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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0670100 |
Transcript ID | LotjaGi1g1v0670100.3 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | DNA helicase; 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_chr1:123363840..123374560) extracted from Lotus japonicus Gifu genome v1.2.
CACTGTGTTTTTTTTTTTGGGTTGTTGTTTTTACTTGTGTTTAGCCTGAGAGAGTTTTACCTAGTGCGATCTTTATGATT GTGAGTGATGGTTCTGTTGTAAAGAGTTACTGTTTTGCTGGGAGTTGTTTGTTGGTTTTAGTATTTAGAGCTTTGAATTA TGTATGTAATCTGTATTTTTGGGATGCTTCTGGTAGTAGGTGGGGCAATTGTGAATGATAGCAATGGGAGCATGCACGGA AGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAGAGTAGTTTTAACGGCACACACATGACGGAGGAACGATA TCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAGGTCTAAGGATACCTCGTCTAGTCCGGCCCAAAATCAGG TTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTCACAAGTTAGGGAATGAACGCAGGGGAGGATTACAGGCT CCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAGAAACTAGGGAACTTCCGTGAGGCAAATTTAGTGCAGCG ATTTGGCACTGATAGGTTTGCCTTTTTAGCTCTGTTGCCTTTATAGTGTTGGGCTTTTGAATAATGATAGTTGTTTAAGT TACAAAATGGCCTCACCTTTTGTAAGCTCCTTGCAGGATTATGTATGAACCTCCATCTTTGGACATTGGGGATGGTATAA CCTACAAAATTCCTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTTCCAAGCTTCTCGGATATCCATGTCGAGGAC TTTTACTTAAAGGGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGCTGTTGATAAAAGGTTTTGGAATAGAAATCG GGCAGGCATGGGGGAACCCATAACCCAATATGAATCACTTCAGGCACGACTAAGGGTCATGTCAACTTCTAATTCAGCTC ATAATTTCAGCCTCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAGGGGGCGCCTGGAAACATAAAGCGACATATT TTATCTGAGGGTGGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAAAGGCGACACATATGAGGTATCTATTGAACA ATAAGTGAGTGATTTTTCCATTTAGCTTTACTCTTCTTTTTTCTGTTTTTTAATTTAGCTTTGTCTTTCAACTGCTTCAG ATCATTGAACGAAGCCTACCTAAGAAACAAAAGTTTAAGAAAGACCCTGCTTTAATAGAAAAGGAGGAAATGGAAAGATT TGGAAAGGTTTGGGTAAATATTGTAAGGAGAGACTTGCCAAGGCATCATAGGAACTTCACTACTTTTCATCGAAAGCAGC TCACTGATGCCAAAAAGTTCTCGGATACCTGTCAAAGAGAGGTATGCCCTGTTTCCCCCTGATAGGATTGTTTATCTGTT ACATTTCATGTTGGTTTGTGGTATACCTAATCTCGCCATATAGTCTAATGCATTGTAGGTTTTGTATTTTTCATTTGCAG TTCAATAACTTGTATCAATTTATTTTCTTTCAGGTTAGAATGAAAGTGAGTAGATCACTTAAATGGACAAGGACTGCCAG TATGCGCACCCGGAAATTAGCTAGAGACATGTTACTATTCTGGAAACGAATAGAAAAGGAGACGGTACTTATTAATTCCT TGCTGAAGTTTATTGATTTTATTGTGCTGGTGATTCTAGAAGACATATTTTTCTTTGATTGTTGTGGAGTTTAGTTGAAC ATGATGGCTGCAAACTCTTCCTTATGGACATTTTTTAGAACAAGTTTGATGCATGATAGTTGATGATATATTACTGACTT GCTATGTGTACATATATTTTGTTGATTTGTATTCATCTAATGAATGATAGTCTTGCAATCTTCTTCCTGTTCACAATTTT TTATGTCGTCATCAGTGATGATTGATTTGGATGTTATTATTCACTTTTTCAAAGCAAAGGTATTTAAATATAGGGTCCGA GGTTTTCAATTTAGTTGTTTTTGATATTCAGATAAGACTTGGGATTTGTTTATTAGATACATACACCACAATGTTGGTTC TGATCAGGTGGTCTATTTATTTGACATACAGATGTGGTCATCTGTACTTGGAGTTATTTTGTGTATGGGACTATTGTCAC GCTGATGTAAAATACACTTGAATATGCTGTAATTTTTCAATTTCATTCCTTGCAGGCAGAAGTGAGAAAAAGAGAAGAAA AAGAAGCTGCTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAGAGGCAGCAGCAAAGGCTTAATTTTCTTATA CAACAAACAGAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACTATCTTCAGAAGCTTTGCCCACGGAAGATGA AAATACAAATGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTAATGAGGAGGAAGATCCTGAAGAGGCTGAAT TGAAGAGGGAAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGAAGTTTGACAAGCGCTTTTGACACTGAATGC TTGAGGCTGCGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGCTGGAGCAAGTAATATTGATTTGCAAACCCC GTGAGCTCCCTCTCTCTCTCTGTATGTTGTGTGAATGCATATCTACACTACTTGGAAATTTTTAAATGGCGAATGCAAAT TTATGTTGATGTTCATCTGAATAATATTGAGGATTGTGTGATAAGAAATACTGTGTTCATTCTAATCAACTTTATGTATT GCTGTATTGCAGCTCCACCATGCCTGTGGCATCCACTGTTCGGACACCTGAATTATTTAATGGTTGTCTAAAAGAATATC AACTAAAAGGTCTTCAGTGGCTAGTTAATTGTTACGAGCAGGTTGTTGAGCACTCTTAATAAAGTCTCAATGATTTATTG CTTTTGGTTTCTAATAAGAATGCTTTTGGGACCTTTTAGGGTTTGAACGGTATTCTTGCTGATGAGATGGGACTTGGAAA GACCATTCAAGCTATGGCTTTTTTAGCCCATTTAGCTGAGGTAGCTATTCATTAAGCTTTTTTTGAAGAACTCCATGACT TTATTTTAACTTGCTTGTCGCATGCAGGAGAAAAACATATGGGGACCTTTTTTGGTTGTTGCACCTGCCTCAGTATTAAA TAATTGGAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTCCTTATTGGGGTGGGGTTTCAGAGCGAACAG TGCTCAGGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGTAATGTTATTCTCTTTTGCATTCATAACCTTAAAAAGTA CAGATGCCAATAGTACACTTTTGGCTTGTTTAGTGTTACATAATTAATCTAAATGCCGATAGTACACTTATAGTCGTATA AGCTGCCATGTCATCAAGTTTTCTAGGCGTTTTAAAGGGTATTGATATTTGGGATGAATTTGGTCAAATTAAGAAACATT TTCGACAAAATAAAACAGTGTAATTATGGGATGAAAATGCAACCCAAAGTAAAGGGACAAAGGCTGTGTTTGATATAGTG TTATTAATCCCGTATAGTGGGGCATAGCTGCTCACTGAAAAAACACTATAGTGGGATGGCCGCTATTCTGATTTTTTTTT ATATATAATTGATATAATATACACTAGTATACATACATAAACTCTTAAAATGATAAAAAGTACTCAACTTATGATATTGT AATTAAGTTTGAAAAGTCAGGTGACATAAATAAAACATAGAAGTCAGACCAGTGAGAAATTAAAAGGGAGTGATTAAAGA AAAAATAGAGCCAGTAAAATAGGAAAAAGAAAAAGGAACCAGAAAATAGACAAAATAATCAACAAAAGAAAGAAAAACAG GGGGAAAAGAACAAAACATCACTGCTAGCCGCTGGATGAGAATAAATGGGACTGTTGGGGCTGTAAATGATCGCTGGAAC CTCGCCGGTCTTCACGCGGTGGCTAGTATGTGGTAGCTTGGTTGGTGGAAGATTGGTCAGAAGCTGGACTAGGTTGCGGA AATGACTGAGGTGTGAAGAGGAGACTCCTTTAAGAGGAATGTTTTTTTACCTTTTAAACCTAAAACCCAAAACTATGCTC CTAAAAGTTTACCCTAATGTGAGTATTATGAGGGTAATTTCAACCGGTACAGGCATGATGTCAACCGCGCCGATACGCAA TGAACTGTAGTGGCCATGGGCCTCTATCTCACGCTACTAACAAGCCTGGTTTAATATCTAATGGATGGAACATAATCAAA TCTATCTGAATCGAATAAAGTTAGAATTCCATATTTTGGGTATTTTGATGATTGAAAGGAGAAGAATACTTGTTACATTC TGTCCCATTGCTCCTAAATTGGAGGGGAAGGAAAACCAGGGTATTGGATGAAACCATTTTATTTGTTCCATTCTGTTCCA TCTTATTTTAAACAATCAAAACAATAGAACCTATTATGATTCCATTTCTTTCCACTTCATTTCATCCCTTTCCATCAATT GAAATATAGCTAAAAAGTAAAGTTTGTCCAATTTGTAATCATATTTGAATTTTGAATCTGACAAAAAATGGCTAACTGAG TACATTTTAAAAAAACTATTGTGAGAGTTCCTTTAAGTTGAGAGCTCTTTGTATGTGGTGGACCTTTGTGATTGACGTGA AATAATGATTATCTCACTTTTAAGTTTAGTCAAGCAAAACAGTTGGGTTTTAAGAAAGTGAAGTAAAGGATATCAAATGG TAGAATCCCCTTTCAATCAGTGTAGATATTTTACCAATATTAATTCACTATTCATTTGCATAGAATCATCTTGACTCATT TGCATATAATCATCTTCACTAAAAACCTTTGGAATTGTGAGGCTAATACAATATTTTGGCCCACATCTGCCACTTGTAAA TTCTACTTATAATTTATCTTTTTGGTCTTTGATTTTTATCCCTCTGAATTCTATTTTTACTATATTTTATATATTTACAG GGAGGCTAAATATCACATTCTTATTACAAGCTACCAACTTTTAGTAACTGATGAGAAGTTCTTTCGGCGCGTGAAATGGC AGTATATGGTTTTAGATGAAGCCCAGGCAATCAAAAGTGCAAGCAGGTTTGTGATAATCTATATTTCTGCGATGCAGAAG TGAATGACATTCATAATTACTTGGTTATTGTTCCTTACTTCCTACCATTGTTTTAAACAAAATTTGATTAATTATTTTAT GGGGTGCATTTTTCCTGATTGAGTTGTGTATAATTTTGTAGATCTTTCTTATTTGTGTGGTTAATACAATATTTGAAGTT ACAGTAACATCTGTTTTTGTGATTGCTGCCCTTATAAAAACTAAATTTCATCCAACAGTATAAGATGGAAGACACTCCTC AGCTTTAATTGTCGGAATCGCCTACTGCTAACTGGTACACCCATTCAGAATAATATGGCTGAGTTATGGGCTCTTCTGCA CTTCATCATGCCAACTTTATTTGACAGCCATGAGCAGTTTAATGAGTGGTTTTCAAAAGGGTATGTTTTCCTCGTTATCG TCCTTAGATACGTTTGCTAGTTTAAGTATGGTCTAACAATCATTTCTGATTTATAACATGCCAGAATTGAAAACCATGCA GAACATGGGGGTACTTTGAATGAGCACCAACTTAATCGGTTGGTAAGTTTGTCTTCCCTGTGTGATAGTAATAGTAAGGA GATAGTTAGGATATTTTATTATTTAAATATTATATTGAGTTTTTTAATCAGATATTTTATGGGCATATAATAACCTATGT TGTGGAATGAGGGAGGGGGTTGCTTTGGGTCTCTTCAAATTAGAGGAAATTGTTGGTGTCATTCTTTGTGGCCTTTGTTG GGTCTTAAATTTCTGGGATTTTTTAAACTTATGAGTTGTATTAAAACAGGGATACTACAATAGGATGTGTAGTATGGTGG CTTTTATTTTTATTATTGCTTTTAAGTTCTAATTATTATATTTGGTTTGTTTCACTTCTTAGTTTTTATCATTTTATAAT TTTTGGCTTATATTTTGGGTATGTTCTCTTAACAGCATTCAATTATAAAGCCTTTCATGCTGCGACGTGTTAAAAAAGAT GTGGTTTCTGAGCTGACTACAAAAACTGAAGTTACGGTCCATTGCAAGTTGAGTTCTCGTCAGCAGGCTTTTTATCAAGC AATTAAGAACAAGATATCTCTTGCTGAGTTGTTTGACAGTAATCGTGGGCAGCTTAATGAAAAGAAAATCCTGAATTTAA TGAATATTGTTATTCAACTAAGGAAGGTAGACAATCCATATTGTTCAGGCTTTATTTCCCATGCTTTAATTTTCGTATCA ATTGGTTCCTTCCGAAATCAGGATTATTGTGTTTCAATTATGTCATGTTCTTTTTACTTCCCACCAAGATTGCGCATTAT AAATTCTTTAAATTTGATAGGTTTGCAACCATCCGGAGTTGTTCGAAAGGAGTGAGGGCAGCACATACCTTTACTTTGGA GAGATTCCAAATTCCCTTCCACCTCCTCCATTTGGGGAGTTGGAGGATGTATATTATTCTGGTGGTCACAACCCCATATC CTATGAGGTATTTCTTCTTGCCTTGTGTCCAAAAATTCATTTTTCCTCCTCTTCAATTCAATGTCCCATATTTCTTATTC AAGTTCTTTTAACGTTCCTAAGTTAGAAGCTCTCTTAAGTTGGAAGTAAAATTTAAATGTTATATCACAGTGTGTTTGAC GTCCTTTCGATTGGATTTTACATGATACTTATGGTTGAAATTATAGGGTCTAAATCGTCAAGGAGAAAGAGGGAAAATAA ACTTCCGATAATGTTCTCTTAAACTGATATGATGTGTAATGATGTGATACAAAATGCTGACTTAATGCTCCTATGCTTAC TCTTAACTAGAACCTAATTTTTGTTGCAATTTGGCTTTTTATTATGAAAGGAAATTTTGTTTCGATATTATGTTTACCCT TTGGAGAATCTTTCATATATTGGGTTTTCTTTTGTTTTTGTATTGAGTTCTCCCTTTTGCCCTAGTAATTAGCTTCTCTG CTTCATTATGTTGACAATACCACCTTCAGTTCTTTTTCTTATTTTTGTGTCCCGTTTTTTCAGATACCAAAAGTTGTCTA TCAAGAAATATTGCGAAGTTCTGAAACTCTCAGCTCAGCTGTTGCTCATGGTGTCTGTAGAGAGCCTTTACAGAAGCATT TTAATATTTTTACACCAGCAAATATTTATCGATCTGTGTTCTCAGAAGATATTCATGTTAAAAGTGGAAACTTTGGTTTT ACCCATTTGATGGATTTGTCTCCACAAGAGGTGACATTTCTGGCTACTGGTTCTTTTATGGAGCGTCTTTTATTTTCTAT GACGAGATGTGAAGAAAAGTTCATTAATGAAGTGGTAGACTTTGTTATGGAGACCTTAGATGATGATGATCCAGGATGTA GTTACCTTGATAAAGGAAAAGTGAGAACTGTCACACGAATGTTATTGGTGCCGCTAAGATGTGAGACTAAGTTTCTTCAA AACAGTTTGCCAACGGGTACTGGCCATGCTCCTTTTGAGGCCTTGGTTGTCCCACATCAGGATAGGCTTTCATCAAATGC AAGGCTTCTTCACTCTGCTTACTCATATATCCCAAAAAGTAGAGCTCCCCCAGTATGTTATCTTTCTTTACTAGTCTTCA GCTATTTTCCCAAAATAAGTTGTCTTGTTTTAACAAAATGATAATTAAACTGTGTTTCTTCTTTTCATCTTCTTAGATTG GTGCTCACTGCTCTGATAGAAACTTCTACTATAAAATGATTGAAGAATTACATGATCCCTGGCTTAAGAGGATGTTTGTG GGATTTGCACGTACTTCTGATTGTAATGGGCCTAGAAAGCCAAATGGTCCTTCTCATCATTTGATTCAAGAGATAGATTC TGAAATCCCTGTTTCTCAGCCTGCTCTTCAGTTGACACACAGCATTTTTGGGTCTTCTCCACCTATGCGAAATTTTGACC CAGCAAAATTGCTCACTGTAAGTGTTGTTTTTACTCCTTTTATTTCTTTCTCATGGAGTGCCTCCTCATTTCAACTTTCA TGTGGAATTAATCTTCTAAGTCAAATGATAGGACTCTGGGAAGCTTCAAACACTTGATATATTATTGAAACGCTTACGAG CAGGAAATCATCGTGTTCTTCTGTTTGCTCAGATGACCAAGATGCTGAATATTTTGGAGGTATTTTTAAACTTTCCAGTG TTAAACCTTTTGATATTAGTCGTTTGTGTATACTGGTTTCATTTTGACTTGTTCAAAAATGTAAAACATGGATATATTAA TGAATAAAATCAGTCATTGTGTTAGCCTCTTGGTGGTGGCCCATTTCCCTTCAATGTGATGGTTACATGAAATCAGCCTG AGAGACCTGACATGCATGCTCATGTTTGTCTATGTTTCTAAAGAAACTACATGAGTTTGATTCTTTTTTATTTTTTTCTA AAGAAAACGTGAACTCAGACTATTTCAATTCAGTGATTGGAAAATGAATACATTCTTACCGTATTGAGGATCTCGGCCTT CAACCCATTTTTTGTTATGCTCACTGGTGATTTAATCCTTCTCGCAGGACTATATGAACTACAGGAAATATAAGTATTTT AGACTTGATGGATCATCTACCATTCAGGACCGCAGAGACATGGTCAGAGACTTTCAACATAGGTAATGTTGTCTTCTTTA TAATACTGTTCTCTGGTTAGACGACTACTGATTGTTATGTATTCCATTATACCTGTTGGTGATATTTTTTATTAATTTGT TGTAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGTGGATTGGGTATCAACTTGACAGCAGCTGACACAGT CATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGCAATGGACAGAGCTCATCGTTTGGGTCAGACAAAAG ATGTTAGTTCCTTCTCTCCCTCTCCCTTCCTCCTCATGTACCCATTTGTTATTTGTTCTTTGGATGGCATGTTACATATT TTTTGGGATCTCAGCTGATGGCCTCTGAATTTTTCATTCTATTCATACCTGGAGTTGTTGCATCCCTTCCTATCTGAATC TTGCTCAATTTTGCTTGCTTAGACACAAAAACCACTCCTTTTATCAGCTTACTGTTTTAATTTAAAACTAACTTCAGATG TATTCTTGAACTTGTAGGTTACTGTTTACCGACTTATTTGTAAGGAGACAGTTGAAGAGAAGATTCTTCAAAGAGCTAGT CAAAAAAGTACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGGTGACCTTTTAGCTCCTGAGGATGTCGTATC TTTGCTTCTGGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTCTCCAGGTCAGTTGAGAATCAGGTCACCCAA ATTCATTATATTACATGATGTTGATTATCCCACTAAAAATCTTAATGAACAAGGAAAAGACCAAGTTCCAGAAAGCCTAA AACCTATTTGAGAATTTTTCAGATTATGTTTAACCTCACTTATCCTTCCAGGTAAAGGATAAGCAAAAGAAAAAACAACC TACGAAGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATCTATCAAACTCTGTGGCTCAGGGTACTGCAG ATAACGATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAGGTATCGTTGAGTTTTTTATTGTTTTCTATG TCTTCAAGGCAGCTTCCTTGATTGATTTAAGTTTGTTGCTCTAGTTTTCCCATAATTATATTAGTTTGAACTGCTATAAA TTGAGTGACGGTAGTTTAGTTAAGGAAAACAAAATCTCATAATAAGGCTTGGCTTTTCTTTCTTAATCCCTACCTTTCAC TAAAACATCACTTATTTTGAACTGGAGAGAGTAAAGAGATGGACTTCCAAGGGACTTTGAATGACGGAGTGTTCTTTCTT GATAGTCTTTAGAATATATATTGAGTCTTTGGTGGCTATTGTTTCAAGGAACTATGTTCAGATTTAGAAAGTATTTCCCA CTTAAAAATGGTAAAGGAGACATAACTTGTGTATTTAATGGCTGCATATGTTTGCTGCTTTACTGGATCAATGGTTCATC TGCATATGATAAACATACAATTAGTTTTCAATACAACTTGTGGACCCTTGAACCATATGTGGTATTTGTCTGTTTTATCA TTTATTTGATATTTAAGTGATCTAAATTTTTAGATGAGCTGATTTTTATGGCATTCTAAGGTTGAAAGTTTATTGTTAAT TTCTTATTTCAACTTGGTAACAATGTCCATTTGCAGAGAAAAGCTGCCTCGGATAAGCAAACTTCGAGGGCAAAAAATTC CCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCAATTGGATGATATCCACCTAAATACTGATCCAGTGGATC AGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATGAAAAGTTTGAAGAGGCTTTTACTGGCACAGCTACCGTG GTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAATGCTGGCGGGTCTAAAGTTGAATCAGGCCAAGACACCTG A
CDS sequence (LotjaGi1g1v0670100.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCACGGAAGGGATGTGAAGAGGTCTCGAAACAGTGATAGCAAGGAGAAGAGTAGTTTTAACGGCACACACATGACGGA GGAACGATATCGATCAATGCTTGGAGAGCATATTAAGAAATATAAGAGGAGGTCTAAGGATACCTCGTCTAGTCCGGCCC AAAATCAGGTTGCTGTTCCAGTTGCGAAAAGTAACACAGGATTAAAATCTCACAAGTTAGGGAATGAACGCAGGGGAGGA TTACAGGCTCCAGAGACTACATCGGAATGGATGAATGGATCCGATTCTCAGAAACTAGGGAACTTCCGTGAGGCAAATTT AGTGCAGCGATTTGGCACTGATAGGATTATGTATGAACCTCCATCTTTGGACATTGGGGATGGTATAACCTACAAAATTC CTCCAATTTATGATAAGTTGGCTGCAATGCTGAACCTTCCAAGCTTCTCGGATATCCATGTCGAGGACTTTTACTTAAAG GGTACCTTGGATTTGGGCTCCTTGGCTGAAATGATGGCTGTTGATAAAAGGTTTTGGAATAGAAATCGGGCAGGCATGGG GGAACCCATAACCCAATATGAATCACTTCAGGCACGACTAAGGGTCATGTCAACTTCTAATTCAGCTCATAATTTCAGCC TCAGAGTATCTGATGATGGTAGTTCTTCCATTCCGGAGGGGGCGCCTGGAAACATAAAGCGACATATTTTATCTGAGGGT GGTGTACTGCAGGTTTATTATGTGAAGGTTTTGGAGAAAGGCGACACATATGAGATCATTGAACGAAGCCTACCTAAGAA ACAAAAGTTTAAGAAAGACCCTGCTTTAATAGAAAAGGAGGAAATGGAAAGATTTGGAAAGGTTTGGGTAAATATTGTAA GGAGAGACTTGCCAAGGCATCATAGGAACTTCACTACTTTTCATCGAAAGCAGCTCACTGATGCCAAAAAGTTCTCGGAT ACCTGTCAAAGAGAGGTTAGAATGAAAGTGAGTAGATCACTTAAATGGACAAGGACTGCCAGTATGCGCACCCGGAAATT AGCTAGAGACATGTTACTATTCTGGAAACGAATAGAAAAGGAGACGGCAGAAGTGAGAAAAAGAGAAGAAAAAGAAGCTG CTGAAGCTTTGAGGCGCGAACAGGAGCTCCGAGAAGCAAAGAGGCAGCAGCAAAGGCTTAATTTTCTTATACAACAAACA GAGCTGTACAGTCACTTTATGCAGAACAAGTCAAACTTACTATCTTCAGAAGCTTTGCCCACGGAAGATGAAAATACAAA TGACCAAGGTGCACTGATAAACTCTTCAGATGCTGGGCCTAATGAGGAGGAAGATCCTGAAGAGGCTGAATTGAAGAGGG AAGCTTTGAAGGCTGCTCAAGAAGCAGTCTCTAAGCAGAGAAGTTTGACAAGCGCTTTTGACACTGAATGCTTGAGGCTG CGCCATGCTGGTGAAACTGATTCAGTACCGCCAGAAGTTGCTGGAGCAAGTAATATTGATTTGCAAACCCCCTCCACCAT GCCTGTGGCATCCACTGTTCGGACACCTGAATTATTTAATGGTTGTCTAAAAGAATATCAACTAAAAGGTCTTCAGTGGC TAGTTAATTGTTACGAGCAGGGTTTGAACGGTATTCTTGCTGATGAGATGGGACTTGGAAAGACCATTCAAGCTATGGCT TTTTTAGCCCATTTAGCTGAGGAGAAAAACATATGGGGACCTTTTTTGGTTGTTGCACCTGCCTCAGTATTAAATAATTG GAATGAGGAACTTGAGCGCTTCTGCCCTGAACTGAAAAGACTTCCTTATTGGGGTGGGGTTTCAGAGCGAACAGTGCTCA GGAAAAGTATCAACCCAAAGGATCTTTATCGGAGGGAGGCTAAATATCACATTCTTATTACAAGCTACCAACTTTTAGTA ACTGATGAGAAGTTCTTTCGGCGCGTGAAATGGCAGTATATGGTTTTAGATGAAGCCCAGGCAATCAAAAGTGCAAGCAG TATAAGATGGAAGACACTCCTCAGCTTTAATTGTCGGAATCGCCTACTGCTAACTGGTACACCCATTCAGAATAATATGG CTGAGTTATGGGCTCTTCTGCACTTCATCATGCCAACTTTATTTGACAGCCATGAGCAGTTTAATGAGTGGTTTTCAAAA GGAATTGAAAACCATGCAGAACATGGGGGTACTTTGAATGAGCACCAACTTAATCGGTTGCATTCAATTATAAAGCCTTT CATGCTGCGACGTGTTAAAAAAGATGTGGTTTCTGAGCTGACTACAAAAACTGAAGTTACGGTCCATTGCAAGTTGAGTT CTCGTCAGCAGGCTTTTTATCAAGCAATTAAGAACAAGATATCTCTTGCTGAGTTGTTTGACAGTAATCGTGGGCAGCTT AATGAAAAGAAAATCCTGAATTTAATGAATATTGTTATTCAACTAAGGAAGGTTTGCAACCATCCGGAGTTGTTCGAAAG GAGTGAGGGCAGCACATACCTTTACTTTGGAGAGATTCCAAATTCCCTTCCACCTCCTCCATTTGGGGAGTTGGAGGATG TATATTATTCTGGTGGTCACAACCCCATATCCTATGAGATACCAAAAGTTGTCTATCAAGAAATATTGCGAAGTTCTGAA ACTCTCAGCTCAGCTGTTGCTCATGGTGTCTGTAGAGAGCCTTTACAGAAGCATTTTAATATTTTTACACCAGCAAATAT TTATCGATCTGTGTTCTCAGAAGATATTCATGTTAAAAGTGGAAACTTTGGTTTTACCCATTTGATGGATTTGTCTCCAC AAGAGGTGACATTTCTGGCTACTGGTTCTTTTATGGAGCGTCTTTTATTTTCTATGACGAGATGTGAAGAAAAGTTCATT AATGAAGTGGTAGACTTTGTTATGGAGACCTTAGATGATGATGATCCAGGATGTAGTTACCTTGATAAAGGAAAAGTGAG AACTGTCACACGAATGTTATTGGTGCCGCTAAGATGTGAGACTAAGTTTCTTCAAAACAGTTTGCCAACGGGTACTGGCC ATGCTCCTTTTGAGGCCTTGGTTGTCCCACATCAGGATAGGCTTTCATCAAATGCAAGGCTTCTTCACTCTGCTTACTCA TATATCCCAAAAAGTAGAGCTCCCCCAATTGGTGCTCACTGCTCTGATAGAAACTTCTACTATAAAATGATTGAAGAATT ACATGATCCCTGGCTTAAGAGGATGTTTGTGGGATTTGCACGTACTTCTGATTGTAATGGGCCTAGAAAGCCAAATGGTC CTTCTCATCATTTGATTCAAGAGATAGATTCTGAAATCCCTGTTTCTCAGCCTGCTCTTCAGTTGACACACAGCATTTTT GGGTCTTCTCCACCTATGCGAAATTTTGACCCAGCAAAATTGCTCACTGACTCTGGGAAGCTTCAAACACTTGATATATT ATTGAAACGCTTACGAGCAGGAAATCATCGTGTTCTTCTGTTTGCTCAGATGACCAAGATGCTGAATATTTTGGAGGACT ATATGAACTACAGGAAATATAAGTATTTTAGACTTGATGGATCATCTACCATTCAGGACCGCAGAGACATGGTCAGAGAC TTTCAACATAGGTCTGATATTTTTGTGTTCTTACTGAGTACAAGAGCTGGTGGATTGGGTATCAACTTGACAGCAGCTGA CACAGTCATATTTTACGAGAGTGATTGGAATCCAACATTGGATTTACAGGCAATGGACAGAGCTCATCGTTTGGGTCAGA CAAAAGATGTTACTGTTTACCGACTTATTTGTAAGGAGACAGTTGAAGAGAAGATTCTTCAAAGAGCTAGTCAAAAAAGT ACTGTACAGAACCTTGTCATGACTGGTGGTTCTGTTGGCGGTGACCTTTTAGCTCCTGAGGATGTCGTATCTTTGCTTCT GGATGATGTTCAGTTGGAGCAGAAATTAAAGGAAATCCCTCTCCAGGTAAAGGATAAGCAAAAGAAAAAACAACCTACGA AGGGTATTCGGGTAAATGAAGATGGTGATGCGTCTTTTGAAGATCTATCAAACTCTGTGGCTCAGGGTACTGCAGATAAC GATAATGCCATGAACCCAGAGGGATCAAAGTCCAGTAACAAAAAGAGAAAAGCTGCCTCGGATAAGCAAACTTCGAGGGC AAAAAATTCCCAAAAGATGAGTGAACTGAGTACTATGCCTATAGATGACCAATTGGATGATATCCACCTAAATACTGATC CAGTGGATCAGAAACCGAAGAGACCAAAGAGAATAAAGAAGAATGTCAATGAAAAGTTTGAAGAGGCTTTTACTGGCACA GCTACCGTGGTCCCAGAGCAGACCCAGTTTCAACCTCCACATGATTTCAATGCTGGCGGGTCTAAAGTTGAATCAGGCCA AGACACCTGA
Protein sequence (LotjaGi1g1v0670100.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MHGRDVKRSRNSDSKEKSSFNGTHMTEERYRSMLGEHIKKYKRRSKDTSSSPAQNQVAVPVAKSNTGLKSHKLGNERRGG LQAPETTSEWMNGSDSQKLGNFREANLVQRFGTDRIMYEPPSLDIGDGITYKIPPIYDKLAAMLNLPSFSDIHVEDFYLK GTLDLGSLAEMMAVDKRFWNRNRAGMGEPITQYESLQARLRVMSTSNSAHNFSLRVSDDGSSSIPEGAPGNIKRHILSEG GVLQVYYVKVLEKGDTYEIIERSLPKKQKFKKDPALIEKEEMERFGKVWVNIVRRDLPRHHRNFTTFHRKQLTDAKKFSD TCQREVRMKVSRSLKWTRTASMRTRKLARDMLLFWKRIEKETAEVRKREEKEAAEALRREQELREAKRQQQRLNFLIQQT ELYSHFMQNKSNLLSSEALPTEDENTNDQGALINSSDAGPNEEEDPEEAELKREALKAAQEAVSKQRSLTSAFDTECLRL RHAGETDSVPPEVAGASNIDLQTPSTMPVASTVRTPELFNGCLKEYQLKGLQWLVNCYEQGLNGILADEMGLGKTIQAMA FLAHLAEEKNIWGPFLVVAPASVLNNWNEELERFCPELKRLPYWGGVSERTVLRKSINPKDLYRREAKYHILITSYQLLV TDEKFFRRVKWQYMVLDEAQAIKSASSIRWKTLLSFNCRNRLLLTGTPIQNNMAELWALLHFIMPTLFDSHEQFNEWFSK GIENHAEHGGTLNEHQLNRLHSIIKPFMLRRVKKDVVSELTTKTEVTVHCKLSSRQQAFYQAIKNKISLAELFDSNRGQL NEKKILNLMNIVIQLRKVCNHPELFERSEGSTYLYFGEIPNSLPPPPFGELEDVYYSGGHNPISYEIPKVVYQEILRSSE TLSSAVAHGVCREPLQKHFNIFTPANIYRSVFSEDIHVKSGNFGFTHLMDLSPQEVTFLATGSFMERLLFSMTRCEEKFI NEVVDFVMETLDDDDPGCSYLDKGKVRTVTRMLLVPLRCETKFLQNSLPTGTGHAPFEALVVPHQDRLSSNARLLHSAYS YIPKSRAPPIGAHCSDRNFYYKMIEELHDPWLKRMFVGFARTSDCNGPRKPNGPSHHLIQEIDSEIPVSQPALQLTHSIF GSSPPMRNFDPAKLLTDSGKLQTLDILLKRLRAGNHRVLLFAQMTKMLNILEDYMNYRKYKYFRLDGSSTIQDRRDMVRD FQHRSDIFVFLLSTRAGGLGINLTAADTVIFYESDWNPTLDLQAMDRAHRLGQTKDVTVYRLICKETVEEKILQRASQKS TVQNLVMTGGSVGGDLLAPEDVVSLLLDDVQLEQKLKEIPLQVKDKQKKKQPTKGIRVNEDGDASFEDLSNSVAQGTADN DNAMNPEGSKSSNKKRKAASDKQTSRAKNSQKMSELSTMPIDDQLDDIHLNTDPVDQKPKRPKRIKKNVNEKFEEAFTGT ATVVPEQTQFQPPHDFNAGGSKVESGQDT
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 | 47 | 47 | - | – | |
MobiDBLite | 1 | 96 | 96 | - | – | |
PANTHER | 10 | 1444 | 1435 | 0.0 | – | |
PANTHER | 10 | 1444 | 1435 | 0.0 | ||
MobiDBLite | 48 | 63 | 16 | - | – | |
MobiDBLite | 81 | 96 | 16 | - | – | |
Pfam | 283 | 412 | 130 | 6.6E-48 | ||
ProSiteProfiles | 288 | 413 | 126 | 25.565 | ||
Coils | 360 | 399 | 40 | - | – | |
MobiDBLite | 419 | 452 | 34 | - | – | |
MobiDBLite | 419 | 436 | 18 | - | – | |
SUPERFAMILY | 507 | 751 | 245 | 1.96E-62 | ||
SMART | 519 | 714 | 196 | 2.4E-34 | ||
Gene3D | 520 | 760 | 241 | 3.0E-95 | ||
CDD | 523 | 751 | 229 | 1.13256E-154 | – | |
ProSiteProfiles | 535 | 706 | 172 | 23.725 | ||
Pfam | 536 | 824 | 289 | 3.9E-66 | ||
SUPERFAMILY | 753 | 1320 | 568 | 5.45E-66 | ||
Gene3D | 761 | 830 | 70 | 3.0E-95 | – | |
Gene3D | 1110 | 1420 | 311 | 1.5E-75 | – | |
CDD | 1131 | 1263 | 133 | 6.43938E-65 | – | |
ProSiteProfiles | 1143 | 1327 | 185 | 18.511 | ||
Pfam | 1143 | 1252 | 110 | 1.1E-16 | ||
SMART | 1169 | 1252 | 84 | 9.2E-23 | ||
MobiDBLite | 1323 | 1344 | 22 | - | – | |
MobiDBLite | 1323 | 1428 | 106 | - | – | |
MobiDBLite | 1345 | 1369 | 25 | - | – | |
MobiDBLite | 1384 | 1398 | 15 | - | – | |
MobiDBLite | 1406 | 1420 | 15 | - | – | |
MobiDBLite | 1445 | 1469 | 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 LotjaGi1g1v0670100.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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