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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0670100 |
Transcript ID | LotjaGi1g1v0670100.2 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | DNA helicase INO80; TAIR: AT3G57300.1 DNA helicase INO80-like protein; Swiss-Prot: sp|Q8RXS6|INO80_ARATH DNA helicase INO80; TrEMBL-Plants: tr|I1N8X6|I1N8X6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0670100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:123363261..123375040) extracted from Lotus japonicus Gifu genome v1.2.
ACTCGACAGCGCACGTTAACGCAAATGTAACCTCACAAGCGCACGTTAGCACCGCCAGTGCTTCCCTGCAAACCTTCTCG TCCTCCTCTCCTTCTCCACTTTATCCTACGCACCTCGATGTTCTCTTCCTACATTTAGGGTTAGGGTTCTTCTTCTCCTT TTCCTTCATGCTTCGTCTCGTTCCTTCATTCGCATTGTAGACTCAACACAGCACATGGATCACACAACAAATCCCAACAA CGATTCCCTTTCCTACTCCACTCTCTTCAATCTCGAGGTTCGGATTTCCCCAATTTTCGTTTCTCTGTGTTTCTGCATGT CGTGGTAAAAGATTGAATCTTTCTCGCACGAATTTTATTTTCTGAATTGGGTTTTTCTGTGATGGACTTGTATGGTTGAT ATGAAGGTTTTTAGCAACAAAAAAAAACAAAAATTTGAAGGGGTTTGGTACTGTTTTCTGTTTCTGATTACACTGTTTTG TAGCCTTTGATGAACTTTCAACTTCCAGAACAAGATGATGATTTTGAGTATTATGGGAATAGTAGTCAGGATGAGAGCAG AAACAACAGCCAAGGTAGGCACTGTGTTTTTTTTTTTGGGTTGTTGTTTTTACTTGTGTTTAGCCTGAGAGAGTTTTACC TAGTGCGATCTTTATGATTGTGAGTGATGGTTCTGTTGTAAAGAGTTACTGTTTTGCTGGGAGTTGTTTGTTGGTTTTAG TATTTAGAGCTTTGAATTATGTATGTAATCTGTATTTTTGGGATGCTTCTGGTAGTAGGTGGGGCAATTGTGAATGATAG CAATGGGAGCATGCACGGAAGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAGAGTAGTTTTAACGGCACAC ACATGACGGAGGAACGATATCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAGGTCTAAGGATACCTCGTCT AGTCCGGCCCAAAATCAGGTTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTCACAAGTTAGGGAATGAACG CAGGGGAGGATTACAGGCTCCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAGAAACTAGGGAACTTCCGTG AGGCAAATTTAGTGCAGCGATTTGGCACTGATAGGTTTGCCTTTTTAGCTCTGTTGCCTTTATAGTGTTGGGCTTTTGAA TAATGATAGTTGTTTAAGTTACAAAATGGCCTCACCTTTTGTAAGCTCCTTGCAGGATTATGTATGAACCTCCATCTTTG GACATTGGGGATGGTATAACCTACAAAATTCCTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTTCCAAGCTTCTC GGATATCCATGTCGAGGACTTTTACTTAAAGGGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGCTGTTGATAAAA GGTTTTGGAATAGAAATCGGGCAGGCATGGGGGAACCCATAACCCAATATGAATCACTTCAGGCACGACTAAGGGTCATG TCAACTTCTAATTCAGCTCATAATTTCAGCCTCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAGGGGGCGCCTGG AAACATAAAGCGACATATTTTATCTGAGGGTGGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAAAGGCGACACAT ATGAGGTATCTATTGAACAATAAGTGAGTGATTTTTCCATTTAGCTTTACTCTTCTTTTTTCTGTTTTTTAATTTAGCTT TGTCTTTCAACTGCTTCAGATCATTGAACGAAGCCTACCTAAGAAACAAAAGTTTAAGAAAGACCCTGCTTTAATAGAAA AGGAGGAAATGGAAAGATTTGGAAAGGTTTGGGTAAATATTGTAAGGAGAGACTTGCCAAGGCATCATAGGAACTTCACT ACTTTTCATCGAAAGCAGCTCACTGATGCCAAAAAGTTCTCGGATACCTGTCAAAGAGAGGTATGCCCTGTTTCCCCCTG ATAGGATTGTTTATCTGTTACATTTCATGTTGGTTTGTGGTATACCTAATCTCGCCATATAGTCTAATGCATTGTAGGTT TTGTATTTTTCATTTGCAGTTCAATAACTTGTATCAATTTATTTTCTTTCAGGTTAGAATGAAAGTGAGTAGATCACTTA AATGGACAAGGACTGCCAGTATGCGCACCCGGAAATTAGCTAGAGACATGTTACTATTCTGGAAACGAATAGAAAAGGAG ACGGTACTTATTAATTCCTTGCTGAAGTTTATTGATTTTATTGTGCTGGTGATTCTAGAAGACATATTTTTCTTTGATTG TTGTGGAGTTTAGTTGAACATGATGGCTGCAAACTCTTCCTTATGGACATTTTTTAGAACAAGTTTGATGCATGATAGTT GATGATATATTACTGACTTGCTATGTGTACATATATTTTGTTGATTTGTATTCATCTAATGAATGATAGTCTTGCAATCT TCTTCCTGTTCACAATTTTTTATGTCGTCATCAGTGATGATTGATTTGGATGTTATTATTCACTTTTTCAAAGCAAAGGT ATTTAAATATAGGGTCCGAGGTTTTCAATTTAGTTGTTTTTGATATTCAGATAAGACTTGGGATTTGTTTATTAGATACA TACACCACAATGTTGGTTCTGATCAGGTGGTCTATTTATTTGACATACAGATGTGGTCATCTGTACTTGGAGTTATTTTG TGTATGGGACTATTGTCACGCTGATGTAAAATACACTTGAATATGCTGTAATTTTTCAATTTCATTCCTTGCAGGCAGAA GTGAGAAAAAGAGAAGAAAAAGAAGCTGCTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAGAGGCAGCAGCA AAGGCTTAATTTTCTTATACAACAAACAGAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACTATCTTCAGAAG CTTTGCCCACGGAAGATGAAAATACAAATGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTAATGAGGAGGAA GATCCTGAAGAGGCTGAATTGAAGAGGGAAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGAAGTTTGACAAG CGCTTTTGACACTGAATGCTTGAGGCTGCGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGCTGGAGCAAGTA ATATTGATTTGCAAACCCCGTGAGCTCCCTCTCTCTCTCTGTATGTTGTGTGAATGCATATCTACACTACTTGGAAATTT TTAAATGGCGAATGCAAATTTATGTTGATGTTCATCTGAATAATATTGAGGATTGTGTGATAAGAAATACTGTGTTCATT CTAATCAACTTTATGTATTGCTGTATTGCAGCTCCACCATGCCTGTGGCATCCACTGTTCGGACACCTGAATTATTTAAT GGTTGTCTAAAAGAATATCAACTAAAAGGTCTTCAGTGGCTAGTTAATTGTTACGAGCAGGTTGTTGAGCACTCTTAATA AAGTCTCAATGATTTATTGCTTTTGGTTTCTAATAAGAATGCTTTTGGGACCTTTTAGGGTTTGAACGGTATTCTTGCTG ATGAGATGGGACTTGGAAAGACCATTCAAGCTATGGCTTTTTTAGCCCATTTAGCTGAGGTAGCTATTCATTAAGCTTTT TTTGAAGAACTCCATGACTTTATTTTAACTTGCTTGTCGCATGCAGGAGAAAAACATATGGGGACCTTTTTTGGTTGTTG CACCTGCCTCAGTATTAAATAATTGGAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTCCTTATTGGGGT GGGGTTTCAGAGCGAACAGTGCTCAGGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGTAATGTTATTCTCTTTTGCA TTCATAACCTTAAAAAGTACAGATGCCAATAGTACACTTTTGGCTTGTTTAGTGTTACATAATTAATCTAAATGCCGATA GTACACTTATAGTCGTATAAGCTGCCATGTCATCAAGTTTTCTAGGCGTTTTAAAGGGTATTGATATTTGGGATGAATTT GGTCAAATTAAGAAACATTTTCGACAAAATAAAACAGTGTAATTATGGGATGAAAATGCAACCCAAAGTAAAGGGACAAA GGCTGTGTTTGATATAGTGTTATTAATCCCGTATAGTGGGGCATAGCTGCTCACTGAAAAAACACTATAGTGGGATGGCC GCTATTCTGATTTTTTTTTATATATAATTGATATAATATACACTAGTATACATACATAAACTCTTAAAATGATAAAAAGT ACTCAACTTATGATATTGTAATTAAGTTTGAAAAGTCAGGTGACATAAATAAAACATAGAAGTCAGACCAGTGAGAAATT AAAAGGGAGTGATTAAAGAAAAAATAGAGCCAGTAAAATAGGAAAAAGAAAAAGGAACCAGAAAATAGACAAAATAATCA ACAAAAGAAAGAAAAACAGGGGGAAAAGAACAAAACATCACTGCTAGCCGCTGGATGAGAATAAATGGGACTGTTGGGGC TGTAAATGATCGCTGGAACCTCGCCGGTCTTCACGCGGTGGCTAGTATGTGGTAGCTTGGTTGGTGGAAGATTGGTCAGA AGCTGGACTAGGTTGCGGAAATGACTGAGGTGTGAAGAGGAGACTCCTTTAAGAGGAATGTTTTTTTACCTTTTAAACCT AAAACCCAAAACTATGCTCCTAAAAGTTTACCCTAATGTGAGTATTATGAGGGTAATTTCAACCGGTACAGGCATGATGT CAACCGCGCCGATACGCAATGAACTGTAGTGGCCATGGGCCTCTATCTCACGCTACTAACAAGCCTGGTTTAATATCTAA TGGATGGAACATAATCAAATCTATCTGAATCGAATAAAGTTAGAATTCCATATTTTGGGTATTTTGATGATTGAAAGGAG AAGAATACTTGTTACATTCTGTCCCATTGCTCCTAAATTGGAGGGGAAGGAAAACCAGGGTATTGGATGAAACCATTTTA TTTGTTCCATTCTGTTCCATCTTATTTTAAACAATCAAAACAATAGAACCTATTATGATTCCATTTCTTTCCACTTCATT TCATCCCTTTCCATCAATTGAAATATAGCTAAAAAGTAAAGTTTGTCCAATTTGTAATCATATTTGAATTTTGAATCTGA CAAAAAATGGCTAACTGAGTACATTTTAAAAAAACTATTGTGAGAGTTCCTTTAAGTTGAGAGCTCTTTGTATGTGGTGG ACCTTTGTGATTGACGTGAAATAATGATTATCTCACTTTTAAGTTTAGTCAAGCAAAACAGTTGGGTTTTAAGAAAGTGA AGTAAAGGATATCAAATGGTAGAATCCCCTTTCAATCAGTGTAGATATTTTACCAATATTAATTCACTATTCATTTGCAT AGAATCATCTTGACTCATTTGCATATAATCATCTTCACTAAAAACCTTTGGAATTGTGAGGCTAATACAATATTTTGGCC CACATCTGCCACTTGTAAATTCTACTTATAATTTATCTTTTTGGTCTTTGATTTTTATCCCTCTGAATTCTATTTTTACT ATATTTTATATATTTACAGGGAGGCTAAATATCACATTCTTATTACAAGCTACCAACTTTTAGTAACTGATGAGAAGTTC TTTCGGCGCGTGAAATGGCAGTATATGGTTTTAGATGAAGCCCAGGCAATCAAAAGTGCAAGCAGGTTTGTGATAATCTA TATTTCTGCGATGCAGAAGTGAATGACATTCATAATTACTTGGTTATTGTTCCTTACTTCCTACCATTGTTTTAAACAAA ATTTGATTAATTATTTTATGGGGTGCATTTTTCCTGATTGAGTTGTGTATAATTTTGTAGATCTTTCTTATTTGTGTGGT TAATACAATATTTGAAGTTACAGTAACATCTGTTTTTGTGATTGCTGCCCTTATAAAAACTAAATTTCATCCAACAGTAT AAGATGGAAGACACTCCTCAGCTTTAATTGTCGGAATCGCCTACTGCTAACTGGTACACCCATTCAGAATAATATGGCTG AGTTATGGGCTCTTCTGCACTTCATCATGCCAACTTTATTTGACAGCCATGAGCAGTTTAATGAGTGGTTTTCAAAAGGG TATGTTTTCCTCGTTATCGTCCTTAGATACGTTTGCTAGTTTAAGTATGGTCTAACAATCATTTCTGATTTATAACATGC CAGAATTGAAAACCATGCAGAACATGGGGGTACTTTGAATGAGCACCAACTTAATCGGTTGGTAAGTTTGTCTTCCCTGT GTGATAGTAATAGTAAGGAGATAGTTAGGATATTTTATTATTTAAATATTATATTGAGTTTTTTAATCAGATATTTTATG GGCATATAATAACCTATGTTGTGGAATGAGGGAGGGGGTTGCTTTGGGTCTCTTCAAATTAGAGGAAATTGTTGGTGTCA TTCTTTGTGGCCTTTGTTGGGTCTTAAATTTCTGGGATTTTTTAAACTTATGAGTTGTATTAAAACAGGGATACTACAAT AGGATGTGTAGTATGGTGGCTTTTATTTTTATTATTGCTTTTAAGTTCTAATTATTATATTTGGTTTGTTTCACTTCTTA GTTTTTATCATTTTATAATTTTTGGCTTATATTTTGGGTATGTTCTCTTAACAGCATTCAATTATAAAGCCTTTCATGCT GCGACGTGTTAAAAAAGATGTGGTTTCTGAGCTGACTACAAAAACTGAAGTTACGGTCCATTGCAAGTTGAGTTCTCGTC AGCAGGCTTTTTATCAAGCAATTAAGAACAAGATATCTCTTGCTGAGTTGTTTGACAGTAATCGTGGGCAGCTTAATGAA AAGAAAATCCTGAATTTAATGAATATTGTTATTCAACTAAGGAAGGTAGACAATCCATATTGTTCAGGCTTTATTTCCCA TGCTTTAATTTTCGTATCAATTGGTTCCTTCCGAAATCAGGATTATTGTGTTTCAATTATGTCATGTTCTTTTTACTTCC CACCAAGATTGCGCATTATAAATTCTTTAAATTTGATAGGTTTGCAACCATCCGGAGTTGTTCGAAAGGAGTGAGGGCAG CACATACCTTTACTTTGGAGAGATTCCAAATTCCCTTCCACCTCCTCCATTTGGGGAGTTGGAGGATGTATATTATTCTG GTGGTCACAACCCCATATCCTATGAGGTATTTCTTCTTGCCTTGTGTCCAAAAATTCATTTTTCCTCCTCTTCAATTCAA TGTCCCATATTTCTTATTCAAGTTCTTTTAACGTTCCTAAGTTAGAAGCTCTCTTAAGTTGGAAGTAAAATTTAAATGTT ATATCACAGTGTGTTTGACGTCCTTTCGATTGGATTTTACATGATACTTATGGTTGAAATTATAGGGTCTAAATCGTCAA GGAGAAAGAGGGAAAATAAACTTCCGATAATGTTCTCTTAAACTGATATGATGTGTAATGATGTGATACAAAATGCTGAC TTAATGCTCCTATGCTTACTCTTAACTAGAACCTAATTTTTGTTGCAATTTGGCTTTTTATTATGAAAGGAAATTTTGTT TCGATATTATGTTTACCCTTTGGAGAATCTTTCATATATTGGGTTTTCTTTTGTTTTTGTATTGAGTTCTCCCTTTTGCC CTAGTAATTAGCTTCTCTGCTTCATTATGTTGACAATACCACCTTCAGTTCTTTTTCTTATTTTTGTGTCCCGTTTTTTC AGATACCAAAAGTTGTCTATCAAGAAATATTGCGAAGTTCTGAAACTCTCAGCTCAGCTGTTGCTCATGGTGTCTGTAGA GAGCCTTTACAGAAGCATTTTAATATTTTTACACCAGCAAATATTTATCGATCTGTGTTCTCAGAAGATATTCATGTTAA AAGTGGAAACTTTGGTTTTACCCATTTGATGGATTTGTCTCCACAAGAGGTGACATTTCTGGCTACTGGTTCTTTTATGG AGCGTCTTTTATTTTCTATGACGAGATGTGAAGAAAAGTTCATTAATGAAGTGGTAGACTTTGTTATGGAGACCTTAGAT GATGATGATCCAGGATGTAGTTACCTTGATAAAGGAAAAGTGAGAACTGTCACACGAATGTTATTGGTGCCGCTAAGATG TGAGACTAAGTTTCTTCAAAACAGTTTGCCAACGGGTACTGGCCATGCTCCTTTTGAGGCCTTGGTTGTCCCACATCAGG ATAGGCTTTCATCAAATGCAAGGCTTCTTCACTCTGCTTACTCATATATCCCAAAAAGTAGAGCTCCCCCAGTATGTTAT CTTTCTTTACTAGTCTTCAGCTATTTTCCCAAAATAAGTTGTCTTGTTTTAACAAAATGATAATTAAACTGTGTTTCTTC TTTTCATCTTCTTAGATTGGTGCTCACTGCTCTGATAGAAACTTCTACTATAAAATGATTGAAGAATTACATGATCCCTG GCTTAAGAGGATGTTTGTGGGATTTGCACGTACTTCTGATTGTAATGGGCCTAGAAAGCCAAATGGTCCTTCTCATCATT TGATTCAAGAGATAGATTCTGAAATCCCTGTTTCTCAGCCTGCTCTTCAGTTGACACACAGCATTTTTGGGTCTTCTCCA CCTATGCGAAATTTTGACCCAGCAAAATTGCTCACTGTAAGTGTTGTTTTTACTCCTTTTATTTCTTTCTCATGGAGTGC CTCCTCATTTCAACTTTCATGTGGAATTAATCTTCTAAGTCAAATGATAGGACTCTGGGAAGCTTCAAACACTTGATATA TTATTGAAACGCTTACGAGCAGGAAATCATCGTGTTCTTCTGTTTGCTCAGATGACCAAGATGCTGAATATTTTGGAGGT ATTTTTAAACTTTCCAGTGTTAAACCTTTTGATATTAGTCGTTTGTGTATACTGGTTTCATTTTGACTTGTTCAAAAATG TAAAACATGGATATATTAATGAATAAAATCAGTCATTGTGTTAGCCTCTTGGTGGTGGCCCATTTCCCTTCAATGTGATG GTTACATGAAATCAGCCTGAGAGACCTGACATGCATGCTCATGTTTGTCTATGTTTCTAAAGAAACTACATGAGTTTGAT TCTTTTTTATTTTTTTCTAAAGAAAACGTGAACTCAGACTATTTCAATTCAGTGATTGGAAAATGAATACATTCTTACCG TATTGAGGATCTCGGCCTTCAACCCATTTTTTGTTATGCTCACTGGTGATTTAATCCTTCTCGCAGGACTATATGAACTA CAGGAAATATAAGTATTTTAGACTTGATGGATCATCTACCATTCAGGACCGCAGAGACATGGTCAGAGACTTTCAACATA GGTAATGTTGTCTTCTTTATAATACTGTTCTCTGGTTAGACGACTACTGATTGTTATGTATTCCATTATACCTGTTGGTG ATATTTTTTATTAATTTGTTGTAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGTGGATTGGGTATCAACT TGACAGCAGCTGACACAGTCATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGCAATGGACAGAGCTCAT CGTTTGGGTCAGACAAAAGATGTTAGTTCCTTCTCTCCCTCTCCCTTCCTCCTCATGTACCCATTTGTTATTTGTTCTTT GGATGGCATGTTACATATTTTTTGGGATCTCAGCTGATGGCCTCTGAATTTTTCATTCTATTCATACCTGGAGTTGTTGC ATCCCTTCCTATCTGAATCTTGCTCAATTTTGCTTGCTTAGACACAAAAACCACTCCTTTTATCAGCTTACTGTTTTAAT TTAAAACTAACTTCAGATGTATTCTTGAACTTGTAGGTTACTGTTTACCGACTTATTTGTAAGGAGACAGTTGAAGAGAA GATTCTTCAAAGAGCTAGTCAAAAAAGTACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGGTGACCTTTTAG CTCCTGAGGATGTCGTATCTTTGCTTCTGGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTCTCCAGGTCAGT TGAGAATCAGGTCACCCAAATTCATTATATTACATGATGTTGATTATCCCACTAAAAATCTTAATGAACAAGGAAAAGAC CAAGTTCCAGAAAGCCTAAAACCTATTTGAGAATTTTTCAGATTATGTTTAACCTCACTTATCCTTCCAGGTAAAGGATA AGCAAAAGAAAAAACAACCTACGAAGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATCTATCAAACTCT GTGGCTCAGGGTACTGCAGATAACGATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAGGTATCGTTGAG TTTTTTATTGTTTTCTATGTCTTCAAGGCAGCTTCCTTGATTGATTTAAGTTTGTTGCTCTAGTTTTCCCATAATTATAT TAGTTTGAACTGCTATAAATTGAGTGACGGTAGTTTAGTTAAGGAAAACAAAATCTCATAATAAGGCTTGGCTTTTCTTT CTTAATCCCTACCTTTCACTAAAACATCACTTATTTTGAACTGGAGAGAGTAAAGAGATGGACTTCCAAGGGACTTTGAA TGACGGAGTGTTCTTTCTTGATAGTCTTTAGAATATATATTGAGTCTTTGGTGGCTATTGTTTCAAGGAACTATGTTCAG ATTTAGAAAGTATTTCCCACTTAAAAATGGTAAAGGAGACATAACTTGTGTATTTAATGGCTGCATATGTTTGCTGCTTT ACTGGATCAATGGTTCATCTGCATATGATAAACATACAATTAGTTTTCAATACAACTTGTGGACCCTTGAACCATATGTG GTATTTGTCTGTTTTATCATTTATTTGATATTTAAGTGATCTAAATTTTTAGATGAGCTGATTTTTATGGCATTCTAAGG TTGAAAGTTTATTGTTAATTTCTTATTTCAACTTGGTAACAATGTCCATTTGCAGAGAAAAGCTGCCTCGGATAAGCAAA CTTCGAGGGCAAAAAATTCCCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCAATTGGATGATATCCACCTA AATACTGATCCAGTGGATCAGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATGAAAAGTTTGAAGAGGCTTT TACTGGCACAGCTACCGTGGTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAATGCTGGCGGGTCTAAAGTTG AATCAGGCCAAGACACCTGAAACAGTGACTCCTGACCATTAAGTTTTGCGCGAAATCTGGGGTAGTTACTGTTCTATCAG ATTCAGCCCTGTGGATTAAGATTTTCTGGGGTAGACTGCTAAATTTGTTCTGTAGGTGATCTGCAGTTGATAGCTCCCTT GTTGGATATTGACTAACTGCAACTAGTGGCTGCACAGTTGAGTCAATGTAGGGGAAGATTTATAACCCATGCTGTATATA GTAGTCCTGCATATATGTTGGTTATAGATCTACCCCTCTTCTAGTATGCAGGGTTTGTTTGTACATATGGGGTTATCCTC ACTATTCTTTGTACCACAAGCAATATTGGTAACTTACATAATATACTAGTCTTGTTAAGGCCACTGCATCACAATTAGCA TCTGACACAAATGCAGGTTCTTAATATTTGCGAGTGCTTTAATAGAAGATATAATTAATAACATGCCACAATTAGTCAGG AAATCATAGATCTCGTTTGA
CDS sequence (LotjaGi1g1v0670100.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATCACACAACAAATCCCAACAACGATTCCCTTTCCTACTCCACTCTCTTCAATCTCGAGCCTTTGATGAACTTTCA ACTTCCAGAACAAGATGATGATTTTGAGTATTATGGGAATAGTAGTCAGGATGAGAGCAGAAACAACAGCCAAGTAGGTG GGGCAATTGTGAATGATAGCAATGGGAGCATGCACGGAAGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAG AGTAGTTTTAACGGCACACACATGACGGAGGAACGATATCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAG GTCTAAGGATACCTCGTCTAGTCCGGCCCAAAATCAGGTTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTC ACAAGTTAGGGAATGAACGCAGGGGAGGATTACAGGCTCCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAG AAACTAGGGAACTTCCGTGAGGCAAATTTAGTGCAGCGATTTGGCACTGATAGGATTATGTATGAACCTCCATCTTTGGA CATTGGGGATGGTATAACCTACAAAATTCCTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTTCCAAGCTTCTCGG ATATCCATGTCGAGGACTTTTACTTAAAGGGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGCTGTTGATAAAAGG TTTTGGAATAGAAATCGGGCAGGCATGGGGGAACCCATAACCCAATATGAATCACTTCAGGCACGACTAAGGGTCATGTC AACTTCTAATTCAGCTCATAATTTCAGCCTCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAGGGGGCGCCTGGAA ACATAAAGCGACATATTTTATCTGAGGGTGGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAAAGGCGACACATAT GAGATCATTGAACGAAGCCTACCTAAGAAACAAAAGTTTAAGAAAGACCCTGCTTTAATAGAAAAGGAGGAAATGGAAAG ATTTGGAAAGGTTTGGGTAAATATTGTAAGGAGAGACTTGCCAAGGCATCATAGGAACTTCACTACTTTTCATCGAAAGC AGCTCACTGATGCCAAAAAGTTCTCGGATACCTGTCAAAGAGAGGTTAGAATGAAAGTGAGTAGATCACTTAAATGGACA AGGACTGCCAGTATGCGCACCCGGAAATTAGCTAGAGACATGTTACTATTCTGGAAACGAATAGAAAAGGAGACGGCAGA AGTGAGAAAAAGAGAAGAAAAAGAAGCTGCTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAGAGGCAGCAGC AAAGGCTTAATTTTCTTATACAACAAACAGAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACTATCTTCAGAA GCTTTGCCCACGGAAGATGAAAATACAAATGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTAATGAGGAGGA AGATCCTGAAGAGGCTGAATTGAAGAGGGAAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGAAGTTTGACAA GCGCTTTTGACACTGAATGCTTGAGGCTGCGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGCTGGAGCAAGT AATATTGATTTGCAAACCCCCTCCACCATGCCTGTGGCATCCACTGTTCGGACACCTGAATTATTTAATGGTTGTCTAAA AGAATATCAACTAAAAGGTCTTCAGTGGCTAGTTAATTGTTACGAGCAGGGTTTGAACGGTATTCTTGCTGATGAGATGG GACTTGGAAAGACCATTCAAGCTATGGCTTTTTTAGCCCATTTAGCTGAGGAGAAAAACATATGGGGACCTTTTTTGGTT GTTGCACCTGCCTCAGTATTAAATAATTGGAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTCCTTATTG GGGTGGGGTTTCAGAGCGAACAGTGCTCAGGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGGAGGCTAAATATCACA TTCTTATTACAAGCTACCAACTTTTAGTAACTGATGAGAAGTTCTTTCGGCGCGTGAAATGGCAGTATATGGTTTTAGAT GAAGCCCAGGCAATCAAAAGTGCAAGCAGTATAAGATGGAAGACACTCCTCAGCTTTAATTGTCGGAATCGCCTACTGCT AACTGGTACACCCATTCAGAATAATATGGCTGAGTTATGGGCTCTTCTGCACTTCATCATGCCAACTTTATTTGACAGCC ATGAGCAGTTTAATGAGTGGTTTTCAAAAGGAATTGAAAACCATGCAGAACATGGGGGTACTTTGAATGAGCACCAACTT AATCGGTTGCATTCAATTATAAAGCCTTTCATGCTGCGACGTGTTAAAAAAGATGTGGTTTCTGAGCTGACTACAAAAAC TGAAGTTACGGTCCATTGCAAGTTGAGTTCTCGTCAGCAGGCTTTTTATCAAGCAATTAAGAACAAGATATCTCTTGCTG AGTTGTTTGACAGTAATCGTGGGCAGCTTAATGAAAAGAAAATCCTGAATTTAATGAATATTGTTATTCAACTAAGGAAG GTTTGCAACCATCCGGAGTTGTTCGAAAGGAGTGAGGGCAGCACATACCTTTACTTTGGAGAGATTCCAAATTCCCTTCC ACCTCCTCCATTTGGGGAGTTGGAGGATGTATATTATTCTGGTGGTCACAACCCCATATCCTATGAGATACCAAAAGTTG TCTATCAAGAAATATTGCGAAGTTCTGAAACTCTCAGCTCAGCTGTTGCTCATGGTGTCTGTAGAGAGCCTTTACAGAAG CATTTTAATATTTTTACACCAGCAAATATTTATCGATCTGTGTTCTCAGAAGATATTCATGTTAAAAGTGGAAACTTTGG TTTTACCCATTTGATGGATTTGTCTCCACAAGAGGTGACATTTCTGGCTACTGGTTCTTTTATGGAGCGTCTTTTATTTT CTATGACGAGATGTGAAGAAAAGTTCATTAATGAAGTGGTAGACTTTGTTATGGAGACCTTAGATGATGATGATCCAGGA TGTAGTTACCTTGATAAAGGAAAAGTGAGAACTGTCACACGAATGTTATTGGTGCCGCTAAGATGTGAGACTAAGTTTCT TCAAAACAGTTTGCCAACGGGTACTGGCCATGCTCCTTTTGAGGCCTTGGTTGTCCCACATCAGGATAGGCTTTCATCAA ATGCAAGGCTTCTTCACTCTGCTTACTCATATATCCCAAAAAGTAGAGCTCCCCCAATTGGTGCTCACTGCTCTGATAGA AACTTCTACTATAAAATGATTGAAGAATTACATGATCCCTGGCTTAAGAGGATGTTTGTGGGATTTGCACGTACTTCTGA TTGTAATGGGCCTAGAAAGCCAAATGGTCCTTCTCATCATTTGATTCAAGAGATAGATTCTGAAATCCCTGTTTCTCAGC CTGCTCTTCAGTTGACACACAGCATTTTTGGGTCTTCTCCACCTATGCGAAATTTTGACCCAGCAAAATTGCTCACTGAC TCTGGGAAGCTTCAAACACTTGATATATTATTGAAACGCTTACGAGCAGGAAATCATCGTGTTCTTCTGTTTGCTCAGAT GACCAAGATGCTGAATATTTTGGAGGACTATATGAACTACAGGAAATATAAGTATTTTAGACTTGATGGATCATCTACCA TTCAGGACCGCAGAGACATGGTCAGAGACTTTCAACATAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGT GGATTGGGTATCAACTTGACAGCAGCTGACACAGTCATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGC AATGGACAGAGCTCATCGTTTGGGTCAGACAAAAGATGTTACTGTTTACCGACTTATTTGTAAGGAGACAGTTGAAGAGA AGATTCTTCAAAGAGCTAGTCAAAAAAGTACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGGTGACCTTTTA GCTCCTGAGGATGTCGTATCTTTGCTTCTGGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTCTCCAGGTAAA GGATAAGCAAAAGAAAAAACAACCTACGAAGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATCTATCAA ACTCTGTGGCTCAGGGTACTGCAGATAACGATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAGAGAAAA GCTGCCTCGGATAAGCAAACTTCGAGGGCAAAAAATTCCCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCA ATTGGATGATATCCACCTAAATACTGATCCAGTGGATCAGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATG AAAAGTTTGAAGAGGCTTTTACTGGCACAGCTACCGTGGTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAAT GCTGGCGGGTCTAAAGTTGAATCAGGCCAAGACACCTGA
Protein sequence (LotjaGi1g1v0670100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDHTTNPNNDSLSYSTLFNLEPLMNFQLPEQDDDFEYYGNSSQDESRNNSQVGGAIVNDSNGSMHGRDVKRSRNSDSKEK SSFNGTHMTEERYRSMLGEHIKKYKRRSKDTSSSPAQNQVAVPVAKSNTGLKSHKLGNERRGGLQAPETTSEWMNGSDSQ KLGNFREANLVQRFGTDRIMYEPPSLDIGDGITYKIPPIYDKLAAMLNLPSFSDIHVEDFYLKGTLDLGSLAEMMAVDKR FWNRNRAGMGEPITQYESLQARLRVMSTSNSAHNFSLRVSDDGSSSIPEGAPGNIKRHILSEGGVLQVYYVKVLEKGDTY EIIERSLPKKQKFKKDPALIEKEEMERFGKVWVNIVRRDLPRHHRNFTTFHRKQLTDAKKFSDTCQREVRMKVSRSLKWT RTASMRTRKLARDMLLFWKRIEKETAEVRKREEKEAAEALRREQELREAKRQQQRLNFLIQQTELYSHFMQNKSNLLSSE ALPTEDENTNDQGALINSSDAGPNEEEDPEEAELKREALKAAQEAVSKQRSLTSAFDTECLRLRHAGETDSVPPEVAGAS NIDLQTPSTMPVASTVRTPELFNGCLKEYQLKGLQWLVNCYEQGLNGILADEMGLGKTIQAMAFLAHLAEEKNIWGPFLV VAPASVLNNWNEELERFCPELKRLPYWGGVSERTVLRKSINPKDLYRREAKYHILITSYQLLVTDEKFFRRVKWQYMVLD EAQAIKSASSIRWKTLLSFNCRNRLLLTGTPIQNNMAELWALLHFIMPTLFDSHEQFNEWFSKGIENHAEHGGTLNEHQL NRLHSIIKPFMLRRVKKDVVSELTTKTEVTVHCKLSSRQQAFYQAIKNKISLAELFDSNRGQLNEKKILNLMNIVIQLRK VCNHPELFERSEGSTYLYFGEIPNSLPPPPFGELEDVYYSGGHNPISYEIPKVVYQEILRSSETLSSAVAHGVCREPLQK HFNIFTPANIYRSVFSEDIHVKSGNFGFTHLMDLSPQEVTFLATGSFMERLLFSMTRCEEKFINEVVDFVMETLDDDDPG CSYLDKGKVRTVTRMLLVPLRCETKFLQNSLPTGTGHAPFEALVVPHQDRLSSNARLLHSAYSYIPKSRAPPIGAHCSDR NFYYKMIEELHDPWLKRMFVGFARTSDCNGPRKPNGPSHHLIQEIDSEIPVSQPALQLTHSIFGSSPPMRNFDPAKLLTD SGKLQTLDILLKRLRAGNHRVLLFAQMTKMLNILEDYMNYRKYKYFRLDGSSTIQDRRDMVRDFQHRSDIFVFLLSTRAG GLGINLTAADTVIFYESDWNPTLDLQAMDRAHRLGQTKDVTVYRLICKETVEEKILQRASQKSTVQNLVMTGGSVGGDLL APEDVVSLLLDDVQLEQKLKEIPLQVKDKQKKKQPTKGIRVNEDGDASFEDLSNSVAQGTADNDNAMNPEGSKSSNKKRK AASDKQTSRAKNSQKMSELSTMPIDDQLDDIHLNTDPVDQKPKRPKRIKKNVNEKFEEAFTGTATVVPEQTQFQPPHDFN AGGSKVESGQDT
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 | 15 | 1507 | 1493 | 0.0 | – | |
PANTHER | 15 | 1507 | 1493 | 0.0 | ||
MobiDBLite | 33 | 159 | 127 | - | – | |
MobiDBLite | 41 | 58 | 18 | - | – | |
MobiDBLite | 64 | 110 | 47 | - | – | |
MobiDBLite | 111 | 126 | 16 | - | – | |
MobiDBLite | 144 | 159 | 16 | - | – | |
Pfam | 346 | 475 | 130 | 6.9E-48 | ||
ProSiteProfiles | 351 | 476 | 126 | 25.565 | ||
Coils | 423 | 462 | 40 | - | – | |
MobiDBLite | 482 | 521 | 40 | - | – | |
MobiDBLite | 482 | 499 | 18 | - | – | |
SUPERFAMILY | 570 | 814 | 245 | 2.05E-62 | ||
SMART | 582 | 777 | 196 | 2.4E-34 | ||
Gene3D | 583 | 823 | 241 | 3.3E-95 | ||
CDD | 586 | 814 | 229 | 2.59418E-154 | – | |
ProSiteProfiles | 598 | 769 | 172 | 23.725 | ||
Pfam | 599 | 887 | 289 | 4.2E-66 | ||
SUPERFAMILY | 816 | 1383 | 568 | 5.94E-66 | ||
Gene3D | 824 | 893 | 70 | 3.3E-95 | – | |
Gene3D | 1173 | 1428 | 256 | 1.1E-76 | – | |
CDD | 1194 | 1326 | 133 | 3.69221E-65 | – | |
ProSiteProfiles | 1206 | 1390 | 185 | 18.511 | ||
Pfam | 1206 | 1315 | 110 | 1.2E-16 | ||
SMART | 1232 | 1315 | 84 | 9.2E-23 | ||
MobiDBLite | 1386 | 1491 | 106 | - | – | |
MobiDBLite | 1386 | 1407 | 22 | - | – | |
MobiDBLite | 1408 | 1432 | 25 | - | – | |
MobiDBLite | 1447 | 1461 | 15 | - | – | |
MobiDBLite | 1469 | 1483 | 15 | - | – | |
MobiDBLite | 1508 | 1532 | 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 | 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. | ||
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 | DNA repair | The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway. | ||
Biological process | Chromatin remodeling | Dynamic structural changes to eukaryotic chromatin occurring throughout the cell division cycle. These changes range from the local changes necessary for transcriptional regulation to global changes necessary for chromosome segregation. | ||
Biological process | Transcription, DNA-templated | The cellular synthesis of RNA on a template of DNA. | ||
Molecular function | ATPase activity | Catalysis of the reaction: ATP + H2O = ADP + phosphate + 2 H+. May or may not be coupled to another reaction. | ||
Cellular component | Ino80 complex | A multisubunit protein complex that contains the Ino80p ATPase; exhibits chromatin remodeling activity and 3' to 5' DNA helicase activity. |
Expression pattern of LotjaGi1g1v0670100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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