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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0721200 |
| Transcript ID | LotjaGi1g1v0721200.2 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | DNA-binding protein SMUBP-2; TAIR: AT2G03270.1 DNA-binding protein; Swiss-Prot: sp|Q60560|SMBP2_MESAU DNA-binding protein SMUBP-2; TrEMBL-Plants: tr|A0A0B2PI38|A0A0B2PI38_GLYSO DNA-binding protein SMUBP-2; Found in the gene: LotjaGi1g1v0721200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:129211818..129224477) extracted from Lotus japonicus Gifu genome v1.2.
ATGGAGGGAGGGACAAGCAAGAAGAAAGCATCACCTCTCTCTTTGGAGCAATTCATCTCCATTACAAACCCTCTTCTCGA CTTGGAAAAGGTACCAACTTTCTCTATCTCTTCCCTTCTCTTCATCCATTTATCAAATCGAATTAACACACGCTGCAATC TAAAGTTTTCAACTTTCGGATACCCTTTATCTCAATTGTAAGTTTAGGTCCAATTTTACACCGTGTAGATGAAAAAGATG AAAACTTTCAAAGACTAGTTTTGTTGGGTCGTTTCAGAAAAGATGAAATGATGATGGTTCTGCATTTCAGTTTCATTCTT TGTTTTGTTTATGGCTTAGGAAGCTGAGATATCGAGCTCAATCGCCACAGGTTCGTCCAGGAATTTGGATACTGCTCAAA AGAGGGGTTCCACAATCCTCAACTTGAAGTGTGTGGATGTTCAGGTTACTTGATTTTCTGTTCATCATTTTTGTTTTCTC CATTTTCTTTGTGAATGTTTGAAACTGTTATTAAAGGGAATACAAGATGGCATTGAAAGTGGAACTTTATATTTATCTTA TTTCACCAATGTTGATATTTTAAGAGTTTCAAGAGGAAATAGTTAAGTTTACAGTTGATTTTTAATGTTTTACTGTGTTG AATTGGAGCTTCAATTTACATGGTATTCTTATATTGTGCCCTTCCTCTTGTTTATTCTGAAAATAGTCAGGTCTTATGGG AAAGTCTCTGATCGAATTCCAGTCCACAAAAGGAGATGTACTTCCTCCACACAAGGTAAAGGATTGACTTTATTTAATCA GTTTCATCTGCTCAATATCTAACTGGCTTTACTGGTTGAGTCAGATATAAGTAGTTTTTTAATAGTGTTTTATGTGAACC TACTTTTATTGTATGCATTTCTTATTTCTTATTCCCACTAAAAGAACTCGCTTTGAGCACTTTGAGACTGGTATGAGTAT GTCAACAAAAAGGATGCCTCAATAACATCTTGAAGCACCATGTATTTAAATTCAAATTCATATTATATTACTTTGAGGGA GTTAACGGGGTCTTCTTTTTCGCAGTTTGGTACTCATGACGTTGTTGTTTTAAAACTCAACAAGGCTGATTTAGGTTCTC CTGCTCTTGGACAAGGTGTAGTTTACAGGTTAAAGGTATATGATTGATTCACTTTGTATCTATAGAAAATGATTGTCCCG CCTTTAGATATTACTTTGACTTGACGTCTTGATACAATTCCTAACAGGACTCGTCAATTACTGTTGCTTTTGATGATATA CCAGAAGATGGTTTAAACAGTCCCCTAAGACTGGAAAAAGTAGCAAACGAGGTATGCTGATTGCTGAAAAATTCATAGCT GCGTGTCATTTCTTGAATAGAATAGTAATGTGGTTTGAATTTACATATATTAGTTACTATTGAGAGATTTGGTAAAATTG ACATATCTATAGGTTTGCATAAAATATATGAATTGCACCAATAGGACCTTAATTTGAAGTTTTGACTATCCCTTTTGGTT ACTTAGTTTTCTGTTGTGTCAGCATCTTGCCTGACACTTTTATCTTCTTTTTTTAATCTTTTTCTTGATCCTGGGTTCTG ATATACTGCAAATATTTATTGTTCATGCAGGTGACATATCGCAGGATGAAAGATGCACTAATACAATTGAGTAAAGGAGT GCATAAGGGTCCTGCTGCTGATCTAATTCCTGTCTTGTTTGGGGAGAAGCTGCCAACTGTGTCCAAGAAGGATGTATCCT TCTCTCCCTTTAATACCAATCTTGATCACTCTCAGGTGTGTAACTTAGTTTTTTGCACGACCATTGTATTTGTTATAACT TAAATTTTTTCTACTTTTTATAATCTATTTTTGTTCAATGTATTATTTCATCTAAGGGTGCATATGCCTTTGTAATTAAC ATAAATCATATTTCTCTATTAGTTATCTGTTTACGCATTTGATGCATGCTTATTCTGGCAGTAGAGTCACTTCTTTTAGG GGAATCTAAAAGAATTGTGATTTAGGAACATCTGTCAAATCTTTTCAATTGTGGAACATTAACCACTAGATTGTTAATTA GCATTCAAAGAGTATTTGATATTTCTGCTTGAGTATTTCATTGTTTTTTGCTTTGCACGTCTGCCTTATGTTCACAAAAA AAAATTCTTTCTGTTTTTATCTCCAAAGAAAGATGCAATTTCAAAAGCCCTATCATCAAAGAACGTGTTCTTGCTACATG GACCACCTGGAACAGGAAAAACTACAACAGTTGTGGAAATCATATTACAAGAAGTGAAACGTGGATCTAAGATTCTTGCT TGTGCTGCCTCAAATATAGCTGTTGACAACATTGTTGAGCGGCTAGTTCCACACAGGTGTAATTATTTTATTACCTCTTT GGCACTAGAATAATTGGCTGGTTTTGCTGTGATTTGTGTCATAACTCGTGATAGCAGCTTTTACATCTGACAGCACAGAT AAGCATAGAATAACCCTGCGGAAAATTGTTCATAGAACCAGTAATATTAGAAGGAAAGGAATATGTTTTTTCATCGTTTG AAATTCTTCTCCCTTTCCTAGACTGGATAATAATGTCTTGTAAAATTTATAATTTGAAATCCTTTTCTTATGCTTCTATT CTTACTTATTTTTGGTTGTTAATTTATCCTCATTCTGCGGTGAGATATGTTCTCCACTTGGTTTAGTTTCATCAAGTGTG TAAAATCATGTGTCAATACTCACTCATGATGTCCGACTTTTTCATCAGAGTTAAGCTGGTGAGAGTTGGTCATCCTGCGC GTTTATTGCCTCAAGTATTGGACAGTGCTCTGGATGCTCAGGTACATGATGACTACTTGTTTGAATGCTAAAATATGTTT TCGTGATATTTTTAAAGCAAGAAAAAATCATCAAAAAAACTGAGAGAATTCTAAAGGAGGATAAGAGATTCTTTGATAGG TTCTTACGGTTATGGGTTAGTTAGGGGTTAATAGTTAGTTAGTTGGGGGTGGGAGTTAGTTACACTTACAGAGTGAGTCT ATAAATAAGTGAGTTAGAAAGACTATGGGGTATCTTTGTATTCATTTTGGAATTCGGGTTTAGGGAGAGTGTTGGGTCTC TCTCTTGGTTTAGGGAGTGTTTGGTATATCTCTTGTATCTTGCTCTGATTCCCAAATTCGGAATTAGGGTTCTATCATTG AAATAATATCAGTTCTTGGTTGGGTTCTATTATTCTTCTAGGCTACAATAGAACACAAAACAAAGACAGAAAAATTAAAA AAAAGCTGATACGGTCATCTCATAATACACTGCAATATTTCTAGAGATCCATGATGGAAAACCCCTCTTGAAAAACCATG TGCCTGCACCCAAATAAAAGCCAAGAAAACCACTCTGTCCCACACAAGGTGAGAAGGGAATAAATTCTGGTTAAAACTTC TGGGATCATGCTCCACACGCAGTTCCAAAGAGCATTATATTCCTTGCTACAAAGACCTTTAATATGAGAACAAGATTTGA CTCATAGATTCTGTACAAATCCATTGTTCCCAAAAAATGATAAAGGCAACTTCACGACTGCCATGCAACTTAATGACGCA AAACATTTTCTTTCAGCATGATTCCTGACAAAGTCTCTCCTGTGTTTATGTATGTTTTTCTTGTCATTTTGGGAGGTATC TATTTTAAAAAATTAGTAGTAAATTACTTGGTATTCCTTTGGCATATAAGCTTCACATAAAATGTTGTATATGTCATGGA TCATACCTGTTGATTTCACCCATATTGATTTATTTTTTTATATTAGGTATTACGAGGAGATAATAGTGGTCTTGCAAATG ACATTCGGAAAGAAATGAAGGTGAGATTCTGAAAAGAAGTTACAGAACTCAATCTTACGTATGATTTTATTATCATTTGT CAAGATTATAAGTAGGGGGATCTAGCTGATGTTCCTTATACAGTTACTTAAGATGTTATCCTTGGTGGAAGCATTAACAT CATGCTAGTAAAATTAGATTTATTTATCGGCGCTACTTTTCACAGTATATAACCTGTTTTTTTTTCAGGCATTGAATGGC AAGCTGCTGAAAACCAAAGACAAAAGTACGAGGAGGAACATACAAAAGGAACTCAGGACTCTATCCAAAGAAGAGCGGAA AAGGCAGCAGCTCGCTGTTACAGACGTAATTAAAAGTGCAGATGTAATATTAACTACTCTAACCGGGGCATCCTCTAGGA AACTAGACCACACTTCGTTTGATTTGGTAATTATTGATGAAGCTGCTCAAGCACTTGAGATTGCATGCTGGATACCTCTG CTGAAGGTATTGTTGATAGGCATATGCACTACATTCAATGGTGTTCATAACACTTACATTCTGACTTCTTTTTATCTCCT CCTGATTCCTTACTTTTTTTATAAGCCCTGATTACTTACAGATGAACTAGGTTGGTTTATGTTGCACACAAAAAATATAA TTCTTACAATCTAGAATTGGAAATTTACAAATATTTGAGATTTTTTGGCTTGAGTTGCATTTTGACTACTACTGGTTTTA ACCTGATTCTTTACAACAATAACAATAATAAAGAGAAATGGTGTCATCCAACAGTATCCTCCATTAAATTTCTTTAAATG TCTGAAGTGTGTTCTGAACTCCATGCAACATGGTATTTCAAATATCAAACTGAATTGAATTGGAAATTATATAAAGGAAG TTGGATATTAAAATGTGCTATCTTTTACAAAAGAGTAGTTTTGAACTGGAAAAATTAAAAGCCTGATATTAAACCTGTGC TTGATCCTGCATTAAAATATGTGGCTTTCTAATTATTATATGCATGTTATCATTTGCCATTATAATGTATTAAATGAAGA GTTCATTGTTTTAGGGTTCAAGATGTATACTTGCAGGGGACCATCTTCAACTTCCTCCAACCATTCAAAGTGCTGAAGCT GAGAAGAAAGGCTTAGGAAGAACCCTCTTTGAACGACTTGCAGAATTGTATGGAGATGAAGTCACATCTATGCTTACTGT CCAGTACCGTATGCATGAACTTATCATGAACTGGTCATCTAAAGAGCTTTACAGCAGCAAGGTGCTCCTAATTTTCAGAT ATTGTTGAAAACTGTAAATGAGAAAACTGATTAACATTGATTTGTAAAAGCTACAGATTCAAGAGATTACATCAGTATTT ATAGAAGAGCACTTAGCTTGTTGATCAAGCTAACAATCCTAACTGATTCTGTTATGACAGCTGTTATGACAGCTCAGCAT AACTAACTATGACAGCTAACACTAACTAACCCTATAACTGACTGCATACACAGTCAGCAAGCTAACTAACAGTAGCTTCT CTTACACGTTACATAGTGTACTCTAATAGACCCCCTCAAACTCAAGGTGGTGAGGAAAGGATTTTCTCAGCCACATGGAG TTTGGAACGAAGAAGCTCAAACCGGGTTGGAGAAAGAGCCTTGGTAAAAATATCTGCAAGCTGGTCTTCAGAAGGAATAT GGTGAACAAAGAGAGAGCCATTCAGCACCTTTTCCCTGACAAAAAAGATATCAAGCTCCATATGCTTTGTTCTGGTGTGC AGAACAGGGTTGTGTGTTAAAGCCACAGCCCCCATGTTGTCACAGAAAACTCTAGGAGAAGAAAAGGGGACCTTGAGCTC TTGCAACAAAGATTGTATCCAAAGTAACTCAGCAGAAGTATTGGCAAGGCTCCTGTATTCAGCCTCAGTACTGGACCTAG CAACTAAGGTTTGCTTTTTGGAACTCCAAGACACCAAGTTAGGACCAAAAAACACACAAGATCCTGAGGTGGACCTTCTG TCATCAGGGTCAGAACCCCAATCAGCATCACAAAATGCAACAAGAGGAACTGTAGAGGACAAGGAACAAGGATTGAGGTG AAGACCATGATGAATAGTACCCTTAAGATACCTTAAAATACGTTTGACAGCCTTCCAATGATCTTCTAAGGGCTGGCTAA GAAACTGGCAAACTTTATTCACAGCAAAACTGATTTCTGGCCTTGTGAGAGTAGCATACTGCAGGGCACCAACAATGGAC CTGTACAAGGTTGGATCTGCAAAATAATCAGACCCATACTTGCTCAACTTGGCACCACCAATCATAGGAGTAGAAATACC CTTTGCTTCCCCCATTTCAGCTCTTTCAAGTAAATCATGTATGTACTTGGTTTGAGTTAAAAGCAAGGACCTATCTTTCA AGTGATGAACCTGAACTCCAAGAAAATAATCAAGCTGACCCAGTTGCTTCAGAGAAAATTCAGAGTCAAGATTCTGCACT ACTTGCTGTACCAAAGGCAGAGAATTGCCAGTAATGATGATATCATCCACATAAACAAGAATGTATATGACTGAACCTTT TATGTAAAAAGTAAACAAGGATGGATCACACTTGCTAGGTGTGAACCCATACTTAACTAAGGCTGACTTTAACCTTTCAA ACCATGCTCTAGGGGCCTGTTTGAGGCCATAGAGAGCTTTGTGTAGCTTGCACACAAGTGTAGTATCTGAATTCTGAAAA CCAGTAGGTTGAGTCATATAAACCTCCTCTTGGAGAGCTCCATTAAGAAAGGCATTATTCACATCTAATTGGTGAATATG CCACTGCTTGGTGATGGCCAAAGTGAGAATAAGTCTGATTGTAATAGGTTTGACCACTGGTGAAAATGTTTCTGAATAGT CAAAGCCTTTAACTTGATGATATCCTTTGGCAACAAGCCTAGCTTTATACCTATTAATGGTTCCATCTGCATTCTCTTTA ATTCTAAATACCCATTTGCATCCAATAGGCTTCCTATCCTTAGGAAGAGGGACCAAAGTCCAGGTACCATTAGCCATCAA AGCATCATATTCTGCCTGCATTGCAGTTTGCCATTTGGGATCCTTAAGAGCCTGTTTGGTAGTTGTTGGTTCTGCCTGAG TAAGAAGCAAGGTGGGGAACAATCTAGGCATGACAATGCCAGACTTGGCCCTTGTCTGCATAGGGTGAACATTCCCAACT GGTTGAGGAACAGAACCAGCAGAAGAAGATGTAGATGACTGATGTCCTTGGGCTGCTGAACCAGAAGAAGCTGAGGGCAA GGGAGAATGCATGGGCTGCTGCTGGACAGAAGAAACACTGTCTGCATTGTGCTCAGGAGAAGGTGCAGAAATAGCAGCAG CAGTATTAGGTTGCTGAATGTGTGCAGCAGCAGGTATGAGAGGAATAACAGAAGACAATCCTTGTCCAGAAGTTGCACTC TCATTAGGATTAAACAGTGCATGATAGGGGTATGTAAACTCATCAAAAATGACATCCTTGGAGATGTATATCTTGCCTTC ATTGTCCATGCACTTGTAACCCTGATGTGTAGAAGAGTATCCAATAAACACACAAAGCTTGGATCTCAAAGACAACTTGG AGTGAGTATAAGGTCTGAGATGTGGATAACAAGCACAGCCAAAGACCTTGAGAAGCTTATAATCAGGTTGCACCTTGAAG AGCTTAAAGTAAGGACTAACATTGCCCAAAACTGAGGTAGGCAATCTGTTGATGAGAAACACAGCTGCAAGGAAAGCATG ATCCCAAAACTGATATGGCAAATGAGCATGTGCTAGCAAGGAAAGACCTGTTTCAATTATATGGCGATGCTTGCGCTCTA CACTACCATTTTGATGATGTGTGTAGGGACAAGTAAGCCTATGAACAATCCCTAACTTAGTGAAATAGGGTGTTAAAGGC TTAAATTCTGTTCCATTATCAGTTTGAACTGATTTAAGTTTTAAACTGAATTTTAACTCAACCATGGCTTGAAACTGAAG GAAAACAGAACATGTATCAGACTTCTTCTTAATGGGAAAAATCCAAGTAAAGCGAGAATAGGCATCAACACAAGTAAGAA AGTATGAAAATCCACAAGAGGACTCAATGGAAGCTGGTCCCCATAAATCAGCAAACACAAGTTCCAAAGGAGAATGATAA ACAGTACTAGAAGAATGAGAAGGTAGTCTATGTGATTTAGAGAGACAACAAGCTGAACAAACTGTAAATTTTGCTTTATT AGGTACTGGAATATTACAACTATTGAGAGCTGAATGCAAAGCCTCATGATGAGGATGTCCTAGTCTAGAGTGCCATAAAC CATAAGAGGTTGGGCATACAATAGTAGATGATTTATTACTAGAACTAGGAATAGTAGAACTAGGGAAAACAGCTGACAAG GCAGAAACTGAATCTGAAACAGCAACTGGAGGCAAGGAACTTGGAACTTGAACAGAAGATCTCTTGGAAAGAGAAGGAGT GTGCATGCCTTCAAAGACATACAAGCCATCTGGACCAACATGACCTTTAAGAAGAACCCTAGAGGTGACCTGACATTTCA CAACACAAAAAGAGGAGTGAAACTCAAAGTAAACATTATTATCTCTTGCAAATTTACTCACACTAACCAGATTTTTGGTT ATATCAGGAACTAAAAGCAGATTTTTGAGAGTGAGTGTGGTGTTAGTATGATAGGGAGAGGGAAAGGAAGCAGATCCTAT AGAGAGGATTGGCAAACCTTGTCCATTCCCCATGAAGATGTGATCATTACCAGCAAGAGAAACACTATCTGAGACAACTG ATGCATCATTAGTCACATGGTGAGTTGCACCAGAATCAGGGAACCAAGTGCTCAGATTTGCTGAGGCAGAAGAGCCTCCT GCTTGTGATGAACCTGTGATCATAGCTTGAGGTGGTCTTGCATTGTAATTTCCAGGTCTGTGCCCTACACTTGTGAACTG AGAAGAGGATGAATTATTCCAAGGTGTACCAGCAAAAGGATGAAAACCAAACTGCTGAGGACCAAAAGGAAATCCTGGAA AAGAGGAACCAGGTCCAGAGTATTGTTGTTGTCCAAACTGAGTTGGATTTCCAAACTGAGGAGAACCACAGTAAGGAGAG AAACCAAACTGAGGCATAGGAACCATAGGGAAATTAGGAAATTGCATTCCATAGCCTGAGTTCATGCCAGACATGCCAAT AGAAGGAGTGGAAGATGCACGATGATAGCAGATACTGGCATCATGACCATACTTCTTGCAGATCTGACATTGCACACTGC GATTGTTGCCTCTGCCTCCGCCACGTCCATTGTAGCCACCGCGAGAGTTGTTGCCTCCGCCACGTCCATTATAACCACCA CGACCACGCGAATCAGAGAAACCACTGCGCTCATCACCGCGCTCATCAAAGGAGCGCTCCTCATAGGAAGAATCGACGGA ACTGGAAGCATAATTTGCCTCAGAAGGCACCGGCGACGGCGCCGACGATGGAGGTTGCGTCGCTGGCGGCAGCGAAGCCT GCGTCAGCAGCGCCGATGGAGGATTCGCAGTAACCTGACGAGATCGAGCGCGATCTAGCCGGGCTTCATGCGCGATAATC ATTGCTTCGATCTGCGAGATTGAACTCGGTGTTTCACGATTATAGACAATCGTTTGGAGATGACTGTAATCCTCTGGCAA ACCATCAAAAATTGCTTCCAATTGTTCACGATAGGAGATTGGATCTCCAATAGTGATCAACGCATTAACAATCGACTTGA TACGTTTGAGATACTCGGAACACGACTTCGATCCCTTGGAGATGGATCGAATTTCAGATCGCAATTGCGTTGACTGTGCG AGAGAGTGTGCTTGGAAGAAATCGAGCACTGCCTCCCACACTTGCCACGACTGAGAACAGTTCACCACCGTAGGAAGCAC CGATGGCGAAAGAGACGAGAGTAACCACGTGAACAGAGCAGAGTCTTGCTGCTCCCAGATTTGATATGCAGGATTCTCCA CTGCATTCACACGATCTTCTTCACTGAGAAATCGTGGTGGAATCTCAGGACGAGCAAGATAACTCTGCAATCGATGCGTA CGAACGATCCCTTCCACATGCTGCTTCCATGAAAGAAAATTCGTATCATCAAGCTTCAGTGAAAGCTTGTGAACAAGAGT TGAGGAACTCAACTGTGGTTGAGCCACTGCAACTGGAACGGGAATCGGAATCTCAGGAGCTTCTTCAGCCATGGTGAAGA AAATGAAGAAGAAAAATTTGAGAAGAGAGACCTCAAGGATCGTACCCTGCTCTTGATACCATGTTGAAAACTGTAAATGA GAAAACTGATTAACATTGATTTGTAAAAGCTACAGATTCAAGAGATTACATCAGTATTTATAGAAGAGCACTTAGCTTGT TGATCAAGCTAACAATCCTAACTGATTCTGTTATGACAGCTGTTATGACAGCTCAGCATAACTAACTATGACAGCTAACA CTAACTAACCCTATAACTGACTGCATACACAGTCAGCAAGCTAACTAACAGTAGCTTCTCTTACACGTTACATAGTGTAC TCTAATAGATATCGTCTTCATATTTTAACACTATAAAGCGTACCTTTTTTGTAAACCACTAGAAAAGAGAACCCCAATCC TGAACTGAAAGGTCAGATTATGCTGGGGCATTAGCATTTTGTTATATCATCATTAATTTATGTGATAACAGATCAAGGCT CATCCAAGTGTTGCTGCACATATGCTGTATGATCTTGAGGATGTGAAGAGGACATCTTCAACTGAACCTACGCTGCTTCT CATAGACATAGCTGGGTATGTTGGATTACTTGTTCAAATATCTATATTCTTAGAACTACCTGATTAGTCTGGACATGTGG AATGAAGACACAAATTTCATCATAATAAAAATTGCTATACCATATTCTCTATATAATGATTTTGCATTTTGGATTCTATA TTCAGTCAGTTTCCCCCTATCTAGTCAAGAATTTGATTATATTATTGAACTTCTATGAGGAAGCTGAAGAGAGAAAGAAG TCTTCATATTTATATGATGCCAATATAGGTTGTTTGATATCAATAGGTGCATTCAGTCAGAAATATAATGAAACTGCATA TATTGATTTGATTCAGATGCGATATGGAAGAGAAGAAAGATGAAGATGAAAGCACACTTAATGAAGGTGAAGCTGAGGTT GCTATGGCTTATGCAAAGAGATTAGTGCAAAGCGGGGTGCTTCCATCTGATATTGGAATTATTACCCCATATGCAGCCCA GGTATAGAATTGTTCTGTACGAACTTATACTGTAAAAGCTTTGGTAGTTTTATGCAGGGTTGTTAATGGCGGATAGCGTA GTGTAGCGGCAAGCCCCCAAAAAACGCTATTTTGAGCGCTATAGCGGCAAATAGCACAAATAGCGGTGAATAGTGGAGTA GCGGTGAACCCCCAGGGCGCTACGCTATAGGCTATTGCGCTGCTATAGCGCGCTATTAACAAACCTGGTTTTATGAAGGA TGACCATACGGTAGGTGTTGTCCTAACTCCTTTTAACTAGTATGGCAGGTTGTTTTGCTCAGGATGTTGAGAAACAAGGA GGACCGGCTGAAGGATGTTGAAATCTCAACAGTTGATGGCTTCCAAGGGAGGGAGAAGGAGGCCATTATTATATCAATGG TTAGATCAAATTCAAAAAATGAGGTATTTCTAACAAGTCTGCTTGTTTATTTGCTTCATATAGGTTTTTCATTGGATCAG ATTGACTGGATAAACCGAATATCCAAATCAAATCAGTTAATAGTACCAAAACTCTCTCATCTCTGCGACAATTGCCCTAT GCCAGTCATGGAAACACCAGTTTTCGATTCTCCAACTTACACCTCACCATGCTACCAGTCACCAAACAATTGATATCTAT CCCATTGGAATTATTTTTTTATTTACCCATGCGTACTTAACACTACGGACCCTGGCTTCCGAAAATAACAGTTAACTGGT AGTTTTCAAAAATGTATCCCATTGATAAAACTTACAGGGTCGCTTATGATGCTTCTTTCCAGAGGTATCACCACCAATCA CTAATCTTGATAGATATCAATAGTTTGGTGATTGGTGCCGAGGTGAGGTGAGTTGTAAGTTGGAGAATCAAACACTGGTA TTTCCAATTCCGTGGCTGCAGTCTGCATAGAGCCATTGTCGCAGAGATGAGAGTTTTCCTGTACCCAATTAAGCGAGACA GTTTTAGTACCATTAATTGATTTGATTTGAATTATTCGGTTTATTTAGAGAGAATTTTAGCATAACCATGAAGATTAAGA GAAGAGACTTGGAATATATGTTTCAGGTGGGCTTTCTGAGTGATCGTCGGCGAATGAATGTCGCTGTGACACGGGCAAGA AGGCAATGCTGTCTTGTCTGTGATACTGAGACAGTCAGCAGTGATGGCTTTCTAAAGCGATTGATTGAGTATTTTGAAGA GCACGCTGAATATCAGAGTGCATCGGAGTACCAGAATGAGTAGGCGGAACTCCCAAGGTTAAGATTGCTATTGCTCCTCT GGTGTGATCAATTTGTTGATTTTGGTGATGTTGGCATGTTGCTAATAGATCTTTGAAGGTTTCTCAAATCTCTTATGCTA TTTGGAATGGAAGGAAGTTGATTGTCCATGGAAGAAAGAAGACCATTTATTTAGAAGAAAAAAATTCTTGGTCCTACATT TTATTACTTTGAGAGTCATACCGAAGTAAAATTTACACTATCAAGCTTATAAAAATATCATTTTGATACTTAGTTCTATA CTTGTTGAGTATCTATTTTA
CDS sequence (LotjaGi1g1v0721200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGGGAGGGACAAGCAAGAAGAAAGCATCACCTCTCTCTTTGGAGCAATTCATCTCCATTACAAACCCTCTTCTCGA CTTGGAAAAGGAAGCTGAGATATCGAGCTCAATCGCCACAGGTTCGTCCAGGAATTTGGATACTGCTCAAAAGAGGGGTT CCACAATCCTCAACTTGAAGTGTGTGGATGTTCAGTCAGGTCTTATGGGAAAGTCTCTGATCGAATTCCAGTCCACAAAA GGAGATGTACTTCCTCCACACAAGTTTGGTACTCATGACGTTGTTGTTTTAAAACTCAACAAGGCTGATTTAGGTTCTCC TGCTCTTGGACAAGGTGTAGTTTACAGGTTAAAGGACTCGTCAATTACTGTTGCTTTTGATGATATACCAGAAGATGGTT TAAACAGTCCCCTAAGACTGGAAAAAGTAGCAAACGAGGTGACATATCGCAGGATGAAAGATGCACTAATACAATTGAGT AAAGGAGTGCATAAGGGTCCTGCTGCTGATCTAATTCCTGTCTTGTTTGGGGAGAAGCTGCCAACTGTGTCCAAGAAGGA TGTATCCTTCTCTCCCTTTAATACCAATCTTGATCACTCTCAGAAAGATGCAATTTCAAAAGCCCTATCATCAAAGAACG TGTTCTTGCTACATGGACCACCTGGAACAGGAAAAACTACAACAGTTGTGGAAATCATATTACAAGAAGTGAAACGTGGA TCTAAGATTCTTGCTTGTGCTGCCTCAAATATAGCTGTTGACAACATTGTTGAGCGGCTAGTTCCACACAGAGTTAAGCT GGTGAGAGTTGGTCATCCTGCGCGTTTATTGCCTCAAGTATTGGACAGTGCTCTGGATGCTCAGGTATTACGAGGAGATA ATAGTGGTCTTGCAAATGACATTCGGAAAGAAATGAAGGCATTGAATGGCAAGCTGCTGAAAACCAAAGACAAAAGTACG AGGAGGAACATACAAAAGGAACTCAGGACTCTATCCAAAGAAGAGCGGAAAAGGCAGCAGCTCGCTGTTACAGACGTAAT TAAAAGTGCAGATGTAATATTAACTACTCTAACCGGGGCATCCTCTAGGAAACTAGACCACACTTCGTTTGATTTGGTAA TTATTGATGAAGCTGCTCAAGCACTTGAGATTGCATGCTGGATACCTCTGCTGAAGGGTTCAAGATGTATACTTGCAGGG GACCATCTTCAACTTCCTCCAACCATTCAAAGTGCTGAAGCTGAGAAGAAAGGCTTAGGAAGAACCCTCTTTGAACGACT TGCAGAATTGTATGGAGATGAAGTCACATCTATGCTTACTGTCCAGTACCGTATGCATGAACTTATCATGAACTGGTCAT CTAAAGAGCTTTACAGCAGCAAGATCAAGGCTCATCCAAGTGTTGCTGCACATATGCTGTATGATCTTGAGGATGTGAAG AGGACATCTTCAACTGAACCTACGCTGCTTCTCATAGACATAGCTGGATGCGATATGGAAGAGAAGAAAGATGAAGATGA AAGCACACTTAATGAAGGTGAAGCTGAGGTTGCTATGGCTTATGCAAAGAGATTAGTGCAAAGCGGGGTGCTTCCATCTG ATATTGGAATTATTACCCCATATGCAGCCCAGGTTGTTTTGCTCAGGATGTTGAGAAACAAGGAGGACCGGCTGAAGGAT GTTGAAATCTCAACAGTTGATGGCTTCCAAGGGAGGGAGAAGGAGGCCATTATTATATCAATGGTTAGATCAAATTCAAA AAATGAGGTGGGCTTTCTGAGTGATCGTCGGCGAATGAATGTCGCTGTGACACGGGCAAGAAGGCAATGCTGTCTTGTCT GTGATACTGAGACAGTCAGCAGTGATGGCTTTCTAAAGCGATTGATTGAGTATTTTGAAGAGCACGCTGAATATCAGAGT GCATCGGAGTACCAGAATGAGTAG
Protein sequence (LotjaGi1g1v0721200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEGGTSKKKASPLSLEQFISITNPLLDLEKEAEISSSIATGSSRNLDTAQKRGSTILNLKCVDVQSGLMGKSLIEFQSTK GDVLPPHKFGTHDVVVLKLNKADLGSPALGQGVVYRLKDSSITVAFDDIPEDGLNSPLRLEKVANEVTYRRMKDALIQLS KGVHKGPAADLIPVLFGEKLPTVSKKDVSFSPFNTNLDHSQKDAISKALSSKNVFLLHGPPGTGKTTTVVEIILQEVKRG SKILACAASNIAVDNIVERLVPHRVKLVRVGHPARLLPQVLDSALDAQVLRGDNSGLANDIRKEMKALNGKLLKTKDKST RRNIQKELRTLSKEERKRQQLAVTDVIKSADVILTTLTGASSRKLDHTSFDLVIIDEAAQALEIACWIPLLKGSRCILAG DHLQLPPTIQSAEAEKKGLGRTLFERLAELYGDEVTSMLTVQYRMHELIMNWSSKELYSSKIKAHPSVAAHMLYDLEDVK RTSSTEPTLLLIDIAGCDMEEKKDEDESTLNEGEAEVAMAYAKRLVQSGVLPSDIGIITPYAAQVVLLRMLRNKEDRLKD VEISTVDGFQGREKEAIIISMVRSNSKNEVGFLSDRRRMNVAVTRARRQCCLVCDTETVSSDGFLKRLIEYFEEHAEYQS ASEYQNE
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 |
|---|---|---|---|---|---|---|
| PANTHER | 6 | 634 | 629 | 2.2E-199 | – | |
| PANTHER | 6 | 634 | 629 | 2.2E-199 | – | |
| Gene3D | 24 | 427 | 404 | 2.1E-142 | – | |
| Gene3D | 41 | 143 | 103 | 2.1E-142 | – | |
| SUPERFAMILY | 191 | 634 | 444 | 2.13E-69 | ||
| SMART | 193 | 444 | 252 | 0.0016 | ||
| CDD | 196 | 444 | 249 | 5.27751E-112 | – | |
| Pfam | 197 | 411 | 215 | 3.2E-61 | ||
| SMART | 211 | 433 | 223 | 1.2E-6 | ||
| Coils | 298 | 318 | 21 | - | – | |
| TIGRFAM | 345 | 641 | 297 | 2.0E-111 | ||
| Pfam | 420 | 616 | 197 | 2.2E-59 | ||
| Gene3D | 443 | 647 | 205 | 6.3E-66 | – | |
| CDD | 445 | 633 | 189 | 5.10659E-68 |
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 | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. |
Expression pattern of LotjaGi1g1v0721200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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