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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0313900 |
Transcript ID | LotjaGi3g1v0313900.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Alanine--tRNA ligase; TAIR: AT1G50200.1 Alanyl-tRNA synthetase; Swiss-Prot: sp|P36428|SYA_ARATH Alanine--tRNA ligase; TrEMBL-Plants: tr|G7JNH3|G7JNH3_MEDTR Alanine--tRNA ligase; Found in the gene: LotjaGi3g1v0313900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:66424910..66438064) extracted from Lotus japonicus Gifu genome v1.2.
CCCCAAACCCAGTTCCCCTTGACTCTGCTCATATCCTCTCTTCGTAACCGTAACCCTCCTCCGTTAGCGCCGCCACCTTC ATTCCATTTTCGCGGCGTCTCCTCCTCTTCCAGATCTCCGGCCACCGCCATGCCTGGACCAGACGCTCTCGATTTGGAGT GGCCGGCGAAGCGCGTCAGAGACACCTTCGTCAACTTCTTCAAGGAAAGCAAGAACCATGTGTACTGGCAGTCTAGCCCT GTCGTTCCCTTCAACGACCCCACCCTCCTCTTTGCCAACGCTGGTACTCTTCTTCTCTTCACTCTGTTATTGCATCACTC TGTGTGTGTGACTGAATGAAATGAATTAACTATGTCGATTTTCAGAATTCTATTTGTTTTTCCAAAGTCTGTGTCAATCG TGTAACGTACCCTGAATTGGTATATGATAATCTATTAGCTTCTTAGTAATCATGCCTTGTGTTCTGTGTAAATTGTGGCA TGTTTGGAAATACTTCAGTTCTACTATTGATTATGGGAAGAAGCTTATCAAAATCAATTTTGGGATGAGGATTTCTTTTT GTATTGATCTGTTGTGGATAGCTTGCATTGGTGATTGTGTATTGTTAATTTTTTAAAACTATATACAGTATTGGTTATTA TGGATTCATTGTGGCATGACAGGTATGAACCAGTTCAAGCCAATATTTCTGGGAACTGCTGATCCAAACACTGACTTGAG CAAGCTGTCTCGTGCTTGCAATACCCAGAAATGCATACGAGCGGGTGGTAAACACAATGATCTTGACGATGTGATACCTA CCATCACACCTTCTTTGAGATGCTTGGCAATTGGTCGTTTGGGGATTACTTTAAAACAGAAGCCATTGGCTGGGCGTGGG AACTTCTAACCAAAGTATGCTTTATCAATTAGTTTTTTTTTGGTATTTAAATCTTGCTTTCTTGAATTATGATCCCTTTC GCGACACAAGGTGTTCTGTGCTTGTGAATGATTTCTAAGGAACCTAGGTAGTAACTGAAGCTACCCATAGTGGGCTATGT AGGTTGATTCTTCTATGTTACCAGGCTTTTGTTCTGCTTAAATGCCTTTTGGTGTTCAGATCTCATTAGTAGTAATGTTC TTCAATTGGTAATTGCATCATTATGTAACTAACCTCTACTTCCATTGTATCAATTGTACCATGCCTACCAGTACTGCGCT GGGTTTCACTTGAGGAAGAATGGCATTTGTGACTTATATATGATATGGGAGCTTTTAGCGTTCAATCATCAATATCAGTT GTGAAATTGTAAATCCTGATTGGATTTTATGTTCACTTGGATAAATTAGTAATCTCATCCAAAGAAAATGTATGTTAGAG TGTTCAATTCAATTTGATATGCTCGCTAGTCGATGTTGTTTTTGGTGACCTTGTTTTTTGTGGTAGTGTGCAATATAACC AAATGGAGAAGTTGATAGCTATTTAATTCCTCAATTCATGAAATGTATGATTATATCTTTTACTTGTTTTTCAGGTTTAT AAATTACCATCAGATCGGATTTATGCAACCTATTTTGGTGGTGATGAGAAGGCTGGTCTTGCCCCTGATACCGAGGCTAG AGATATATGGTTACAGTTTTTGCCTCCTGGACGTGTGCTTCCTTTTGGCTGTAAAGTATGCTTTTGTTAATCACTATGTT TTCTCTTAAGTATGTAGAATAGAATATGTTGATAACACATGCAAGTTATATTTATTATTATGGTTAACATTTTTATAATG TAATATTTTATAAAATACTTGTAATTTCTTTATTTGAAAAGATTGTTGTAAACTGCAACTTGTAAGCGTTGTTATCAAAA TTGGATCGGACTTTCTGGTTTGACATGTTGAACTAGGAACTTATTAGGTAATTGATCCATTTAATTCAAAACGCCAGTTG ATTCAGATTCAGTAAGAACTGGTCCAAAATATGTGGAAACTGGTGGTTCAGTGCTGGTTTGAACCAATCAGTTCACCTTT TAATTTAACTTAAAATGTTTTGCCGTCAAATAAATGTCCAATGCAATGCCAAGATAGACAACATGATTATTGATTTTTAT CTTGCAAGACATGCAATATGCTCATTTTATCATCTATTAATAAATAACTTCCATGCTTAATGAGTGTTGTAGCTGCCTTA GAAATGGCGGTCTTAATTTAGAAACTATTTAAGCTGTCCTTATCTCAAGTACTGGCATCATTTTTTAAGAGGGGGAAATC ACTAAAAAATGCATATGGATTTTTTAGTAGTTATAAGAGACGTAAAACATGCAAAATCTATTTAACTTTATACTAAAAGT TGTGTCTTGAGTGGATCCTTATATCTAACTAGGTTTGTATGTTTGGATAGGACAATTTCTGGGAGATGGGTGATACTGGT CCTTGTGGACCTTGTACTGAAATACATTTTGACAGAATCGGTAACCGTGACGCTGCATCATTGGTTAATAATGATGATCC TACCTGCATTGAGATATGGAACCTTGTCTTTATTCAGGTATTATAATGAATTATAGAGGGACTAACCCCCCCCCCCCAAA TGTACTTTATCAGTTGGTATTACTAGAATCCATTTTATAATGCATCCAATTTATTTCTCTCTGTATGTCTCTTACAGTTC AATAGGGAGGCTGATGGCTCTCTTAAATCTCTGCCTGCAAAGCATGTTGATACAGGCATGGGTTTTGAACGATTGACCTC TATACTACAGAACAAAATGAGCAATTATGACACCGACGTCTTTTTGCCCATCTTTGATGCTATTCAGCTGGTATGTTGAT ATAGGGATTAAAACTTATTGTATTTCCTTACATTTTTGGATCAGTAATATTGTTTAGCCTTTAACTGTATGATATCTGAA TTTGGATTGTAATTCTTGTAATGGAGTGTTACTTATTGCCCTTGATAAGGCAATGTGTTTAGTATATACATGGTAGAGAG AAGAGAGAGGATTTCCAGATTTGTCAGGACCAACATTCCTTTTCTGAAATAAGTTTTAGTGAAACTTTCAAATATAATAT TCTTGCAAGTTTATTTGAAGTGATATAAACGAGTAATTACATGTTGAGTGTTGAGCTCATACTCCTTGTAATCTTCATTT GTCACCATGATTTTTCCCCTATTTTGCAGCTTTTTGTCTTGGACATAAACACGTAGTTCCCTGTAGGTCTAACCACGATA AGTTCCACTTCCATGCCTGATTCTCTCATTGTTTTCTGTTTGTGGACCTTGTTACAACTTACAAGTTACAACACTATCTG GGTCTATATTTATTTTTACTTTCACTCTTGGTGCCTCTTGTGATATTTCTACATCTTTGTACAGCTTCGTAACTTGAAGT TTACCTTAAAAGAGAATCTATAAAGCAAATTGTAAATTCTACTTGCTATTGTCAAATGCTCCTTATTCTTTCATTGTTAT TAGCTGCCTATATATGTAGTTGACCGATTGTTTTGACAAGTCGTGGCTTATAATTAAATGTACTTTTTCAAATTCCATTA ATGGTTGTATAATTTTTTGTTTGATTTTTCTTTGTGTAAAACTTTTAAAGGCAACTGGTGCTCGGCCATATTCTGGGAAA GTTGGACCAGATGATGCAGATAAAGTTGACATGGCATACAGAGTTGTTGCCGATCACATCAGAACTCTGTCATTTGCTAT TGCTGATGGGTCTCGCCCTGGTAGGTTATTGTAGACCTGCTATCTTTGCTGACAATTTTTTCCTTCACAGTTCATAGATT TTGACTTTCTAGCTTCATCAATTTGCTGCCCCTCCCCCGCTCGGTCTTGAGCGAGCCCTGTTCTTCAAAGATAGGATTGT GACCTGTAAAGGGGTGCACTAATATGATATATTCCCCTTAACCCATTTATTTAGGCTTTTGACTTCTTTATTTTTAGTTG TCTATGTTACAAGCTGCTGACCAGTTTGTCTGTTTGAACGTTATTTAACTCTCTTTTTTTTGAAGATTAGCATCTCTACC TTTTATGTTTTTTTTTAATGATAGAGGGACCTCCCCCATCTTAAATATGTTATTTATTTATTTTTCTTTTGAAGGTAATG AGGGCCGTGAGTATGTTCTGAGGCGTATACTCCGTCGTGCTGTTCGGTATGGACGTGAAGTGTGATAGCATGAACAGTGT GCATGAACAGTGCTCGTGAACAGTAGCAGTTAGAAAGTTATTATTTGATTATTTGTTGGGGTAGTTATTGGGTTAGTTAT TTACATCAGTTTATGTTAGTTATGTTCTATCAAAACTGCCTAGGGGTGGTTATTAAATTTCTAGTTATAAATAGGAGTTG TGGCTGTTAGTTTAGACATTCAGAAATTGGGTGGTTGTCATAAGGAGAGACTGGACTCTCAAAATTCCAGAATTTGTAGG AGAGAACTGGCTCTCGAACACCAGTACTTCCATAAATATTCTGTAATAAATTCGGTTCCTATCAATTTGGTATCAGAGCA CCATCCAGGTGCTGTGGTGCAATTGAATCGTGAAGAAATGGAGAAGAAGACAACAATTAAGAAAAGGGAAGGTAAGGCGT TTCCAACCTTTGATGGTAAAGAGGCTTACTGGTGGTTGATCAAAGTGGAGCAGCACTGTGAGGCCATGGAAATGGCTGAA GAGAAGAAGTTCTCGGAGGCTGAGATGGCTTTGACGGGAGATGCTTTCTTCTGGTGGTATTTCTGGAAAAGAAGAAACCA GAATGCAAAATGGTGGGATTTTGTGAAGGCTTTACTGAAGAAATTCCAACCAGAAATGGATCCTGACATACCAGTATATG TTAAAGATTCTAGAGAGGAAGAAAGCCCAAGGATAAATGAAGTCTTGGAGAATGCAAGAGAAGGCCATTTAGTAGAATCA AAATCAGAGATGATAGAGACCACAGTAGAGGCGGAGAAATCCTTAACCTTTGAGATGCAAAGACCCAATCTTGAAGCAGA GGTTGTAAGAAGAGGTGATGGAGTGAGTCTTGGACCCCGGTGGAGAAAGCATCGAAAGATCCATCAACAACCGAAGACGA TGAAGAGACGCAAGTCTCTGAATAAAGAAGGGGAGCCAAGACAGAGGAATGGTATGTGGGTCAAATGTCTTTCAAGGATC AAGCATCTTCCACCACAGGCATTGAACAGACTGCAACACTTGGCATCTGCAGAGATGATCTTGTTGAAAGAGGGGAAGAC AGGAACAAAATGGGCTGCGTTAAGTGGTTTGACCAACTTCAAACAGTGGGATCCAGGAGGAGGTATTTTTCAGAGTCAAA CTCCAGAAGTACTGATTAAAACTGCAGAACATTTGGAGCAGCCAACCTACATTGAAGGAGCATTGCCTACTTCCCACCTT GAGGACAAGGTGGATCTTTTAGGGCGGGGTATTGATAGGATGAACAGTGCGCATGAACAGTGCTCGTGAACAGTAGCAGT TAGAAAGTTATTATTTGATTATTTGTTGGGGTAGTTATTGGGTTAGTTATTTACATCAGTTTATGTTAGTTATGTTCTAT CAAAACTGCCTAGGGGTGGTTATTAAATTTCTAGTTATAAATAGGAGTTGTGGCTGTTAGTTTAGACATTCAGAAATTGG GTGGTTGTCATAAGGAGAGACTGGACTCTCAAAATTCCAGAATTTGTAGGAGAGAACTGGCTCTCGAACACCAGTACTTC CATAAATATTCTGTAATAAATTCGGTTCCTATCAAAGTGCTAAAAGCTAAAGAGGGATTTTTCAATGGGTATGTATAAAG GTTAATCACTTCAAGCTGTTGTCAGAATCTAGATCTAGGCCCCGTTTGGAAGAGCTTGTTTGAGCTTATCTGATAGCATA AGCTCTTATGCCAGTGTTTGGGAGAGCTATGATAAAGAGCTTATGCTTATATATAGCTTATTTTCAATTTATTTCAATAA ATATTTCAAAATAGTTTATAAATAAGCGCTTATGTCATAAGCACTTATGACCATAAGCGCTTAATTAAGCTGTGTTTCCA AACGGGGCCCTAAAGCGTTCTTGCCCGATCCTTCATCCGTGTGATATATGAATAGTGAAAACTTATATTATCTGTTATTA TAAATTTGGTCTATTTGTTTAAAATATTATGGGGATCTGATCAGAGATTCCAGGCGTGTATAAAATTATTAACATACATT CTGTTTGTAAAATGCTTTTCTGTCCTCAATTTTGCTGTTTCTAGGCTTGTAAGCGTTGTGGTGAATGTGATGGGCGATGT TTTTACTGAGCTAAAACAACAGGAAGCGCACATTAGGGACATAATTAAAGAGGAGGAGGAAAGTTTTGGCAGAACATTAA TTAAGGTGAGGGGCATATACATCAAGATGTTTATATGGGCAATCACTTGTCAATATCCTTGACAATCATCACTCAGATTA GTTTAGTTTCTTGAAAACTTGATGTTTTACCCTTTGTCAGTGGGTTGTTTTCTGATTTTTCCTCTACTCATTATACGTTT ACAAAGTAAAAATAAAGCAAAACCTAACTGTTTTTACTTCTCCAGGGGATTGAAAAATTTGAGTCATCTGTTCGACATGT TCAGGGAAAGCTGCTGAGTGGGGAGGCAAGTAGAATCTGTATTTTCAGTGCTACTTAGTTGTCATATTTGCTTATTTTCT TACATTTTTTACTTTTCCTAGTTACGTATTTTTCTCGGGTTTTTGCAAGTATATGCAGAAAACATTTAATATTTAACCTT TAATCAAACATTTAATTTTTCTTGGGTTTTTGCTTATTTGCTCTACTATTTTATAGTGTATTAATATTTTGTCTTCGGAA AGTCAATTAAATGAAATTCTAATTTTTGTAGGGATCAGTACTGCTTTTTGGCATACTGCAGTTAGGTGTTGATGATTTGA TGCTTATAACTTGTTAAGATCCTACATTGACTAGGGCTATTGCCAAAGAAGTCCTAATAAAGGGCAAGAGAATTCTCACC CCTAAGCTAGCTTTTAGTATAGAGCTTAACCTAGCTCAAATTCTTAAGTTAACTTCTCAGTTCTCTCCAGGTCTGTGTTA ACGAGTTCATTTTTTGGGTAGTATAAGACTGTTGTAATGAAAGAGCAAGGAAAGTACAATTAAGATGTCAAGATATCCCC CCATAATAAAATCAAAATATAACGTTGTGTTGTTTACATATTGTCGAAACAGACATTTCTCTAACTGTTGCAAATTTTTG GCTAGTGTCTTCCTATAATTTTCCCATATGTTGGTCCTGAATATAACAAAATTTTAACGTTTGGTGTTTTATCCAAAACA TACGACTGCACATATTTTATCTTATTGGTGACGGAGTTGCAGTTGAATCTTATACCTGATAATTCATGATTACACAAATG TTTGATTCCATTTGCATAATTGTCATATAACTTAATATATTAATTCCTTAGTTTTTTGTGAATAGGCCCACCCATGGGCT ATTTCTCAGGCAGCTGTCTCTTGATTACAGGAAGCATTTGTCTTGTGGGATACATTTGGGTTCCCGTTAGATCTGACTCA GGTAGGTGGTTTGTTTCACTGTAATAATGTATGGAATTGGAATTGTAGATCTACTATGCTGTATTATTTTTCCTTAACAA TTTTCTATTTGTCAGTTGATGGCTGAAGAAAAGGGATTACTTGTTGATGTGGAAGGTTTTAATAGTGCCATGGAAGCTGC AAGAGAGAGATCAAGAAATGCTCAAACAAAGGTATCTTGGTTTTTCGAATTTATCTTTGAAGTTTCTTCTGAATTTTTAA GACACTAATCAAATCTCAAACATAGACAAAAATAATGACTAAAAATTAAACTAATTCAATCTTTTCCCCTGCTCTCTTTC AAACTTTCTTGTGTTATTTTCAGCAAGCTGGTGGTGCCATTGTCATGGATGCTGATGCTACCTCTGCATTGCACAAAAAG GGCATTCTCCCAACAGATGACAGCTTCAAATATGTTTGGTTCAAGGTAAGAATTTTGTTATTTTTTTGGGGGAGGGGGAT TTAAGACAATTTAATAGTGAAGGAGGCCACCAAGGGATAAGAACAGTTTTTTTCCCTTTATAACCATACCATAAAATTTA AGAGTGAAGTCATACATAAGAGGCTTCCTGTATTCACGAAATGTGAACATCACTAGAACAAATTTAACTTAGTTTTGTTC TGAATGCCTAACTTATACAACTACAAGCACTCCATTTCAGCCACTGACACCAAAGTCAATTATGAGTGCTGTGTTTACAT GAACTGAAGTTTTTATGCCACTTGTTCTAGCCAAAATCCTTTTCTTTGTTGGACTTAAAACTAGCCTCCCAATTTACTTA ATGTTGCTCTTAGTATTCCCAAATCCCAGCCCCTTACAGAAGTCAGTTGCTTTTGATCTTCTCTATTATATATCAGCTAT TGAAGATAGAAAAGTGTGAAGGTATACTAGATGTAGAAGGTTTTGATCTTCTCTATGTATTGACTTGTGGTTATAAGTTG AGCCGTTGCATTAGACTCCACACTATAATGCTATATGTTTATCCACTTGATATTCTTTTTAAACCGACTACCATGCCTTC CATTGATTTATAGTCTTCTCCATTTCTTTTCTCAGGACCATCAGAGTGTGGTAAAAGCAATATATACTGTTTCTGAGTTT GTGGATTCTGTTAATACTGATGGTGACATTGGTGTTATTCTGGAATCTACAAGCTTCTATGCTGAGCAAGGTGGTCAGGT ATTAAGCCTTGTAAATAGTTTATATTTATTTTGCATGTTCGTTTGATTTGCTTTAATTAAAAGTTATGTTTGTTATTCAT TTCTTCACTTATAAACTTACTTTTGGCAAGTAAATATGATGAAGTTTCTGGAACATTTTTGTTTTATTTTTTAATTTTTG TTTTATTCTGCAATTTATTTTTTAATCCATCTGGTTTTCAAATTTATCTAACTTCCTCCTCTCCATGAAGTCAGTCAACA GATTTTACTAACAGCTGCATAATATATTATATGGGAATCATATTGAATGGCCGACAAATTCTTTGAATGGTATATGTGTT GCTGTCAGCCATCTTAGTGTGTAGCATTTTGCTTTCTTGTTTATGAAATAGTGTAGATGCATGAGTATGATTCTTAGGAA GGACAATGGCTGGCCTGCTGTGGTTATTCGTATCCATTACCTTGCTTGTATGATGAGTTAAAGAGTATTTATAAAAATCT AAGCTTAGAGGAAAATTAGTAAGTATGACATCATTTATGATAAAAGAAAGTAATAATTGGATACTTGGTGTAGAAGTTAT TTCACCAAGATTTCAAACTGAAATTATATGGTTAAAGGCCTGTTCGTTTAAGCTAAAAAAGGATTTTATGATTATGGTAT ATAAAGTGATTTATTTCTTTGAGATTTATGTAAACCAAAAGCTATTTTAGTTTTTGTTATAATTATATTAAATATGGTTT CCCCTTAACATTGTCTCTCATATATTGTAACAGCTTTTTCTGAAATCTACTCAAAGTATGTTATCGAAATAAAGCTTATC CAGACACCTTGAAAATTTTCAAAACTAATTTTTTAATATTTTTTTCGAGAAAAGGGCTTAAACAAACACATTTTAAGTTT AACATAGCAAACTTCAAGCAATAGAAATCATTGTAATATAATAGAAGAGTATTTTGGCAATGCTAGACTTCAGTATAAGT AAAATATTGGTAATGCAAAACTTAAATTTAACTAAAACATTGGTAATATAAGTCTATAAGACGTTTTGAATTATGATAAA ACAGGATACTATTGATTTTGCTAAAAGAAATTATCAAGCAAATTGGCTATATTCTTCAATGTGGACAAATTGACAAAGGA CCACTACTTGAAAAATAAAGACCTTAAAGAAAACATTCCACTACCAAATTTTATCAATATTATATATGTGATGCATTTCC CCTTTTCTTTTACTCAGATTTTTGATACTGGATCACTTGAGTGTCAACATGCTTCATTTCAAGTTCGTAATGTTCAAGTT TTTGGAGGCTTTGTCCTTCACATTGGTAATGGAACTGGTATCTCTGTTGGTGACAAAGTAGTATGTAAGGTATTTTTTTC TTTTCCCCTTTTGCTTCAAATTCCTCTTTCTTTTGTTATTTTTATTACTTTTTGATTGTTTGTAGTTGTCTGTATTTATG TATGATCTTTCATTGCTGTTTCAGGTTGACTATGGAAGACGTGCCCTTATTGCCCCAAACCATACCTGCACACACATTTT AAATTTTGCTCTTCGGGTATGTTGAAAGTGTCCTTCAATGAAGCCTTACTAATACTTTCACTGATCTGTGTGGTAATTGT TGAAATTTCAAATGATGAATGCAGGAAGTACTAGGTGATCATGTTGACCAGAAAGGATCTATTGTTCTTCCTGAAAAATT GAGATATGATTTTTCTCATGGTAAGGTTTATTCAGTAGGAGTTAGAATAATGTGAATGTAAGGAGTTATTATTTACTATG CTGCAATAATAGGCAAGCCTGTTGATGCTGATAACTTGAGGAGAATCGAGTCAATTGTTAATGAGCAAATAAAAGCTGAA TTGGATGTAAATGCAAAGGAGGTTACTCTTGCTGATGCCAAGCGCATCAATGGTTTGCGAGCTGTTTTTGGAGAAGTAAG TAATGTAATTTCACTGAATGTTCTTGCTCATCCAGGATCTTGTTCTTCAATATTCTGCTCTGATGTAGGTCTATCCTGAT CCGGTTCGAGTTGTATCAGTTGGAGAAAAAGTTGAGGATCTCCTTGCTGACCCCGGGAATGATAAATGGTTATCAATATC ATCAGAATTATGTGGCGGTAAATATGATAGCTAATACTTTGAAACTTCCTTTCTGAGTTTCTGTTTGAGATTTCATTTTT ACTTGATCTAGGTACCCATATTTCAAATACACGTGAGGCTAAAGCCTTTGCACTTTTGTCTGAGGAGGGAATTGCAAAAG GAATCCGCAGAATAACAGCTGTTACAACTGAGCGTGCTTATGATGCAATGAAAACGGCCGACGAATTTGAGCAGGAAGTA GATCATGCAGCTAAATTAGAAGGAAGTTTGCTGGAAGAGGTTGGTGTCTTGTGTGTGGTTTCTTTTTGTTCTATTGCATT AGGCTTGTGTTTTTTCCCATTCTAGTTGGTTTGGCCCGTTCAACCAATTGGACCTTGAATTCTCTGGCTTGGTTCATCGC TAGTGATTGAAGATGGTTGAAACCAATGTCCAACTGGCTGAACCAGCACCAGCCAAAGTGAGCATTTGAATTGTTAAATA TAAAGATTATGTGTCAAATCAAACGGACTCATAAAATGACAACTCTGAACCTAAGATGAAGGTCTATTGAAGCCTCTTCA ATATACTGGAAAGCATTGAAATACTCACGAGAATGAAACCTCATCGTTTTGCATTCCTGAGACACTAATAGTTGCTCCCT TATACATTTCTTTGATTGCTCTAATGCAACCAATCCAAACATTTTGCTTTTCAAGAGCCTTCTACAAAACCTTTAAACAA TTCTAGTTAGATTATCATGTATTCTAATAAACTCAACATTTTTTTCCCAACTCCTTTTACTCTATTCGAACATGTGTGTT GATTGATTTGTCTGTGCTGGGCTTTGGGAGTATGATGACTGAAGCTAGTAACACCTAAACACACTCACATGATTCTCTCT TGCTCTTTTTCTCTTTCTTTGCATTATTGACACTGATTTTCCTAGCAGGCAGATATGCAGAGTATGCTTCTTTTCCAAAA TTGTAATTAGTGGACTTACTATTTTCCCTTTTGTCACAGAAAGTTTCATATCTGAAAAGCAATGTGGAAACATTATCAAT TCCAGCAGCCAAGAAAGCTGACATCAAGACCAAGATAGCCCGGCTTCAGGTATAATATATAATGGAATAAATTTGTGGTC TTTATGCCTTCTCCCCTGTTGCACTATTGTATCTTTTTTAATTGATGTGCTTTCATTTGCTCATGAATGAAGTCTTGTAT TATAGTAATATCATAATTCATGTAGGATCAAGTGAGAAAAGCACAAAAGCAGGTTGCCGAAGAGAACAAGCGTAAAGCTG TAACAATCACAGTTGAGAAGACTGAACTCGCTGCTTCAGACGGGAAAAAATTCTGCATATCTCATGTTGATGTTGGTCTG GATGTAGCTGCAGTTCGTGAGGCCGTTACGAAAGTCATGGACCAGAAGGTAACTTATTTTTAATGTATTTAGAAACTATC TTTGTCTTCAGCATTGTATTATGTTGGTCTTGTTTTTGAACTCCATGAAGTCACCTTGTGTCCCCAGCAATTATATTTCC TCTTAACTTCAAATAGTAACTTGTAGCAATGCCGGCTTATGAACAGGGGTTATCCGTGATGGTTTTTAGCACTGATAAAT CTACCAACAAGGCTGTTATTTGTGCTGGGGTTCCGGAGAAAGGAGATAAAGGTAAGCTAGATGTATCAGAGTGGCTGAGT AATGCTTTGGAGCCACTAAAAGGGAGATGTGGTAAAGGAAAAGGTGGTCTTGCAACAGGACAGGTAAGTATTTGTGTGAT TACAAATTGTCACTTTTTTAGTAAATATACTAATTGCTATTATGGTATGGGAATATTTAATTCTTGCATATATCCTTTGA TATTCAATAATTTATACCACTTTAAGCATGAGAAGTAGTGGTTTGAGGATTGTGCTCAGGATCTGCTTGTAGGGGGGGAA CTTCAAAAAAATGGGTTGGGGGCTTTCCCTAAAATAAGGTTCTCTACGTATATCAGCATCAAATCTTTAACTAGGTTCTT AAACAACTTTCATTTCGATTATATATATGATTTTTGGGATCTAATCCTCCAATTCCGCCATGGACTGGGTTAACCTTTCT TGCTTATGATATGAAGAATATGGTCATTATATTGCTGTGATTGTATTTTAGACTTGATTTCAACAATCATAGGAGCAATT TGGTTGCTTACTTAGTAGGTTCAGAAATGTTAAATTGAAATTGGTATAATTTACCATGAATTTCGCATGTGGCGTGTTGT ATTGGATATCATACTGATTTTGCTTACGCTCTATCGTTTTCAGGGTACAGATGCTTCACACGTAAATGAGGCTATGGATC TTGCTACAAAATTTGCATCCATGAAATTAACTTAA
CDS sequence (LotjaGi3g1v0313900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTTGGCAATTGGTCGTTTGGGGATTACTTTAAAACAGAAGCCATTGGCTGGGCGTGGGAACTTCTAACCAAAGTTTA TAAATTACCATCAGATCGGATTTATGCAACCTATTTTGGTGGTGATGAGAAGGCTGGTCTTGCCCCTGATACCGAGGCTA GAGATATATGGTTACAGTTTTTGCCTCCTGGACGTGTGCTTCCTTTTGGCTGTAAAGACAATTTCTGGGAGATGGGTGAT ACTGGTCCTTGTGGACCTTGTACTGAAATACATTTTGACAGAATCGGTAACCGTGACGCTGCATCATTGGTTAATAATGA TGATCCTACCTGCATTGAGATATGGAACCTTGTCTTTATTCAGTTCAATAGGGAGGCTGATGGCTCTCTTAAATCTCTGC CTGCAAAGCATGTTGATACAGGCATGGGTTTTGAACGATTGACCTCTATACTACAGAACAAAATGAGCAATTATGACACC GACGTCTTTTTGCCCATCTTTGATGCTATTCAGCTGGCAACTGGTGCTCGGCCATATTCTGGGAAAGTTGGACCAGATGA TGCAGATAAAGTTGACATGGCATACAGAGTTGTTGCCGATCACATCAGAACTCTGTCATTTGCTATTGCTGATGGGTCTC GCCCTGGTAATGAGGGCCGTGAGTATGTTCTGAGGCGTATACTCCGTCGTGCTGTTCGGTATGGACGTGAAGTGCTAAAA GCTAAAGAGGGATTTTTCAATGGGCTTGTAAGCGTTGTGGTGAATGTGATGGGCGATGTTTTTACTGAGCTAAAACAACA GGAAGCGCACATTAGGGACATAATTAAAGAGGAGGAGGAAAGTTTTGGCAGAACATTAATTAAGGGGATTGAAAAATTTG AGTCATCTGTTCGACATGTTCAGGGAAAGCTGCTGAGTGGGGAGGCAACATTTGTCTTGTGGGATACATTTGGGTTCCCG TTAGATCTGACTCAGTTGATGGCTGAAGAAAAGGGATTACTTGTTGATGTGGAAGGTTTTAATAGTGCCATGGAAGCTGC AAGAGAGAGATCAAGAAATGCTCAAACAAAGCAAGCTGGTGGTGCCATTGTCATGGATGCTGATGCTACCTCTGCATTGC ACAAAAAGGGCATTCTCCCAACAGATGACAGCTTCAAATATGTTTGGTTCAAGGACCATCAGAGTGTGGTAAAAGCAATA TATACTGTTTCTGAGTTTGTGGATTCTGTTAATACTGATGGTGACATTGGTGTTATTCTGGAATCTACAAGCTTCTATGC TGAGCAAGGTGGTCAGATTTTTGATACTGGATCACTTGAGTGTCAACATGCTTCATTTCAAGTTCGTAATGTTCAAGTTT TTGGAGGCTTTGTCCTTCACATTGGTAATGGAACTGGTATCTCTGTTGGTGACAAAGTAGTATGTAAGGTTGACTATGGA AGACGTGCCCTTATTGCCCCAAACCATACCTGCACACACATTTTAAATTTTGCTCTTCGGGAAGTACTAGGTGATCATGT TGACCAGAAAGGATCTATTGTTCTTCCTGAAAAATTGAGATATGATTTTTCTCATGGCAAGCCTGTTGATGCTGATAACT TGAGGAGAATCGAGTCAATTGTTAATGAGCAAATAAAAGCTGAATTGGATGTAAATGCAAAGGAGGTTACTCTTGCTGAT GCCAAGCGCATCAATGGTTTGCGAGCTGTTTTTGGAGAAGTCTATCCTGATCCGGTTCGAGTTGTATCAGTTGGAGAAAA AGTTGAGGATCTCCTTGCTGACCCCGGGAATGATAAATGGTTATCAATATCATCAGAATTATGTGGCGGTACCCATATTT CAAATACACGTGAGGCTAAAGCCTTTGCACTTTTGTCTGAGGAGGGAATTGCAAAAGGAATCCGCAGAATAACAGCTGTT ACAACTGAGCGTGCTTATGATGCAATGAAAACGGCCGACGAATTTGAGCAGGAAGTAGATCATGCAGCTAAATTAGAAGG AAGTTTGCTGGAAGAGAAAGTTTCATATCTGAAAAGCAATGTGGAAACATTATCAATTCCAGCAGCCAAGAAAGCTGACA TCAAGACCAAGATAGCCCGGCTTCAGGATCAAGTGAGAAAAGCACAAAAGCAGGTTGCCGAAGAGAACAAGCGTAAAGCT GTAACAATCACAGTTGAGAAGACTGAACTCGCTGCTTCAGACGGGAAAAAATTCTGCATATCTCATGTTGATGTTGGTCT GGATGTAGCTGCAGTTCGTGAGGCCGTTACGAAAGTCATGGACCAGAAGGGGTTATCCGTGATGGTTTTTAGCACTGATA AATCTACCAACAAGGCTGTTATTTGTGCTGGGGTTCCGGAGAAAGGAGATAAAGGTAAGCTAGATGTATCAGAGTGGCTG AGTAATGCTTTGGAGCCACTAAAAGGGAGATGTGGTAAAGGAAAAGGTGGTCTTGCAACAGGACAGGGTACAGATGCTTC ACACGTAAATGAGGCTATGGATCTTGCTACAAAATTTGCATCCATGAAATTAACTTAA
Protein sequence (LotjaGi3g1v0313900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLGNWSFGDYFKTEAIGWAWELLTKVYKLPSDRIYATYFGGDEKAGLAPDTEARDIWLQFLPPGRVLPFGCKDNFWEMGD TGPCGPCTEIHFDRIGNRDAASLVNNDDPTCIEIWNLVFIQFNREADGSLKSLPAKHVDTGMGFERLTSILQNKMSNYDT DVFLPIFDAIQLATGARPYSGKVGPDDADKVDMAYRVVADHIRTLSFAIADGSRPGNEGREYVLRRILRRAVRYGREVLK AKEGFFNGLVSVVVNVMGDVFTELKQQEAHIRDIIKEEEESFGRTLIKGIEKFESSVRHVQGKLLSGEATFVLWDTFGFP LDLTQLMAEEKGLLVDVEGFNSAMEAARERSRNAQTKQAGGAIVMDADATSALHKKGILPTDDSFKYVWFKDHQSVVKAI YTVSEFVDSVNTDGDIGVILESTSFYAEQGGQIFDTGSLECQHASFQVRNVQVFGGFVLHIGNGTGISVGDKVVCKVDYG RRALIAPNHTCTHILNFALREVLGDHVDQKGSIVLPEKLRYDFSHGKPVDADNLRRIESIVNEQIKAELDVNAKEVTLAD AKRINGLRAVFGEVYPDPVRVVSVGEKVEDLLADPGNDKWLSISSELCGGTHISNTREAKAFALLSEEGIAKGIRRITAV TTERAYDAMKTADEFEQEVDHAAKLEGSLLEEKVSYLKSNVETLSIPAAKKADIKTKIARLQDQVRKAQKQVAEENKRKA VTITVEKTELAASDGKKFCISHVDVGLDVAAVREAVTKVMDQKGLSVMVFSTDKSTNKAVICAGVPEKGDKGKLDVSEWL SNALEPLKGRCGKGKGGLATGQGTDASHVNEAMDLATKFASMKLT
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 |
---|---|---|---|---|---|---|
Hamap | 1 | 844 | 844 | 122.627 | ||
CDD | 1 | 154 | 154 | 1.22324E-81 | – | |
TIGRFAM | 1 | 822 | 822 | 1.4E-216 | ||
SUPERFAMILY | 1 | 158 | 158 | 1.64E-53 | – | |
Pfam | 1 | 479 | 479 | 3.5E-168 | ||
Gene3D | 1 | 155 | 155 | 2.0E-71 | – | |
PANTHER | 1 | 844 | 844 | 0.0 | – | |
PANTHER | 1 | 844 | 844 | 0.0 | – | |
ProSiteProfiles | 1 | 651 | 651 | 100.173 | ||
PRINTS | 112 | 123 | 12 | 1.8E-25 | ||
PRINTS | 139 | 152 | 14 | 1.8E-25 | ||
SUPERFAMILY | 159 | 358 | 200 | 6.67E-61 | ||
PRINTS | 196 | 212 | 17 | 1.8E-25 | ||
PRINTS | 220 | 233 | 14 | 1.8E-25 | ||
Gene3D | 390 | 477 | 88 | 2.4E-11 | – | |
SUPERFAMILY | 403 | 477 | 75 | 1.94E-12 | ||
SUPERFAMILY | 477 | 651 | 175 | 4.84E-44 | ||
Gene3D | 481 | 637 | 157 | 8.2E-47 | – | |
Gene3D | 549 | 619 | 71 | 8.2E-47 | – | |
SMART | 579 | 638 | 60 | 1.4E-20 | ||
Pfam | 579 | 637 | 59 | 9.5E-18 | ||
Coils | 691 | 718 | 28 | - | – | |
Pfam | 700 | 839 | 140 | 7.0E-14 | ||
Gene3D | 731 | 841 | 111 | 1.1E-5 | – |
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 | 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 | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
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 | Alanine-tRNA ligase activity | Catalysis of the reaction: ATP + L-alanine + tRNA(Ala) = AMP + diphosphate + L-alanyl-tRNA(Ala). | ||
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 | Alanyl-tRNA aminoacylation | The process of coupling alanine to alanyl-tRNA, catalyzed by alanyl-tRNA synthetase. The alanyl-tRNA synthetase is a class-II synthetases. The activated amino acid is transferred to the 3'-OH group of an alanine accetping tRNA. | ||
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 LotjaGi3g1v0313900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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