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Field | Value |
---|---|
Gene ID | LotjaGi6g1v0103100 |
Transcript ID | LotjaGi6g1v0103100.5 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | DNA topoisomerase; TAIR: AT2G32000.1 DNA topoisomerase, type IA, core; Swiss-Prot: sp|F4ISQ7|TOP3B_ARATH DNA topoisomerase 3-beta; TrEMBL-Plants: tr|I1LN46|I1LN46_SOYBN DNA topoisomerase; Found in the gene: LotjaGi6g1v0103100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:22665870..22682143) extracted from Lotus japonicus Gifu genome v1.2.
TTATTGCTGACAATTTCAGTGACTACTTGAAAAATGTCCTTGCGTACAACTTGCGGTTGAAAATGTTTGTTTCTTGTGAT CAGATGTTTACAAGGAAAGGAAGCACAGAAGTTCATGAATTTGAGGGGAAGTTTCTTGGTTCCCCTGCACATTTTAAAGT GACATCGGTTATTGGTCATGTATTCAGGTCCTTTTCCTATCAAATTTTGATGAAGAATATGGCTTATTGAGTTTTACCCT TAATTTTTTTTTTAAATTCTATGATCCATTCACACTCCTTTAATCCTTCCTTGTCCTATAAGTGGAAGGTGGATTAGATT AAATTTCAATTAATACTGGAGAAGCTCACAATTAATGGCATTGAAAGCAAGAGCTTTTATATTATGAGGCTGTTCCATCA GTTGAAGTAAGGAAAAGATAGTAGAAAAAATCATTCGAGTTGTTAGGCATGAACATCTCCATGTGATTTTTGCTATATGT ATTGTCATTGGAACTGGAAGTGTAGCAAGTGGCAAGTGCCTTGTTCTCTACTCAGATTCTGTAGATCAAATGATATTTTA TGGGTTAAACCACGTAATCAGTCTCTTTTCATACTATGCATGTCTTCCTGATTGGTTCGAGTATTAACTGCAGTTTTTCT TTTTCTTTGTTGACAATCTAGTGTAGATTTTCCTGGTAAATATCAAGATTGGTCAGCCACAGATCCATTAGATCTCTTTC AAGCTCAGGTTTTAAAGAATGAATCAAACCCAAAGGTATTTCTTTATAAATATTTCACTGAAGTATTAGTTTCTCTATAT CTTTAATATCATAATTTATGCCTTGTTTTGAGATTTTGGGGCAAGATGGATTGGTTGTCTATAATTTTCAGACCGAGGTT TGCTACGCTTTATATATCACAATAAGAAGTAATAACAAGCAATACAAGAAAATTGTTTAAAAGACAAAGAAATGATGCAG CTTTTTCACTTCTCAATCATGTATGTTTGTACAACCTGACTTGGGCCTATGCGGCCAGACTACCCTAAGCTAGACAAGTA CATCACACTCCCTCTACACTAGGGCATACCAATTGTATTTTCCCAACTTACAAATGAACCTGATCCGGGGATCCCTAAAT GGACTTCGTGAGAATGTTAGCTAGCTGGTCAATGGTATTGATGTAGCTAGTGACAAAACAACCAGAAGCATCTTTTCTGT AATAAAATGATATGTTTGGTCATTTGATGAAAGACCGGGTTGAAACTGCCAAACAACCCTATGGAAGTACTCTTCTTTTT ACCCAAACCTGTCTACAACAGACAACCTCAAACTAAGGATCTTTGAGTGTCACATTTGTTCTAATACAAAGTTTAGACAG GGAAAAACTTGATCCTAGTGTGTCTTTGTTGGTACTCATCCACTCATGGAGGGTATAATTGTTATCATGACCTTCAAGGA GCAAGTGTGCTATTTCACCAAACCTTATCTTCAGAGGGAGACTTCTATGGAACATAGAAGCATCTTTTGGGTTACCCAAT GTTCTTCTTGACCTGTCATTTGAGCCTAAGCCGAATCAACCTTAACCTGAATCAAACTCGAGCAGAACGTACTTTGGACT TCATCATCTGAACTCATGTTTACTAGAGCTAACCTTCCCAACCAACTAGTACCTGAAATTAATGTGAGATTTGGAAAATA TATGGTGTACACAAATAGACCAAAGTTCATTCCAGGATCTATCTAGGATCAAGAGTCCAAGTCTTCTCCTTTAGATGAGG TCTAACCCTCCAATTTTCTTGGCGAAACTGAAATTGAAACTGTACATGATGACCTTGACCTTCCAATTGCCATTAAAAAC AGAGCCATAAAATGCACCGAACAACCATTATACCCTCTCCCAAATTCTCTCTCCTTAAAAAATTCTCGCCTACCCACAAC TTCCGTTATAAACCTAAATACTACATCTACACCTACTACCCTGTCTGAGGCATTATCTGATAGAAAATGGAAACAAGCCA TGGATGTAGAAATGAAGGCATTGTAGAAGCATAACACCTGGGAGTTTTTACTCGCCAGAAGGAGGTCGGTTGGGTGCAAG TGGGTATATGAAGTGAATATATAGCTGATGGATCAATTGAGAGGTATAAATCAAGGCTGGTTGCGGAAGGGTTCACACAA CCCATTTTTCTCTCCTATAAATACTTTTTATGGGGCGTGTAAAAGCTTGACTATATTGAAATGACTTTAACTGTTTTCAT TGTCTTTGTTCCTTCCCCCCTTTTGTTTTGGGATGTGTTAGTTCCATTAATGTTAGCTACTTAAGAATTGAATTTTACTA CCTATGGAGTAGGGAGTTGTATTATCTATATTTGCTTTTGTTTCAGTTATTTCCTACGGTTAATGTCAAATGTTTCATTC AGGCGCATATTTGTAGGCATTTAAACCAAGAAGCTCGTGGATGCCGTTTTTTGGTATTGTGGTTAGATTGTGATCGTGAA GGAGAAAACATATGTTTTGAGGGTAACAATATTCTTTGTTCTTAACATATTTCACTTTATTTTTTTTATTTCTTGATACT TTTATCATTATAACCTATTTGTGCTTGATATTGCAATGCAAAATTATTACTCTGATGATGTAAGTTTCGCTTTGGTTCTT AAAGAAAAAACCCTTAGCCCTTTTAACAAATCTACTTCTAGCTGCCTAACGTAACTTTCAAAAAAAGAAAAGTAAAAGAG CTACACTCTTCTACCCAATCTCTTTTACCTTCAAAACCGCTCCGATTCATTAAATTTATTTGCTACTTGCACCTTATGTT TGGTAAGAAAATAATAAAAGGAAAGAATGGTTGGTATGTAAAAAGAGAAATAAATAAAATAAAAGGTGAAATAAATATTA TCTTATCTTAAGAGGGGAGTTCTTTTATTTTTGGAAATATATACTTTTATTTTAGGAAAATATATCTTTTACTTTAAGAA ATAAATAGTCATTTATTTTAGGACGGGATATCTTTTTATTTTTGAGAAATAAATGTCCTTATTGTAGGAGGAGATATCTT TTATTATAGGAATGGATAAAGAGGGTTAATATAAATAGTCCCCTAGTTTTAAGAGAGCGATAACTTTTAGACATTGAATT TTTGTAAATTTTGGGGATATTCTAAGTGTTTGTACGAAAGGGATTTCCCTTTGATAAAAGAAGGTTAAACCTTCTTGAGA ATAATAACGGAGAGAATTTCTTTCATGATTTAATTCTCCTTAATTCTGTACTATTTCTGGGGCCATTCAGAGTGAGAGAC AGTGACAGGGTAGAGAGAGAGAGAGAGAGCGAAGAAGACAGAGGCACAGACAGACAAAGCAGCAGCCTTCTCCGGCTCAG TGAAAAAAAAGAAGGGCTTTAGCGGAAGCTTGATTTGTGTTTCCCGGAGGAATTTTGCCTTCAAAAAACACGCACACGAG GTGTTTGATTTATGTCGTCTGTGTTTACTCTTGGGGCTTCAGTTTCATTCTTCCAGACTCTATGCTCCTGTATGCTACTC TGCATTCTCAGGCAGAAACTCGTTAACCCAGCTGTTTCAATGCGATTGAGGCCTAAGAGGACTTGTTCTGGTGTCGAGTG TTTTGGTGGTTTTCACATACAAAGATTTTCTCATCTTTTCTTATTTTTGAGAGGGGATCTCACCTGAAAGCTTGAGATTT TCTTACCCTTTTTAATTTATTTGGTGTCAGTTTGATTAATTTCTCTTGATTTTGTTGAAAATTTTCTGGAAATTTTGAGG GGGTTTTGGGAGGGTTTTTCCCCAATTTTTTGATTCACCATGTCCAAGTCTCGAAAGCAACCTGCAAGTAGAAGGTTAAG GCCTGAGTTCAAGATGGCCAGGAAATTGCGGGTGATTTATGATGACCCTTATGCAACTGAATCATCTGATGATGAGTACT ATCATTCAAGGGAGAAGAAGCCCAGGAAAATCAAAAGATGCATCACTGAGATTCCTCTTCCTCCTCTTGTTCCTGTCGTC ACTGAACCTAACACCTTTGCTGAGAAGAAAATCAACATGAGCAGCAACAATGTTGTTGAGGTTCACAACAAGAAGAGGGT TTCAACCCAGAACCCTTCAACAAGGAGGCAACCCTCTTGCAAGTACAGAGGTGTTCGACAGAGGAAGTGGGGGAAGTGGG CTGCGGAGATTCGTGACCCGTTCAAAGGTGCCCGTCTCTGGTTAGGCACTTACAACACTGCTGAAGAGGCTTCCCAAGCC TATGAGAACAAGAGGCTCGAATTTGAAGCCATGGCTAAGGCTCTTGTACCCAACAATGGGTCTTCTGATAAGGGTTCTGC TTCAAACTCTTGCTCTGCTGCTGCTCCTGCTGAAGGTTCTGCATCAGAGAAATCATCTTCTGCTGCTGATGTTTCTGATG ACTCTGATAGCATGTTCTCACACCCATCACCTTCCTCTGTGCTTGATGTGGATGCCTCAGCTAACAATTTGATTGAGAAT GATGATAGCTCTAGTAATGAAGCTCCTGATGCTGATGCCACTGAGGCCTGTGACATGGTTGCTGAATTGGCTGGTCTAGA AATACCAGACTTGAGTCTCCTGACCTTGCCTCCATCCGCACCACCAACTGTTGCTGATGCTGTTGTTCCAGCTGGTACTG AGCCAAACCCTGTGCTTGATTTTGATTTCATATTTGATTATCCAGGACAGGGCTTTGATGATGATACCAACTTTGGTGGT GGCCTAGAGGATATCCCAATTTTTGGGTTTGACGACAATGTGCCTAGCCAGCTTCCTGATTTCGATTTTGGTGATTTTGG TTCTGATGAGTTTGCTGGTTGGATTGAGGAACCCTTCCATATACCCTGCGCCTAAAGTTTTGCAGCTATTACATAGGAAT AAAGATGAAGAGTAATACATAGTTATATAAGTCTAAGTTATGTTGGTTCTATTGTACTAGTTTTGTGAGATCTCAGGAAC TGCAAAGCCAGTTCCTCAGGAACTGCAAAGCCAGTTCCTGAGTTAGTAGTGGCGAGTTTATATTTATTTTGTTTATTGAG AGAGTATGTTAATGTTATATCAGTGCGATGTATTAGAGAATCCTTCGGGTTTTCCCGTGCTATTAGAGCTGTCCAAGGGT TCAACCAATTTTGTAGTTTCGAAGTTCTATTGCGGAGTATGAAATGAACTTCAGGTTTTGCTTGCAAAAAAAAAAAATCT TTACTATTTCTTTCTCATTGTAGATTCACTACAAAACCTAACACCTTGTTATTTGAACCTTAAGCTTAGTCCTTTTTGTT TTAGATTCTTTTCTAGGTAATATAATAGAATTTCCAAGTTAACTGTAGCTATGTGTCCATGTCAACTTGGATTTGTGTCA AGGGACTATTTTGTTACTTATTGTCATTGCCTTATTTGTATAGGTTACATAACCAAAGGTTGGCCCTCTGAATATTAACT TTCAATAATGATTAGTGAACCCCAGTACAATGTCGGCGTACATTAGACACCCAACACATAGTGGAGGGAGCAACTGAGTT AGTACAATGTGTTCGGTTCATTTGATATTGACCAAATAAAACACTTCCCCAAATATGTGAATGTTATTAACCACAATATA TTAGTTGTATATATTGACCAATTAATAGAAATACTTAACCCCATATTTGAATCTTACTAACCACATTATTTCAATTGCTT ATTATTAGAGGCGAGGATTGCTATACCCTTTATAATGTGACTATTTTGGCCATATCTCTAGTTGGGACTTCTCAAAACAC CCCACACCCAAGAATAGAAATCTGGAGTGTGTAATTTGCAGGAATGAACATCTGCGGGTGACCCATATATGGATGGTCTC CAATAAACAGATATAGGATAGTGTTAGGGTTCTAAATATTAGATGTTTAATTTAGGCTAAAAAACACTTTTGGCCCCTGA TGTTTTAAGTTTGTGCAAATTTTACCCCTACTCTATTTTTGTCGACGCTTCTACCCTCAATGTTTCAAAAATGTGCACTG TCTGCCCTCCGTCACTTTGACGTTAAAAAATTAACGAAATGAGCTTTATTGGCACTAGCAATGCCACCTCAGGATCTACG TGGCATGAAGGAAGAACAAAAGTTATAATATAAATAAAACTGTGTTGCAAAATATAACAATTATGTATGTAGTTCAACTG GTAAAGGGTTTGTTTTTCCAACTTGAGTTTGAATCCCCCTCACCTCTTTTTTCAAGTTCTGATTATAATTAGTGATGTGT CACGTCACGTAGATGCTGATGTGGCATTGCTAGTGCCAACTAAGCCCCTTCCGTTAATTTTTTAACGTCAAACAGATGGA GGGGCAGATAGTGCACATTTGTGAAACATTGAGGGTAGAATTATCGACAAAAATAGAGTAGGGGCAGAATTTGCATAAAC TTGAAACATCAGGGGCCAAAAGTGCTTTTTAGCCTTTAATTTATTTGGTTAGAAAATATAGGAGATTAGTTGGAAAGTTG AATTACCTCACTATTACTCAGCTAGACATTTCATTTTCTGTTAGTGTGGTGGTAAGTCAATTTTCGCATACTGAAGTATA TTAAAGGAGCTCCAGGGAAAGGTTTATTGTACGAAGACAAGGGACATACACAAGTTGTAGGATACTCAGATGCAGATTGG GCAGATTCTCCTTCTGATAGGAGATCCACCTCTGGGTGATAACTTAATTTCCCTGAAGAGTAAGAAACAAAGTGTAGTGG AAAGATCAAGTGCGGAGGCTGATATCCAGCCATGGCTGCGGCTACATGTGAACTTATTTGGCTCAAACAGTTGCTTCACG ACTTGAGATTTGGGGATGTTTCACAGATTACAATTATTTGTGACAATCAGGCAGCCTTCCATATTGCCTCAAACCCAGTG TTCTCTGAGAGGACCAAACACATTGAGATCGATTGTCATTTCATCAGAGAAAATTTTATCTGGAGATATCAACACTAGAT TCGTCAATTCAAATGATTAGTTAGCTGATGTTTTTACTAAGTCTTTGAGCGGTCCTCGAGTTAGTTATATTTGTAACAAG CTTGGTGCATATGACATATATGCTCCAGCTTGATGGGGAGTGTTAGATATCTTGTAAATAAGTAGGATATCCTTTATTAA TTGTAAATAGGTAGCATAATCATGTAGTTAGGGAAATAAGATATTTTGTATGTATTGTACCTTTATGGTACCTATTATAT ATAATGAGTTCCGCTGTGAAGTTGGAATGCACGGATTCACCAAATTCCTCTTGTCTCTTTCTTTTCATTCAACAACTCTT ATTTTTAATAAACTAACCCTATAAAGATAGACTCTTAAAATAAAATATAAGGTTCTAAAATGAAAGATAGATTCTTAAAC TAAATGATAGACTCTGATTCCATCTTAGAATTTGGGCTATGCCTAACTGTACCCGAAAAGCTAGCGTAGAGGTAATTGTT GCTCTACCCTTTATAAGGACTATTTGACCATATCTCTAGTCAATGTGGGGACTTCTCAACACTTATATGTTACATAGACT TGGTTGAGTTAATGATAATGCATACCATTTGGTTCAAAGTTCAAACTGCGTTGACCAAATAATATACTCAATTAACCTGA TATTTGACTGTTATTTATCAGTCCTATATATTTTTTCATATCACAAAGAACACATGTATGTTAACCAAATAATAGAAATA CTTAACCACATATTTTTTGGAAAAACCAAATATATATTAATAAGGGCCCCCAATGTTCAAAAGCAAGCTTACAAAGGAAG ACAACAAAACAACAATTAAAGGAAAGAAAAAGAAAACAAATACAGGAACAAACAAGAAAAACAAAGTTGTATACAAGCAC CACTTTCGAATCTTTTTAACTACAATATATTAATTGTGGTGACTAAGTGTGTCCAATGTATGTCTACACTGCCCCTGGGC CTAGATATCATTATTGATTTACTTTTCCCTTCCTTGTTCATAGTGTGTATTTCATCTTATTGTCTTCTAGTAAGATTCAT TGTTTTACATATAGTGTTATTTGAGATTATTTGAGTATTTAAAATAATGTTTTGGTCCTTATTTCAATGCTGTTGCAGTT ATACAATCAACTGGTTTCAATGTAAATGATGTTTATCGTGCACGGTTTTCTTCTGTTACTGAGAAAGATGTCTTGAAGGC TCTAGACAACCTTGTCAGACCCAACAGAGATGAGGCACTGGCAGTAGATGCTAGGCAAGAGATAGATTTGAAAGTTGGGG TTGCCTTTACTCGATTTCAGACAAGTTTCTTCCAGGGAAAATATGGAAACCTAGACTCCAAAGTCATCTCGTTGGTTTTC TGCTCTCTTCTGTCTTTTTGCTTGTTTATCTTGTATTTGCTGTTCTGGATTTTTCTATGTCAAGTAACCAATTATCCCAA CAGCTTAAGTTTTTGGGTAAGGACCACATGAATAATTTTATATTATATTCTAACATGCCTCCTCACGCAAGAGCCTACTC GGGCTTGAAGCATGTAGAATGCACTGGCCCACCTACCATCTGCTGAAATTCCACTTTTTATTAGAATAATGAGGGCTGCA AGGATCGAACTCTAGACCACTTGGTCACAGAGGCTCTGATACCATGTTTTTTTTTTGAAATAGCTCTGATACCATGTTAA GTAACCATTCACGTGAATGGTTTTATATTATATTTTAACATTCTACTTAGTTCCGCATTCTTCAAATTAATGAAGAAAGG TGGTAATATTTTTTGGTTAGATTAGATCTATTCAAAAGTAAAATATTTTAACTTGTACATATCTGATATTAACAATCAGC TGACAAGAGAGTTGCAGCTTAATGATTTAAATATAGACCGTACCATGGAAATATTGTCACAAATTAATATTAGGGAATTG ATTAACTGCTATGAGGGTTTTCTTCATTTTAGGGTGTAGTAAAAATCAAGATTTTACCTAGGATGGGTATTAGAGAGAGA ACTGCTTCATTCATCGCTAAACAGAACTGTAACATATATATATATATATATATATATATATATATATATATATATATATA TATAACGGGTTTTTCAAGATATTTTTTGCAAATACAGATCTTCTAAAGCATGATGAGCTTGTGTGAGTAACAACCACTTA ATTTCACCAAATCGAGTTCAAATCTTGGATCGGGATCAGCTGGGTGTGCAGAAACCATAAGATCATGTGATTTCACGAGT CAGTGCGCACTACGCTTGTAAATGAACTATGATGATCTCTGGAGTCATTGACTGTGCTGCTTTCAGATCTTGCAATGATA GAATTGTTTTCAAGATTAACTAGATGTTTGTCATGAATCTATTTGCTTTTAGCTTGAGCTTGTGGGACATTTAGTAATAT GACATGGTATCCTAGTTTGATTCTTTGTCAATTAAGTAGCTGATGATCACTTTGTAATAAATTAATAAATGATAATTGTC TTTATTATGGCCTTGCTGTGCTTTGTTCTATTCTGCCTTTCATGTTCAGTTATACATTTGGGATCTGGGATTGGTTAGGT TGCTAGGCTTGATAAGCACTGCCATCAGGGAATGCAACCTGCAATATCGTCACTAGATCTAGTGGCATCTTAACTTCATT CAATTGCAGGAATTATCACACTTCACTAAATTTCTAATCGTTAAACTTTGTGTTAGTAGTTTGGTCAAACATAGATGGCA TTATTCATTGTCTTAATTGCTGCGTATTTCAGCTATGGACCATGTCAAACTCCTACTTTAGGATTTTGCGTGCAGCGGTA TTTACAAATAAATACTTTCAAGCCAGAAAAGTTTTGGAGTGTGAACCCATACATAGTTCACAGTGGCTATGAAATCCAGC TCGAATGGCAACGTAGTAAATTGTTTGACATAAATGTGAATATTTCTATCTCTTATTATTGTTGTTTCTTTGTCTCAAAT TTACAAAAGACATCCATTTGATACTTCCATGCCATTGCAGGTTGCTACGATGTTTCAAAAGCTGGTTGCCGAGGATGGAC TTTTGGAAGTGACCGAAATATCAGAAAAACAAGAAACCAAAAGTCGCCCTGTTGGTCTAAACACAGTGAATCTTCTAAAG GTTAGAAACCAAAGGGGATGGTAGTGTTTTATCTCTCACCAAGTAATATAAACAGTTAAAATATTTGTAATTGTTAGAAT ATAGTGTACAGTTATTAATTATTTAATTCCAGATAGTTTCAGTTTTGTTGTAATCTGGTAGGACTTTTACAGAATAAGTT AGACAGCTGTCGCTCAGTTAGCTTCTGATTAGCTTAGGTGTCAAGCAGTAGTTCTAGAAACTGATTCTGTTGGAACCAGT TTTTAGTGGTTAGCTGTCCATAACAGAAAGCCTAAGAGGCTAAAAAACTAACTGAGGAAATAATACTCTGCAAACAGAAA TACATTCAAACAACAATACAACCATTATTCAACTAAGTATACAACACATAATACTCTAATAATATGAGATAAAAAGAGGG AAGAATAAAATATTCTATCATAAAATATTGCTATTTAAGACAAAAATTCCTAGCAGAAAAACAAACCCCAGGAATGGGAT ACTCTGCAAGCTGTGAATCTGAAGGAAAGGATGAGGTGAGTTATAGGGACTCAGTCAGGTACAATAAAGTGAATACAAAG AGATATAGTAATCGCTTGAGTGTTCAAAACCAGGCATAGTTCAAATATCAGAGTTGAAATGAAAAGGTATCAACCTTTAG CTTGTATTAACTATGAGTGCAAAGGATTAAGGTGAGAATGGAAGAAAAATGGTGAAATTAGAGAGACAAAGGAGTTTCCC AAGAGGGGAGAAGCGAAGAGGCGAGATATGTGGGGGAAAAAGTAATTTGTGGTCTTCAATCTCTTTGTATGTTTGTGTGT GTGTTTGTATCTCACTCAAACTGTGGGTTTCAGCAAGATTTTGGAGTCAGCATATTATATATATTATATATATTTAACCC AAAACAGTTCCTTTTCTCACCTCTGGATCTGACCCTAAGAGTGGAACAAAGGAGTTTTACTTCATTGACTAATAACTGAA ATAGTTACATCTTGCTTTCTTTTTAGTACACTTGTTTAGATAAAATAACTCATGTACTATGTTTATTCTTTCCAGGTTGC TTCAAGTGCTCTTGGATTTGGTCCTCATATGGCTATGCAACTAGCTGAACGGTTGTATACTCAAGGCTTCATCAGGTTTT CACATGATTTCATTCGTGTATAATATTAAAATGTAAGATTTACATTATTTTTTTTGCATGCAATAACCTATGATTGGTTT CTACATGATGTTTCTCAAGCTATCCACGTACAGAGAGCACAGCATACCCACCTTCATTTGACTTTCGTGGTGCACTCTCT GCACAAGCAAATAATCCAACTTGGGGTAATTATGTGGAAGGGCTACTTACCAATGGTTACCTGAAACCTCGACTTGGAAC TGATGTAGGCGACCATCCTCCCATTACTCCAATGAGACCTGCAGCGGAGGATATGTTGGGCAATGATGCTTGGAAGCTGT ACCAATATATTTGCCAACACTTCATAGGGACAGTGTCTCCAGACTGCAAGTATGCAAGGTAAAAGCTCAAGTGTTTCAAC AACATTTCTCAGTTATCTACTTTTATGGTTTTGGTTCATTCAGTAATTTCACTAATGTCCTTTGCCTTTTATTCGATTTA ATGTTATTAGAGACAATGTGTTAATTTATCCTGGTTGTGTTCTCTCATTGATATCTTAGTCTTTTTGAGATAATGATAAA TGATACTGAATGCTGAGTACTGGGGTTAAACATTCTGTGACTATGTATTAGGCCAAGGTAGTTTTTCTTGGTCAGTTCAT AGATATGTAGGCCCTTAAACCTATTGGAATTTTCGGCCTCCCAATTTTCCCATGTAAGACTGCAGCAAAATTGCAAAAAT GCGTATTATATAAGATGCAGAGTGTGGCTTCCCCAAAATTTGTTGTTTATCATCATGGTAATCATGTAATTGCTAGGTAT TATATTGACACAGTGTTTGCTTTTCTTCAATCTAAGCTTAACCTTTGTCCAAACCTTTGCAAATATTTACCCGCCCTTGC TTGGTCTGATTGCATGAACATGGTAAACTTGTAGTTGTAGTTTTCTCATGCACTATTGTCGTACTTGCAGGAGAAAGGTT GAGTTTTCAATTGGGGGAGAGTCCTTTCATTGTACAGGGCAGCATGTTATCACCAAAGGATTTACGGCTATAATGCCTTG GTTGGCAATAAATGATAAAAATATTCCATCATTTATAAAAGGGCAGAAAATAGAAGTATCAAAGGTGGAGCTCTATGAGG TAAGTGTGGAACCCTTGCGACTCATGTTCAGTTTCTATACAGTGTTATGTCTAATTTTGTTATTACTACTATTATCATTA TCACTGTTATTATCATTATCTTCTCCAGCGTCCTCCAATCACCTTCCAGCCACCTTCCGACATCTTCTGGTGACTTCTCC GGTGTCCTCCTCCTCCTCCTCCCCCTCCTCCTCCTCCTCCTCCTCTTCTTCTGCTTCTGCGTTTTTTGGGCTGTCCGTTG ATCTGATTGATAAGATATATTGTTATGATAAACTATATTGTTATCTTATGGTAGATTAGGATAAGATACTATTTTTCTTA TTTAGATTAGGGAACCTAGTTTATATGTAGTGCATTCTGAATCATGATAATTGACATCCATTGTTCAAACACTTTCAGTT TAATTGCATAAAACTCATTTCACATGAAAATTATGTGTGCATATTACTGATGGCAGTACCATGATTATCCAGGGGACTAC AACACCTCCAGATTATCTTACTGAAAGTGAACTGATCTCCCTGATGGAGAAAAATGGAATAGGAACAGATGCATCAATTC CTGTTCATATTAACAACATATGTGAACGGAATTATGTGCAGGTAGTGGATATAGGTTCGTGGTCTGTGTTTATTTTGTTC AATGTCAGGGTATTCACTTCACATCCAATTGCAGGTACAAGCGGGCAGAAAGCTTGTCCCGACTACGTTAGGCATAACTT TAGTAAGAGGCTATCAATCAATTGATCCAGACCTCTGCCTGCCCGATATCCGTAGCTTCATTGAGCAACAGATTACTCTT ATTGCTAAGGGTCAGATTGATCATCATCGTGTAGTGCAGCATGTAATCCAACAATTCAAGCAGAAGTTTTGTTACTTTGT CAAGAAGGTTGGCTGACTAACTTTTGTGCTTGTCTTGTTTCATCATGTCTTAATTTTCACAGCATGACAGGTTTTCATTT GTTTATTTTTTCTCAATTTAAGTTTGTTTTCCCCTGACCCTCCTTCCATCACCCCCAAAATGAACATGCACTTGTTGGTT TTGAACTTGTTTGACTGAAATTTTAAAATTAATTCATTCTCATGCTTTCAATCAGACCAACCTTAAGTGCATTGGGTGAC GTTTTAAAAATTTGCTTTACAACTTGATCTTTGTTTGGTAAAAACTTTTCAAAATAAGTTAGTCTACCTTATTTTTAAAA GCACCTAAGGCGCTAAAATTCAATTTCTTTGGACATCAGGCGAGCACCGTCCAACTTCCGGTGAACACTGTGCGTTGACT TTCAGCCTATCTCTGGCGACCACTGCCCTTGTTTCCTTGGGCTTCTGTTCTGCTGTTTTTTAATTTCCTTTCTTTTCCTC TTTATTTTTCTATTCTCAATCATTTCATTTAGTTACCCTTCGGTTCTCTCCTCTCTTCTCTATCATTTCATCATGTTATG AATTTTAAGTTATATTTTCCATTTGTTTAGTAATTATATGTATATACTATTAAACTGTTAATTATATAAAATTATATATG AAAATCAGAATAGCGGCCATCCCGCTATGCGCTAACCCACTTTAGGGGTTGGCCGCTATCCGCGATTGCTACTATGCTCC ATTGACACCTGCAAAGGGTGGCAGCAAAAGGGCACTATGCGGACAACAAAGGAGCAAAGGAAATAAGGCTGTAATAAGAC GGCTAGGGCTCTTTAGACCAGGAGCTCTAATATCAAGTTGAAATGAGAAGAAATGTAATTTTGTTTCTTATTACAAAGTA CAATACAAACTACGATAGATGGTTGCACATTAATAGACTAAGGCTCTCCTAATTAAAGAAATAATTACAAATAATTTAAT TTGGACAAAGCTCCTATTTACAATTGTACGAATCATATAAATAAGGAAATAAATACCTCATGATCTTATAATGATATTAC AACAGATAACTAGAGATGAAAGAAGGTCAAAAGTTTCAAAACAAATGAACAAAAGAAAAAGTCCAAAGAGCCAAGTGATT GGCGGGAAATGAATAAAGAAAAATGACACGATGGATGCTACAGTGAAAAGTTATGTAAGTTTATTAGTTGTAGATTACTA TAGTATTGGCAGATGTGCAGGAGTCTTTGTGAATGAACTTTTTAGTATCCGTGAGTTGCTGCCTGTTGCATTTCTTTGAT CATGAGATTCTCCACAGCTTCCTTCGAAATTATTTAATCTGCACATGTAGTTCACCATGTATAATAAAGTTGCAGATTTC ATGAATTTATTCTCTCTTATACTAATTCTGTTGCTTTCTATCTGGCCCAGATTGAAGCCATGGATGCATTATTTGAAGCA CAATTTTCCACACTTGTTGATTCAGGCCGTATTCTTAGTAAATGTGGGAAATGCTTGCGGTATATGAAGTACATTTCTGC TCAGCCCTCACGTTTATATTGCGGTATATGTGAGGAGGTGTATTATCTTCCACAGAAAGGCACAATCAAGGTATACTATG TAACTATAATATATTGTAATCTATCAAACTTCCTTGATATTGGTGATTGGTTTCTCAATCAAAAGAAAATGGCCCTCTTT CTAATATAGTGTAAAGACTTCACTTTCCATTTACCATCTCTCTCTCTCTCTCTCTCTCTCTCCTCTTAACTGCACCTCTT CCTCGTACTGTCTCTCTTCTAACAAGACAACCCAGTGCCCCTAAAGCTTCTGCCATGGCTGTGTCCAAGTAAGAGTCAGA GCTATTTTAGAGTTTAGAGTTTAGACATATTATAGGCAGTCTTGTCTTTTTTCATAAGAGGTTGATCCCATGATTTGAAC CAGTGACATCCTAGGCATGGCGTGGAAGCAACACTAACTGTTGCGCCAATTATCTTCTATTGTCTCTCGTTCTACATCAA TTTGGTATCAATGCTAACGTCCTTTCAAGCATATGTACCTTTAGCCTTGTCAAATATATCATGCAAAACCGGAAGCATTT AATCACACTAAACCGCTGACTTACAAATATAGAATGTTTCTGTCTAAAGGCTGTTAGAACTTGCCATTTCTTTGCGGAAT CTTTGAGAGCTTTTGCATATAAATCTCTCCTTGTACAACCACCCCTGCCACTTATGGGAGGCTGCTGATAACATTCCACG AGATTGATTGGCAAGGAATCATTTCCATTTAATATTAAGTCTTTTCATCCATTTGAGAATGTTTCTGTTGCTATATTATG TTGTGTGATTAACTGGTTTCTGGTATTTTAGAATGTTTATGTTGCGGTATTATGTTGTGTGATGTGCCCAATATCTGTTA CTGTTACCCACATTTGCATTAACTGGTTTCTGCAGCTGTACAAGGAATTGTCTTGTCCTCTAGACAATTTCGAGCTTTTG CTCTGCTCGATGGGCCCAGATGGTAAATCTTTCCCTCTCTGCCCATACTGCTACAGCAATCCCCCATTTGAAGGTATTGA AGCACTCATAAATACGGCGAAAACTAGTACTTCGGGCAAGATTGGCAAGGGAGCTGGCATGCCATGCATCCTATGTCCCC ATCCCACTTGCCCAAATTCTCTGGTTTCCCAGGGTGTATGTGCTTGCCCAGAGTGCAGCGGGACACTTGTCTTAGACCCA GTAAGTGCTCCCAAATGGCGACTTTGTTGCAATATGTGCAATTGCCTAGTTTTTCTTGCACAGGGTGCTCATAGAATTTC CACTACTAAAGAACGGTGCCCTGAATGCGACTCTTCAATCATTGAAGTGGACTTCAATAAGAAAGCAACTCCTCTAGAAG ATGGATCCACTTTGCACCGTGGTTGCATTCTTTGTGATGAGTTACTGCATTCCCTTGTGGAGATGAAACATGGGAGAGGC TTCAGGCAGAGTTCACGGGGAAGAGGAAGAGGAGGAAGAAAAGGCGGGTATAGGGGCAGAGGACGCAGGGGTGGATCAAT GGTGGACCCAAAAATGAGTTTCCGAGATTTCTAA
CDS sequence (LotjaGi6g1v0103100.5) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTTGTTTCTTGTGATCAGATGTTTACAAGGAAAGGAAGCACAGAAGTTCATGAATTTGAGGGGAAGTTTCTTGGTTC CCCTGCACATTTTAAAGTGACATCGGTTATTGGTCATGTATTCAGTGTAGATTTTCCTGGTAAATATCAAGATTGGTCAG CCACAGATCCATTAGATCTCTTTCAAGCTCAGGTTTTAAAGAATGAATCAAACCCAAAGGCGCATATTTGTAGGCATTTA AACCAAGAAGCTCGTGGATGCCGTTTTTTGGTATTGTGGTTAGATTGTGATCGTGAAGGAGAAAACATATGTTTTGAGGT TATACAATCAACTGGTTTCAATGTAAATGATGTTTATCGTGCACGGTTTTCTTCTGTTACTGAGAAAGATGTCTTGAAGG CTCTAGACAACCTTGTCAGACCCAACAGAGATGAGGCACTGGCAGTAGATGCTAGGCAAGAGATAGATTTGAAAGTTGGG GTTGCCTTTACTCGATTTCAGACAAGTTTCTTCCAGGGAAAATATGGAAACCTAGACTCCAAAGTCATCTCCTATGGACC ATGTCAAACTCCTACTTTAGGATTTTGCGTGCAGCGGTATTTACAAATAAATACTTTCAAGCCAGAAAAGTTTTGGAGTG TGAACCCATACATAGTTCACAGTGGCTATGAAATCCAGCTCGAATGGCAACGTAGTAAATTGTTTGACATAAATGTTGCT ACGATGTTTCAAAAGCTGGTTGCCGAGGATGGACTTTTGGAAGTGACCGAAATATCAGAAAAACAAGAAACCAAAAGTCG CCCTGTTGGTCTAAACACAGTGAATCTTCTAAAGGTTGCTTCAAGTGCTCTTGGATTTGGTCCTCATATGGCTATGCAAC TAGCTGAACGGTTGTATACTCAAGGCTTCATCAGCTATCCACGTACAGAGAGCACAGCATACCCACCTTCATTTGACTTT CGTGGTGCACTCTCTGCACAAGCAAATAATCCAACTTGGGGTAATTATGTGGAAGGGCTACTTACCAATGGTTACCTGAA ACCTCGACTTGGAACTGATGTAGGCGACCATCCTCCCATTACTCCAATGAGACCTGCAGCGGAGGATATGTTGGGCAATG ATGCTTGGAAGCTGTACCAATATATTTGCCAACACTTCATAGGGACAGTGTCTCCAGACTGCAAGTATGCAAGGAGAAAG GTTGAGTTTTCAATTGGGGGAGAGTCCTTTCATTGTACAGGGCAGCATGTTATCACCAAAGGATTTACGGCTATAATGCC TTGGTTGGCAATAAATGATAAAAATATTCCATCATTTATAAAAGGGCAGAAAATAGAAGTATCAAAGGTGGAGCTCTATG AGGGGACTACAACACCTCCAGATTATCTTACTGAAAGTGAACTGATCTCCCTGATGGAGAAAAATGGAATAGGAACAGAT GCATCAATTCCTGTTCATATTAACAACATATGTGAACGGAATTATGTGCAGGTACAAGCGGGCAGAAAGCTTGTCCCGAC TACGTTAGGCATAACTTTAGTAAGAGGCTATCAATCAATTGATCCAGACCTCTGCCTGCCCGATATCCGTAGCTTCATTG AGCAACAGATTACTCTTATTGCTAAGGGTCAGATTGATCATCATCGTGTAGTGCAGCATGTAATCCAACAATTCAAGCAG AAGTTTTGTTACTTTGTCAAGAAGATTGAAGCCATGGATGCATTATTTGAAGCACAATTTTCCACACTTGTTGATTCAGG CCGTATTCTTAGTAAATGTGGGAAATGCTTGCGGTATATGAAGTACATTTCTGCTCAGCCCTCACGTTTATATTGCGGTA TATGTGAGGAGGTGTATTATCTTCCACAGAAAGGCACAATCAAGCTGTACAAGGAATTGTCTTGTCCTCTAGACAATTTC GAGCTTTTGCTCTGCTCGATGGGCCCAGATGGTAAATCTTTCCCTCTCTGCCCATACTGCTACAGCAATCCCCCATTTGA AGGTATTGAAGCACTCATAAATACGGCGAAAACTAGTACTTCGGGCAAGATTGGCAAGGGAGCTGGCATGCCATGCATCC TATGTCCCCATCCCACTTGCCCAAATTCTCTGGTTTCCCAGGGTGTATGTGCTTGCCCAGAGTGCAGCGGGACACTTGTC TTAGACCCAGTAAGTGCTCCCAAATGGCGACTTTGTTGCAATATGTGCAATTGCCTAGTTTTTCTTGCACAGGGTGCTCA TAGAATTTCCACTACTAAAGAACGGTGCCCTGAATGCGACTCTTCAATCATTGAAGTGGACTTCAATAAGAAAGCAACTC CTCTAGAAGATGGATCCACTTTGCACCGTGGTTGCATTCTTTGTGATGAGTTACTGCATTCCCTTGTGGAGATGAAACAT GGGAGAGGCTTCAGGCAGAGTTCACGGGGAAGAGGAAGAGGAGGAAGAAAAGGCGGGTATAGGGGCAGAGGACGCAGGGG TGGATCAATGGTGGACCCAAAAATGAGTTTCCGAGATTTCTAA
Protein sequence (LotjaGi6g1v0103100.5) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFVSCDQMFTRKGSTEVHEFEGKFLGSPAHFKVTSVIGHVFSVDFPGKYQDWSATDPLDLFQAQVLKNESNPKAHICRHL NQEARGCRFLVLWLDCDREGENICFEVIQSTGFNVNDVYRARFSSVTEKDVLKALDNLVRPNRDEALAVDARQEIDLKVG VAFTRFQTSFFQGKYGNLDSKVISYGPCQTPTLGFCVQRYLQINTFKPEKFWSVNPYIVHSGYEIQLEWQRSKLFDINVA TMFQKLVAEDGLLEVTEISEKQETKSRPVGLNTVNLLKVASSALGFGPHMAMQLAERLYTQGFISYPRTESTAYPPSFDF RGALSAQANNPTWGNYVEGLLTNGYLKPRLGTDVGDHPPITPMRPAAEDMLGNDAWKLYQYICQHFIGTVSPDCKYARRK VEFSIGGESFHCTGQHVITKGFTAIMPWLAINDKNIPSFIKGQKIEVSKVELYEGTTTPPDYLTESELISLMEKNGIGTD ASIPVHINNICERNYVQVQAGRKLVPTTLGITLVRGYQSIDPDLCLPDIRSFIEQQITLIAKGQIDHHRVVQHVIQQFKQ KFCYFVKKIEAMDALFEAQFSTLVDSGRILSKCGKCLRYMKYISAQPSRLYCGICEEVYYLPQKGTIKLYKELSCPLDNF ELLLCSMGPDGKSFPLCPYCYSNPPFEGIEALINTAKTSTSGKIGKGAGMPCILCPHPTCPNSLVSQGVCACPECSGTLV LDPVSAPKWRLCCNMCNCLVFLAQGAHRISTTKERCPECDSSIIEVDFNKKATPLEDGSTLHRGCILCDELLHSLVEMKH GRGFRQSSRGRGRGGRKGGYRGRGRRGGSMVDPKMSFRDF
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 |
---|---|---|---|---|---|---|
CDD | 2 | 138 | 137 | 3.90134E-36 | ||
Gene3D | 2 | 141 | 140 | 1.7E-40 | – | |
SMART | 6 | 116 | 111 | 3.5E-4 | ||
PANTHER | 11 | 826 | 816 | 0.0 | – | |
PANTHER | 11 | 826 | 816 | 0.0 | ||
SUPERFAMILY | 23 | 602 | 580 | 1.96E-146 | ||
Pfam | 28 | 125 | 98 | 8.4E-12 | ||
PRINTS | 90 | 103 | 14 | 1.4E-11 | ||
SMART | 117 | 213 | 97 | 2.3E-32 | ||
Pfam | 141 | 551 | 411 | 8.2E-109 | ||
CDD | 144 | 562 | 419 | 8.4655E-125 | ||
Gene3D | 148 | 562 | 415 | 1.9E-154 | ||
PRINTS | 183 | 201 | 19 | 1.4E-11 | ||
Gene3D | 207 | 460 | 254 | 1.9E-154 | ||
SMART | 259 | 514 | 256 | 4.0E-77 | ||
Gene3D | 267 | 392 | 126 | 1.9E-154 | ||
ProSitePatterns | 296 | 310 | 15 | - | ||
PRINTS | 301 | 310 | 10 | 1.4E-11 | ||
PRINTS | 378 | 394 | 17 | 1.4E-11 | ||
PRINTS | 476 | 490 | 15 | 1.4E-11 | ||
MobiDBLite | 802 | 840 | 39 | - | – | |
MobiDBLite | 805 | 823 | 19 | - | – |
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 | DNA topoisomerase activity | Catalysis of the transient cleavage and passage of individual DNA strands or double helices through one another, resulting a topological transformation in double-stranded DNA. | ||
Molecular function | DNA topoisomerase type I activity | Catalysis of a DNA topological transformation by transiently cleaving one DNA strand at a time to allow passage of another strand; changes the linking number by +1 per catalytic cycle. | ||
Biological process | DNA topological change | The process in which a transformation is induced in the topological structure of a double-stranded DNA helix, resulting in a change in linking number. |
Expression pattern of LotjaGi6g1v0103100.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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