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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0508200 |
Transcript ID | LotjaGi3g1v0508200.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Phenylalanine--tRNA ligase alpha subunit; TAIR: AT4G39280.1 phenylalanyl-tRNA synthetase, putative / phenylalanine-tRNA ligase; Swiss-Prot: sp|Q9T034|SYFA_ARATH Phenylalanine--tRNA ligase alpha subunit, cytoplasmic; TrEMBL-Plants: tr|A0A151TGA0|A0A151TGA0_CAJCA Putative phenylalanyl-tRNA synthetase alpha chain; Found in the gene: LotjaGi3g1v0508200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:92504217..92515118) extracted from Lotus japonicus Gifu genome v1.2.
CGTAGTTTTTTTTTTGTCTCTTATTTGTTTTCCAAAGGAGAAAAAAATTAGAATGATATTAATTATTCCTAAATCAGTAT TACATTTAAAATCAGGATCTAGGGTTTCTGTCTTGATTTGCTCAGTTGTTTTTTTTTTTTGAAAATATGATTGCTCAGGT TACTGGGCCTTTTTTTGGGTTCAGCCCTTTTCAATGAATATATTTCACTGTTTCGACCCAAAAAAACAAAACAACTCATC TTGTGTTCTTCTGTTTCTTCTTCAGCTGCCAGTGTCGCAACGCAAGAGAGGAGGGTGACAATGGCGGAAGAAGCCGTTCT GGGTTACCTACAAAACAACGACGAGATTAGAGATTCCGGCGAGTTTGCAGCTGAACGCGGCATCGACCACAATGAGATAG TGAACATCATCAAGAGCCTCCATGGTTTCCGATACGTCGATGCTGAAGTGGGTAAACCGTATCTCATCTTCTTCTTCAGG TAACCTCAATTGCAAATTGAAAACTCGGTGTTGTTGAAATGTGTGGTTTTATTTTTTTATGGACAGGAAATTAAGCGTGA GTCATGGATGCTCACTGATGAGGGGAAGACGTATGCTACTGTGGGATCCCCTGAAATGCAGCTCATGTTGGCAATTCCAC CCGAGGGTATCTCAAAAGATGAACTTCAGGTCATATTGCAACACCCATTTTCTTTGTTTCATTCATTTTGTACTTAATTT GGGATGAATGTAATTTTGTTGAGGTTCTCTTCTTTTTTTTACCTGATTGTAGAAAAAGCTGGATCCCTCGACTTTCAAGA TAGCTTGTGCTCAGGCTGCAAAGAACAAATGGGTTGAGATGGGAAAACAACTCATAACTAGGAAGGTATGTAATGAATCT AATGATTCAGTGTTGCCATTATATAAGATGAGATGAGATACTATGCTGTTTTGGTCATTGATTATAGAATATTATGTTAA GATAATTGAGTGTTAGAAGATTTTGATTTGGGTGTTTGATTGAGCTGAGCTCAATTGGCTTAAGTAGTAATGAGTCATTA CTCATTAGTGATACTCGTTGTTGTTGGAAATTTAAGTGTAGGTGATGAAGTCAGACATAGGTTAAAAATGAGTATTAAGT GTAATGTTCGGATTGACTCTGAGATAACACCTGAGGGGGAGAATATTGGAAATTCTAGTTGGAGTAATGAAATCCCACAT AGGTATAGAATAAATTCTCCGTTCTTCTCGGGTTACCCCTCATACTCTAACAAAGTAACAATTAGTCAATTACTCATTAA GAAATTTGGTTTCCCAAATTTACTTGCATTCTCATTATGTGCATGCACATGCCCTTGGAAGCAAACTGCATATCCATGCT TGTCTTTTTTCTTTATTTTTTCACTAACTGTGGGTTTTCACTTTTCAGTATTTTGTTTAATGCATATTTGCATGTAATTG AAACAGTTATCTTGATGTTCAGCGTACTCTCCCATTTGAGATGAGAATGGCTTTATGATTTATGAATATTTCTTATAAGT CAGATCCTTGCTGCAGGTCGAGCACGTGGATGACAGGGTTAAAGACCTCCTTCTTCAAGTTCAGCAGGGACAGGTGTGTA CTAGTATGAATATTTTGATCAGTAAATTTCTTATGTGTGTTGTGTTAAGAGAAGGCATATGGAGGAGGAATGCAGGTCCT TCTTTTTTGGGTTGGGGGGCCTGTCACTATTAAATGTTTTGTTTTTGCTAGGATGAGTTTTGTTGAAAATTGAGATGACA TGCTGTGATATTCAACTATGATAATTCCAAAATCAGATAATAAAGAATGCATCGTGAAGTGTCATGTATTATTATAGTCA ATCGCCAAAACCTTTTTTATATTCGACTAATAAATTCTTCTCATGCCTTTTTGGGATCTCCTATTAACGTATTCTTTCAG CATAAATTCAATAGGAAACTATGAGCTCATTTCTTCCAGTCTTATACTTCACACACACATCCATCTGGTAACATGCACTT GCTGATTGGGGCTGATGACAGGGTAGTTACATTAGATGATATCAACTTCTTCTTAGGCTACAGATTGGGTTTGCAATGAT ACCTTGGGGAAAATCGCAAGGTTTTGTATGGAGCACAGATTCAACATAACACATGAGACAGTTATAGGAAGTGGAAAGGG GCCAAGGGGGGATTTTGAGATGTTTCATTTCCATTTAGTTATGAGGTGTACCTGCACTTTTGTCCATAAGTGGGTGGGTG ATGGCTAAACAGTTCTATGAACAACTATTTGTTTGGAGGGACTGTTGTTCTTGACCTTTTTGTTTCCTCCTTATGTTATT CTTTTATGGGTCACTTATCGTTTTCTAAATCAGTTTTCCTTGTGAAATTCCCAGATCTTGTTAGAAACTTTACCATATGT TGTAAATGCAGGGCATTGGCTCAGATGATATCAAAGCACTCAAAGCAAGAAAGCTTATTGTTCCACAGTAAGAACAATTT CACCTGATTGTGCAGAAGAGTTTTGTAGAGATGCTGAATATGCTGTAAATGACTTGACTGTTTTTCATTACTAAAATTCT TCTTGATATCTTGTGATCTAGGACATGGAAAGGTTACTCGGTTAAAAAAGGTCCTAATTATGCTCCAAAAAGAAAGAAGG TTGTCACAGATTTGACGCGAGATAATTTTCAGAGGTATTTTTTTTTGCTTAAACTGAAAAGTAAACTGGAAAATAGGGGG GGGGGGGGGGGTTAAACCTTTTGTATTTTTTGTGGATCTGTTGCATCATATCCAAAGAACTCTAACTGTAATGCATTACT TTATGGCAGTGGTGAGTGGAAGGCGTTAGAGTTCAAAGAGTACAATTACAGCGCTAAAGGTCAGCCTCTAGAGGGTGGCC ATCTTCATCCATTGCTGAAGGCAAGCAAATATATAACCTGCCCCTTCTTCCTCCTCTCCCCAAATCAAATGAATATCAAA GTAGTACACCATAGAAACTCCGTGACAATTAAGAAAAAGAAAATCCATATTCAGGAAATATAAGAGAAAGTATATTGTGT TTTTGTCGCTGTTGATTATTTTTCTTAAAAAAAAAAAAGAAGTTCGACCATTGCTGATACTATGTATTTAATAATTTTGG ATATCTCTTTATTTTCAGGTACGGGCTCAACTGAAACAAATTTTCCTCTGCATGGGGTGAGTGCGATCTTTGTTTTGCTG GAACCTGATATCTTTTTTGGTAAATGTTTGTTTCAAACTTAACATTTTGTGATGATATTCTGCTGCTGCAGGTTTGAGGA GATGCCGACAAATAATTTTGTTGAGAGCAGGTAATTGTTGTTTCCAAATCAATACCTTTCTATTGTCTCTGATTGAGATG CAGATGCTCTACCTTAAGGTTCTGATCCCTTTCCTACCATATCAAATGACTAGTGGAATCTGTTGTATACTTTAGTAAGT AAAGAAATACTCACGGAATGTATAAATAAGTATAAATAACGATAAACTTAATGATGTTATAGAATCGACTAATAACAGTT GAAATATGAAAAGAAAAGAAAAAAGACTGTCAAAATCTCAATGATTAAGCTTTCTAACCCCCCCCCCCCCCCCTCCCCAA AAAAAGAGGCTCTGGGCTCTCTAATGCTGCTTTCAAGCAAGCAGGTGAAAATGTGTGACTCGAATATGTGAGAAGGAGCA ATGCACAAGATCAGACCTAGGGGAGAGAGCATAAGAAAGAGATCCCACCTAGTAACTAACTGCCTAGCTAGTAGTAGAGA CAAGAGCACGAGGGGGTTGATTGTAGCGGAGGGTAAACATTTAGGGAGGAGGAATGGAGAGAGGAGTCTGGAATTTGGCT TGGAGTTGGGAGAGATTAGGCTCTCTCGAACTGTCTAGGGACTTTACATTTCCTTTTTTTCTTTCTGCATTTGTACACAA ACTATACCTGCCACCTGAATTCCTTTGAGTCAGGCTTGCTACTTGAAATAAATTACAGATATTCTTCTCTGTTTCATTTA CTTGTGTATTTGGATAGTAGCAGGACATGACCACTTCGCTTTAAACATCACATCTAAATCTTTTATTTGGCAGCTTCTGG AACTTTGATGCCTTGTTCCAGCCCCAGCAACACCCAGCCCGCGATTCGCATGACACATTTTTTTTGGAAGGTTAGTAAAA CCTTGATATCTTCTATGCTATTCTAATCTTCTGTGTTTCCATTTTGACTACATGTGACACATACATCTACAGCTCCTTCA ACAACACAGGAACTTCCTGAGGATTATGTTCAGCGCGTAAAGCAAGTTCATGAATCTGGTGGTTATGGGTCTAAGGGGTA TGAGCTTTAACACCCTCAATGCAAGTAGCATAGGCTATTTATTGATCAGGAATGCTACCAATATTCAATATTTAGTGTTG GTAGTATTTCTTTTTGCTGATAGACAAATAAATTGCAAACTGTTTTCTGAGGGAAACCTGACAATTTATTACTTGGTAGT TATGCATATAAATGGAAAAGAGAGGAAGCAAATAAAAACCTCCTGCGGACCCACACAACTGCTGTTTCTTCCAGGATGCT TTACCAGCTGGCACAGGTTTGCATCTATATCTGAATTTGTACGTATAATGTTCTTGTGGGTGCATTTGATTGTGTGATGT TTGGTGCCATTGGGCTTCCTACTATTCAAATTTTCCTGTATGAATCGCATTGAATGATTGAAGTTTCTGACTGATGTATT TTTATGTGTTTTAGCTGGATTGAGCTATTTTATTGTGTTTCTATATTTTACTTTTTACTCACCCCTCCTTCCACACTATT CAGTGATTATACTTTCCAAGTTCTTGCTATGAGTTATCGTTTATATCATTCTATTTCCCCATTTTAATGATTCTGCAGAA ACCATTTTCTCCAAAAAAATATTTCTCTATAGATCGTGTATTCAGAAATGAAGCAGTTGATCGAACACATCTTGCTGAGT TTCACCAGATAGAAGGTATGTGAGAGCTAGTAACTTACCAGGGTTGGGATTTTAGTTCTTTTCAAATTGTTTTACAAATG AAAACATTTCACATTTGATGGTCCTCTTACACTTTTCATTTCATGTCGTGGTAAATAGGGGTTGGGGGTATTACTGGTAT AGATTACATGTGATAATTCAGCTTCTTTTTTGGTTTGATCCACCAGGGGTTTTAATCTCAACTGAAATTTGTCAAAAATA TATACTGGATTTTGTGATTCTCATGTTTTGCATTTTGACTCAGGCCTTGTATGCGATAGAGGACTCACACTGTGTGACTT AATAGGAGTTCTACATGATTTTTTCAAACGCATGGGTAATGCTCTCTTATACCAATTACCAAAATACTATATGATTTAAA TGTTGAATGCAAGTTGGAAACTTAAATGAACAGCCCAAAGCCAAGCTTATTAAGGACAAGCTTTAGTAGAACAATTAATA TGTTATTTATCTTAGCGGAAAATTTTGTTCTTGAGTTCAGGCATGACAAAGCTGAAGTTCAAACCTGCTTACAATCCATA TACCGAACCTAGCATGGAGATTTTCAGGTGATTCTTTCTGTAAATGATTATTTGAAATGTCATTCATTATCTTGATATCC TGAGATGTATTGATAGTTGATCAAGTACTCTTAACAGTTATCATGAAGGCTTTAAGAAATGGGTAGAGGTTGGAAACTCT GGCATGTTTAGACCTGAAATGTTGCAACCAATGGGACTTCCTGAAGATGTCCAAGTTATTGCATGGGGCCTTTCCCTTGA AAGGTGAGAAAAAAATGAGAACACCGTAGTTATTTAGTTACTGCTGAGAATAAAATGAATTGTTTTGTTAAATGAAAAAT TTATGTTCAAATCTAATGAAACTATGGGGGAAGTTCAGTACAACATATTGATGGACATCACAGATTTTAACTTGTTTTTT TACTTGGAAACAGGCCAACAATGATTCTGTATGGGATAGATAACATCAGGGATCTCTTTGGACACAAGGTATCGTTAAGG GATAATTGTAGCAACTCTTTTTAATTATTATTCTTATTATAATAATAATAGTTATTTTATTATTATTTTGAGTTAATGAA GTGATATTATCCTAAGCTTGTATTTTTAATGTTTTGCAGGTGGATCTTGGCCTTATGAAGAAAAATCCAATATGTCGTCT TGGAATTGACTAAAATGATTCATTCATGTCTATCATTTATAAATTTTTGGCTCTTAAGATAAACTAGTGGACTAGTTCAA TTTCTGTATGAAGAATTTTGATATGTAACAAGAAAAAAAGAGGTTCCTTGTGGTAATAGCATTTTTTTTACTGTTGAATT ATGATATAACCTACAGGATAAACCTGTCAAATTGTGATAAGCCTCCATTTTTTTTTCCCTTTGGTCCTCACCTGAGCAAT GGTTTACATACTATTTATACATCACATACTATGGAGAAAACTAAGCCTTGTAATGATGTGTTTTGATCTTCACCAATTGA ATAAACACTAGTTAAAAGTGGGGAGGCAATCCAATACATATTCAAGTGTTTTCTTTTGTTAGGCTACATTTGTGCAAGTC ACACAAAATGTGAGTCACGCTTACGATAAGGACTTGCTTGGATTTTCCGTGCACTCACTTGTGCAAGAGTCTTAAAAGTT GACCAAATGAATAGAGTAAGGATTACTATGATAGCGATAATAGATAGTAGTTCAAAAGGCTTATCCAAAATCATTTGTTG GCAGTCTTCAATTTCACTGGTACGGGCAGTGAAATCAAGGACTCGTCCAAGGATTCTACACAACTCATAGGAAAATGTCA CTTCTACTGTCATAATGCTAGTGACACAGAATTATTACACGCATTGGAACAATACATGATTGATAAAATAGCTTAAAGAC AAAAAACGAGACATAATAACTGCAACCATGTTATTTATGAATACTAACTGATTTATATTTACAAAAAATATCTCAAGGGC TGGAAATATTTGTTATGCCTTGGAATGATATCTTGTCCTCAAAGAGCATGCAACAATGCTGCTGTTAACAGAAATGCTGA TCAAGATAGATTTAACTGGGTTTTGTATATAAATTTGAGTCTTGATATTCCATAAGGGAAAAGTTTGGTGTTCAGCTCCT CTCTAGCGCAAGAATGGCGACCATGATTACATGTTCAGACAGATTATTCAATTGCACAACAGTCAAATGTTTTCCTGCTC TCCTGTTGGGGGAAAATCAGGTCAAAAATTAAGATAAAATGAAGAAAGAGCAAAACCGACATGTGACAAAAATGAACATA GTAACAAGTAGTAGAAGTACATTTGTGTGTTGTGAGCATATACCTCAAATCATTGCAAGAAGTACATAGGTCAGGTCTCC AAAACTCTATTCTGCAGTGGTATGTTTCATTAGCACACTCTACAGCAGTTCTATCTTTACAAGTGATGCCGTGGATGATA AATTGCAAGCTTCTTTTTGTTTACTAAGACACAGGAGTTCCTTTTCCTCCACTAAGGTGTTTCTGCTGCTCTTGTCATCT GTTACAGAATCATTTAGCACCTCCATCTTTGAGAAGAACAATCATGATTTTCTGATACTTGTCTGACTGGTGAAGACAGT AAAAATAGTATATGGTTTTACTTACCAAAAACTGAATTACCATTTGGCTATCCACAGAGCCATTTATTGTTTTTTTTCAT GTCTCGAGTGTTGTAATCTCACTGGTAATAACTGATTGTGGATGATTAGCATCCTCCTCCATGACAGAAGATTGAAATTT CTGGCGTTTTCTAACCATAGTCTTGACCATTTTGTTAAACTCTTCATCACTGCAAGCCAACATGTATCTTAGCTTCACAT TAATCTGATTCTCCACCAGAACCTTGTGCCTTGGGATAATTCGGCCATCAAGAGAATAGCTTAAAAACCTGTTAACAGCA AGGGAGTTGGATAGTTGAAGGCAACCATGCAATTGAATAAAAAATGTTAAGAATCAAACAAGATTTTTACAAATTATCTC TGGTCAAAATATCATTCTACAATACCTTGGAAACTCGATGAGATCTTGCAAAGTCCGGACCATGGTTCTCCGCAAATAAC TATACTTAGGTCGAAGGACATCTATATTGTATCTGAGCAGCATTGGAAAATCCGCAATCATTTCACCCAATTGCGGAAGG CGTATGCCAAGAGACAAAAAATATTTCACATTTACGTCAAGCTTATGTACTATGCTGCATCCCAAGAGCTCAGGTCCAAG AGCTACAACCTTGCCAATATCTTTGTCCCTGACTCCAGCCTTGGTCAACAAGAATATGACCTATACAACAAGAATATTTC AGCAGATGAGACAAATGAGGTCTCTATATCAGTCAGTTTATTGATATATGATTATTGTGATTTATTATGTCTGAATAGAA ATCACTGCTACGTGACAGGAAGAACATGTTAGTAGCACTTGCTGCTTGAGTTCTCATTTGCAACCCACCAGTTTATCATT TGTGGAGATAGTTTCATGTGCGTATAAGGTATGAGATTGGTTACTGACATACTTTTATCACAGCATTGAAATGTAAAACT GAGGGGCCCCAATCACATCGTAGCCGGTTTTCTTCAACATTATTATGCAGACTATTCTTTTAATATTAAAAAAAACACTA TTAAAACAGTGAATCTTTGGAAAAATAACTTAATAGTAACAAATTTTGTAGCTGTGAAGTAAAGGACATACCACTGGCCT AATCTTCTTGAGCAGGCTGTAAGTGAGTAGAGTAGGAAATTTTACAAGCATGTTGCCAATTGCTTCATTTCGAACCCCTA TGTCCTGAAAAAATTGTACCTTCATGATAAAATAAGCAACAAATTGTCAGAATTATCATCAGAAATCAAGACAAACACCA TCGGAAATTTTAGTTTCTGAATCTATTAAACATCATATTTACGAATACATTAACATCTAGATTTCAGGAGCTGGAGGAAT GAAAATGATGATAATAAAATGGAACCCCAGTATGAAATACTACTAGATTGTACCAGCTTCCACCTTAACCACAAGCCTCA CACAACTGATAAGGGAAACAAATAAAAACGGTGTTTGCATACCTTTGGCACAATAGTCATCTGCAAGTCAGCACAAAAGA CCATTGGTTTAAGGGTAAGCATTCTCTTCATACCATCTCGGGTGATCCCATAATAGTAGAGATACTTAACAAGAGGTTTC CATTGTTCTTCAATGCTGCACGCCATCAGTTGTGGTCTAACTGCAAGCAATTTGCCAACATCCTTACTTTCAAGCCCAAA TTCTTTTAAGTAATCAACCTGAAATTTATAATTGCACAATCACACTTTATTGTACATCTACATATCAGAAACAATTACCA GCATGCATATCAAAATAAAGTATATCTTTAAGCTGGCAAACTTGCTTTATGTTCGACTTGGATGCTACTAAAACTGAATA AACTGGTAAAGTATGGGAGAAGAAAATGAGGATATATTGCCAGATGACTTTGAGTTTGAGACTTGAAAGTTTGTTAAAAA CTTATGTACCTTTTGGTTCATTTCCTCCAGAGTATAGAAACCAAGTGCTTTAGGAAATTCAAAAACCATTGTGCCAAAAT CCTTCTCATCCAAACCCATATCTCGATAGAAATGGACACGTGCCTTCACTTCTTCTATGCTGTAAGACAACAATTGAGGA CATCTACTCATGACATAACCCCTCCAATCCCTCCTGACTCCATTAGATTCTAAATACCCAACAATCTCATCCAGCTCCTC ATTGCTGCGCTGCAAAATATTATCTCCAGCCTTCAACATTGCTTCCCCGATAAAGTCTCCTTTCACAAGCACCGACTTCA ACCACTCAACACGGTTCCTTATCAACTCAAGGTTTCCTCTTGACATCAAAATGAGCTTTGCTATCTGAGGATATGACATT GCATTATGCTTCAACCATCTAGAGAATTGAAGAAACACAATCAAACACAATCATTTAAAGCTAAAATCCTACACATGTAA CCCCATTAAGAAACAACTAGCACACATGAAATCACCAAACACACAATTCAGTTTCACAATTCACACAAACAATTAAACAA ACAGCTTACAAACAACTTCAAATGGCAACAAACTTACATCAATCTAGTTCATACCTGACAAGTGACACAACCTGAGAGTC ATCAATGACGGTTATAGCGCGTAGATTGAAGGTGGATTGAGAATACTCCGGCAACCTTTTCAAATTAGCAGCTTCAATCA TGATGAAATCAATGAAACCACCCAACCTGCGAGTCAAATTGTTGACATACGTGATTCCAAATTTCCCCTTTTTCTCCATC ACTTCCTTGAAAATCTCTTCTGTAACCTTCCTACGAATCTGAAGCGCGCGCATGATCATCTCCTCTTCCTCACCCTTATC TTCACCATCACTTGACCGAAACAGAGTACGCAGAGGGGGAAGAGAAGAACCCACATCAGGGTCACTGGGAGATTGAGCAT AGATTGAGCCAGGGAATCGAGGGGTTCTCTTCCTAACGAGTGAAAGTTCCAAGAGCTTCACCTTTTCTTCATGGGGTGTT GTGTCTTGAAGCTCAGAGAGTGAAGGGTGATCGTCGTCTTCCTTGAGGGAAAGGTTGTGGAGGAGAAAGGAGGAGGACTT GGAGTTGTGTGTGCGGATAATGGGGTGGTGCTCGTTTTGGTTTTGGCAACTGACAATGGTGGATGATGGGTTGGAGAAGT TGGAGGAGGAGGAGGAGCATGGAAGGTAAAGGTTGTAGAATTTTTGACATGAAAGAAGCATCTCTGGTTCTTCTTGTTAG CTGAAGGAAGCTAAAGGTGGTTATGAATGGAAGAGATGGTAATGGATAAGAGTTTGCAGTTAACAGTGACCACTCTTCAT TTCGAGATTTCGTTTGTTCTGG
CDS sequence (LotjaGi3g1v0508200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGAAGAAGCCGTTCTGGGTTACCTACAAAACAACGACGAGATTAGAGATTCCGGCGAGTTTGCAGCTGAACGCGG CATCGACCACAATGAGATAGTGAACATCATCAAGAGCCTCCATGGTTTCCGATACGTCGATGCTGAAGAAATTAAGCGTG AGTCATGGATGCTCACTGATGAGGGGAAGACGTATGCTACTGTGGGATCCCCTGAAATGCAGCTCATGTTGGCAATTCCA CCCGAGGGTATCTCAAAAGATGAACTTCAGAAAAAGCTGGATCCCTCGACTTTCAAGATAGCTTGTGCTCAGGCTGCAAA GAACAAATGGGTTGAGATGGGAAAACAACTCATAACTAGGAAGGTCGAGCACGTGGATGACAGGGTTAAAGACCTCCTTC TTCAAGTTCAGCAGGGACAGGGCATTGGCTCAGATGATATCAAAGCACTCAAAGCAAGAAAGCTTATTGTTCCACAGACA TGGAAAGGTTACTCGGTTAAAAAAGGTCCTAATTATGCTCCAAAAAGAAAGAAGGTTGTCACAGATTTGACGCGAGATAA TTTTCAGAGTGGTGAGTGGAAGGCGTTAGAGTTCAAAGAGTACAATTACAGCGCTAAAGGTCAGCCTCTAGAGGGTGGCC ATCTTCATCCATTGCTGAAGGTACGGGCTCAACTGAAACAAATTTTCCTCTGCATGGGGTTTGAGGAGATGCCGACAAAT AATTTTGTTGAGAGCAGCTTCTGGAACTTTGATGCCTTGTTCCAGCCCCAGCAACACCCAGCCCGCGATTCGCATGACAC ATTTTTTTTGGAAGCTCCTTCAACAACACAGGAACTTCCTGAGGATTATGTTCAGCGCGTAAAGCAAGTTCATGAATCTG GTGGTTATGGGTCTAAGGGTTATGCATATAAATGGAAAAGAGAGGAAGCAAATAAAAACCTCCTGCGGACCCACACAACT GCTGTTTCTTCCAGGATGCTTTACCAGCTGGCACAGAAACCATTTTCTCCAAAAAAATATTTCTCTATAGATCGTGTATT CAGAAATGAAGCAGTTGATCGAACACATCTTGCTGAGTTTCACCAGATAGAAGGCCTTGTATGCGATAGAGGACTCACAC TGTGTGACTTAATAGGAGTTCTACATGATTTTTTCAAACGCATGGGCATGACAAAGCTGAAGTTCAAACCTGCTTACAAT CCATATACCGAACCTAGCATGGAGATTTTCAGTTATCATGAAGGCTTTAAGAAATGGGTAGAGGTTGGAAACTCTGGCAT GTTTAGACCTGAAATGTTGCAACCAATGGGACTTCCTGAAGATGTCCAAGTTATTGCATGGGGCCTTTCCCTTGAAAGGC CAACAATGATTCTGTATGGGATAGATAACATCAGGGATCTCTTTGGACACAAGGTGGATCTTGGCCTTATGAAGAAAAAT CCAATATGTCGTCTTGGAATTGACTAA
Protein sequence (LotjaGi3g1v0508200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAEEAVLGYLQNNDEIRDSGEFAAERGIDHNEIVNIIKSLHGFRYVDAEEIKRESWMLTDEGKTYATVGSPEMQLMLAIP PEGISKDELQKKLDPSTFKIACAQAAKNKWVEMGKQLITRKVEHVDDRVKDLLLQVQQGQGIGSDDIKALKARKLIVPQT WKGYSVKKGPNYAPKRKKVVTDLTRDNFQSGEWKALEFKEYNYSAKGQPLEGGHLHPLLKVRAQLKQIFLCMGFEEMPTN NFVESSFWNFDALFQPQQHPARDSHDTFFLEAPSTTQELPEDYVQRVKQVHESGGYGSKGYAYKWKREEANKNLLRTHTT AVSSRMLYQLAQKPFSPKKYFSIDRVFRNEAVDRTHLAEFHQIEGLVCDRGLTLCDLIGVLHDFFKRMGMTKLKFKPAYN PYTEPSMEIFSYHEGFKKWVEVGNSGMFRPEMLQPMGLPEDVQVIAWGLSLERPTMILYGIDNIRDLFGHKVDLGLMKKN PICRLGID
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
Pfam | 3 | 56 | 54 | 3.2E-9 | ||
Gene3D | 7 | 199 | 193 | 7.5E-56 | – | |
PANTHER | 18 | 474 | 457 | 1.7E-200 | – | |
PANTHER | 18 | 474 | 457 | 1.7E-200 | – | |
Gene3D | 58 | 156 | 99 | 7.5E-56 | – | |
Pfam | 70 | 125 | 56 | 1.2E-14 | ||
Gene3D | 71 | 125 | 55 | 7.5E-56 | – | |
TIGRFAM | 166 | 478 | 313 | 6.3E-107 | ||
Pfam | 201 | 473 | 273 | 1.1E-92 | ||
SUPERFAMILY | 201 | 473 | 273 | 1.21E-72 | – | |
Gene3D | 216 | 488 | 273 | 3.5E-117 | – | |
CDD | 216 | 473 | 258 | 1.69548E-112 | – | |
ProSiteProfiles | 220 | 481 | 262 | 17.918 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | TRNA binding | Interacting selectively and non-covalently with transfer RNA. | ||
Molecular function | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
Molecular function | Aminoacyl-tRNA ligase activity | Catalysis of the formation of aminoacyl-tRNA from ATP, amino acid, and tRNA with the release of diphosphate and AMP. | ||
Molecular function | Phenylalanine-tRNA ligase activity | Catalysis of the reaction: ATP + L-phenylalanine + tRNA(Phe) = AMP + diphosphate + L-phenylalanyl-tRNA(Phe). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Cellular component | Cytoplasm | All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures. | ||
Biological process | Phenylalanyl-tRNA aminoacylation | The process of coupling phenylalanine to phenylalanyl-tRNA, catalyzed by phenylalanyl-tRNA synthetase. The phenylalanyl-tRNA synthetase is a class-II synthetase. However, unlike other class II enzymes, The activated amino acid is transferred to the 2'-OH group of a phenylalanine-accepting tRNA. The 2'-O-aminoacyl-tRNA will ultimately migrate to the 3' position via transesterification. | ||
Biological process | TRNA aminoacylation | The chemical reactions and pathways by which the various amino acids become bonded to their corresponding tRNAs. The most common route for synthesis of aminoacyl tRNA is by the formation of an ester bond between the 3'-hydroxyl group of the most 3' adenosine of the tRNA and the alpha carboxylic acid group of an amino acid, usually catalyzed by the cognate aminoacyl-tRNA ligase. A given aminoacyl-tRNA ligase aminoacylates all species of an isoaccepting group of tRNA molecules. |
Expression pattern of LotjaGi3g1v0508200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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