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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0466600 |
Transcript ID | LotjaGi1g1v0466600.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | MADS-box transcription factor; TAIR: AT2G45660.1 AGAMOUS-like 20; Swiss-Prot: sp|O64645|SOC1_ARATH MADS-box protein SOC1; TrEMBL-Plants: tr|A1XG54|A1XG54_SOYBN SOC1; Found in the gene: LotjaGi1g1v0466600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:97482197..97498518) extracted from Lotus japonicus Gifu genome v1.2.
AAAATGGTGGGGCATGGGGAACGAGTGTGGGGATAGGTGGATGAATAAGGAAAGGTTCATCTCTCACTCTTTCCTCAGTT TCTCTCCGCACCTAATTGTGCTCTCTTCTTTTGGGTGCTTCCTTTCCTTCTATTAACTCTTCCCTTTCCATTTCTATACA CAAGGTTACCAGATTTCTGGGATTTTGCCAATTTGGTCTACTCTGGAAGCCCCTTCTACTACTTTGAATTCTAAGTTGCT TTTCCAGCTGGTAAGTATCCATCAATCAACTATTTTTTTATAAAATATAACTAAAAATTAAAATCCATCTCTTTGACATT TGATTCCTGGTGTTTATATTAGATCCTTTCTTGGAAGGATACTTATTGCTACTTTTGACCAATGAGTTTGTTTTAATAGA AATCTGCATATTTTGCATCTGGGTTTGTTTTTTCTTCTGTTGTTTTTCAGATGCTTTTTTTCTTCTTCCTTTTAGTATCC ATCCTCTATGTCACACAACCTTAGCACTTTTTATTTTTTATTTTTGAGGATTTTAAGGGTTTCCCTTTGATTAGTGAATT TCTCATGACATCTGTTGGAATCTTCTTTGTGCTGCAGCTTTCTAGTTGTTAAAGTCTTGTTTTCCAAGGCTCACTTTTTC TGGACATCTGTTACACATTGACCAGAAAGCATTGTATATTGTTTCAATATCCTACTAGGTCAGCACTACTCCTTTCTGAA CATGTGTTGAACATTTTTCAGTTTTAAAAAAAGCATTTTCTAAATTTCATAGCTTCATCTTTTTTTTTTAACTGCTGATT TAATAATGATGCAACAGAGAGAATGGTGAGAGGAAAGACTCAGATGAAGCGCATAGAGAACGCCACAAGCAGGCAAGTGA CCTTCTCAAAGCGGCGTAGCGGGCTTCTGAAGAAGGCCTTTGAGCTTTCTGTGCTTTGTGAGGCTGAGGTAGCTCTCATC ATCTTCTCTCCAAGAGGAAAGCTTTATGAATTTGCAAGCTCCAGGTAACTAAGGACCCTCACCAATATATTTTCCTTTAA TGTTTCATACATTTATAGCGTGTGTTTCGATCAATTTCTCTTTTGTCAGAATTAATTTTGAAGTGCAGAAGCTACTCACA TAAAACTTTTTTCTATAATTGATTATAACTTTAGGATCAAGGACCAAGTGAACAAAAATTTCTTAACTGCACTTGGTCTT ATTGCATCTGCATAAGATGGCATCCACTTGCTAGAGTTCCATCTATTTAATTCTTAGCTATAGTAGATTTCATGTAGACA TGTTTGTGTGCTTTCACACCATATAGAGATTCAAGTACTGATGTTTCTCATAAAAAATCATAAGGCAAATGTTTGATAGA ACACTAAGAGGTGCAGACACACAAAGAAAAAAATAAAGACTGATATATAATATGAAAAAAGTGGGATTCAAATTTACTAA CATTTACTTAGCCATACCTATAAAAAAATCATAACCCAAATCATATATACCAGTACAGTGGGGGGATTAGACAGGAGGCT AGGGAGTTTTATTTGATGTTACTTTTTTATTTTCTTTCATATTTTATATCCTTGGAAGTACATTGGTGAATGGATAGCAA CTAAGGAGTTTTATTTGACGTTGTACTTCTTATATTTTTGGGGGCTGAGGAGCTCAGATATTAATTTATTATAGGACAAG GGATTAACATTACTTTGACAATATTCATGATTTCTGTCAGTTCAAGTGATACTTAAAGCTTAACTTACTTGAATATTCTT ATCTGTGTTTTACATCTGACTATCTGAGTAGACATGAATATTCTCTATATATGCCGATAATTGGCTTTTGGATTGAGGAC CATTTGTTTGAAACTTCACACAATACATATGAAACTTTTCAAATATACACTAACACATTTTGTGGGTGGGATAAGCTTAG AAACTTTCAAGCTTTCCTCAACTGCATTGGGTTTTCTATGTTGGAATAGAATGAGTCCAAGTTTAGTCCATTCACATACA ATTTTTCTTCCATTGTTTTTTTCATCTGATTTTTCATTCTACCTTTTTTTTCTATCACATCATCAATCATATCTCTCATT TCACTCATTTTTATTTATATCTCTCTTAATCCAACTTTTTCCATTGAATGTGAAGAGTCAGATTAATAAACCATTACCCA ACTCCTTCACCCTAACATTACAGAAACTTGGGAAATTAAATGGTGAAAAGTGTTGTACTTGTTCCCTTCCACAGCGGATA AAGAGATATCACGGGTACGTGGGTCATATATCATATATCATATGTACTAAAACATTGACATATCCAATATTCATGAGATA CAAACGATATTTAGGGTTCGTATAGAAATGTTGTCCACCACCATGATTCTGTTGCCTCCTATAACATCTTCCAATAAATA AAATTAAGGGTTAATGAGTCATATCAAGACAAATTTTATTTACATCTTATTTTTACTATATTTTATTTCTCAATCTCTCT GCATTTCCTAGCATATCACCTACCATATAATTCATTTTCCCTCTTCTCTTCTTAAACTTTTACTGCGAGGAGTGGAATTT GACATGGAATTAAGTATTATTCTAAAATTAATATTATTTTTATGGATTAAGAAACAAAACAAAGATCATGATTTAGGGTT TTAGATTAAAGTCAAGGTGAAGTTAACTTGAGTTTTCTCCATATTAAACTTGAGAGTTTTCATATTAAACTTAATATAAC CAAATTTATTTTTTTCCAACTGTAAAACAAATCGACTGATATCACCACAGTTCTCAATACAACTAGAGACACACTAACCT CGTTACAAGGCTGTTTATGTTTCAATTATCATTATAATAATACTCCCTCCGTTCCTCCTGATCTTTTGTTGTTTAAGGTT ATGCACATTATTTAAGAGTGCAATTATTGATATATTTGCTGACATAAACGCCCCTATTTAATGTTGAGTTAGAGTGAAGA GAGAGAATGATAGTTATTGGTTAAAAAATTTGTTATGGTTTTGATTGGTGAAAATAAGTGGTGGTAGGTGAGAGATATAA TATTAAATGAGGGTAAACATGGAATAAATTGAGAAAAAATGCATTGGATTTGTAAAACAACAAAAGTTTTGGAATTTAGG CCAAAAATTAAAACAACAAAAGATTAGGAACGGAGGGAGTAATAATTAACTTCTGCATTATGTCGAAACTGCACACTAAT GTTATTTAACTAGGGTTTAAACTATTTATTTATGATATCAAAGTTCTAGTCAATACTTTGTATGATGATGAGAGTGTGCT GTAGCTTTAAGTACTTTCATAATATGATTTTAAAACCATTTCTATCTCCTATAATCTTTTTCATCATCACTTTCTTCTTG AGTTACATAAAAAAAAAAAAACATGGTAATTTTTTGGGATTTAAAATCTAAAGAGCAAAAAATGAACTGGTTAGATATTT ATAGTTAAGATACTGCTGAATTTGTCTCAACCATATATATGATTGACAACATGTTTGAATAGAGTTAAAAATCTCATAAT TACTTCTTCCCCCACAAAAGTTACTCTTATAGCTTCTTCTAAATCACTTTTCACCTCAATGTGAAAACCTACCAGGCTTC GGAACACAAACTGAATCATTGAAGCATTGAAACTGGTATTATGTTTGCAGTGCTTTCAGTGAAGCACCTGCTTATAAAAC CTTTCTTTCTCCAGAATGTAGTAAGAATCCCTTAAATTTTTTGATGATAAACATATGCTTTCTAGTTTACGACTTCTGCC CTTCCTCTGAAATATTTTGGCTTAAATGGATTAATATTCTGTGCTTACATAATTATAAGGGTAACTGTTGTAGACCATGA TAAAAATTGCTTCATCCATGATCCATGTTTTTTCTACTAACATTTTATTTACAATATATTACTTATGTGCTAAAATTTAT TTGCGGAACAGTTTTGTTAATCCGCAAACTTTATCCTGGTTATATATGAATTATGATTTGTGCTAGCTAGTCTGGTGAGG GGTGTGCAGATAAATTTGGAGAATCTTATTTGGTGAGAAGCCTCCCCAAAATGAAAATTCTCCAAACCCATTAGAAATGA AGATTAGAATTTAGAGCTGAAAGAATTTGTTTCTTTTTCTAATTTTCTTTTATATTCATTGAAATTCGAGAAAATGAGGG TTAAAAATGAAGAAACTATTTAATTCTAAAAATAATTATGTTCTTAAGTCATTAATAATAATAATAATTATATGGGTTGA CAGAGCGGGTTAATCAGACCTGCCATTAGTCTGCCAAAATGTGATTTGGGATAAACATACCACTTTTACTATTTGGCGGA CTATCAGGCATTATGGAGGATTATCGAATAGGCCTACTAAAATATTTTTGTGAAATAGAAAAGATAAGATTACATGGTGA GTAAATACTAAATATGAAGTTTATTTTTCGATTGGAAGGAGGGTCGAAGCCCTAAACAAAAGACAACTACACTCGAATAG ACCGAGGGAATGACACTCATGAAACATCAAAGATGAGCAAGTTGGAACATCTAGGAGGAGGGCTCTCCAAAATATGAAGT CCAAACTCAAGATCATGGGCCATGTTAGCTAAGCAATCCACAACCTGGTTATCTTCCCTGCAAACATGCACACACCGGAA CCTCCCCGGCACGCTCCATAGAAGCATGAATATGGTTCACTAGGCTTCCATACGAATGGCACGGATCACACCCATTATTA ATGCGGTGGATAGCGACACTGGAGTCGCTCTCAATGATCACTCTCAGAAGACCCCTGCTCCAAGCTTGGCTTAGAACTGA ATAAATACCCCAAAGCTCTACCCAAAGGACATTTGAAGTGCCCAAGTTCCTTCCAAAGCCAAACAACCACCTGCCATTGG AATCGCGAGTAACGCCACCAGACGCAACTAGAATATTTGATGGACCACGTACCGAGCCATCCGTGTTGCATTTGATCCAG GAGGGAGGGGGAGGAGACCAGCGGATGAAAGCTAGCTGGTAAGTACCACGACCAGGCAGCGATGTCTGCTCTACTGCGGC TCGACACGGAGAATGTTGGAGCTACATATGAAGAGTTGCAGTAAGAACATGGTGCAGGTCGAAGGGTTCTCCCTAAAAAA CAAAGTTTGCTCTCATGGTCCAAATCATCCACAGAACAAGGCCAAAATTTGGGACCACACCGCTACCCGTAAGTTTTTCA ACAACCAATGCCTGAAGTCTGAAGCAAAGAAAGCTGTTTGGTGATGGGTGTGCACCAGCTGAGACCACAGTGGACGAACC TTGCTGCAGTCACAGAATAAATGGCTGATGGTTTTGGGTTTCTCTCCACACAACGGGCAAAACGGGTCCACCGTCATGCC AGCCTACCACCGCCGGAAATTCACCCACACACCATTATTCAGAACACGCCTGAAGAAGTTGCAAATTTTGAAAGGACCAT TCCAAACAAAAAAAATATGAAGTTTAAAATACAAATGAGGATAAGAAAAGCTCATATTTACCACGAATTAACATAAATGT GGGTTAATTAACTAAAATAGATCCAAGGTGAGTAAATTCTAAATACATGGTGACTATTAATGGACCTATTTTTTATATAT GGTTCAATTAATCTTGCTTCACCTGCCTAGTAAAAAGAGGAAATTTTCACTTTAGAAGGAATTTCATTTCCGTTAACTAA TAATGAAAAAATAATTTTTCTCCTCCCCTTTTCAAATTTCTCTTTTTACTGCCAACTCTAGCTCTTTATCTCTCTCTATG TTTTAAAGAAACTTCAGGTTATGTGCTTACTATTTTGATCATGGATCAGCTATAACTGTAGTAATATTGGGTTTCATGAA ACAGCATGCTGGAGACAATTGAACGCTACCGCAGGCATACCAGGAGTGCCCAACCAGTACCAAGAACAGATGAACAAAAT ATGCAGGTTAGTATACCCTTTCCATTGTTTTTTAGTTTTTTCCCCTCTTCTCTCATATAGCATTATTAATTCTATTCATC ATTTTGAATTTTTTGTATCAGCATATGAATTTATTATTTGGTATACTCCAACCTATTCCTTACAAAATTGTTTCACACAT TGGAGAATAATAATACACCAATCTTAGAGAGGCTTCTATATATCATACATCGTCAAATAGATGTGAATTGATATGTCGCT TGTAACTTATTGCGTTTAATTCATAGCTACATGTAACATTTTAGTTCATAACCTGATTATATGTAACATGTCTCGTTACA CTCCTTGTAACTTATTGAGTTTAATTCATAACAATTTTACTAGTTTTGTATTGAATGAACGATTGAGAAGCTTAAGGGTC TGTTTGATAGCAGTTTTAGTTTTCAGTTTTTAAAACAGTTTTCAGAAACAATTCTTAAAAACAGTTTTCAGAAGAAGAAA ACAGTTTGAATGACATGTTTTCGAACATTTAGAAAACTGATATCTGAAAACTAAAAACTGAAACTGAAAACATCTTTTAC CTGTTTTGGTTTTTTAGTTTTAAAAACTGAAAATGAGAACTGTTTTCAAAAACTGTTTTTGAAAACAGGTCTTACCAAAC AAGTGAAAACTGTTTTGAAAACAGTTGTCAAACAGGCCCTAAATGATTGTATTTTTGAAAGACTAAAATCGTAAATGGTG AAAAACTGAATTAAGCTCGTGTTAAACATGAGAAAAGCATATTAGTGTAAGCCCGTGTTATATATCAACTTACTAATCTC TTATCTTTTTTTTTGGTACACTAATCTCTTATCTAAGTGAACCTATTGGTTAAAATTACTAGAATTAAATAATGTCTTAA GCCTTAATTAACTTAGCCAATACATCAATGATCTGATAATTCGAGCAAACATAACCAGAGGCTGTTCTGATTCTTAAGGA AATAGAAACCCTAATTCTAACTAATTTCTCAATCGAATAATAATTAGATTTATAACCCAAAGGACTTTTGGGCAACAATA AACATAGAAAGAAGATACAATTAATGGATGAAAGGAAAACTCATAGTAAATGAAAAATATCTGATCATACGGAATCCATC ATCCCTTAATGCAAAAAGATCTATCTCCCCATGACTAAGCAAGAAATGGAAAGATCTCAAGGGACCCATTGCTTGAAATG GAGAATTCTCCAAAACTAGTAGAGCTCCAAAACTTCTTTTGCAGTCCAAAACTTCCCAAAATGGCTGATTTTCATGAAAA TCATGCAAACTAGGGTTGTCTAAGTTTCGGGCCAACAATGTCGGTTTCGTCAGGTGAAAAATGCCAAACCACCCGACCCA CCACTGACTATTTAGAGGTTGCGGTTTGATCAGGCTTGGTTAGTGCGGTGGCAGTTTGGATCTGTCAGTTCTCCCGGTTA TTGATCCAGAAAAGAAAATCGAGAAGATTCAAAGACAAGAAAGAACCTTTTCAAAGATGCAGTCATTTTGACAAAAACCG TTTCATAGATCCAAAAATTTGAACATAACAAGACAATATTACAACTTACAATGATCAAGAAATGAAGAGATCAGGGTATG AAACAAGAGAAAAATAAAAACTTGGGTTGAAGATGGCTTGATCGGAGGCGAGGATGAAGACGTTATTCGATCTCAAATGT CATGCAACAACAAGAGGCTAATCTCTGTGGCGCTTAGGATGGCTTTCTTCGATCTCGCACCACCAAAACCAGAATCGCGG TTGATAAGAGGAGTGAGACTGTGAGAGGTCCTTGGTGGAGAACAAGGAGAAGAGAAAATGATAGCTCTTGATGTTATGGC AGCTAGGGTTCGCTATGGCCCTTCAATCTCGCACCACCAAAAGTAGAATCGTGGTTATTCGGAGAAGTGAGGTTATGAGA GGATCTTGGTCGAGAACAATGAGAAGAGAAAAGGATGGCCTTTGATGCTGCGACGGCTAGGCTTTGTAAAGGTTGGGGAA GGGAGAAGAAACATGGATTGGTGGTGATGGTGGGCTGGTGGCAGCGGCTAAGATTTGCTGGGAAGGGGAAGGGAGAGAAG GGGCAGCAGAGTCTGAGAGAAGAGGAAGGTTTTTTCTTCTGTGGTGCAAGAGGAAGGTGCTCTATCTAGGGTTTGAAATG GGTGTGTTTATTGGCCTATTCTCCTGACATAATAATGGGCATGTCCCATTTTTTCAATCTTGTTCAGTCGGTTCAGAGCC CAAACCAAACTTGGTCGAACCAAACCACATAAAACCGGTTTTGTGCACCCGCCCAACCTGAAAACTGACTTGGTTCGACT GCTTGTTCCAGTCGGACTGGGTCAATTTGGACAGCCCTAGTGCAAACCCTCACTAATTGGGTTTTAACAACAATGCTGCA ACATTGATAACTTTCCAGCATTGCATAACGCTCCAGCAATGTAAATTTGTAAGTGTTTTGACATTGCTTAATGATCATAT GTCCATTGGTTGCCCTATTATAGCGTTTGTTTCCCCACATCAAAAAATTAAATATACCAAAACATTCTAGAAAATGGAAA ATGATTAAACTACCTAAAAATGAAAATAAAGTGATAAAATGACCTAAAAGATGTACCAAAGTATGCTAAAAACTAGTAAA ATTCCTTAAATATCCAAAAGTCAAAACACCTCTATACTAAGATAATTGCTTGTCCTCAAGCATAGAAGAATCCCCCATGT AAGATGAAAACCATCATTTCAAAACATGCATGAAGCAAGTAAAGTCAAGTGTATTGTGAGGTACCAATCTAGGAGAAAGA TTGGATTCTAGTAAGTGAAAGTAGAAATTGACGTAAAACTTAGGATAAGAGACTTTTGCAAGCTTCCTTGATTTCCTAAC CTCATATTGAGAATCCATTAATCACAACTTAAGGGCTTATTGTGTGAGCATTTTTTAGATTTTTGAGTTGTTGGGGTATA TGATAATGTGGTAAACATGCCTTACTCTCTTCCAAACTCTAACACTTTAGATTGATTGGTAGATATAGTGGTTAATTTAG GACCCTCACTCTCTTACTCGGCTCAAACTTAGTGAATAAGGAAATGAAATGATTAAGGGTATATAGTAATGTTGTAAGCA TGTCCTACTCCCTTACTAACTTCATCTCTTTATTGACTTTTTTGTCAAATGCTCTTTTATTAACCTTCTTAGCCATAGAG GGTAGACCACAATGAAAGAATTTAAAAAAAAAAACTAGATATTTCACATTCCCCACAATCCTCATAAATAATTCAATAAT CTCAACATAGGTTTCCCAAGTATCACTCAACTCATTTTTTCCAATATTTTAAAATTCCTATACTAACCTACTTAAGTCAT GCATCGATGGGAATGGATACCGATAACCACCATGTCTGAAGTTTTCACTCAGGGTGGAAAATCCATCTAGGCCAGAAGAT AACACTTAAGGGCAATAATGGCGGTAGAAGTTTCTTGCAAGCCAGGCGGGAAACACTAACACCCAATGATAACCTTCACA GAAGAAGATTTTAAGGGAATAAGAGATGGATATATGGATGATCCCATGGTTGTCTTGGAAACCATTTTGCAACATAAGAT AAGTGCATCCTTATAGATTTGGAAAGCTCATCCAACATCCTATTTCGAGACGTTTTCAAGTGAATGAAGTTTGCAAGTGA CTCTATAAAGCCAAAATATGGCCGAGTTTTGGGATTTACTGATTAACGTTTGGTACTTCTTATGATTTTATTATTGGAGG TCCAACCTTAATAAAATCAAAGTTTTTGTCTCAACTCTCCCCCTGACAATGAAATTCTCAATCGACGGGGATGGGTCAGT GTTGTAACACTCAATCAAGCCTTAGCCAAAAGAAGCTACCACAACATATTGAGGCACTCGAAGAAGACCGCATAGGAAAA ACAAATTGAAGTTCATCTTTTAACTACAAAACCTCCGAAGAGAGGACCTATACTAAGAGGAGTGTAGGATATGAAGAGGG ATAGCATTCCTCTGGAACCTAAAATTTAAGTCATTGTTGTAATTTTTATTTTATTTTATATGTACTATGTAAAGGGTATT CTTTCTCTAGCAGTAACCGACCTTGCAGGGTTTTGATGTGGCTTTTATGAATGAAAAAGGATATTTAGAAGAACTTATCT CTTTTTACGAAAAAGACCGGGAAAACCTGAGATACTCTAAGAAGCCCTAAACATAGGCAAAAGAAATTTCAAACCAAGTT CTCACTTGGACTCAATCAAGCACTATGCTGGAAAATGTAGTGAACATGACTGAGAAACCCTTAGATAATCTAAAATTCTA TAAAATTAGGCAAACTAAAGTTTAAGAACAAGTTCTCGCTTGAACTCACAAAAGCCTCGCATTGGGAAATCTAATGAACA AGATTGAGGAACATCAAAAACTCTAAGAAACCTTGAAATTAGGTTGAAAAAAGTTCAAGAACAATGTCTCACTTGAATTC ATCCAAGCTTCATCTTGGGAAATCTAATGTACAAGAGCGGACAAACACTCATAAACCCCCAAGCATGGGTTCACCCCTAA ATCAACTCTCACATGGGTTCACCCAAGCCTTGCGCTAGGAAATATAGTAAACAAGACCAAACAGTATCATATACTCAAAA GAAGCCTTAAACTTAGAAAAAATAAAGGTCAAGATCAAGTTCATACTTGGATTCACCCAAGCATCGTGCTGGGAAATCCA ATGAACAAGATCGAGCAACCCTGTAATACTCTACAAAATCTTAAACTTAGGAAAAATAAAGTTCAAGACCAAGTTCTCAC TTGGATTCACCAAAGCCTCGTGTTGGGAAAACTAATGAACAAGACTGAGCAACCCTCAGATACTCTAAAGTCTAACCAAC CGTCAACTCGAGAAAAAAATTTCAAGACCAACTTCTCACTTGGATTCACCTAAGCCCAGTGTTGGGAAATCTCAAGACTG AGAAACCCTTGGATACTCTACAAAACCCTAAATTTAGGCAAAATATAATTCAAGACCAAGTTCTCACTTGGATTCACTCA AGCCCCACGCTAGGATACATGATGGACAAGACCAAGAAACCCTCAAATACTCTAAAAATCCCTAAAATTACGCAAAATAA AGTTCAAGATCAGGTTCTCACTTGGATGCACTCTAGCCACATGCTAGTAAATCGAATGAATAAGATCGAGCCACCCTCAA ATACTCTAAAAAGCCCTAAATATAAGAAAAATAAAGTTAAAGACCAAGTTCTCACTTGGATTCATCTAAGTCTGTGGTAT GAAATCTAATTAACACGAACGAGCAACCCTCAGATTCTTTAAAAAGTCTTACACTTCAGCAAAATTAAGTTTAAAGACCA AGTTCTCACTTTGGTTCACCACAAGCCCCACGCTAGGAAATGTAATGAACAAGACCGACCTCCCATCAAGGCAAATTATA TTGGAAGCAAAGGGTTTTCACACAACTTAATTAGGACTTCCACACAAATTTATAGGATTTTCACACAATTTATCCGGTGA TTCAAAGGGTTTTATAGAATCATATAGCATTTCAAGGGTGTTAGGGTTAAAGAAGAATGTAATATAGAGTAGGAGAACAA TAGACGAAATGAGAGAAAGAGTATAAGAGATAGAGAGAGTCGAAAACACTTATTCACATCAACTATGTCAAAGGTGTTAT ACAGACTAAGTTCAGTTACCGGGGGGAAGGGTAGCTCACTTGGTGAGTTAGGGGAAATGAAGGGATTTGCAGTGTGAAGG ACCCTGGTAAAGAAACTAATTTACTAACAACAACTAACATTTACCTATAATAAAAAGTTACCCAGTTATTGTCGTTCAGT TATTCTAACTATTGTTAACTAACTATCCAACTAACCCAATATAATGTGCATCAAAGGGTATTTAATTTCTATCTGTATAA ACAAATACATGCAAGATGTGAATATGAGAGAGAATTTGTTAGTTTGAATTCTATTGATCCTCTATTAAAACCTCACTTTA TTTTGTTATCTTAGAATCCAGAAGGCTGAATATAGTTTCCTGATATATATTGCAGAATTTGAAGCTAGAAACAGCAAGCT TGATGAAGAAGATTGAGCTCCTTGAAGCTTCAAAAAGGTTCAAGATCTTAAATTTCTCTTCATCTTCACAAATTGTTTAC ATTCAATATTGAATTTCACTCACACCAAGGAAATATGTTGCATGTGTATTGTCATCCCCTTAGGGCACTTTTGGGAGAGG GCTTGGGGTCATGCTCCTTAGAAGAACTGCAACAGATAGAACAACAGTTAGAAAAGAGTGTAAACACTGTCCGTTCAAAA AAGGTTAGCTTAACAAACCTACAGATTTTTTTACTTCTAAATTCTAATATTTTGATTTTGATGTGTATTTGAATTTTGAC TTTCTGTGATTCAGAGTCAGGTTTACAATGAACAAATTGAGCAACTAAAAGAGAAGGTAAGTTGTCCATACTCCATGTAG TTGACAAGGTGATTAAATTTGAATGTCATCTTGCATTTGCCTTTGTAAAATACCAAAGTGATAGGAATCTGGAAATGTTT GTTTGAATATCTGTGGGCACCAGTATAAATGAATATTAGCACTCAATTCGAGATTGAAAAAAGTTACCATAACTCTTTTT CGGGAATGGGATAAAAGTTTGTTTAGGGTACACTCAATTGATATCTAAACAGACGCGTGAAATGGAACTTGACTATGCAT GAAGTATTTGATTCCTGACTTGATCCAATGAACCTCATTTTCCATATTTAGTTTAGTCTACCTTTTCTAATCCAGGTCTT TGGCCCCTTTTGTAACCCCAAAATCAGAAACTACAAAGAGAGGGGAAAAACAAACTTCTTAACCTTTTCAAATTCATGCT ACATGCACATAAGTCAAATGCCAACAGGGTATAACTACATATATGGATTTCTGTGTGTCTGCATCTCATTAAAGCTGACT TAATTTCAACTACTTTCTTTTAAATTTAGATGCAGATGCGATATAAGACTCAACTATCATGTGAAACTGTTGTTTATCCA GCATTACTCCACATTTGAGATTTTGTGCTTGAATATACTTTTGTATCATCCTGAGTTCATGATTCAGGTCCCAGAAAAAG ATTCTTCAAGGTTCTTTTTCTGGGGTAGAGAAAGTGAAGGTTTTATTTAATAATTTGAAAAAAAATAAAATCTCAGCTAA ATTACACTGAAGAGATTCTAACTACTGTTTTTTAATACAATTCAGGAAAAAGTCCTACTTGCTGAAAATGCCAGACTCAC TGAGCAGGTGAAATTACACTATAGTTATTGCTGTCTAGTATATATTTTTGCGGATTTTGTTGTATTATTTTCGGTTTGTG CTGGTTCTGAACCGAGGACCTGATGGTTGGGTAAGGTTCACTAAACCAACAAACCACTCAGGAAACCAGTTTTCTTGAAT GCTTGTTGTTTGTTCTGGATTTTAGAAAGTCCTTCAATTAGACTAAATATGTATTTTTAACTGAACTTCCCTTGCAGTAT GGTAGCCAGCCACAGCCAGCAACAAATGAACAGAGGGAAAATCAATCCTATGCTGAAAGCAGTCCAAGTTCAGATGTAGA AACTGAATTGTTCATTGGACTACATAGGTCTAGTTTAAGATGATTCAATTTATCCTTTGCTTATGCAAGTATAAAATAAG TTCAAGCCAATGTCTCTAATATATGATATCAGGTATATTTTTCTTAATGATCTATGTCCTATGATGAATAATATTGAGGC CTATATTACATTATGAACTTTCATTAGTCGTATGGCTAGGGTTTAATATAAACGTCTTTCCTCTGAACTCAGCTTTTTTA GTTACATGTCAGAAACTTTTGCATGCTGGTGAGTTTAAGGCTTTTTTTTCTGAATGGCGTGAAAGAAAATATTAATTGGA GAAAGGGGGTGAAAAAAAACAAAATTAGCTGTCTGGGGTAGTAGATATCTTAGAGGCACATGTGATCCCGTCATTACAAT TTGCCCTGTTGTCGAACTCTGACGCGTCAGCCAACGAATGGAATGTTGGGCGTACCACTTCATGTAACGGTCGTTAGGGC CAGCTAACGTATTAACCACGGGTTGCTGAACTATCCTTTGGTGTCTTTGCCCCCACACCTGTATAAAGGGCATCATGGCT GTAACCCAATCTTCCTGTTCCTTCCCCGCCAAAGTTATGTCATGCAGTTTATCAATTTGATATGGTGGGTCAGGTACCCC CTGAAACATGCCAAACTGTTGCAAGACTCTATCCGGTTGGTGCCACTCAACAAAGGTGTAGCATATCATTGGCACAACTG ATCTCCACAAGTGCATACTTTGCCAACACCGTTCCGGTAGCGAATTTATAACATGATCTGGGTATGGCCTCCAGACAAAC TACACATCCAAATTAGACGAAAAAAATTAAGAACATAAACATAAAATGATTGAGACAAGATATCAAAATAATATAATATT AGCGTAATATAATATTAGCATAACTAACTTACGTCTTCAGCTCTCAGTTCGTCGAGCTTGATCCGCCACAAATCAATTTG ATTCGTTTGACGACCAACGTCAACACGATTTGGGTTTCTTCCCCACCTGAAATAAAATTTAGGGTAAATTATTAACGGCT TATTTTGTCGCATTTATGTGAACAAATAAATATAACTTCTTGTAAATTACGTGCATACCTTCCTGCGATGGGGCAGCCGA TTTGCAATATCGGTATGATTTCAGGGGCAGTCATTGGAATCCTTTCCCAAGCCCAGATTTGGAGCAAATAAGTACAACCA CCGATTTCTTGTCGTTCATAACCGGTTGCATGGCATAACTCATGATAGAGAGTTGCAAGCACAGCCGAACCCCAACTGTA CGTGGAGGCCAGAGCTAAATTCTCTATTAGTAGTAGATATCTTAGAGGCACATGTGATCCCGAGTGGTCGGGTAATAAGA AAGTGCCAATCAAGCGCAAAATGAATGCTCTTGCAGCAAATTCAGCTTCTGCCGGCCCAAGTGCACCTAGGTTTTGAAAA TCAAAACACTGGTTTAACCATCTCATGTTTAAACAACTTCCTCTAATAGCACGTCGCGGTGGAGTGACTCCTAGCGCACG AGTAACGAGATCAGACCAGTCACACCATGTCACCCCGGTAACAGGTTGCCCATCAATATTTAGTCCCAGCTGAACGGCAA CATCTTGAAGAGTGATGGTGCACTCTCCAAACGGCATATGAAAGGTGTGCGTCTCGGGCCGCCAACGCTCCACCAATGCG GATATCAACACTTTGTCTTGTTTGAGAGAACCACATAGAGCGACCTCGTAAAATCCGGCCAATCGAACGTATTGTTCGAT TTGTGGAGGGACACCATCCAAAGGAATGTGGGGTAATCTCAGCTTCAAGACTTTCTTACTTGTTTGGTTCCAAACATATC CCGACACATGTTTGTTTTGTTTCACCAACAACGTCGGATTTTTTGGACCGAGACTTAGCACTGCTTCATCCGCCATTTAC AAAACCTTCATGAAGTAATAACATGCAACCGAAAATTAGGCATCAAAGAAAGTTTGAGACTCAAAAACAAATGATAAACT ATAATATTTGAAAGGTTAGAATGAGAGATAGAGTTAGAAATAATTACCAACAATATAGAGACTTTTACACTTGAGAGAGT TTAAGGGTAGGTAGAGCTTGAGAGGTATCAAACTTATCACTTGAGAGTTCAGAAATGAGGCTTGAAAGTTGAGAATTGAG AGAGTTGGAGAGGTGAAGTTGAGAAATGAGGCTTGAAAGAAATGAGGCTTCAACATTTCTGGGGGTCTTTTTATAGGGGT TTCAGACCGCCAGAAATGCAGAACATAGCCAACAAGCCATTCGCGAGGTCAAGTGCGAATGCCTGTGCATGCTTTGATCG TGGCCGACAAGCTATTCGCGTGGCAGGCTACGAAAGCCTCTGCATGCCTCTGCATGCCTGCAAGCTCTGCTACGTCCCAT CCAATGACAGCCATTCGCGAGCTTTGTTGCGAATGCCCCTTGTTCCTCAGTCAAACTGCATCGGGAAGGAGGAGAATCTC TCCTGGTGCACCTGATTCTCCTTGTCTTATTAGGATTCGCAAGGTTTCCTACGAATGGTACCTGGTCAACCTGACTTCAT GTCATTCAGTTCTGGAAAAGTTGTTTGTCCTATTAGGATTCGCATGGAATCTCTCGAATGCTAAAAGAAAACTACCCCAG ACAGCTAATTTTGTTTTTTTTCACCCTCTTTCTCCAATTAATATTTTCTTTCACGCCATTCAGAAAAAAAAGCCTGAGTT TAACAAATGGAAAAAATAGTTAGACACCTTAATTATACCCACACTCAAAGAGATACGGGAATTAAAAAACTTTTTTTCAG GA
CDS sequence (LotjaGi1g1v0466600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTGAGAGGAAAGACTCAGATGAAGCGCATAGAGAACGCCACAAGCAGGCAAGTGACCTTCTCAAAGCGGCGTAGCGG GCTTCTGAAGAAGGCCTTTGAGCTTTCTGTGCTTTGTGAGGCTGAGGTAGCTCTCATCATCTTCTCTCCAAGAGGAAAGC TTTATGAATTTGCAAGCTCCAGCATGCTGGAGACAATTGAACGCTACCGCAGGCATACCAGGAGTGCCCAACCAGTACCA AGAACAGATGAACAAAATATGCAGAATTTGAAGCTAGAAACAGCAAGCTTGATGAAGAAGATTGAGCTCCTTGAAGCTTC AAAAAGGGCACTTTTGGGAGAGGGCTTGGGGTCATGCTCCTTAGAAGAACTGCAACAGATAGAACAACAGTTAGAAAAGA GTGTAAACACTGTCCGTTCAAAAAAGAGTCAGGTTTACAATGAACAAATTGAGCAACTAAAAGAGAAGGAAAAAGTCCTA CTTGCTGAAAATGCCAGACTCACTGAGCAGTATGGTAGCCAGCCACAGCCAGCAACAAATGAACAGAGGGAAAATCAATC CTATGCTGAAAGCAGTCCAAGTTCAGATGTAGAAACTGAATTGTTCATTGGACTACATAGGTCTAGTTTAAGATGA
Protein sequence (LotjaGi1g1v0466600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVRGKTQMKRIENATSRQVTFSKRRSGLLKKAFELSVLCEAEVALIIFSPRGKLYEFASSSMLETIERYRRHTRSAQPVP RTDEQNMQNLKLETASLMKKIELLEASKRALLGEGLGSCSLEELQQIEQQLEKSVNTVRSKKSQVYNEQIEQLKEKEKVL LAENARLTEQYGSQPQPATNEQRENQSYAESSPSSDVETELFIGLHRSSLR
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 |
---|---|---|---|---|---|---|
SMART | 1 | 60 | 60 | 8.7E-40 | ||
ProSiteProfiles | 1 | 61 | 61 | 31.286 | ||
PANTHER | 2 | 188 | 187 | 1.6E-87 | – | |
PANTHER | 2 | 188 | 187 | 1.6E-87 | – | |
SUPERFAMILY | 3 | 82 | 80 | 4.19E-32 | ||
CDD | 3 | 77 | 75 | 6.68354E-42 | ||
ProSitePatterns | 3 | 57 | 55 | - | ||
PRINTS | 3 | 23 | 21 | 4.0E-30 | ||
Pfam | 10 | 57 | 48 | 1.5E-25 | ||
Gene3D | 13 | 101 | 89 | 2.4E-29 | ||
PRINTS | 23 | 38 | 16 | 4.0E-30 | ||
PRINTS | 38 | 59 | 22 | 4.0E-30 | ||
Pfam | 83 | 170 | 88 | 2.0E-26 | ||
Coils | 87 | 107 | 21 | - | – | |
ProSiteProfiles | 87 | 177 | 91 | 15.103 | ||
Coils | 121 | 170 | 50 | - | – | |
MobiDBLite | 168 | 198 | 31 | - | – | |
MobiDBLite | 168 | 199 | 32 | - | – |
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 | RNA polymerase II regulatory region sequence-specific DNA binding | Interacting selectively and non-covalently with a specific sequence of DNA that is part of a regulatory region that controls the transcription of a gene or cistron by RNA polymerase II. | ||
Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | DNA-binding transcription factor activity | A protein or a member of a complex that interacts selectively and non-covalently with a specific DNA sequence (sometimes referred to as a motif) within the regulatory region of a gene to modulate transcription. Regulatory regions include promoters (proximal and distal) and enhancers. Genes are transcriptional units, and include bacterial operons. | ||
Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Biological process | Positive regulation of transcription by RNA polymerase II | Any process that activates or increases the frequency, rate or extent of transcription from an RNA polymerase II promoter. | ||
Molecular function | Protein dimerization activity | The formation of a protein dimer, a macromolecular structure consists of two noncovalently associated identical or nonidentical subunits. |
Expression pattern of LotjaGi1g1v0466600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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