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Field | Value |
---|---|
Gene ID | LotjaGi6g1v0041900 |
Transcript ID | LotjaGi6g1v0041900.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Aspartokinase-homoserine dehydrogenase; TAIR: AT4G19710.2 aspartate kinase-homoserine dehydrogenase ii; Swiss-Prot: sp|O81852|AKH2_ARATH Bifunctional aspartokinase/homoserine dehydrogenase 2, chloroplastic; TrEMBL-Plants: tr|G7JAT7|G7JAT7_MEDTR Aspartokinase-homoserine dehydrogenase; Found in the gene: LotjaGi6g1v0041900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:8040035..8054042) extracted from Lotus japonicus Gifu genome v1.2.
GTAAAAAACACTACAAAAATGTGGCAAGTCACTGCTTTTGTGTGGTCTATTTGTGGGGTTCCAAACTTTATGACATTCAT TATAAATAGTGAGTGTGGTATAATTAAACTTGATCAAGGCGTCACATGCACACACAAACACACACTGTCATTTCTCCACT CCCATGGCGTCGTTTTGCCCTGTCATGTCTCACTCCTTCTTCTGCATTTCCTCTCCAACACCACGTTTTCCATGCTGCAA CGACACCGTTCAATCTCACTGTGCCCCTCTCCCACTCTTGCCCCAACGTTCATGCTCCTCCCAAAGGTATGTCCAATTTA TTCACCATAAAACTCGTTTTGAAAGTTGTTTCATTGATCGATCCAAGGGAAATCAACTAGGCTGCAATGCAATTTCCTAT TATTTGACTCTATTATATATGGTATCACCAAACTTTAACCAAGTTAGATAAAAGATAAACAAGATCTTGCTACACGATCG AGAAGAGCCGTTGCCTGCATTTTCTTTTTATTTATTTATACATTAGTTGTTCCCCTCTTTCCATTGAGGAGAGAGTATAT TTTTAGTCTCGTAAATTTTTAATATTTTATTTTTTTAAAGTATATTTCATTTTAGTAAATTTAAAATAGTTTTACTCTTG TTCTTGAATTTTTGTTTTTTTAAGTTTTCGTGTAAACATATTGGATGATGTTCTGACGAGTTTTACTCTGGCCAAGCAAC TTTTTTTTTTGATAATGTCCAAGCAACTTTTTTAAGCAAAACATGAAAGGTTGATTGATAAGTTTTATACTGTTCAAACA TAGTTTAGTATTAATAGCATTTTTTTGTTTAATTTAATTCACCATTGTTATCGTAGTGTTAAAGTTTAAAATAATATTAG AAAATAAGAAAAGAACAAGAGTATTTTAAAACTGAGTAAGATCAAATTCATAAAAGAGGTCCTCATGTTACTTTCACTTT GTTTGGTTTGATGGAAATAGGGGAAAGATAACTGAGGGAGAGAAAACACATAACCAACATCCTTCCATTGTTTGGTTACT CATCAAAAGGAAAAGGGAGTTTTTTTTGCATAGGAGAGAAAAGACTTGTTTTTCAAGCAAATTAGCCATTATGCCCTTCC ATTACAAATTACCTCTTTAAAAAGCAAGATGTAAATTAACTTCCAATCTTATATATAAAGGACAAAGTCGTTATTATTCA CCACATTTTTTTTCTATCATTCCACTTCTCTCAATTTCCTTGTTTTTTCTTTACATTCTCTTTCTTTCATTTTATTTTCG GTGCTTGTTGTGGTACCTTAATTTAAATGAGGGTACGGTATCTTTAATGATGTAAAACCTATTTATCTCCAATTTTTTAA CTTTTAAAAGCCTCTAGCACCATCATTCATGACCATTTTAGTAGATTATCTCATTATTTTGTCGTTCGCCAGACACCAAA TTCCATATCTCACCCTTATTATGGTCAATAACTCTCTTGTTTTTACATCGCATACATTTCCACTTCCACCACTAGATTCT GACTTAAAAAAAGCTGCAACAACCAGCATGACGTCTAAGATTCCAACAAAAGTTAAAAGGTCTAATCTTCTCTTTTTTTC TGCCCTTCAATTTCACAATTTCATCTAGTCGGGGTATCGTACCCAAAAGAATTTCAAGGTACCACAGAATTTGCCAAACA TTTTTATATCCCCTCACTTTCTTCTCTATCCAATCATAACCTTTGAATTGGATCCCTCTTATCTTTGATTGCACACATGT GGTCCACTAAATTCAAGATTCATTTTTTTTAACAAAAATTCAAGATTCATTGACCGCACGCAATCTGAATTTTTTTTATT TATGAATTTACGTGTTCATTGATTTACTTATTATTATTTCTCAGAAAGAAACTATAGAAATGAAAATATATTTTTATGAC CTAACTTTACTCCAGGAAGTTATTTAATATGCGGGATTATTCTTGAATTTTTTTTAAAAAAAATAGTGTTTTTCTGTCTG TGAAGGGGTGCTTGTTTACGATGGGGGAGGGAATCACCAAGAACCAGGATACATGCTTCATTGGCAGGTTGATGCTTTGA TTAATTAATTACTTTTTGTATCGGAAAAAAGCAAGGTGTTTTTGCAAATTTGTTACTTTTTAATTCATGTTTTCATATGG TTTTTATTTACTAGCAGGTGTTTCAGTGGAAGATGTATCGGTAGAAGAAAAATTACAGCTTCCGAAAGGAGAAACTTGGT CAGTTCACAAGTTTGGAGGGACTTGTGTGGGAACCTCTGTGAGAATCAGAAATGTTGCGGAGGTTATTATGAATGATTAC TCAGATAGGAAATTTGTGGTGGTCTCTGCGATGTCAAAAGTGACGGACATGATGTATGATCTGATTCATAAGGCTCAATC CCGAGACGATGCATATTTATCTGCTCTGGAAGCTGTTTCAGAGAAGCACAGCTCAACTGCACGTGACTTGCTTGATGGAG ATGATCTTGTTGCTTTCTTATCGCACTTGCATCAAGACATCAGTAACCTCAAGGCAATGCTTCAAGCCATATGCATAGGT ACACCAAACTCAGCAAAATATCCTATTATCAATAAAATTTTACCGCGCGCGAGACTGTGAAAATTAGTTAATATTTTGTT CGACACTAAAAACACTTTTATACCAAATGAGATATAAGAAAAAAAATAGAAAATAATGAGAGATATAATAGATGATGTGA TAGATATTGAAACATAAAAGAGTAATAGAAATAGAAAGTGACGGAAAATGAGATTAAAAGACAAAGTAATCCTCCTTTTA TATTTTAAAATAATACAAAATTAAAATCGTAAAAATTATTAATGAATATTAATCATGATGATGATAAAACTTTTTAACTT TTCAATAATATTTATCTCATTTTATAAACATAATTTTTTTCACTTTCTCTAAAAATAAACCTAAAAATTATTTATTTTCT TCACTCTTTTTCTTTGCTTTCTCTCTCTTTTCACTTTTTTTTCTTCATGCCAAACATAGTGTTTGTGTTCTCCTGAACGT GAAAGCTACCTATTTGGTTCTTTAATTTTCTTTACCTTTATCAGTTATGGTGGGTATCTATTTCTTTGATAATCCTGTCT TACTCTAGAATATTTAATTTTATTCATATTGATATTGTGCATCAATGTATTTCTGATTATTTGACACTGACACATTACCG GTTTGATGTTATTTTTAATATTTCATGTATGCGGGAATGGACAAATTTTTTGTCTTTTTTTGATCATACAAATTATATAA CATATAAACAGAAAGTTTTTCGCCACGAGGAGCTTAACTTTTATAGGTGCTATATATCTTTCTTGGACGATAATACTATA AAACTTTTCCGCCACTATGTTGAGATCTCCTCAAGTAAAATATTAGGGGTAATCTTTTTTTGACGTAAAAAGATGAAGAA GAAAGAGATAAGAAATGAGAGAAAATATAAAGAAGTGATAGATGATTTGATTAATAGAGAAAAAACAAAAAAAAAATAGG AAATGAAGTGAAGAAAAAGTGGAGATGTGTATGAATATTCATAACTCAAAATGTTATTTATCATTTTCACACCCGAAATC AAAGCTTATCTACAAAAATCGGAAGAGAAGTGAAAAAATGAGAAATGTGATTAATGATTTGATAGAAAAATAAAAATAAG ATAAAAAATATAAAGGGGGTGGAAAAATATGATATAAGAGAAAGTGAAGTTTGAATAATTCAAAAACATTCACAAAGAAT GCAATATAAGAATAAGTTAATTTCTTTTATTTCGCCTAGGATTAGGATGACAACTAGTCGGGGTCAGACTCGGGTTTTGC CCTTTTCAAACCCAAACTCGAACTCTCATACCCAACCCAAATCTAAATCCAATGGGTTTCGGGTTAACACAAACCCGTTA TAGCCTTAAAACCCAGGTTCAAACTTAACTTGATACATAGATTTTTTTTTTTGTAAAACAAAACACAACTTAAATTATTT TATTTTGAAAAAATCATTTTATATCTTTTTGTAAAAAAACATGGTACTTTAAAATTATCTAATAAACATGGTAGCATTTA GTAGTGTCTTTAAAATTATCTTTTGCTTTCCCATCAATACATTTTTAGGCTAAATCGTTTGAAATACCCTTAGTTGCTTA CCTAAAATTAAAATCTTTAACTCAAATACATTTTAAGGGTCCTTTTAGTGAAAAGGTTTCGTTCAGTATAATAATAATAA TAATAATAATAATAATAATAATAATAATAAAAATTTCCCGATGCATAAATAATAATAATAAAATTTCAAAATAAATAAAT AATAATAATAATTTACAAAAAATAATAAGATACTTTTTTTATTCATCGGAAAGGAAAAATAATAAGATATCAACAAATAA AATATGTATGATAATAATTTAAGTAAATATTATCATTACAACTTTTTATAATACAAATATAATAAAATAAAAAATATCAT AGTATTTAAAAAGATAATTTTTTTTTTGAAACAAATAGTGAAATGTTGATTTTCTGTAAAAAGTTTATATAAGGATAAAA TAGTAATTATAGACCATACTTCTTTTCTTTCTCTTCCATTTTCTTTTCATCTTCTTTCCAACCAAACATCCTAGAAAATC ACCTCATTTTCCACCATCTTCTTTCTTTCTTTCCTTTTCTTGTTCCTGAACTAGAAGGAAGTCCAACCGTCTATTGCTGG CGCAGCAGCAAGAAAACGGCGCGTGATGGTGGTAGAAGGTTCAGTTCCCTGTTCACTTCGTCTTCCATTTGAGAGAGAAA GGGAAAAAAGTTATGGACGGAGAAACAATGAGTATGCAGAGTAACCAGCGAGATTAAGGGGAAGATGACATACGAAGTCG GAGCTATAATAGGTTGTTTAGGGAAGGAACACTCTTTTCCGAAGAAGTGTGTTTCACTGTTTGTGTGAGTGAATTTTCTT CATTATAAAAATGTTTACAATGTGTGGTTAGTAATTTATGGCTGTATAAAAAGTATTGCCCCTAATTGAATCTTTGAATC TATATGCTCTCATGAGATATTAATTTATACTCAACTCCAACTTGGATTGACATAATTGGTGGTCCTGGGTTTAACCCTCG TCTCCGCATAAGTCGAGGGTTCGAATCCCCCTATGTCTAGTAAAATCCTAGTTGGTGGGCAACCCTCGAGGAGACCCCTG ATGCTCCTACCACGGAGTGGACCTCTTTGAGAAGATCCCCTAAAGCTCCTACCAAGGAGTGAGTCTCTAGTCTCTACTGG TCTCCCAAACATGCCACTGATGCCCTGCTAGGTAGTCTGGAGGTGCTTTCTCTTTGTAACAAATAAAATTATACTTAATT GACTTTATCATGGATGTTGTATCATTTATCATGGATGACAATTAAGAAAGTTCTATCATTTATCTTGGATAACAATTAAG ATATGTTTTGTTACTTAAAAAGATTTTGTCGTTTAAGGAGCTAGACTTGACATCTCTACTAACACAATTACTTTGTTGCA GCTGGTCATGCAACAGAATCCTTTATTGACTTTGTTGTGGGACATGGGGAGTTATGGTCTGCACAGATGCTGTCTTATGT TATAAGGAAGGTCAGTTGTTTAATAAATAGTATCTAAATTTTGTATTTATTTGAATTGTGCTCATTTCATCAAGCTTCCT GTCCATTCTGCAGAATGGGATTGATTGCAAATGGATGGACACAAGGGAAGTCCTCATTGTAAATCCTACTCGTTCTGATC AAGTTGATCCTGACTATTTGCAATCTGAACAAAGACTTGAGAAATGGTACTCCTTGAATCCATCTAAGGTTATCATTGCT ACTGGTTTTATTGCAAGCACTCCTCAAAACATTCCTACTACTCTCAAGAGAGATGGAAGTGACTTCTCGGCTGCAATTAT GGGTGCTCTGCTCAGGGCTCGTCAGGTCACAATTTGGACAGATGTTGATGGTGTGTATAGTGCAGATCCTAGAAAAGGTT TGTTGATTCTGCTCCTTATTTCTTGTCCTATTTTAACAATGTGTGGGTGGGTATTATATGATGTTCATTGAATTTCAATT CTAATATTAATTACTGTGGCATAGGTTACTCATGGCTTTAAATTGTGGTTGCTGTCTCTGTTGTTGTATTGGGATAATTG AAATTGCTGAAAAACTATCGACAAATGCGGTTGATGCAACCACAATTGTGGTTGCTGTTTGTTTGTGGGACTTGAAAATT TTTGATTTTGTGTTGACAAGTCCCACATTGACTAGAAATATGAGCAAAACAGTTCTTATAATGGGTAGAGCAACCATCAC CCCTAACTCCCTAAGCTAGCTTTGAGGGTAGAGTAGGCTAGTCCATATTCATACTATGCACTTACTTCTTCACACTTTAC ATATTGAGGATATTTTTCTCTTGTGTTCAACTACTTGAGCAAGGGGCTTAATTCTGTATGAACAATATATTTTACAGTTT GTGATGCTGTGATTTTGAAGACATTGTCTTATCAAGAGGCATGGGAAATGGTGAGTTTGCACTTTGGAAAGTGTCAAAGC TCTTTATGCCTATAAAAATTAAGGAGAATAAATTTTAATCTGTTTCTGGTGCAGTCTTATTTTGGAGCAAATGTGTTGCA TCCGCGCACAATAATGCCAGTTATTCGATATGGCATACCCATAATAATAAGGAATATTTTCAACACCTCTGCTCCTGGAA CAAAGATCTGCCATCCTTCTCTTATTGGTGATGAAGATAAGAAGATATTAAAAACCTTGGTCAAAGGCTTCACAACAATA GACAACTTGGCACTTGTAAATGTTGAGGGGTAAGTGAGTCATGTATTGCAGTTTTAAAGGGTCTGTTTCATTACTATTTT GTAAAACAAATTTAGTTTTTTACGCAAAAAAAAGTAAAAAAACTCATTAGATGTGCATAGTTTTGAAAAACAGATTTCAA AAATAGTTCTTATGTTCAGTTTTTAAAACTGGAATCCCAGATCATCTTCTGATTTTAGTTTTCGAGTCATAGGTTTTTCA GCTTCGTAAAACATCTCATCCACACTCTTTTTTTCTTTTGTTCTTCTGAAAAGTAGGATTTACAAATTGTCTATGAAAAC AATTTTTAAATTCAAAAATCTCAGAAGGGACAAGCCATAAATATCATGAATGATTGGTTTTCTTGTTGTTTGATACTTTC TATTGGAATACACAATCTAGCTTAAATATTACTCACAAAGTTGTAGACTAATGTTTTCTCATTGTTTCCTTTTGCAGAAC TGGAATGGCTGGTGTTCCAGGTACAGCCAGTACTATTTTTTCTGCCGTAAAAGAAGTTGGGGCTAATGTTATCATGATAT CTCAGGTGCATTCGTCATCTTTTTTTTAATGTTTTTCACTAGTTTTTCAGTTACACTTATGAAACTGATACAGAAATTAA CTTCGTTTAAATAGGCTAGTAGTGAGCATTCTGTGTGCTTTGCGGTGCCTGAGAAGGAAGTAAAAGCTGTTGCTGAGGCA TTGCAGACAGTATTTCATAATGCTTTGGGTGCACAGCGTCTTTCCCAGGTGCCAAATTCAATTCTACTACGACAAAATGC TAATTTCAATATGATTCCAACAAATTTTCTGCTGTTTAATTGATATGAAGCAGGGAAAACCATTAGTCTATGTTCGTAAC GTTTTTAGAGGTTTATAGCTAAAGAGTGAAGTCTGATATAATCTTGCTTAATGTGTGTTTCTATATTCAAAAATGACTTT TCATACTCCTTGGGATATATACAGTTATACACTACTAGGTGAAAGAGGAATATATGGGCTACCTCTTAACAATCTCCAAC TGAGTTATTCTCTTTTTATGTTACTTCGAATGAGTTTAACTATAAAGTGATAAAGGGTGTATCCAATCCAACCATAGGTT TTTATATGTTGAGACTTAAGATTGTGGTGTAAATTAAAAAACCGTGTGTGTAGCCTTAACTATTCACTTTAAATGCAAAC TCATTAAAGGAATTATATGCTACATAATTCATGTCCTTTGCACAATTATGCTTAATGTGGACGCCTTATGTCTGTCCTCA ATTTTGTGCATATTTAGGCCGCTTTTGGAAGTGCTTATTTGAGTTTATCTTATATAATAAATGTTTTTGCAAATGTTTTA GAGAACTTATCTAAATAGCTTATAACCTAACTAAAAGCTGTTTCGAGCTTACTTTCATAAGCCGCTCAGATTTAGCGCTT ATACTTATCAGATTTTTTACCTTATTTTGAAGATCTACCCAAAATAGCTTATGAATAAAGAACTTATGCAATACTTGCTT ATTGTTTTAAATGTTTAAGTAAATGTTTTACCCATACACATCCTTATATTGTTGATACATGATTTGTTAAGTTATGATTT GTTATCTTTGATAAAACCTGGAATTTTAACACAGCCTAAATTATGTAGCAAACCTCTCAGGTTTCGGTGATTCCAGATTG CAGCATCTTGGCAGCTGTTGGCCAGAAAATGGCAAGCACTCCTGGAGTTAGCGCCACCCTCTTCAATGCATTGGCTAAGG TAATTGAATTATAGTTTCTTATAGTCTGAGGATAGTTATGGTTGAGGTTTCAATCTAATATCTAGTTAATTTAAACAATG AACTAATCTGAAAATGGACATACAATTTTGAATGTAACATTGACCTAATGGATGCTTTACCTTTTAATCACATCTTTTAG TCGCAATATGTTGACATGTTTTTATTTTATTTGTTTAACTGGTTTAAGATCAAACTTTTGATTAAAACAGGCCAACATAA ATATTCGTGCTATAGCACAAGGTTGTTCCGAGTACAACATTACCGTGGTTGTTAAGAGAGAGGATTCTATAAAGGCTTTA CGGGCTGTGCATTCAAGATTTTATCTGTCAAGAACCACCATATCAATGGGCATTATTGGACCTGGATTAATAGGGAGTAC CCTGCTTGACCAGCTAAGGGATCAGGTACAGTTTTTGAAGATAAGTTTGCAACATTGCATATATGCATCCCTTTCGTCAC TTTGTAAATTTTCAGAAGTATATCATGCCTAAGATTGAAATTTATTGAGTATAGTCTCTACATATTTTTCAGGAAAAATA ACTTTTAAATATAAATTGTTTGAAAAATCATAATAATAAGTAATTTCTTGAATGAAAATACATGGAATCTGCCGCCGGTG GGTATGTTGAAGTTTAATGTTGATGGGTCTTCTAGAGGTAACCCGGGCCCGAGTGGGGTTGGAGGTTTCGTGCGTGATAG TGATGGGGAGGTGTGTGGTTTCTTTTCTAAATTTGTTGGGGAGTTGTGGGTATATGAAGAGGAGGTTAAGGCTATCTTGA ATGCTTTGTTATTTTGTCAACAATTTCAATTGCAGGGCTTTTTGCTTGAGAGTGATTTATCACTTTGCGGTGGGATCTGA ATTTGATAGATTATCTTTTGCTAGAGGTCAGTTGTATGGGGGTAGTGAATATTTATAGGGAATCAAATACTGTGGCTAAT TTTTTTGGCTAAAACAGGATGTGAAATAGTGCGTCCTCTGTGGGAGTATGTGGCATAATTGTACTTAGTTGTTATCAAGG GTTTGTTTCATTAATAAATTGTTTCGTTTTCAAAAAAAAATATTGTGTGTGTAATAATTTAACATTCATGTGTTTATGCA GGCCGCAATTCTGAAAGAAGAATCAAAGATTGACTTGCGTGTGATGGGCATCATGGGTTCAAAGCTGATGCTTCTTGATG ATGCGTAAGTCAAATTATATAGAGCTCAATTCCTTTCTTTTACAAGCTTAAACCTTTTTCTAATGTTGTGTGATTAAGAC AGACAAATGAAAGTTGATACTGAGTTTTGTTTTCTTTTTCCTACATTAGTAACTTCTCCTGTCAAAATGAGGAGTTCATT TCACCCTATTTTCCTACCTTTTCCCTTTCTTAAAACCATAATTTCTTACTTCCTCTGATTTTTTTCTTTACATAATATGA ATGATATTGTTTACACACATCGTGGGTTTACTAGCTAATGCCCTTGATTATCTATGCTCTATTAATCATATTAAGTTGGA TTTCATTCAGCAATGATGAATTATAATTTGATTGCAGAGGGATCAACTTAGTTAAATGGAGAGAACTTCAAGAGGAAAAA GGAGAAGCATCTAATTTGGAAAAGTTTGTTCAACATGTACAAGGAAATCATTTTATACCAAACACTGTAATAGTCGACTG CACATCTGACTCTGTCATAGCAAGCCAATATGATGACTGGCTGCGCAAAGGAATGCATATTATCACCCCTAATAAGAAGG CTAATTCAGGACCTCTAAATCAGGTAACCCACCACTTGTCATTTTGCTGGTGTATACTTCTTTATCGTCAAGTATTATAT TTCTCATGTATACATGTAAGTTTTGGATAATTTCCTTTTTCAACGAATAGTAATAGTCCTCTGCAGAAACTAAAGATCCC CAAATGTTGGTTTATGTTTGTTTTGTTTAATTAATGAGGAGTACATTACAGGTAACCACAATTGCTTACATTACACTCTC GCATATTAGCACATCATTGCAAAGTGTGACTGTGTGAGTATGTTACAGGCATAATCAATCAAAACTTCATAATACATTAG ATAAACTTCATAATCAATCAAAACTAACAATTGAAAAAGATAACAAAGCACTTATTTCTAAGGCAAATGACTAACAACAC TAGTCCTACAAAATGAAAGATTGTGGCTTTTATTAGATAAACAGTCATGACACTTATTTCTGGAGACAATGATAGGAATG TGTTGAGGCTTGAGAGCATGATCAAGAGTGAGAAAAGATACTTGACCTAGCCAACTGTGCCATAAAGGGTTGGTTTCAAC ACAAGAAACCTTTGAGGAGGATCAATTAGAAGATAACTTGTACATGCAGTTGTCGTTCAGACTTCTTCACAGCACTGCCT CGTGATCAAATCCCTTTCCACATAATATAGGGGGAAATTCAATGGAGACATTATTAGTGTGTTATAATTGTGAAACTGAG AGCACATTGTGTGAAAAATTGGGAAGAAAAATGTTTAGGGGGTTGGAAGTGGTTGATATGGGGAGACTCTTACCATTGGA AACAAAAAACTTGATCATACATGTCTTTCGGTTGCAGACTGTACAGATCATTGGTTATGTGATGAGATGCACCAGAATCC ATCAGCCATGACGGTTCAAAGGACATGGTTTGTTGGCTGAGATTGGATATAGGTTGCTATTGAGAGGATGAAGACCTGAG AAGCTTGTAACCACAAGTCTTGGCTGTGAGATCTTTCATATCACAGTATGGGAAAATTGATGATAATGAGTTTTAGAACT GATAATTATTAATAGAAGAAATTGCAGGCAGAAGAACAAATACCCAACTCCAGAGTCAATGTGATCCTGGAAGAACAACT ACGGTTCCCAATAAACCAGCCCAATTCCTAATCTCCAAAACTACTAATTGAAGCTATATGATTCCTCTATTTATAGTTGA CAACTTATTAACTAAAAGTAAGTCACATTAAGTTATTTTTCTCCTATGGTTGCGTCTAACATACACTCGTCCAATGCGGA GTTTAAGCCTATTTGCCAAATCATTCAGAAAGCAATTGGGAATGAGCATATTTGCCAAATCATTCAGAAATTTGGTGTTT CCAAAATACTTCCTTTCTCTAATTCCCTGTTGCTACAATACATGTCAATCTTTTACTATTTGGTTCATATTTAATTTACT ACTTTTGGGGCTTTCTCACCTTTTCTCTCTGCATCCAGTATTTGAAATTAAGAGCTCTTCAGAGGCAATCATACACACAT TATTTCTATGAAGCTACTGTTGGAGCTGGTCTTCCAATTATCAGCACTTTACAGGGCCTTCTTGAAACCGGTGACAAAAT ATTGAAAATTGAAGGCATTTTCAGGTTCATTTGAAACTAGTTATCTCTCTCAACATGTTTCTTTTTGTGGAGTAGACAAC CTCACATCTCAGACTTTGATATTTCTGATGTTGCACTTCAACTGTCCACCTATACCCTCCCTCTCAGAATAGAAAAATTA AATCAAGAAACATTGATTCACCTGATCTTATTACCTCTATTTTTGTAGTGGGACTTTGAGTTACATCTTTAATAACTTCA AAGATGGTCGGGCTTTTAGTGAGGTAGTTGCTGAAGCGAAGGAAGCAGGTTATACTGAGCCAGATCCAAGGGATGATCTA TCTGGAACTGATGTTGCTAGAAAGGTACAATGCACAGTATTTAACATATCTGCCACATTTTTTGTCAAATTTCAATAAAG TAACATTTTGCAGTGAACATTCATGAATTTCAGTATTAAGATATGCTTGGTTTGAGAATGATTAGAAGGGAATATAGTGA TTTACATGCTTAATTTAGTCCTTTCTTGGTCGTGATCATTTGAAATTTAAAATCCTGCGGCTTTACAGGTGATAATTCTT GCAAGGGAATCTGGCTTAAAGCTAGAGTTTTCTGATATTCCTGTTGAAAATCTTGTCCCTGAACCGTTAAGAGTAAGAAC CAAAATGTTTTAATTTTAAAGTTCTGATTTTTAGTGTGTGCTATTGTTACCCTTAAAATGATTATTTTGAATTTGATGAT CTCATGCAGGTTTGTGCCTCAGCTCAAGATTTTATCCAACAATTACCAAAATTTGACAAGGAGTTAACAAAGAAACAAGA AGATGCAGAGAGTGCAGGGGAAGTGAGTAACTAGACCGCATTCTGCATGCAATCTAAATTAAACTATAAGAAATAATAGT TACATTATGTCTTCACCCACGCATTAAGTATCATTCAACATTATTTCAAAATAAAAAGCATAAGCTCCCTTTTATTTGAT ATAAAATTTTAGGCTAGCTACAAGCTCAACTTATTCTACTCAGAATTCAAATAGAGATAAATTTTTTAAGGGATTTTTAA AAAAGTGTGTCGCCCAGCGAGACCCCTAAAATTCAAGAAGATCTCTATATCATGCTAAGAGCGAATTATACTAGTGAATC AGACACCATATCTTTCACTTAAAACTCACTTCCTTTCTCATTAAATGTGAGATTTCTTACTCACACTTGGTATCCCAAGA ATGCGGGGAGGTGATTGTGGGATTTCCTGCTCTTGTATGTTTTGCCATATATGTTTACATGATTAATTAGTTTTTCCATG ATAAAGACATTTTATTCATTGTATAAATAAACATTTGTTGTATCTTTATGTTTGAAGGTGTTGAGATACGTGGGAGTTGT AGACGTGAGAAATGAAAAGGGGGTGGTAGAGCTGAGAAGATACAAGAAGGATCATCCATTTGCACAACTATCCGGGTCAG ATAATATAATTGCATTCACAACAAGAAGGTATCAGAATCAGCCTCTCATTGTTCGTGGACCAGGAGCTGGTGCACAAGTC ACAGCTGGAGGAATATTCAGTGACATTTTACGACTAGCCTCCTATCTTGGTGCTCCATCTTAGATCTGTCAATTTTGCCA GCAAATGCATTCTTGTGGCATTGGTTTGTTGTGAATAAATAAATAAATAATGGCTTTCATTTACTGATATTAAATGCCAC AAATAAGGAAAATTACTATTTTATTAGAAAACTGATGTCTCTTAGTATTAAATATTTATTTATCTGATGTCTTATTGGAG AAATCTTTATAAATCATGTACAAATTGTAAGTTAGCAAATGAACTTGCATGTGAATTGAGAACTCAATATCGTGTTTGTG TGTTATTAGAGGCTATGAAGGTTTACCACAAAGGAAATACAAATTAATGGATCCGGATTACCTGCGGTCAAATTTTTTTA AAGTCACTACAAACACATTGTTTGGCAGCCATCATATCGTGACTTGGATTTACAATGATAATGATAGTATGATCCACATG AAATTGGTTTATTAGAGAATACTGAGCGGAGAGTCAAAGAAGTCTTACATTGGCTAGTGTACAAGTATATATATAATAAA GAACACAC
CDS sequence (LotjaGi6g1v0041900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGTCGTTTTGCCCTGTCATGTCTCACTCCTTCTTCTGCATTTCCTCTCCAACACCACGTTTTCCATGCTGCAACGA CACCGTTCAATCTCACTGTGCCCCTCTCCCACTCTTGCCCCAACGTTCATGCTCCTCCCAAAGGGGTGCTTGTTTACGAT GGGGGAGGGAATCACCAAGAACCAGGATACATGCTTCATTGGCAGGTGTTTCAGTGGAAGATGTATCGGTAGAAGAAAAA TTACAGCTTCCGAAAGGAGAAACTTGGTCAGTTCACAAGTTTGGAGGGACTTGTGTGGGAACCTCTGTGAGAATCAGAAA TGTTGCGGAGGTTATTATGAATGATTACTCAGATAGGAAATTTGTGGTGGTCTCTGCGATGTCAAAAGTGACGGACATGA TGTATGATCTGATTCATAAGGCTCAATCCCGAGACGATGCATATTTATCTGCTCTGGAAGCTGTTTCAGAGAAGCACAGC TCAACTGCACGTGACTTGCTTGATGGAGATGATCTTGTTGCTTTCTTATCGCACTTGCATCAAGACATCAGTAACCTCAA GGCAATGCTTCAAGCCATATGCATAGCTGGTCATGCAACAGAATCCTTTATTGACTTTGTTGTGGGACATGGGGAGTTAT GGTCTGCACAGATGCTGTCTTATGTTATAAGGAAGAATGGGATTGATTGCAAATGGATGGACACAAGGGAAGTCCTCATT GTAAATCCTACTCGTTCTGATCAAGTTGATCCTGACTATTTGCAATCTGAACAAAGACTTGAGAAATGGTACTCCTTGAA TCCATCTAAGGTTATCATTGCTACTGGTTTTATTGCAAGCACTCCTCAAAACATTCCTACTACTCTCAAGAGAGATGGAA GTGACTTCTCGGCTGCAATTATGGGTGCTCTGCTCAGGGCTCGTCAGGTCACAATTTGGACAGATGTTGATGGTGTGTAT AGTGCAGATCCTAGAAAAGTTTGTGATGCTGTGATTTTGAAGACATTGTCTTATCAAGAGGCATGGGAAATGTCTTATTT TGGAGCAAATGTGTTGCATCCGCGCACAATAATGCCAGTTATTCGATATGGCATACCCATAATAATAAGGAATATTTTCA ACACCTCTGCTCCTGGAACAAAGATCTGCCATCCTTCTCTTATTGGTGATGAAGATAAGAAGATATTAAAAACCTTGGTC AAAGGCTTCACAACAATAGACAACTTGGCACTTGTAAATGTTGAGGGAACTGGAATGGCTGGTGTTCCAGGTACAGCCAG TACTATTTTTTCTGCCGTAAAAGAAGTTGGGGCTAATGTTATCATGATATCTCAGGCTAGTAGTGAGCATTCTGTGTGCT TTGCGGTGCCTGAGAAGGAAGTAAAAGCTGTTGCTGAGGCATTGCAGACAGTATTTCATAATGCTTTGGGTGCACAGCGT CTTTCCCAGGTTTCGGTGATTCCAGATTGCAGCATCTTGGCAGCTGTTGGCCAGAAAATGGCAAGCACTCCTGGAGTTAG CGCCACCCTCTTCAATGCATTGGCTAAGGCCAACATAAATATTCGTGCTATAGCACAAGGTTGTTCCGAGTACAACATTA CCGTGGTTGTTAAGAGAGAGGATTCTATAAAGGCTTTACGGGCTGTGCATTCAAGATTTTATCTGTCAAGAACCACCATA TCAATGGGCATTATTGGACCTGGATTAATAGGGAGTACCCTGCTTGACCAGCTAAGGGATCAGGCCGCAATTCTGAAAGA AGAATCAAAGATTGACTTGCGTGTGATGGGCATCATGGGTTCAAAGCTGATGCTTCTTGATGATGCAGGGATCAACTTAG TTAAATGGAGAGAACTTCAAGAGGAAAAAGGAGAAGCATCTAATTTGGAAAAGTTTGTTCAACATGTACAAGGAAATCAT TTTATACCAAACACTGTAATAGTCGACTGCACATCTGACTCTGTCATAGCAAGCCAATATGATGACTGGCTGCGCAAAGG AATGCATATTATCACCCCTAATAAGAAGGCTAATTCAGGACCTCTAAATCAGTATTTGAAATTAAGAGCTCTTCAGAGGC AATCATACACACATTATTTCTATGAAGCTACTGTTGGAGCTGGTCTTCCAATTATCAGCACTTTACAGGGCCTTCTTGAA ACCGGTGACAAAATATTGAAAATTGAAGGCATTTTCAGTGGGACTTTGAGTTACATCTTTAATAACTTCAAAGATGGTCG GGCTTTTAGTGAGGTAGTTGCTGAAGCGAAGGAAGCAGGTTATACTGAGCCAGATCCAAGGGATGATCTATCTGGAACTG ATGTTGCTAGAAAGGTGATAATTCTTGCAAGGGAATCTGGCTTAAAGCTAGAGTTTTCTGATATTCCTGTTGAAAATCTT GTCCCTGAACCGTTAAGAGTTTGTGCCTCAGCTCAAGATTTTATCCAACAATTACCAAAATTTGACAAGGAGTTAACAAA GAAACAAGAAGATGCAGAGAGTGCAGGGGAAGTGTTGAGATACGTGGGAGTTGTAGACGTGAGAAATGAAAAGGGGGTGG TAGAGCTGAGAAGATACAAGAAGGATCATCCATTTGCACAACTATCCGGGTCAGATAATATAATTGCATTCACAACAAGA AGGTATCAGAATCAGCCTCTCATTGTTCGTGGACCAGGAGCTGGTGCACAAGTCACAGCTGGAGGAATATTCAGTGACAT TTTACGACTAGCCTCCTATCTTGGTGCTCCATCTTAG
Protein sequence (LotjaGi6g1v0041900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASFCPVMSHSFFCISSPTPRFPCCNDTVQSHCAPLPLLPQRSCSSQRGACLRWGRESPRTRIHASLAGVSVEDVSVEEK LQLPKGETWSVHKFGGTCVGTSVRIRNVAEVIMNDYSDRKFVVVSAMSKVTDMMYDLIHKAQSRDDAYLSALEAVSEKHS STARDLLDGDDLVAFLSHLHQDISNLKAMLQAICIAGHATESFIDFVVGHGELWSAQMLSYVIRKNGIDCKWMDTREVLI VNPTRSDQVDPDYLQSEQRLEKWYSLNPSKVIIATGFIASTPQNIPTTLKRDGSDFSAAIMGALLRARQVTIWTDVDGVY SADPRKVCDAVILKTLSYQEAWEMSYFGANVLHPRTIMPVIRYGIPIIIRNIFNTSAPGTKICHPSLIGDEDKKILKTLV KGFTTIDNLALVNVEGTGMAGVPGTASTIFSAVKEVGANVIMISQASSEHSVCFAVPEKEVKAVAEALQTVFHNALGAQR LSQVSVIPDCSILAAVGQKMASTPGVSATLFNALAKANINIRAIAQGCSEYNITVVVKREDSIKALRAVHSRFYLSRTTI SMGIIGPGLIGSTLLDQLRDQAAILKEESKIDLRVMGIMGSKLMLLDDAGINLVKWRELQEEKGEASNLEKFVQHVQGNH FIPNTVIVDCTSDSVIASQYDDWLRKGMHIITPNKKANSGPLNQYLKLRALQRQSYTHYFYEATVGAGLPIISTLQGLLE TGDKILKIEGIFSGTLSYIFNNFKDGRAFSEVVAEAKEAGYTEPDPRDDLSGTDVARKVIILARESGLKLEFSDIPVENL VPEPLRVCASAQDFIQQLPKFDKELTKKQEDAESAGEVLRYVGVVDVRNEKGVVELRRYKKDHPFAQLSGSDNIIAFTTR RYQNQPLIVRGPGAGAQVTAGGIFSDILRLASYLGAPS
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 |
---|---|---|---|---|---|---|
SignalP_GRAM_POSITIVE | 1 | 23 | 23 | - | – | |
PANTHER | 26 | 918 | 893 | 0.0 | – | |
PANTHER | 26 | 918 | 893 | 0.0 | – | |
Gene3D | 88 | 385 | 298 | 1.9E-100 | ||
CDD | 89 | 383 | 295 | 1.65379E-137 | ||
TIGRFAM | 89 | 553 | 465 | 3.2E-110 | ||
Pfam | 90 | 371 | 282 | 4.6E-44 | ||
SUPERFAMILY | 90 | 384 | 295 | 5.37E-71 | ||
ProSitePatterns | 91 | 99 | 9 | - | ||
Gene3D | 395 | 555 | 161 | 1.4E-48 | – | |
SUPERFAMILY | 398 | 473 | 76 | 4.89E-20 | – | |
CDD | 409 | 488 | 80 | 1.64844E-30 | – | |
ProSiteProfiles | 414 | 483 | 70 | 11.786 | ||
Pfam | 418 | 471 | 54 | 5.1E-9 | ||
SUPERFAMILY | 480 | 568 | 89 | 1.05E-23 | – | |
Pfam | 487 | 551 | 65 | 1.4E-9 | ||
CDD | 490 | 555 | 66 | 1.64356E-32 | – | |
ProSiteProfiles | 495 | 572 | 78 | 12.0 | ||
SUPERFAMILY | 558 | 732 | 175 | 8.21E-36 | ||
Gene3D | 560 | 911 | 352 | 3.3E-133 | – | |
Pfam | 566 | 702 | 137 | 7.3E-25 | ||
Pfam | 710 | 908 | 199 | 5.3E-55 | ||
SUPERFAMILY | 710 | 895 | 186 | 5.69E-53 | – | |
Gene3D | 721 | 893 | 173 | 3.3E-133 | – | |
ProSitePatterns | 756 | 778 | 23 | - |
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 | Aspartate kinase activity | Catalysis of the reaction: L-aspartate + ATP = 4-phospho-L-aspartate + ADP + H(+). | ||
Biological process | Cellular amino acid metabolic process | The chemical reactions and pathways involving amino acids, carboxylic acids containing one or more amino groups, as carried out by individual cells. | ||
Biological process | Cellular amino acid biosynthetic process | The chemical reactions and pathways resulting in the formation of amino acids, organic acids containing one or more amino substituents. | ||
Molecular function | Oxidoreductase activity | Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced. | ||
Molecular function | NADP binding | Interacting selectively and non-covalently with nicotinamide-adenine dinucleotide phosphate, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NADP+, or the reduced form, NADPH. | ||
Biological process | Oxidation-reduction process | A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. |
Expression pattern of LotjaGi6g1v0041900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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