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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0000800 |
Transcript ID | LotjaGi5g1v0000800.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Helicase-related family protein; TAIR: AT1G20720.2 RAD3-like DNA-binding helicase protein; Swiss-Prot: sp|Q3YK19|FANCJ_CHICK Fanconi anemia group J protein homolog; TrEMBL-Plants: tr|K7M8G7|K7M8G7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0000800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:136590..150398) extracted from Lotus japonicus Gifu genome v1.2.
AAGAATGGGGTGAATGAATATTGTGGAACAAGCCAAGCCAGCACTCAGGCGCCAAATCAAATTAAGAAACCTGATTTCCC GCTTAAACATCCCCTCCATGGAAAATCAGAAATATAGAGACCCAACGCAAACTATGTTCATGTTCTGAAATCGGAAAAAT GGGGTCTGCGACAAACCCAAACCCAAACCCTAACCCTAAAAATGTGTACCATATCGGAGGTCTGCAAGTGGAATTTCCCT ACCAACCATACGGGACTCAGTTTGCGTTCATGGGCAGAGTAATCTCCACCCTTAACCGAGCTCAGAAAGAAGGCCATTGT CACGCGTTGCTCGAGTCTCCAACTGGTACTGGCAAGTCCCTTTCGCTTCTTTGTTCCACTCTCGCTTGGCAGCAACACTA TAAATCTAACCCCAAACCCGCTCCGGAGCCGGAGGATCCTCTAACCCACGGCGGCGGATTTGTTCCTGACACTGGTAAAC TTACTAGCCCCTCTCTTCTCATCCGTATTTGTTTGTTTGTTTCCTTTATTTGTCACATCACATCCCTCCCAAGTAAAGCA AATTATCCCAATTTTTGCAGCATCAGATCCACAATCAGAGGCCAACAACAAAAAGCAGAAGAAAAAGCCAGCTCCAACTA TTTACTATGCGTCGTGCGTTCTAATTTTTATTCCATTTCATTTCTAGATCTTAAAAGCTTGCCTATCCTCACTTAACTAC ATCAATTGTTGAATTAGGAGAACACACTCACAAATTTCTCAAGTGGTTCGTGAATTGCGGAAAACTGCATACAGGGTGCC CATGGCTGTGCTGGTAGGTTCAACCCATTGCTTTTATGCCCTTGTTATTTTGATCTCAACTCCTTCGGGTTTTCAGTTTT ATGATAATTTATGGGTTCTTTCAAGTAATTTTATTTTTCTCATCTTTCAACATAGTGAAGCTAATAGAAGATCATATCAT TCCATACCCTTAGGCAGAATGTGAGCCTTGAACTTTTAAATTTCTAATGTCTGTTATTTTTCAAACTCTTATCTAATAAT AAGTTGAATTGTGATGTATATCATGTGTTATTTTCAAAGCATTTTTTATGGCATACCAACCAGTATCCAATGTATTTGAT AAGGATTATAATTTAGCAATGGCTTATGTGAAAATGTTTTCTTCAAGATTCTATGTCATTTTACCAGTCATCCTAGCAAA TATGCAGAGATGTTACTTTTAGTATCTTAGTCTATTGAGTATTTTACCCCTCTCTTGTTTTTCCAGGCAGCACGGAAACA TTACTGCACCAACAAAAATATACTTGGCAAAGAGAACCTTGATGAAGAATGGTTGGTTTTACCTCAACAATTTTTAGCTT ATAAGAATTTCTTTCTGATCTTCATAAATCATACTTATATATTTCATAAAATGTTTTCAGTAAACTACTATTGAAAGATC AGGCAATGGGGTGTCCAGAATTCAAGTAAGTGTATGCTTATCCACACATGCTTCTTATATATTTTCATATCACTCTGCTT GAAGTAACAAAAACCTGAAACTTCCAATGTAAGCAGAAATGCTCATAAAGTCAAAGGTCATCCATCCCTTCAGAAGGGAG GAAGCAATGAGGTGCATGACATAGAAGATCTTGTAAAAGTTGGACAAGTGGTCAAAGGTTTGGCCTTTTGTTTCTATTGT TTGTCTTTTTTCTTGTTAAGTTTGCTAAGCTTTGTTAAGTGCAAGCCTTGTACTATTTCCACTTTCAGGTTGCTCTTATT ATGCTGCGCGTTCTATGTCTGATGATGCACAGTTGGTATTTTGTCCATATAGTTATATAATTAATCCAATCATTAGGGGA GCTATGGATGTGGATATTAGAGGAGCTATCGTGATTCTTGATGAAGCTCAGTAAGCTGTTCACCCCTTTCTCTCTGTTTG CAAAATCATCAATCAGTTCCATGAGTCCAATTAGATTGAACTGGCAATTCTTTTTTCCCGATTATATATCGATTCCCAAT GTGTTTCACATACTTTCAGTTGTACGCATTCCAATCTAGAGCTGAATGACAAATTTTTAAACATTGGTTGTGGTTTGTAA CTTTGTATCTGTTTTTCTCTATGTAACTGGCCTTACATGTTTACACTTTGTAGCAATATAGAGGACATCACTCGTGATGC TGGCAGTGTGGATATTGAAGAGGATGTCTTGGATAGTATGTTATGAACCATATTGCTTTTGTTTCCATCCTTTTTAATAC TGATGCTAACTAGTTGATCATACATTTGAAAGAATTACAAGTGGAGCTCCAACAACTTTGTTCTTCAAACACTGCAATTT ACCAACCGTTATATGAAATGACACAGGTAATTAGGTTAGATATCTCTATCAGGTTTGAAATGGTTGACTTATAAGTTATA AGTATATCCTTAGTGACTGGATATCATTGATTGGTGCTGCATTTGTGTAGGGCCTTACTAGTTGGATTGAACAAAAGAAA AATAAACTAGAAAAACGCGATTTTCAGCACTACGTGTCGTGGTAAGTTAAGGGATTTATTATTCTATATGCCTTTGTTAT TATTTTGTGAATGCACTTATTGATTGTGTAATTTGTGTCTTGAGACTATCAATCCCAAGTATTATGGAAGTTGGTGTGTT AGATTTGGTATAAACATGCTTTGTAGAGTGAAATTTTGGAGAAGAGGTAATACTTTTTTCCTCTTATTCAAATAGTCATA TAATGCTGGATATAAATGCAGGGTTTGTTAAGTGATAACTACCAATATGATACAACTAAGGAAAATACAGAGAAGAATGA GGAACAGTAAATTAGATCCTGACCTTGTCAGATTTGAATTGGATGATTCAGATCTTATCATAATTCAAACAATTGGATTA ATTGCTTTAAGCTCGTGTGTACTTTTCTTTTCCAGGATTGATATTTTGAAAAATTATTTAATCTATATATCCTCTAGAGT CCCATAAAATAAAAGCCATAACTTGCAAGTTATATCCCTGATTCAGTAACGTAAGCCCTTTGTATGTATAGTTGGACTGG TGATAAGGCTTTACGTGAGCTGGAAGAAGCAAATATTTCAAAGCAGTGCTTCCCTATCTTGCTAGAATGTGCTACCAAGG TATCTCATTTGTTTGACATTATGGATTATGCATTACTCAATGCTTGTGTGTCATTTATCAACTTGATAATTTTTCCAAGG CAATCAAAGTTGCTACAGACTTGGAGACTGATCAGCCACGTTTAAGTGGCATGTCGGTGATAACACTGGAAGGTCTGGGA TTAAGGTTCTTCGTTCTTATATACTTTGCTACTACATTCAGTTATTTACCTACCTCTGAGTACTTATTACCAATGATCTT TATCAATCTCATTTCAGGCTTATTCTCATCACTAACTTATTTCTTCTCAAGAAATGGATCACACATGTTAGATTACCAGC TTTCCCTTCAGCGATGTGTTAGAAAAGATGATAGTAAGTAGTTGCAGACATTCAATGTTATCTTGAATAGCCTCCAATGA CAATGTTATCCATACGTAACTGCAAGAAAATGGATTTCAAACCTTTTGCGTATGTAGTGAAAATTTTGGGTATCAAATTT AAAATATGATAGAATTTAAGTCATCAAATTGAAAGCTTTTATGTGGAGACATTTTAAATATTTTTTCCATCTTAAATATA AATTATTTTTAATCATTGACCCTTGTGAACTTGTAGTGATACTAAGCAGATTGTCTTAAAAGTACTACACAGAACTTTAC TCTGTCATAAGAACTTAATTTATTAATAAAAGTAAAAGTACACCTGAAATGGGATATAATGGTGTAATTAGTTTGTTAAG ACGAACAATGGTGCTTTTATTTTTTTAATTGGGCAGCCAATTGCTGGTTAAATTTATTGATGACTTTGTAGAAGGCTCAA GTAGTTTGTATATATCTTCTGCTTCTGCCTGAGATGATATTGCTGCATCATTATAATTACAGTTCATTGGTTGTATCAGG AAGAGGTTTTGGAAACTGGATGCATACTTTCAGTTTGTGGTGCTTGAATCCAGCTGTTGTTTTTAGAGATGTTGCTGATC TTTCTTTATCAGTCATATTGACTTCTGGGTAAGCACAGTGAATGGCATACAGGGGCCAAGTGTATACCTGTTCAGGACAT AGTTCTATATTTTCTTTTATTCCACCTATATTCCTGAGTGCCTAAAAAATGAATTCCTGAGAGGCACATGCCTGTTAAAC GGGGGAGTTTCTGGACATTCGCACCGGAAAGGCAGTAGGCTGATGGAGTTTATAAGAAGGCCTGATTAACTAAGCTGATA ACGGGCCAGTTAGGTTCAGGCGACCTAATACTGGTTTCATGCATGTAATTATCCTTACATAGCCTTTCCCAGGTGTTCTT GAACCAGCAATGTAGGGCCCGTTTGGTGGTCAGGATAGGATATGATAGGATATGATATGTGAACAGGATATCAACAGGAT ATGATAAGAGCAGGATAGACTCTTATCATATCCTGTGTTTGAGGTGCACATGATAATGATAGGATATGATAAGGAAAAAT GTATCAGATTTATATTTGAATAAAAAATACATTTAAAATTGATCATTCTATTAAATTTAATTTCTTTACATTTTCATGAA TGAGACTATATTTTAAAATAAATAAAATTAATTTAAATTTTATTAATCAGCCTATTATATTGTTTTGAAGATGCCCTATA TTTTAAATAAAATTATGCAGTTAACCGATTGGTTTTCACTTAGTTGTGACACGTGATAATTAACAATAAAAGTTAACTAA ATTAAGAATATTATTATTTCAAAAGTACTTTATATTTGAATTATAAATTATTATATAAGTAGATAAGTAGTTTTAAATAA TAGGAGATGAAAATAAAAAATAATCTATTACTATTACAAAATCAATATTTGTAATCAATGTTTTTCACTTAGTTGTGACA CGTGATAAACAATAAAAAATAACTAAATTAAAAATATTATTATTTCAAAAATACTTTATATTTAAATTATTATATAAGTA GATAAATAGTTTTTAAATAATAGGATATGAAAATATTATAAATTATAAATTATATAATATTAAAATAAATTAATTTGGAG TTAGGATACTGAAAGAAAATATATAACAGGTATCCTATCCTGCTCTATCCTAGGTCCCCCTCAGGATAACTTTTACACAT GATTGACAGGATAGGATAGGAGACAAGATAGTGTTATCATATCCTGCTGGCGCAACATACAACAGATAACAACAGAATAT GATTATTATCATATCCTATCATATCCTATCCTGACCACCAAACGGGCCCGTATTGATGAGAGAGAGATAGAGGTGTAAGG TGGATGAAAAAATTGGAGTATAGAAAAATCAGATTTGTATTTGAAAAGCTCTTTCCCTCTTAATTTTGTTTCCTGTTCTG AGATGCATGATAAAGTTAGTAGTTATGCCCAAAATACATGTATGAGTGGTGGGAATTCTCTTTTCTATGGGCATGTTCTG TAAAAAACATTTGTTGGAATACATTACCCTGTGAGGCTAAGGGAAATGAAGGGTATTGAAGGGTGAAGGGCCAGGGTTCA AACCCTGGTGAAGGAACTAATTTACTAACAATTAACAACTAACATTTGCCTATGAAAAAAAAACCCTGTGAGGCATTGCT GCATGAAACATTCATGGTCCAGTTTCACCAAGTATATGATGACCATGATATATTAATGTCATAAATTGTTGATTGCTAAA ATGAGGGGTAGTCAGCTATCTTATTCTTATTTCTTAATTCCTACAACACTCCGCATACGAGGTCCAAAATTTGCAGAAAA ATTGATTCAGTTCTCAGCATCCCTGCTTCCTATACTCTTGTAGTATCACTCATATATTGATTTGGGTATTTTAGGACACT GTCACCAATGCCATCCTTTTCTTCTGAGCTTGGAGTTCAGTTTGAAACTAGTCTCGAAGCTCCCCATGTAATTGACGTTG ACTCACAGGTCTTGACTGCTTCTCTCTTATCCTTAGAGTTCATAATCCTTTAGTCCTGTAAGTGCCTGTTCAACAATCAA TAACTTCTTGAATACAGGTATGGCCTGCTATAATCTCCACTGGTCCTGGTAATTATCCTTTGAATGCAAGTTACAAAACT GCAGACGCATATGAATTCCAGGTATGCTTGCTTAGTATATACTTTTCATTCTTTATGTACTATCCTTGCCTCTATGAATA CATCTGCTTATTATAAGTAATGGTTTAGGATGCAGTTGGAAGATCTTTGGAGGAAATCTTCAAGATTGTTCCAGGTGGAT GTCTTGTGTTCTTTCCAAGTTATAAATTGATGGAAAAATTATGTAACCGTTGGTCAGAAACAGGTCAATGGTCTCGATTA CATACAGAAAAGTCCCTTTTTGTTGGTGCGTTGCCCTTATCTTCTTCCTCAGAATAACTTAAGATCTGGGCTTTTACTGA TCTATTGGCCTTTTCTTTTGCTCATCCATTTTTCCACGAAAAGAAAACATAAAAGTTGTAAGGAGTTTACTCCGACACTA ATATCTGAACTTTATCTTATTGTCTTTTTTTTTGCTTACATTAAGAATCTGCATTATGTTGGTAATTGGTATGCAGAACC AAGGGGAGGAAGCCAGGATGATTTTGAACTTGTCTTAAAGGGGTATTATGACTCAATTCATCATGGCAAAAGACCTGCTT TAGGGAGGAAAAGAAGGATTAAAAAAATTGATCTAAATCACTTCTATACAGTTGATTCCCCACAGGATTCTAAAAAAGGA GGAGCTGCTTTACTAGGTGTTTGTCGAGGAAAGGTGCATCACAATTTACCTCATCTCATATTTTATTATTTTGATGCTTC TTTTTTCAAGAAAAAAATATGTAATCCCAATCTGACTTTTGCTACACCTCAATTGTGCTACCAGTAGTACAGTTATAATA ATCTTTGTTCTGTTTTTCCCTTAGAAAGAACAGTACAGTCATTTTTATCTCTTTCCATTCCATTACTATCTTGGTGCATG TGACGACCCACGACACATACAAAGGTTAAAAAGAAATGCACATAACTGAATGGATTAATGTTTATTTCGGCATACAGACA GTTGATCCATGAATTCCCTTCATTTTCTTTTTTGAATATGAATATGGTGGGAATGGAGATGAGTGAAGGCAAGTTTTTGA TGTAACATTCTAATTTGTAGCTTCATTTTATTGAATTAAACCATGATTGAAATAAATCTATGAAAACAAATAAGACGTAT GTAAATAGTTAGAATGATAGAAAATCAAATATCGGATTACCCTGTTTGAAGGACAAAATAATTGACGTCTTCTGATATGT TTAAGTTGATTAAAGTCCTTAAGTATTCAACTATTTTGCCACCAATTTTAGACCTTCATCTAAACAAGTAGGTATTTCTA TAAAATTGATATAGAGCATGTCTCATATTAAGATTACCATCTTCACTACAATTGGGCAGAACAACTGTTTTGGCATAGCT TCTCTTATGTACAAGTTGACACTCCCAATTGCTTATTCATATTCTCCACCGAGTACATCTTATTGCAATTTCTTAAACTG ACCACATTTAAAGAATTTGTTATTAAAATTAAGTTTCAATTTATTATATTTATATTCTGCATTTACATTTTATTATGATT ATGAGGAAGAGACGTTGAAAACTAGCAGGGCGCATATGTAAACAATCGGTAGTGGTAATACCATTACCCTTGTTTTAAAA TGGTGTATTTTGATGCGAGTTAATGATGTGACCAATTTAAGATGTATGAGTTTCTTTAGCAAAAGTTGCGCATGTGACCT CATTATATAATTATATTTATTCAGTCAACATAATGCTTGCAGGTTTCTGAAGGAATTGATTTCTCTGATGAGAACGCCAG AGTAGTTGTATCCTTATTTCTACTTATAAATTTATTGTTGTTTTTTTGTTGGGAAGAGATCCAGGTCTCTCATTTGGCCA TGGCGTGTCTTTTGACGATTGACAGTTGGTATATTCTGAGGTTATTAAAATAAAGGTTGACTATTATGATTGATAGTTCG TTCAACTCGTAGCTAGCTTATAATGGGTTGAGGACGAACGTTCCTGTTTTAAATAATTGATGTAATTGTTCTATAGATTG TACATTCTTGACAATCTCAGATTATAGTTGGCATTCCATTTCCCAATATGTAAGTGTCCTTTCTTTTCTTGATTAAGGAA TCCTACTTCAGGAATGCATTTCTCTGGTTGCCTGATTCTTTACTACCTAACAGAAATGATGTTCAAGTTGCATTAAAGAA GAAATATAATGACACATTCAAATCATCCAAAAATCTCTTGAGTGGAAGTCAGTGGTATTGCCACCAAGCATTCCGAGCTT TAAATCAAGCAGCAGGTAAAGCTTGGTTCTGTTTCCATATTCTAGCCAAAGCTGATTTTGATTTTCCATGTTTTAGTTTA TATTGATTACCTTTTGCATTCTGTAGGGCGTTGTATACGGCATAGTCTTGACTATGGAGCAATCATCCTTTTGGGTAATC ATGCTGAACTGCCAATTATTTCTTTTCTTTTCCTTTTATCTTGTTTCCTACTTTTTTAGTTCATCATCTATAGGAACTGA TTTTTATATCTGGAGGGGAAGAAGGTGGAATTCACTATGTTTTCCAGAATGTATAATACTACACATGTGGTTACAGTGCT AGGTTACATGGAAGCATCAGATAGAAATTTAAAACTGGTCCTTTAAAGATGATTCATTTGAGTATATTGAATTTTCATAG GCACCATATGATTGGCAAATATTCTCCAATGGAACATATAAAATTTAATGAGTTATTTCCATGGTGCAACCAGCAGGCAA TTCTGTCCTGTAAACCACATTTTTAGTTTAGAATCAAGTTTTTTTTTCCCCTAGTTGTACTTGGCCTGTCTTTGTAGTGC AGTTTATTCTTGAACTAAGGTTTATTAGACATTGTTCTTTGTATTACTATTAACTCTACCCTCTCAAACAGCTCTTCTAA CATAATTCATGTAATTATTCTTGTGGAATTAGATGAACGTTTTCGTGAAGAAAGAAATCGAGCATTAATTTCAAAGTGGC TAAGAAGACCCTTGAGAGTGTATGACAGCTTTAATCTGTCATTGGAGGGCCTAAAATCATTCTTTGAGGATGCCAAGGTA CATTTTTTTTGCTAGGTTAAGTTGACCTTGATATACTCCACCCTATTACCCTTCAATGCTTAGTAGAAAGGAGTTACTAA TACTTCGTTCAACTTGCTGTAGGAACGGTTTAGCATGAATACAGTTCATATCTCGCAGAATTTGGTCTTTGACAGTGATG GTGTTCAAAACAAGGAACAAAATACGAGGTTGAAGAAAAATCAGAAACTGAACAAGTCTGTTAATGGACGTGAGAAAGAT ACATCAATGATTGAGGACAACATTTCTATTCCCACACTAAGCAGTCATGATCTTGCTGAGAGTCAGCTATTTGCTCAAAG GACTAGTAACACATACAATTTTGAAGATCATATCAATCCACAATGCTGTAATCTGACAGAAAGGTATTACATTACGTTTC CACCATTTTTGTTAATAATTGATGTTTTTGGGTAACTAAACCTGATGACAAACATCAGATTTAAGGAATCAGTGTTGAGT TGAATACATCACCAAGTTAGTGAATGCCTTTGTATCTAAGATTTTATAGACATGCAAAGGATATTAGGGCTTATTTGGTT TCTAATTTAACTTTCAGTTTTTCATTTTATATTTTTAGTTTTAATTATAAAATTGCCATCTTATTTCCTATTTTCAAAGT TTTATACAGGAAACAGGATTTCAAATGATTTCACTGTTTCCTGCACAGAACTTTGGAAATAGGAAACAAAATAAAAACAG TAGCAATTTTGTAATTAATTTAAAATTGAAACAGAAAATTAAAAAAGAAACCAAACGTGCTAAATCTTCCACACAGTACC CCTTGAAGTGCAAACCACCCAGTTGATTCTATGCAGTGTTGTCAAATAGCGGTTACTGCGGCACTATAGCGTAGAACTCT GAGGGCTCACCGTTATTCTGCTATTTTCTGCTCTAAGGGCTTGAAATAGCAGATTTTTGCCGTTCCGCTATTTTATGCGA TCCGTGATCAACACTGATTCTATGTTTGTTGACTTAACAAATAATGAAGTAACAATCACCTCTAGTCATGTTAGCTTATG TTTCATTCTATGTAGCTAATTAGTTGAGTTTGCCAAAGATTTTTTTATAACGGCGTTAGTGCTGTAGATTGTTCTCTTTT GAATGAATAAATATAGATGGTTCCAATTGATCATAGCCTGGATAAAGTGTTTCTTTTAAAGATTTATATTACAAATAGAT AATTTAAGTCGGATTTTCCGGTTTTCTTGTAAATCTTAGTACTGTGTTTGTGTAGGGGTGTTCATGGTGTTCAATATCGC AATAAAGGATTGACCTTAGTATTCATTCTCAGCTGCATTTGGACTAAAACTTCAATTTTTTATCTGGTAAAATACTTGGG ATAAAATAGTAGCTTCTTGCCTTCTTACACCATCACATACAAATCATCTTAAATTTGACGAAGTAGCAAATAATTTTGAA TCATTAAACAACCACAATGATTACTAGATGAAAAATTTATTTCTTACAGGTTGACTGAGAAATTGCCAGTGTCAATTACA CATGAAGAAACCTCAGTTGTCAAGGAAACCCCATGTATAGATGTTGGTCATGATGCTGGTAGCCCTGATTACTCGGATGC CTACTCTAATTGCACTATAATTGAGACTTCTGCTCAATTTCCACCAGATCACTTATCAAGTCATCAGATGTCATTATCTA ATGGAAGTAAAAGTTCTTCAAAGGTTCAGTCTTCAATAACAGTTACCCCTGAAAAGAATATAGCTACAACTAATATTCCA GAAATGGACTCATCTTTGAACTTGAGTGTTAATTCTCACAATCAGAAAAGGAGGAAGCCCTTCATAAACCTCATTGAGGA AGAAAATTATGGTGCACCTTGTGCCACTAGTCTTACATGGTACTCAAAAAGCTCAGTGGCTGTTACAGAGGCAACTCATG GAACTAAACCTGGTTTAGAGAGAAATTTGAAGTCACATTCTCCACAGATACCAACAAGCAATCTACCTGGTACATGTTCA TTAACTGCCCCTCTACTTGACAAAAGGTTGCAGATATTTTGTTCACTCTGCAAAAACCCATTGGGGCGACCTGAGAATGA TCTGTTTCTTACATGCTCTCTGATTTCATCATCAAAAGTTTACTTAAGATCCCTTTTGAAGCAGAAACTGAAAACATATA CCACAGATACATCAGATAGCTTACCAGTTATTCTTACTGATTCTTCTTGTGTTGATCAACGTATTTTGAATAGAATACCT AAAAGTGCCCCGGAACAGGGTATTTGGTGTTTAGAAGATGGGTGTGTCTTCAGCACTGTTTTCTGCCCCTTCTGCAGTAA TAGAAACAATTTGCTAGGAGTTCAAGTCATGGCAACCAATTCATCAAATGTTCAGTTACTTGAACAGGTAACTTACACCC ATTGGCCGACAACCTTGTTTGATTCTTAATGTCACTTTATGTACCATATTTTCTGGTTTTAATTTAACTGACCTAGCTCC AGCAGTGTCAATTTTTTCAAATGCTGTTCTTTTAATTGTATTACTTATTAACATTTCCTCTCCAGATATTGTTTTACTTT GATTCTTTGGTAGTGAAGAACCATGAGGAAACAGGAAAAGGTGCTTCAGAGGAAGAGGTAAGATTAAATCGTATGGCTAG TTAGTCTTTTCCATGAAGCTAATTTTTTCACCTGATTTTCTGAGTGATAATGACCGATCTGTTTTCTAGTGTAATGCCTA AAACAATAATTTTATGGCTGGGAAGTTTTTTTTTTAAAAAAAAACTTGAATTCTTCAGAATTGAAACTGAAGATTTTGAA CAACAAAACTTGACAAAATACCATCCTTTGCTTTCTTTCATTCTTTTTCTTTTTCTCCCTTTTCGAATCGGTATTGACCT TGAATTATTTAATTGAATCTGAGAAACTGATTATTGTGAATTGTGATACTATTTGATATATATATATATGAGAGAGAGAG AGAGAGTGGTTGTTTAGGGGGATGTTTTTGGATGAGGAGAGATTTGGAAATTTTTTACTTCTGAAATAAAAAATTATAAA ATGTTTATTATAATAAAGGATTAAGATTTAAGAGATTAAATTATGGTAAAAACATCGATTTGATAATATGTATTTTAATA AAAAAAAATTAACCTTTCATCATTTTGCCTTCCAAAAACCCTCCTCCCAAACAACCTGATAAGAAATATGTGAAGTTGTA TCTATGACATTGTTGATCATGCTTGCCAAAGTGCTGAATTGTAATATATAAATGAGTTATGAGTTAGATACTCGTCTAAG AATATATTATACTATCTTCTGAATTGCTACAGGACTTGTTGCCAGTTATTGACTCTGGCACGGATGAAGTTGCTGTCTTA AATTCCATTGACAGATATTCTTATCTTCCCCAACCGGCGAAATCAGAAGTCTGGAAGATTAGAAAATCAAAGGTCACTTT AAATAATGCTTTAAGCAATTTTGTTCGTGGGTAATTTTTTGTCTGAATTGTTTGAAAATGATACAGCCAAGACTACGAAG CTCGCCTTATGCAGAAAGCCAAAGTTGAAGTTAGTAAGATTGGAATTCTGGCGCAGTTTTGGGTACCATTTTAAGAACAT AAATTGAGGTAGGGATGCTCTTTTCTCAAAATTTAATTAAAGAATATTTTTTGTTTATCTTCAATCACATGGTATGTAAT GGAGGACAGGTTTTATTTGAGAAAATATTATTTAATCTTTTCATTGATAAATAAAAAAACATCACATTGTTTTTATTTGA TTTCCTGTTTTCACTAATAATTGTTTTCACAATTCTGTATAAATTTTTGAAAATAAAAAACAATAAAAATAAGATGACAT TTTGCAATTATCAGTGAAAACAAATACAAACAAAAAATAATTTTCCAAACCAAACAAGTTCAACTTTTCTGTTTGAATTG TATTCTTGTATTTTTCTTAACTCTTGCGTTTAATCGTGTAGATTCCAAAAGCTGACAATTGTTGATTGAAGTAAATTATC CACCTCTTTACATTATACCTTGCTTAATGCATACGTGTCTTCATGGTTTTATTACTTTGCCTCTGGATAACAAGATGTTA GCCCTCCAGTACAAAGATGCAGAGCAGAGCTTATGATGTTTTGGAATTTTGGGATCAATTCGTGACACTTTCTACCCTCA AGACCTCAATACATGAACAAAAGACATGAACCTGGGTTTTCTTTTGGTAGTCCAAGAGGGTCTCAGTTACCACTCTAACA GAATGACCTGTATTGCAAAGCAAGTTGGAAAATGGTGCTTTGTTTTGTACATACGATACCTATTATGACACATACTGCCA TACTGGTGTACAGTATTTCTAGTACTAATACTCTCCTTCCGGTAGTCATTAATGATGAAACTGTGTTTATGCAACTAGTC GCAGTGGATGTCGTAGTGAGCCTCTAAAGTGTTTAGAAGAGGGTGATACTAGTACTCTCATGCCATATTATCGCTCAATT AGGGAATGAATCTTGTATCACATAACATGAGATATTGATATTTTTCTTAAATGTTTACAAGTTTTTATAGGGCTGACTTC ACGCCCAAAAAAAAAATAACACAAAAATAGGGTTGACTTATAGAAATAT
CDS sequence (LotjaGi5g1v0000800.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTGATGATGCACAGTTGGTATTTTGTCCATATAGTTATATAATTAATCCAATCATTAGGGGAGCTATGGATGTGGA TATTAGAGGAGCTATCGTGATTCTTGATGAAGCTCACAATATAGAGGACATCACTCGTGATGCTGGCAGTGTGGATATTG AAGAGGATGTCTTGGATAAATTACAAGTGGAGCTCCAACAACTTTGTTCTTCAAACACTGCAATTTACCAACCGTTATAT GAAATGACACAGGGCCTTACTAGTTGGATTGAACAAAAGAAAAATAAACTAGAAAAACGCGATTTTCAGCACTACGTGTC GTGTTGGACTGGTGATAAGGCTTTACGTGAGCTGGAAGAAGCAAATATTTCAAAGCAGTGCTTCCCTATCTTGCTAGAAT GTGCTACCAAGGCAATCAAAGTTGCTACAGACTTGGAGACTGATCAGCCACGTTTAAGTGGCATGTCGGTGATAACACTG GAAGGCTTATTCTCATCACTAACTTATTTCTTCTCAAGAAATGGATCACACATGTTAGATTACCAGCTTTCCCTTCAGCG ATGTGTTAGAAAAGATGATAGAAGAGGTTTTGGAAACTGGATGCATACTTTCAGTTTGTGGTGCTTGAATCCAGCTGTTG TTTTTAGAGATGTTGCTGATCTTTCTTTATCAGTCATATTGACTTCTGGGACACTGTCACCAATGCCATCCTTTTCTTCT GAGCTTGGAGTTCAGTTTGAAACTAGTCTCGAAGCTCCCCATGTAATTGACGTTGACTCACAGGTATGGCCTGCTATAAT CTCCACTGGTCCTGGTAATTATCCTTTGAATGCAAGTTACAAAACTGCAGACGCATATGAATTCCAGGATGCAGTTGGAA GATCTTTGGAGGAAATCTTCAAGATTGTTCCAGGTGGATGTCTTGTGTTCTTTCCAAGTTATAAATTGATGGAAAAATTA TGTAACCGTTGGTCAGAAACAGGTCAATGGTCTCGATTACATACAGAAAAGTCCCTTTTTGTTGAACCAAGGGGAGGAAG CCAGGATGATTTTGAACTTGTCTTAAAGGGGTATTATGACTCAATTCATCATGGCAAAAGACCTGCTTTAGGGAGGAAAA GAAGGATTAAAAAAATTGATCTAAATCACTTCTATACAGTTGATTCCCCACAGGATTCTAAAAAAGGAGGAGCTGCTTTA CTAGGTGTTTGTCGAGGAAAGGTTTCTGAAGGAATTGATTTCTCTGATGAGAACGCCAGAGTAGTTATTATAGTTGGCAT TCCATTTCCCAATATAAATGATGTTCAAGTTGCATTAAAGAAGAAATATAATGACACATTCAAATCATCCAAAAATCTCT TGAGTGGAAGTCAGTGGTATTGCCACCAAGCATTCCGAGCTTTAAATCAAGCAGCAGGGCGTTGTATACGGCATAGTCTT GACTATGGAGCAATCATCCTTTTGGATGAACGTTTTCGTGAAGAAAGAAATCGAGCATTAATTTCAAAGTGGCTAAGAAG ACCCTTGAGAGTGTATGACAGCTTTAATCTGTCATTGGAGGGCCTAAAATCATTCTTTGAGGATGCCAAGGAACGGTTTA GCATGAATACAGTTCATATCTCGCAGAATTTGGTCTTTGACAGTGATGGTGTTCAAAACAAGGAACAAAATACGAGGTTG AAGAAAAATCAGAAACTGAACAAGTCTGTTAATGGACGTGAGAAAGATACATCAATGATTGAGGACAACATTTCTATTCC CACACTAAGCAGTCATGATCTTGCTGAGAGTCAGCTATTTGCTCAAAGGACTAGTAACACATACAATTTTGAAGATCATA TCAATCCACAATGCTGTAATCTGACAGAAAGGTTGACTGAGAAATTGCCAGTGTCAATTACACATGAAGAAACCTCAGTT GTCAAGGAAACCCCATGTATAGATGTTGGTCATGATGCTGGTAGCCCTGATTACTCGGATGCCTACTCTAATTGCACTAT AATTGAGACTTCTGCTCAATTTCCACCAGATCACTTATCAAGTCATCAGATGTCATTATCTAATGGAAGTAAAAGTTCTT CAAAGGTTCAGTCTTCAATAACAGTTACCCCTGAAAAGAATATAGCTACAACTAATATTCCAGAAATGGACTCATCTTTG AACTTGAGTGTTAATTCTCACAATCAGAAAAGGAGGAAGCCCTTCATAAACCTCATTGAGGAAGAAAATTATGGTGCACC TTGTGCCACTAGTCTTACATGGTACTCAAAAAGCTCAGTGGCTGTTACAGAGGCAACTCATGGAACTAAACCTGGTTTAG AGAGAAATTTGAAGTCACATTCTCCACAGATACCAACAAGCAATCTACCTGGTACATGTTCATTAACTGCCCCTCTACTT GACAAAAGGTTGCAGATATTTTGTTCACTCTGCAAAAACCCATTGGGGCGACCTGAGAATGATCTGTTTCTTACATGCTC TCTGATTTCATCATCAAAAGTTTACTTAAGATCCCTTTTGAAGCAGAAACTGAAAACATATACCACAGATACATCAGATA GCTTACCAGTTATTCTTACTGATTCTTCTTGTGTTGATCAACGTATTTTGAATAGAATACCTAAAAGTGCCCCGGAACAG GGTATTTGGTGTTTAGAAGATGGGTGTGTCTTCAGCACTGTTTTCTGCCCCTTCTGCAGTAATAGAAACAATTTGCTAGG AGTTCAAGTCATGGCAACCAATTCATCAAATGTTCAGTTACTTGAACAGATATTGTTTTACTTTGATTCTTTGGTAGTGA AGAACCATGAGGAAACAGGAAAAGGTGCTTCAGAGGAAGAGGACTTGTTGCCAGTTATTGACTCTGGCACGGATGAAGTT GCTGTCTTAAATTCCATTGACAGATATTCTTATCTTCCCCAACCGGCGAAATCAGAAGTCTGGAAGATTAGAAAATCAAA GCCAAGACTACGAAGCTCGCCTTATGCAGAAAGCCAAAGTTGA
Protein sequence (LotjaGi5g1v0000800.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSDDAQLVFCPYSYIINPIIRGAMDVDIRGAIVILDEAHNIEDITRDAGSVDIEEDVLDKLQVELQQLCSSNTAIYQPLY EMTQGLTSWIEQKKNKLEKRDFQHYVSCWTGDKALRELEEANISKQCFPILLECATKAIKVATDLETDQPRLSGMSVITL EGLFSSLTYFFSRNGSHMLDYQLSLQRCVRKDDRRGFGNWMHTFSLWCLNPAVVFRDVADLSLSVILTSGTLSPMPSFSS ELGVQFETSLEAPHVIDVDSQVWPAIISTGPGNYPLNASYKTADAYEFQDAVGRSLEEIFKIVPGGCLVFFPSYKLMEKL CNRWSETGQWSRLHTEKSLFVEPRGGSQDDFELVLKGYYDSIHHGKRPALGRKRRIKKIDLNHFYTVDSPQDSKKGGAAL LGVCRGKVSEGIDFSDENARVVIIVGIPFPNINDVQVALKKKYNDTFKSSKNLLSGSQWYCHQAFRALNQAAGRCIRHSL DYGAIILLDERFREERNRALISKWLRRPLRVYDSFNLSLEGLKSFFEDAKERFSMNTVHISQNLVFDSDGVQNKEQNTRL KKNQKLNKSVNGREKDTSMIEDNISIPTLSSHDLAESQLFAQRTSNTYNFEDHINPQCCNLTERLTEKLPVSITHEETSV VKETPCIDVGHDAGSPDYSDAYSNCTIIETSAQFPPDHLSSHQMSLSNGSKSSSKVQSSITVTPEKNIATTNIPEMDSSL NLSVNSHNQKRRKPFINLIEEENYGAPCATSLTWYSKSSVAVTEATHGTKPGLERNLKSHSPQIPTSNLPGTCSLTAPLL DKRLQIFCSLCKNPLGRPENDLFLTCSLISSSKVYLRSLLKQKLKTYTTDTSDSLPVILTDSSCVDQRILNRIPKSAPEQ GIWCLEDGCVFSTVFCPFCSNRNNLLGVQVMATNSSNVQLLEQILFYFDSLVVKNHEETGKGASEEEDLLPVIDSGTDEV AVLNSIDRYSYLPQPAKSEVWKIRKSKPRLRSSPYAESQS
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 | 1 | 706 | 706 | 3.0E-185 | – | |
PANTHER | 1 | 706 | 706 | 3.0E-185 | – | |
ProSiteProfiles | 1 | 108 | 108 | 11.414 | ||
Pfam | 1 | 57 | 57 | 2.4E-14 | ||
SUPERFAMILY | 2 | 488 | 487 | 1.87E-10 | ||
Gene3D | 2 | 243 | 242 | 1.1E-22 | – | |
CDD | 3 | 42 | 40 | 9.47512E-15 | – | |
ProSitePatterns | 31 | 40 | 10 | - | ||
Gene3D | 51 | 210 | 160 | 1.1E-22 | – | |
CDD | 224 | 252 | 29 | 8.48486E-9 | – | |
CDD | 260 | 492 | 233 | 2.95481E-59 | – | |
Pfam | 297 | 506 | 210 | 6.8E-59 | ||
SMART | 314 | 494 | 181 | 9.5E-38 | ||
MobiDBLite | 678 | 697 | 20 | - | – |
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 | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | DNA helicase activity | Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA helix. | ||
Molecular function | Helicase activity | Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA or RNA helix. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Nucleobase-containing compound metabolic process | Any cellular metabolic process involving nucleobases, nucleosides, nucleotides and nucleic acids. | ||
Molecular function | Hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides | Catalysis of the hydrolysis of any acid anhydride which contains phosphorus. |
Expression pattern of LotjaGi5g1v0000800.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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