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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0670100 |
Transcript ID | LotjaGi1g1v0670100.1 |
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_chr1:123363250..123375586) extracted from Lotus japonicus Gifu genome v1.2.
CACAATGTCACACTCGACAGCGCACGTTAACGCAAATGTAACCTCACAAGCGCACGTTAGCACCGCCAGTGCTTCCCTGC AAACCTTCTCGTCCTCCTCTCCTTCTCCACTTTATCCTACGCACCTCGATGTTCTCTTCCTACATTTAGGGTTAGGGTTC TTCTTCTCCTTTTCCTTCATGCTTCGTCTCGTTCCTTCATTCGCATTGTAGACTCAACACAGCACATGGATCACACAACA AATCCCAACAACGATTCCCTTTCCTACTCCACTCTCTTCAATCTCGAGGTTCGGATTTCCCCAATTTTCGTTTCTCTGTG TTTCTGCATGTCGTGGTAAAAGATTGAATCTTTCTCGCACGAATTTTATTTTCTGAATTGGGTTTTTCTGTGATGGACTT GTATGGTTGATATGAAGGTTTTTAGCAACAAAAAAAAACAAAAATTTGAAGGGGTTTGGTACTGTTTTCTGTTTCTGATT ACACTGTTTTGTAGCCTTTGATGAACTTTCAACTTCCAGAACAAGATGATGATTTTGAGTATTATGGGAATAGTAGTCAG GATGAGAGCAGAAACAACAGCCAAGGTAGGCACTGTGTTTTTTTTTTTGGGTTGTTGTTTTTACTTGTGTTTAGCCTGAG AGAGTTTTACCTAGTGCGATCTTTATGATTGTGAGTGATGGTTCTGTTGTAAAGAGTTACTGTTTTGCTGGGAGTTGTTT GTTGGTTTTAGTATTTAGAGCTTTGAATTATGTATGTAATCTGTATTTTTGGGATGCTTCTGGTAGTAGGTGGGGCAATT GTGAATGATAGCAATGGGAGCATGCACGGAAGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAGAGTAGTTT TAACGGCACACACATGACGGAGGAACGATATCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAGGTCTAAGG ATACCTCGTCTAGTCCGGCCCAAAATCAGGTTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTCACAAGTTA GGGAATGAACGCAGGGGAGGATTACAGGCTCCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAGAAACTAGG GAACTTCCGTGAGGCAAATTTAGTGCAGCGATTTGGCACTGATAGGTTTGCCTTTTTAGCTCTGTTGCCTTTATAGTGTT GGGCTTTTGAATAATGATAGTTGTTTAAGTTACAAAATGGCCTCACCTTTTGTAAGCTCCTTGCAGGATTATGTATGAAC CTCCATCTTTGGACATTGGGGATGGTATAACCTACAAAATTCCTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTT CCAAGCTTCTCGGATATCCATGTCGAGGACTTTTACTTAAAGGGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGC TGTTGATAAAAGGTTTTGGAATAGAAATCGGGCAGGCATGGGGGAACCCATAACCCAATATGAATCACTTCAGGCACGAC TAAGGGTCATGTCAACTTCTAATTCAGCTCATAATTTCAGCCTCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAG GGGGCGCCTGGAAACATAAAGCGACATATTTTATCTGAGGGTGGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAA AGGCGACACATATGAGGTATCTATTGAACAATAAGTGAGTGATTTTTCCATTTAGCTTTACTCTTCTTTTTTCTGTTTTT TAATTTAGCTTTGTCTTTCAACTGCTTCAGATCATTGAACGAAGCCTACCTAAGAAACAAAAGTTTAAGAAAGACCCTGC TTTAATAGAAAAGGAGGAAATGGAAAGATTTGGAAAGGTTTGGGTAAATATTGTAAGGAGAGACTTGCCAAGGCATCATA GGAACTTCACTACTTTTCATCGAAAGCAGCTCACTGATGCCAAAAAGTTCTCGGATACCTGTCAAAGAGAGGTATGCCCT GTTTCCCCCTGATAGGATTGTTTATCTGTTACATTTCATGTTGGTTTGTGGTATACCTAATCTCGCCATATAGTCTAATG CATTGTAGGTTTTGTATTTTTCATTTGCAGTTCAATAACTTGTATCAATTTATTTTCTTTCAGGTTAGAATGAAAGTGAG TAGATCACTTAAATGGACAAGGACTGCCAGTATGCGCACCCGGAAATTAGCTAGAGACATGTTACTATTCTGGAAACGAA TAGAAAAGGAGACGGTACTTATTAATTCCTTGCTGAAGTTTATTGATTTTATTGTGCTGGTGATTCTAGAAGACATATTT TTCTTTGATTGTTGTGGAGTTTAGTTGAACATGATGGCTGCAAACTCTTCCTTATGGACATTTTTTAGAACAAGTTTGAT GCATGATAGTTGATGATATATTACTGACTTGCTATGTGTACATATATTTTGTTGATTTGTATTCATCTAATGAATGATAG TCTTGCAATCTTCTTCCTGTTCACAATTTTTTATGTCGTCATCAGTGATGATTGATTTGGATGTTATTATTCACTTTTTC AAAGCAAAGGTATTTAAATATAGGGTCCGAGGTTTTCAATTTAGTTGTTTTTGATATTCAGATAAGACTTGGGATTTGTT TATTAGATACATACACCACAATGTTGGTTCTGATCAGGTGGTCTATTTATTTGACATACAGATGTGGTCATCTGTACTTG GAGTTATTTTGTGTATGGGACTATTGTCACGCTGATGTAAAATACACTTGAATATGCTGTAATTTTTCAATTTCATTCCT TGCAGGCAGAAGTGAGAAAAAGAGAAGAAAAAGAAGCTGCTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAG AGGCAGCAGCAAAGGCTTAATTTTCTTATACAACAAACAGAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACT ATCTTCAGAAGCTTTGCCCACGGAAGATGAAAATACAAATGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTA ATGAGGAGGAAGATCCTGAAGAGGCTGAATTGAAGAGGGAAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGA AGTTTGACAAGCGCTTTTGACACTGAATGCTTGAGGCTGCGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGC TGGAGCAAGTAATATTGATTTGCAAACCCCGTGAGCTCCCTCTCTCTCTCTGTATGTTGTGTGAATGCATATCTACACTA CTTGGAAATTTTTAAATGGCGAATGCAAATTTATGTTGATGTTCATCTGAATAATATTGAGGATTGTGTGATAAGAAATA CTGTGTTCATTCTAATCAACTTTATGTATTGCTGTATTGCAGCTCCACCATGCCTGTGGCATCCACTGTTCGGACACCTG AATTATTTAATGGTTGTCTAAAAGAATATCAACTAAAAGGTCTTCAGTGGCTAGTTAATTGTTACGAGCAGGTTGTTGAG CACTCTTAATAAAGTCTCAATGATTTATTGCTTTTGGTTTCTAATAAGAATGCTTTTGGGACCTTTTAGGGTTTGAACGG TATTCTTGCTGATGAGATGGGACTTGGAAAGACCATTCAAGCTATGGCTTTTTTAGCCCATTTAGCTGAGGTAGCTATTC ATTAAGCTTTTTTTGAAGAACTCCATGACTTTATTTTAACTTGCTTGTCGCATGCAGGAGAAAAACATATGGGGACCTTT TTTGGTTGTTGCACCTGCCTCAGTATTAAATAATTGGAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTC CTTATTGGGGTGGGGTTTCAGAGCGAACAGTGCTCAGGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGTAATGTTAT TCTCTTTTGCATTCATAACCTTAAAAAGTACAGATGCCAATAGTACACTTTTGGCTTGTTTAGTGTTACATAATTAATCT AAATGCCGATAGTACACTTATAGTCGTATAAGCTGCCATGTCATCAAGTTTTCTAGGCGTTTTAAAGGGTATTGATATTT GGGATGAATTTGGTCAAATTAAGAAACATTTTCGACAAAATAAAACAGTGTAATTATGGGATGAAAATGCAACCCAAAGT AAAGGGACAAAGGCTGTGTTTGATATAGTGTTATTAATCCCGTATAGTGGGGCATAGCTGCTCACTGAAAAAACACTATA GTGGGATGGCCGCTATTCTGATTTTTTTTTATATATAATTGATATAATATACACTAGTATACATACATAAACTCTTAAAA TGATAAAAAGTACTCAACTTATGATATTGTAATTAAGTTTGAAAAGTCAGGTGACATAAATAAAACATAGAAGTCAGACC AGTGAGAAATTAAAAGGGAGTGATTAAAGAAAAAATAGAGCCAGTAAAATAGGAAAAAGAAAAAGGAACCAGAAAATAGA CAAAATAATCAACAAAAGAAAGAAAAACAGGGGGAAAAGAACAAAACATCACTGCTAGCCGCTGGATGAGAATAAATGGG ACTGTTGGGGCTGTAAATGATCGCTGGAACCTCGCCGGTCTTCACGCGGTGGCTAGTATGTGGTAGCTTGGTTGGTGGAA GATTGGTCAGAAGCTGGACTAGGTTGCGGAAATGACTGAGGTGTGAAGAGGAGACTCCTTTAAGAGGAATGTTTTTTTAC CTTTTAAACCTAAAACCCAAAACTATGCTCCTAAAAGTTTACCCTAATGTGAGTATTATGAGGGTAATTTCAACCGGTAC AGGCATGATGTCAACCGCGCCGATACGCAATGAACTGTAGTGGCCATGGGCCTCTATCTCACGCTACTAACAAGCCTGGT TTAATATCTAATGGATGGAACATAATCAAATCTATCTGAATCGAATAAAGTTAGAATTCCATATTTTGGGTATTTTGATG ATTGAAAGGAGAAGAATACTTGTTACATTCTGTCCCATTGCTCCTAAATTGGAGGGGAAGGAAAACCAGGGTATTGGATG AAACCATTTTATTTGTTCCATTCTGTTCCATCTTATTTTAAACAATCAAAACAATAGAACCTATTATGATTCCATTTCTT TCCACTTCATTTCATCCCTTTCCATCAATTGAAATATAGCTAAAAAGTAAAGTTTGTCCAATTTGTAATCATATTTGAAT TTTGAATCTGACAAAAAATGGCTAACTGAGTACATTTTAAAAAAACTATTGTGAGAGTTCCTTTAAGTTGAGAGCTCTTT GTATGTGGTGGACCTTTGTGATTGACGTGAAATAATGATTATCTCACTTTTAAGTTTAGTCAAGCAAAACAGTTGGGTTT TAAGAAAGTGAAGTAAAGGATATCAAATGGTAGAATCCCCTTTCAATCAGTGTAGATATTTTACCAATATTAATTCACTA TTCATTTGCATAGAATCATCTTGACTCATTTGCATATAATCATCTTCACTAAAAACCTTTGGAATTGTGAGGCTAATACA ATATTTTGGCCCACATCTGCCACTTGTAAATTCTACTTATAATTTATCTTTTTGGTCTTTGATTTTTATCCCTCTGAATT CTATTTTTACTATATTTTATATATTTACAGGGAGGCTAAATATCACATTCTTATTACAAGCTACCAACTTTTAGTAACTG ATGAGAAGTTCTTTCGGCGCGTGAAATGGCAGTATATGGTTTTAGATGAAGCCCAGGCAATCAAAAGTGCAAGCAGGTTT GTGATAATCTATATTTCTGCGATGCAGAAGTGAATGACATTCATAATTACTTGGTTATTGTTCCTTACTTCCTACCATTG TTTTAAACAAAATTTGATTAATTATTTTATGGGGTGCATTTTTCCTGATTGAGTTGTGTATAATTTTGTAGATCTTTCTT ATTTGTGTGGTTAATACAATATTTGAAGTTACAGTAACATCTGTTTTTGTGATTGCTGCCCTTATAAAAACTAAATTTCA TCCAACAGTATAAGATGGAAGACACTCCTCAGCTTTAATTGTCGGAATCGCCTACTGCTAACTGGTACACCCATTCAGAA TAATATGGCTGAGTTATGGGCTCTTCTGCACTTCATCATGCCAACTTTATTTGACAGCCATGAGCAGTTTAATGAGTGGT TTTCAAAAGGGTATGTTTTCCTCGTTATCGTCCTTAGATACGTTTGCTAGTTTAAGTATGGTCTAACAATCATTTCTGAT TTATAACATGCCAGAATTGAAAACCATGCAGAACATGGGGGTACTTTGAATGAGCACCAACTTAATCGGTTGGTAAGTTT GTCTTCCCTGTGTGATAGTAATAGTAAGGAGATAGTTAGGATATTTTATTATTTAAATATTATATTGAGTTTTTTAATCA GATATTTTATGGGCATATAATAACCTATGTTGTGGAATGAGGGAGGGGGTTGCTTTGGGTCTCTTCAAATTAGAGGAAAT TGTTGGTGTCATTCTTTGTGGCCTTTGTTGGGTCTTAAATTTCTGGGATTTTTTAAACTTATGAGTTGTATTAAAACAGG GATACTACAATAGGATGTGTAGTATGGTGGCTTTTATTTTTATTATTGCTTTTAAGTTCTAATTATTATATTTGGTTTGT TTCACTTCTTAGTTTTTATCATTTTATAATTTTTGGCTTATATTTTGGGTATGTTCTCTTAACAGCATTCAATTATAAAG CCTTTCATGCTGCGACGTGTTAAAAAAGATGTGGTTTCTGAGCTGACTACAAAAACTGAAGTTACGGTCCATTGCAAGTT GAGTTCTCGTCAGCAGGCTTTTTATCAAGCAATTAAGAACAAGATATCTCTTGCTGAGTTGTTTGACAGTAATCGTGGGC AGCTTAATGAAAAGAAAATCCTGAATTTAATGAATATTGTTATTCAACTAAGGAAGGTAGACAATCCATATTGTTCAGGC TTTATTTCCCATGCTTTAATTTTCGTATCAATTGGTTCCTTCCGAAATCAGGATTATTGTGTTTCAATTATGTCATGTTC TTTTTACTTCCCACCAAGATTGCGCATTATAAATTCTTTAAATTTGATAGGTTTGCAACCATCCGGAGTTGTTCGAAAGG AGTGAGGGCAGCACATACCTTTACTTTGGAGAGATTCCAAATTCCCTTCCACCTCCTCCATTTGGGGAGTTGGAGGATGT ATATTATTCTGGTGGTCACAACCCCATATCCTATGAGGTATTTCTTCTTGCCTTGTGTCCAAAAATTCATTTTTCCTCCT CTTCAATTCAATGTCCCATATTTCTTATTCAAGTTCTTTTAACGTTCCTAAGTTAGAAGCTCTCTTAAGTTGGAAGTAAA ATTTAAATGTTATATCACAGTGTGTTTGACGTCCTTTCGATTGGATTTTACATGATACTTATGGTTGAAATTATAGGGTC TAAATCGTCAAGGAGAAAGAGGGAAAATAAACTTCCGATAATGTTCTCTTAAACTGATATGATGTGTAATGATGTGATAC AAAATGCTGACTTAATGCTCCTATGCTTACTCTTAACTAGAACCTAATTTTTGTTGCAATTTGGCTTTTTATTATGAAAG GAAATTTTGTTTCGATATTATGTTTACCCTTTGGAGAATCTTTCATATATTGGGTTTTCTTTTGTTTTTGTATTGAGTTC TCCCTTTTGCCCTAGTAATTAGCTTCTCTGCTTCATTATGTTGACAATACCACCTTCAGTTCTTTTTCTTATTTTTGTGT CCCGTTTTTTCAGATACCAAAAGTTGTCTATCAAGAAATATTGCGAAGTTCTGAAACTCTCAGCTCAGCTGTTGCTCATG GTGTCTGTAGAGAGCCTTTACAGAAGCATTTTAATATTTTTACACCAGCAAATATTTATCGATCTGTGTTCTCAGAAGAT ATTCATGTTAAAAGTGGAAACTTTGGTTTTACCCATTTGATGGATTTGTCTCCACAAGAGGTGACATTTCTGGCTACTGG TTCTTTTATGGAGCGTCTTTTATTTTCTATGACGAGATGTGAAGAAAAGTTCATTAATGAAGTGGTAGACTTTGTTATGG AGACCTTAGATGATGATGATCCAGGATGTAGTTACCTTGATAAAGGAAAAGTGAGAACTGTCACACGAATGTTATTGGTG CCGCTAAGATGTGAGACTAAGTTTCTTCAAAACAGTTTGCCAACGGGTACTGGCCATGCTCCTTTTGAGGCCTTGGTTGT CCCACATCAGGATAGGCTTTCATCAAATGCAAGGCTTCTTCACTCTGCTTACTCATATATCCCAAAAAGTAGAGCTCCCC CAGTATGTTATCTTTCTTTACTAGTCTTCAGCTATTTTCCCAAAATAAGTTGTCTTGTTTTAACAAAATGATAATTAAAC TGTGTTTCTTCTTTTCATCTTCTTAGATTGGTGCTCACTGCTCTGATAGAAACTTCTACTATAAAATGATTGAAGAATTA CATGATCCCTGGCTTAAGAGGATGTTTGTGGGATTTGCACGTACTTCTGATTGTAATGGGCCTAGAAAGCCAAATGGTCC TTCTCATCATTTGATTCAAGAGATAGATTCTGAAATCCCTGTTTCTCAGCCTGCTCTTCAGTTGACACACAGCATTTTTG GGTCTTCTCCACCTATGCGAAATTTTGACCCAGCAAAATTGCTCACTGTAAGTGTTGTTTTTACTCCTTTTATTTCTTTC TCATGGAGTGCCTCCTCATTTCAACTTTCATGTGGAATTAATCTTCTAAGTCAAATGATAGGACTCTGGGAAGCTTCAAA CACTTGATATATTATTGAAACGCTTACGAGCAGGAAATCATCGTGTTCTTCTGTTTGCTCAGATGACCAAGATGCTGAAT ATTTTGGAGGTATTTTTAAACTTTCCAGTGTTAAACCTTTTGATATTAGTCGTTTGTGTATACTGGTTTCATTTTGACTT GTTCAAAAATGTAAAACATGGATATATTAATGAATAAAATCAGTCATTGTGTTAGCCTCTTGGTGGTGGCCCATTTCCCT TCAATGTGATGGTTACATGAAATCAGCCTGAGAGACCTGACATGCATGCTCATGTTTGTCTATGTTTCTAAAGAAACTAC ATGAGTTTGATTCTTTTTTATTTTTTTCTAAAGAAAACGTGAACTCAGACTATTTCAATTCAGTGATTGGAAAATGAATA CATTCTTACCGTATTGAGGATCTCGGCCTTCAACCCATTTTTTGTTATGCTCACTGGTGATTTAATCCTTCTCGCAGGAC TATATGAACTACAGGAAATATAAGTATTTTAGACTTGATGGATCATCTACCATTCAGGACCGCAGAGACATGGTCAGAGA CTTTCAACATAGGTAATGTTGTCTTCTTTATAATACTGTTCTCTGGTTAGACGACTACTGATTGTTATGTATTCCATTAT ACCTGTTGGTGATATTTTTTATTAATTTGTTGTAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGTGGATT GGGTATCAACTTGACAGCAGCTGACACAGTCATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGCAATGG ACAGAGCTCATCGTTTGGGTCAGACAAAAGATGTTAGTTCCTTCTCTCCCTCTCCCTTCCTCCTCATGTACCCATTTGTT ATTTGTTCTTTGGATGGCATGTTACATATTTTTTGGGATCTCAGCTGATGGCCTCTGAATTTTTCATTCTATTCATACCT GGAGTTGTTGCATCCCTTCCTATCTGAATCTTGCTCAATTTTGCTTGCTTAGACACAAAAACCACTCCTTTTATCAGCTT ACTGTTTTAATTTAAAACTAACTTCAGATGTATTCTTGAACTTGTAGGTTACTGTTTACCGACTTATTTGTAAGGAGACA GTTGAAGAGAAGATTCTTCAAAGAGCTAGTCAAAAAAGTACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGG TGACCTTTTAGCTCCTGAGGATGTCGTATCTTTGCTTCTGGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTC TCCAGGTCAGTTGAGAATCAGGTCACCCAAATTCATTATATTACATGATGTTGATTATCCCACTAAAAATCTTAATGAAC AAGGAAAAGACCAAGTTCCAGAAAGCCTAAAACCTATTTGAGAATTTTTCAGATTATGTTTAACCTCACTTATCCTTCCA GGTAAAGGATAAGCAAAAGAAAAAACAACCTACGAAGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATC TATCAAACTCTGTGGCTCAGGGTACTGCAGATAACGATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAG GTATCGTTGAGTTTTTTATTGTTTTCTATGTCTTCAAGGCAGCTTCCTTGATTGATTTAAGTTTGTTGCTCTAGTTTTCC CATAATTATATTAGTTTGAACTGCTATAAATTGAGTGACGGTAGTTTAGTTAAGGAAAACAAAATCTCATAATAAGGCTT GGCTTTTCTTTCTTAATCCCTACCTTTCACTAAAACATCACTTATTTTGAACTGGAGAGAGTAAAGAGATGGACTTCCAA GGGACTTTGAATGACGGAGTGTTCTTTCTTGATAGTCTTTAGAATATATATTGAGTCTTTGGTGGCTATTGTTTCAAGGA ACTATGTTCAGATTTAGAAAGTATTTCCCACTTAAAAATGGTAAAGGAGACATAACTTGTGTATTTAATGGCTGCATATG TTTGCTGCTTTACTGGATCAATGGTTCATCTGCATATGATAAACATACAATTAGTTTTCAATACAACTTGTGGACCCTTG AACCATATGTGGTATTTGTCTGTTTTATCATTTATTTGATATTTAAGTGATCTAAATTTTTAGATGAGCTGATTTTTATG GCATTCTAAGGTTGAAAGTTTATTGTTAATTTCTTATTTCAACTTGGTAACAATGTCCATTTGCAGAGAAAAGCTGCCTC GGATAAGCAAACTTCGAGGGCAAAAAATTCCCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCAATTGGATG ATATCCACCTAAATACTGATCCAGTGGATCAGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATGAAAAGTTT GAAGAGGCTTTTACTGGCACAGCTACCGTGGTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAATGCTGGCGG GTCTAAAGTTGAATCAGGCCAAGACACCTGAAACAGTGACTCCTGACCATTAAGTTTTGCGCGAAATCTGGGGTAGTTAC TGTTCTATCAGATTCAGCCCTGTGGATTAAGATTTTCTGGGGTAGACTGCTAAATTTGTTCTGTAGGTGATCTGCAGTTG ATAGCTCCCTTGTTGGATATTGACTAACTGCAACTAGTGGCTGCACAGTTGAGTCAATGTAGGGGAAGATTTATAACCCA TGCTGTATATAGTAGTCCTGCATATATGTTGGTTATAGATCTACCCCTCTTCTAGTATGCAGGGTTTGTTTGTACATATG GGGTTATCCTCACTATTCTTTGTACCACAAGCAATATTGGTAACTTACATAATATACTAGTCTTGTTAAGGCCACTGCAT CACAATTAGCATCTGACACAAATGCAGGTTCTTAATATTTGCGAGTGCTTTAATAGAAGATATAATTAATAACATGCCAC AATTAGTCAGGAAATCATAGATCTCGTTTGAATGTGAATTAAAGAGCACTTATTGGAGTTTATCTAGTGTTTTTTCTTGT AGATAAGCTCCAACAAGTGCTCTTAAGTTCATTTCAAACGGGACCTTAGTAGGCATAGGCTGGAATGCAACATGGGTTCA TTCATTTCAACTATTCTGCTCCCACATAGATGAATTCAGGCATGTACAAAATCAATACTAACTTGGAATCATCTGTTTGC TGAATGAAGATAGCATGTTTGGTAAATACTGATGGGAAATACTAACAAAAAGGCTTGTCTGTTCTTTGTTATCATAAACA AAGAGCGTAGGTTCACTGAAGATTTTTATTTTGGACTGTTTATATGTTGACATTTTCATCCCTAAGTCCCGACCAACACA CGGTTAAGATTTTCCCTGTTTCCTCATCTTGGGTAAGAAAAATGGAAAAAAGTTGATGACTCCGAAGATAGTGGTCAGCT CAGAAAGAACATTATTTAAAGACGAATAGTTATACGAATTTCCAAAATAATAATCAATCATATTCAAAGTTACTAAAAAA AGGAATTATAAGCACTT
CDS sequence (LotjaGi1g1v0670100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATCACACAACAAATCCCAACAACGATTCCCTTTCCTACTCCACTCTCTTCAATCTCGAGCCTTTGATGAACTTTCA ACTTCCAGAACAAGATGATGATTTTGAGTATTATGGGAATAGTAGTCAGGATGAGAGCAGAAACAACAGCCAAGGTGGGG CAATTGTGAATGATAGCAATGGGAGCATGCACGGAAGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAGAGT AGTTTTAACGGCACACACATGACGGAGGAACGATATCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAGGTC TAAGGATACCTCGTCTAGTCCGGCCCAAAATCAGGTTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTCACA AGTTAGGGAATGAACGCAGGGGAGGATTACAGGCTCCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAGAAA CTAGGGAACTTCCGTGAGGCAAATTTAGTGCAGCGATTTGGCACTGATAGGATTATGTATGAACCTCCATCTTTGGACAT TGGGGATGGTATAACCTACAAAATTCCTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTTCCAAGCTTCTCGGATA TCCATGTCGAGGACTTTTACTTAAAGGGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGCTGTTGATAAAAGGTTT TGGAATAGAAATCGGGCAGGCATGGGGGAACCCATAACCCAATATGAATCACTTCAGGCACGACTAAGGGTCATGTCAAC TTCTAATTCAGCTCATAATTTCAGCCTCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAGGGGGCGCCTGGAAACA TAAAGCGACATATTTTATCTGAGGGTGGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAAAGGCGACACATATGAG ATCATTGAACGAAGCCTACCTAAGAAACAAAAGTTTAAGAAAGACCCTGCTTTAATAGAAAAGGAGGAAATGGAAAGATT TGGAAAGGTTTGGGTAAATATTGTAAGGAGAGACTTGCCAAGGCATCATAGGAACTTCACTACTTTTCATCGAAAGCAGC TCACTGATGCCAAAAAGTTCTCGGATACCTGTCAAAGAGAGGTTAGAATGAAAGTGAGTAGATCACTTAAATGGACAAGG ACTGCCAGTATGCGCACCCGGAAATTAGCTAGAGACATGTTACTATTCTGGAAACGAATAGAAAAGGAGACGGCAGAAGT GAGAAAAAGAGAAGAAAAAGAAGCTGCTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAGAGGCAGCAGCAAA GGCTTAATTTTCTTATACAACAAACAGAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACTATCTTCAGAAGCT TTGCCCACGGAAGATGAAAATACAAATGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTAATGAGGAGGAAGA TCCTGAAGAGGCTGAATTGAAGAGGGAAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGAAGTTTGACAAGCG CTTTTGACACTGAATGCTTGAGGCTGCGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGCTGGAGCAAGTAAT ATTGATTTGCAAACCCCCTCCACCATGCCTGTGGCATCCACTGTTCGGACACCTGAATTATTTAATGGTTGTCTAAAAGA ATATCAACTAAAAGGTCTTCAGTGGCTAGTTAATTGTTACGAGCAGGGTTTGAACGGTATTCTTGCTGATGAGATGGGAC TTGGAAAGACCATTCAAGCTATGGCTTTTTTAGCCCATTTAGCTGAGGAGAAAAACATATGGGGACCTTTTTTGGTTGTT GCACCTGCCTCAGTATTAAATAATTGGAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTCCTTATTGGGG TGGGGTTTCAGAGCGAACAGTGCTCAGGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGGAGGCTAAATATCACATTC TTATTACAAGCTACCAACTTTTAGTAACTGATGAGAAGTTCTTTCGGCGCGTGAAATGGCAGTATATGGTTTTAGATGAA GCCCAGGCAATCAAAAGTGCAAGCAGTATAAGATGGAAGACACTCCTCAGCTTTAATTGTCGGAATCGCCTACTGCTAAC TGGTACACCCATTCAGAATAATATGGCTGAGTTATGGGCTCTTCTGCACTTCATCATGCCAACTTTATTTGACAGCCATG AGCAGTTTAATGAGTGGTTTTCAAAAGGAATTGAAAACCATGCAGAACATGGGGGTACTTTGAATGAGCACCAACTTAAT CGGTTGCATTCAATTATAAAGCCTTTCATGCTGCGACGTGTTAAAAAAGATGTGGTTTCTGAGCTGACTACAAAAACTGA AGTTACGGTCCATTGCAAGTTGAGTTCTCGTCAGCAGGCTTTTTATCAAGCAATTAAGAACAAGATATCTCTTGCTGAGT TGTTTGACAGTAATCGTGGGCAGCTTAATGAAAAGAAAATCCTGAATTTAATGAATATTGTTATTCAACTAAGGAAGGTT TGCAACCATCCGGAGTTGTTCGAAAGGAGTGAGGGCAGCACATACCTTTACTTTGGAGAGATTCCAAATTCCCTTCCACC TCCTCCATTTGGGGAGTTGGAGGATGTATATTATTCTGGTGGTCACAACCCCATATCCTATGAGATACCAAAAGTTGTCT ATCAAGAAATATTGCGAAGTTCTGAAACTCTCAGCTCAGCTGTTGCTCATGGTGTCTGTAGAGAGCCTTTACAGAAGCAT TTTAATATTTTTACACCAGCAAATATTTATCGATCTGTGTTCTCAGAAGATATTCATGTTAAAAGTGGAAACTTTGGTTT TACCCATTTGATGGATTTGTCTCCACAAGAGGTGACATTTCTGGCTACTGGTTCTTTTATGGAGCGTCTTTTATTTTCTA TGACGAGATGTGAAGAAAAGTTCATTAATGAAGTGGTAGACTTTGTTATGGAGACCTTAGATGATGATGATCCAGGATGT AGTTACCTTGATAAAGGAAAAGTGAGAACTGTCACACGAATGTTATTGGTGCCGCTAAGATGTGAGACTAAGTTTCTTCA AAACAGTTTGCCAACGGGTACTGGCCATGCTCCTTTTGAGGCCTTGGTTGTCCCACATCAGGATAGGCTTTCATCAAATG CAAGGCTTCTTCACTCTGCTTACTCATATATCCCAAAAAGTAGAGCTCCCCCAATTGGTGCTCACTGCTCTGATAGAAAC TTCTACTATAAAATGATTGAAGAATTACATGATCCCTGGCTTAAGAGGATGTTTGTGGGATTTGCACGTACTTCTGATTG TAATGGGCCTAGAAAGCCAAATGGTCCTTCTCATCATTTGATTCAAGAGATAGATTCTGAAATCCCTGTTTCTCAGCCTG CTCTTCAGTTGACACACAGCATTTTTGGGTCTTCTCCACCTATGCGAAATTTTGACCCAGCAAAATTGCTCACTGACTCT GGGAAGCTTCAAACACTTGATATATTATTGAAACGCTTACGAGCAGGAAATCATCGTGTTCTTCTGTTTGCTCAGATGAC CAAGATGCTGAATATTTTGGAGGACTATATGAACTACAGGAAATATAAGTATTTTAGACTTGATGGATCATCTACCATTC AGGACCGCAGAGACATGGTCAGAGACTTTCAACATAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGTGGA TTGGGTATCAACTTGACAGCAGCTGACACAGTCATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGCAAT GGACAGAGCTCATCGTTTGGGTCAGACAAAAGATGTTACTGTTTACCGACTTATTTGTAAGGAGACAGTTGAAGAGAAGA TTCTTCAAAGAGCTAGTCAAAAAAGTACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGGTGACCTTTTAGCT CCTGAGGATGTCGTATCTTTGCTTCTGGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTCTCCAGGTAAAGGA TAAGCAAAAGAAAAAACAACCTACGAAGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATCTATCAAACT CTGTGGCTCAGGGTACTGCAGATAACGATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAGAGAAAAGCT GCCTCGGATAAGCAAACTTCGAGGGCAAAAAATTCCCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCAATT GGATGATATCCACCTAAATACTGATCCAGTGGATCAGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATGAAA AGTTTGAAGAGGCTTTTACTGGCACAGCTACCGTGGTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAATGCT GGCGGGTCTAAAGTTGAATCAGGCCAAGACACCTGA
Protein sequence (LotjaGi1g1v0670100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDHTTNPNNDSLSYSTLFNLEPLMNFQLPEQDDDFEYYGNSSQDESRNNSQGGAIVNDSNGSMHGRDVKRSRNSDSKEKS SFNGTHMTEERYRSMLGEHIKKYKRRSKDTSSSPAQNQVAVPVAKSNTGLKSHKLGNERRGGLQAPETTSEWMNGSDSQK LGNFREANLVQRFGTDRIMYEPPSLDIGDGITYKIPPIYDKLAAMLNLPSFSDIHVEDFYLKGTLDLGSLAEMMAVDKRF WNRNRAGMGEPITQYESLQARLRVMSTSNSAHNFSLRVSDDGSSSIPEGAPGNIKRHILSEGGVLQVYYVKVLEKGDTYE IIERSLPKKQKFKKDPALIEKEEMERFGKVWVNIVRRDLPRHHRNFTTFHRKQLTDAKKFSDTCQREVRMKVSRSLKWTR TASMRTRKLARDMLLFWKRIEKETAEVRKREEKEAAEALRREQELREAKRQQQRLNFLIQQTELYSHFMQNKSNLLSSEA LPTEDENTNDQGALINSSDAGPNEEEDPEEAELKREALKAAQEAVSKQRSLTSAFDTECLRLRHAGETDSVPPEVAGASN IDLQTPSTMPVASTVRTPELFNGCLKEYQLKGLQWLVNCYEQGLNGILADEMGLGKTIQAMAFLAHLAEEKNIWGPFLVV APASVLNNWNEELERFCPELKRLPYWGGVSERTVLRKSINPKDLYRREAKYHILITSYQLLVTDEKFFRRVKWQYMVLDE AQAIKSASSIRWKTLLSFNCRNRLLLTGTPIQNNMAELWALLHFIMPTLFDSHEQFNEWFSKGIENHAEHGGTLNEHQLN RLHSIIKPFMLRRVKKDVVSELTTKTEVTVHCKLSSRQQAFYQAIKNKISLAELFDSNRGQLNEKKILNLMNIVIQLRKV CNHPELFERSEGSTYLYFGEIPNSLPPPPFGELEDVYYSGGHNPISYEIPKVVYQEILRSSETLSSAVAHGVCREPLQKH FNIFTPANIYRSVFSEDIHVKSGNFGFTHLMDLSPQEVTFLATGSFMERLLFSMTRCEEKFINEVVDFVMETLDDDDPGC SYLDKGKVRTVTRMLLVPLRCETKFLQNSLPTGTGHAPFEALVVPHQDRLSSNARLLHSAYSYIPKSRAPPIGAHCSDRN FYYKMIEELHDPWLKRMFVGFARTSDCNGPRKPNGPSHHLIQEIDSEIPVSQPALQLTHSIFGSSPPMRNFDPAKLLTDS GKLQTLDILLKRLRAGNHRVLLFAQMTKMLNILEDYMNYRKYKYFRLDGSSTIQDRRDMVRDFQHRSDIFVFLLSTRAGG LGINLTAADTVIFYESDWNPTLDLQAMDRAHRLGQTKDVTVYRLICKETVEEKILQRASQKSTVQNLVMTGGSVGGDLLA PEDVVSLLLDDVQLEQKLKEIPLQVKDKQKKKQPTKGIRVNEDGDASFEDLSNSVAQGTADNDNAMNPEGSKSSNKKRKA ASDKQTSRAKNSQKMSELSTMPIDDQLDDIHLNTDPVDQKPKRPKRIKKNVNEKFEEAFTGTATVVPEQTQFQPPHDFNA GGSKVESGQDT
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 | 1506 | 1492 | 0.0 | ||
PANTHER | 15 | 1506 | 1492 | 0.0 | – | |
MobiDBLite | 33 | 158 | 126 | - | – | |
MobiDBLite | 41 | 58 | 18 | - | – | |
MobiDBLite | 63 | 109 | 47 | - | – | |
MobiDBLite | 110 | 125 | 16 | - | – | |
MobiDBLite | 143 | 158 | 16 | - | – | |
Pfam | 345 | 474 | 130 | 6.9E-48 | ||
ProSiteProfiles | 350 | 475 | 126 | 25.565 | ||
Coils | 422 | 461 | 40 | - | – | |
MobiDBLite | 481 | 498 | 18 | - | – | |
MobiDBLite | 481 | 513 | 33 | - | – | |
SUPERFAMILY | 569 | 813 | 245 | 2.05E-62 | ||
SMART | 581 | 776 | 196 | 2.4E-34 | ||
Gene3D | 582 | 822 | 241 | 3.3E-95 | ||
CDD | 585 | 813 | 229 | 2.7189E-154 | – | |
ProSiteProfiles | 597 | 768 | 172 | 23.725 | ||
Pfam | 598 | 886 | 289 | 4.2E-66 | ||
SUPERFAMILY | 815 | 1382 | 568 | 5.94E-66 | ||
Gene3D | 823 | 892 | 70 | 3.3E-95 | – | |
Gene3D | 1172 | 1427 | 256 | 1.1E-76 | – | |
CDD | 1193 | 1325 | 133 | 3.58398E-65 | – | |
ProSiteProfiles | 1205 | 1389 | 185 | 18.511 | ||
Pfam | 1205 | 1314 | 110 | 1.2E-16 | ||
SMART | 1231 | 1314 | 84 | 9.2E-23 | ||
MobiDBLite | 1385 | 1406 | 22 | - | – | |
MobiDBLite | 1385 | 1490 | 106 | - | – | |
MobiDBLite | 1407 | 1431 | 25 | - | – | |
MobiDBLite | 1446 | 1460 | 15 | - | – | |
MobiDBLite | 1468 | 1482 | 15 | - | – | |
MobiDBLite | 1508 | 1531 | 24 | - | – |
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 LotjaGi1g1v0670100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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