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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0224700 |
Transcript ID | LotjaGi1g1v0224700.3 |
Related isoforms 11 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Glutamate synthase, putative; TAIR: AT5G53460.1 NADH-dependent glutamate synthase 1; Swiss-Prot: sp|Q03460|GLSN_MEDSA Glutamate synthase [NADH], amyloplastic; TrEMBL-Plants: tr|A0A0B2SWZ8|A0A0B2SWZ8_GLYSO Glutamate synthase [NADH], amyloplastic; Found in the gene: LotjaGi1g1v0224700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:51351950..51360344) extracted from Lotus japonicus Gifu genome v1.2.
ATGGTTGAGTTGGTAAGAAAGTTCATATCAAGATAATCATGTTTGCAGAAATTTCTGCTGATACTTTCTGTCAGTTACTT GGTCTGGAGGACTATTTCTTCAAGGTGGTGGAGGGAAAAATCATGCACTTCACTATATGTTTATATTGAATTGCCTGGAA GAAAACCACATTTATGCATTCTACATTGGTTTATGTACTGGTATAAGAATTCGACCATGAAGACTCACAGTTTGGTGTGC ATATCTGCAGATACATTCACGATTTTCTACGAATACCTTTCCTAGCTGGGATCGTGCTCAACCTATGCGTGTATTGGGCC ACAATGGAGAAATTAATACACTCAGGGGCAATGTTAACTGGTATGTCTTGTATAGTTTTTGCCTTACTGTAGTTTAGTAG GTTGACCTACCTAGAAGAATGAGTTAACTTAATTGCTGCTAAAATGGATAAATCAGATAGTAAACATTGTTTGAGTTATG AATTATTGCCACCTTGCCCTCTCAAAAAAAGTTTGTTCTAATGTGCAATTAGCATAATACTAGTTGATTATGAGTGGGTA TAACAGTGTTGTGTGTTGTGCCGGATTCACCCACCGCATTTTGATTGATCTATGGCAGAATGTATCGGCTAAATCTATTA ATTTTGTAGGATGAAGGCACGTGAGGGCTTATTGAAATGCAAGGAGCTTGGCTTATCAGAGAACGAGTTAAAGAAGCTTT TACCGATTGTGGATGCGAATTCTTCAGATTCAGGTGAAATTTTATCTGAATCTTTTTTATTAGCTTGCAAAACTGTGGTC ATTTACTAAAATCCTAATGATATTTTCTTTACCAGGAGCTTTTGATGGCGTGCTCGAGTTTTTGGTTCATTCTGGAAAAA GTCTTCCTGAAGCTGTTATGATGATGATTCCTGAAGCATGGCAAAAGGACAAGAACATGGATCCCCAGCGTAAAGCATTT TACGAATACTATTCGGCTCTCATGGAGCCTTGGGATGGACCAGCTCTTATATCATGTGTGTTTTCTTGGACTTTGACTCA ATTACATGTTTATGTCCCGTTAATATTGGCTTTTTGATTTGGTACTAATATATTTTAATATCATTACAGTTACCGACGGC CACTATCTTGGAGCTACATTGGACAGGAATGGATTGCGACCGGGCCGCTTCTATGTCACCCATAGTGGACGAGTAATAAT GGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCAGAAGACGTACGTAGGAAAGGAAGATTAAATCCTGGCATGATGCTTC TGGTGGATTTTGAGAAGCATATAGTTGTAAATGATGATGCCTTAAAGGAACAATATTCATTGGAAAGACCCTATGGGGAT TGGCTCAAAAAGCAAAAGATTGATCTCAAAGACATAGTTGACTCAGTTCATGAGTCTGAAAGAGTGCCCCCAACCATAAC AGGAGTGGCTCCAGTAAGTATACATTCAAAGCAATATGAACATCTCATAAATTTCTTGCAGGCAAGTCTAATTATTGAAT CTTCCATGAACTACAGCTATCGTGTGATGATGTGGATATGGAAAATATGGGAATTCACGGTTTACTAGCTCCATTGAAAG TTTTTGGGTATGTAACTAACATCACTCCTGAATATTTCCTCCATTACTCCTGAATATTTCCTCCATTATATCCACTTTGT TTACAAAGGAAGTGTTTTTTATGTTCTCTACTCATGTATGATGCAGATATACAGTTGAATCATTGGAAATGCTGTTACTT CCTATGGCAAAAGATGGGGTAGAAGCCCTTGGGTCAATGGGAAATGACACTCCATTAGCTGTCATGTCTAATAGAGAAAA ACTTTCTTTTGAGTATTTCAAGCAAATGTTTGCTCAAGTTACAAACCCTCCTATTGATCCCATCCGAGAGAAAATCGTCA CCTCTATGGAATGTATGGTCGGTCCAGAAGGTGATCTCACAGAAACCACTGAGGAACAGTGCCACCGCCTTTCACTAAAA GGTCCCCTCTTATCCACTGAACAAATGGAGGCCATTAAAAAAATGGATTATAGGGGATGGCGGAGCAAAGTTATAGACAT AACTTACTCAAAGGAACGCGGTAAGAGAGGGTTGGAGGAAGCCTTGGACAGGATATGTGCAGAAGCACACGGTGCAATTA AAGAAGGCTACACCACCCTTGTGCTTTCTGATAGAGGTATTATACTGTTACCTTTGTGTTGCATACGGATATTACTTTAT AGTCAAGTACATCTAATTTTATTTGAATTTGGAATTGAATTTGTAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCT CCTGGCTGTTGGTGCTGTCCATCAACATCTTGTGAAAACACTTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTG AGCCGCGTGAAGTGCACCATTTCTGCACTCTTGTTGGTTTTGGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCA ATTTGGCGACTGCAGGTTGACGGAAAGATCCCACCAAAAGCAAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAA ATATTTCAAAGCAAGTCACTATGGAATGATGAAGGTTCTTGCTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTG CTCAGATTTTTGAAGCTCTGGGTCTTTCATCAGAAGTGATTGATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGC GCAACATTTGAGATGCTCTCTTCTGACGCTCTTCAACTGCATGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAG TGCAGAAGCTGTAGCATTGCCAAATCCCGGGGATTATCATTGGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTG CAATAGCCAAGCTTCAAGAGGCTGCTAGAACTAATAGTGTAGATGCATATAAACAGTATTCCAAGATCATTCATGAACTA AATAAGGCTTGCAATTTGCGAGGGCTTTTGAAATTTAAAGAGACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGC TAGTGAAATAGTTAAACGGTTTTGCACCGGGGCCATGAGTTATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCAT TGGCTATGAATAAAATTGGAGGAAAATCCAACACAGGTTTGTCAATCTTACTTTAAGAAATATTAAATGGCAGATTTTTT CTTTTCCGTCTCAAAGGACACAAAGGTCTGACCTTTTACCCAACATCAATTTCTGACAAAGCATCTTTTCAGCATAATTT TTTCTAGAGAAATTTTGTGGATAACTTGTATATTTAATATCTGTTTCTACTAGATAAAGATTAGTCTCCTCAATTTCTCT AATTTTCTGATGATTTTTTTTTTACATATTTGCTGTAGGTGAGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTG ATGGCTCTAGGAATCCCAAAAGGAGTGCCATCAAACAGGTCGCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACG AATGCTGATGAGCTGCAGATAAAGATGGCTCAGGTAATTGTTGAAATTTTCTGTTTTAAATCAAGATTATTGTCTTCTTT TGAGTATTTTAAGAAAGTCATCAACTGGTGCACCTGCATTCCTTTTGGAATTAAGGTTCTGTTTATGAATTTATGTTCAT GGCAGATGATGATGTGACCTCTAGGCACCTCTGCGTGCTCTTGCGTCTTTAATTGATACGTACATTAGACCTTTGGTGAG GTTAAATATAAGTATGGTTTTTCAGCTAATGTAGAGTCGTATTATCGTAACATTATAATTGTAATCCTCAGGGAGCAAAA CCTGGTGAGGGAGGTGAACTTCCTGGACACAAGGTTGTAGGAGACATTGCTGTCACTAGGAATTCAACTGCTGGGGTAGG GCTTATCAGTCCACCTCCCCATCATGATATTTATTCAATTGAAGACCTTGCCCAGCTAATTCATGATCTAAAGGTATTTT TGTATGTGATTATTATTATTTCTCTTTTTCTGGTCGAATATTCCTGAATTAGGTGTTGCTTCCTGTTTGGCCCCTTTTGT TAATTTGTAGAATGCCAACCCAGCTGCTCGAATTAGTGTGAAATTAGTATCTGAAGCTGGAGTGGGGATAATTGCTAGTG GAGTTGTTAAAGGTCATGCAGATCATGTCTTGATCTCAGGCCATGATGGAGGTACCGGGGCATCCAGATGGACTGGCATA AAGAATGCTGGGTTACCATGGGAACTCGGCCTGGCCGAGACCCACCAGACATTGGTTGCAAATGACCTACGTGGTAGAAC GGTTCTCCAAACTGATGGGCAACTGAAAACCGGAAGAGATGTTGCGATTGCGGCTCTTCTTGGTGCGGAAGAGTTTGGCT TCAGTACTGCTCCACTCATTACTCTTGGCTGCATCATGATGCGGAAGTGCCACAAGAACACCTGTCCTGTTGGCATTGCT ACCCAAGATCCAGTACTTAGGGAGAAGTTTGCTGGAGAACCTGAGCATGTTATTAATTTCTTTTTTATGGTGGCTGAAGA GATGAGAGAAATAATGGCCCAGCTTGGGTTTAGAACAGTTAATGAGATGGTTGGCCATTCTGATATGCTTGAAGTTGATA AAGAAGTTGTTAAAAGCAATGAGAAACTAGAGAACATTGACCTCTCCCTATTGCTTAGACCTGCAGCTGAACTGCGGCCA GAAGCCGCTCAATACTGTGTGCAAAAGCAAGATCACAGTTTGGACATGGCCTTGGATAATCAGCTCATAAGTTTGTCAAG TGCTGCTTTGGAGAAGGGTCTCCCAGTATACATTGAAACACCAATCTATAACGTAAACCGTGCTGTGGGAACTATGCTTA GCCATGAGGTGACCAAGAGGTACCACTTAGCTGGTCTTCCAACTGACACCATCCACATCAAATTTAATGGTAGCGCGGGC CAGAGCTTTGGTGCATTCCTCTGTCCTGGTATTACTTTGGAACTAGAAGGTGATAGCAATGACTATGTTGGTAAAGGATT GTCCGGTGGAAAGGTTGTAGTATATCCGCCAAAAGGAAGCAATTTTGACCCTAAGGAGAACATTGTGATTGGCAATGTGG CACTGTATGGGGCAACACGTGGTGAAGCATATTTCAACGGGATGGCAGCAGAAAGATTTTGTGTGCGGAATTCTGGGGCT AAGGCTGTTGTGGAAGGTGTTGGTGATCATGGATGTGAGTACATGACTGGCGGGACTGTTGTTGTGCTTGGGAAAACTGG TAGAAATTTTGCTGCTGGTATGAGTGGCGGGATTGCTTATGTTCTTAATGCGGATGGAAAATTCCAATCTCGATGCAACC TGGAGCTCGTAGATCTGGATAAGGTTGAAGAGGAGGAGGACATTGTTACTCTCAAAATGTTGATACAGCAACATCAACGA CACACAAATAGTCTGCTTGCCAAAGAAGTGCTTGATAATTTTGGGAATCTTCTTCCTAAATTTGTCAAGGTGATCCCGAG GGAGTATAAACGTGTTCTTGCAAGTATGAAGTCTGAGGAAGCCTCCAAAGATGCAGTGGAGCGCACTGCTAAAGATGCAG AAGAAGAAGATGATGAAGCACAAGCAGTGGAGAAAGATGCTTTTGAGGAGCTTAAGAAATTGGCAACTGCATCATTGAAA GAGAAACAGAGTGAGGTAATTTTTATTCTTTTACTTGTACGTTTGATGTTCTGTTTACTTGTTTGATGTTCTGTTTTCTT AATGCTTATACGATAGGAACATGCATTGAAGATTTAAGTGAAGTAACTTGAGAAATTTAAGTAAATTTTGACCTGGCTAT GTGTGAATATCTGCAGGCTGAATCACCCAAGAGGCCAAGTCAAGTAACTGAAGCCATTAAACATAGAGGTTTCGTGGCTT ATGAGCGTGAGGGTGTTCAGTATAGGGATCCGAATGTGCGCATGAACGATTGGAAGGAAGTGATGGAGGAGACAAAGCCT GGTCCACTTCTGAAAACACAGTCAGCCCGTTGCATGGACTGTGGAACTCCTTTTTGTCATCAGGTCTGCATTACCCGCAT CCAAGTTTTCATTTTTAGCTTAGAACATGCATCTTTCCTTCTGATGTTATTAGTACCCTTGTCTAAGCTAATGATATTTG CAACAAATTTCAGGAAAATTCTGGATGTCCCCTAGGAAATAAAATACCAGAATTCAATGAGTTAGTGTACCAAAATAGGT GGCGCGAAGCATTAGATAGGCTTCTTGAAACAAACAACTTTCCAGAGTTTACTGGTCGGGTGTGCCCAGCTCCTTGTGAA GGTTCCTGTGTCCTTGGTATTATTGAGAATCCTGTATCTATTAAAAGCATTGAATGTGCAATCATAGACAAGGCTTTTGA GGAGGGTTGGATGGTGCCACGACCTCCAGCCAAAAGAACAGGGTATGCTATTTTATTTCTTATGAACATCTTGCTAGTTT CTCCTAGAACTTGGATGTATTATATAAAACAATTCATGTGTCCTCGTGGATGACATGGTTTCAGAGTCTCTTTAACCAAG TAGATGAACAGTGTTATCAATTAATATATATCTTTACTAATGCAGGAAAAGAGTAGCTGTCGTTGGAAGTGGACCAGCTG GCTTGGCAGCTGCTGATCAGCTGAACAAAATGGGTCACACAGTAACAGTATTTGAAAGAGCGGATCGGATTGGAGGGCTT ATGATGTATGGGGTTCCCAACATGAAAACTGACAAAGTGAATATAGTTCAAAGGCGAGTCAATCTTATGGCTGAGGAAGG AATAGATTTTGTGGTAAATGCTAATGTTGGACTCGATCCTATATATTCTCTTGATCGGCTTCGAGAGGAAAATGATGCAA TTGTGTTGTCTGTAGGAGCCACAAAACCAAGGTGAGACCCATAGACATGTTGATTAGTTCAATTTCTTTCTGCAACAATA AAAAGAAATGATAATTAGAAGGAAAGATGCTTAAAATGAAGGTATTTTTTCATGCAGGGATCTTCCAGTACCTGGAAGGG AGCTGTCAGGAGTTCATTTTGCAATGGAGTTTCTCCATGCAAATACTAAAAGCTTGCTTGATAGCAATCTCCAGGATGGC AACTATATTTCTGCCAAGGGCAAGAAAGTTGTTGTCATTGGTGGGGGTGACACTGGCACTGATTGCATAGGAACATCCAT TCGCCACGGATGTAGCAACATTGTAAATCTTGAACTTCTCCCTCAGCCGCCACAAACTAGGGCTCCAGGCAACCCATGGC CCCAGGTTAGATTTGAATCATTGGTTTTAAAAATGCCTAGTTATGTATCTTCTTTGCAATGGGCCTGTCATTACTAGCAA TGGCAAAATAAGTATCAAACATTTTTTACTCATAGTATTTGGATTATGACTGAGTTTAACTACTGATTTTTCCGGGATGA TGCAGTGGCCTCGTGTATTCCGTGTTGATTACGGGCACCAAGAAGCTGCAGCTAAGTTTGGCAATGATCCAAGAACTTAT GAGGTATTGACTAAGCGGTTTGTGGGAGATGAGAATGGAGCTGTGAAAGGGCTTGAAGTGGTACATGTTCGCTGGGAGAA GGATGAAATGGGAAAGTTTCAGTTTAAGGAAATTGAGGGCAGTGAGGAGATTATTGAGGCTGACCTAGTTTTCCTTGCCA TGGGATTCCTAGGCCCTGAGTCTGTAAGTATTCTTATTAGCTTCATTTCTTATGTTAAAAGGCCAAAAAGTATGTAGTCT CAATTTTTATGTTGTCTCATGTTAGTTCTCCACTTGTGCTTTTTTATTACTTTTTTAGGTTTTATAAATGTAATGGACAA TAGGTTATTTTATGAACATATTTAAATTTTAATGGACTGAACTTTCAATTGTTTGTTAGATGAAATACAAACAGAAAAAT GGGTTGTTGCTGTTACAGTGCTTGTAATTAAACTTTATAGTAATGAATTTCAGTGTGCGGAACACTTGAACTCGATAGTA ATCTTCTACCAATACCAAATTCCGATTGATAACACATGATCCTCATAGCCATAACTGATAATGCTTTGGTTTCTTCTGCC TTACCAGACAATTGCAGAGAAGTTGGGTGTGGAGCGAGACAACAGGTCAAACTTCAAGGCTGATTACGGTCGCTTCTCAA CCAGTGTCAATGGTGTGTTTGCCGCTGGAGACTGTCGCCGGGGTCAGTCCCTTGTGGTGTGGGCTATTTCAGAGGGACGG CAAGCTGCAGCACAAGTTGACAACTATCTCACCAAAGAGGACCGAGAGCACGGTATTGATGCGGAGCATGTCAAGAGGCA AGAGGGCCTCAATAAGAAGCACCAAGGCAGCAGCGGCAAACACACAGTGATGACTTAGGAGGATGCACAGAATAA
CDS sequence (LotjaGi1g1v0224700.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTTGAGTTGATACATTCACGATTTTCTACGAATACCTTTCCTAGCTGGGATCGTGCTCAACCTATGCGTGTATTGGG CCACAATGGAGAAATTAATACACTCAGGGGCAATGTTAACTGGATGAAGGCACGTGAGGGCTTATTGAAATGCAAGGAGC TTGGCTTATCAGAGAACGAGTTAAAGAAGCTTTTACCGATTGTGGATGCGAATTCTTCAGATTCAGGAGCTTTTGATGGC GTGCTCGAGTTTTTGGTTCATTCTGGAAAAAGTCTTCCTGAAGCTGTTATGATGATGATTCCTGAAGCATGGCAAAAGGA CAAGAACATGGATCCCCAGCGTAAAGCATTTTACGAATACTATTCGGCTCTCATGGAGCCTTGGGATGGACCAGCTCTTA TATCATTTACCGACGGCCACTATCTTGGAGCTACATTGGACAGGAATGGATTGCGACCGGGCCGCTTCTATGTCACCCAT AGTGGACGAGTAATAATGGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCAGAAGACGTACGTAGGAAAGGAAGATTAAA TCCTGGCATGATGCTTCTGGTGGATTTTGAGAAGCATATAGTTGTAAATGATGATGCCTTAAAGGAACAATATTCATTGG AAAGACCCTATGGGGATTGGCTCAAAAAGCAAAAGATTGATCTCAAAGACATAGTTGACTCAGTTCATGAGTCTGAAAGA GTGCCCCCAACCATAACAGGAGTGGCTCCACTATCGTGTGATGATGTGGATATGGAAAATATGGGAATTCACGGTTTACT AGCTCCATTGAAAGTTTTTGGATATACAGTTGAATCATTGGAAATGCTGTTACTTCCTATGGCAAAAGATGGGGTAGAAG CCCTTGGGTCAATGGGAAATGACACTCCATTAGCTGTCATGTCTAATAGAGAAAAACTTTCTTTTGAGTATTTCAAGCAA ATGTTTGCTCAAGTTACAAACCCTCCTATTGATCCCATCCGAGAGAAAATCGTCACCTCTATGGAATGTATGGTCGGTCC AGAAGGTGATCTCACAGAAACCACTGAGGAACAGTGCCACCGCCTTTCACTAAAAGGTCCCCTCTTATCCACTGAACAAA TGGAGGCCATTAAAAAAATGGATTATAGGGGATGGCGGAGCAAAGTTATAGACATAACTTACTCAAAGGAACGCGGTAAG AGAGGGTTGGAGGAAGCCTTGGACAGGATATGTGCAGAAGCACACGGTGCAATTAAAGAAGGCTACACCACCCTTGTGCT TTCTGATAGAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCTCCTGGCTGTTGGTGCTGTCCATCAACATCTTGTGA AAACACTTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTGAGCCGCGTGAAGTGCACCATTTCTGCACTCTTGTT GGTTTTGGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCAATTTGGCGACTGCAGGTTGACGGAAAGATCCCACC AAAAGCAAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAAATATTTCAAAGCAAGTCACTATGGAATGATGAAGG TTCTTGCTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTGCTCAGATTTTTGAAGCTCTGGGTCTTTCATCAGAA GTGATTGATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGCGCAACATTTGAGATGCTCTCTTCTGACGCTCTTCA ACTGCATGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAGTGCAGAAGCTGTAGCATTGCCAAATCCCGGGGATT ATCATTGGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTGCAATAGCCAAGCTTCAAGAGGCTGCTAGAACTAAT AGTGTAGATGCATATAAACAGTATTCCAAGATCATTCATGAACTAAATAAGGCTTGCAATTTGCGAGGGCTTTTGAAATT TAAAGAGACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGCTAGTGAAATAGTTAAACGGTTTTGCACCGGGGCCA TGAGTTATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCATTGGCTATGAATAAAATTGGAGGAAAATCCAACACA GGTGAGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTGATGGCTCTAGGAATCCCAAAAGGAGTGCCATCAAACA GGTCGCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACGAATGCTGATGAGCTGCAGATAAAGATGGCTCAGGGAG CAAAACCTGGTGAGGGAGGTGAACTTCCTGGACACAAGGTTGTAGGAGACATTGCTGTCACTAGGAATTCAACTGCTGGG GTAGGGCTTATCAGTCCACCTCCCCATCATGATATTTATTCAATTGAAGACCTTGCCCAGCTAATTCATGATCTAAAGAA TGCCAACCCAGCTGCTCGAATTAGTGTGAAATTAGTATCTGAAGCTGGAGTGGGGATAATTGCTAGTGGAGTTGTTAAAG GTCATGCAGATCATGTCTTGATCTCAGGCCATGATGGAGGTACCGGGGCATCCAGATGGACTGGCATAAAGAATGCTGGG TTACCATGGGAACTCGGCCTGGCCGAGACCCACCAGACATTGGTTGCAAATGACCTACGTGGTAGAACGGTTCTCCAAAC TGATGGGCAACTGAAAACCGGAAGAGATGTTGCGATTGCGGCTCTTCTTGGTGCGGAAGAGTTTGGCTTCAGTACTGCTC CACTCATTACTCTTGGCTGCATCATGATGCGGAAGTGCCACAAGAACACCTGTCCTGTTGGCATTGCTACCCAAGATCCA GTACTTAGGGAGAAGTTTGCTGGAGAACCTGAGCATGTTATTAATTTCTTTTTTATGGTGGCTGAAGAGATGAGAGAAAT AATGGCCCAGCTTGGGTTTAGAACAGTTAATGAGATGGTTGGCCATTCTGATATGCTTGAAGTTGATAAAGAAGTTGTTA AAAGCAATGAGAAACTAGAGAACATTGACCTCTCCCTATTGCTTAGACCTGCAGCTGAACTGCGGCCAGAAGCCGCTCAA TACTGTGTGCAAAAGCAAGATCACAGTTTGGACATGGCCTTGGATAATCAGCTCATAAGTTTGTCAAGTGCTGCTTTGGA GAAGGGTCTCCCAGTATACATTGAAACACCAATCTATAACGTAAACCGTGCTGTGGGAACTATGCTTAGCCATGAGGTGA CCAAGAGGTACCACTTAGCTGGTCTTCCAACTGACACCATCCACATCAAATTTAATGGTAGCGCGGGCCAGAGCTTTGGT GCATTCCTCTGTCCTGGTATTACTTTGGAACTAGAAGGTGATAGCAATGACTATGTTGGTAAAGGATTGTCCGGTGGAAA GGTTGTAGTATATCCGCCAAAAGGAAGCAATTTTGACCCTAAGGAGAACATTGTGATTGGCAATGTGGCACTGTATGGGG CAACACGTGGTGAAGCATATTTCAACGGGATGGCAGCAGAAAGATTTTGTGTGCGGAATTCTGGGGCTAAGGCTGTTGTG GAAGGTGTTGGTGATCATGGATGTGAGTACATGACTGGCGGGACTGTTGTTGTGCTTGGGAAAACTGGTAGAAATTTTGC TGCTGGTATGAGTGGCGGGATTGCTTATGTTCTTAATGCGGATGGAAAATTCCAATCTCGATGCAACCTGGAGCTCGTAG ATCTGGATAAGGTTGAAGAGGAGGAGGACATTGTTACTCTCAAAATGTTGATACAGCAACATCAACGACACACAAATAGT CTGCTTGCCAAAGAAGTGCTTGATAATTTTGGGAATCTTCTTCCTAAATTTGTCAAGGTGATCCCGAGGGAGTATAAACG TGTTCTTGCAAGTATGAAGTCTGAGGAAGCCTCCAAAGATGCAGTGGAGCGCACTGCTAAAGATGCAGAAGAAGAAGATG ATGAAGCACAAGCAGTGGAGAAAGATGCTTTTGAGGAGCTTAAGAAATTGGCAACTGCATCATTGAAAGAGAAACAGAGT GAGGCTGAATCACCCAAGAGGCCAAGTCAAGTAACTGAAGCCATTAAACATAGAGGTTTCGTGGCTTATGAGCGTGAGGG TGTTCAGTATAGGGATCCGAATGTGCGCATGAACGATTGGAAGGAAGTGATGGAGGAGACAAAGCCTGGTCCACTTCTGA AAACACAGTCAGCCCGTTGCATGGACTGTGGAACTCCTTTTTGTCATCAGGAAAATTCTGGATGTCCCCTAGGAAATAAA ATACCAGAATTCAATGAGTTAGTGTACCAAAATAGGTGGCGCGAAGCATTAGATAGGCTTCTTGAAACAAACAACTTTCC AGAGTTTACTGGTCGGGTGTGCCCAGCTCCTTGTGAAGGTTCCTGTGTCCTTGGTATTATTGAGAATCCTGTATCTATTA AAAGCATTGAATGTGCAATCATAGACAAGGCTTTTGAGGAGGGTTGGATGGTGCCACGACCTCCAGCCAAAAGAACAGGG AAAAGAGTAGCTGTCGTTGGAAGTGGACCAGCTGGCTTGGCAGCTGCTGATCAGCTGAACAAAATGGGTCACACAGTAAC AGTATTTGAAAGAGCGGATCGGATTGGAGGGCTTATGATGTATGGGGTTCCCAACATGAAAACTGACAAAGTGAATATAG TTCAAAGGCGAGTCAATCTTATGGCTGAGGAAGGAATAGATTTTGTGGTAAATGCTAATGTTGGACTCGATCCTATATAT TCTCTTGATCGGCTTCGAGAGGAAAATGATGCAATTGTGTTGTCTGTAGGAGCCACAAAACCAAGGGATCTTCCAGTACC TGGAAGGGAGCTGTCAGGAGTTCATTTTGCAATGGAGTTTCTCCATGCAAATACTAAAAGCTTGCTTGATAGCAATCTCC AGGATGGCAACTATATTTCTGCCAAGGGCAAGAAAGTTGTTGTCATTGGTGGGGGTGACACTGGCACTGATTGCATAGGA ACATCCATTCGCCACGGATGTAGCAACATTGTAAATCTTGAACTTCTCCCTCAGCCGCCACAAACTAGGGCTCCAGGCAA CCCATGGCCCCAGTGGCCTCGTGTATTCCGTGTTGATTACGGGCACCAAGAAGCTGCAGCTAAGTTTGGCAATGATCCAA GAACTTATGAGGTATTGACTAAGCGGTTTGTGGGAGATGAGAATGGAGCTGTGAAAGGGCTTGAAGTGGTACATGTTCGC TGGGAGAAGGATGAAATGGGAAAGTTTCAGTTTAAGGAAATTGAGGGCAGTGAGGAGATTATTGAGGCTGACCTAGTTTT CCTTGCCATGGGATTCCTAGGCCCTGAGTCTACAATTGCAGAGAAGTTGGGTGTGGAGCGAGACAACAGGTCAAACTTCA AGGCTGATTACGGTCGCTTCTCAACCAGTGTCAATGGTGTGTTTGCCGCTGGAGACTGTCGCCGGGGTCAGTCCCTTGTG GTGTGGGCTATTTCAGAGGGACGGCAAGCTGCAGCACAAGTTGACAACTATCTCACCAAAGAGGACCGAGAGCACGGTAT TGATGCGGAGCATGTCAAGAGGCAAGAGGGCCTCAATAAGAAGCACCAAGGCAGCAGCGGCAAACACACAGTGATGACTT AG
Protein sequence (LotjaGi1g1v0224700.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVELIHSRFSTNTFPSWDRAQPMRVLGHNGEINTLRGNVNWMKAREGLLKCKELGLSENELKKLLPIVDANSSDSGAFDG VLEFLVHSGKSLPEAVMMMIPEAWQKDKNMDPQRKAFYEYYSALMEPWDGPALISFTDGHYLGATLDRNGLRPGRFYVTH SGRVIMASEVGVVDIPPEDVRRKGRLNPGMMLLVDFEKHIVVNDDALKEQYSLERPYGDWLKKQKIDLKDIVDSVHESER VPPTITGVAPLSCDDVDMENMGIHGLLAPLKVFGYTVESLEMLLLPMAKDGVEALGSMGNDTPLAVMSNREKLSFEYFKQ MFAQVTNPPIDPIREKIVTSMECMVGPEGDLTETTEEQCHRLSLKGPLLSTEQMEAIKKMDYRGWRSKVIDITYSKERGK RGLEEALDRICAEAHGAIKEGYTTLVLSDRAFSRKRVAVSSLLAVGAVHQHLVKTLERTRVALMIESAEPREVHHFCTLV GFGADAICPYLSIEAIWRLQVDGKIPPKANGVFHSKDELVKKYFKASHYGMMKVLAKMGISTLASYKGAQIFEALGLSSE VIDKCFAGTPSRVEGATFEMLSSDALQLHELAFPSRTFSPGSAEAVALPNPGDYHWRKGGEVHLNDPLAIAKLQEAARTN SVDAYKQYSKIIHELNKACNLRGLLKFKETSAKISIDEVEPASEIVKRFCTGAMSYGSISLEAHSTLALAMNKIGGKSNT GEGGEQPSRMEPLADGSRNPKRSAIKQVASGRFGVSSYYLTNADELQIKMAQGAKPGEGGELPGHKVVGDIAVTRNSTAG VGLISPPPHHDIYSIEDLAQLIHDLKNANPAARISVKLVSEAGVGIIASGVVKGHADHVLISGHDGGTGASRWTGIKNAG LPWELGLAETHQTLVANDLRGRTVLQTDGQLKTGRDVAIAALLGAEEFGFSTAPLITLGCIMMRKCHKNTCPVGIATQDP VLREKFAGEPEHVINFFFMVAEEMREIMAQLGFRTVNEMVGHSDMLEVDKEVVKSNEKLENIDLSLLLRPAAELRPEAAQ YCVQKQDHSLDMALDNQLISLSSAALEKGLPVYIETPIYNVNRAVGTMLSHEVTKRYHLAGLPTDTIHIKFNGSAGQSFG AFLCPGITLELEGDSNDYVGKGLSGGKVVVYPPKGSNFDPKENIVIGNVALYGATRGEAYFNGMAAERFCVRNSGAKAVV EGVGDHGCEYMTGGTVVVLGKTGRNFAAGMSGGIAYVLNADGKFQSRCNLELVDLDKVEEEEDIVTLKMLIQQHQRHTNS LLAKEVLDNFGNLLPKFVKVIPREYKRVLASMKSEEASKDAVERTAKDAEEEDDEAQAVEKDAFEELKKLATASLKEKQS EAESPKRPSQVTEAIKHRGFVAYEREGVQYRDPNVRMNDWKEVMEETKPGPLLKTQSARCMDCGTPFCHQENSGCPLGNK IPEFNELVYQNRWREALDRLLETNNFPEFTGRVCPAPCEGSCVLGIIENPVSIKSIECAIIDKAFEEGWMVPRPPAKRTG KRVAVVGSGPAGLAAADQLNKMGHTVTVFERADRIGGLMMYGVPNMKTDKVNIVQRRVNLMAEEGIDFVVNANVGLDPIY SLDRLREENDAIVLSVGATKPRDLPVPGRELSGVHFAMEFLHANTKSLLDSNLQDGNYISAKGKKVVVIGGGDTGTDCIG TSIRHGCSNIVNLELLPQPPQTRAPGNPWPQWPRVFRVDYGHQEAAAKFGNDPRTYEVLTKRFVGDENGAVKGLEVVHVR WEKDEMGKFQFKEIEGSEEIIEADLVFLAMGFLGPESTIAEKLGVERDNRSNFKADYGRFSTSVNGVFAAGDCRRGQSLV VWAISEGRQAAAQVDNYLTKEDREHGIDAEHVKRQEGLNKKHQGSSGKHTVMT
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 |
---|---|---|---|---|---|---|
Gene3D | 1 | 232 | 232 | 2.2E-109 | ||
ProSiteProfiles | 1 | 197 | 197 | 14.988 | ||
PANTHER | 3 | 1866 | 1864 | 0.0 | – | |
PANTHER | 3 | 1866 | 1864 | 0.0 | – | |
Pfam | 3 | 220 | 218 | 2.9E-106 | ||
SUPERFAMILY | 4 | 223 | 220 | 4.82E-84 | ||
Gene3D | 253 | 606 | 354 | 3.4E-138 | ||
SUPERFAMILY | 265 | 1028 | 764 | 5.95E-251 | – | |
Pfam | 270 | 558 | 289 | 2.3E-112 | ||
Gene3D | 607 | 1048 | 442 | 2.0E-200 | ||
Pfam | 625 | 994 | 370 | 2.5E-152 | ||
CDD | 627 | 1006 | 380 | 1.10239E-168 | ||
MobiDBLite | 717 | 740 | 24 | - | – | |
SUPERFAMILY | 1046 | 1310 | 265 | 4.05E-100 | ||
Gene3D | 1049 | 1322 | 274 | 7.4E-116 | ||
CDD | 1054 | 1303 | 250 | 5.58768E-152 | ||
Pfam | 1077 | 1263 | 187 | 5.8E-87 | ||
Coils | 1312 | 1342 | 31 | - | – | |
MobiDBLite | 1316 | 1338 | 23 | - | – | |
SUPERFAMILY | 1374 | 1531 | 158 | 2.56E-37 | ||
Gene3D | 1376 | 1520 | 145 | 7.6E-21 | ||
TIGRFAM | 1376 | 1860 | 485 | 2.1E-227 | ||
Pfam | 1397 | 1508 | 112 | 2.6E-21 | ||
SUPERFAMILY | 1518 | 1858 | 341 | 9.32E-62 | ||
Pfam | 1521 | 1847 | 327 | 3.1E-25 | ||
Gene3D | 1521 | 1654 | 134 | 7.2E-29 | ||
PRINTS | 1522 | 1544 | 23 | 2.8E-23 | – | |
PRINTS | 1545 | 1558 | 14 | 2.8E-23 | – | |
PRINTS | 1588 | 1598 | 11 | 2.8E-23 | – | |
Gene3D | 1661 | 1878 | 218 | 8.2E-17 | ||
PRINTS | 1666 | 1680 | 15 | 2.8E-23 | – | |
MobiDBLite | 1870 | 1893 | 24 | - | – |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Biological process | Glutamate biosynthetic process | The chemical reactions and pathways resulting in the formation of glutamate, the anion of 2-aminopentanedioic acid. | ||
Biological process | Nitrogen compound metabolic process | The chemical reactions and pathways involving organic or inorganic compounds that contain nitrogen. | ||
Molecular function | Glutamate synthase activity | Catalysis of the formation of L-glutamine and 2-oxoglutarate from L-glutamate, using NADH, NADPH or ferredoxin as hydrogen acceptors. | ||
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 | Oxidoreductase activity, acting on the CH-NH2 group of donors | Catalysis of an oxidation-reduction (redox) reaction in which a CH-NH2 group acts as a hydrogen or electron donor and reduces a hydrogen or electron acceptor. | ||
Molecular function | Oxidoreductase activity, acting on the CH-NH2 group of donors, NAD or NADP as acceptor | Catalysis of an oxidation-reduction (redox) reaction in which a CH-NH2 group acts as a hydrogen or electron donor and reduces NAD+ or NADP. | ||
Molecular function | Iron-sulfur cluster binding | Interacting selectively and non-covalently with an iron-sulfur cluster, a combination of iron and sulfur atoms. | ||
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 LotjaGi1g1v0224700.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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