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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0196100 |
Transcript ID | LotjaGi2g1v0196100.8 |
Related isoforms 7 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Fructose-bisphosphate aldolase; TAIR: AT1G18270.1 ketose-bisphosphate aldolase class-II family protein; Swiss-Prot: sp|Q46888|YGBJ_ECOLI Uncharacterized oxidoreductase YgbJ; TrEMBL-Plants: tr|K7L0V1|K7L0V1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0196100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:63031418..63048432) extracted from Lotus japonicus Gifu genome v1.2.
AAGTTGGTGGCGGCAGGTTCACTTCCGTTTGGCTCTTGCTAAACCTAATTTTATCTTCATATAAAATTCTTTAAATGCAA CAGTTCTATTTGACCATGCCTTGTAGGTTACATTTCCCCCTCCATGAATTGCAAAATTACACACTTCATGATTCACTTAG ATAATAATCCTAAGCTTCTTTATATTGTCTATCTCAACAGAGAAAAGTTACTATTATAGGCTGCTGTGTTTTATTGGTGT ATTAAATTTATTCATTTTATCACCTTTTTTATTGCAGCAAGGTTAAAATGGTTGCTGAGATGCTGGAAGGAATTCATTTC ATTGCTTCAGTGGAGGCAGTCTCTCTTGGTGCAAAAGCTGGAATTCATCCATGGATAATCTATGATATAATTTCCAATGC TGCTGGAAATTCGTGGTACGTTCTTAATTAGTATGAAACCGCTAACTGTACAATAAAAAAAATCCTTTCACACATACATA CTCTTCAGAAAGCAGGGAGGCAGACTTAAATATAACAAAAAATATTGAAAAAGGAGGCCTGCTTTGATCCCAAATGATCT TTGTCATCTATAAACCCAAATGTTCTGGTTTTTGCACCTACTGAATGCTGACTATTAAAATGTGCTGTCTTCAATTTAGT ATAGATATTTTCTTATTGATCCTGACTCATTCTTTTTGGAAGGTGCTGACCGTTTCATTCATTTTGCAGGATATTCAAGA ACAATATTCCTCTGTTGTTAAAGGGAGAGGTTAAACATCAAATTCTAAACAGTTTTGCTAAGGAGTTGGTAAGATCAATA TAGAACAGAAGCAATTAAATATTCATATATTATCACTGTATTTTTGCTTGTCCAATGGTTATATCAACATTGAAATAGTA AGCTATTATTTGATTTGACAACCCTTTTGCACTACTTTTGGAGACTTCAGATGTAGACTTAATTTCTCTTTTGCTGACCT CACAAGGACAAAAATTTTCAAATGGAAACTCTGTTAGATATGAAACAATTCTTATGCTTTCACCTAATAGCTTAAGTGAT ACCAAATCTCTATCGTAGTAACAAAAAGTATTGTCAATAGGGATTGGATTGTTAAGTACGAGCTCATTAGTTCAAATTTT GCTTGAGCAATTGAAAGTTTGACTGGATTGAGATTGTTCAAGATTCAAATTGTAAGAACTTCAAATTAAACTTAAAACCA AAATTGGCACCAAAATTAGAAGATCCCAAAATTAACAGGGCACTAAAACGTGAACGATTTCCTTATTCTTTTTACTTGTT GAACTCTTAAATATGATAAGAACCTTGGGAGAACCATACCACAAAAGTTAGTTGTTGTAGTTTGAGAGCCCAAGACCTTA TAAACCGCCCCACATTAGAATTCCATACTTCCAAGTCGCACCGAAGGTGACAAAAATTCGTAGGCTGCAGTGAAAGCAGC TGACAGTCAACGTCAGTGAGCTGGCCTGGACACTCGATAGGTCACAATGCAAGTGACAAAAGTTCCAAGACCTTAATGAA GGCAGCCCTCGATAGGTCGCAATGAAGGTGACAAAAGTTCCAGGTCCACAATGAAGGTGACTAGGGATAAGTCGCAGAAG CAATTCCCCCTGAGATTGGGAGCTCTGATACCAAGTTAAAAGTAATATAGCTGAAAAGAATATTAGTTTCTGATTGATAT GTATTACACATGACTAAGAAGTACAATATATTGATAAGTGTCTAGTCCATCTCAAGTCTCAAAATAGGTTTCCTAGTCTA TCTCAAACATTATCTACAAAGTTAATCCTATCTAGTATACGATAACATGATAATACCTTCCATAACTAATCTTTTCATTG CATAACATGTCCCACAATTATCCTTATCTTCTCATAATGTCTCAACAAACTATATCCTATGTTCCTAACAAATATCTCAA CAATAAACAATCTTTAAGCATAGTTTAACGTACACAAAGGGTTTTGGAGTTGAATTACTGATTTTTACTGTTAGAGATGT TTACCATTCTTGAGCCTCCACCTTACAGCTTAATCTTTTGAGATGACTGATTGAGATGGAATTAGAGCCTTAATGACCAA GTGGCAAGGAGTTCAATCCTTTCCTAACTGTGTCCATTCTTCTAATTCAATTATAGTTTTAACACAAAGTTTCAGTAATT GTCTGTGCTTTATACATGCTTTTAATGTATGGAGGATGTGCTAATGATGTAATGTGTGAACAATTCCTAGGCCTCCATGT AATAGTTTAACTCTTGGGTAGATTGTTGACAATTACTGTGAAATTTATTTTATTTTTTAATATAAACTTAGTGCCTCAAA ATTCTCTTCTATGTTGGTCTAATCACGGATTACTTTTTAGTTGGAAGAGAATCACAACACTGTATCAATCTGACTCTTAT TTTCAAAATTGACGTTTTGTTTGCCTTACAGCAACTTTGAATGTGTACAAAGCGCTGCTTTCAGTTCTTGTTGCTGTTGC TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCATTTCCAAACATTTCACGATGGAAACAGAATTT GCTTTATTGTAGGAAATCATTTTGGATATGGCCAAGTCACTAACTTTTCCACTTCCACTGTTGGCTGCTACTCATCAACA ACTTATTCACGGTACAGAATTCAGTTTACTATATAGCACATTTTCTGTCAAGTTAAAAAAAAAAACCATTTGCAGCTCAT GCAGTTAAGAAAATTCATTTTCAGGGGTTTCACATGTTTGTTATAATGATGATGATGATCCAGCATTAATTAAGGTTTAT TTCATATACATCTATTTGAGCAGATTCAATTAGAAGTTGTTTTCAGAAGCTGTACTGTCTTTTTCTTAACATTCGTTTTT TTCTTCATCATTTTCATATCAGGTTTGGGAAAAGGTTTATGGGGTGAAAATTTCAGATGCTGCAACTGCAGATGCATATA ACCCTGAACAACTGGCATCTGAATTCACTACTGATTCTAAGACTGTGAGACGCATTGGTTTTATTGGCCTTGGAGCTATG GGATTTGGCATGGCAACTCATTTGGTGAAATCAAATTTCTGTGTTGTTGGTTATGATGTAATTTCTTCCCTTTAAATCTT AAGTTATTGCATTAAACAAACGGAAAATTTTCTTTGATTTTGTATAATAGTATCATCATAATAGTGAGTTGGAAACTGTC AAATTTGTCCTTATTATCAATAGCATTGGTTTCCACTGGAAAATTCTGTTTTCTATCAGGAACTAGAAAATTAAAAGTCA GATCCAATTATAAGTATGCACTTAGAAGCTTATGCATGAGTTATATTTGCAGTTTATTTCATTTTTATATGCTTGTTAGG GATTTGAATTAAAATAACGAACTAGTATTTTATCTTGATTCTTAATTGCAGAAAGAGAAATGGCTCTGTGTGTGTGTGTG TGTGTGTGTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATAGAGGGATACTGTAATGGGATACACACCTAGGTGC AGTCTCCCCATAAATTAAGATGATACAACATGAATTAAGGTTAATTTCATATACATCAGGTTTGAACAAGTGTATCTGCA TCCGCTCTTTGTCTATTTACTTTTGTTTTCTATTTCGTTTATGTTGATATTTCTGATATTCTTTTATGCATGCAAATGGT TCGCCATCTACGTATGGTCTGGAATCTGGATGTACAGTTCAGATCAAACTATTTATTGAATATCATGGTTGAAATTTGAA ATGACCGCTATGAGAATCTTTATAAATCCTTAATTTTTTTTTACATCTAGGTGTATGAACCAACTCTAGTTCGATTTGCA AATGCTGGTGGCTTGGTTGGAAATTCTCCTGCAGAAGTGAGTAAAGGTAAATTGATACTACTATATACTATATGCCCAAA AAGATTATACATACCTATTAGAGAGAGAGAGAGAGACTTCTGGAAATGTTGCTGGTGCTGTTGAGAATTGGGACATCGGT TCCTGTAATGACCCAATTCTCCAAAACTCTAGCATTGTATGGCCGGAATGTCCACCACGACCTCTAGCACCACCACGACT TCCTCAGCCTCCACCATTTTCGCCACGAAAGCCTTAATGGGCCGCTAAAGCAGTGCGATCGAAAGTATCAACATCTGGAG CAGGTTTGGGTTTCTCAGAAGAGGACGACTGCATGACCCAGGAGAAAACATCGGTGAGAGTATCCACCGGCGTGCTCGAC AAAATCTGAGACCTGACCACCTCATGCTCCTAATCAAGGCTAGATAACGAGCTCAATGCTATCAATTTCTTCTGCTGGGC TCCTCTTTTCTCTTGCAAGTCCGAAGAGAAGTCATCTCCTCAATATATTTCTTGAATTCCAAGAAATAATCCATCAACTT ACGCTTATCCTGTTTCGGGCGAAATATCTGCTACAACAAAGCATAGATGCGATTCAAATTATCAGTCTTCCAAAAATAAA TTGTAGTAACTTTTCACAGTTTGACAATTAAAACCTTGGTCGGCCCTTTCTCAAGTGGTTGGAAGAAAATATTTCTGTTT CACTTTTTTTTTAGAGAGACGGCAGACCTAGGCATGTTTCGAACCTAGGCTCTCAATACCATGTAAAAAAGACAAAAACT AAGAGAGAGACATGGAGGATAGAGAGAGAGAATGAGATATTGTAATGGGATATACTGCTAGGGGCAGTTTCCTTCATATA TATAATATTAGGTTTATAGTAGAACAACTTGTAATACAAAGTACGTACTTAAAGTACATATGGGTTTGACCCATTGACTC TACTTCTAACCCTAACTCTTAACATAATCCGTATCGCTAACACTATTCACATATTATTGCTTCCAGATGTTGATGTTCTG ATAATCATGGTTGCCAACGAAGCTCAAGCAGAGAACGCTTTATATGGAGAACATGGTGCAGTTTCAGGTGTGCATTAGTA TCTTAATTACCCATGTTATTATATATATTTTAACTGCACTGATCCTTCTTTCGGCATTATGTAGTTCTTCCTCCTGGAGC ATCAATTGTTCTTTCTTCTACTGTTTCTCCAGCATATGTGAGTCAGCTAGAGCGCAGATTGCATAGTATGTTACCACTCC AGTGATATGGTTATTTAATCTGTATTACATTTCAGAATTTCTTTCTTCCTTTCCTCTTTTATGCAAGTGCAAACTGAATT TCAGGATTGTGAATTTGCTACTGTCATACTGTGTTTAGAATTTTAATGTGTTATTCGTTTCTCATGCAAGTAGTGGAAAA CTAGTTGAGAAGGTTGATTAGCCTATTTGAAAACTAGCATAATTCATTGGGTAAAAGTTTCTGGCTAAGTAACATGACAG GATGTGGCGTTTTAGAAAATCTATTTGAGATGAAAGTTATCTTATGTGTTAGTAGTGTCATACAAAGTAGATAAGTAAAT GCAATTTGATAGTCATCAAAGTATATTTTTCCTTCAAAATCTTAAGCAAATATGTTATGCTTGAAAAAATTATGGATGTA CGTTAGAATATAATATAAAACCATTCATGTGGCCCTTACCCAAAAGCTCAAGCTTTTGGGATAATTGGTTGTTTGACAAT ATACTTTCTTTGTTATGATTTTAGTCTGAATACTTCCAGTAGGCTTGAATTTCCAATAACCAAAATATGTCAACTTCCAC TTATGCCTACTGTGAAGAGCCATGTGAGTTAAAAATGAATGGAAATAGGCTGCTTTCATCATCCCTCTATGGGTATGACA ACATACAGAAGTTTGTTTTATTACTACTCAGATTTAAACTCTGGCTGGACATTAGACACTTCTCATCTCTTTTACTGCAG TTGTATGTAGTGTCTATATCTTAACACGGTCTTTGAAACTGGAACTATTTTGAATAATTGTCTGATAACTGGTTGATGAT GATTGACTCTGAAGTACAATATTTATAGACTAGATTATCGATAGATGTTTCCTAGTCAACTATTAAGTCTAAAGAAAAAA TTCTATACAATAAAATCTTATCGTATCCTAATTTATCATCAAAAAATAACATCTTAGAAAATCTAATCCTATTGAACTAT ATCCTAATAGAATTATCTTAACAAACTATATCCTAATAGATATCTCAACACACGGTTTTACGTACTTGGCTAGGATTTTA ACTGTAATGCTTAAGGCAGTTTGTGTGTGTTTCCCCATCAATTATCTCCAATTCATAAGAACAAGTGTTATAATATTAGT TTAAATGTGCATAATCCACTTTAATTTTAGAATTTTTCGATGACTAGGATTTGAACATGTTATAGTTGATATATTAAAGC TATCTATGGATTCCCTTATTTGAACCTGGATCATATTTACATTGATGATGTTTGTAAGGAATATTATTTATTCATCTTGA ATGCTTTTTCAGAACTTATTCTACACCATGCTTTTATGCCTTTAGTGAAGGATGCAGTTGTGTAACCATTGACATAAAAA TAACGCAGATGAAGGAAAGAATTTAAAGTTTGTGGATGCCCCTGTTTCTGGAGGTGTTATGAGGGCCTCAATGGGAGATC TTACGGTGTGAAATACATCTTTGGCTTTTATTTAAACGGTTCTTTAAATTTTGTAAACTGAACAACTTAAGTCATGTATG TTTCTCAGATAATGGCTTCAGGAACTGATGATGCTCTTAAGAGTGCTGGTTTAGTGTTATCAGGTAAATTACCTTTGCAT AGAAGTGAATCATATTATTTTTAATTCTGTGTTTACAGAGATTTCAGAAATAACTTTCTAGTTGTTTCATGTTAAATTCT TTATTTATAATCAGCCTTGAGCGAAAAGCTTTATGTTATCAAAGGTGGCTGTGGTTCTGGGAGGTATTGTTTAATTTATA AGTCAACAATTATTTATCCATGTTTATCCTTTCACTAATAGTACTAATACTTCTTTCCATATGTATGAAACAAGTAATGC AATATAAATTCTGATTGAAGGTGAAAGTCAAGTTGATTGAATGTGATAACAATATTTCAAATTAATGGACAAGTACAATA ACATATTTTGGTCTATTTTGTTCTCTAGTGGTGTAAAGATGGTTAACCAACTGCTTGCCGGAGTTCATATTGCATCAGCT GCTGAGGCAATGGCATTTGCAGCACGATTGGGTTTGAATACTAGACTGCTGTTTGATTTTATTACAGTTAGTGGTGGAAC ATCCTGGTATGTCTCTTCCATGAAGTTATCACTTACTCCTCTCCCCTTCCCCTGGCCAAATAAGGAAAATAAGAAGCAGG AAAAATCACTTACGAGTTTCTTCTTGGTAGTTTTTTTTTCAGTAGGTGTTTACATTCCTAATAATCAATTTTTGAAGTTA TGAATATGTTTATGGCTTTGTTTTAGAGCTCTCCTCTTGGCTATTTCAAAGGACATTCAGTCACCGATTGCTGTTCATTT CCTTCTCTTTCTCTAGTTGTCCTTTGTCTTTTTTCTCTCTTCATTACATTCTTCTTTTATGCAGAAACACAATCATAGGT TTTAATAGAATAGGTACTTCTTAATTCTTATGTTAAGAGATGTCTTATATTGCAGGATGTTTGAAAATCGTGTCCCACAC ATGCTAAACAATGATTACACACCTTATTCAGCACTTGATATCTTTGTTAAGGACCTGGTCAGAATGAATCTATTCTTTTC CTCTTTATGTTTAGCAAGGGCATCAGGGGACACTTCAGTTGAGTAACATCTTAATTTTATTTTTTAATGTCTATTTTCAT ATATAGGGAATTGTTACTCGTGAATCATCTTCTTTGAAAGTTCCACTGCACCTATCGACTATTGCTCACCAACTGTATCT GTCAGGTGCTGTGTATTACTTTTATTTTTTATGCAATATACATTCTTATGTTCTTCACTCAACTTGGTCATTCCTATTGG AATTTAATTGATGGGGGGGGGGGGGATAAAGCTACGGTTCTATTTTGGGGTGGGGGCAAGGGATAGGAGTAAGTCTTATT TCTAATCACATTAATAAGTTACAGGGAAGAAGGAAAAGAGGATTAAAAATGGGCTCGTCCATCTGATAGACGAAGGGTGG TGCATGCATTATTCATGGTCTTATTTTGAAATGACCCTCATGTTACTAAAAATTAGATCTGGTATCTCAAACGGTTAGAC ACCATGTGGAGGCCTTTCTGCATATGATGCATGATGCATCTCAATATGCTGAAGGATACCTCTACTCTGATGTGTAATTA CTAAGCCACTAGGAATGAGCTATTGGTAATTAGTTTGTCTTGAATTTGGGCAGACTTGCTTATCCTTACTCCAAAATCTA GCTCATGAAGTGAGGATTTCTAAGCCTTTATAACTCTACTCTTGCCATATTTTTTATTGATATGGGATCTTAAAACATCC ATATCACGCTGACATCTGGAGAATGGAAATTATAGGACTACTATACAACGCATAATTTCCCTATTTAAGTTCATGTCTAA CATCTTGAATAGCTTGCTGGAGACCTCAAGTTAAATGCTCATGTAGTTGTAGTGACCAAAAAGGAAAACATGTAACTGAT AGAAGTTAGCTATATCGTTTTCAGCAACTATCAAAGTTTTTTTCAATTTGTTGAAGGTCGCTACATGAATCAAACAAAGG CATATTGCCCTATCATAAATGATGTAAATATGGACTTTCTTAAAATTGCAAGGAGAAATGCTTGTTCAAACCTGTAATAT TGTTGTACAGGTTCAGCTGCTGGTTGGGGACGGAAAGATGATGCTGGTGTGGTAAAGGTATGAGCAACTAATGTTGGTTG ACAGAACCTCTAGAATATTATATTTTGTTATTTTTGATATCATGGAATCAAATGAGAATGCCATTTAGGTTTTTAAAATA TCAATTTTATGCACTGCCATCCTCAGCAATTCATTGAAGTATGACTCTTTGGTCGATCTGTTCACCATATTCTGGTTTGT CAAAAGAATAAGAAACATCCTAATGTTATCTACTACCCCCCCCCCCTATCTTAAGACTCTGCAAATCTATTTACATATGA TCTAAATTTGTGTAATAGTATGGTAGAAATCTTGACTGAAGTAGTTCAGAAGGATCTGGAAACTTTTTTACAGGTTTATG AGACACTAACTGGTGTTAGAGTTGAAGGAAAACTGCGGGCTCTTAAGAAAGATGTTGTGTTGCATTCTCTTCCACCTGAG TGGCCCCAAGATCACGTTCTTGATATACAAAGGGAAATAGAAAGCAATTCAAAAACTTTGGTTGTTCTAGATGATGATCC AACAGGAACACAAACTGTTCATGATATTGAAGTTTTAACTGAATGGTAAGTGTAAATAATTTTCTTGCCATTTGTGAGTG CTTGGCAGAATTAATGCTACTGTCAATAATATCTCATAAAATACTGGCAAACCAAATTCCGTTTTGGAATTATTATTATT TCACACCTATAGTACCTCATTTAATTTAGGAAAGTAGCTAACGGATTCGTGTATATTATGTCAATACCTTTGTACACTTG AGTAAAAGATTTTTCAGTTTTTCACCTATTTTTCAAATCTACCAAACCTCTGGTATTTCTATTTGAGCTATTTTATAGTC ACTTTCTCTATTAACTTTAAGATCTTCTGGAAGAAAAATCTGAATTTGTTATCAATTGGACATGTTCTTCTGCAGGACTA TTGATTCACTGGTAGAGCAATTTAGAAAAAGTCCAAAATGCTTTTTCATTTTGACAAACTCCAGGTCACTGAGTTCTGAG AAGGTAAAGATCTTATAACCCACATGCACCAATAATGAAATTTTTATTTAGTTTAAAAAGGAAAAAATATTGCTAATATG ATCTATTTTTTCTAGGAAATCCATTTACGATCATGGGTAAAAAATATAGAATTTTATTCTAAGATAAAATAGGGCATGCA TATGGTTTACAAAGCGCCACACTGGGTCCTATTATTGCTCTGTAAATGGAAAAGCATGCTACTAATGTAGAAAGAAAATG TGTCTTAATTATTGACATGCAAGATTTGAGCTGAATAACGTCTTGAGCTGTAATAGTTGCAGCTCGATATCTATGTGCCA TCCCATAAAGTACTTCAAAAGCAACCAGATGGATATAACCTTTCTCCCAACCAGATTTCAAGCAATTGGATATTTCAAAG ATCAGTAATATTGAGTTCAATGAAGTTAATTATTTACATTTGGTATCTGACAGGCTAGTATATTGATAAAAGAGATTTGC AAAAATCTAGACAGTGCAGCAAAATCTGTTGACAGCATTGATTACACAGTAGTTTTGAGGGGAGATTCAACTTTGCGTGG TCATTTTCCAGAGGCAAGGATGACATGTTTAATATAATAAGTATATTTTACTCAATGATATTGAGACTCATGTTTCAATT GCAAAATGACATGACTGTTGTGCACAGGAACCAGATGCTGTCATTTCAGTATTGGGTGAAATGGATGCATGGATAATTTG TCCCTTTTTTCTTCAAGGAGGCCGTTACACTATTGAAGATATACATTTTGTTTCTGATTCTGATACGTATGTTTTCCATT CATGATCTAGCTATAAGGAATTATGAATGTACAAAGTTATAATCCTGCTTCTTCAACTTTTTGTCTGCAGGCTTGTTCCT GCTGGGGACACAGAGTTTGCCAAAGATGCTGCCTTTGGCTATAAATCTTCAAATCTACGTGATGTAATTTTTTTTATCCC CTTTTTTACTTTATCAATGTAATTTATATTTACATATTACTCATAAGACTAATTATTTTCTGAGATGCTCTTCACAAAAT ATAGTGGGTAGAGGAGAAGACAAATGGCCGAATTCTTGCAAGTAGTGTTGTATCTATTTCAATCCACCTTTTGAGGAAAG GGGGGCCAGATGCAGTTTGTCAACATCTATGCAGTTTGCAGAAGGTATATAATTAGATATAGTTAATGCTCTTTCGTGTC TAAGAACACGTGGCATTACTTTTTATAGGTAAGATATCATGAATGAATAAGTAGTTCTATTCGATCCACTTACTTCGATC TTGCCTATTGTATTAAACAGGGATCAATATGTGTAGTTAACGCAGCTAGTGAAAGAGACATGGCTGTATTTGCACTTGGA ATGATCAGGGTAAACTTCTTTCTTCTCTTTTGTGCCCTTTTTTTTGCCCATTTTGCTTGTTATGTTACTGACGTAAATGT TCTCCTTGCACTGTTTTATCTTGTTAACAGGCAGAATTGATGGGAAAACGTTTCTTGTGTCGCGCTGCTGCTAGTTTTGT TTCTGCCCGGATTGGAATCATCTCCAAGCCTCCAGTATTGCCAAAGGATATAGGAATAGTTAGAGAAAGAAATGGTGGTT TGATAGTTGTGGGATCATATGTTCCAAAAACAACAAAGCAGGTAAAGAATGAAATTAAGTGATTGAAATCAAATCTCCCA AGCATACTCATTTTCTCATCTTGTCTCATGCTTATAAACCCAGGTTGAAGAGCTTAAACTACAATGTGGTCAGTTCTTAA GAAGCATTGAGGTGATCACCATCCAAAATTTCTCTTCATCATTTTCTTTGTTAATTTTTTATCCTAGCCTTATGTAGGTT GTGAAGCTTCTATCAGAATTCAGAATCCGTTACAGATTATAACTGTCTTACATCAACTAACTAACAACTGTTTACCAAAA TAATCACTCTAGCTATCTTTAACTAAACATATGCCTAATGCAATATAGTAATTTTTCTTTCAAATTTCATCTGCTGGTCT GATTAGGATTTCATTGTTATAGGTATCTGTTGAAAAAGTTGCAATGAGATCTATTGAGGAGCAGGAGGAGGAAATCAGTA GAACAGCTGAATTGGCAGATGTATATCTTAAAGCTCATAAAGACACTCTTATAGTGACTAGTCGAAATCTCATAACTGGA AAAAGTTTGTTTTTCTCTCTTTTGTTCATTCTCTCTCTACATCTTGCTTGGTTAGACTTTGATATTAGAATTGTTTTAGC TTTCAAGGTCAGCTCTAACCAATGTCCTTCTTATGACCATTCAAAATACAGTAGTGCATTTAAATGGGGAGATAATTTTA TGTTCTTCATTCTTATCTTCTGGTTTATTTTCAACTTTGCAGCTGCCTCTGAGAGTTTGGATATTAACTTTAAAGTGAGT TCTGCGCTGGTGGAAATAATGAAAAGAATAACAACAAAACCTCGCTATATAATTGCAAAGGTACTCTAAATGACTCAGTG AACTTGCATTATGATATGGAAAATATGATACCTCCTTTGTCCTATTGACCTTACATTTTTTTGAAAAATTGCCACTAGTT TATATGGGCACTATTTTATTTACAAATACCAGCATAGTCACAATATTTACACCTTTTTGGGTCGATCACCAAGGCGCTCT TCAAATCAAGATCGTGTTGTTAGCTATGCACCATCAAGTGAGAAATATGTTGTTGATCAATAAATTCATGAAGTTTTTTA TGGGGACACAAGAACAAGTTGACCTGAGTGTTCACTGTTCGTGCATAAGAATGCAAGAAACTTATTCAAAACACTTTACA GTTTAATTTGTTACTCCTCATGTATAAAACACTTTCTCATCCATCTTGCCTCCTTTTAATAAGTTTAAACGTATATAAAA TAATTTCATGCATGTTTATCTTAATCAGATTCATAGTTTGGGGCCATAAAACCCGACTACATACAATTCCTTTTTGGCTA TGTCCCAAGATTTAGTCAAACACTGACAAATAGTACCTTTTCTAGGGTGGTATTACATCATCAGACCTTGCTACTAAAGC CCTTGGTGCAAGATGCGCCAAGATTGTCGGACAAGCACTTGCTGGTATTCCCTTGTGGCAATTAGGCCCTGAAAGTAGAC ATCCTGGAGTTCCTTACATTGTCTTCCCTGGTAAAAGTTTCTGACTAAATCTGAGTGTCTTCTGCCTTGAAGTCTGTATC TTTCTTCATTCTTCAATATATTTCATCTTTACCTATAAAAGATAATCTGCCTTTGGTAGGTAATGTTGGCGACAGCAAAG CATTGGCAGAAGTGGTGAAGTCTTGGACTTGTCCTATCAGACTTTCATCAACAAAAGATATTCTTAAAGTAAGTTTAGTC AAGTTCAATGTTTTGCAGCTGAATTTCCTTGAATACATTTTTTGTTTTGCATAAAGAATGCAGAAAAGGGTGGATATGCT GTTGGAGCATTTAATGTCTATAATTTGGAAGGGGTTGAGGCTGTTGTTTCTGCTGCAGAGGAAGAGCAGAGTCCTGCCAT ACTACAGGTGAGAAGCAATCAGTTGAATCTACTGATATGTATGTATTCCTTTTCATTATTAAGAACACAAGTAAAATAAC GTGATAGCACTAAAAAGTTGGGGGAAAGTGAGAAAAGGCAGAGAAAACTAATTGTAAATCAAGAGTTCTAAGCCTGTTAA TAAGGATAATGTAGAACATAATAACTACAGAGCTTCTTTTACCAGAACAGTTAACCTTGAGTACTCTTCTGACTAGGGTT TCAGTGTTTCACTTACTCTTTTGAGGAAAAGAATATATCAATGTTGTATAATTATCTAAAAAAAGGCTGAATAATGTAAG GCTCATAATGAGCTATAGCGTATTTATAACCTAAGGATAATAAAATCATATGGAAATCACAAAATCCTAATCAAATATTA ATTTCCTGAAGTTTGTGCTTAATGTTATATGTTTCTTATTAACATGATAATACTTTCCTGAGAAACATATAACATTAAGC ACAAACTCTATTAGGTATAAAACTAGTTTTAGCTAACAGCTTAAACAGTCGAGATACTGGACAATATAAAATGGTGTCAG AGCATCTATAAATGGGCTACAGTTTAATCCTTGATACCCACAGGGAATTTCTATTTCAAGGGTATTTTTGGAGTTGTTTA AAAAAAAGAAACGGGTTGTGTATATAATATTTTAGGGGTGTGCAAAAAGCAACACCCATAGATATATGGGGTTTTTATCT CTTTGTATGATCTTCATTTAGCCCATTTCTAACCAACCAAGGACTTCAAACTTACAGTGCAATGGAACATGGGGGGATCT CTATAAAAAGCCAAAAGGTCCCAGTGTCCCACAACATGGCTCCATATGTATGGTTTGGGGGAGCCCAAATGCGAGGGGTT AAAAAGATCATAAGAGCGAACATGACATAATATATTCACTTAGAACCTTAAGATATTAAGCATATGCGTCTGTTCTCTTT ATTTTATTTTTTTGTTTTGCCCAGTTTTAAGCTGAGACTTAAAACTTGCACTTGAATTTCTAACATGTTCATCATGTTAA ATATGGCTTATTTAGATGAGTCAAAATTCATTTTCGATTATTAAAACTCGGTTCCTCTAAACTACTTCTGAATTACCTGC ATTCTTTCAGATCCATCCCGCCGCCTTGAAGCAAGGAGGAGTTCCCTTGGTTGCTTGTTGCATTTCTGCTGCAGAGCAAG CCAGTGTAAGTGGAATTTCTTTTTGAAGTAAACGGAAATCAGAATAAAAGTATGAATGCAAAGTATTGTCATGATCGGGA AAGGGTATGCTTGATAGAACAGAAAAAAAAGTTTATCTCTGAAATTCAATATTGAACTTTTTATCTTGAAAATATCAAAA TTGACTTTGTATTTTTTATATAATTTTTATTTGGATTTTGATGATGGGTCAAAAAAACTAGTTTCAGAAAACCATACCTT TTATCATTAAATTAATTCCGTGTTTAAATTAAAGGGAAGAGTCATTTCTGAAAACCACTAGAATCTTTAGTTAGAATGGG ATTCCAACTCAGCACCTTTTGAGATTTTAAGAAGAGTTCCTTTATGGATCCCTAGAGCTGAAAGTTTTCATCCACGTCTA TTTAATTTTTTTGGAGAAGGTATAAACAAGCATGATAAAAACATCTCTAATGCAGAACATATTCAAATTCCTGTGTTTAT TTTTAGGCTAATACAGCAGGTATATTTCTAAGTATCTGGTAAATAGTACATGTGTTTGAAAGTAGAAACACATGTCTTTA TTTAGGCTTAGGTAAACACTAGTTTGAGTATCGTTAAATTTTACTGCTTATACATGCAAATATGTAGCAGGTTCCCATTA CTGTTCACTTTGATCATGGAACTTCAAAGCAAGATCTTGTGGAAGCTCTTGAGCTGGTAATTTTTTGTATCTACTTGCAT AGTAATTATACTTTAGAAAAATTTCTATCTCCGTTCCAAAGATGATGCAATTTGCATTTGTGGTTAGTTTTTTATTTATT ATCTCCATACTTTAAATTAAAACTGTATATGTAAATGCTACGATTTCAGGGATTCAGTTCGGTGATGGTCGATGGTTCAA ATCTTTCTTTCAATGAAAATGCTGCATATACAAAGTTTATATCATTATTGGCTCACTCAAAAGATATGTTGGTAGAAGCC GAGCTAGGAAGATTGTCAGGGACAGAAGATGATTTGACAGTCGAAGAATATGAAGCCAAGCTAACAGATGTTAATATGGT TGCTATCCCATCTATAATAAAAACTCAAACATGCCTGCTATACTTGTCATTGCTAATTTTATTAATGTTGGTCTCATTAA TTTCCAGGCACAAAAATTCATTGATGAAACTGGCATAGATGCTTTGGCAGTGTGTATCGGTAATGTGCATGGAAAGTACC CAGCAAGTGGTCCAAAACTCAGACTTGATTTGCTTAAGGTGATATTAAATCACTACTTATATTCTTTAATCATTTATTCA TATAGTTATATAAAAAAAGTTCAAGATCTGAAGATCTAGCTGAAATTTTATGCTAAAATTGTTGGGAAATCGCAAAAACC ATGCTAGCATGATGAAATTTTGGACACCTTATTTGCATTTTTCAGCCTCTTCGGCTCTTCTTTATTTTAGTTCTTACATT TGGGAGGAATCTTTCCTGTTCCTCCCTAGATGTGTTTCTCTTTTTTATGTAATAAAATTCCTTCCTTGCTAAAAGAAGAA AATGCCTATAGTTCCTTATTTAACCCTTAAGCAGAAGTGCCCCTAGTTAAACAAAGAAAATGACAGATATAACAAATTGT GTTTCCCATTTCTGAAGTGTGTATGAGATGAACTTGATTACTCATATGTTCTATAAATTGATCTTCTCTTCAATATGGGT AGTCCAATGTGCATTTGAATCTGTATTTGTGGAATAACATCCTTACAGGTTTCGTGATACTGAATTGCCTTTCAATATAA TTGGTTTTTGTTGAAGCAGCTTTATTATCTAGGTCAAGTCTTCCTTATTTTTTTCTTAAAATAAGTTGGGGAAGGGCGGG TACCTAATGTTTCCAAATGGATAGTCATTTTACCCATTTCTGGGGAAGAAGCTCATCTAATGTAAACACATTTGTAAAAT GACAAAGTAAAGGGTGTTTTTACATTAAATCAAGAGATAGATATAATCTCACTTGCTCATTTCAGAGACAAGCTAACTTT ATAGGAGCCTTATCCATATCCTTAGTGTGATTTTGACATTCTACAATGTTTAGGAGCTGCATGATTTGAGCCAGAAGAAA GGAGTTTTTCTAGTGCTACATGGCGCATCAGGTTTGGGCGAAGAACTTGTTAAGGTACAGTTTTACACAGGTTTTGGAAG TTAATTTTATGTTTGTCAAAGTAATTTTACATGTTATGAGCATCAAGCTCAGGATGCAGTTGCAATACATCACAGATTTT GGAGGTTACACTTAATAACATTTATTTGTGAATGACAATGAAATGAACTCTGGTAGTTTTTCCAGTTTATAGTGCTATAT AACCTATTTTGAGCTTCTTGATTCATTTCTGACAGGAATGCATAAATCTTGGTGTTAGAAAGTTCAATGTCAACACTGAA GTAAGGAAGGCATACATGGACTCCCTCATTACTCCCAAGAAAGATCTAGTTCAAGTTATGGCTTCTGCAAAGGAAGCCAT GCAAGCTGTGGCTGCAGAAAAGATGCGTCTCTTTGGTTCATCCGGAAGGGCATGA
CDS sequence (LotjaGi2g1v0196100.8) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTTGCTGAGATGCTGGAAGGAATTCATTTCATTGCTTCAGTGGAGGCAGTCTCTCTTGGTGCAAAAGCTGGAATTCA TCCATGGATAATCTATGATATAATTTCCAATGCTGCTGGAAATTCGTGGATATTCAAGAACAATATTCCTCTGTTGTTAA AGGGAGAGGTTAAACATCAAATTCTAAACAGTTTTGCTAAGGAGTTGGAAATCATTTTGGATATGGCCAAGTCACTAACT TTTCCACTTCCACTGTTGGCTGCTACTCATCAACAACTTATTCACGGGGTTTCACATGTTTGTTATAATGATGATGATGA TCCAGCATTAATTAAGGTTTGGGAAAAGGTTTATGGGGTGAAAATTTCAGATGCTGCAACTGCAGATGCATATAACCCTG AACAACTGGCATCTGAATTCACTACTGATTCTAAGACTGTGAGACGCATTGGTTTTATTGGCCTTGGAGCTATGGGATTT GGCATGGCAACTCATTTGGTGAAATCAAATTTCTGTGTTGTTGGTTATGATGTGTATGAACCAACTCTAGTTCGATTTGC AAATGCTGGTGGCTTGGTTGGAAATTCTCCTGCAGAAGTGAGTAAAGATGTTGATGTTCTGATAATCATGGTTGCCAACG AAGCTCAAGCAGAGAACGCTTTATATGGAGAACATGGTGCAGTTTCAGTTCTTCCTCCTGGAGCATCAATTGTTCTTTCT TCTACTGTTTCTCCAGCATATGTGAGTCAGCTAGAGCGCAGATTGCATAATGAAGGAAAGAATTTAAAGTTTGTGGATGC CCCTGTTTCTGGAGGTGTTATGAGGGCCTCAATGGGAGATCTTACGATAATGGCTTCAGGAACTGATGATGCTCTTAAGA GTGCTGGTTTAGTGTTATCAGCCTTGAGCGAAAAGCTTTATGTTATCAAAGGTGGCTGTGGTTCTGGGAGTGGTGTAAAG ATGGTTAACCAACTGCTTGCCGGAGTTCATATTGCATCAGCTGCTGAGGCAATGGCATTTGCAGCACGATTGGGTTTGAA TACTAGACTGCTGTTTGATTTTATTACAGTTAGTGGTGGAACATCCTGGATGTTTGAAAATCGTGTCCCACACATGCTAA ACAATGATTACACACCTTATTCAGCACTTGATATCTTTGTTAAGGACCTGGGAATTGTTACTCGTGAATCATCTTCTTTG AAAGTTCCACTGCACCTATCGACTATTGCTCACCAACTGTATCTGTCAGGTTCAGCTGCTGGTTGGGGACGGAAAGATGA TGCTGGTGTGGTAAAGGTTTATGAGACACTAACTGGTGTTAGAGTTGAAGGAAAACTGCGGGCTCTTAAGAAAGATGTTG TGTTGCATTCTCTTCCACCTGAGTGGCCCCAAGATCACGTTCTTGATATACAAAGGGAAATAGAAAGCAATTCAAAAACT TTGGTTGTTCTAGATGATGATCCAACAGGAACACAAACTGTTCATGATATTGAAGTTTTAACTGAATGGACTATTGATTC ACTGGTAGAGCAATTTAGAAAAAGTCCAAAATGCTTTTTCATTTTGACAAACTCCAGGTCACTGAGTTCTGAGAAGGCTA GTATATTGATAAAAGAGATTTGCAAAAATCTAGACAGTGCAGCAAAATCTGTTGACAGCATTGATTACACAGTAGTTTTG AGGGGAGATTCAACTTTGCGTGGTCATTTTCCAGAGGAACCAGATGCTGTCATTTCAGTATTGGGTGAAATGGATGCATG GATAATTTGTCCCTTTTTTCTTCAAGGAGGCCGTTACACTATTGAAGATATACATTTTGTTTCTGATTCTGATACGCTTG TTCCTGCTGGGGACACAGAGTTTGCCAAAGATGCTGCCTTTGGCTATAAATCTTCAAATCTACGTGATTGGGTAGAGGAG AAGACAAATGGCCGAATTCTTGCAAGTAGTGTTGTATCTATTTCAATCCACCTTTTGAGGAAAGGGGGGCCAGATGCAGT TTGTCAACATCTATGCAGTTTGCAGAAGGGATCAATATGTGTAGTTAACGCAGCTAGTGAAAGAGACATGGCTGTATTTG CACTTGGAATGATCAGGGCAGAATTGATGGGAAAACGTTTCTTGTGTCGCGCTGCTGCTAGTTTTGTTTCTGCCCGGATT GGAATCATCTCCAAGCCTCCAGTATTGCCAAAGGATATAGGAATAGTTAGAGAAAGAAATGGTGGTTTGATAGTTGTGGG ATCATATGTTCCAAAAACAACAAAGCAGGTTGAAGAGCTTAAACTACAATGTGGTCAGTTCTTAAGAAGCATTGAGGTAT CTGTTGAAAAAGTTGCAATGAGATCTATTGAGGAGCAGGAGGAGGAAATCAGTAGAACAGCTGAATTGGCAGATGTATAT CTTAAAGCTCATAAAGACACTCTTATAGTGACTAGTCGAAATCTCATAACTGGAAAAACTGCCTCTGAGAGTTTGGATAT TAACTTTAAAGTGAGTTCTGCGCTGGTGGAAATAATGAAAAGAATAACAACAAAACCTCGCTATATAATTGCAAAGGGTG GTATTACATCATCAGACCTTGCTACTAAAGCCCTTGGTGCAAGATGCGCCAAGATTGTCGGACAAGCACTTGCTGGTATT CCCTTGTGGCAATTAGGCCCTGAAAGTAGACATCCTGGAGTTCCTTACATTGTCTTCCCTGGTAATGTTGGCGACAGCAA AGCATTGGCAGAAGTGGTGAAGTCTTGGACTTGTCCTATCAGACTTTCATCAACAAAAGATATTCTTAAAAATGCAGAAA AGGGTGGATATGCTGTTGGAGCATTTAATGTCTATAATTTGGAAGGGGTTGAGGCTGTTGTTTCTGCTGCAGAGGAAGAG CAGAGTCCTGCCATACTACAGATCCATCCCGCCGCCTTGAAGCAAGGAGGAGTTCCCTTGGTTGCTTGTTGCATTTCTGC TGCAGAGCAAGCCAGTGTTCCCATTACTGTTCACTTTGATCATGGAACTTCAAAGCAAGATCTTGTGGAAGCTCTTGAGC TGGGATTCAGTTCGGTGATGGTCGATGGTTCAAATCTTTCTTTCAATGAAAATGCTGCATATACAAAGTTTATATCATTA TTGGCTCACTCAAAAGATATGTTGGTAGAAGCCGAGCTAGGAAGATTGTCAGGGACAGAAGATGATTTGACAGTCGAAGA ATATGAAGCCAAGCTAACAGATGTTAATATGGCACAAAAATTCATTGATGAAACTGGCATAGATGCTTTGGCAGTGTGTA TCGGTAATGTGCATGGAAAGTACCCAGCAAGTGGTCCAAAACTCAGACTTGATTTGCTTAAGGAGCTGCATGATTTGAGC CAGAAGAAAGGAGTTTTTCTAGTGCTACATGGCGCATCAGGTTTGGGCGAAGAACTTGTTAAGGAATGCATAAATCTTGG TGTTAGAAAGTTCAATGTCAACACTGAAGTAAGGAAGGCATACATGGACTCCCTCATTACTCCCAAGAAAGATCTAGTTC AAGTTATGGCTTCTGCAAAGGAAGCCATGCAAGCTGTGGCTGCAGAAAAGATGCGTCTCTTTGGTTCATCCGGAAGGGCA TGA
Protein sequence (LotjaGi2g1v0196100.8) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVAEMLEGIHFIASVEAVSLGAKAGIHPWIIYDIISNAAGNSWIFKNNIPLLLKGEVKHQILNSFAKELEIILDMAKSLT FPLPLLAATHQQLIHGVSHVCYNDDDDPALIKVWEKVYGVKISDAATADAYNPEQLASEFTTDSKTVRRIGFIGLGAMGF GMATHLVKSNFCVVGYDVYEPTLVRFANAGGLVGNSPAEVSKDVDVLIIMVANEAQAENALYGEHGAVSVLPPGASIVLS STVSPAYVSQLERRLHNEGKNLKFVDAPVSGGVMRASMGDLTIMASGTDDALKSAGLVLSALSEKLYVIKGGCGSGSGVK MVNQLLAGVHIASAAEAMAFAARLGLNTRLLFDFITVSGGTSWMFENRVPHMLNNDYTPYSALDIFVKDLGIVTRESSSL KVPLHLSTIAHQLYLSGSAAGWGRKDDAGVVKVYETLTGVRVEGKLRALKKDVVLHSLPPEWPQDHVLDIQREIESNSKT LVVLDDDPTGTQTVHDIEVLTEWTIDSLVEQFRKSPKCFFILTNSRSLSSEKASILIKEICKNLDSAAKSVDSIDYTVVL RGDSTLRGHFPEEPDAVISVLGEMDAWIICPFFLQGGRYTIEDIHFVSDSDTLVPAGDTEFAKDAAFGYKSSNLRDWVEE KTNGRILASSVVSISIHLLRKGGPDAVCQHLCSLQKGSICVVNAASERDMAVFALGMIRAELMGKRFLCRAAASFVSARI GIISKPPVLPKDIGIVRERNGGLIVVGSYVPKTTKQVEELKLQCGQFLRSIEVSVEKVAMRSIEEQEEEISRTAELADVY LKAHKDTLIVTSRNLITGKTASESLDINFKVSSALVEIMKRITTKPRYIIAKGGITSSDLATKALGARCAKIVGQALAGI PLWQLGPESRHPGVPYIVFPGNVGDSKALAEVVKSWTCPIRLSSTKDILKNAEKGGYAVGAFNVYNLEGVEAVVSAAEEE QSPAILQIHPAALKQGGVPLVACCISAAEQASVPITVHFDHGTSKQDLVEALELGFSSVMVDGSNLSFNENAAYTKFISL LAHSKDMLVEAELGRLSGTEDDLTVEEYEAKLTDVNMAQKFIDETGIDALAVCIGNVHGKYPASGPKLRLDLLKELHDLS QKKGVFLVLHGASGLGEELVKECINLGVRKFNVNTEVRKAYMDSLITPKKDLVQVMASAKEAMQAVAAEKMRLFGSSGRA
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 |
---|---|---|---|---|---|---|
SUPERFAMILY | 1 | 121 | 121 | 3.29E-19 | ||
Gene3D | 1 | 126 | 126 | 1.8E-19 | ||
Pfam | 1 | 113 | 113 | 3.4E-16 | ||
PANTHER | 1 | 121 | 121 | 0.0 | – | |
PANTHER | 1 | 121 | 121 | 0.0 | – | |
PANTHER | 109 | 1060 | 952 | 0.0 | – | |
PANTHER | 109 | 1060 | 952 | 0.0 | – | |
Gene3D | 143 | 310 | 168 | 1.3E-41 | – | |
SUPERFAMILY | 148 | 307 | 160 | 7.88E-31 | ||
Pfam | 149 | 307 | 159 | 1.1E-32 | ||
ProSitePatterns | 152 | 165 | 14 | - | ||
Gene3D | 311 | 443 | 133 | 1.5E-45 | ||
Pfam | 314 | 434 | 121 | 1.9E-31 | ||
SUPERFAMILY | 314 | 441 | 128 | 6.57E-34 | ||
Pfam | 481 | 718 | 238 | 6.6E-63 | ||
SUPERFAMILY | 481 | 913 | 433 | 8.5E-69 | – | |
Gene3D | 486 | 716 | 231 | 1.1E-16 | ||
Gene3D | 734 | 917 | 184 | 1.2E-8 | ||
Pfam | 743 | 909 | 167 | 1.9E-37 | ||
Gene3D | 918 | 1200 | 283 | 7.6E-94 | ||
TIGRFAM | 922 | 1200 | 279 | 6.4E-70 | ||
SUPERFAMILY | 923 | 1200 | 278 | 1.33E-82 | – | |
Pfam | 924 | 1199 | 276 | 1.3E-89 | ||
CDD | 925 | 1198 | 274 | 1.26134E-109 |
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 | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. | ||
Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. | ||
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 | Aldehyde-lyase activity | Catalysis of the cleavage of a C-C bond in a molecule containing a hydroxyl group and a carbonyl group to form two smaller molecules, each being an aldehyde or a ketone. | ||
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. | ||
Molecular function | NAD binding | Interacting selectively and non-covalently with nicotinamide adenine dinucleotide, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NAD+, or the reduced form, NADH. | ||
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 LotjaGi2g1v0196100.8, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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