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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0073400 |
| Transcript ID | LotjaGi3g1v0073400.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Fatty acid hydroxylase superfamily protein; TAIR: AT1G02205.2 Fatty acid hydroxylase superfamily; Swiss-Prot: sp|F4HVY0|CER1_ARATH Protein ECERIFERUM 1; TrEMBL-Plants: tr|A0A0B2RDR1|A0A0B2RDR1_GLYSO Protein WAX2; Found in the gene: LotjaGi3g1v0073400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:8044166..8057632) extracted from Lotus japonicus Gifu genome v1.2.
CTTTCTCTTTCTTTATTATTAATTATTTCTTTAATCTCTCCACCCATTTTCATTTAAAAGGGAGTGTGAACATAATTTTT TCCTAAAAAGTGCATCCACAGGTCCAATGTAAAAGTGAGATCTATATATAACGCCCCTGCTATCCACCACCTCATAGCAG ATTATCATAGCAACAAAGAAATCATTTTCAGAAATATATAGATCCAGCTGCCAAACTCAATGGCTTCAAGGCCCGGAATC CTCACTGATTGGCCATGGAAGCCACTTGGAAGTTTTAAGGTTATTGCCAACCATCTTCTCCTTAGTCCACTCTCTCTCTC TGAAAATATGTTATTTCTAGTTCATTCATATGCACCCACCAACACTCGTAGGTAAAGTTATAAATGGAAGTATCACATGA ACATAAACTATATAGCTTCTCATTGTTGCTAAACGTACCTATATATGGAGAACGACTAGCTAGGGTATACAAAATGTTTT GCTTATGTCTCTTATTGCATATTATTATAACTTAAAAATGATTCCTTTTAAACTGAATTTGAATGTAAAGTACTGCCTGA GTAAAGAATACTTAAGCATGTGTATTTAAAATCCCATTGCTCTTCCAAGTGATTGAACAAACTCTCCCAACGAATATCTA AAGATAACACAACTCAACTTATAGAAAGAGTTTCGTTCACTTTTTATCGTAAATTACGTGTGGACGTCCATTTGCATCAG TGCAAAACTGATACCCGAACACACACGTCCTTATTGATGATGGGTTTCTATATTTATTTTTTTCATGTTGATGTACATAT TTTCACTTATTGTATGATTTTGCAGTATATGATACTAGCTCCATGGGTAGTTCACAGTTCATATTCTGTGCTGGTGAAGG ATAAGAGTGAAAGGGACATATCCACCTCACTCATATTCCCATTTTTGATATGGCGTATGCTTCACAACCAGATATGGATC ACGTTCTCTCGTTACAGAACCGCCAAAGGAAATACCAGAATTGTGGACAAGGGAATCGAATTTGATCAAGTTGATAGAGA AAGAGACTGGTAATTAGTTATGTTTACGCATCACTCACAATATTATGCATGATGTCTCCTCGCATTTACTCTAGCTACCA CAATATTTCAAAAGTCTCACCATCCTTTAATTGTTACTAATATTTTAACCTACCATTATTTTTAATTGTGCGGAAATCAT GTCATCTACGCAATATACACACATATATAATTAGTTTCACTTTCTTTTCTTTTTCTACAGCTTGTAAACTGTGATCCAAT TATTTATTATGAAATCTTTATTTTTTTAAAGGAAAAACAGAAATGATGTTAACTACATTTTTTCTCTTTGGGGAGTTAGC ATTTACTTGGGGTTTGGAATAGGAAAACTTTCACATGTACTTTTTATTATCGTCCTTTCTCATAATCGACCAATAAGTAC TTGCTTAACTAAATATGATAAATGTATGTCTGTCTGATAATTCATTTTACATAATTCTTATATATTATAATATTAAGAAA CTTACTAGCTAGTTACTAACAATAAATTTATAAAATGATTTATCAACTTTTTTAAATTACCTTTATTTTATTTTCGATGA ATTTTTCTTTTCAAGTTCGAAATTTTATCATCTCTTTCATATTAAATATTTCATTGAAATTGTAAACTGACTTATTTTCA GAAACAAAAAATTTCATTTTATTTTTGAAAGAGAATTTTTTTTTATAAGCCAAGACACATTGCATTCAAAACAGCACAAG GAGTGCTAACCCGAATACAATGAAAAAAGAACCATGGGATAAAAATATACATATATGCCCAAGCTGGAACCAGAAACTCA TGGGATAAAAGAAAAGTATGGGATAAAAGTATTATTGAATAAAAGGAACCATGGGATAAAAACTCATGAGGAAATACAAA CACAACACAAGGGGGCAAGAGAACAGTGAGTATATACTTAAAGAACAATAATATATATTTCTAAAATTTAGGTTTTATAT AAGGAGACATCAAATATGTCTCGAGAGCGTCATATAATTACGAACATGGATGGGGTATAGTTTAAGTAGTTGTTTTAGAT TTTTTTTTTTTTATAGGCAATGATATGTATAGATATTATTGAAACGAAGTACAAGGGGTACTTCAATCCCAATACTGGTT AGGATGGTCATGTAGAGCTATTTTCTTCTTTCATCTTTTCTTGTTCAAATCTTTTGCTTTGTATTATGGGTTGGAGTACC CCTTGTACTCCCTTATAATGCATTCTTATTTGGCTTTTCAAAAAAAAAAACAATACTAATGAAAACAGCAAGAGCAAAAA ACGTTACAACGCTTAACCCACCGCCCACAAATGAACCCCCCCACCTTAAGGGGAGATCCTTTTAGATTTGAATTATAATT TTGCGTTTTTTTTTTAAAATTTTACTGCTCTTAGTTTATAAAGGCTAAATAAATTGTTAGAACTTTTTTTTGAGGTTAAA TTGTTACAATTTTGATACTCTAAGACTATGATATTTTTAATTTAATTCCTGCATTGGTAAAAAGTTTGCTCCATCAGACA AAGTTTCTGGTTCCAGCTTGGGCATGTAAACTTTCCTTGCATGGAGAAACAATAGTATTTCAGATATTTTTTTTATGTTA TAGTACGTATTAAATGTTACTTATTCGTTTCCGTATAGTTGGCAGCTGAAACGGTACAACTCCTATTCATGGCACTTACC TTTCATCGTTCTGGTTATCATTTAATTCATTTATGTTGAACTTAAAGTGTGAAATGACATCTCATGGCTAGGGCCCTAAG GAAAGTTATAAGTATAGGAATTAAATCTTTTTATAGAAAAACAACACATCATTAAAAATATTTAATTAATAGTAGATTTT ATTTCGTCTTTAGTTCATTAAAAACACAAAAAAGGATAGTTATAAATCCACTTTCTATTTTCTACAAGTAATTGTTTATC ATGGACCACGGAATTAATTTCCCCTACTAAAAAAAGCTTAGAAATTGATGTTATGTATTTTTCTATGTATAAAGTGAAAT GAATATATGTCTTGATTGTGGCCATTACTACTTTTAATTCCTATCTGTACCACCATTAATTAGATTCTTTTCTCGTGTTC ATGAACAGTGGTACCGTGTGCATTATCAGATACTCATAACCTTGGCCAAAATACACATAAAAGAGAATAAACGAAAATAT AGATCTATAGTAGTATGTTATAAGAAAGTGCATTCCACTTAAATTTTCTAATCTTAATTTTAACTATAAAATTATTACTT TATTTTCACATTATTTCTTATTTTATGATTTGTGTAAAATAATGAAAATACCTTTAATTTTTTCATTCTTTATTATTTAA TTTTTCAATTACAAGAAATAAAGGGAAAATACAAAAAAAAATTATAATTCAATTCACATTTGCAAATTTTATTTTTTTAA AAAATTAGTTATATTTTTATTTAATCTTTTGATTCATCATGCAGGGATGACCAAATATTGTTTAATGGGTTGCTGTATTA CTTGGCATGTTATACCTTGCCCGGGGCGTCACGTCTTCCACTCTGGAGAACAGATGGGGTGTTAATAGCAATATTGCTTC ATGCAGGCCCAGTGGAGTTTCTTTACTACTGGCTTCACAGAGCACTTCACCACCACTACCTCTACTCAAGATACCATTCT CACCACCATTCCTCCGTCGTGACAGAACCCATAACTTGTGAGTCATGCTTATGATAACATGTTTGAATCAACTTTTCTTC TTTCAAAATTAATTCTCATGTATTCAGAAGTTGTTCAGATAAGCTTCTCTCAAAAATTAATTGTGAATTTGTAAAATCAA TTGTGACCATATAATTGATTTAGCTTAAAGAATTCAAAGCATGCTACCAACCTTGTCTGATTTGCATTTAACGAATGCTT GCAGTGTCAATGTCAGCTATAGACTCTTTTGAATGTGTTTGGTCCTTTGCTTTCTTCACGCACTGCTATATTTTTCATTT TATCATTACATGAAACGTTACTGCCTCTCAGAGGGGAGGACCACCTGACTGCTGGTGGAAATTTGTTCAGACATTGAAAG AGAAATTTGACTTCACTCAGAACATAACACGTTACAAAATAATTATAGGCTCATCTTCCAGCCGGTCACCCATGAATCAT AAGTTTACAATAGCATTCAATACATGTTATTTACAATACGCGTGTTAAACAAAGAAACTTTTCTAATTTGTGAATTATAT TTTCTTAATCTACGACCCTCGACAAAACCCCACTTTATAATTAGACACATTGAAGTATATGAAAGAAATACATCCATATA TAACATTTCGGCTATAAGTAATCTAATATGTTCCACTTTTGTTTCATATGATAATTGTAATTTTAAAATTTTCAGAACTT GTTTTTGCCTAATAACCGTATTGTGTTGTTGGTGCAGCTGTGATTCATCCATTCGCGGAACACATATCATATTTCCTTCT ATTCGCAATACCCTTGTTAACCCTTGTGTTCACAAGAACAAGCTCTGTGGCGGCCATGGTTGGATATGTCACCTACATTG ATGTTATGAACAATATGGGTCACTGCAATTTTGAGATTGTTCCAAAATGGCTCTTTGATGTCTTTCCCCCACTCAAGTAT CTCATGTACACTCCATCGTAAGTGTTTATTTATATAATGTCACTTGCATCCATATAGTTTTATTATGTATGCATTTAAAA TTCAGGTATATATAATAAAATAATATATTCAGCTTTCTTTATTTTCCTTTAATAGTGAAATTTCTATAATTTCAAAAGCA AATATCTGCATTATATCATATTATTCGTATCACTAATTGTTAGAGATAAATAAAGAAAATATCCTAAATTATGCCTATTT ATCTCTAACACTAATGACTAATGTGTGAATGTTTTGACTCATATTAAATATAGAACTAATATTTAGCCCGTAGCAGTTTT TTATTTTAATTTTTTTTTCAAACTTATTTTAAATTATTATTGATGCTATGTGAATGTTCAAGTCGAGTCAACATGTGTAA CACCCCAATTTCTCAACTGAGGAGTCACATTAGTAACCTAACAAAGTCTAAGGACCAATCTGCAATCCCTAAAAACCAAG GGAATTTTTTTTCTGTAAAACAACTAAACACTTCGGCTAAAAGGTTGGAAACATACCATAACTTTATTTAGATAACTTGT TTCCCGATATACAGTAATAATAGTTTACAATACCATAAGTAAGGTTCAGAATGAACATGCGCACTTTAACAGTGGCGGAA GCAAGACTTTAATAACAGAGTTCTCATAAAGTAAAAGAGACTCCAACATAATCCACAAGAAGAGAAGCAAAGCTGCTTCT CATACCTCTACTCCACCGCTTACAACTCGATCTCCAACTCGAGTAGCTATGCCTCGGCGGAAGGATCTCCATCGCCTAAT AGCGTTAAGCGCCCAAACAACAAGTAGCAAATAGAAAGGGTTAACTCCATGCAATTACCATGTATAAAAGAGAAAAATCA TGCTGTTCGAATTTAATTACCTGGCATGGTAAATAACTAGCAACATAACTCAACTCATATATCAACAACTTAAACATAAA TCGGACTCAGATAATAATAACCTCAACAATGTAACATCAAATCAGATATCAATAAACCAATACGAAAATCCAACAACATA GGGTCAGGTGTTAGTTCCCTATAATGCAACTATATGCTGCTAACAAAATGGATCGATCAATATCGTCTCTCAAGACGGGA CAATGATAGGACACATCTCCTCATCGCCACTTATAACGTCATACATGACGGGACAATCATAGGACACACCTCCTAATCGC CACTTAACGTCACATAAGACGGGACAATCATAGGACACACCTCCTGATCGCCACTTAACATCTCGCAAGATGGGACAATG ATAGGACACACCTCCTCATCGCCACTTGACTCAAGCCCTATATGCCAAGTCAGACAATAACAAAGCCCACCCAAGGACCA ATCCAAAGTAACCACATGTTCCATCCACTAGGAAGCAGTAACGACAGAAACCAGTAAACGGCCGAAGCCTCTCAGAAAAC ATTTTCCAAATTCAGCATAATAATCATAATCATCTGCCAATCAATATAAACATCTTCATCTCAAACACAGGCAGTGCGAT AAAAGCATGCAAGACTCAAAGACGCTCTAAAACCGAGTTACCCTTACCTTCGTGAGTAGAAGTTGGGCATGGAAATTGCG AACCTAGAACAAAGAAAACACAATCATCAACACAAGCTTCACTAGGAGCAACACGATCTACTAATACTAATCGAAATCGT AAAGAAAGCCTCTAAAGCTTCAGAGTTCCTATTTAGGCACAAATTGACAACGGAGACTTCGTTCGCTAAAACGAGCATAA CTCGAGCTACAGAACTCAGAATGACACGAAACCGGCACCAAAATTTCGACAATTGAAAGAGCTACGCAATGGCTCAGGTC ATAGAGACCCAAAAATTATTTTTGGACACGGTACCCAAGCAATTAGGTTTCGGGCACTATGGAAAATAGGGTTTTCGAAC TTTTTCTTCGATCTAAATCAATTCACAAGGTATTTTTAGGGTAAAACTAAGGCAAAGAAATTGTCGGAACAATTTTCGGA CAATCGGGTCGAAATACGACTATCCAGGGGCATTTTGGTCCAAAATAAAGGCTCAAAACTTCAAAGTTATCAGTTCGGAA AACAAATTTGACAGCATTGATCCTCATGACATCCGTGACAACAAATCCTAAAGGCACGAAGTCAGATTACAGCTTTTCGA CAATAAAGTTTCGAAATGTGCGACTAATGGGGTTTTGAATCAATTTTTCAGATCTTAGACAACTGAATCGCAATCGGCGA TTACTGACAGAGGTTTTAGACTCATGGGAACATAAGGAACATAATCCAACCAAGAAATCAAGGAAATCGGACAATTTTAG AAAAAGCTCAAAACTGTGAGCACAGAAACGACTTCAGAAACGCAACAGAAACAGTAAACAGAGGTAGGATTCATGCTAGT TACCTCAATACCTAGAAGTAGGGACGAACTGCACGAAGATTGGTCAAGTTTTCGCAAAAATTTCTCCTCTCCTCCTCTCT CCTTGCTCGCGGCCTTGAATGGGTGAGAATGAAGAGATTTTGCTTTTTCGAGCTATTTATAGGCAGGTGAAATCGCGGGA AAATGAAAATTTCGCGATTCCGATTTTTGCAGCACGTCCACCGAGGAATTCTAAGAGAGATTCTGGCGTCAGAATTCCAG AACTCAAAACAATTATCTATGATTTGGGAAAAACGATATCTAAAATCCCAAAGGCGGTGTAAGTTAATCTGTCCCGTTAA ACTACTTTTTGCTGTGATGCTCAGACGACAAAACTTCCTTCTGAAGAAAGATTGGAAATGTCGAAACAAATCTGGCAATG CGGACGGAAACTTCGTTAGAAGTCCCGAATAGAAAAAGTCTTCATCCATCGCTCGAATCTAGGGTTTCGAAGCAAGGAAA TTAGCGTCGTCGGACTTCCGAAAAGTGAATACTATCGTGCGTACAGTCCAGAGTTCCGAAATGAAACGCTGGTCGAAGGA AAAATAAAGAAAAACTTTAAATTTTCCAAGGATTCGAAATCTCACTTAAAACGTTGCTCTAAAGCGAAATTAGCCTATTC TGGACACGCTTGCCATAAGGCGGGTGTGCAGACGACTCGCTCTAATTCCTAAAATGACTACGCAACATTCCTCAAGAAAT TCCTGAACTTTCTTCTTCATTAATCTTTCTCAAATATCAAACTCCTGTCACGCTTACACTGATTCTACGCGTGAGTCGGA AATTAGCTTGTTCTGAAAATCCAGGTCTTACAACATGAGTTGGCGCAACTAATTTAAGGTTCCGGGTTTAACTCTCACCT CCTCATAGGTTGAGGGTTTGAATCCCTCTGGGTCAGTAAAATCCCAGTTGATGGACAACCCTCATCGGGGAGATCCCCTG ATGCTCCTTCCAAGAGTGAGCCCCTACTAGTCTCCTCAACATGCAACTGACGTCCTACCCAATAATTTAGAGGTGTTTTT TCTCTGTTCTACCATTTTCGGATAAAAATAAATAAAATTATCACAGACGTAAGTGATATTTTTTCTAGAGACCTAGCCAT GATTGTTGAGACTTGAGAGTCCAATTAATACAACCTTCAATCCCTAACTGCCAGCTGCTTTATGTTGGTGAAAAGGCATA CTACGTACATATTCAACTATTCAACAAATCAATGCCAATGAATGCTATAAAAAATGCAAAAAAAACAGATAAAAGTTGGT AAAATTAAGTTTGTATTGTAAAAAGTAGTTGTATTTATAACATTAAATGTTGCATCTTTATATTTTGATCCCTTAACTAA TACCCTTATCACATTCAGTCATTCACTAGAAGAACTCTTGATTTTTGCTAATGAATTTGAAATTTAATATTTTTTTCATC TCACTTTCATTCACTTCTCATCACATCACACATCATATATCCTATTTCATTCTCTTCTATTCTATTCAAGTCTCTCACTA GATGTGGCTTAATTGAGTGGTGAAGCAAACTTTACCATTTTAGTTTATTAATTTAAAAAATAAAATAATATCAATTATTT TTCATACATTCTGATTTGTACAAGTTTTGTACAATGTTTTTTTGGAAGCAAAACTTTATTGATAAGGAGAGGTAACCAAG AGCAAGAAGGTAGCTCAAAGAAACAGAACAAGATGCAGCACCAAAGTTCCACACAAAGGACCACATAGACAGCAAAAAGA AAAATTGCGAAGATGCATAACATAAAGCATTACAAGGGGTAGAAATTGAGAATAATAATGGGGGCAAAGCATTCAAGAGA GTGCAGCCTTCAAACAATTCCCCTCCATTATAGAAAGCCATGAGCCAAGCTTCAGTAGACCAATCAGCTTGGATACCAAA CAGTAGGAACTAGCAAATAACACAGCTTCATGATCACAGCATAATGAGCAAATACCAGTGCAGTGAAACACTACCATTGG CAGAGGAGCTGAAACGAAAACATGCAGTAAAATATATATAGTCATAGAGTAAGGAAAATTCAGTTCAGCTTCTCCCAGAT TGGTTCAATTCTATCGCACCCTGACTTTGCTAATTCATCGGCCTCACCATTTGCTTCTCTAAGTGTATGAGTCACTCCCA CGCAAGCAACTTCCTTCATAATCCAATCGATAGCATTCAGATCATTTATAAGCGCTAAAGGTCTATTGGATTTGCAACGG ACCCAACCCACCGCAAGTGTGGAATCACTTTCAACCAGAACTTGAGAGAACCCAAATTCTTTGGAAAAAATCAGCGCCAG AAGAATGGCTTTTACTTCAGCTTGGTAAGCCCAAGAAACCCCCAAAGGTTTAGAAAACCTGCCCAATACAGCGCCCTCCG CGTTTCTCAGAATTCCACCGGCACCGCTAATGCCGGGGGATCCTCTAGCAGAACCATCAACATTAAATTTGAGAATATTA GCCTCCGGAGGGCACCAAGCACAGTTTCTTATCTTACTCACTTTCCCCAAAGTGTTAATGTTTTCAAAATTTTGAGAGAA ATCAACAATAGAGTAGGGACAACCTTTCCACCATGCTTTTGTCCACGACATAACCCTTAACAAGTGCAGGTCCCACACAT GCTCATAAACAAATTCCTTTTGGTTAAAAACCAAATCATTACAGGCTAGCCAAATTGACCAGACCACAGCACATGGCACA AGTTCCCACAGCACACGATCAGATTTAGCACGAAGGGAAGGCCATTCCTTGAACAAGTCACCAACAGAACCCGGAACACA CCATTGAACCCCATCTCTAGCCAAGATAGAAGTCCAGAATCTCCAAGGTTTAGCACACCACAACATTAGGTGATGGACAG ATTCGAGAGCCATCCCACATAGATCGCAATAGCCAACATTAGTTTTGTACAATGTTACTGCATAATTATTAATCTCTGGA ATCAATTAGTTATAAGTTTTAATATTAAGCAACTAACTAACATCTGACATACATACATGTTTCTAATATGTAACAGGTTT CACTCTTTGCACCACACTCAGTTCAGGACAAACTACTCCCTTTTCATGCCATTTTATGACTACATCTATGGCACCATGGA CAAGGCTTCAGATGAGCTGCATGAGTCAGCATTGAAACGAAAGGAAGAAACCCCAGATGTTGTGCACCTAACCCACCTCA CTACGCCAGAATCCATCTATCATTTAAGGCTTGGGTTTGCTTACCTTGCCTCCAAGCCTTACATGTCCAAATGGTACCTT TGGTTGATGTGGCCTGTCACAGTTTGGTCCATGGTCCTCACATGGGTCTATGGTCGCACTTTCATTGTGGAGAGGAACCG TTTTGGTAAACTCATGCTGCAAACTTGGGCAATCCCAAAGTATAGTTCCCAAGTAAGTATCTACATCTTCATACTCTCCA TAACTAAATTATATGTAGTTATTTATTTTGCAAATTTGATAGGCAAATGTTTGTTCAGTTTTCAATTCAAAATAATATTT AGTACATCGTAAATTGGAATCAAGATTTTCAATACATATTCACCTAACGGAATGCACTTATTAAATTGAGTGAATGCATG TGCTTTCAAATACACCCAATGAAAATCCAAATAGAGACATTTGTCGAAAACTATATATTATAATTGAAAAAGAAAATGCA TATCTTAACCATTTTTTAATAAATTAAAAACCCTAGTGAGTATTGCATCAAGTGAATAATGAAAATGTGAGGTAGATACC CAATAAGTGTAGACATGATGTGACAGCTTACATAAAGATAAAGATCAAAAGGAAAAAAGGAACTTTTTACATGCCATGTA TAGGGTTGTGCTTGCCTTTTTTTGTTAATCACAAAAATTCAAATTTCAAAATTCATTATTTTCTATCATGACATGATATT TATTACACTATGCAATCGCTTGTGAAAGAGGGCAGCAACAGGGAGAGCATGCAAAAAAAAAAATTCAAAGGAAAATGGGA TGTAATGAGGTGGCAATACTGATTGGGTGTCTAGAAATCAGAAATTGTAAATAAATGTCTACATAACTAAGCTCAACAGT AGATTTCGCCATGATTTATTTTGTATTGTTAAATTAAGGGATTAATGAATTTAATAGAATTAAGTGCCCTAGCTAATTTT TATTATGATCTATTGATCAACTGCTCTTTTTTTTAGTTCTTTCTACAATGGCAGAAAGTTCCTATTAACAGAATGATTGA GGAAGCAATACTTGATGCTGATAGAAAAGGCATAAAAGTACTGAGCCTTGGTCTCTTGAATCAAGGGGAGGAGCTTAACA TCTATGGAGGGCTATATGTTAGAAGGTATCCAAAGCTCAATGTTAAGATTGTTGATGGTAGCAGCCTTGCAGCTGCTGTT GTCCTTAATAGCATTCCTAAAGGCACAACTCAAGTATTACTAAGGGGAAAACTCACCAAGGTTGCCTATGGTATTGCCTT TACATTGTGCCAACAAGGAGTTCAGGTCAGATTCTTTGTATACATTGATCTTGGGCTGTCTAGCATCCACCACCTGAAGT CCTGAACCACTGCAACAAATTTCTGCGAATTAGCTGCGAGAATAGAAAATTCGCAGCTAATTTCCGGGCAACTATATTTT TGTCATTTTATTAAGTTACACATCTTATTTGACATGATTACAAATTCTATCTTTACAAGTTACAAGCAGTATACCTGTAC ACCACCCGACCACTCGGACAGTAGTGGTGGTGGTGGTGGTGGTGGTGGATGATGATGATAGACAAAGCCTTAATTTCTTA GCAGATATTCATGGACGCCAAGAAGGCTTATATTAAACTCTGCTCTATGTTACTTCACATATTTGACTAAATTTCAGGTC GCTACAATGCATGAGGATGATTATGTAAAGCTCAAAAAGTCATTCAATAGCCCTGAAACTAATTTGGTCCTTGCTAAGAG TTACAATCAGACGGTAATATTAGTACACACAACAGATTTTTTTCCCTGTTTCATTCTGAGAATTTACTCCCCAGAAACAA TTTAAGTTGAAATGTCAAGACACTTTCGTAGTAATTTTTGCATGTCTAGAATGATTATAAATGTTAGGAAAAACAAGTCA GAGACAAACATGATAGGAACACGATCACAACACAAAAATGAAAAATGAAAAACTCTTAAAACCGTACAGAAAACACAATC ATCATCCACACCGACAAGAGTATAAAAGAAAGTAGAAATTCATATACAAGCTTCAAGTGTTTCTAACTAATGCATCTAAA AACAAAAGATTTCGTGACCTCCCACTTCCTTTACTTACCTAGGTAATGTAAGACTTTTCTAATATGTACCGCCATCTTCC TTTAGCATGCTAGGCGACGTGAGACTTATTCTACCATTACAATCAACCCGATCAATAAAAAAATTCATGATACTTAATAA TAATAATTATTATTATTATTATTATAGAAAAAGAACAGTACTATGGTTAAAATTATTTCAATTTTACCTTCAAACTTTTT ATTGATTGTGTTCATAAAAGTATTATTCTGATCATGCAAGAGTTGCTTATTGTTTCCCATGTGAATTCTAGTGATTCTTC TTTAATTACGAGTTTTGGGTATGTTATTGAATTCTTGGCAGATTTGGTTAGTGGGAGACGGATTGACAGAAGAGGAACAG GTGAATGCACCCAAAGGAACAATATTTATTCCATACTCCCAATTCCCACCAAAGAAATACCGCAAGGACTGCTCCTACCA TTGCACTCCAGCAATGCAAATTCCTAGTTCTGTTGAAAATATCCATTCTTGTGAGGTTTGTTCAGATCATCATTTCGCTT TGTGGAGTTTTTTAATAAATTCCCTAAATGATGGAATCTCAACCCATAATACATTAATTAATTGTAGGACTGGTTGCCAA GGAGGGTAATGAGTGCATGGCGCATAGCTGGGATAGTGCACTCTTTGGAAGGATGGACTGAACACGAGTGCGGCTACACA ATGCATAACATAGACAAAGTTTGGAAATCAACTCTTCAACATGGGTTCAAACCTCTCACTGTGCCAGTCCAAGAAATTGC GCATTACTAGTGTATAGTGGGGAAAAATGAGCTTGGCTACATTGTTCTAGCTATCAAGAAAATATTAATCCCCTAGTTAT GGTTATCATTTCCTAAAATAAGTATGTAAGGTACTGAACTTTTGTATGCCTGCAGATGCTATCTATGCGTGTATATCCAA CATGTTTTTTCTACTTTGTATTTTATAGTCCATACTTATTTATATTTAAAAGGTTATGCAAGAGACGTGTATTAGCCTCA ATTTTAAAAGATTGCCAGAAATTGCTTTCTTACAAAGTTTCCCTTGACACATACTATGATACTAAAAAACCAAATAAAAA CAAAGCAGAAACAATACTTGATTCCAA
CDS sequence (LotjaGi3g1v0073400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTTCAAGGCCCGGAATCCTCACTGATTGGCCATGGAAGCCACTTGGAAGTTTTAAGTATATGATACTAGCTCCATG GGTAGTTCACAGTTCATATTCTGTGCTGGTGAAGGATAAGAGTGAAAGGGACATATCCACCTCACTCATATTCCCATTTT TGATATGGCGTATGCTTCACAACCAGATATGGATCACGTTCTCTCGTTACAGAACCGCCAAAGGAAATACCAGAATTGTG GACAAGGGAATCGAATTTGATCAAGTTGATAGAGAAAGAGACTGGGATGACCAAATATTGTTTAATGGGTTGCTGTATTA CTTGGCATGTTATACCTTGCCCGGGGCGTCACGTCTTCCACTCTGGAGAACAGATGGGGTGTTAATAGCAATATTGCTTC ATGCAGGCCCAGTGGAGTTTCTTTACTACTGGCTTCACAGAGCACTTCACCACCACTACCTCTACTCAAGATACCATTCT CACCACCATTCCTCCGTCGTGACAGAACCCATAACTTCTGTGATTCATCCATTCGCGGAACACATATCATATTTCCTTCT ATTCGCAATACCCTTGTTAACCCTTGTGTTCACAAGAACAAGCTCTGTGGCGGCCATGGTTGGATATGTCACCTACATTG ATGTTATGAACAATATGGGTCACTGCAATTTTGAGATTGTTCCAAAATGGCTCTTTGATGTCTTTCCCCCACTCAAGTAT CTCATGTACACTCCATCGTTTCACTCTTTGCACCACACTCAGTTCAGGACAAACTACTCCCTTTTCATGCCATTTTATGA CTACATCTATGGCACCATGGACAAGGCTTCAGATGAGCTGCATGAGTCAGCATTGAAACGAAAGGAAGAAACCCCAGATG TTGTGCACCTAACCCACCTCACTACGCCAGAATCCATCTATCATTTAAGGCTTGGGTTTGCTTACCTTGCCTCCAAGCCT TACATGTCCAAATGGTACCTTTGGTTGATGTGGCCTGTCACAGTTTGGTCCATGGTCCTCACATGGGTCTATGGTCGCAC TTTCATTGTGGAGAGGAACCGTTTTGGTAAACTCATGCTGCAAACTTGGGCAATCCCAAAGTATAGTTCCCAATTCTTTC TACAATGGCAGAAAGTTCCTATTAACAGAATGATTGAGGAAGCAATACTTGATGCTGATAGAAAAGGCATAAAAGTACTG AGCCTTGGTCTCTTGAATCAAGGGGAGGAGCTTAACATCTATGGAGGGCTATATGTTAGAAGGTATCCAAAGCTCAATGT TAAGATTGTTGATGGTAGCAGCCTTGCAGCTGCTGTTGTCCTTAATAGCATTCCTAAAGGCACAACTCAAGTATTACTAA GGGGAAAACTCACCAAGGTTGCCTATGGTATTGCCTTTACATTGTGCCAACAAGGAGTTCAGGTCGCTACAATGCATGAG GATGATTATGTAAAGCTCAAAAAGTCATTCAATAGCCCTGAAACTAATTTGGTCCTTGCTAAGAGTTACAATCAGACGAT TTGGTTAGTGGGAGACGGATTGACAGAAGAGGAACAGGTGAATGCACCCAAAGGAACAATATTTATTCCATACTCCCAAT TCCCACCAAAGAAATACCGCAAGGACTGCTCCTACCATTGCACTCCAGCAATGCAAATTCCTAGTTCTGTTGAAAATATC CATTCTTGTGAGGACTGGTTGCCAAGGAGGGTAATGAGTGCATGGCGCATAGCTGGGATAGTGCACTCTTTGGAAGGATG GACTGAACACGAGTGCGGCTACACAATGCATAACATAGACAAAGTTTGGAAATCAACTCTTCAACATGGGTTCAAACCTC TCACTGTGCCAGTCCAAGAAATTGCGCATTACTAG
Protein sequence (LotjaGi3g1v0073400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASRPGILTDWPWKPLGSFKYMILAPWVVHSSYSVLVKDKSERDISTSLIFPFLIWRMLHNQIWITFSRYRTAKGNTRIV DKGIEFDQVDRERDWDDQILFNGLLYYLACYTLPGASRLPLWRTDGVLIAILLHAGPVEFLYYWLHRALHHHYLYSRYHS HHHSSVVTEPITSVIHPFAEHISYFLLFAIPLLTLVFTRTSSVAAMVGYVTYIDVMNNMGHCNFEIVPKWLFDVFPPLKY LMYTPSFHSLHHTQFRTNYSLFMPFYDYIYGTMDKASDELHESALKRKEETPDVVHLTHLTTPESIYHLRLGFAYLASKP YMSKWYLWLMWPVTVWSMVLTWVYGRTFIVERNRFGKLMLQTWAIPKYSSQFFLQWQKVPINRMIEEAILDADRKGIKVL SLGLLNQGEELNIYGGLYVRRYPKLNVKIVDGSSLAAAVVLNSIPKGTTQVLLRGKLTKVAYGIAFTLCQQGVQVATMHE DDYVKLKKSFNSPETNLVLAKSYNQTIWLVGDGLTEEEQVNAPKGTIFIPYSQFPPKKYRKDCSYHCTPAMQIPSSVENI HSCEDWLPRRVMSAWRIAGIVHSLEGWTEHECGYTMHNIDKVWKSTLQHGFKPLTVPVQEIAHY
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 | 17 | 17 | - | – | |
| PANTHER | 1 | 616 | 616 | 0.0 | – | |
| PANTHER | 1 | 616 | 616 | 0.0 | – | |
| TMHMM | 15 | 37 | 23 | - | – | |
| Phobius | 18 | 37 | 20 | - | – | |
| Phobius | 38 | 48 | 11 | - | – | |
| Phobius | 49 | 67 | 19 | - | – | |
| Phobius | 68 | 98 | 31 | - | – | |
| Phobius | 99 | 119 | 21 | - | – | |
| Phobius | 120 | 125 | 6 | - | – | |
| TMHMM | 126 | 145 | 20 | - | – | |
| Phobius | 126 | 145 | 20 | - | – | |
| Pfam | 137 | 272 | 136 | 2.5E-20 | ||
| Phobius | 146 | 181 | 36 | - | – | |
| Phobius | 182 | 210 | 29 | - | – | |
| TMHMM | 188 | 210 | 23 | - | – | |
| Phobius | 211 | 324 | 114 | - | – | |
| Phobius | 325 | 345 | 21 | - | – | |
| TMHMM | 327 | 349 | 23 | - | – | |
| Phobius | 346 | 624 | 279 | - | – | |
| Pfam | 451 | 613 | 163 | 1.8E-75 |
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 | Iron ion binding | Interacting selectively and non-covalently with iron (Fe) ions. | ||
| Biological process | Lipid biosynthetic process | The chemical reactions and pathways resulting in the formation of lipids, compounds soluble in an organic solvent but not, or sparingly, in an aqueous solvent. | ||
| 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 LotjaGi3g1v0073400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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