTAEHGFTK
PNDERGLLLMAECARQVMSEWPDLVMAFGQSDEFSFLLPASSLLYGRRSA
KLSTSFVSLFSSSFAFFWPKHFPDTPLLYPPNFDARIVSYPTAEHVRDYF
AWRQADCHINNLYNTCFWALVADGVSKQDAQVALKGTTSGDKNELLFSRF
GTNYNEIPQRFRKGTTLFRAQPQAAVLPPPRPSRQSSQQDGTAATSNGKN
GDGATPAADCAPPIDGAGEEISSGQQTDGKTTSLVAAEFNRGACSPVGEN
PEPASPRRVAQPGVVLARPAAVKDQGIEFSEMSGEGNNAEEAKTAGGESA
AVEVVSSSDGKSKSKRLLKKGHAPPGAIEEDACDLIRDHFWDRNPQILAG
VARRR* back to topmRNA from alignment at P-littoralis_Contig19:404597..416281- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig19.76.2 ID=mRNA_P-littoralis_Contig19.76.2|Name=mRNA_P-littoralis_Contig19.76.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=11685bp|location=Sequence derived from alignment at P-littoralis_Contig19:404597..416281- (Pylaiella littoralis U1_48)
CCCTCACACAACAAACAGCGATAGAGGAGTACTTTGCGACGCATGTTAGG
AGCTGGGTGCATCGTGGCCGCTATCTTCGCGCCTCAGCACAGCAGTAGCA
GCAGCAGCAGTAGTATCCACCATCGCTCCAGTCTCAGCCAGCAGGTGGTG
AGCACCGCGCAGAGTCTTCAGAGATACTCCTCGTCGCCTCGTGTCACGCC
CATCACGATCATGGCCAACAGCAGGTTCCAGTACGTGAAGAAGTTCGAGC
TTTCTGACGCGCTGTTGCCAGACACCTTCCTGATCGCTAGGCTAGATGGA
CACAGATTTACGAAGTTCACTGCGGAGCACGGGTTCACGAAGCCCAACGA
TGAGCGAGGGCTACTGCTAATGGCTGAGGTGGGAATACACAGGTCATCAG
GTCACTTGAGATACCACCCCCCCTCCCGGGTTAACAAAGCCAAGAGAGAG
GGCCTCACTGCGTGCAGTATCGAGATTGAATCCGGTAGTCCTCAGGTCGC
ATGAGGAACCATCTCCCCCAGACCGATTTCCGGAGCTCGAGTTCTCCTCC
TGTGGGCACAACAGTTGTGGGTGCCGCAAAACGCCTGGGCCAAGGAGTTG
CAACCACCTCGTCGCGAGCTTTCCAAAAACGTGTCCTTTGAGGTTGGTTT
TGGTGCCCCCTCCTCTGCAGAGTATTCAGAGCTTTGAAAATGAGCCAGCA
GCTAGGGGGATTCCTCGTGCTAAAGTGGTAATTTTCAAGGACCCGATTTT
GGTTGTCCCTCCATAACTTTTGACTGAGATCGAGTAAAAGAAAAAGAAAA
ACAGCTTCGGAACGCCCGCGGCAAGGCGCAAAATAGTAGCGAGTCGCCAA
AAAAAAAAGAAAAAAAAGAGAAAAAAAGAGAAAAAAAGAGAAAAAAAGAT
GCCCGCAGCGGGTCTCGAACCCACGAAATTGGCCCTAGAGCAACTTTTCC
CCTATATATTTTCCTAATCCTTTTTTTTTTTCGCACCAAACCACCCACAA
CGTGCACAAGAACGCCCACAAACACTACGCAAATGCCTCTACCGCACGTA
AAGCGTACATACATCAGCCGCGCCACCACTTTCGTCACAAAAATTGGCCG
TTTTCATCAATAATGTTCCATTGTTGTACAACATTCCCACCAGAAACACG
GACAAAAACTGAACAAATACAGCTCAATGAACAAAATGCGCCATCGACTC
TACGGCCTCCATTCCTTCGGGGTCGGGCGCCTGTGCGACTTGTACTTCTT
GTACGTCTTCTTGCCCTCAGGCCCTTGCACACGCGTCTCGCGGTACATGA
GGGCGTGTGTGTACGCCTTCTTGCAGTAGCCCTGGACTACCGAAACAGCT
TGCCTATCTTTCTCTGGTCTAAAACTCAGCGGCACGTTCTTGCGCAAGCA
TTCCAACGAATATTTGCAGTTCTTTCGAGTCCAGTCCTTCGCTCGGCCCC
AAACAAGCTCGATGGGGTTACACTCGCAGTGGTACTTAGGAAGCATGAGA
CAGGCCCCCCGTGGCGCTGCATCAACAGCACCAGACTAGAATCAACTTCC
TTGAAGTCCTTCTGCTCGCCCAAAACGTGCTCCATGCTCTTGCTGAGGTC
CTGCTTTTCGCCCGAGCCCCCCGTCTTACTCATGCCTTTGACCAGGAGCC
CCCTCTCCCACAAAATCTGCCGCATTCCTTTCAACTTTCCGACATATTGC
GCCGGCTTGAGATGCGGGGAGTGGAAGGGGGGATCGTCCCCCCTCCGAAA
CACCAAGTGCTGTACCGTGCCGGCTGGGAGGCTCGGAGTATCTTCGAGGA
TGGTCACGGGGTCCATCGGCGCAAGCTCTTCTCCGTTCCTCACACCACCA
ACACCCAAGTTCATTCTCTTCACCGACGGTGCGCCGACCTCCATGCAGTC
ATGACAGGACGACCAGTCGAACAGGCCTACAGGCTTGTGCTCAGGGTAGA
GAACTGTGAACATGTCGAGCACGTCTGACATGTGGTCCAGCATCCTCAGC
CCGGTCCAGTATCCCTCCTTGTTCTTGCCGTACTCGAAGAGGTGGTAGGA
CCAGTACTGTCCATGCTCGTCTTCATGAAGCATGTCGATGGGGCGGAACT
TCTCCACCTTCACGTTTTCCCCCCGTCGCTTCGCGGCAGCTGAGGCGGCG
CATCGTTCCCTGCGGTTGCGCTCCGCGTCCTGGATCTGTGCCCGCGACGC
CGAGAAGAAGCCAACGTTGTGGATTATCGTCCCCGACACCATGATCCCCT
GGCCTTGTGACTTCTTCACGGGCACATGCTGGCCGTCCCGATACCACGCG
CGCCTCTGGTCGTCGTTGGCTGCAAATACAAACAAGAAACCGACAATTTA
GGGGCGGCAGATGTGGCGCTGTCAACATGTGTGATTAAATTTAAAGTCCC
ACAATTGAATTGCGAGCAAGATTATCGTTCGCGCCCGGAATTTACACCTA
AAATATCAAACCCGCTTTGCTCCGTTTAAAACTAACCTCGAAATATGCTC
TCGTCCTGGTAGAGAAGCATGGCCCGCCTCCCGTCAGGGTAGGTTTTCTT
GCTCTGCACTCTGGCTTGCAGGTCTTCGGGCAAGTCTGCCAGCGCAGACT
CGAGATCATCGACACAAACCCAGACACCACCATCCGGCAAGCGCTCAGTC
TCCTCCACCGTCTCGACGTCAACACCCCAGACGATCGCTTCCTCCTTGCC
CATCGGAATCCATACCTCCATGTAGTCGCGGGTGTCGAACAGCGCCGGGA
GGAACTCGTCGTGCCGGTATTCAAGGGTCTTCTCGTCGTCGTGGCCATCG
AAGTAAAGCCCCTTTTTGCCGTCGTGGTATTCGCATCCCATCTTTTTCAG
CCACTCCGTTGCCGTAGAAAGGGAGATTTGGCGCTTTGGCGGCTCGTTCT
CCTTCACTTCCACCAGCTTTACTCTCAATCCATGGAAAGCGTTGATGCCG
TCCTTTTCCTGCTCCTCCAGCATCGGCATGATGGTGCTGTTCACCCACTT
GCGGAAATCCTCCGCCGTTTTATTGGCTTGCCCACTGAGTATCCCGCAGT
TCTCGAGCACCCAGCCTTTCGCGAGCTTGAAGACGCCTTCGTCGAGCTCC
AGCAAAAACCTGCGCTTGAAGCGACCTGGGTCAGGTTTTTTAATGCGTCC
GTGGGCGATGAAATCCCGCTCCCACTGCTGTACTGTTTGAACGGTTCTCC
GTCCAATCTCTGCTGCGATGGCCAGTGCATCCTTCCGGTCGAAGCCGTTG
GCCTGCTGGGTGTACAACTGGATCAATGTCATGGCCACCTGCACCGTGTG
CGCCAGCTGAAAGTTGGACAAACAGCTGTCTTCCGTACGTGTATCCTGCG
CGAAGGGGAGTGTCGAGGGTGGCAATAAACCTTTAACTTTCAGTGGCCAA
TTTTTGACAGCAGTATTTCAAGTGTAATTTTTCATGGTTGAGTGGGTGCG
AAGTACGTGCAGGTTGGTCAAACTCCGACGGCGGAGGTTGCAGATTGTTG
CCGCCCGAGAAACCCCGCCACGATAAATTAATAATAATGTCGGGAGATGA
ATTACAGCAGTGTAGATTATTACAGACCTCAGAGCCCCCAGGTTCGAGCA
CGGCATGCGTGAAGAAAAAAGAGGATCACACTTAATTTAGACTCTGTAAA
CTACTGCCCTCACATCGTCCATCTCCGCGGCTGCGCTGATCGTCTTCGCC
ACATCCCTCACAACGCCGTCGAGGAGCTCGATGCTCTCAGCGCGAAACTC
GTCCGCCGCTGCCGCCAGCACCCGAGCTTTCATCTCCGCCCCTTTCGCAC
GCCTAATCTTCTTTGCAGCTTGGGATGTGCTGTACGTGCCCTTGTTCAGG
TATCTCCTCTTCGCCTCTTCGGCCCACTCGGGTTCGAACTCTATCCACGC
CCGCACGACTTCTTCCAGACTGCTTGCAGAGAGGTTGAACGCCCCAGGAA
CGGCCTCCTCTAGTTCCTGCCGAAGTGTCAACGCACGCATCCGCCGGGCC
GCCCTCCCCAACTTTCCAAAGGGCCGCCCACTGTAGTCCCGTTGTCCACC
CCAATTTGGATCTCGCGATCTTTGCGCGCCTGCGAGACCGGGTTCTTGTA
GTGAACCAACGGCTGGCGCTGCGGCTCGAACTGCGGGTGCTGTTGAATCC
CGCGGTGGTGCTCTCTGCATCGGGGCGTACGCTGAGTTCTTGAGTTGAAC
GGCATCCCAGTCAGCAGCAGTCACCTCGTCTATGATGGTTCCCTCCGCGA
CGGCGTCGCGGCCGCGTGGCTTCCCAGACGTGATCCAGCGGCTCCGCCAT
TTCAACTCAGTGTTGTTGGCTCGCGACCTTGAGTGCAGCACTAACCGATA
CTTTCGTGGCTTCTGTCTCTCGATGCTGAGCTTGTCGCGCAGCGTGTATC
CGTCGGGAACCAACTGCTGCAGGCAGGAGACCCTCTCTTGGTCGAGTTCC
ATTTGGTTGCCGGTCTTCACAACAACATGTGTACATCTACCGGCGGCTGT
GTGCGACGCGGCCTAAGCGGTGGTTCGGCCGCGATTTTTTTGAAATTTGA
AACTTGGTTTATTTCGGTCTAGGGCCTGGCAAACAAGAGTTCAGAACCAG
AGGATTTAGAACCAGTTTGTTTCAAGGATTCCGAAAAAATATTTTTTTTT
TTTCACAGCGGTGGTGGGGGCACCACAAATCGTAATTAACCGGTTCCGCC
GCGTTTTTGGTGAAACGGTATATTCGGCATAACTCGTCACCAAGGTGTCT
GTGAAAGCTAAAAGTGGGTTCATTCGAAAGCCCTGGTTCATAGCTTTCGA
ATGGTGTATATTTTGTTGGGTAAATAACCAGGCCCTAGAGAGAAATTTAT
CAAGTGGCCTGTGGGCGGGTCCAGGAAAACTACCACTTTATCGCGTTAAA
TTGAGAATGCGGCGGTACAGGCTCACTTGGCGTGCAGAGTACCACAGTAC
CGGATTTGAAGAACGCGGTTGCACCGTGTTTACTGCTGTATGAAATGTCA
GTCCTAGCATGTCTCGACGTTCACCTACCGTACTCTCCCTCGCTTTGGGG
GTTCCAGGACCAAACGCGCCAGGCTCCTTCGACCATCATACCAGAGGAGA
GTGTCGCACGTTTATCACGCATCCGGGATAGAGGCATATGTCGTACAACT
CTACATCTTTCACCACACACACACACACACACACACACACACACGCATCA
CCGATAAAATCAAACTTGCATTTTCTGAACAAAGTCTAGTGTACAGCCGC
CTCTTCGCAGTTGACAGGCACCGAGTTGCAGAGTTGAACGCCCTGTACTC
CAGCTCCATGGGTTAATTGAGGGAAGCTTAGCTCCTCCTTCACCCCGTAC
CTAGCAATAACGGTACCATTTTCCTGACATGCTTCGTACTGTCGTATCTC
TGCGGGCACGCAGTGCGCGCGGCAGGTCATGAGCGAGTGGCCAGACTTGG
TGATGGCCTTCGGGCAGAGCGACGAATTCAGCTTCCTCCTTCCGGCGTCG
AGCCTGCTGTACGGGAGGCGGTCAGCAAAGCTCTCCACCTCCTTCGTCTC
TCTTTTCTCGTCCAGGTGCACTTTATGTATTTAGCATGTGTGATACACGG
CGCTTCTCATCTCTATTCTCATCCAGGTTGACCAAAATAAATATAGGCAA
TGCGGGCTTAATAATCTATAAGCAACGCGGGAACTTGAGTGCGGCACGGT
CGGTTCATGGTGTCCGGGAAGAAAATACCCAACTCAAGTCGTGGTGTACA
TGCGTACTGTACTGCGAGTGTTTGGGCGAAGACAGCTTCGTGTCAGAAGC
GCGAGCAGAGAAAGGCTGACCCCAAGACCTTGTATATTAATGAGAGAGAG
CTCCCATAGAGTGAGACATCACGTCCCATGACACACATACCCGAGGGTCC
CCGTAGATCAGTATCTAGTGCCGGGTACTCCCAAACAGCCCCCCTGCTCG
GTACTCGATACGGTCTAGGGAACTCTTCACGTATCATATCACCAGGTAAA
ACGGCAATATCCTCTAAGTCCAAAACCATAAATAATCCATCATGCCAATC
CAATCAAATCTCCCAATAAACTACGAAATCTGTCGATCTCCCAATAAAAC
TCTGTCCTACGAGATTTTCCGGATTTAATGATGATATCAAATTTTGATTC
CCCCTTGTGTACTCAAAAGGTCAGTCAGTAAGCAAATAACCCTCTTGAGA
ATTTACGACGCCAAGCATCAAAAAAACATATTCTCAAGCCGTCGAAACAT
CGGAGTTACCCTTGGAAACATCCATGCGAAAGTCAACATTCCATCAGAAA
AGGGTAGAGATAAACAACCAACAAAAGTGAAATTCTACCGACTAGTATTG
ATTTTCCGCAAGAATGCAATTCATTCGAACAAACTCCTCGAACAAAACCA
CAGATTGCAACTTATTGACCAATTCAAATAATCTTCGGAAGCACTAAAAG
CCTCAACAATAGTTTATCAAAACACGCCAAATCCTTCCTCCGAAACACAA
AGAAAAGCAAAGTAGTAAACACATGATAAGGTGAAATCCCAACGTGTTCG
AAAACGTCATGGAACACAACCTGAATTACCACGGTTGTAGCTTCAGCATC
GAGACATGAAGCAATATCCAACCAGCCAATACCAAATTGTTAGCCCCCCT
ACCGTGACATTCCTTCAGAGCATGCAAATCCATCGAGATGTATTCAAACC
ATCGTGTCTGTTAGTAGCCCCGCACAATGCTCAGAAGTACTGCAAGTTGA
AACCGGAACACACGCCTTTTCCTCAAACTGTTCGCAGGTAAAACGCGAAC
GAAATCCATCTTTTTCCCGATAACACAAAACATGATTCTCCCACGCCACA
TGTCTGCACGTTGCCCCCCCCCGCCTTCAGAGGGAAGCAGCAAAACTGCG
ACATACAACCAGAATCCTATCCGACATGAAATCCCCTGCCGATTTCTCAG
GAAATACCTCATTCCAAACATCAAAAGTGCAAACCATGAAAAAATCTGTT
GATACGGTGACGAGGATCATGAAACACTACTTTCCCCCCCATCATTCTCG
ACACACCATACTGCAGCACGACACATAATCTCCTCCTGATTGCGCGGGAG
TATGCATGAATTCAAACACCAAAAATGCAATGGCGCGAAATGTGTTGATT
CGACGATAATTATGATATACTCAATCTCCCCCCCGTGATTCGAGAAAGCA
GTACCAAAATAGCGCAAAAAAATAACGCAATGTGCACACGGAAAATAAAG
TACCAAGAAAAACACACTATCGAAAGGTAAAAGGCTCACACCATCGAAAG
AACGCGAATGGCCAGTGCGTATTGGACTGAGAGGTTGACAAATCAGTGTC
TGCACAAAATTCAAAATTTGGTGTGCAAGTAGGTAGCTGCAAACGGATTG
ATCTGAATGCCCCTCCCAAAAGTTTGCACCGGATAAAAATAAACGCCTGC
GCACACCACTCAGTTAATATAGATACGCTGCCCCCCCAATCTGCACGACC
GCGTCAAACGCATCAAACTGCCGCATAGACCGAATTTAAATGAAAGCAGA
ACCAAAAACAAAAACTATCCAACTACGGTAAATTTTGTGCAACATTTCTG
GAGTATTTGGATGAGCGGGGGGGTAAAATTTACGATGGGATGGACTCATG
TTGCAAAAATTACGCTCTTGGAAACTACGCCCCAAATCCAAAAGAACAAA
ACATGTGACACACACATGACCGAAAATGTCACTCGAAAACGAAGAACATT
GCACAAAACCAAAAACCAAAACAGGTACACAAGCATTAACGTGCCTGGAC
GGGTGTGAACACCCTAGCTGACGGCGTGTCGCTGTTGTTGCTCGTCGGAA
ACACCACTCCCCCAGCAAGAAGTCCATCACCCTTCATGCTGGAAACGCTA
AACTCTTTTCCCACGATCAAACGGGTGCGACATACTCAGCACAATTCCCC
TTCTCCCCGCGATGCTCGATGAAATTTTCCCGGGGTCGAAAGGGCGTGTC
AGCGCTCCCCTCCAGGCTTTATCCAGCTCCTCATCGCTGCTGGCACCACC
GTCACCGTCGCTCCTGCTGCTGCTGCTGCTGCCGCTGTTGCTGGTTTCGC
TGCTGTCATCAACCTCCTCGGCACACCCTGTAATTTGCCCATGGTCGAGA
GAGAGGAGGGCCACCCCCAACACTGCCCCCCCGTTTTCCGACGGCGATAC
CTCCACCGGATCCAGCTGCTCGCCCCCCAGAGGCGACGCCATAACCGAAA
TCAGCTGCGCCTGAGTTTGCATCGGCAATGATGACAGCTGGAGGTCGGGT
TTCACCAACCCCGACTGCCCCACGACTGACGTTGAGCGGTGCACTGCCGA
TGAAGGCGACCCCGACAACTGTTGCTCGACCGAGCTTCGGCCGTCTCCAG
CCGCGGGTGCTGGCACCACTGCACACGAACAACATCCCTGCTCCATCAGG
TCCAATTCATCTGCTGTGGCCGTCGCTGTGGCCTGGTCGTGACCCACCGA
ACCTTGGATGGCTGCATTGGCGCACATGACTGCTTTAGCGGTGTTCGCCC
ATTTAATCTGTTGCAGAAAAATCTCTTTCTCTACCGGAGACCAAAGTGTT
CGAACGTTTTGGCCAAAGTACCCGTCCATCTGGTGATTGGCGCCCTTCCA
GTCAGCGACCAACACACCTTCCCAGTCCAGACAGAACCCACAGCGGGTGA
TGCCACAGCGGTATTGATGGGCTAAGGAATCAAGGAGCTCCGCCCTATCA
CATGCCAGCGAAATCATACGTGTGCGACCGGTATAACTATCAAAGAGAGG
GTACACGCTCGGCGGGGAAAGCTGCTGCTGCTGCTGCGGTCGAGTTGCGC
CGCATATTGCATTCATTTTGGCTTTGAAGCCAGACCTCTTAACAGCAGGA
CTCGTACCATGCTGCTGCACCATGATGGCTCACACGTATACCGGAGTTAT
GGTCACTGATTTCCGTCCCGATGGCTGTTGCATCCCTTGCAGTCGTTGGG
GCCGTCTGCAGCCTTGTCACTTGTTCCTCCACCGCTGCTATGGCGTTCGA
AGTCGCTGACCAGCATCCACACACACACACAGAGAACACCCCACACACAC
TGCCGCTCCGAAAATCGACGCGACACACACACCGCCGTGCCGAGAGTTGA
CACGGCACTTACAACACAAATACCGCTGTTCCAAGAGTTGACACAGCTCT
CCATGCCGTTCCAAGAGGAGACACGGCTTGCCGTTCCGAAAGATGACACG
GCTTTCCCAGGAAAAATAAAAATAAAATTAAAAGGCTGCTTTGTAGCACG
TGTCAAGAAGTAGCGCGTCTCATGCAGCAGCTCCAACGCGAATACCCAGC
TGCCTCCACACAGGCCGATCGATCGATCGTGTCTGGGCGAAGACAGCTTC
GTGTCAGAAGCGCGAGCAGAGAAAGGTTGACCCCAAGACCTTGTATATTA
AAGAGAGAGAGCTCCCATAGAGTGAGACATCACGTCCCATGACACACATA
CCCGAGGGTCCCCGTAGATCAGTATCTAGTGCCGGGTACCCCCATCCATA
TGTTGCACGTGACACCTGGCGCATGAGTGACAAAATACCGATCGAGCAAC
TACGTCGATCGCCATGATGATACGCTGTCGAACGCTTACCTGAAATGCTG
GCCTTTCTGTCTCGGAGGGTGGCAATCTCGACTGTTCCTCTCTCCGCTCG
ACAACACTGTCTCAAACCTTCGCGGGTCGTGGCGCGCGGTCTCAAAGATA
TGTAGCACCATCTTAATGCACTCACCTCGTGCCCATGCTCGTGTCCGTGT
CTTGTCTATCGGCCTGTTCGTCCCTTCTTGGCTACCAGTTTCGCCTTCTT
TTGGCCCAAGCACTTCCCAGACACGCCTTTGCTCTACCCCCCAAACTTCG
ATGCGAGGATAGTCTCGTACCCCACCGCTGAGGTGAGTTTTATCAAAGCA
GTTATGGTGATTTGTGCCGCGGCCAGTGCTTTGGTGCACCCGAGGTGGGT
TCATGACTAGCTACAGCAGCTGGTCCTGCGACGTTCTAACGTCAAGCGAT
TTGGTGCGGGAAGCCTCATCGGTTGACGTGCGTGTACCCAGATAGCACGC
ATTCAGTGAACGTGTCAAGAAATGACGGATTACGTTGTCGGCCCATCTGG
CTCTGTTTCTGTGCGCCTGTTCCCCCCGCTGTTGTACATTCTTTTTCTGC
CTTTCCTCATTTCTTCATGTGAATGTTTTGCTCCACCCTCGACGTCCATC
TCACGACAAAACACACAGCACGTGCGGGATTACTTTGCGTGGAGGCAAGC
GGACTGCCACATCAACAACCTCTACAACACCTGCTTCTGGGCCCTTGTGG
CCGATGGTGAGTCACAGGGAAGCGGGGAAACCAGACAAGATGTGTTCATT
CGCATGTCCGAGATGTTGTTCCGACCTGCTAGAATTTGAAGGCCTCTTCC
TAATGCATGGGTTGGAGAACAGAAAGGAACTGTCCCTCGAGAACAACGCG
TTTTGGTTCCGTGCCCAAATGGTGCGGCTTTGGCAGCGAAAATACCTCCC
CTGGCAGCAGGCTTCTTCGTCAGCACAGTACAGAGGTTGTTTTAACCTGT
CCGCTTCGTGCACCATCGTTGGCTTTTTGTGCGGGACCTCTTTGTCTGTG
TGCCGATTATGGAGACTGCACTGCGCACTGTTCATGGCGTATTTTAATCT
CCGACCCGTGGCCGGTGTATGGCGGCTGCTGCTACATCTTGAATCTCCTC
AGGAGTGTCAAAGCAGGATGCTCAGGTGGCTCTTAAGGGCACCACCTCTG
GCGACAAAAACGAGCTTCTCTTCTCGAGGTTCGGCACCAACTACAACGAG
ATTCCGCAGCGGTTCCGCAAAGGCACCACATTGTTTCGGGCTCAGCCACA
AGCGGCGGTACTACCCCCGCCCAGGCCATCACGGCAGTCCTCGCAACAAG
ATGGCACAGCAGCAACCAGCAACGGCAAAAACGGTGATGGCGCAACACCA
GCAGCGGATTGTGCCCCCCCCATAGATGGCGCCGGCGAAGAAATTTCCTC
GGGACAACAGACCGACGGAAAGACAACGAGTCTCGTCGCAGCAGAGTTCA
ACCGAGGAGCTTGCTCTCCTGTCGGTGAAAACCCTGAGCCGGCATCACCG
AGAAGAGTCGCGCAACCAGGGGTAGTACTGGCACGCCCTGCAGCCGTGAA
GGACCAAGGTATTGAGTTTTCAGAGATGAGCGGTGAGGGAAACAACGCCG
AGGAGGCGAAAACAGCAGGTGGAGAAAGCGCTGCTGTGGAGGTGGTGTCC
AGCTCCGACGGGAAAAGCAAGTCAAAGCGGCTCTTGAAAAAGGGCCACGC
ACCGCCTGGTGCCATCGAAGAGGACGCATGCGATCTTATCCGAGACCATT
TTTGGGACAGAAATCCGCAAATTTTGGCTGGGGTTGCAAGAAGGCGATGA
CGGCGGGCTGTTGTATTGCAAGACAGCTAGGTGTGACCGCTTTGTAATTT
CCCGTACTGCTAAGGTCAGGTGAAGAAAAAGGAGGTTGCTTTCACAGCAC
GTGATTACTTTTGTTGAATTCGGCGGGGGCTGCTGCCACAAAAACGTCCT
GTTCGTAGACACTTCCTTATTGTATCCTTTAAAAGGTTGGTTCTGCTGGG
CTTAAAAAAAAACACTGGAGAAAATTGAAGAGGAA back to topCoding sequence (CDS) from alignment at P-littoralis_Contig19:404597..416281- >mRNA_P-littoralis_Contig19.76.2 ID=mRNA_P-littoralis_Contig19.76.2|Name=mRNA_P-littoralis_Contig19.76.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1368bp|location=Sequence derived from alignment at P-littoralis_Contig19:404597..416281- (Pylaiella littoralis U1_48)
ATGTTAGGAGCTGGGTGCATCGTGGCCGCTATCTTCGCGCCTCAGCACAG
CAGTAGCAGCAGCAGCAGTAGTATCCACCATCGCTCCAGTCTCAGCCAGC
AGGTGGTGAGCACCGCGCAGAGTCTTCAGAGATACTCCTCGTCGCCTCGT
GTCACGCCCATCACGATCATGGCCAACAGCAGGTTCCAGTACGTGAAGAA
GTTCGAGCTTTCTGACGCGCTGTTGCCAGACACCTTCCTGATCGCTAGGC
TAGATGGACACAGATTTACGAAGTTCACTGCGGAGCACGGGTTCACGAAG
CCCAACGATGAGCGAGGGCTACTGCTAATGGCTGAGTGCGCGCGGCAGGT
CATGAGCGAGTGGCCAGACTTGGTGATGGCCTTCGGGCAGAGCGACGAAT
TCAGCTTCCTCCTTCCGGCGTCGAGCCTGCTGTACGGGAGGCGGTCAGCA
AAGCTCTCCACCTCCTTCGTCTCTCTTTTCTCGTCCAGTTTCGCCTTCTT
TTGGCCCAAGCACTTCCCAGACACGCCTTTGCTCTACCCCCCAAACTTCG
ATGCGAGGATAGTCTCGTACCCCACCGCTGAGCACGTGCGGGATTACTTT
GCGTGGAGGCAAGCGGACTGCCACATCAACAACCTCTACAACACCTGCTT
CTGGGCCCTTGTGGCCGATGGAGTGTCAAAGCAGGATGCTCAGGTGGCTC
TTAAGGGCACCACCTCTGGCGACAAAAACGAGCTTCTCTTCTCGAGGTTC
GGCACCAACTACAACGAGATTCCGCAGCGGTTCCGCAAAGGCACCACATT
GTTTCGGGCTCAGCCACAAGCGGCGGTACTACCCCCGCCCAGGCCATCAC
GGCAGTCCTCGCAACAAGATGGCACAGCAGCAACCAGCAACGGCAAAAAC
GGTGATGGCGCAACACCAGCAGCGGATTGTGCCCCCCCCATAGATGGCGC
CGGCGAAGAAATTTCCTCGGGACAACAGACCGACGGAAAGACAACGAGTC
TCGTCGCAGCAGAGTTCAACCGAGGAGCTTGCTCTCCTGTCGGTGAAAAC
CCTGAGCCGGCATCACCGAGAAGAGTCGCGCAACCAGGGGTAGTACTGGC
ACGCCCTGCAGCCGTGAAGGACCAAGGTATTGAGTTTTCAGAGATGAGCG
GTGAGGGAAACAACGCCGAGGAGGCGAAAACAGCAGGTGGAGAAAGCGCT
GCTGTGGAGGTGGTGTCCAGCTCCGACGGGAAAAGCAAGTCAAAGCGGCT
CTTGAAAAAGGGCCACGCACCGCCTGGTGCCATCGAAGAGGACGCATGCG
ATCTTATCCGAGACCATTTTTGGGACAGAAATCCGCAAATTTTGGCTGGG
GTTGCAAGAAGGCGATGA back to top
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