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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0453400 |
| Transcript ID | LotjaGi2g1v0453400.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | 12-oxophytodienoate reductase-like protein; TAIR: AT1G76680.1 12-oxophytodienoate reductase 1; Swiss-Prot: sp|B9FSC8|OPR11_ORYSJ Putative 12-oxophytodienoate reductase 11; TrEMBL-Plants: tr|I3S1Q2|I3S1Q2_LOTJA Uncharacterized protein; Found in the gene: LotjaGi2g1v0453400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:94658133..94673219) extracted from Lotus japonicus Gifu genome v1.2.
GTACAACGAATGAATCCCTCTATAATGGGAAAGAAAACTAGAGGAATAAAAAATGAGGGTTGTCGTCTCGTCTCGTTGTG TGAATCAAAATCAAAGACCACCGTCGACTCAACTGTATGAAATTGAAAACGCAATGGCACACGTCACCCCCTTTTCGTTT GTGTCAAAGTCAACCAACCTCAACCACCTGCATCAATCTTCTTCTATAAATACAACACAATACCCGCTTCCAATTCAATC ATTCAATTATTTCGATCATCAATCAATAACATTATCATTCATTCTTCAATCCACTGCACTGCGCTAATACCAATGGCTTC TCCTAATAACCCTCTTATTACTCCCTACAAGATGGGTAACTTCAATCTCTCCCACAGAATCGTTTTGGCGCCGCTTACCA GAATGAGATCCTACAACAACGTTCCTCAACCCCATGCTACTCTCTATTACTCTCAGAGATCTTCCCAAGGAGGCCTTCTC ATCGCCGAAGCCACCGGCGTCTCCGACACTGCTCAAGGCTATCCAAACACCCCCGGCATTTGGACAAACGAACAAGTAGA AGCGTGGAAGCCCATTGTGGACGCTGTTCATGCCAAAGGTGCTCTATTCTTCTGTCAGATTTGGCATGTTGGAAGGGTTT CATCTTCAGGTATATATTTTCATCCTGCACTTGACCTGTTCGATCAAATGCCAATGCTAATTGACTAATTTTATAATGCT TGTGATGTGTACGATTAATGTGTGTTGTTTTTCATATGATTTTGAACAGCTTTTCAGCCAAACGGGCAAGCACCCATATC TTCCACAGACAAGCCACTCGCACCGCAAGATGGCATGCAATTCACACCACCAAGGCGGCTAAGGGCGGATGAACTTCCTC ATATTGTCAATGACTTCAGACTCGCTGCAAGGAATGCTATTGACGCTGGTAACTTCACTCATCTTTTAACAAATGTTATC ATACTTCAATATGCTTCAATCATGATACAATGTGTTTTCAAAAGCTAGGCTGTTCATTTCTTGTTTACTAAACATCTAAT ATGCCCATTATGGTGCAAATTGTAGGTTTTGATGGGGTTGAGATCCATGGGGCTCATGGCTACCTGCTTGACCAATTTCT GAAAGATCAAGTGAATGACCGGACAGATGAATATGGTGGATCCCTTGAGAACCGTTGTCGATTTCCATTGGAAGTTGTTG AAGCTGTGGCGAATGAGGTAGGAGCAGAAAGAGTTGGAATTAGATTATCGCCTTTTGCAGACTATGCAGAATCTGGAGAC TCTAGTCCTGACGAATTGGGGCTTTATATGGCTAATGCCCTCAATAAATACAATATTCTGTACTGTCACATGGTAGAGCC GAGAATGAAAACTCTTGGAGAAAAGTTTGAAACCCCTCACAGCCTGGTGCCAATGAGAAAAGCTTTCAATGGAACTTTTA TAGTTGCTGGAGGTTATGGACGACAAGATGGGATCAATGCTATAGCTGAAAACAGGGCAGACCTTGTTGTTTATGGTCGT TTGTTCTTAGCCAATCCAGATCTACCAAAGAGATTTGCGCTTGATGCTCCTCTCAACAAGTATAAGCGGGACACTTTCTA CGTTTCTGATCCAGTTGTTGGTTACACCGACTACCCGTTTCTTGAATGAAGAAATCAATGTTGTAGCATACTGCATAGAA AAGTGGAACCTCCTGATTTAATAAGCTTTTCTTCCCTTGCACATTCCTTTCTTTCTATTTTTGCAAGTTGTCTGGTCATT GTAATAGGAATTATGATGCTTGAAATTTTATTGATGTATTCTACACCCAGTTGACACATTTTTTAAATGATGAGGGCACA TAGTCTGTAAAACTATTATTTGTGTGTGATAATGACACAGAATGGCAATAAGATGTTTTGGCCCTTGGGTAAAAGCTGTG TACCTGATTTTGCAATACCATATGAGCTTTGTGCTAATAAGAGGATCATTTCAATCTAATATTTGTTTCTTAGGTATTGG ACATCTGGATCATGATATAATAAGATGCATTTCTCTTTATTGATTTAAGTTTAATTTTTCATTTTCCCTTCCGTTTGTGT TTTAGCTTTGTGATACTGCTGCACCAAAAATAAATAATTGGATACTGTTCTTTCTATATGTACACAGACAGTGGGGATAT AAATTAACTTCATCGAAGTTCATCAAATAATGGGGAAAGGGTGAGTTGGATTGTGCGCCTGAACTGAAGCAAAAGTTCCA GACAGACAGGTATATATGACTATTCTCCTCGTCTTGTCGCGGTGTGTGTGAATGTGGAATTAACTGATCATTTACTTGGA ATGCTGGGTCGAAGATGTAATCCCTTTCCCCTGTGTCAGTCTCAAGTCTCAACCACTGGACTCTTCTCTTTGGCTGCTTC TTCTATAAATACAAAAACATATGTTCATTTAAGAAATTAATACACTGTTTTGACTTTGACAGCTTTGCCTCCTTTCTTTT TTGTTGAATTATAATGCTCTATACACTCACTATACGTCAGTCTTTTTGTTGCTATCTTGGTCCTTTATGTTTGGTTTCAT TAACCATGCCATTGATTTTTTCCATATATTATTGTCCTGGTCCAACTGATCTAAACTATGAAAAGCTTCTGCTGATTAAA TCTGAAAAGGCATCAATCTGAAAAGTTGATTTCTTATACTTGTAGTGGAACAGCTGCAAAGCTTCTGCTGATTGCATGCT CTTCTTTATCCTTTCAAGTTAGTAGAAATCAGTTTAGGACCTAAACCTCAGTATTCAGAAATATAATGCCAAATGAGGAA AAATAAACTAACCTGCAATTTATCAATGCGCCGTTATTGATGAAATTCTGATAAGGATGGACTAACTTGTTTGTTTGGCC AGGGATGAGAAGGACTCTAAAGACATCAAAGAGCTATTTTACAAGAGAGCTGGTGTTCACCTTGAGAATGCAATGGCGAG GGGAATCTTGGAGGACTACTAGAGGTTCTTATTCACCATGTTCCTGTTCATGTAGTTTTGAGGTGTTCATTCACATTTTC ATACCACTTGGTAAACGAATATAATTTGAATAAATCAATTAATTGAGGTTGATAGATGTGTTTTCATACTGATAAGTTAG TGGCACTGGCAATAGGCTAGTCTGTAATTCTCCGAAGTTGCCTTAACCTAAAGATGAGACATGACTTCTTGGTTTCTTCT CCCAAGGGATTTTCATGGGTGAAATTACCATCACTTTGGGATGCCTTTTGAATAAGAAGCATGAACATTGGCATGGGAAT TATGGCAATAAAAAATTTAGAGACTTCAATAATTATTTAAAGTGACATGTCATCACCTTCTATACAAGTGTCCCACAAGT TCCTGATATATACAAGTCTTGAAAAGACTCTATATTTCAACGGCTTTTAATACCACATCATTTCCTTAATGAATTATTCA AATTTTAATAAGCTTTTGGGAATAATTAGAATTTTTCCCACACTGATGCTTCATATTAACAATATCTTGAACAAAATTGA AGTTTACATAAGTTTATCCTTTATCTTTCAATATTTTATTTTAAATAAATAAAATGTCCGTAATCCTATTAAACTTAGAT AAGAGAACTAAGGGTCACTATCCAATTTCTAGGATATTTATTGTCATGTGACATACTGACATGACATCTCAAACCACAAT TATGGGGCCAAGCTAGAACCGTGCCAAAGTCCTCCTAACTAAACAGCTAGTCTCGTGTCAAAGTGAAACAACCTCCGGCA CTTGAATCTTCTCTTGTGCTGCTTCTTTATTCAAAGTGAAACAAACATAATCTTTTTCATCTATCCCCCGCACTAATGGT TTCTCCTCATCAGGATCCCAATCCCCTCCTCACTCCTTACAAGATGGGCAATTTCAATCTCTCTCACAGGTAAGTATTTC CATTCACTTCTTGCTCCTCTTTTTGTCCACCATACCAATATCATTTTCCATTGCTTCACCACACTCTTTCTCTGTTCCTG TAATTTTAGAATTGTATTGGCCCCGTTGAACCGAATGAGATCCTACAACAATGTTCCTCAACCCCATGCTCTCCTCTATT ACTCTCAGAGAGCTTCCAAAGGAGGTCTTCTCATCACTGGAGCCACTGGTGTCTCTGACACTGCTCAAGGGTACTTTCAT GCTTCTCACTTGCTTTTTTGTTTTCACGATTGTGTGTATACTAGTATTTAGCCCGTTTACCCGTGCGATGCACGGGGAAT TTTCATTTGAATTAACTACTAATTATTATAATTGAGTTTAGATAGATATTGATATATATGGAATACTGCAATAATGTAGA TAAGTATTGTATATATAGGTGATTTTGTAGGTGTGATCTCAGGTGCAATATTGCAGGTAAAATTTAAACAGAAATTCATG CCAAGTGGTATATTAATAGAGAGATAAACCATGAGAACATTCTTCTCATGCTAGAGACCAAAAATATGAAATAATACAAT GATATATTTACTGAAACATACAATTTTAATTAGTGAAACACTTATATGTTGTTAATGTTTCATATTACATATAGACATTG TTTCATATTACATATAGACATTAGATATTCGTGCAATATTAAGTTTGGTTCACCCTTAACAGTTAGTATGGAGTTTGTGA GTGTGACCTCCGGCGCAATCCTGAACATATAAGGTATATAATATATGTTGCTTAAATGTTGGTTAATTGAATTAGTACTC AAGCGGAAAGAAAAAAAAATTAGGAAATCATAATTTAATATGAATTTAAAAATATTTAAATCAAAACTTGAAAGATATTA TTCGATGTCTGTATAAAATTCTTTACACTATCATACAAATCAAATTCATTATATTTATTATCTAATCCCACATAATAGGT AATAAAAACTAATACCAACTGATAAAACCAATTAACATCAAGTAAATGACTCAAATAAATTCAAATTTAAACTTGTTATT TTAGAAATTTTTCTGGGTAGAATGGTACATGTATCCATTTTCCCCCAAATTAATCCATAGATTAACCATGTAACAAAACT AACTATTTTTGTTAGATGGTGGACGTTTTGTATTTTAGAAAAAATACATTTTTTATTACCGGGACAAATTAAATTATTGT TATTTTGACAGTAAGGGACAAATTAAATCATTAATACATATTTTACTTTTTTTAATATTTGGTTACCTTTTTTCTGGTTA CATTACTTTTTTTAATATGATTCTTTATGTAAATTTAAAAAAATTTAAGAATTCCTCAAATTCAAACTATTTACCATGAA ATTTTTAAATTTACCCATCTATCACTTTTGTTAACAACTCTCATTTCTTCTATCTCCATTAATTAGAATTAGAATATGTA CCAAAAAAATATTCATCGAGTAACGGCTAACAGTTTTTTGGATCAATCTGATTCATCAATTAGATCAGTAGTTCCTTTTC ATGATAAAAGAGGAAACAGATAATAAAATGAATTTTTTTATATTTATTTACAGGAATACGGTTTGTATTAATTGCCATGT GAATCCTCACAAAAGAGGATATTGTTTTTAAAATAAGGAATAATTCTATATTTACTTACATGAATATTCATTAAATCCTT AAAATAATATCCATTAGTTCCCCAAAGTGAGGTCCTGTATCCGTATCACAAGGGAAAATCATTCGACAATTTAACAAAGT GAATCAATAAAATTAACAAACTAAATATATAAATTGTTGGAATATTATTTAAAGTTAAATTTAGTAATCAATAAAATATT TACATATCATATTCGTATTAATTGTTATTTTTACGAAACATAACATAGAGTGCATAAAGTCATAAACTATACACTACATA AAGATTTTAGCTTCCTTAGATTATACTAAAAAAATAAGGATAGGAAAATAGCAGTAGTGGTCAAGAAATATGGATGTACT TTGAGAAAGAGATGTCATTTTGCTCCCGGCTAGTACTCCCAACAGATTAGAGCAAGTAGCTCCTTATGCTTATGTACAGG ATTGCAAAGCTAATTGGCTACATGTAACAACGGAAAACTTGATGACACCCTTCTTGAATCCTTCTATCATTAATGGCATG GCCAAAGCTCCTTTTATGGTTTTCATTCCTGCCCAGTAAACTAACACACAAATCAACACCAGTGATATACTGTAGAAGGA GATGGGTATTTGGGAGAAAAATAAGATGGATATATAGGGTATTGTTTCTGGTTAAATGTCTAAACAAAATGAGATTGAAT CCAATATATATATATATATATACCACTGCGCAAGAGTGAAATGAGACCCCCTTCCATGTAAGTGCCGAGTGTATCACTGC AGGCCAAAATGGAGCAACAAAGGGAGACCAATCTGCTGATTTTATGTCCTAGGTAGAAATTGATATTGAGCATGTTAATT AAAAGCAATTTGATGTGTAATACTATTAAGTGCATGTTTGGATAAATTGTGAGGTGATGTCAAAATCATGGTGGATAGTC GCAAAAATTGGGGGAAGTTGCTTTTGTTCATCATGATTTTAACTTCACCGTGATATTCCATTGTGTATTCAAACATGTAC TAAATAGTTGAGTTTTAGATTTTTGATTTGGTGTACCAGAAGTTAATGGGATTCCAGCAATTTGACATAATCAGCAGTTG AGCACCATGCTGGAAGGTAAAATGTATCACATATCCTCTTCAAGAGATTCTGCTCCCATGGCTACAGGGATTCTTCAGCT GGGCTAAGATCCCTGTGGCACCATGTTACAATTATTATGGTCCCACCTGGTGCTGCCACCCGAGCTTACTCTCCAACAAA CTGTAATTTTTTGTGAGAAGCAGACAATCTGAGATAGTGAGATCACGTTACCAGCTTACAAAACAAAAGTTATAGCTTAT AAAAAAAACAAAACAAAAGTTATAGACCAATTCAGCCATAGTATCAACACTTCCTAAACACTCAATTTTTTCTCTGTTTT CTTATATATCATATATTACATCCATCTTATTTCTCATCTCTTCCTCATTTTGGTGTCTACACTCAAAATGCATTTTGTTA AAGAAATGACAGATGCATAACATGCGTAATCCTCGTGATTAGTTGCAGAACCTAAATGATCAGACCCTTGGTAGTTTCTC TTCATGCATCTTCTCATCTGAGAAGAACTTTCCATAAAATCTAGGAAGATGGTATTTACGATATTTACGATATTTATAGG ACTAAAAATCCATATATGAAAAAAATACAGTTCAGGTAAAATGTTTGATTTTAATAACACATTTTCAATACACAGTTAGA AATTAAATTGATCATCCAGGTAGAAAAAACCAAAACACAATTTGATATATTAAGGAAACCACAGCTCAATAATCAGACTA ACTGTTTCAAATATCCTGCCTAAATTAATACAACACTAACAACATGGACTGAACTATGTGAATACCATTTAAGTGAATGG AATAACCAAATGAACACCACATGGTAAAAAATTAAATGAACATTATGGTAGCAGATGGCAAACAAATTAGATTACACTAC TCTAAAACCAAATTGCATTATCAATAGCTCTTGAGAATGAAGAGACCAACTTTAAAAGTACTTGGAGCCTGAAAACTAAT AAAATAAGCTAAGTTGATTACTAAAGCAATCAACTTCAGGAGACGCAGTAAAGTAATCAAGAATCGCCTTATATTTCATT TTAAAACTGTACTACAATATGTTAAACATTAAATTTAGCAATTAGGAAAGGGCTAAATAGTTAAAGAATGAATGAATACA CCAATATGTTAGTTAGATCAATAGATCTTCAAGGCTAACTTCAATAAAAAGGTTCCACAGTCCAAAGCAAACCAACTTTA GGAGAGAACCTGCAATAAGACAAATAGTAAAGGTAAATGACTAAATAGTCAAAGACTAAACCACCACTTTATAAGCTACT TCTAGAGTTCTTCAAGACTGACTCAATACAAAGGTTCAAGATTCTAAGAGAGGACCTGCAGTAAAGCACAGTAAAGATAA AAGACTAACTTGTATTGAGGATCACTTTTTAAAAAAAAAAAATTGTAGCAAGTACTGCACTTGTCATTCTTAACTCCAAA CCTACATTCATCTCACTATGGTAGCGAAACCAAACTGTAAAAAAATTCATTTGAACATGCTAACCAACAAAAACATGTTT TCATATATTGCTTTAAAATATCTCACATACAAAGTGGATCATCATTACCCGATCAAAGTACCATAATTTCACTATGTAAA TGTGGGTTTCTTCCCAAGCATAAGTGATAAAAGATGTATTATGAACATGAAGGCAAGAGCTGAATGACTTATGCAGTGCC ATAATTTCACTTATCTTTACCTGATCTGTAGTGAGCAGTAATTTATCATTGCTCAGTAATGAACATGAAGGCAAGAGCTT AATGACTTATGCAGTTTGCAACTAAATAACACCATGACTACTAACATATAGTACATGTTATTAGGAATATGCTCCTTATG GTCTAAATTTATTTGCAGGGAAGCTGTTTTAACTTGCAAGCCAGATTTTTCTTGATACAGGATAGACAAAGTAATACTTT ACATAAAAATGCACATTGACGTATAGAGGTTGAAATTTTTTGGGGAATTTAATGTTAGAAATTTGAGCATGAGTGATGTG TGTTTTGGCAAATAACTTAATTAAGTGTTTATTGCCTAAGCTCTTTTCATATAAGATCTTATTCATAAGCTAATCTAAGA AACTTATTGCAATAGGCCTAAAATAGCTTATAAGTGGATGTAAGTGTCAATTCATAAGCTAATCTAAGCAACTTATAAAA TAAGTTTGAAACAATTTATAGGTATATCATAATTTTCGTAAGTTCACTCAAACACTTGCATTAGCGTTTATGTCAAAAGA TAAGTTTAAGTAAGCTCTTCTAAACGTGAAATAACATGTAGATTGATGAGAAAATCACCTGTTAATGGTGACAGTAGAAC TTCAACACTTGGTGGCACATTAGCAATGAAGAATGGGCCTGCAACAGTGCTTGTTACATCAATGCTTCTCTTTTGCAAAT TTAAATGTTGCTTCCTCGGTGAGAAGCTTTGAAAGTGCATAAACCTATAGTCATGAAAAAAAAACCTAAGGAACCAAAAT TTGTGTATAGTACTAATGAGCAAGGAAAATCATTACTTAGTTACTTACCCATTCACTTGCTTTTGTATTACACACATTGT CTGTTTGGATTTGACAACATTCATCAACAAAAGGTTTCCACTTTCCATTGCTGTCTTTTGCAGTAGTTGTACTTATGGAA GATGTGAAAATAACCCTTTTCACAGATTGGATTTCAAACATGACTTTCCATTGCTGTTTTCTTGTAGTAGGCATGCTAAA ATTAGTCCTTATGAACCCTGACTAAAAAAAGCAATTAATATATGAGAAAGAAGAAAACCAGAGTTGTGATTATAAGCTTG TTTGTTCAATTTTAAATTAAAACTATAAAAGATAAATTGGAGAGTGAGGCAACGTCTAACAGATACAATATGAGAAGCAA GATTAAAATAGACATGGAAGATGGGTTCACATATTAAATAAGTGTCAAAAGAGGGAAAATAACATGTTCAGTGAATAGTG ACACCAATTGGGTTGTGTGTGATTCGAACTGCAGTTTCAGTCTGACCTCATTTTCCACCTTCTCTTGAAAAACTAATTTC CAGGTCCTAGTCTAGGATTTCAGCATCCATAGATTTTTCTGGAAGAGGCATGGCTTCAAGTTAATTTTCAGGTCCTAGTC TAGGATTTCAGAATCCATAAATTTCAAATATGGAATCATGGGAGTAAAAATTTCCGATAATGTCATAATGAAGTGACAAC TGCAACTAAGAAAACCAAAAATAAATACAACACCTAAAAATCAGAGAACCTCCAAAAATATCACCTCTAGTAGAATGACA ACATTAAAGAATAGCTTTGAGAACAAAGAGGATGAACTTTAAAAGCATTTGCTGCCCAAAAACTGATATATTGCGCAGCA GTTATCAAAGATAAGTAAAGTAAAGTCCATACGTAGAAAGTATATGGAAACACTAAGCAGTTATCAAAGATAAGTAAAGT GCCTGTAATAAGAATGTCAAGAAGGCCGACATGAACTGGATCTAATTTCCTTTCAGGAGAAACATTCTCTACACAAAGAA CAAATCGAACTACTTCAAGGGCCTTTACTGTTTCATAGACTTTCTTTATTGATGCAGTACCAGAAACAAAGTTGTAAGAA TAGCCACAGAGAAGAACATTCCCCTCTATCAAGTTCAGTCCATGGGGTTGTACTTCATAACTTGGGAATCTAGCAGAACA TCATTTGCAGCAACCAAAGTGCATGTATTTATTTAAATGTGTAGGAGCTGCACAAAATCAATAACAAAATAATTAGTACA CAAAGGAAACTGACAAAGAACAAAGAGCAAATCTATAAAGAATCTGCTGCCAAAACACAGATTCGAGCAACCTCAGCATC AATGAGCACCATCTTACTGCAAGATGGAGTGTATCACGAAGTTGTGACTGAAAAATCCATGAACTTGTAGTCAATTGCAA GGAAAATCAATGAAATTATACGTAAATTAAATTGTTAAATGTACATAGCATTGAACCAATGAAGGTCATGAATAAAATCC TATTAAGTCAGTTCGAGTTATGCAATTTTGTGGGTGATCCACATAGCAGGAAAGTCATCCTGAATGTTGGAAAATGGATG ACGCAAATATGGAAAACATCATCTAAATTCTAATTCAGAAGCATCTAGATAAATATTGGGAAACAGACAACAGTGTCATG CATGCCATATTCCAGTGGCATATAGTTAACTTGAAAGAGCATTCTTTATCAATCAATTTAGAATTTCGCTACATTACATT AAAGAGACCATATGTCTGAAGGCAACAGAATAAAAAAATATTGCATACAGAATATTTTGAAGAAAGAATGACATTAAGTA AGTATAGAGACCGTATGACTGAAAGCCACAGAATAAGAACATATTACGTACTGAATCTTTTGAAGAAAGAATCACATTAA GTAGGTGGAGAGCTTCGAATTTCAAGGAATTGTGCAAGACAGCAAACTGCCTTGCTATTACTGCCACCCGCAGGAAGACA AACCAAAGATATTGCTTTACCGAAGACATGCTATAGTTTTAAAAGTTTATTTAGCATGAACAAAGACTACCCTATTGAAA TGGGAAAACATTTAACTCTGAAATATAAGAATTTAAAAAAATACACTCACAATAACTGAGAGCTCAGCTAAGTAATTATT CTGGATTGTGTCCAGAGATATCCTTCTTAGAATCAATTGCAAAAGCTTAACAGATATTTCCACCAGATGCGAACCTGCAT AATTTGACTGTTGTAAATTATGATGTATAGATAAAAAAAATGAGAGCAGAAGTTCATAATCTCCACCTTGTAGATGTGTT TGCAACAGTAAGATGGCTAATAGAAGTTACCCTAGCAGACAAAAAGATCATACCATCTTGCACATAAGACATCTTCCTAG ATGGTATGTTTTTAGTCCTATAAATATCATAAAATCTTTCTAGATCATACCATCTTGCACAGAACCTAAATGATCAGACC CTCAATTACAGATACACGCTTGTAGAGATTTGAACGTCTGCATCTAACATTTTCCTATTCCTCTAATTTAGTTCTTTCCT TGTCAATATTGATTTGATTAGTTGTAAATATAGTTTACATTAGGAAATTGCTGTAATTCAATCCCTAAAATTAAAGGATT CAGTTTTCCATCAATGAAAATATAAATTCAAAGTGCTCAAAGCTAATTTCCCAAGCAATTCAATCCGCTTAGTCTATTTC TCAAGAAAAACATAATAGGAAAATAAAAGCCTGTCATCAAGCAACTACTTACCTTAGCCTAATGCATAATCCTGCATAAC ATGGGTTTCATACTCCAGCAACTACTCAGAACTGCTGAAAAAGTTATTAAATGCATATGGTTCCCTCAATTAGATGCCCT AAAAAGAAGAATGAAATATAGTAAGCAATCTTTCTAAATAAATAATCAATAATCAGTCACAATATTAAAGAATCTGCAGC CAAAACACAGATTCGAGCAACCTCACCATCAATGAGCACCATCTGGATGTCAAATGGATTCAATGGTTCTCTAACAGAAC AAAGCTCCACACCTCCAAAACCCTGACTTTCACTCTCCACATATCTCGTCCAGTTAGAAGGCTTCTGATCGAATTAATAC CACCAGCCATCTCAGAGATTGGAGTGAGGATTGTGTGAAATGTGGTGGAGTAATGGTTGTGTGAATGGTGGTGGAGTGAG GGTTGAATTGTGTGAGCATTTATAGGCAAATGGATCTGAAGAAACATTCAAAGAAGAAAAGGTTGTGTAAAGAATTCAAC CTATAACCCTAGATCTACAAAGCTAATCCCAACTTCAAATCAAAATGTAAATGACAGATGCATAAAAATTGGATGAACTG AAGATGACAATGGGGAATGGTTGCAAACAGAGTACGAAATCTCTCAAAAAAGGCACATCTAATCAATGAAATCAGATAAA CAATTCGAAAAAATGACGAAATTAGGAGGAAACGTATGGGAAGAGCTAAACCACGTAATGGTGAGGTTCACAGAAGAACT GTTATAGAGGCTTACCACGCAATGGTTGATGGAGCGACTTGATGGCCAACGTCGAGGAAGCCATGGGAAGGTGCCGAAGA TCGTGGGAAGTAGATCTTTAGAGCCGAGTGACGTCGAACGCAGTTGGCACGGGGAAATCAGTGGCGTTGCTACAGTTGGA GAAGCGAGAAATTGGGGAAAAAGGACGAAATTTACAGAGGAAGGGTGGCTGAAGGGACATGGGGTCGGTGCTTCCCCATG GAAACCGGGGAGCGGAGGCGGCGGCTCTGCCAACCTCACATGTTCGAGAAGAGAGAGAAACAGGTAGGGTTGTGTGATCT GTGATTATTTTATTCAACGGCCCAGATTAAAAGATGGAAAAAGCAGTAATAGATTTCAACTAAAAAAATAAAACTAAATT TGAAAAAGTCACAAAAGCAGTACACATGTCGAAATGCCATTGGTGGTTTCTTATGAATAGTAACTCGAGAATAAGATGTA GTAGATTTGTACAGATGAATGAAGTGTATAAACTATAGAGTGAGGATATTTCAGGGGAAATATATATAAAGAGAAAGAAA ATGACCATGTGATGAGATATGTAGTAACAAGTGATAAAAAATAAAACTACACATAATGTTCAACGCTGATTTTATAATTT CCACCTATATAGATGCAAAACCGATAATTATATATCACTTTAGAGAAAAAAGATAAAGTGACACATGTGGTTAATGATGT TATGAGAAAGAAACTGAAAGATAGAAAGAACAGAAGGGGTGAATAAAAAGATGGAAGAGAAAGTAAGGTTCATAAAAAAC TGATTCCATAAGATGTGACTTGTATTATATTTATGCAAAGGTATCCAAACACGCACGGCATATGGACAAAGGAGCAAGTT GAAGCATGGAAACCCATTGTTGATGCTGTTCATGCAAAAGGTGCTATCTTCTTTTGCCAGATTTGGCATGTTGGAAGGGT TTCAAATTCAGGTCAGGTATTTCCTGCACTACTTAGACTTCCATTACTGACAATCAAATGGAGATTATTGGAATTGAAGA TTGTCGTTATTGATTATTGTTAAGGGGAATCTGCATTATGATTTTTTAGTAACATACGTGTATGCAGGTGATGTACATGC TCAATGTTTGCCTATTTTTCATACAAATTTGATGAGGGTAAGACCTGGATTTACAGAACAAGTTAATTTCTGACTCACGC GTAGAATCAGTGTAAGCGTGACAGGAGTTTGATGTTTGAGAAAGATTAATGAAGAAAAAAGTTCAGGAATTGCTTGAGGG ATGTTGCGTAGTCGTTTTAGGAATTAGTGCGAGTCGTCTGCACATTTGCCTTATGACGAGCGTGTCCATAGTAAGCTAAT TTCGCTTTTAAAGCAACGTTTTAAGTGAGATTTCAAATCCTTGGGAAATTTAAAGGTTCTCTTTATTTTTCCTTCGACCA GTGTTTCTTTTCGGAACCCTGGACTGTACGCACGATAGTATTCACTTTTCGGAAGTCCGACGACGCTTATTTCTTTGCTT CGAAACCCTAAATTCAAGCGCTGGATGAAGACTTTTTCTATTCGGGACTTCTTACGAAGTTTCCGTCCGCGTTGCCAGAT TTGTTTCGACGTTTCCAATCTTTCTTCAGAACGAAGTTTTGTCGTCTGACCATCACAGCAAAAAGTAGTTTCTCGGGACA GATTAACTTACACCGCTTTTGGGATTTTAGATATCGTTTTTCCCAAATGTCAGAGATTTGTTTGGAGTTCTGGAATTCTG TCGCCAGAATCTTTCTTAGAATTCATCGGTGAACGTGCTGCAAAAATCGGAATCGCGAAAACTCAGAACCGGTTATGAGG GAAACCTCCTTTCCTTCTTACTCGGGGGTGCTTACGTGTTTGCTGTTAAGTTTTCTGACATAACAACTATACCATATATT GTCTTGAGTGGTGCTCTTGTGGTGGGATCCATTCTGATAGTTGTTGCGGATTGTTTCGAAGGAGATATGGAGCAGTCATC ACAACACACACAGCCACAGTCAACACCACCAACACAGTCAGCAGGATCGACTGGCAGCGTTGTCGTTAACATACAAGAAG ATCCAGTTCAACCAGCTGCAGGAGATCCCGCAACCCAAACTGTTTCCACTGGCCCAACACCAACCCCAACTGCTGCCCGT GGGACTTCAGAGCCAGTAGTGCATGGCATTGGGCAACCTAGCAACATTCCCACTGAGATGATACCAGATCATGTTCCACC ACCATCCTCTTCTGGAGAAGGACTTGCTGGAAACCCATGAAGAGTGGAGATTATGATGTTTATTAGGCTTAGTTCATGTT TATTTCAAATAAAAAGTTTAGTTATGTTGCATTTTAGGTTTGCATTTGCATGAGCCCATGTGGCCTTATTTTATTGCTTA GTTATGTTAGGAATTTGCATTATAAATTTACTAGTGTGATGGCCCGT
CDS sequence (LotjaGi2g1v0453400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTTCTCCTAATAACCCTCTTATTACTCCCTACAAGATGGGTAACTTCAATCTCTCCCACAGAATCGTTTTGGCGCC GCTTACCAGAATGAGATCCTACAACAACGTTCCTCAACCCCATGCTACTCTCTATTACTCTCAGAGATCTTCCCAAGGAG GCCTTCTCATCGCCGAAGCCACCGGCGTCTCCGACACTGCTCAAGGCTATCCAAACACCCCCGGCATTTGGACAAACGAA CAAGTAGAAGCGTGGAAGCCCATTGTGGACGCTGTTCATGCCAAAGGTGCTCTATTCTTCTGTCAGATTTGGCATGTTGG AAGGGTTTCATCTTCAGCTTTTCAGCCAAACGGGCAAGCACCCATATCTTCCACAGACAAGCCACTCGCACCGCAAGATG GCATGCAATTCACACCACCAAGGCGGCTAAGGGCGGATGAACTTCCTCATATTGTCAATGACTTCAGACTCGCTGCAAGG AATGCTATTGACGCTGGTTTTGATGGGGTTGAGATCCATGGGGCTCATGGCTACCTGCTTGACCAATTTCTGAAAGATCA AGTGAATGACCGGACAGATGAATATGGTGGATCCCTTGAGAACCGTTGTCGATTTCCATTGGAAGTTGTTGAAGCTGTGG CGAATGAGGTAGGAGCAGAAAGAGTTGGAATTAGATTATCGCCTTTTGCAGACTATGCAGAATCTGGAGACTCTAGTCCT GACGAATTGGGGCTTTATATGGCTAATGCCCTCAATAAATACAATATTCTGTACTGTCACATGGTAGAGCCGAGAATGAA AACTCTTGGAGAAAAGTTTGAAACCCCTCACAGCCTGGTGCCAATGAGAAAAGCTTTCAATGGAACTTTTATAGTTGCTG GAGGTTATGGACGACAAGATGGGATCAATGCTATAGCTGAAAACAGGGCAGACCTTGTTGTTTATGGTCGTTTGTTCTTA GCCAATCCAGATCTACCAAAGAGATTTGCGCTTGATGCTCCTCTCAACAAGTATAAGCGGGACACTTTCTACGTTTCTGA TCCAGTTGTTGGTTACACCGACTACCCGTTTCTTGAATGA
Protein sequence (LotjaGi2g1v0453400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASPNNPLITPYKMGNFNLSHRIVLAPLTRMRSYNNVPQPHATLYYSQRSSQGGLLIAEATGVSDTAQGYPNTPGIWTNE QVEAWKPIVDAVHAKGALFFCQIWHVGRVSSSAFQPNGQAPISSTDKPLAPQDGMQFTPPRRLRADELPHIVNDFRLAAR NAIDAGFDGVEIHGAHGYLLDQFLKDQVNDRTDEYGGSLENRCRFPLEVVEAVANEVGAERVGIRLSPFADYAESGDSSP DELGLYMANALNKYNILYCHMVEPRMKTLGEKFETPHSLVPMRKAFNGTFIVAGGYGRQDGINAIAENRADLVVYGRLFL ANPDLPKRFALDAPLNKYKRDTFYVSDPVVGYTDYPFLE
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 | 2 | 359 | 358 | 8.3E-140 | ||
| SUPERFAMILY | 4 | 358 | 355 | 1.49E-123 | – | |
| PANTHER | 6 | 359 | 354 | 5.9E-205 | – | |
| PANTHER | 6 | 359 | 354 | 5.9E-205 | – | |
| CDD | 7 | 340 | 334 | 0.0 | – | |
| Pfam | 8 | 334 | 327 | 3.6E-89 | ||
| MobiDBLite | 117 | 131 | 15 | - | – | |
| MobiDBLite | 117 | 140 | 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. | ||
| Molecular function | FMN binding | Interacting selectively and non-covalently with flavin mono nucleotide. Flavin mono nucleotide (FMN) is the coenzyme or the prosthetic group of various flavoprotein oxidoreductase enzymes. | ||
| 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. | ||
| 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 LotjaGi2g1v0453400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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