Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0538600
Transcript ID	LotjaGi3g1v0538600.2
Related isoforms 2	LotjaGi3g1v0538600.1 LotjaGi3g1v0538600.3
Lotus japonicus genome version	Gifu v1.2
Description	Methionine-tRNA ligase, putative; TAIR: AT4G13780.1 methionine-tRNA ligase, putative / methionyl-tRNA synthetase, putative / MetRS; Swiss-Prot: sp\|Q9ZTS1\|SYM_ORYSJ Probable methionine--tRNA ligase; TrEMBL-Plants: tr\|A0A0R0H9H8\|A0A0R0H9H8_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0538600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:95503516..95520312) extracted from Lotus japonicus Gifu genome v1.2.

ATGGCGGAAGATCGGAAAACACCGAAGCTTCCCGTCGAAGGCAAGCGCAACATCCTCATCACCAGCGCCTTGCCTTACGT CAACAACGTCCCTCATCTCGGCAACATCATTGGATGTCAGTTCCCTCTCTCGAAACACCGTCGTTTCATTCCTTCTTCGA TTGAAATCTGTGATTGATTCATTCATGTGTTGTATTTGGTTTGATTTTTTACCAGGTGTGTTGAGTGCTGATGTGTTTGC TCGCTACTGTCGCCTTCGGGGTTACAATGCTATTTACATCTGTGGCACTGATGAGTATGGAACTGCCACTGAGACTAAAG CCATGGAAGAGAATTGCTCCCCCAAAGAGATTTGTGACAAGTAGTTTTTCTGATACCCTTTTCCTTTCTGGTTCAATATA ATTTGCATGTGTTTGCTTGCTTATTATAAGTTATCCTGTTTAGATTTAATGGCTTAGCTTGGCAATCTTGTTTTGTTTCA CTAGCCCACAACTTGTACTAGTCATAGGCTCAAACTATTGTTAAAAGTCTATGTTTTGGTGTGTGGATAGGATTGATGTG AGCTGCAAGGGTTGTTAATGAGTGTTTTGAATCGAAGTGTTTTATAAGGGTCTAACATTCGATTAGTCATTGAGAGAAAT TTGATGGAAATCTTGCCTTTCTGTGTATTGGTAGGTATCATGCTATTCACAGTGAGGTCTACAATTGGTTCAATATAAGT TTCGATGAATTTGGGCGGACCTCATCCCCTCAGCAAACTGAAGTTTGCCAAGCGATTTTTAAGAAAGTATTTGACAACAA ATGGCTCTCCGAGAACACCATGCAGCAGGTGTCGAGTTATTTTTTGTTTGTATTTATTTAGTTATTTTGCTAGTTATTAT TGGCAGCATTCCTCTCTACCATTTGGTTGAAAGTTGAATGTTACCTGTGTCAAGAATTTCCAAAGGTCTTTTTATCACAC TTTGCTTAAATGTCTATCACTCTATCATATTTCAGCTTTACTGTGATACATGCCAAAGGTTCTTGGCTGATCGGCTCGTG GAGGGTAACTGTCCAACTCCGGGGTGTGGGTATGATTCTGCTCGAGGAGACCAATGTGAGAAGTGTGGAAAGCTTCTGAA TCCAACAGAATTGAAGGATCCTAGGTGCAAGGTATTAACTCCCCAACCACACACAAAAAAGTTAGCTCTATGCTTTACTA ATTGATTAACAAATGGTGTCATTCCTATTCGTGGAAGCAATTGTGTGGATACATGTGATATTCCTGGATGATCTTACTGA ATTGAAATGATTAGCAGCTTTGAGTTTAACTGCTCTCCCTGTTCCTTATAGTTTGTGTTCCCTTTGCATTGAGTTTCTTT CTGTGGCTGTTCTTGCTGACACTTTTTTGTTTAAATCATGATTTATGAAGCACACATGTTTTTTTTACTTCTCATATTCC AGTGCATTTTCATAGTTGTTTGGGTAAATGAAAGCCAAGAGAACTTTGAGTTTGAGGTGAGTTTTGTTGGCATCTGTGTC AGGTTTGTCGAAATTCTCCCCGTATTCGTGATACGGACCACTTGTTTCTTGAACTCCCTCTGTTGAAAGATAAATTGGAA AAATACATCAAAGAGATGTCTGTAGCCGGATCATGGAGTCAGAATGCTATTCAAACAACAAATTCATGGCTTAGAGAGGG ATTAAAGCCACGTTGTATTACCAGGGATCTGAAATGGGGGGTTCCTGTTCCACATGAAAAATACAGTGACAAGGTCAGTT ATTCCACTGGGTCTTTCACATTGTCATTTGGTTTCCATTCTTTAAATTTTAAAATTATGTTCTTTAAATTGGAAGGTTTT CTATGTTTGGTTTGATGCACCTATCGGATATGTCTCAATCACCGCATGCTACACAAATGATTGGGAGAAATGGTGGAAAA ACCCGGAGAATGTGGAGTTGTATCAGTTTATGGGCAAGGACAATGTACCATTCCACACTGTAAGTAATTGTCTTTTAGAA TATGAGGATTTCATGCTATTATGTGCTCTTCTGGTATTCAGTATATCGACATCTTATTTTCTATTATTTCCCTGGCCTTC ACTGATTAGTGATTCTCCTGCTGAGTTAATAAGGTTTATCTGTTATTTTCATGTTTTTCAAAACAATTATTTGTGCTAGT TCTGTAGGGCTATCAATTGCATGTCATTGCAGTGTCACTGCTACAGAACCCAGATTGTGGAGCATTTTTAAATCATGCCC TTTGCACTGTAACTAATGGCCAACATCGTGTCCATTTGAGATGTTTGTACCTCTGTTGCACCATGGAGATTAAAACCACG TTTTGCTCCTATTTTCTGACCTTCCCAACGTTATTTTATTTTTTATATATTCATCGTTTCCCGACATTACTTCAGCTTGC CCATCCTCACAAGCTTGAGCCCACTGATCTCAGGCAGTTTTTACAATCATTCCTTGTGTCTTCTAACACCCGCACTGATT TCTTGCGCCTGTTTCTTGACATAAACCATGCATTTACCCGAGGCTGTCCTCTATGGGAACTTGCTTCTCTGCCCCCCCCC CCCTCCTGTTATGCTTCGTAAGCCTTTTACTGCTGTGTTCTTTTATACTATGATTTATAATCTGCAGTATTTTTTTGGGA GTTCATGTGTAGTGTACTGTAATTTATTTATGCAGAATAATAATCTTTGATGTAGTGGCCAGCCTACTTTAGTATTTTGT GATTAGCTGCTCTGTACGACTATCTGGCATTTGTTAGTCAAAAGCTTCATTTACTTGAGAAGCTCTTTGTTGCACCTGTT ATGGCCAGGCCCAGGTTTGGCAAAGTCTACAATAGGAAGCCCAAGTCCACTGGCATTCTGTCAAATGACAAGGCCTTCTA GAATGCTAGGATTCCTATATAACCACTTGATGAGGTGTTATTATTAGTAATGATGAGAAGTACAGCTGGGGGGGAACCAC TAGGGAGTGAGAGGAATATATGTTGGTGTTATTATTAGTAATGATGAGAAGTACAGCTAGGGGGGGGACCACTAGGGAGT GAGAGGAATATATGTTAGTTATGGTGAGAGAATGAGGTAGGCTTGTTTTGGCTTAGGATTGGGAGAGAAGAGCACTCTCG AATTGCTCTAGTTATTTTCCTTTGTTCTTGTATTCCCTAACACTATTTCTGGGTTTCATACCAGAAATTCAGTATTATCA ATACAACTTCAGTTCTAGTTTCCTTCATATTTTCTGGTACCTAACATTGGTATCAGAGCTCCCGATCCTGAGGGAGCTTT TATGGTGGTTACGCGAGCTGCAATGGAGTCCAGAGTTGATGACCTTGAGCGATCTGTTACCACGATGAAGGAGATGGCCA CGGAGCAATTTGAGGAGCTCCGGCGACTCATCATGAATCGGGAACGGAGGCGCACGCGAGGAAGATCGAACACACCCAGA ACCCGGCGACCATCGCGAGACAGAGAGCGAGACCGCGATGCTTCTTCTTCGCACTCCGGGTCGCGAACCGGGTCGCGCAC CTCAGACCACAGCAGGGAGCGATACGATCACCCCCATCGCGTCCATTTGCATGCTGTGACTGGAAGAAGGGTCGATATCC CCATGTTTGATGGCAACGATGCTTATGGGTGGATTAATCGTGTTGAACGGTTCTTCCAACTCAGTCGTGTAGGGGAGGAA GAGAGGTTGGAGATGGTGATGATTGCCATGGAAGGGAAAGCACTGGGATGGTTTCAATGGTGGGAAGAGCAAGCTGTGGA GAGAACCTGGGAACCTTTCAAGCAAGCCTTGATAAGGAGATTTCAACCCACCTTGGTTCAGAACCCTTTTGGCCCTTTGC TTAGCATTAAGCAAAAAGGGAGTGTCATGGCCTACAGGGAAAGCTTTGAGGAGGCAGCAGCACCCATGAGAGGTGCTGAT AGGGAGATCCTGAAAGGAGTGTTCCTTAATGGATTGCAGGAGGAGATCAAAGCTGAAATGAAATTGTACCCTGCTGCTGA TCTGGCAGGATTGATGGATAGGGCCTTGTTGATTGAGGAGAAAAATTCTGCTCTCAGAGGAGGAAAAGGAAAGGAAGAAG ACAAACGTGGGTGGAAGGATAAGGGTGGGTTTGGAAGCAAATTTTCAAGTTATGGAGGAAGGCACATCAATTATAATTCC AGTCATCAGGGGAAGAACAATACTGGACTGGAAACCAAACCAAAAGAGACCCCGGAAGATGGAGGAAATGAAACTAAGAA CCCTGAGAAAAAGTGGCAAGGGGGACAAAGACTCTCTCAAAATGAGTTGCAAGAGAGAAGTAGAAGAGGATTGTGTTTTA AATGTGGTGAGAAATGGGGAAGAGAACATGTGTGTGCTAAGAAACATTTCCAGTTCATTCTCATTGAAGGAGATTGTTGC AAACCCAAGCTCCAGGCCCAGGTTTGGCAACGTCTATGCTAGGAGGCCCAAGCCACAGCTGGAGGCCAACATTCTAGAAG CTTAGGATCCCAAAATAACCACCACCTGGTGAGGTGGCAGATTCTCAATGATAAGGAGGGGACCAGTACTATTAGCTAAG GATATATATGTTAGTATAGAGAGAGAGAGAGGTAGGCAGAAATTGGCTAGGACTTGGGAGAGATAGAGCACTCTCGAATT TGCTCTTGTTCATTTTCTTCTTCATTTGCTTTTCTTTGTATTACTGCAAACACTGCTTCTGGGTTCATACCAGAGGATTC AGTGCTAATCTAGTATACTCAGTCTCTATTTTCCTACTCTGTTTTCTGGTACCTAACATTGGTATCAGAGCTCCCGATCC AAAAAGGGAGCTGTATGGTGCTGACCCGCGGTGCGATGGAATCAAGAGTGGATGATCTGGAGCGTTCCCTTACTGAGATG AAAGAGGTGGCTCACGAACAGTTTGAAGAACTCCGGCGACTCTTACTGAGTCGCGACCGACGGCGAACCAGGGGGCGTTC TAATACCCCGCGGCATCGGAGGAGCTCACGCGAGCACAACTCAGTCTCAGCAGCGAGAACTTATGACGGGTCACGAACCG GGTCGCGTACCGGGTCGCGAACAGCGTCGCGCAGCAGAGAACACCACGAGCACTATCACCACCGGAGCCATTTGCGCGCC GTCACAGGAAGACGAGTGGACATCCCGATGTTCAATGGAAACGACGCTTACGGGTGGGTCACCAAGGTTGAGCGGTTTTT CCGACTCAGCCGGGTCGAGGAAGCGGAGAAGATCGAGATGGTGATGATCGCCATGGAGGATCGTGCTCTTGGGTGGTTTC AGTGGTGGGAAGAGCAGACATTAGAGCGAGCTTGGGAACCTTTCAAACAAGCTCTGTTTCGCCGTTTCCAACCCGCACTT CTCCAGAACCCGTTTGGTCCTCTGTTGAGTGTGAAACAGAAAGGAAGCGTTATGGAGTACAGGGAGAATTTTGAGTTACT AGCAGCGCCCATGAGGAACGCTGACAGAGAGGTGCTGAAAGGAGTATTCTTAAACGGGTTGCAAGAAGAAATCAAAGCTA AAATGAAGCTGTACCCTGCTGATGATCTAGCAGAATTAATGGATCGAGCGTTGTTGCTCGAAGAGAAAAACACAGCTATG AGAGGAGGCAAACCTAAGGAGGAAGACAAAAGGGGATGGAAGGAAAAAGGGGGTGTTGGGGGAAGGTATTATTCCAGTAC AGGGGACAGCAAGGGAAGAATTGCAAACTCTTATGTGAATTTCCAGAGCAAAGGGGGTACAGGAAATCAAGACAATGAAG GGAAAAGTCTCCAGAACAAAGGAGGCACTGGTAATCAGGACACAGAAGGAAAACAACCAGACAAGAAGTGGAATGGAGGG CAGAGGTTGACCCAAACTGAACTCCAAGAGAGAAGCAGGAAGGGATTATGCTTTAAGTGTGGAGACAAATGGGGGAAAGA ACACATTTGCTCCATGAAAAACTACCAACTCATTCTGATGGAAGTAGAGGAGGATGAGGAAGAAGAGGAGATTTTTGAGG AAGCTGAGGATGGGGAATTTGTGCTGGAAGGGAAGGTTCTCCAGTTGTCATTGAACAGCAAGGAAGGGTTAACCTCCAAC CGATCCTTCAAAGTGAAAGGGAAGATAGGAAATAGGGAAGTTCTGATTTTAATAGATTGTGGAGCAACCAGCAATTTCAT CTCCCAAGACCTTGTAGTTGAACTAGAAATTCCAGTCATTGCAACCTCTGAATATGTTGTAGAAGTGGGGAATGGGGCAA AGGAGAGGAACTCTGGGGTATGCAAGAACTTGAAACTAGAAGTCCAAGGAATTCCCATTATGCAGCACTTCTTTATACTA GGATTGGGAGGTACAGAAGTGGTTCTGGGAATGGACTGGCTTGCTAGTCTGGGAAATATTGAAGCAAATTTCCAGGAACT CATCATACAATGGGTTTCTCAAGGGCAGAGAATGGTTCTGCAAGGGGAACCCTCAGTGTGCAGGGTGACTGCTAATTGGA AATCAATTAAGATCACTGAACAGCAGGAAGCAGAGGGGTACTACTTATCTTATGAGTATCAGAAGGAAGAAGAAAAGACA GAAGCTGAAGTGCCAGAGGGAATGAGGAAAATTCTGGAAGAATATCCAGAAGTGTTCCAAGAGCCTAAGGGACTACCACC AAGAAGGACCACTGACCATGCTATTCAATTACAAGAGGGAGCTTCCATTCCCAACATCAGACCTTACAGGTACCCTTTCT ATCAAAAGAATGAAATTGAGAAGTTGGTGAAAGAAATGCTGAATTCTGGAATAATTAGGCATAGTACTAGTCCTTTCAGC AGCCCAGCTATTCTTGTAAAAAAGAAAGATGGGGGATGGAGATTTTGTGTAGATTATAGAGCCCTTAACAAGGCCACTAT TCCTGACAAATTCCCTATACCAATTATTGATGAACTCTTGGATGAAATTGGGGCTGCTGTGGTTTTCTCAAAGCTGGATT TAAAATCAGGGTACCATCAGATTAGGATGAAAGAAGAAGACATCCCTAAGACAGCTTTTAGAACCCATGAAGGGCATTAT GAATACTTGGTCCTCCCTTTTGGATTGACAAATGCACCATCTACATTTCAAGCACTCATGAACCAAGTGTTGAGACCTTA CTTGAGGAAGTTTGTACTTGTTTTTTTTGATGATATCCTCATTTATAGTAAGAATGAAGAGCTGCACAAGGACCACTTAA GGATTGTCTTACAAGTGTTGAAGGAAAACAATCTGGTTGCAAACCAGAAGAAATGTTCTTTTGGTCAACCTGAGATAATT TATTTAGGACATGTCATATCACAAGCAGGAGTTGCGGCTGATCCTAGCAAGATTAAAGATATGCTAGATTGGCCTATTCC TAAGGAGGTGAAAGGATTAAGAGGGTTCTTAGGACTCACAGGGTACTACAGAAGATTTGTGAAAAATTACAGCAAACTAG CACAACCTCTAAATCAATTGCTCAAGAAGAATAACTTCCAGTGGACTGAAGGAGCCACCCAAGCTTTTGTGAAGTTGAAG GAAGTGATGACTACTGTTCCAGTTCTTGTTCCACCCAATTTTGACAAACCTTTCATTCTGGAAACAGATGCTTCTGGGAA GGGACTTGGAGCTGTCCTTATGCAGGAAGGAAGACCAGTTGCCTATATGAGCAAAACTTTATCTGATAGGGCTCAAGCCA AATCTGTTTATGAAAGAGAATTGATGGCAGTGGTTCTTGCTGTGCAAAAATGGAGACATTATCTCCTAGGGAGCAAGTTT GTCATACACACTGATCAGAGAAGCTTGAGATTTCTAGCAGATCAGAGAATAATGGGGGAAGAACAACAAAAGTGGATGAG CAAGTTGATGGGCTATGATTTTGAAATTAAGTACAAGCCTGGGATTGAAAACAAAGCAGCTGATGCTTTATCCAGGAAGT TGCAATTCTCTGCCATATCCTCAGTCCAGTGTGCTGAATGGGCAGATTTGGAAGCTGAGATATTAGAGGATGAAAGATAT AGAAAGGTTCTGCAGGAGTTAGCCACTCAAGGGAATTCTGCTGTTGGTTATCAACTGAAGAGGGGAAGATTGCTATACAA AGACAGAATAGTTCTCCCTAAGGGCTCTACCAAAATTCTCACTGTTCTGAAGGAATTTCATGATACAGCCTTAGGAGGCC ATGCTGGAATTTTCAGAACCTACAAGAGAATATCAGCTTTATTCTACTGGGAAGGCATGAAGCTAGACATTCAAAATTAT GTACAAAAGTGTGAGGTGTGTCAGAGGAACAAATATGAGGCACTAAATCCAGCAGGATTTCTTCAACCACTCCCTATACC CTCTCAAGGTTGGACTGATATATCCATGGATTTCATTGGAGGTCTCCCTAAAGCCATGGGAAAAGATACCATACTAGTGG TAGTAGACAGGTTTACTAAGTATGCACACTTCATTGCTTTATCTCACCCATACAATGCCAAGGAGATTGCTGAAGTATTC ATCAAAGAAGTGGTAAGACTACATGGTTTTCCCACCTCCATTGTGTCTGATAGAGACAGAGTATTTCTCAGCACATTCTG GTCAGAGATGTTCAAACTAGCTGGCACAAAATTGAAATTCAGCTCTGCATACCACCCTCAGACAGATGGACAAACTGAGG TGGTTAATCGATGTGTTGAGACATATCTAAGGTGTGTAACAGGGTCCAAACCAAAGCAATGGCCCAAATGGCTGAGTTGG GCAGAATTCTGGTACAATACAAATTACCATTCAGCCATCAAAACCACTCCTTTCAAGGCTCTTTATGGGAGAGAACCACC TGTGATTTTTAAGGGAAATGATTCTTTAACATCAGTAGATGAAGTGGAGAAATTGACTGCTGAGAGGAATCTAATTCTAG AGGAGCTCAAGAGTAATCTAGAGAAGGCACAGAATAGAATGAGGCAGCAGGCCAACAAGCACAGAAGGGATGTTCAATAT GAAGTGGGGGATCTGGTTTATCTGAAGATTCAACCCTATAAGCTCAAGAGTTTGGCTAAGAGAAGCAATCAGAAGTTGAG TCCTAGGTATTATGGACCTTATCCAATTATAGCAAAGATCAACCCAGCTGCCTATAAACTGCAGTTGCCAGAAGGAAGCC AAGTGCATCCTGTCTTCCATATTTCCCTGCTCAAGAAGGCTGTGAATGCAGGAGTTCAAAGCCAACCATTACCAGCAGCT CTTACTGAAGAATGGGAACTCAAGGTCGAACCAGAAGCTATTATGGACACCAGGGAAAACAGGGATGGGGACTTAGAAGT GCTAATCAGGTGGAAGGACCTACCAACATTTGAAGACTCATGGGAGGATTTCAGTAAGTTGCTGGACCAGTTCCCTAATC ATCAGCTTGAGGACAAGCTGAATCTTCAAGGGGGGAGAGATGTTGCAAACCCAAGCTCCAGGCCCAGGTTTGGCAACGTC TATGCTAGGAGGCCCAAGCCACAGCTGGAGGCCAACATTCTAGAAGCTTAGGATCCCAAAATAACCACCACCTGGTGAGG TGGCAGATTCTCAATGATAAGGAGGGGACCAGTACTATTAGCTAAGGATATATATGTTAGTATAGAGAGAGAGAGAGGTA GGCAGAAATTGGCTAGGACTTGGGAGAGATAGAGCACTCTCGAATTTGCTCTTGTTCATTTTCTTCTTCATTTGCTTTTC TTTGTATTACTGCAAACACTGCTTCTGGGTTCATACCAGAGGATTCAGTGCTAATCTAGTATACTCAGTCTCTATTTTCC TACTCTGTTTTCTGGTACCTAACAGAGATGAAGAGGAAGAAGAGGAAGACATATTTGAAGAAGCTGAAGATGGTGAGTTT GTTTTGGAGGGAAAAATACTGCAATTGTCTCTTAATAGTAAAGAGGGCTTAACCTCTAACAGGTCTTTCAAAGTTAGAGG AAGAATTGGAACAAGGGAAATCTGGATTTTGGTAGATTGTGGAGCAACAAGCAATTTTATCTCCCAAAATATTGTGAATG ACTTAGACTTGACTGTTGTAGCAACCACTGAATATGTGGTGGAAGTTGGAAATGGGGCCAGAGAAAGAAATTCAGGAGTG TGCAAGAATTTGTCCCTGGTAGTGCAAGGAATCCCTATCACTCAACATTTCTTTATCCTTGGGCTTGGGGGCACTGATTT AGTCCTGGGAATGGACTGGTTAGCCAGCCTTGGGGACATTGAGGCCAACTTCAAAGAACTTATTATTAAGTGGAACCTTC ATGGCAAGCAGTTTGTGTTACATGGAGAACCTCAGGGTAATAAAATTCAGGAAGCTTGCAAAAACATAAAGAGCACAAGG AAGAACAAAGACCTGGATTTCTGCCTTTCTCATGAGTTTGTAGAGGGTATCAACATAGCAGTAGCTGAGATCCCTGCTGA ATTGAGAAACATTATTGAAAAGTTCCCTGTGGTGTTTGAAGAACCTCATGGGCTGCCTCCTAAGAGGCCTACTGATCATG CTATTCTACTGCAGCAAGGAACAGCAGCACCAAACATAAGGCCCTTTAGGTATCCATTCTACCAGAAAAATGAGATAGAA ACTCAAGTGCAGGACATGCTCAAGAATGGGATTATAAGGCCCAGCACTAGTCCATTCAGTAGCCCTGCAATTCTAGTGAA GAAGAAAAATGGAGGGTGGCGTTTCTGTGTTGACTATAGAGCCTTGAACAAGGTTACTATACCAGATAAGTTCCCTATAC CTATAATCGATGAATTATTAGATGAGATAGGTTCTGCTGTTATCTTTTCTAAATTGGACTTAAAATCTGGTTATCATCAA ATAAGGATGAAAGAGGAGGACATTCACAAAACAGCTTTTAGAACTCATGAAGGACATTATGAATATCTAGTAATGCCTTT TGGGTTATCAAATGCTCCTTCAACCTTTCAGGCCCTCATGAATCAGGTTTTGAAACCTCATTTAAGGAAGTTTGTTTTGG TTTTTTTTTATGATATACTAATCTATAGCAAGAGTTTGGAATTGCACATGGAACATTTGAGGTTGGTGCTCCAAAGCTTG CAGGAAAATCACTTAGTAGCTAACCAAAAGAAATGTTCATTTGGCCAACCAGAATTGGTCTATTTAGGCCATGTAATCTC CAAGCAAGGAGTGGCTGCTGATCCCTCTAAAATCAATGACATGCTGAATTGGCCTCAACCCAAAGAAGTGAAAGGGTTAA GGGGTTTCTTGGGTTTGACAGGGTACTATAGAAGGTTTGTGAGGAATTACAGCAAGTTAGCTCAACCTCTAAACCATCTC CTCAAGAAAAACAACTTTGAATGGAATGAGGAAGCCAGTCTAGCTTTTGCCAAATTAAAGGAGGTAATGACTACTGTTCC TGTGTTGGCAGCACCAGATTTCAGCAAGGAATTTGTGCTTGAGACCGATGCATCAGGAAAGGGGCTTGGTGCTGTTTTGA TGCAAGGAGGGAGACCAATTGCATTCATGAGCAAGACTTTATCTGACAGAGCTCAGGCAAAATCAGTGTATGAAAGAGAA TTAATGGCTGTGGTTTTTGCAATCCAGAAATGGAGGCATTATTTACTGGGTAGCAAGTTCCTAATTCACACAGATCAAAA GAGCTTAAAGTTCTTAGCTGACCAGAGATTGATGGGTGAAGATCAGCAAAAATGGGTTTCCAAATTGATGGGTTATGATT TTGAAATCAGGTACAAACCTGGAGTAGAAAACAAAGCAGCAGATGCCTTGTCCAGAAAAATGCAATTTTCTGCCATCTCA TCTATTCAGTGTGAAGGCTGGAATGACTTAGAAGAAGAGTTATTGGCTGATGAAAAATGTAAAAAAATCATGCAAGAGCT ATTGACACAAGGGCAATCTCTAGCAGGGTATCAATTAAGGAAGGGAAGACTATTTTATAAGGACAGAATAGTGTTACCAA AGGCGTCCAGCAAGGTTCTCACCATACTCAAAGAATACCATGAGTCTGCTCTTGGAGGCCATGCAGGGGTCTTAACTTAT AAAAGAATCTCAGCTCTATTTTACTGGGAAGGGATGAAGATGGACATTCAGAAATTTGTGCAAGATTGTGAGGTTTGCCA GAGAAACAAATATGAAGCATTGAATCCAGCAGGTTTCTTACTACCTCTTCCTATACCATCACAAGTGTAGTCTGATATTT CTATGGATTTCATAGGGGGTCTTCCTAAAGCAATGGGGAAGGACACCATCTTTGTGGTGGTTGACAGGTTCACCAAATAT GCCCATTTCATAGCTCTCTCACACCCCTATAATGCTAAGGAAGTGGCTGAAATATTCATAAAGGAGGTAGTTAAACTACA TGGTTTTCCCAATACCATAGTTTCTGACAGAGACAGAGTTTTTCTTAGCACCTTCTGGACTGAACTCTTTAGATTGGCTA GGACCAAACTGAAATTTAGCTCTGCCTACCATCCTCAAACAGATGGGCAGACTGAGGTAGTAAATAGGTGTGTTGAAACC TATCTCAGGTGTGTGACAGGAACAAGACCTAAGCAATGGCCAAAATGGTTGTCTTGGGCAGAATTTTGGTATAATACCAA CTATCATTCTGCCATCAAAACCACTCCCTTCAAGGCCTTATATGGGAGAGACCCTCCTGCTATCATCAGGGGAACTGATT CTGTCACTTCAGTAGAGGAAGTGGAGAAGCTTACTGCTGAAAGAAACCTTATGCTAGAAGAACTCAAGGAAAATTTGGAG AAGGCTCAAAACAGAATGAGACAACAAGCAAATAAACATAGAAGAGACGTTCAATTTGAGGTAGGGGATCTTGTGTATCT CAAGATTCAACCCTATAAACTCAAGAGTTTGGCCAGGAGGAAGAATCAAAAGTTGAGCCCTCGATACTATGGTCCTTATC CTATAATAGAGAAGATCAATGCTGCTGCTTACAAGCTTCAATTACCAGAGGACAGCCAAGTTCATCCAGTATTCCACATT TCTTTACTCAAAAAAGTAGTGAAGGAGGGGATCGTCAGCCAACCCTTGCCCAAAGATCTAAATGAAGGGTGGGAGCTTCA AGTAGAACCTGAAACCATCTTGGATGCCAGACAGAATGACCCTGGAACCACAGAAGTTCTAGTGAGATGGAAGAATCTGC CAGCTTTTGAAGATTCCTGGGAAGAATTGGACAGATTGATAGCACAATTTCCAGACCATCACCTTGAGGACAAGGTGAAT CTTCAAGGGGGGAGAGATGTTGCACCTGTTATGGCCAGGCCCAGGTTTGGCAAAGTCTACAATAGGAAGCCCAAGTCCAC TGGCATTCTGTCAAATGACAAGGCCTTCTAGAATGCTAGGATTCCTATATAACCACTTGATGAGGTGTTATTATTAGTAA TGATGAGAAGTACAGCTGGGGGGGAACCACTAGGGAGTGAGAGGAATATATGTTGGTGTTATTATTAGTAATGATGAGAA GTACAGCTAGGGGGGGGGGACCACTAGGGAGTGAGAGGAATATATGTTAGTTATGGTGAGAGAATGAGGTAGGCTTGTTT TGGCTTAGGATTGGGAGAGAAGAGCACTCTCGAATTGCTCTAGTTATTTTCCTTTGTTCTTGTATTCCCTAACACTATTT CTGGGTTTCATACCAGAAATTCAGTATTATCAATACAACTTCAGTTCTAGTTTCCTTCATATTTTCTGGTACCTAACATT CTTCCTGCTTGCCTCTTGTTTAAGTGCATATTTGGATGCGTATTTTCGACCAAAAAACCCTTTTCCGCAGCTTCCTTAGA GAGCTTGAAACTGATTCTTTCCCTGATAAGACTTCGCCAAATACGCTACAAGCAAACTGTAAAGCTTGATCAACCTGTGT ACATCCTATGCTCTTGCCTCCTGATTCTGAACTTAACACCTGTTGCTTTTCCCTTATAATATGCCAATGGATCTGTACAA TGTTTGGAATTGTGGGGTAGCAGCTGTTTGTTTACCACTTTAGTGTAATTTTAAAACAATAGCAATACCTTTTATTGTTT GATAGAATTGGTTGTATCTTATCAAGATTGGGGAAATAGTTATTTGGGATCTGGTTAAATTTATTTATCAGGTGATGTTT CCATCTACACTACTTGGAACTGGTGAGAATTGGACTTTAATGAAGACCATCAGTGTTACCGAATACTTGAATTATGAAGC AGGTTAGTCATCTGCTTTGCAACGGTTTTTTGGTAAACTACACATATTGACAGATAGCTAACATGAATAGAAGTATGGAC ATTCTCAAGCAATTTTTTCATGAATGATGTTCAGGGAAGTTTTCTAAAAGCAAAGGCATTGGGGTATTTGGTAATGATGC AAAAGATACTAATATCCCAGTTGAAGTATGGAGATATTACTTGCTCACAAATAGGCCTGAGGTAATTCTATTTTAAACAT ACTTCATTAATACTTGTTTTCTATGTTGTGAAGCTTAAATAAATGTTTTATCTTCTCTCCCTTTATTAAGTACATTGTAC GTGATTATGCATATTGTAGGTATCAGATACATTATTCACGTGGACTGACTTGCAAGCGAAATTAAATGGGGAGTTGCTGA GCAATTTGGGCAACTTTGTCAATCGAGTTTTGAGTTTTATTGCCAAACCTGCAGGTTGGTTGAACTTCATTCATTTTTAT TGTGAAGTGTCAACTGATTAGCTGCTACAAATCCTTAGGAATTACATAAATGGGGACTATGAATATATATTCCGGGACGG AACCAGGAAAAATGAATAGGGGGCGAAAATGTAATGCATGCTAACCAAAAGAATAGTGACTGATGTCTAGTGTTAATTAT TCGAAGTGATATACCGAATAAAATGTGGTATTTTAGTGGTGTATGAAATGCTAGTGGTTCACTAATCATAACCCTTTACA CCTCAATTTCCACTGTTTATATTCCTTGAAGGAGTTTGCTTTCTTCACTTATTTTATTTAAGAAACAAGATACGTGCAAA AGTTTGAGTTATGATATGTTGATGTTCACACTCTACTTTCTCTTGCAATTCATTTCCATTCAGTTTTTCTCCCTGTCTCT CTTTACTATATCTATCACATCACCTATCATATCACTTATTTCTGTCGTTCTGAAGGTGTAAAGTGGAGAAGTGTGAACAG AACTTAATTCTTAAAGTTGAGTTTTGTTCAATTGTTGCTTTTGTGCAGCTTTATTTGTTTCAATATTTTATTTTTAATAA ATAGTTGACCGTGTAGACTACTATAGAGTAATTTTTTAATTTTTCTTTCATTTATTGTATTTGCTACTGCTACTTTACTT ACATATAGTGAAAAGCATAGCATAGGCTAACTATGTCTAGATTTTCTCTTGGGGGCGTACTATAGCTACTGCAGAGGGGG GCTTATTAATTTTTTTTAATGATATTGAAACACTTTTGTGTGCTGGGGGGGGGGGGGGGCAAGAGCCTACTTTCCTCAAA CGTGGTTCCGTCCCTGTATATATTGGAGTTATTGACAAATATTTGTCCTTTATCACAGTATTTGGGAAGTAAAAAGATAT TATTATTCCTGCTATTTAGTTAAGTTACTTTTTTTTGCTGCTTCTGCTTATCATTTGATTCACATATTTACAAGTTTTGT CCTGTAAAGGTCAAGGATATGATTCCACTATTCCTGCTGTTCCTAATGATGTAAGTGGTGACTCCCACAATCCGACAAAA AAAATGGCTGATAAAGTTATTGCATATGTGGAGCAATACATAGAAGCAATGGAGAAGGTGTGTTAAATCCCATTTTGAAA TACCACGCTATTGTAATCACTAAAATAGACCGTTTTTTATTTTAAGCTAGTTATTATCATATTCTGATGGCATATAATTT TGCAAATCTGTAAAGGTTAAGCTAAAGCAAGGATTGAAAATTGCAATGAGCATATCTGGCGAGGGGAATGCATATCTGCA GGTATTTTTGGAATTGCTATATTAATTTCTTGTACTATTGTGATGTTAAATGGCTGTGTAACTCGATTCCTAACTTTTTT TGCATTTAACTTTATAGGAAACTGAATTCTGGCGCCTTTACAAGGGAAACCCTTCTCTCTGCTCCCTTGTTATGAAAACT GCAGCTGGGCTTGTATATCTTCTTGCTTGTTTATTAGAACCTTTTATACCATCATTCACTGTTGAGGTAAAGTAACTTCT CTGTATATTTGTATTCCACTTCTGTCACTATTTTTTTCTCATTTTTGTTTCTTATTCTGCATTGAAGGTATTTAAGCAGT TAAATTTGTCCACGGATATGCATCTTTCACTTTGTGACGATAAAGGAGATATTGATAGGGTAAGAAGACCCTGGGATCTC ATAAGTGTTGGTCATAAAATTGGAACACCCAAGCCATTGTTCAGGGAGCTGGTATGTTTTCTGAAAACTAGTAAAGGGAT TCAATTTGTACTTTTGCGTTAGAGTCATTGATGAATTCACAATTGTTGACCAGAAAGATGAAGAAGTGGAGCTCTACAGA AATAAGTTTGCAGGAAGTCAAGCTGATAGAATTATCCGTGCAGAAGCTGAAAATGTTGCTGAGCAACTAAGGAACACAAA TGTTTCAGGTGCTTTTTCCTTCCATTTCTAATGAGCGTTCTGAGCTGTGAAACACGGACACACCTGGGAAGGGGAATGTC CAGGTGTCGGACACGTGTTGGAAGTGTCTGAATAATTTTTTTTCCTGGCTTGGACATGGCTCGGACACATCTTGAACACT AAGCCAACACTCCTTCATGGCTAGACACCTTTAGGACACATTAATTTTTTTTATTTTTAAAGTCAAATTTTATTTGA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0538600.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGGAAGATCGGAAAACACCGAAGCTTCCCGTCGAAGGCAAGCGCAACATCCTCATCACCAGCGCCTTGCCTTACGT CAACAACGTCCCTCATCTCGGCAACATCATTGGATGTGTGTTGAGTGCTGATGTGTTTGCTCGCTACTGTCGCCTTCGGG GTTACAATGCTATTTACATCTGTGGCACTGATGAGTATGGAACTGCCACTGAGACTAAAGCCATGGAAGAGAATTGCTCC CCCAAAGAGATTTGTGACAAGTATCATGCTATTCACAGTGAGGTCTACAATTGGTTCAATATAAGTTTCGATGAATTTGG GCGGACCTCATCCCCTCAGCAAACTGAAGTTTGCCAAGCGATTTTTAAGAAAGTATTTGACAACAAATGGCTCTCCGAGA ACACCATGCAGCAGCTTTACTGTGATACATGCCAAAGGTTCTTGGCTGATCGGCTCGTGGAGGGTAACTGTCCAACTCCG GGGTGTGGGTATGATTCTGCTCGAGGAGACCAATGTGAGAAGTGTGGAAAGCTTCTGAATCCAACAGAATTGAAGGATCC TAGGTGCAAGGTTTGTCGAAATTCTCCCCGTATTCGTGATACGGACCACTTGTTTCTTGAACTCCCTCTGTTGAAAGATA AATTGGAAAAATACATCAAAGAGATGTCTGTAGCCGGATCATGGAGTCAGAATGCTATTCAAACAACAAATTCATGGCTT AGAGAGGGATTAAAGCCACGTTGTATTACCAGGGATCTGAAATGGGGGGTTCCTGTTCCACATGAAAAATACAGTGACAA GGTTTTCTATGTTTGGTTTGATGCACCTATCGGATATGTCTCAATCACCGCATGCTACACAAATGATTGGGAGAAATGGT GGAAAAACCCGGAGAATGTGGAGTTGTATCAGTTTATGGGCAAGGACAATGTACCATTCCACACTGTGATGTTTCCATCT ACACTACTTGGAACTGGTGAGAATTGGACTTTAATGAAGACCATCAGTGTTACCGAATACTTGAATTATGAAGCAGGGAA GTTTTCTAAAAGCAAAGGCATTGGGGTATTTGGTAATGATGCAAAAGATACTAATATCCCAGTTGAAGTATGGAGATATT ACTTGCTCACAAATAGGCCTGAGGTATCAGATACATTATTCACGTGGACTGACTTGCAAGCGAAATTAAATGGGGAGTTG CTGAGCAATTTGGGCAACTTTGTCAATCGAGTTTTGAGTTTTATTGCCAAACCTGCAGGTCAAGGATATGATTCCACTAT TCCTGCTGTTCCTAATGATGTAAGTGGTGACTCCCACAATCCGACAAAAAAAATGGCTGATAAAGTTATTGCATATGTGG AGCAATACATAGAAGCAATGGAGAAGGTTAAGCTAAAGCAAGGATTGAAAATTGCAATGAGCATATCTGGCGAGGGGAAT GCATATCTGCAGGAAACTGAATTCTGGCGCCTTTACAAGGGAAACCCTTCTCTCTGCTCCCTTGTTATGAAAACTGCAGC TGGGCTTGTATATCTTCTTGCTTGTTTATTAGAACCTTTTATACCATCATTCACTGTTGAGGTATTTAAGCAGTTAAATT TGTCCACGGATATGCATCTTTCACTTTGTGACGATAAAGGAGATATTGATAGGGTAAGAAGACCCTGGGATCTCATAAGT GTTGGTCATAAAATTGGAACACCCAAGCCATTGTTCAGGGAGCTGAAAGATGAAGAAGTGGAGCTCTACAGAAATAAGTT TGCAGGAAGTCAAGCTGATAGAATTATCCGTGCAGAAGCTGAAAATGTTGCTGAGCAACTAAGGAACACAAATGTTTCAG ACTCCTTCATGGCTAGACACCTTTAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0538600.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAEDRKTPKLPVEGKRNILITSALPYVNNVPHLGNIIGCVLSADVFARYCRLRGYNAIYICGTDEYGTATETKAMEENCS PKEICDKYHAIHSEVYNWFNISFDEFGRTSSPQQTEVCQAIFKKVFDNKWLSENTMQQLYCDTCQRFLADRLVEGNCPTP GCGYDSARGDQCEKCGKLLNPTELKDPRCKVCRNSPRIRDTDHLFLELPLLKDKLEKYIKEMSVAGSWSQNAIQTTNSWL REGLKPRCITRDLKWGVPVPHEKYSDKVFYVWFDAPIGYVSITACYTNDWEKWWKNPENVELYQFMGKDNVPFHTVMFPS TLLGTGENWTLMKTISVTEYLNYEAGKFSKSKGIGVFGNDAKDTNIPVEVWRYYLLTNRPEVSDTLFTWTDLQAKLNGEL LSNLGNFVNRVLSFIAKPAGQGYDSTIPAVPNDVSGDSHNPTKKMADKVIAYVEQYIEAMEKVKLKQGLKIAMSISGEGN AYLQETEFWRLYKGNPSLCSLVMKTAAGLVYLLACLLEPFIPSFTVEVFKQLNLSTDMHLSLCDDKGDIDRVRRPWDLIS VGHKIGTPKPLFRELKDEEVELYRNKFAGSQADRIIRAEAENVAEQLRNTNVSDSFMARHL

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Domain prediction

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
PANTHER	PTHR45765:SF3 View details on PTHR45765:SF3 Search for proteins/transripts with this domain View external data on PTHR45765:SF3	1	615	615	0.0	–
PANTHER	PTHR45765 View details on PTHR45765 Search for proteins/transripts with this domain View external data on PTHR45765	1	615	615	0.0	–
SUPERFAMILY	SSF52374 View details on SSF52374 Search for proteins/transripts with this domain View external data on SSF52374	15	397	383	3.11E-92	–
Hamap	MF_00098 View details on MF_00098 Search for proteins/transripts with this domain View external data on MF_00098	16	586	571	35.861	IPR023458 Show description in modal box View details on IPR023458 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00814 View details on cd00814 Search for proteins/transripts with this domain View external data on cd00814	17	387	371	2.27352E-159	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09334 View details on PF09334 Search for proteins/transripts with this domain View external data on PF09334	18	412	395	1.8E-154	IPR015413 Show description in modal box View details on IPR015413 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00398 View details on TIGR00398 Search for proteins/transripts with this domain View external data on TIGR00398	18	538	521	2.6E-171	IPR014758 Show description in modal box View details on IPR014758 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.620 View details on G3DSA:3.40.50.620 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.620	18	394	377	6.7E-167	IPR014729 Show description in modal box View details on IPR014729 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	20	33	14	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00178 View details on PS00178 Search for proteins/transripts with this domain View external data on PS00178	25	36	12	-	IPR001412 Show description in modal box View details on IPR001412 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	53	67	15	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	101	112	12	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF57770 View details on SSF57770 Search for proteins/transripts with this domain View external data on SSF57770	153	189	37	2.62E-9	IPR029038 Show description in modal box View details on IPR029038 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.20.28.20 View details on G3DSA:2.20.28.20 Search for proteins/transripts with this domain View external data on G3DSA:2.20.28.20	153	189	37	6.7E-167	IPR029038 Show description in modal box View details on IPR029038 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	269	280	12	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	304	319	16	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.730.10 View details on G3DSA:1.10.730.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.730.10	395	587	193	1.3E-45	–
CDD	cd07957 View details on cd07957 Search for proteins/transripts with this domain View external data on cd07957	396	532	137	1.40256E-33	IPR041872 Show description in modal box View details on IPR041872 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01041 View details on PR01041 Search for proteins/transripts with this domain View external data on PR01041	399	410	12	3.3E-32	IPR033911 Show description in modal box View details on IPR033911 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47323 View details on SSF47323 Search for proteins/transripts with this domain View external data on SSF47323	404	587	184	6.17E-33	IPR009080 Show description in modal box View details on IPR009080 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000166 View details of GO:0000166 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0036094 View details of GO:1901265
GO:0004812 View details of GO:0004812 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0016875 View details of GO:0140101
GO:0004825 View details of GO:0004825 AmiGO InterPro QuickGO	Molecular function	Methionine-tRNA ligase activity	Catalysis of the reaction: ATP + L-methionine + tRNA(Met) = AMP + diphosphate + L-methionyl-tRNA(Met).	Subterm of View details of GO:0004812
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006418 View details of GO:0006418 AmiGO InterPro QuickGO	Biological process	TRNA aminoacylation for protein translation	The synthesis of aminoacyl tRNA 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, to be used in ribosome-mediated polypeptide synthesis.	Subterm of View details of GO:0043039 Part of View details of GO:0006412
GO:0006431 View details of GO:0006431 AmiGO InterPro QuickGO	Biological process	Methionyl-tRNA aminoacylation	The process of coupling methionine to methionyl-tRNA, catalyzed by methionyl-tRNA synthetase. The methionyl-tRNA synthetase is a class-I synthetase. The activated amino acid is transferred to the 2'-OH group of a methionine-accetping tRNA. The 2'-O-aminoacyl-tRNA will ultimately migrate to the 3' position via transesterification.	Subterm of View details of GO:0006418

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0538600.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0538600.2