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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0325700 |
| Transcript ID | LotjaGi4g1v0325700.2 |
| Related isoforms 3 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | 12-oxophytodienoate reductase-like protein; TAIR: AT2G06050.1 oxophytodienoate-reductase 3; Swiss-Prot: sp|Q9FEW9|OPR3_SOLLC 12-oxophytodienoate reductase 3; TrEMBL-Plants: tr|I1LY51|I1LY51_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0325700 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:70414490..70428159) extracted from Lotus japonicus Gifu genome v1.2.
TTTTGACCACGACACACATGCACCATAGTATATATATAACTATGTCTACCCTTCAATGGTTATTGTATACCAGTTCCTCC TTCTTCTTCATAAGTTGCATTCTTTTACATTACATCTCACAATGGCAGAGATTTCCAACTTAGCACAAGGAGGCCTCACC CTCTTTGCTCCTTACAAGATGGCAAATTTCAACCTCTCTCATAGGTCACACTTCATCCCAAATTTTCTTATACCCCCATT TACCAATTTGATCAATTTTGTTTTCCATGCACGTTCAATATATGGCTTCTTCAGCGATTGCTGCTTTTATTTTGTTACAT ATTTTCTTAATTAGATTGGTTTACCCTACCAAAAGATCAAAATATAATTTTTGTCCATGAGTTTAATATGTGGGTGGTGT TTTCAGGGTGGTGCTGGCACCAATGACAAGATGCAGAGGATTGAACGGGATTCCAAACTCAGGGCTTGTTGAGTACTACG CTCAGAGATCAACTCCAGGTGGATTGCTCATCACTGAAGGAACCTTGATCTCTCCCACTGCTGCTGGGTATTCTATTTTC CCCTGTTTTCCTCTGTTTTCATATATAATTGACATAAATTTCATCCATCTAAATGAAAATTTACATTGTTTGATGCAGGT TTGCCAATGTTCCTGGAATATATTCAGAAGAGCAAGTTGAGGCATGGAGGAATGTAGTGGATGCAGTGCATGCTAAAGGA GCTATTATCTTTTGTCAATTGTGGCATGTTGGTCGTGCATCTCATGCAGGTAACATCCCCTCTTCCAAAACTTCAATTCT TGACAACACACAATTTCAAGTATCATTAGCAGGGTTTTAAATTGTGGTTGTGATTGTTGCTGCTTCGTGGAATTGTGAAC AAATGCCGAGTGATGTGGTCGCAACTGTGATCGCAAAGGACTGCAATTTAAAACCCTAATCATGAGTATATATCTTCAGA GAAGTGCTAGCAACATATTTTTATAAGAAGTAAAAACAAGCTCCAATGCACTTTGTGATTGTTTTATTTTTTGAAAAAGT CAACACATTTCTCTAAGTCTTAAAAAATGTGATGACTTTTCAATAAATAAATCAATCACAATGAGTGTGTTGAAGTGTGT TCTTAAAAAAGTGTGTTGCGGAGATTTCTCCCATCCTTAACTAACTACATGTAAAACTCTATTTTGTTAATTTGCTTCAT GTTTGTTTACATTTACTTGTTAGATTTTGCATAATTCATTGTCATTTGACAATTACTTGTGTTGGTGAAACAGTGTACCA GCCTGGTGGGTTTGCACCCATTTCCTCCACAAGCAAACCTTTATCATCAAGGTGGAAAATTCTCATGCCTGATGGGTCCC ATGATGTTTACCCAGAGCCTCGTGCACTCAGCATTTCTGGGATTCAAGAAGTAGTGCAGGACTATAGGCAATCAGCAATC AATGCAATTCGAGCAGGTTGGATTTTAATTTCTTCATCATATAAACAAATTTGTAGTAATCTTTTATTGTATCATTGCTC ACAAGGTGTTTTATGAAATTCAGGTTTTGATGGAATTGAGATTCATAGTGCACACGGGTATCTCATTGACCAATTCCTGA AGGATGGAATCAATGATCGAACAGATAAATATGGTGGATCACTTGAGAATCGGTTGAGGTTCTTAACTGAGGTGGTTCAA GCTGCTGTTTCTGGTATTGGAGCAGAAAGAGTTGCTGTGAGAATCTCACCAGCAATTGATCATCTTGATGCAACCGATTC TGACCCTCTTGGACTAGGCTTAGCAGTGGTTGAGAGACTCAACAATCTCCAGAAAGAGCTTGGCAGAAAACTCAGCTATC TTCATGTAACTCAACCTCGATTTTCAGCTTACGAACGAAAAGCACCAAGCGATGAAGAAGAAGAAGCTAATATGTTGCGG AAGCTGAGGAAAGCTTATGAGGGAACATTCATGAGCAGTGGTGGATACACTAGGGAGTTAGGAATGGAAGCTGTAGAACA AGGGGATGCTGATTTGGTTGCATATGGTCGTCTTTTCATCTCCAATCCAGACTTGGTGTTAAGGTTGAAGCTTAATGCAC CTTTGAACAAATATGACAGGATGACTTTTTATACTAGTGATCCTGTCATAGGCTATACTGATTACCCTTTCCTCAAGGAA GAAAATTAGATTAAGGAGCCAAGTGCATACCTTTGATTTGTTATGTGTTTTTGGTCTTTTTGAAGTTTGGTAGTGTTACA TGAGTGCAATTGGAGTCTCAAGGCTCATGTGAATGCTTTTATTGTGGAGATTTGTCTTAGATAATAATACCTGGACACAA ATTGTTTGCCCTTTATATTCATCTATAATGTCTTCATGCTGCAGCAATGTTATTATTTTTTTATTGCTTTGTCACTTTCT GTGGAGTTTTTGTTATAATCTAACGTTTACCACTCCCTTGAGCAGTAAGCTATCTTTTTTCTTTTCCTTTTTGCCGGTAG GGGCTGGACTATTTTATAATGTTTTATCAATTCTGATCTTTTAACACTAAAACGAGCAACTTGATGTATTAGTTCATTGA TAACCTTTTCACTACTACCAAAAAACAACAATCTCTTTTAAGCAACAAGTAATTTTGAGTTCTTTAAACAAATTACTACG GTGTATTTGTTTAGAGGTATTTTAAACGTTCACGAGAAAGTACACATAAATCGCATTTGTTATAAATTATGTAAAGATAT TCTAAGTAATAATTTATTCCCAAGAAAGTTTAATAACACTATTTCTCACGTGTAATTTAACAATAAGGTTAAATACGTTT TTTTAAGTTCAACAAGCGAGATTTGACTTTTGTTCATAATAGAGTAAAGTTGCAAAAACATGCGTGCGCTTAGAGAAATA CCTCATTTTTAGTCCTCAATGTGAGAATAAGCTCCGGTAACCTTGTCATGCGTCCGACAAGGTGATGTGGCATGCTAACA TGGTGGGTGACGTATCAATTGAGAGATTAAAAATTTATTTAACCTATAAAATTGGATTTTCTCCTCCATTCAAAAATCAC TAATTCCTAATTTCATAAAATACTCATATCACCAAGACAATCATCCAAAAGCTTGAAGGGTTGTCTCAATTGTCAGTCAG GACTCTCAATTTCGCTCTATGACCTATTTCTAATCCTAATTTCAAAACTCAGATTTCTATTTTTCTCTCTCTTTATCATC CCTCCTCTGACCCTAACAATCCTTCCCCATTCCCAACCCAACTTAGTAACCGCACCCCTCCATTTCTTCCCCTCCACCTT CGAGGGCCTACCGGAGAAGACACCAATGGTATGTTAGCGATTAGGGAGACCAACAAATGTTTACTTCAAGTATAATTGAG CTGCTACTATTGCAAGCAGGTTCGTTAAGCCCCGCTACTCAACTAGCCTTAGAGTGTCAAAGGATCTCTCTTAGGAGAGT TATGTACCAACTTGAGATTTTAAAGATCAAAGGAGGAGTCAAACTCACCCATTGGAAAGGTGAGACCGGTCAACTCAGGT TCTTCCACCAATTGTGATAATGTTGACAACAAGATTAATTTGAATAATCTAAAGTGGGATAAGGAAACCTAACCATTTAT TTGAAAAATATAGGCTTAAATACTCTCGAGGTCCCTGAAATTGTATGGAATATGAAAATAAGTCCCTGAAATTTTTTTTT CCGATTTGGGATCCCTGGGATTTTTTTTTTAATCTAAAAGGGTCCCTACTCGTATTTCAGACTTATGTGGCTCAATTTTT ACACAATCAGCATTTCCACGTGGTTTTTTATTTTCCATGTCAGATAATAATTAAATAATTATTTTAATTACAACTCAGGG ACTTAATTACTCAATCCAATTTCCTTCTGGTTCTTCTTTCTCAGCAGGGAGTGAGAAAATCATCATCTTCTTCCTCCAGA ACCCTAGCCACCAAACCTTCTTCCTCTTCCTCCCAGCCAACCCCCACCTCCTACCTCTTCTTTTCCCAGCCACAAACCTT CACATAAAGGAGATCTGCCGCACTTGAGGAGAAGAGGCAGAGCTTCCTCCTCTTCTTTTTCTTCTTCTTCTTCTTCTGGG TTTTGGGTTTTTCTTCTCGTTCTCTAGAAGCTTCTTCTTCTTTCCCAACCCCAGCAAACCCAAGGGACCCTAAATCGACC TGCTACTCCAAATACCTCTTTTTCTCTTCAAACCCAGCACCACCGATCTCTTTGAGGTGAATTCAGTTTCTGAGTTTTCA GATCTGAGAAAGAAAATCTGAGTTTTGAGTAATTGGGTGTTACCCAAGTGCACGCATCTGAGTCTGGTCTCGCTTTGTTT CAGTGCAGAGGAGGAGGGTTCCAGACCATTCATCCATCAACAATTCCACCACTGTTTTCCTTCTAGGTCGTTTCCCCACT GTAATTGCTTTGGAGCTTCCCCCATTACTTTTTTTTTTAGTATATGGGTTTTGGGGTTAAAGGATGAAAAGCCGTATTCA TTTTCATTTTTCCGGTGATCAATTTGAAGTGTTTCTCAAAGTTTGAAGCTTCACATGTTACTCACATGTGCATTATATAT AATTATGTTACAAATTGTGTTGCTTGAATTTGTTCCTCTAGTATTTTATTGATGGACAGAGCTAGCACAGATAAGTGAAG AAAGAGGTTGGAGTTGAGGTTTTGGGTATGTTTACAAGTGATGATGGTAGAAGAGTATGAATGAGAAGATGATAAAGAAA TTTGATGAAGTCTTTGATGAAGATGAAGAAATGTATTTCTGGAAGTTTGATGAAGTTGAAGATGAAAAGTCTAATTTGTT TTAAAGTAGTTTAATTAGGATTTAAGAGATTTAATTAATAATTTAAAGATATAATAAGGAAAATTTTTAATTAATAATTT AGTATTATTTATTAATTACACACATGTAATAAATATATTAATTTAAAATTTCACCTAAGCATTATAAATAAAAAAGAAAT CCACGTGGAAATGCTGATTGTGTAAAAATTGAGCCACATAAGCCTGAAACACGGGTAGGGACTCAATTTGATTAAAAAAA TATATTTTCAGGGATCCCAAATCGGAAAAATATTTTTAAGGGACTTATTTTCATACGTCATACAATTTCAGGGACCTCAA GAGTATTTAAGCCAAAAATATAAGACTGTAATTTATTTCAACTTGTAAAGTAAATAGCCTAGGATTTGACATGAACCAAG ACTCAAATAGAGGTAAATACCGATTCTAGGCAATGAACAAGTAAACAAGAATGAGTCCATTTAGCAACCAAAAATCATCT GTGACTGCTCTCCATTTCAATCCAATGTGATTTATTCTGAACACCGTCCAAACCAAGGTGTGATAATCTCAATTCTCAAG CACTGTTTGACTGACCCAAAAAGAAAAAAAAATCTAGTATAGCATTGACTCACGTGGTGTACTCAGTACTCACCCCACTA AGAAAATATTTATCACATGGAGAAAGCAAACAGCAAAAACAGAGAGTAGTGAGTGAGGTCACAGGACAGCCCACTAGCAC TAGCAAACAAGCAGCACCATACAACATAATCGATAGGTACAGTATACTATACTATAGAATATAGATCTCTTCTCTTCAAT AATTCTTCAATATTAAACACTACTTGTTCTTCTTCACTAAGTTGTTCTGCTCTGCTTGCTCGCTGTTACTACTTCTCATA GATTCTGGGAATTGAATACACCACGATCAAGATGGCAGAGGATTCGAATTCAGCTCAAGGAGGCATCACGCTATTTTCTC CTTACAAGATGCCAAACTTCAACCTCTCTCACAGGTGAACTCTCTCTTCACTTCCATCCTTCTCTGTCTTTTGTTTCTTT TCTACACCTTTGATCAGTTAACAAAAAAAATTAGTGATGAATTTGTGGGTGGTGATTTGATCTGAGTACTGACTGCAGGG TTGTGCTGGCGCCGATGACGAGATGCAGAGCTTTGAAGGGAGTTCCAAACGCGGCACTAGCAGAGTACTATGCTCAGAGA TCAACTCCTGGTGGATTTCTCATCAGTGAAGGAACTCTGATCTCTCCTTCTGCTCCTGGGTACTCTACTTGTCTCTTCCT ATTCTTCATCTTTTATATTTTTTTATTTTATTTTTATGATAGTTTATTTTATTGATTATAAAGCATAATAATTCTCCGAT TTTCAAGGTGTGAAATGTGAATGTTTGTACGATTTAAAGGGTCAAACAAGGTGTCTATGGTCATTGACTTGCCACGTGGA CTCCACTAGTATTTAGTGGGAATCTTTTCCGCTTTAAAAATCAAAATATGGAAAAATAATCAATAAAATAATTTAATTAA TGGTTTACAATAATTATAAATAAAATCTAATGATGTTACTCAGCCATCCTAATTTTTCATATGAAATCTTGTAGTATTTT GGTGGGATGCAGAGCTAATATTATGTTAGTGGTGGTTTGATTGATGCAGGTTTCCCCATGTACCTGGAATATATTCAGAA GAACAAGTTGAGGCATGGAGGAATGTAGTGGATGCAGTGCATGCCAAAGGTGCCATTATCTTTTGTCAACTCTGGCATGT TGGCCGTGCATCTCATGCAGGTAACATTAATTCCCCTATATTTCAAACCTACCAATTCTTCTGAATTTTCTACATGCACA ACTAAATGCATCATGATCTCACTTCATCCTTATCTAAAAACTTTGATTTGTTATCTTCCTTGAAGTTAGGGCCTAAGGCC TTCAATGATTTTGCTCTTCATTTTCATTGAGTCCATTCCTTGTGAACCAGTGTATCAGCCTGGTGGGGCTGCACCCATTT CCTCCACCAACAAACCAATCTCAGCCAGGTGGAGAATTCTCATGCCTGATGGATCCTATGGCGTATATCCAGAGCCTCAA CCACTCACCACTTCTGAAATACCAGAAATAGTACAGCATTATAGGCAGTCAGCAATCAATGCAATTCGAGCAGGTTAGTT CATCTTTTCAGTTCTTGATTAAAAAAGATCTCTTGCTGTGGAATATGGATTTGATTAGAACATTAGATTGTGCTTCTTGA TTGTTGAATGGAACTTAGTCCAAACTTGTTGATCAAGGCATGTGATGAAATTAATGTGTCATTCAGGTTTTGATGGAATC GAGATTCATGGTGCACACGGGTATCTCATTGATCAATTCTTGAAGGATGGGATCAATGATCGAACAGATGAATACGGCGG ATCACTTGAGAATCGCTGCAGGTTCTTAATTCAGGTGGTTCAAGCTGTTGTTTCTGCTATTGGAGCAGAAAGGGTTGCTG TGAGAGTTTCACCAGCAATTGATCACCTTGATGCCATTGACTCTGACCCCCTTCGGTTAGGCTTAGCAGTGGTGGAGAGG CTCAACAATCTCCAGAAAAGGCTTGGCAGAAAACTCAGCTACCTTCATGTTACTCAACCTCGGTATACAGCTTATGGCCA AACCGAGTCAGGCAGACCTGGTAGTGAAGAAGAAGAAACTCAATTGATGCGGAACCTGAGAAAAGCGTATCAAGGAACAT TCATGTGCAGTGGTGGATTCACTAGGAAGTTAGGAATGGAAGCAGTAGCTCAAGGTGATGCTGACTTGGTATCTTATGGT CGTCTTTTCATCTCCAATCCAGACTTGGTCTTAAGGTTCAAGCTTAATGCCCCTCTAACCAAGTATAACAGAAAAACTTT TTACACCCAGGATCCTGTTAAAGGCTACACAGATTACCCTTTCCTGAACAAAGGAGATATGAGTAAGGAGCCAAGGGCAA GCCTTTGATTGTAATGTTATTATCTCTTTTTGAATGTTGATTCTATGTAAAATTGGAGTCTCTGTTACATTAAGAGAATG CTTTCATTATGAAAATTCACCAGATATAATAACTCCTACTGCATGCCTTAATATTCTGTGTTTCAATTCCTTCCTTCCAA AATCTGAATGTCAGATACAAGAATTTGGAAGCAACTTCACTGATGCTATCTTTTTTCTATTTTCCTGCTTTTACAGAACA TTGCCTAAATGACAAATCTCTATCTTGGTTTAGTATTTGTCTCTCCATCCTTGTGATGGATGCTCAATATTCATTTTAAC AAGCAAAAACTTCACTATCCAGTAAGCAAAACGAACAAATGAAATTGCACTGCACATAACAGATTTCAACTTTTGATTTT TGCAAATTCCGTTGATTTAGCTGAAGTAATATAATCCGATCAGAAACCTGCTTAGTAAACAAGCTGTATCTGAAAAATAA CTGACGAACATAAAGGATCATCCATTGTAAGTAACCTGCTTCCATCACTATGCAGCATTTGAAAATAAAATCTAGTTTTG ATGCACCTAAAAAGGACAAATTCCTTTTCTTAGGAATAAGAATACAACTAATTCAGTCCCACCCCATTTTCTTGATATTA TTACAAGTATTGGATAAAGCAAAATCTAGAAAGGAGCAAAAAATGAATGCTGAAAAAACGTATGGTTAGGGATGAGGTTT GCTTAGTAAGGTATGGTGTTTAATTTCTATTGCGTGTATTGACAGTGGTATACTTTGACCTACCCGTGCTTGATCCTTAT TTTAAAAGTGCAGCTGGGTAGCTCAGTTTCTTACCCCCACCTTGGCCCCTTGTAATCTTTACTATCTTACTAGATAGCCA AGCTTTGGCACATTCACATTGCCATGTCCTTAAGAATGTAGTATTGAAACTCATCACACTATAGCCAAAACGCCTTCCTG ATTGCGGCTCTCGTCATACCATCCTAAGAAAGATAACCTTCAGCCAAGTGTCTACTTCTTTCGTGTTTCACAAATACATC CTGGCAGAGGATTTGCATAAAAACTTTCCTCCAGCTTTGGAAATTCCCCTACTTCCCTTGGATATGGAGCGCCGATTCGG TCTTGGTGAAGCTTTTTTACCTTGGAGCTGAACTTTTTCCAGGAAATTTTTCCTTCATCCAAATGATCAACTAGTTTAAC AAAATTCATCCTGCATCAGCCATTGAAATCAGCTATACTTAGAATGGACAAGAAACAAAGTTTCACATGAATAAAAAATG CATGTCAACATATCATCATGTTTGAAGTAATACAGAAGAAATAGGATACGGATATATTACTTGTCTGGATTGATGGTCTT CTTGAAGTTTTCAAAGCGCCTATGACCTTGTACAGCCTTCGCCATATTTCCATCATAAGTGTAAAGAAAAACATCACTCT TAAGGGCAACAACGTAGTCTATACCAGCCAACATGTTCTGATGACTCTTGAAAGGAATCAGCTCTTCTTCAGAAGACAAA GAGGAATGAGAGAAAATGTTGGGGAAATCATCCTCAAGGTATTTCATACTTCCTCTTCCATATGCTTCTCCAGCTACCAG ATAAATCCTGGTATGTGATGGGAAACCTAGTGCTCTAAGCAATAGGGAAGTTTCCCTTGGAGTTAACGGACAACCTCCAA GCAATCTCCTTTCAGTCCCATTAATCTCTTTCTCCTTCCAGTGACCGACTTCATATCGCATCTGTCTTAATTCTTCATCT TCTTCTGCAGTCAAATTGTGACTGCAACCCGTAAATGCAAGCATATCCTTCTCATATCTATAACAACGAGGAGATCGAGT AAGTTATTTGATGCAACATATTTATTTGAAGTTCTTGAAAGGAATTGAAATATTTTCTATAGGTTGAGAACTTGAGAGCA CCAAAGGAGTCCAAAACTTGGGACTCTTAGTCCATGGGACAACTTCATATGGAATATGATTCAACCTAACATTACTTAAA CTATGAGTGCATATCTTGTGCAAAAATGTTAGGTGAAATAGAGAATGTTGACAGTTTAATCAAACAGCCAAAAAGCAGCA AAAGTACGGTAGGATCCAAATAGTTTTGACTTTCAATAAAAAAAAATTCAATATGTAGTTCAGGGCTTACATAGAGTCAG GCAGTTTCAAAACTTCTCATAATCAAATGAGGTGAACTTTCATGCCAGCTGGTCTTTCATGAAGAAACATGTCATTTTAC TTTGAACTTTTATAAATTTACGCAAATTCAAGTGAGGCATCACTTTTAAAGGAAAAAAATATATTCAATATGCTCTTATA AGTGGATGATGATGTCCAACTACTCCCACTCCACCTTGTTTTTCTAGCTCAGATTAACTCAAGACACATCGACATGTATG CAATACAATAAAAAAGAAGAGAGAGAGATCCAGCCTTAATAATTGTATTGAAATAATGAACTCACCTCAAATGAAGGGCA AGGTAAGGATTTCCATTCTGCTGCATTCTAGATACCAATGTGTTTCCAAATTCTTCAATTGGAGCTGAATATTTCAGTGC TCTGTAATTTGCACGACATCTTAGCTTCTGGATGTAATTTGGAATGCCGTTGTTAGCAAGCCGGGAATCAGTATGAGTGA AATACATCACTTTGTGATAATTTAGGAGGGGAAGAACCTCAGTCTTGTAATAAGTAACCTGTAAATAAGCACTATGTATA TTCAGCGATGATTATTTGAAACATTGTGATAAAGGGATGCAATGCAATCATATGAAGTTCATAAAATTTCAGCATTGACA CAAAGCAACTCAATGAATATGACACACATAAGGCCATCATTAGATAGTGGTACTTTCAATTTCTTAAAAACTTAACTGGA TACATGAAAGACCAGATGCAAAGATTACTAACTTCAACAATAATGCAGTAAATCAATTAATCAAATATATCCTTCCAGAT TTGAAAAAGTAATTTTAGAAGACCAGTTATGCTGACCTTAGACCAAGATATTGGAGTTTTTGAGAAAGGCTCAATGCCTG CATAGGCAGGTGGTAATTTCTCAACTATGTGGATATCATCCTTCAGTGTATTAATAAAATGCTTCCAGTCAAACAAATCC TTGAAGCCACTGCAAATATATTCAAACAAAATTCATAGACCACAAAAAGCATTCAACGAGAGAATTATCGAGCTGGATGC CCATCACTTGATAGAAAAAAGGAAAGGACGTATATGAGACAGATTAGGAAAACCAGTTGGGTCTTTGTGGCATCTTCACA CTTTCCGTTACACGAAGAGTTGTGATAATTGTCTAGAAAAAGGTTTTGATTGTAGGATCATTTATGGCATACTTGAATAC TTCTAAAACACGTGTTGGAAAACCACAGCAGCAACAGATTAAACCAATAATCCAATGACATTTTATTTTTATTTCTTGCA TGTATCTAATCATCTCTAGTTCTGTGCTACTCCATGTTTTGAACAATTACAGTGCTACAACTTTTATATCAACTCACATT TGCAAAGAGATCCAATCATCTAATCCCACAGTAGGAGCCTAGGAGGTTAAGAAAATAAACAAACCTCGCATCAGCCCAGT AGGAGGTATGATCAAGAGAAGGAAGAACAAATGTTGCCTTCATTATCTTAGCAACAGCAACCATATCACATATCTGCAAT CAAAATATATTGAGACATTACATTCTGCTTGCTGCTTAACATTATATAATATGCCATCAGAAATCAACACAGCCAGACCC CAAATCTCATCTGATTCAGGCCACCGTTAGCATTTAAAAGAATGTAGCCATTGGTCTTTGCTTCTAGCTCTGCCAAAAAA TGTAGAAAATGAGGGGATTTAGAATAAAACACTGCATAATGGTAGAAAGGAGTAAAAATAATAAAATTCCATACTTTTAT GATTTCTTGGCAGATCTATGCATTGGGTGAAATTGTCACTGTTGGATTTAGACCAGATATCTGATTCCTGAACAAAAGGC AAACTTCAATGAATGAAAAGGCAAAGACATATTTATAAATAAGCCTATATTGAGAACAAACAGTCCACAAACTTGAGATA TAGATTTGAGACTTACTTCAGTCATGGTAGTATGGCTGCCAACAACTCCTGTTTCTACCATCTTCAGAGTCCGTTCAACA TCACCAGCTCCATCCTTATATGCATAAGGAAGGGAGTTTTGGTCCATTAGATTTAAGCTAGATATGCCAATGGAGTCAGG CAGTTCCTGATTAACAAGCAAAAATAATTTACCAAGTAAGATAAGAGATGCAACAACCATCCCACCCCCAACACGCGCCA TAAAAGAAAGTAACGCAAGGAGCTGCGCAAATAGTGTCAATCAGATAATGAGCTCTATACTTCTTAATCAACCCCAACTC CCAAACATTGGGCACTTTCAAAGTCTGGTGAAATATGATCAGTTAACAGCAGGTTGTAAAAAATGAAAACCTAAAACTCT CAATTGCTTTTTTCAGCACATTGAACTAGGTATACTAATGCTATAGTTGCTATAGGATACACAGGATACAATATTCTGCA CCATTTTAGAAATTGAAGCAATACCTGCATCGTCCCAAACAGCCCAATTTCCTCACATAAAAGCAGATAATTCCAACCAA AACACTCACAAAAAGACACAAATAAAAGGCACTGTTGTCCGCATTTAGAAGAATGTATTAGTACTAGCATGTTCAACTCA CAAGTTAAAAGCTGAATAAGAAATTTTACATTTCTAAAGAGGCGAAATTCGACCTTTGTATGCATTAAGAACTAGAAGTT ACATAATTTGCACCTGAAAGAGGAAAGTTTCTTAATCAGAATATCCAAATTCCAAAATCCAAAAACAGCAAACAGATGTC TAGATCAGATTGAACTAATCAAGGAACTAATACAAACTTCAAGCACCTAGATCCAACAAAAAGCAAAAACTTCCACTATA GGCAAAATGATATATACTAAGTACTAAATTTATCTCCTACCAAGATTAGATTATAAACATGAGTCTATCAAAAACTTGAT CAATCAATCTTCAAGCATCATCAGAAAGCAGAATCAGCATCATCAATATGATGCTAAAGCTAACCTGATTATTGAATTGA GCTTTATCTAAAGCAGATCCAAGCCAGCCAGTAGCACAAATCTTAAGAACACCCATGAACAAGCACACCCCACAGAACAC AAGAAACATCCAATGGCCAAGCTTCTTCTTCTCCCTTGACCCCAAGTCAACAACAATGGATTCAATCCGTTTCTTGAGCA AGCTCTTCACATGAACTCTCTGGGTCACATGATGGTGGTGATGACCGCCGTGCTTCCTCTCCAGCACCGGCTCCAACCCT TCCTCCGATCTGGGCGAGTTGATTTGAAGCTCAACTTCATTGTGGGTACTCAGAGAGTTGCTGTTGCTGCTATTGCCGCT GTTGTTACCGTTGTTGTTGTTGTTGTTACGCTTGAAGGAGTGTGCACGGCGAGTCATCGGACCTGAGAAACGCGGGCTGT TGACTCTCTGAGCAACGCCATCGGAAGTGTTGTGGTGGTGATTCGAATCAGAGAATGACGCCATTAGAGATGAATGCTTC AGAGATTGCTTCGGTGATGGTGGTTCTTCTTCATATTCTTGATGAATGTGATGGTGATAGTTTTAGAGATACAGTGTGGT GTTTGTTTTGACAAAAATGGTAGTGAAATTTTGTCTTCACTCTTGTTCAAGTAAAAAGTGATTGTGTGATAAATTTACTG TGATTCTTTAAAAACATTCTAAATGAGTCTGAGTTTTTAAAGGTGATGGATATAAATGGAGGAGGTTGGTGAAGTGTAAT ATTACAGCTAATATGTAGGATATCATGAAATTTCCATAAAAACTGCAGAATATTGTGGTGTGATGTAAAT
CDS sequence (LotjaGi4g1v0325700.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTTATTGTATACCAGTTCCTCCTTCTTCTTCATAAGTTGCATTCTTTTACATTACATCTCACAATGGCAGAGATTTC CAACTTAGCACAAGGAGGCCTCACCCTCTTTGCTCCTTACAAGATGGCAAATTTCAACCTCTCTCATAGGGTGGTGCTGG CACCAATGACAAGATGCAGAGGATTGAACGGGATTCCAAACTCAGGGCTTGTTGAGTACTACGCTCAGAGATCAACTCCA GGTGGATTGCTCATCACTGAAGGAACCTTGATCTCTCCCACTGCTGCTGGGTTTGCCAATGTTCCTGGAATATATTCAGA AGAGCAAGTTGAGGCATGGAGGAATGTAGTGGATGCAGTGCATGCTAAAGGAGCTATTATCTTTTGTCAATTGTGGCATG TTGGTCGTGCATCTCATGCAGTGTACCAGCCTGGTGGGTTTGCACCCATTTCCTCCACAAGCAAACCTTTATCATCAAGG TGGAAAATTCTCATGCCTGATGGGTCCCATGATGTTTACCCAGAGCCTCGTGCACTCAGCATTTCTGGGATTCAAGAAGT AGTGCAGGACTATAGGCAATCAGCAATCAATGCAATTCGAGCAGGTTTTGATGGAATCGAGATTCATGGTGCACACGGGT ATCTCATTGATCAATTCTTGAAGGATGGGATCAATGATCGAACAGATGAATACGGCGGATCACTTGAGAATCGCTGCAGG TTCTTAATTCAGGTGGTTCAAGCTGTTGTTTCTGCTATTGGAGCAGAAAGGGTTGCTGTGAGAGTTTCACCAGCAATTGA TCACCTTGATGCCATTGACTCTGACCCCCTTCGGTTAGGCTTAGCAGTGGTGGAGAGGCTCAACAATCTCCAGAAAAGGC TTGGCAGAAAACTCAGCTACCTTCATGTTACTCAACCTCGGTATACAGCTTATGGCCAAACCGAGTCAGGCAGACCTGGT AGTGAAGAAGAAGAAACTCAATTGATGCGGAACCTGAGAAAAGCGTATCAAGGAACATTCATGTGCAGTGGTGGATTCAC TAGGAAGTTAGGAATGGAAGCAGTAGCTCAAGGTGATGCTGACTTGGTATCTTATGGTCGTCTTTTCATCTCCAATCCAG ACTTGGTCTTAAGGTTCAAGCTTAATGCCCCTCTAACCAAGTATAACAGAAAAACTTTTTACACCCAGGATCCTGTTAAA GGCTACACAGATTACCCTTTCCTGAACAAAGGAGATATGAGTAAGGAGCCAAGGGCAAGCCTTTGA
Protein sequence (LotjaGi4g1v0325700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVIVYQFLLLLHKLHSFTLHLTMAEISNLAQGGLTLFAPYKMANFNLSHRVVLAPMTRCRGLNGIPNSGLVEYYAQRSTP GGLLITEGTLISPTAAGFANVPGIYSEEQVEAWRNVVDAVHAKGAIIFCQLWHVGRASHAVYQPGGFAPISSTSKPLSSR WKILMPDGSHDVYPEPRALSISGIQEVVQDYRQSAINAIRAGFDGIEIHGAHGYLIDQFLKDGINDRTDEYGGSLENRCR FLIQVVQAVVSAIGAERVAVRVSPAIDHLDAIDSDPLRLGLAVVERLNNLQKRLGRKLSYLHVTQPRYTAYGQTESGRPG SEEEETQLMRNLRKAYQGTFMCSGGFTRKLGMEAVAQGDADLVSYGRLFISNPDLVLRFKLNAPLTKYNRKTFYTQDPVK GYTDYPFLNKGDMSKEPRASL
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 |
|---|---|---|---|---|---|---|
| Phobius | 1 | 16 | 16 | - | – | |
| SignalP_EUK | 1 | 16 | 16 | - | – | |
| Phobius | 1 | 2 | 2 | - | – | |
| Phobius | 3 | 11 | 9 | - | – | |
| Phobius | 12 | 16 | 5 | - | – | |
| Phobius | 17 | 421 | 405 | - | – | |
| Gene3D | 32 | 412 | 381 | 1.6E-143 | ||
| PANTHER | 34 | 410 | 377 | 1.3E-204 | – | |
| PANTHER | 34 | 410 | 377 | 1.3E-204 | – | |
| SUPERFAMILY | 35 | 409 | 375 | 6.41E-122 | – | |
| CDD | 35 | 390 | 356 | 0.0 | – | |
| Pfam | 36 | 383 | 348 | 7.8E-88 |
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 LotjaGi4g1v0325700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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