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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0205100 |
Transcript ID | LotjaGi1g1v0205100.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Transcription factor; TAIR: AT5G03415.1 Transcription factor DP; Swiss-Prot: sp|Q9FNY2|DPB_ARATH Transcription factor-like protein DPB; TrEMBL-Plants: tr|A0A151SD62|A0A151SD62_CAJCA Transcription factor Dp-1; Found in the gene: LotjaGi1g1v0205100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:44319380..44333436) extracted from Lotus japonicus Gifu genome v1.2.
CCCAATAAAAACCCCCAAATTCAGAATAGAAATCCTAAAATTTCACCCGATCTCCTTCCCATAGCTGCTGCCCCATCCAC CTCCGACCACCGCTCCGCCCATTCCCGGTTACCTGCGGCCGCGCGACCACCGGCGACTACCCTCACGGCCACCGGCGACC ACTCCGGTCTCTGCTCCATCCAAGCTCTTAGGTAAATTTTCTCTGCAATTTTTTCGTTTTTCCACTCTGGTTCTGCGTCC TCTCACGGTTTCTTAGTTTTCCTCTCTCTAATCTCCCAAAGGCTTGTTTCTTCTCCTCAGTTGTTACAACTTACAAGTTA CAACCTTCTGTTCCTTCTCCTTTCTCCTCTGTCACTGTTTGCTTAAATCTTTGTTTTCTTTCCCCTTTTTAGTGCTGGTG GGCGTTCCTCTGTTTTGCAATGGCAAGTGGCATTGACACTCAACTTTCTACTCTTTAGACTTTATTTTTCATGTCAATTA AAACATGAGGTCTTGAATTTGTCATGATGTTTTGGTAATTGGTATGTAATAGTCTCAATGGGAGTATGAGACTTAATATC TATCTAGTATAAAGTATCTATTGAACCTTTGTTATGATATTTGCTATTGTATCTATGATGTTGAGCCTATATTTGATGAT ATAAGTTGTTATTAGTTAGCAGAATTTTTTGTTTGTTGTGTTGTATAATTGCATTATGCAGGTTTTTAATGTGTGTATGT ATAATTGTATATATATATTATAGATATATAATATATATATTAATTTTTTTTCTTAAGGCCGCCATGGCACCGCCGTGGCA TCTGCCATAATTATATGGCGGTATTTTGGCTTTCCACCATGGATCGCCATCCGTCATTGATAACACTGATTGGAACATCA CTCCTGTATCCTAGCCTCTGATTACAATATTTGAATCACACCACGGAGAGCGGTATATAGTATAGGTTCATCAGTATAAT ATCTGTGTTGTGTGATTGGTACTGGAAATTGTTAATTTGGAGCTACCTGGTATGAATTGGAGTCTACAGGAGTCTTGTAG ACTCCATGTTCCTGAGTTACTGTTTGTTTGTCTAAGTAAGTTATGGTTCTAATTTTTGCTGTACACAAATTTAGTTAAAT CACGATGCAGTAGAAAATGGCAGTAGAAAGTCTAACCCATGACCTAATTTTGGTTCTTCTTAAAAAAATAAAAAATAAAA GTCCTGCTCAACACAAGTCATAACCTAGACCGAGCGTGCTCATCATATTTTAGATACTATTCATCTACACGGAAAATCTC TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCACTTCTTCATCTTAGGACCAAACTGAACTGCACAATGTTTTTT GTGAGTGTTTGTAGCTTTATTTATCTGTATATCGGCTTGGCATTGCTTTGGTGGTTGATAGCACGTGCATATATATATTG TTTTCTTGATTTTTTTTTGAATAATGCTTTTGTCTTTTTAAATTTCGTTGATTTCGTAATTTCTCCTCTTCCCAAATGAT GATTGAAAATTACAGAAAAAACTATTATTATGGGAGTCTGGGGAGGTTAGCAGCTGGTGGAACATGTGTGTTTGGAGTTT GTGCTGTCTTTAATTTTATGCATATTTTTTATTCGTACTTTTTGTTATTATTATATGTTATCTTATGTTGATATTGACAG CACTAATGGTTTATTCATTTACTTGATATTGAACAGGGAATCTTTAGGGATATCTCAACGCTTCTGTTCAATTGAATTCA GTTTCTATCATATTAGTATCTAGTACCAAGCCCGAAGGTAAAGAACGTACCAATGGGAACACAACCCCAGCAAACATGTC CAGAAGAAGAGGAGGAGGAGCTGCCAGGTCGTGGAGCTACATTTTCTGGTCAATCAATGTCAACAAGCAGAAGTGTTGGC TCACCATCCAGCCGGAGTGAACAGACAATGGCAACACCAGCTAGTGAGAGCACTTTTCTTAGATTAAACCATCTTGACAT ACATGGCGGTGACGATGTTGGAACACAGGGTGCAGTTGGGTGAGTTCTCTATTACACTTGGATCTTGTGCTAATTCATAT GATGCGGATGCTGTTTAACTTTCAGCTTTTCTCTTTAGGTTGATGGCAATTGGATGATTTCCTGTGATATATTATTTTAA ATGAACATTGATTTGGGTTCCTTTTATATTTTTTAACAAAAAGTTATTATTTAGTTATTAAGATGTTTTATTCAAGATCA GATTAGTAAAGTAAGAAATCTCAAGAGGCACAATCACTGGGCCGGTATCTAATGTTCCTGTTTCTAGTTTACAAATCAGG ATTGCAACCTCTGTGTGATAGCAATCTTAATGGTAAATATTCAGCTGGTCTTCTTTTATGCCCTGATCATTTCTTTTGAA TCTTTCATTTTTCAAGTGAATATTGTTGGAACAGTATCCTGGGTTCTTAATGATTTCTTTGTCTTTGTGTCTATCTCTTC ACTGACAAGATTTCTTTTGGGTATGTGCAGTGTGCTTGTGAAATCATCTGAGTGTCTTGTTTGTTAGTTATATAGAGGAT ATAGTGCTTTTGTGCTTAGTATAGTTAAAAAAAATTTGGTTTTTCTTTTTTTGGATTTTGGAAGGAAGGAATTATTTTTC TTTTTTCTTTTTTCTTATTCTCATTCTTACATCTTTCATTTATTAGGTTGTGCAAAAATACTTAGGTTTTGGATGAAATA TTGGGCATGAAATGCTATCTATGACTTGCTAGTGTCAAGTATCTGCTTGCTGTTTCTCAATTCCTTTAAATGCTGTTTTT TATTTTCTTTTTGTTGACTCTTACCATTGTGACTTTTAAAACAGTAGCAACAAAAAAAAGAGAGGCCAACGTGCTGTTGG AGGTGATAAGAGTGGAAGAGGGCTACGCCAATTTAGTATGAAAGGTATTCCAATTTGATCAGTTTGTTCTTTAATGAAAA AGTTCATTGATGTTTTATCTTACTGGCCTTTTTTCTCACTTATTGTTGGTTTGTCTCCAGTGTGTGAGAAGGTAGAAAGC AAGGGAAGAACAACTTACAATGAGGTTAGGCAGTTACTTTAAGTCAGTTTTTGCTAAAGTGAAATAAAATTTTGGCTTTG GTTTTATATAATTTAGTATATGCACATAAATGTATTTCTATGTCATAACGTCTCTGTTTTTAAATTAATTTTCAATATAT TTTTTTCTCAATATGTTTTTCATTTTGCTGTACATGTTTGAAGTTCTATCTGTACGGTACTAAATTGACAATATTTTGCA TTGAAGAGCATACTTTTACATTTGAAAAGGAAACACACTTAGAATTTCCTGTTTTCATATTCGTTTCAATCTATTATTCA TATTTTCTTCTTTATCAGGCATAACCATTATCCATAAGAGTTGCATCCTCTGATTTGTTAGATGCCTATAAGATGTTTTT ATTTGGGAATTCTTCAAGAACTAGTGTTAGGATTGGTAAATCCTAACAGCCAAACAGTAGACGAATAAGGATAAAAGAGT AATTTGGTTTGGTAATTTTTTGAATAAGAAGCTGATATTATTTAAAATAAAAAAGACACAAGAAGGAGAACCTTCTTAAA AAGGTGAAAACCCTTCCAATCCCTTTACAACTCAATTACTCAAATCATGACTCTAACCTAAGGAGGGAGGAGGGTACTCC TATTTATAATAACTAATCCTAATAAACTTAACCCCTAAGAAATAGAAAAGATCGACTAACAAAAATAAAAGATAATTCCT AAATTAAAAGACACTCTTAATCTAAAAGATAACCCAACCAAAATAAAAGATCTACTCCTAAAATAAAATATAAACTCCTA AAATAAACTAAACCTAGATATTTAGAATCCTAACATACAGTCTTGAATCTGCCTGCTTTCTTTCCCTTTCATTTCTTCTG TTTTTGGTGTTAAAGGGAGGTCTATATTTTGAGGAGTTAATACAATTTGAGAGGAAGAGACATGGTGATGTAATTTGAGG GAGATGTTATCTTCTCATGATTGTTTTAACTTTTAATATTGATTAGATTTCTCAAAAATTGCAAGTACTGAATTCGTGGT ACTTTCACTACTTTTGGGAAATGCATAGGCACATAAGTGAATGCCACATTAAGAAAAAGGACCAGCCTGATACTGTTGTA ATAGATTCATTAGATTGGAGGGATAATATGGCATTGGATTGATGAGGTAGTTAGACGTTCAAACTATGTAGGTTAAGAGC TGAGGTTGTGGTCATGTTATATCACATCCTACATAGTTTCATTTCCATAAACTTTCATATGGGCTCTAGAAAGTGAACAT TATCTGTTATCATTTCCACCATCTATATCATTTTAACTCTTGCTCTTTCCTATGGTTGGACATTACAACAACTTGATGTT GACAATGCTTTGCTGAATGGTCTGTTAGAAGAAGAGGTATATTTATCCCAAGCTCTAGGATTTGAATCTTCTCTTCTGAC AAAACACTGGTCTGCAGATTGCACAAGACACTTTATGGTCACAAATAAGAGCATCCACAATGGCAATTGCTTATATGGGT TGCTTAATACTATTTATGTGGGTCCAAAATGCCATAGTATTTAAGCAATCCATAAGCACCTCATGCACATTTTACTCCAA TGATGGTTTCTTATTTTTCCCATAAGCAACTCATATTTTTTATTTGCACTTAATTTAGGAGAGAGAATGAATTGTCAATG CAAGAGAGAGAAACAATATTATTTTAATCATAAGGCATGGTTGCTTGTAGAAGCACCAAACCTTTTTTTTAAGCTCTTTG GAGTGCCACCTAGACTTGCTCCAATGGTGAAAGTAAAAGAAGGTATGGTTGTGATAGGATAAAGAGAGTAAGAAAGGGAA ATGGATATTATTGTTGAAGTAGAGATGAAGAATCTCTACAGAAATATTTTACACAGCAGGAATTCGAGAGTTGCCTGCAT CTCTCCTTAACAACCAGTTACTAAACTTCTGAATGATCCTTCATAAGGTACAAACGGCGCCAAATGTTCCGGTATAGAAC ATTGCTAGGCAAGGTAGTACCTAGAGGGAGGGGTGAATGCCTTAAAGGGAGAAGAAAGAGGAGAGGTTATCATCACTGAA TTTCACTTGTTTATTGAGGAAAATGAATTAAAAGCCCTTACAACAGATAACCGCTACCTATTTATAGTGTGTGGGGGGTA TGGGCCCTGCGCAACTAACTTGCCTTGGATGGGCCACTTGGGCCGCACCCAGGCCCTACGTAGAGGCCAAACGCCCCGCC ACATGGCGGGCTGCCCCAGGGCGTTGCCCCTATAGGGGCTCGCCCGGTCCATAACCATTCCTAATCCGTTTATTAAAATA TAACTGCTATAAGACAGCAAACACAACTGACTACTAATTATTAACTTCCCAATTGCCACAAAACTAATTACTAACTATTA ACTTCCCAACTGCCTGGTAACTACCCTATCAGGTTGCTTAGTGATAAGATACTCATAATAATCCCATTGTGGATGCTCTA AACTCCTAAATCTTGGTTTGACAGACCTAGCGACTCTTCTTCAATTTGGGTTCACCTCAAGCAAATGGGACCCTCCATTG TTCATCTACTCATCTAATAGTGCTGTTTATATTCCTGTTTTTATGGATGACATAATTGTAAGAGGAAATTCTGCAGCTCT CACTGACAAGTTTACTAATCAGTTAAATTCAGTTCTTGCTCTTAAACAATTGGCATTTTGAGTTATTTTCTGGGCATTGA AGTCAAGCCTGTTTCTAAGACTTCTGTTCTTCATACACAAAGCAAGTATATTCAAGCCATTCTTGCTAAGAATAACTTGA CTTATTGCAAGCATATATCTTCTCCTATGGCTAGTTCTACAAAACTGTCTAAGACTGATGTGATTATTTATTTTCCTTTT TTATCCTTCTCTATACCAATCTAAAGTGGGTGTTCTTCAAGATCTTGCAATAACTAAATCAGCTATTCAGAGTTTACTAA GCAAAGCGAAAAAAAAAATACTGACATATCTAAAAGAATCTATTCCTTAGACTAGCCATTCTTTCTTGGTTATTGTGATG CTAATGGGGCAAATGATTTTGATGATGGTTTCTCCACTTTAGGAATGTCTTTTGCTTGGACCAAATCTGATCTCCTGGTG GTCTAGAAATCAGCAGGTTGTGGCACGCAGCAGTACTGAGGCAGAGTTCCCAGCTTGCGGCAGGCATTCTTTGGATTTAA TCTCTGCTATAGGAGTTTAAGAGTTACTCAAATGGCTAACATCCTTTTGTGACAACCATCACCATTGTAGTCAAAATCGG GATTACGACCAAAATTGGGGAGGGTTGTAAATCGTAAATCGCTAAATCCAACAGAGTTCATAGGAATGTCATACATAAGT CATAAAGTACTAAATCAAAACACCATACAACTTATAAAGCATAAAACTCAAACATCGAGTTCTCATCAAAGCATAAAACT TAAACACAGTTAGCGATTTTGGGGCGATTTAGCAAGCGATTTAAATCGCCCAAGGGTTGTAGATCTCTTAGCAGAGTTTT TCTTACTCAAAACCCTGTCCTTCATGCTAGAACAAAGCGTATGAAGCTTGACCTTTTCTTTGTTAGAGAAAAGGTCATTA ACATATTCCTGCTCACTTACAACTAGTTGATGCCTTTACAAAACCTTTCTCATCACCTTAATTCAAGGAATTATTACTTA TTAGTGTATTGCATTTGCACTTGTATATTATTTTTTTAATGTAACTGAGGCAGTTATAGTTAGTTGTGGCTAATTGTATT CAGATACAGTTTTTTAGTTTCTGTTAGTGGTTTTAGTTAGAGTGGCAATTACTCTTGTAACTGAACCACAACTATAAGTA CATTTGTGATGATTTATTCCATATCAATGGAACACGTTCTCATATTTCTGTTCATATCATATCTCAATAAGATCATATGC ATTTTCAGGTCTTTCTTTTAAACTTGTTGCAGAATTTTCCAAGTTTTTTTTTAAATTTGATTTGGATTATGGATGTGATT TATAATCTAGGTAGCAGACGAACTGGTTGCTGAATTTGCTGATCCAAGCAATAGCACTTTATCCCCAGATCAGGTTTACT CTCAGTCTAAGTGATTTCAATACTATCTGCTATTCATAGATTGAGTTGAACTTAAATTTATTGTGGTGAACCTTTCGTAG CAACAATATGATGAGAAAAACATTCGTCGAAGAGTGTATGATGCTTTGAACGTTCTCATGGCGATGGATATTATTTCAAA GGATAAAAAGGAAATACAATGGAAGGGTCTTCCTCGTACTAGTCTGAATGATATTGAAGAACTAAAGGTTTACAAACTAC CTTAAAGTTGTAACTTTTTTGGATCCTAGTGGATTATTCTTTCTCTACTGTGATATTCGTAGCTAATCTGAAAATGCGGT AAATGATCTTATTGTTAAGTATAATTTATTCAACAGACCGAGCGTCTTGGGCTAAGGAATAGAATTGAAAAGAAAAGAGC ATATTTGCAAGAACTGGAGGACCAAGTAAGGACCCTTCACTGTAGCGAATTTTACCTATAAAATATACTCCTGGGCCTGG TTTGCAAGCCCAAGGAATATTACTTTTCCATGTTATATTTGCACTTGGTTAGCAGAAGACCCTAATAAATAATTTTGTTC CTCAATGGCTAGTTTCTTCTTTGTTAACTTCTTGCATTGTGTTATCAAGTACATAGGTCTTCAGAACCTTATACAACGAA ATGAGCAATTATATAGCTCAGGAAATGCTCCCAGCGGTGGTGTATCCCTGCCTTTTATTCTGGTGCAGGTACACTATCAT CTCACTATCTCCTGTTTTCGGTTATAGTTTGTCCACTTGAAATTCATTCTCAATTTTTTCCTTTTGATCTTCAATTTGTA TGACGAATTTATATTTTATTGGTCTCATGTTCGAAGTCCCTAGTAGGATTTACTTAACCAATTGGCTTGAAATTTGAACT GCATATATCTATTATTATGAAATGAGATCCAGCTTCTTAGCTCTAGTTGAGGGTTAGCCTGTAAATGAGGGGGTCTCTAG AGGGTTTGGCAATCTTTATGGATCATTTGGGTTGTGAAATATGGAGAGTGGTTGAGACTCTCGAATATCTCAGCAACATT TGTACGTTACTCAATATTATCAGAGTTCTATCAATTGGCAACAGAGCTCCGATCTTGGAGCTGTGGACAATTGTTTGTGA TGATGATTCAAGAATTTGATGGAAGAGAGGCTTATGGGTGGCTCATTATCGTGGAGCAGCATTGTGAGGCCATGGGAATC TCTGAAGAGAAGAAATTCTCAGAGGCGGAGAAGGCTATGTCACGTGATGCTATCTTTTGGTGGTGTTTCTGGAAAAGACG CAATGAGGAGGTAACATGGTGGGATTTTGTGATGGCATTCCGGAGAGAATTCCAACCTGAATTGGAATCTTACGTGCCAG TACCAGTCCAAGATTCAGGGGAGGAAGAAATCTCCAGAAAGAAAGAAGTCTGGTAGAAGGAACGGAAAACTGATTTGGCG GTACCGCGGTAGCCAAAGCAGAGGCGAATTTAGTGCGGAGAATTCTGAGACGGAGCGAACCGCAGAGGAAGCTTCGCGGA GAAAGGAGGAGGCCGCAAATGCGGCGGAGCAAGCAGCAGTGGAACGCATGTTAGACAGAGAGGCGAGAGAAGAACGAAAC AGAAATCGCAGCCCTCTTCCTGCAGCTGCAGAAGGGTTCATCAATGGAGGAAAGCCAGAAGCAAATCTTTCAAGGGAGGA AGAAGGATGACTCTTTGGTTCTGCCCCAAATAGTTGATTTAGGGTTCGAAAGGGCAAGGCCTCTACGGAAACCACCGAAT TCATTTCTGTGCAAGTCGGTGTTTGCAAAACGGGCAGTGGCTGAACCGTGGACGCTTCTTCCTCAGCGGTTCTGCAGATC GGACTGATATGGATGCTGATTTTAGGCAGATTTGAGTAGTTTGGTTTAATTTAGGATAAATCTATTTTTAATTTTATATC CTTATTAGTTAAGAGTGGATTGCTTTTCTTTATAAGATAAGATAAGATTTAGTTGTTTCTTATCTTATTAGATATAAGAA CTTTTTAATTAGATAGGATTTTATTCTATCATATCTTATAAGATTTAGGATTTGTTTCATAATTGGATAGATTCTAGTTT TCTATTTTCTTGTACTCAACCCTTCTTATAAAAGAGGATTTCAGCATTGAATAAAATCAAGTCAAGTATTTTCTCAAGAA CCGTAACGTTTGAAGATGCTCTATCAAGGACGAGCCGCTTCTTCTTTATTCAGTTTGGGTCGCAAGAAGAATTCTCTTGC GTCTAGACCCATGACCAGATCCTCCGGGAAGGGACATCACATGGACTTAGCCAACCGACAACCTGCAAAACCACCAGACC ACGATGTTCGCGCAGTGGTGACATACGTGGTGGTGACATGCTGTTGTCGCCAGCTTGGAGTGCGTACAAAAGGGAGCAGA GGGAGTTCTCTTTTGCAGTCCCGCAACCACCATACGACCACCGGCAAGGTTCGCGATATTTTTTTTCTGTTGAGAATTAT ATAACACAGGAAAGTGCGCAGAAATGAGTGGGTACCAGCTGACCCGTCTCCAACTCGAATGGGCCAAGCCCAAACCTCTC ATGGAAGGAGTTGGGCCTTGCATGAGATTAGAGCTGACTTGGTCAAGGGATGCAGGACTTGTGTTGGGCCATGTAGTGCA GCATTGGCCCACTATTTTGTGTGAATCTGATTAGTCACATGTTTTTTGTAATTTTTGCCCCTGTTTTCATTTCTTTACCT TGTTTTGACTCCTTAGCCCCTCACCTTGAGGACAAGGTGAATCTTCAGGGGCGGAGTATTAATAGGTAACCGCATTAGTT AGTTAGTAGAGGGTTAGCCTATAAATTAGGGGGTCTTAAGAGTGTTTAGCTATCTTTAGGGATCATTTGGGTTGTAAATT AGGGAGTGTTTGAGACTCTCGAATATCTCAGCAACATTTTACTTTCCTTTCTTAATATTATCAGGGTTCTATCCGTGGGT GAGAGAGTTTTCGTGATTTCATCTGCACATTTAGCTGGAGCTTCTTATAAGAGTGAGGGTGAGAGAGAGAATAACCAGAG TGATTGAGAAACTAAAAATGAATGCTGTCATGGATGTTTTTGCAGTACAATATACACTTAGAGATTACAATCCTTCACTA ACTTCCGTTTGACCACATAATTAACAACATACTAAAAGTAACTCCAACTAACAATGTTGTCATGATCGCGATCCAGATCG TAGGATTGTGCCATCTTGCAATCCCTGGGCAATTGTGTGATCTGGATCGCATGCAGGATCTTGAATCGAAATGGATGCTG GATCACAATCTTTTAGGGAGGATTGTGGGATCCGGAACCAGAGCCTTGAGGTTTGCTTTTGAAGTTGTGATTTAGGGTTT CAGCCTTCCATTTGTGATCATTAATCGCGATTCGCCCAGTGAAACCCTATACTTTGACTCACCTCTGCCCATACAACGTT CCCGCACGAGAGCACCGCCGCTGATGTTCGTCATTCATGCACAAGCAGCGCCGTCAACTTCCGCGCACATGTCACTTCAT CTCAGAGGATCTCTTTTCTGGTTTTTGTACTCCTCTCATCTCTAAAGTATGGGTCATGTGTTTTCCGCTTCTCTCATATG CTTACTTTTTAGGGTTAGGATGGGAGTGGTTGTTCTCTGCCTTTCCAATAAGATCCTACGATCGACGATCTTTTACCTCC CCTTCCGATCCTGAGTAAGATCTCAATCCTGACAACATTGCCAACTAACTTAGGCTAGGATAAGATACAACTGAGTAAAT TGTACTTGCATACCCAATACCCCGTCAAGCTCAACTGTGACGATTTATATCTCTTCTTGTCAAAGAAAAGATCCTTGTCA AGCAGCTCACAGTCCACCCATAGTTATCGATCACGACAAATAGCGGCGCTATCGCGCCGTTGCGTCGTGTCGCGGCACTT CCCCGCGATTCTGAATCGATCGCGTCGCGGAACGCCGTAGCGGCTGTTGCGCCGCGAATCGCGGCCAAATCGTGTTCAAT CGCAGCACATCGCGGTGCTCCAGGTTGAAGATGGGTCTGGTCCAAGGAAAATCCCCAAATTGCCCTCAAAATTTTAAAAT TAGGTTAATATTTGAGGGTACTTTTGGGATTTCGCTCTTATTAAGTGAAACGGTGCGTTTCACTCGCCTTCTTCAACGCA TTCTTCTTTCTACGCATTTCCTCTGCAATCTTCGGTGTCGTTCCTTCAGCTCAGCCACCTTCGACCAGAAGTCCAAAACC CATGGCCACGGCGCAATCTGACAAGCACCCTTCGACCAGAAGTCCAGATTCCAGGCTCCGGCGACCACCACCCCTGTTTC CCTTGGGCCTTTGTTCTGTTCTGAGTTGCTCTGTTTTTTATCTTCTATTTCTCTATTTTTCTTTCCTTTCTTTTCCTTCT TATTTATTATTCTGTTCTCAAACATACTTCTCCAGTTCTTCTCCTCTAGTAGTCCTCTCTTCTCTATCATTTCATCATGT TATGAATTTGAAGTTATATTTATCACTTTTTAGTAATATGTATACATTGATTATATAATATTAAATGTGAAAAATCAAAA TAGCGGTCATCCCGCTATCCGCTATCCCACTTTTGGGGTCGGCTGCTACGCGCAGCGATCTGGGATTGACTACTATGAGT CCACCATATCCATGCTGACAAGGATCTTTTCTTTGACAAGAAGAGATATAAATCGTCACAGTTGAGCCTGACGGGGTATT GGAGTATGCGGGTACAATTTACCCAGTTGTATCTTATCCTAGCCTAAGTTAGTTGGCAATGTTGTCACTTGTCAGGATTG AGATCCTACTCAGGATCTGTTTACAAGGACGTGATTGACATAACTACTAACACAATTGCACACTATATATCACACTACCT GCAAGCTCAAGGAGGGTGTAGTGCAAGTGGATCTAGGAGCTTGGCCCTTATCTCAAGGAAGTGTGTGGGAGTGAGATTTG GTGAGAACATCAACCATTTGAAAGGACGCCAGGATGTGTTGAACTATGAGAGACTTGCTAAGCTGCATGTGCTTGGTACA GGCATGGAGAGCAGGATTGTTAGATAGTTATACCGAGCTCAAGTTGTCACAAAAGATTGAGGGCAATATGTGAGAAACGT GGAGCTCATGTAAACGAGTCAGATGTGGAAGAAGTTCAGTTTGAGAAAATTTAAGATAAAACAGAGTGTATTGAATCTGA GAAAATGAAATTTTGTCTTGCTCTTTTCATTCATATCTAGTGCATCAGGTATTTATAGTACTTGATGCGGGTCACAGTTC TGGACTCTGATAACTACCTAACTGAGATAACTGCCGAATGTTACAATTAGGAGACACTAACAGCTGTCATGAGTCTATGC AGACACGTTACTGAGTGCACTCACTACATCTGATCTTGACTAAAATATGTCTCTATGGCCTATATAGGATTCTTGATGAT AGTTCTAAGATGGTCAATTATATATATATATATATATATATATATATATATATATGAATTGCAATTTGCTCGTTTTACTT TTTAACCAACATCATTTCTGCATTTTGGAAATTGTAGACACGCCCCCATGCAACTGTTGAAGTGGAAATATCAGAAGATA TGCAACTTGTGCATTTTGATTTCAATAGGTAAAAAGCTTCAATCACTTGGTATTTTCCTGAAAGAATTATGATGGCAATA TCATGTCCTGTGTTGTCTTAGTGTGAAGATTTCCTGATTCACTAGTTTCATAAGGTCAAGTCAAGCACCAATTTATCTTG TTCTTGTCGAACAGAAGTTATATTGAGAAATACATCCTGCCACTTTTAAAGCCTCTTTTAAAACTTTCTTTTGTTCAAAA TATTTTTCGATGTATACTTACTTTTTCTTCTGCTTCTCTGTTTGCAGCACTCCTTTTGAGCTGCATGATGACAATTATGT TCTCAAGGCAATGAAATTTCATGAGAGACCTGAGAATGAAAATATAACACACAATCCTACTGATGGAGGTGAAGGTTCTA GCATGTCAGGTTTGTATCATGCACAGGTTGCTACTTTAGTTTCAAACCCGGCAGTTAGGCCGCCTCCCTCATCACCACCA CTACCTGGAATATTAAAGGCAAGAGTTAAGAATGAGCATTGATCTGCAATTGTCATATTGTCTTGCCTCTTTAGGAATGT TTGTATATATTGTAAAATAATTTGCCTGCAATTAATTGTCTGTCTTTATATTCAGCCAACATCGCCAAAGTCAATCTCTA GGTTAGAAGCAAATTGGTCCTCTTGCTTCTCTCTATTCTTAGGGATTGATTTTGTCAAATTCATTGCTAATGCTAACCCG CATCAAGTATTTGCCCTTTCGCAGCTAGAGAAATTTGTTTGTATTAGTTCATAAAAATCATGGAATGCTACACATCAGCA TAGGATTTATTTTTTTGTTCACATTTTTTAGACTGAATTATTGCACCTGGGCTAATACATCTTGCAATATAATTTTGGGG GAAGAAGCTATTCGGTAGATGTTTATGCAAATATTCTCCCTAGATTGATGGGAGGGGTGGAATGTGATGAAATGGAAGAG AATGGTATTATGTTCTTGTGTGGTTTGTTAAGTGAGGATGAAATGGTAATTCCATCACATTCCATTACTATCAAATTTCT CACCCCCTAATTTGGATTGAATGAGATGGATTAGAAACACTCATAACTACTAAAATTACAAAATTATTTTTCTACCTCCA CCTAGTAGTTGTAGGTAGAAAAATAGTTTTACACATAATTTTATTGGCATGCTGTAATCAGTTACATTTTGTTCAAAATG GTACTTACTGTTTTCTTTTCCTCTTTGTAACAAAAAAAATGGTATTTTAACCTCATTTATTATTATATATCATCTCATTT TTATTTAATGAATTTTCTATTTCAAATAATAATAAATTTTCAATATAAATAATTTTT
CDS sequence (LotjaGi1g1v0205100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGAACACAACCCCAGCAAACATGTCCAGAAGAAGAGGAGGAGGAGCTGCCAGGTCGTGGAGCTACATTTTCTGGTCA ATCAATGTCAACAAGCAGAAGTGTTGGCTCACCATCCAGCCGGAGTGAACAGACAATGGCAACACCAGCTAGTGAGAGCA CTTTTCTTAGATTAAACCATCTTGACATACATGGCGGTGACGATGTTGGAACACAGGGTGCAGTTGGTAGCAACAAAAAA AAGAGAGGCCAACGTGCTGTTGGAGGTGATAAGAGTGGAAGAGGGCTACGCCAATTTAGTATGAAAGTGTGTGAGAAGGT AGAAAGCAAGGGAAGAACAACTTACAATGAGGTAGCAGACGAACTGGTTGCTGAATTTGCTGATCCAAGCAATAGCACTT TATCCCCAGATCAGCAACAATATGATGAGAAAAACATTCGTCGAAGAGTGTATGATGCTTTGAACGTTCTCATGGCGATG GATATTATTTCAAAGGATAAAAAGGAAATACAATGGAAGGGTCTTCCTCGTACTAGTCTGAATGATATTGAAGAACTAAA GACCGAGCGTCTTGGGCTAAGGAATAGAATTGAAAAGAAAAGAGCATATTTGCAAGAACTGGAGGACCAATACATAGGTC TTCAGAACCTTATACAACGAAATGAGCAATTATATAGCTCAGGAAATGCTCCCAGCGGTGGTGTATCCCTGCCTTTTATT CTGGTGCAGACACGCCCCCATGCAACTGTTGAAGTGGAAATATCAGAAGATATGCAACTTGTGCATTTTGATTTCAATAG CACTCCTTTTGAGCTGCATGATGACAATTATGTTCTCAAGGCAATGAAATTTCATGAGAGACCTGAGAATGAAAATATAA CACACAATCCTACTGATGGAGGTGAAGGTTCTAGCATGTCAGGTTTGTATCATGCACAGGTTGCTACTTTAGTTTCAAAC CCGGCAGTTAGGCCGCCTCCCTCATCACCACCACTACCTGGAATATTAAAGGCAAGAGTTAAGAATGAGCATTGA
Protein sequence (LotjaGi1g1v0205100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGTQPQQTCPEEEEEELPGRGATFSGQSMSTSRSVGSPSSRSEQTMATPASESTFLRLNHLDIHGGDDVGTQGAVGSNKK KRGQRAVGGDKSGRGLRQFSMKVCEKVESKGRTTYNEVADELVAEFADPSNSTLSPDQQQYDEKNIRRRVYDALNVLMAM DIISKDKKEIQWKGLPRTSLNDIEELKTERLGLRNRIEKKRAYLQELEDQYIGLQNLIQRNEQLYSSGNAPSGGVSLPFI LVQTRPHATVEVEISEDMQLVHFDFNSTPFELHDDNYVLKAMKFHERPENENITHNPTDGGEGSSMSGLYHAQVATLVSN PAVRPPPSSPPLPGILKARVKNEH
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 94 | 94 | - | – | |
PIRSF | 4 | 344 | 341 | 7.4E-131 | ||
MobiDBLite | 23 | 55 | 33 | - | – | |
PANTHER | 25 | 343 | 319 | 2.7E-144 | ||
PANTHER | 25 | 343 | 319 | 2.7E-144 | – | |
Gene3D | 86 | 179 | 94 | 4.4E-41 | ||
SMART | 91 | 174 | 84 | 1.7E-35 | ||
Pfam | 93 | 174 | 82 | 9.3E-25 | ||
SUPERFAMILY | 94 | 175 | 82 | 1.03E-21 | ||
CDD | 179 | 282 | 104 | 1.03228E-45 | ||
SUPERFAMILY | 180 | 297 | 118 | 3.4E-44 | ||
Gene3D | 180 | 299 | 120 | 9.9E-38 | ||
SMART | 181 | 342 | 162 | 9.4E-73 | ||
Pfam | 182 | 297 | 116 | 1.5E-41 | ||
Coils | 183 | 224 | 42 | - | – | |
MobiDBLite | 288 | 307 | 20 | - | – | |
MobiDBLite | 320 | 344 | 25 | - | – |
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 | 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 | Transcription factor complex | A protein complex that is capable of associating with DNA by direct binding, or via other DNA-binding proteins or complexes, and regulating transcription. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Biological process | Regulation of cell cycle | Any process that modulates the rate or extent of progression through the cell cycle. |
Expression pattern of LotjaGi1g1v0205100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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