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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0178200 |
Transcript ID | LotjaGi5g1v0178200.2 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin; TAIR: AT1G54560.2 Myosin family protein with Dil domain-containing protein; Swiss-Prot: sp|F4HWY6|MYO11_ARATH Myosin-11; TrEMBL-Plants: tr|K7LZ94|K7LZ94_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0178200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:45507721..45524604) extracted from Lotus japonicus Gifu genome v1.2.
GGGAAGAGTGCGAGCGAGCCACAAGAATGTCCACAAACATGGCGATTTTGCAGGGTCTTCGGAGATTTCCATTTCCACTT CCACAAACCCTCACACCACTCCGTCACTCCTCCAATCTCGCAACTCAACCACAAACAAAATTCCCAGGCGATTCATCTCC CTTCGCCTCCGATTTTCATTGCTCCATTTCGGACCCGTTAGCGTTGCGCGAAGTGCGATTCATCCAAGACGCTCCTTGTT GAAGTTCATTGCTCGATCGATCGGTTGATGATTTCAGATTTCAATCCGTTGAATTGAAAATGTGCACACCTGGTACCGTT GGACTGTGATTCCTATTCAGAAAATGGTATTGAGCTCCAACTTCCTGTTCTGCAACGATTTTGGCTAGTTTTGCATGCAG TGTAGGGGATAGAAATGTATGTGTTTATGTTATGATGAATAACTGGATTAATTCTTGACTGATATGGTGCACATTTCATA TTTGTGTGAATTGATGACTTTTCCTGATTCAAATCTTTGTTATCTAGGCATGTGACTCGATGTCGTCGTCGTCGTTCGTT ACATTTATATTGAGCTTGGTTGATTTGTAACTGATGCAAGTGTAGAGATCTTATGATTCATAAGTTGATAGGAAGGGATA ATAAATGAACTAGTTCTAAACCAAGAGAGTGAGGAGCTTACTTGTTCATAAACTGATGCTGAACTTAGCCTGGTTAGGTG TTTAATTGGAACTTCATACTTGAATTTGTATGGGTAGTGACTCCCACTCCCAGTATGCACTGCTATTCTGAACCAATAAA GGGCAGGAGAGTACATTTCAAAGTCCAATGGTAACAACATGCAAGATACTGAGTTTCATTCTGCCAATGATTATTTGATA TACCTGATACATGTTGGTAATCGTTAGATTGGCTACATTATGTGCATCTCTCAACAGCTAAGTTTGAACTCCCATTACTC CCCTAAAAAATAATTTGTGCGGATTAATTATTATTTAATGGTTTCCATGTCGAGAACTATAGATTATGCTCACAATCTCT CTCTCTTTCTCACTCTGTGTATTCTGGTAGTGACTTTGGTACTGGAAGTCAGAGTCTTATTTGTTTGAAATATCCGTATC CAGTATCCTATTCAAACATAGTGAAATAAACAAATAAAAATTAAAGGATTGATAAAATAAAAAAAACTAATAAATAATCA CATCCATATTTTGCTCTTTGCTTTTTATTGTTCTCGTGTCTTATTTTGATACCTTTTTATTTTAATAGTGTTTAAAACTT TTTAGATGTGAAATAAAAATTCTGCAGAAATTTTACTCAGACCTCAAATATGTTCCTGCACATCAAGGGCCTATAAAATG AACTATAAAGTAGAGACTATTTGTAAAAACCCATATACCCCGGTGCAGATAATGCCATTTTCTGGTTGGATATCACATAG TTGCTACAAAAGATACTTGAGCAAAGTTAAATGATCCTCTATTTTTCTATTGTGACAATAAATTTATATCTCTGTATGTT GATAAAAGACTATTTATATTGACAAAATGGAATAATATACAGATTGTGCTTTGATATTTGCATATTTATATGTTGATGCG AATAATTGATTATCTTCTTGGAATTTCATATATTGTTCTGGGTTCTACATATTTTCCCTACCAAGAAATTAAAGCATGAA TGTTTTTTTTTGAAATATGTCATAATCTATAAATTTCTTAGTTCGTCTTAGTGCAAATGATGCAGGGCATTCTAGAAAAC GTTGTTGCCGGTTCTCACGTCTGGGTTGGAGATCCAGAACTAGTTTGGATTGATGGACAAGTTTTGAATATTAATGGAGA AGAAGCTGAAATTCAAACAAGCAATGAGAAGAAGGTAAATTGGGATGTTTTATATGTTTTTTCCTTTCATTCTTATGTTT CTAGGTATCTCTAGTTCCACTTGTAATGGTATCGTTTTTTAGGATTCTAATTTCTAGGTATTTCAATATCCTTCATTTTG TGTGTTTGGCATGCTTTATTTATTTATATGAAACATGTATATTTGCAATATCTTTCAGGAAGGATCTTGTCCTGAAAGTA CCTTGAAAAGGGTAGTGTGAAAAACTTTAATGCCAATAAAACTAGGCTTTCATTAACATTTCATGTGAACTTCTTCAGGA TTCAGTATTTAGTATCCTTGATTATAAAAGAAAGATATGTTCCATAATAAATTTTTCTGTTCCATTTTATGTTTAAAAGG CTTTAAGCAACTCAGAATTGTTACTTTTCACTTCTTAAGAACTAAGTCGATAACAAAAGCAATAAAGCATATTCAGAAGT GGTTTGAACTTTGATGACATCCATTTGAACATTTATTTCTGTCAAAAGACACTGCCTGATTAGACTAAGAATACAGCTGA TTCTGCTTCATATCAGCAACACTGTTGCAAACACGTGTGATCATGTAATCTGGATAATTATCTTCTATTTTGTTTCCATG CTTTTAGGTTGTTTCCCGTTTATCAAAGCTACATCCCAAGGATACAGATGCTCCTACTGATGGAGTTGATGACATGACCA AGCTTGCTTATCTGCATGAGCCTGGAGTGTTGCATAATTTGGAAACTAGATACAAGATCAATGAAATATATGTAAGATTG GCTCCATGTTTAGTTTTTAAACAGTTATGCTCACCTGATGGAATATAATGACTTACTGCTGCAGCTACGACCATCTCTTT TATAATAATTTGTCATCATGACAGACTTATACTGGAAATATTCTTATTGCGATAAATCCCTTCCAAAGTCTTCCTCATCT GTATGATGTTAATGTGATGAAAAGTTACAAGGGAGCAGTAGTTGGAGATTTAAGCCCACATGTTTTTGCTATTGCTGAAG CAGCGTATAGGTCAGTTTACTCCATTTACTCTCAAATTTTCTTTCTCAATGGTATTCTTATTAGCAGTCTGTTTGCTATA ATTAGGGCCATGATTACTGAGGAGAAAAGCAACTCTATTCTGGTTAGTGGCGAGAGTGGTGCTGGAAAGACAGAAACCAC CAAAATGCTAATGTGTTACCTGGCATTTTTGGGGGGTCACACTGCATCTGAAGGACGGACTGTTGAAAAACAAGTTCTAG AAGTAAGAAGGTTATCTAACTCTGGATTATGGTTGTTTTTTATTGTTTGTTTGATTGTGGCTTATACAAAGACATTGTTT AAAGCTACATGCTCTTGCTCTTCGCGAAAATAAGAAAAACATAGTGATGCTTAGAAAGCTTGCTGTCAAAGAGACATAAA GAAAAATAATTAAGACATGTAAAGATCGATCACAAAGACCAAATATTTAATTGATGTTAACGAGTGAAAACTGGAAAGAA TAGATTCAATTCTGAACATATTTAGGCTCAAATTGATAGCAGTTAGTCAATGAAGTATTGCTTTATCTTAAATTTATTTA TTGCTATGTTGGTTATTGGTTATGGTTTCTTCGTACCTCAGGCTTTTGCGCATCATTTTAGAAACATAGGCAACATGAGT GTTTTTTTTAGTTTCCAGTTCAATTTGAGCTCAAGATGGATCTGGTCCATTTAAGACATTCTGCTATATTAAGAGAAAAG GAAAAGATGAAAGCAAGAGACATATGCATTAGACAATATGTTTAAATGACATAGAAAAGGTAATAAATCCTATAATTTCA TCATGGTATTAGAGCCAATGGTTGTTGTGGCCATGGTGATGACTTGTTGTATCGAAAGTGTTAGAAATATAATATAAAAT CATTCATGACATGGTATCAGAGCCTATCCTAGATCCATTTATTGTGGATACCACCCATATATGGACTACCCGCAAATGTT CATTCTTGCAAATTCCACGCTCCAAATGTTCAGCCCTAGGCGTGGGAGGAGGGGGGTTTGAGAAGTCTTACATTGACTAG AGATATGGAAGGTGGGCCCGTTCATTGTCCAGGCTTCAAGCCCAAGTGGGCTCTTGCGTGAGAGAGCGTCTCAGAAATAT AATATAAAATCATTCATGTCAGAAAGTCCTCTTGGCTATGTGGTGGCTAGACAGTGTCCTGTTGATGCAATGAAAGCGAA CGCCTGTTGTCTCGCCAATAGATTATGAGACCCACATTGGTCTTCTCATTGGTGCAGGTTCTCCTGCTGCTTTCAGGCTT TCCATGTCTCCCCAACAGCGGAATCAGAGCCGAGGGTTGGTGCGACCATGGTGATGACTCTTTGTATCACAATTCTTCTT GACAATGTGGTGACTAGGTGGCGTGTCTGGTTGATGCAATAAAAGTGAACGACGGTGAAATTGTGGATAGCTTCCACTGA GGGAGAGCATTGTAATGTGATGGTGACTCACATCACACTTGAGGGGTAGATTGTCGGGTTTTCAAGTGTGAGTCTGAAGT CTCTCATTGGTTAAGAATGGGTAAAATGAAGAAAATATAAAATTTTAGACCCATATACCAAATGCCTAAAATATGAAGAC ATGCACTCTTTTCCTATTAGATAATATTCTGGTTTTGAATATTTAGATTGCCCTTCTTTTGATTTGTCAATTAGCTTCTT TTTCATTGTTTATTGTGGGTGAATTTTAAACTCATCAGTCCTGTTAATATTATAAATCGTCATGCTGCAGTCAAACCCAG TCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATTCCAGGTATGAAATTTCTGTATGCTCTATGATGTTT GGCTTTTGATATAGTATAACATTTGTACACTGTATTTTCTTGAGCACTGTACTTGCATTTCCATGTATGTGATTTCTACA ATCTCATTGAATTTCATATTGGTATCTTGTATATGTGGAGATTTATACTTATTTTTTCTTCATCCTTTGACTTTATAATC TTATTCATATTCTATACTTTTAAGTTCGTCATGAATTTTCTTGGGAATAAATTTTAATTCTTCATGGAAATGAGAGATGG CAATGTTATTCCATTCATTAAAAAACAAAATATCAGGAGCTATTTCTTATTTTCATTCTACTTATATTCAAGGCCAGGGA GAACTACTTGTCATCATAAAGGTGCTTTCTCATTTATGATTTAGTAATGTCAATAACAAGTAGCAGTTTTGTGCTTATTT CTGTTTTCCTTGTTCTCCTGCAGCCGTTTCGGAAAATTTGTTGAGATTCAATTTAATAAGTATGGACGAATATCCGGGGC AGCCATTAGAACTTATCTGCTGGAGAAATCTCGCGTTTGCCAAATCTCAGATCCTGAGCGTAATTATCACTGTTTCTACC TTCTCTGCGCTTCTCCTCCTGAGGTAGGCAAGTCAAGCTTGATCTTCCATTCACTATTCTTCACTATATAAATTTCTTGG TGGAATTCTGAATTGTTAACATTCTTTTGTTAGGATAAGGAGAAATATAAGTTGGGAGATCCCAGATCATTTCACTACCT TAATCAATCCAGTTGCTATGAATTAGCTGGTGTAAATGCTGCTCAAGAGTATCTTAGCACCAAGAGAGCCATGGATATCG TGGGAATCAGTCAGGAGGAGCAGGTATGAGTACAACTATGACCTTTGTTAGTGATTCTAATAATTCTTTTAGCTTCCTCT CAGCTTCTCCAGACAAAAGGTAAAATTACTAATAATCTTTCCCCCATCCTCTCAGGATGCAATTTTCAGAGTTGTAGCTG CTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCATCAGTTCTAGAAGATGAAGAATCCATT TTCCGTCTCCAAACAACAGCAGAACTTCTAATGTATAGCTGAACTTTGGCTGTTATCATTGTTCTTCTTTCTATTAAAAT TTTTTATTGATAAATTTATTGTTATTTTAGGTGTGAACCTGATGCTTTAGAAGTCGCACTTTGTAAGCGCGTGATGATCA CCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGCAGGGATGGTCTAGCCAAGACATTATAT TCTCGTTTATTTGACTGGTATATTGGCTTTTCCGTGTGTAATGTAAATATATTAAAACAGATGACAAATGTTTGGTTATT GCTATTTCTTATTTCATTAAAGAATGAATAAACAATACATCAGTTACGATTATGTGTTTTTTGTTATGTGCAGGATAGTC AATAAAATCAATAACTCCATTGGGCAGGATCCTAGCTCAAAATATCTCATTGGTGTTCTTGACATATACGGCTTTGAAAG CTTTCGAACTAATAGGTGAGAGTTTATGAAAATACCTCATCACAAGATGTGATCTTTGCTATTGTATGTTTGCATACTCT ATTTTAGGAAGAAACAGATAAGAACACTCACACAAGGTGTCGTACAATCAACATTCGTTAATAAATATGTACATTTATAC ATATTCACTGTTCATATTATTCCCAAGCTTTTTTACTTTTTATTTCATCAAGCTTAGGTGGCCCAAACTCCTTATCCCCA ATAATACCCTTGTCTCTCAATATTAATAATTTGAGCCTTTCATTTTGGTACCTTAGTAAATAAGATATTCCCAAGCTCAT TTAATTTTCTATTGGCAGTTTTGAGCAATTTTGTATTAATTTCACAAATGAAAAGCTGCAGCAGCACTTCAACCAGGTAT GAGGTTAGTTTTTCATATATCTTACAGCTACAACTGTAACTTCTCTCTTATCATGCAATCTGATGTCTATGATGTTCTGC AGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGGATTGACTGGAGCTACTTAGAATTTGTAGATAATCAA GATGTATTGGATCTCATTGAAAAGGTCTATACAAACTTTGTTAGAAGTCCCACATTGGCTAAACTTTTAGTTTGGGCTTA GTATGTCTTAATGGCACGAATGAAAGCATACTTTATCGATTATCTGTTTTTTAAGTAATCATTTTGAAAATCAGGCAAAC ATTTGCTGACCCACATTTTCAGTGCGACAATTACTACCAAATTTAATTCAATGGCTTGCTGCTATATATATGAATATTGT TGGTTCCAGTCTGTAGGATGAAAAAAATCTCATCTAGTATTCAATTTGTTCTTGGAAGTTGCCTTGGGTATGCAACTATG CATTTTATATTTGATATGTGGAAGTGAAAAGTACTAAAAGTAATGTAGAGTATGCAATCGTGATAATCTATAGAAAGCCC AAGTGTTGATCCCTTTGGTGTTCAACTCATGCCTAGTTTAAGGGCGTCAAGGAAGGCTCACAAAAGCTTAAGCTTAAGGC AGTTCCAAAAGCTCACAAAAGCTTTTGCTTCAGAATGTTATAACTGATCTCTAAAAGTGTTTTCTTTTGCAGAAACCGGG TGGAATCATAGCTCTGCTTGATGAAGCTTGGTATGAAAAAATTTCTTTGTTCTTCTTTTCTTATAATGCTGTGTATGCTT ATGTGTTTAGAGAATAGTGAAATAGGAGAAGTTTTGTGCTTGCAAGGAATAATTTTATGTGATTTAGAGATTGCCTAAAA TTTAGTTTCATAACTTTGCCATGCATTATATCTTTGAATCATTATTAGGCACTCCTAGGATTTAATACTTATTCTTATGA GTTAGAGGAATTAATGGGTCAAGTTTTGGTCTCTTGTTTACTAATAACTTTTCCTAGAAAAAAATTGTACACTATTTGGT TGTTTCCTGATAATTCATCCTATTTGTCATTGATGATATTTTGCAAGATTATTCATAGGCAGTGTGTAAACTTGTAACAA TTTTTAAGTTTTTCACTCAATGTTACCCTTACTGACATGATCATTATCTGCTTACAGTATGTTTCCCAAGTCAACTCATG AAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATCACAAACGCTTCATCAAGCCTAAATTGGCACGCTCTGACTTT ACTATTGTTCATTATGCAGGGGAGGTGAGTTTGATTCTTCACCATTTTTATGCAAGTTATTATCTTTCACTATGTGTTTC TCCTAAATGATGTTATTTCTGCACTTCTTTTCAGGTTCAGTATCAGTCTGAGCAGTTTATAGACAAAAACAAAGACTATG TTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGTATCAGGCCTTTTTCCTCCACTTTCTGAGGAG ACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGGTATCCAAAATTTGGTTCTTTACCTTGTCAGGAAG AAATATTTTATCTGATAAGCCTTACTACAATTGAAAGATAAATACTGTCATACTAATTTGTGCAGCTACAATTACAACAA CTGATGGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCCTAATAATCTATTAAAACCTGGCATATT TGAGAATATGAACATCATCCAACAATTACGTTCTGGTGTAAGTAGATTTTAGATTTAAGTTGTACCTTATTTGTTTTAAG GGTCGTATTATTGGCTCTTCCACCGCCTCTTCACATTCTCCACCAGCTACTATTTCTTAAATTTTTCTCAACTAAATGAT TTTATTTAGTCAAACCTTAATTAACTATAATCATATTTCTCTATTCATATTCAATAGAGGACAATTAGAAATTGCAATTA ATAGTGTGATGAATGTGAATAGGAAATTAGAAGTGCCAATAGCCCTTCCCTTGCTTTAAACTTACCTTTATTGAATTTAC CCCCCCATTTTTTATATTATAGGGTGTTCTTGAAGCTGTAAGAATTAAATGTGCTGGATTCCCCACTCACAGAACATTTC ATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAAGTAAGTTAACTCAATGCCAATTTGAACC TTCTTCTTTTCTCTCAATATCTTTATACTTTTGCTTTCTTCTTAGAATACCTGGTTTCGCATCCTGAAAATTATCTGCAT ATATGCAGCTTTGAAGAAAAGGATAAATGTAAAATGCTTTTGGAGAAGATTGGGCTGACAGGTTATCAGGTAGAACTGGA ACTCTATTTGATGATATTCTGTCACTACAATCGATAATTAAAAAATCATTGAATTTATTATCCTTGAATGTTAAACTTAC TTCCATTTAAATAATTCTGTTATATTATTTTGTAAATATTTTTCTGGCACTTGTTTTTTGAATGGGGGCATGAAACTACG CTTGACTTATAGGAGGCATATTCTGACTCATATATGCTAACTGAAATTCTTTATTGCAAGGCACTCTTCTGCATTCACTT GAATATTTTGTAATCGGGCTAATTTTGCAGATAGGGGAAACACAAATATTTCTAAGAGCTGGTCAGATGGCTGAATTGGA TGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCAGAGTAGAACTCATTTTAGTCGAAAAACAT ATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGTAAGTTATTTGTACATTTTGTATCATGTGTC TTGGTTTCTCAGGTTGAGTAACTCCATGGGAATGAAAATATGAGGCCTTTCAGTTTGAGTCATATCTTCAATTTATCAAA TTTTAAGGTCCTTCTTTCAAAATCTTTAAAATAAATAAAACTTTTTCATCAAGATGCAATAGGATAGCAGCACATAGTCT TGAGGTCCTACCACCAAAAATTTATAAAATGTAATATTTAGGGTGAAACTCAAAAGAAGCTCTGATAATGATATTTGAGA TTAAAATGAAAGTCAAAATAGATATCCAGAGACAATTATTTATTTCTTGAAAAAAATTCCTCTGCCATATCTACAGAGTA CAGACTATGCTTTTTGTTACAGAAAAAGAAATGTTCCTTTCAAGCCAAAATAGGGGAACTTACCATCCATTCATCCAGTC ATGACAGTATCTTAGTGTGTGATAGGTATAGTAACAGAGAAGAGTTAAGAAAGGAAAATGTGTAGTTATTTCCCTTCCTA CTTTAGGTGAATTACAGTAAAGAACTCGAATTCAAGAAAGAAAGAAAATAATAGAGATACAAGGAATATCATCTTCCCAC GTCCAAGCCAGAGGCCCCTACCTGAAGAGTGATCAATCCTGCCCTCTCTCCTTCTCTCCCTGCTATAACTACCTCCTTAT CCCCTATGCCATATGGGTCTTCCATGGATGAACAATTCCGCGTAACTAACTTCAATCCTTGCTCCCTCCCTGTGTCTCCT TCTTAACTCTCCTAGAATATACCTTGGACACCTTAGGTGCACCGGTCCCCTGTTGTCCGGGTAACACCCCCCATTATCTA GTGTCTTTGATATTAAATTCGTATCAGTGTGGCTCTGAGTTGATTTTCCCTTCCGGCTATTCAAATTTAAAACAGTCTGA ATTTGAAACATGCTTATGAAAACTTTTATAGTTCAAGTCTTGGTGACATTTTTTTTTAGTTTAGCTTCTTTATTGTTTGC TCTCTATAGTTTCGATGGCATTCTGAAGCATAGGCTTAAGAATTTCTACGCCCAGGATTCCACATCCATTTAATCAATAT TTCATTAAGTGTTCTGTTGTTGCGACTTTTAGGAGAATTGGCCCGGATATCATATTATCACATGAAGAGGGAAGCAGCTG CAATCAGAATTCAGATGTACACGCGTGGAAAATTAGCCAGAAAATGGTACACTGAAATAAGGATTTCTGCCATTGTCTTG CAGACAGGTTTTCGGGTAATGGCTGATTGCTATAAATTGAGATATAGAAAGCAAAGTAAAGCTTCAACTCATATTCAGGT TAGTACTGTCCTTCTAATGTTAATGTTTTTTTTTTCTATATTTTGCTGTTGCCTAAATTTTGGGTGTGAAAAAAATGCAG TCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATCAGGACCTTAAAAAGGTGTCAATCATTCCACAAAGCGTCAACCA TCCCACGGATGAACATGAACATGAACATGAACATGAATATGAACATGAACATGAACATGAACATAAGGTTCTATATGTAT TTACACACTGTTATTAAATTCCTATGTTTTCATTTTCTTATTAGTTGTCTTGATAATTATTACTAGCTACCATTAATTAG CATAGATGAATATGCAATTGTAAGAGATATAATTCAATTCTATTCTGAAGCCTTCTCATGGCTTAAAATTTTAAGGAGGA CTAATTCCTTTCCTCTTAGAAACATTATTGCGAGTGTCTCCGGTGGTGTAAATGGCATTGACAACAATGAACACATAAAA ACCTGAAGTACTCTCTTTTAGCATAATTCTAATGATATCCTTGCTGATTACACAACAAAATGAACTAGTTTGCCATCATG AATTCCCAGGTTTTGGAGATATCAGTAGAAAATGAAAGTCCTTGTGTGGAAGAATCTTCAAATTCTTCCAAAGAAGAATC CTCAAGTCCTTTTCAAGATAATGAAAGCATTGAAGCGATCAGGGATTCCTCTAGTCCTTTGGGAGACACTGAAAAGTATG AGGCTCTCACTGCAGAAATAAAAAACTTGAAGGTAAACTTAGTATATCCACTACCTTTGTTAGGATATCTGTTATATATC TTCTATTATCAATTTTGCATCTTAAAATATTTTACAATATATTAAATCGTGTTAGGAGTGATATCATGATGTATGTTATT TCCTGATTTAATTAGTATTAGGAGTCTAGTATTAGTATAAATATAGTTTAGTTTATATAACACGCCATCACACACCATTA GTTAATGTTTTATGCTATGATTCATTTATTCTCTTTTCATCCCTTTTTACCTAAATCCTTATAACTTCAACATGATTTCA AATTAGAACCATCTAGCATCCTTCATGACTTGTGTCATCACTTTTCCATTGTTGAGTTCCCTAAAATTTGGAACTCTATG GTGATGATGTCATTTTATCATGACTCTTTCTTCCCTTTGGCTGTGGACAAATTCCAATCATCCTCCTGACCCAAATTACT AATGATTTGTTTCCTTTGTTTTCTTCCCACTCTGATATTATTATTGGTTCTCAACTGCCACCATGGCATTGAGAGGGAGA CCAAGAAAGATAAAGTTAACTTTTTCTTAGTGACAATCAGTCTAGCAATCCACTTACAATCATACCAGTTGTAACTTTTC TTCCCATTCTGTCTGGCCCCGCTGTCTCCACTTTGCAGATGCTCTGGCCCCATCTTTATCACAGATGTTGTTTGGCCCCC AACTCTAGTCCCAGATGCAACCTCACACTCGTCTCTTGCAGTGAAACCTTCGCTCCTGACCGGAACAAATTGGCCCCATC TCCAGTCCCAGATGTTTGCAAATGCATTATATTTTTATTTTATTTATTTTTAGCATGTTTCATTATAACAAGCTTAAAGC TTAGCAAGCTTTAGTTTGAAAGGAGTGTTGAGATATCTCAAAATATCTGCTAACATCATTATTGCGTCTCCTAACATTTT ATTATATTTCATTATTTTTTCCTTATTTAATTAGAATTAGTAGTCCTTTATTAGTATAAATAAGGCTTAGTGCTTTATAT TTTGTCATTATACATCGTATATGAATATCATATTTTATTATGCAGAGTTTAAACTCTTTTTTTTTCTTTCTCTACCTATA GTTTCAACAATCTTACGTTTTTAAATTTAAATGAATATTTTTTTGTATACCTCATTTTCTAACTTTAGATATTTGTATGA GAGGAGTGCTAGCAATACAATCTTTTGAACACTCACACACACACAACCTATGATTGGTCTATTTTCAAAATAGTCAATAT ATTCTCTCACTTATTAACAAATTTGTTGACTTTTAAAAAATTAAGAAATAACATGAAGAGTGTGTTGCTAGCATTTTTCT TTCTATAATTGAGAATTCACAACCGGTTTGGTAAGGTAATTTTTGGTTGAATTACATGAAAACTAAATGTATGAAAGACA TGAGAGCAATATTTTATTGTTGTCATAGAACTCAACTATTCATTAGATAGGCAATATGACATTGATAAATATTTATTTTT ATGTTAAAGGGAAACAAGGTTCTCGATAAGTTAAAATGGATGCAAACGACGTATAAATGTAGATAGCAATAATACCCGAG AACTGATATGTTAGGATCCAATTGCAAAGTATGGGACTTGAGCTCTACATTGGAAGTATGAGATGCTGGTGTGGGGTTGT TTGGGCTCTCCCATTACAACAAATAGCTTTTGTAGTTTTGTTTTCTCAAAGGTTCTTATGAATTGGTATTGGAGCTTTCC ACCATTGTCTCTCCGCTGCAAACAAGTGGCATAGGTGATGACGTTGGCATTGCAGTGTTCGCCCACTAGTCAGAGGGCTA GAGCATAGCTAGCCTGCATGGGCATGCCAGGGTTGTGGAGCGTGGTGGGATGTTAAGATATAATGGCAAGGAATGAGACT TGAGTCTCATATTGGAAGTACGGATTCTGGTGTGAAGTTTATAAGGCCTTATGCTCTTCAACTACAAGAGCTAGCTTTAT CATGATAAACTTGGAAATTTGAGTAGATGATGGCAGTTTATACTCCCATAATGAGTGATATAAGAGAATTAATCTATAAA GGTGAAGAAAGTTCATCACAGCATTAAATCAAAGATGACTGGTATAAGATCTAATCATCATTAAATGATCACATTGTCAG TGTTACTATAAGTCGGTGCTTATATGTGATACATATCTAATATACAGAACAGGGTTTGGCATATTGTTATTATGTTTACA ATTCAAACTGACCAAGTTTTGTCTGATTATGGCATTGCACAGGTCATGTTGCAGGAGGAAAAACAAAAAGCTGATGAATA TGAAAGGAAATACGTAGAAGCTCAAGAATCAAGCGAAGAGTTACGGAAAAAATTAGCAGAAACTGAAAAAAGAGTATATC AGCTTCAGGACTCATTAAACAGGTAGTATTAGTATTATTCCCTTGAGGTTTCATGTGATCTTGCAATTTTGATTTTCCAA TTCCAAAATCCATCATGGTGGTTAAATAATAGTCTGATGATATCGCGAGGTAAACGGATAAGCATAGTGAAAGAAGTGAG ATTAGTAAGTCAAGAATAATTGGGTGTTGTATGTGTATTTATATCTGTATTTTTACTACGTGATATATTATCTTTTAACT AAAAGTGGTGATTTTTTCACTCCACTTTTTTAAGACTCACTTTATACTTTGATCTATTTCTCTTCTTTTCTCATACAATG TCCCATCACATCTCTTTATTTCTCACCATATCACATTTAGATGGGTGTAAATCTGGTGTAAAAACAATTTATGTGACACA TATTTCTGTGCAACTAATTACAGGACTTGCACAAAAGACTATAAAACCAAATGATGGTCCTGAAAGGATCATACTTGGTC TATCAAGTCATAAACACTCTTTTAGAATTATCAAACATATACACTATTAAATGGTCTGTCATTAGACACAATTCATGATA GAATATTAGGACTTATGACAACTCATTTGATCCATTTAACTTACCTTGTTTAGCGGGAAAAGACTTTGGTTGTTGTTGTT GTGTATTCTATCCATTCACTGATTACTTGTTACTGACCTGACAAACCTACAGGATTGAACACTATAGAAATATTTAATGA TTTGTAAACAATTTATCTTTCAGAAAAGTACTTGAAATAAAAGGTTCACTATATTTTAGGTAAATTACGGCGATACTCAA TTAGGATTTTGAAAGAAATTCTGAAGTCTATCTGCTAAAAATGTGAGGTTAGGATATTTGAAAAGTTGAAAGGGACAAAA GCGAAGCTGCATAAGAAAATTCACTTGGGTTTCATTCCCCTTTAGGCATCTTCCCTAACACTCTGTTTGGTAGAGAAGAG AGAGATAGAGAAGAGAGAGTAGAGAAGAGAGAAGTTGAGTAGAGAGAAATAGGTGAGAAATAGAGTAGATTTAAAGAGAA GAGAGATAGAGAAGAGAGAGACCCCAAACATAGTGTAAATCAAGCCTTCACTCATCTTTCTTCAATCTCTCTTCAATTTG GAGAGACCAAAAAAGTGGTGGGACCCACCACTTTTTCTCCCCTCTATCTCCCTCCTCTCACCTACCAAACACACATACTT CCCCCTAACTCTCTTCTCCATCTCTCTCTATCCAAACCTCCCTCTACCAAACAAAGTGTTAAAGTGAATGCATCATACCA CCAAGAACATTATTTTCTTAATTAAAATAAAATTTATTAAACGAAGATATTAAACTCATCAATTTTCCCAAAAGTACCGT TATCAGTAGGCATGGACAACCCAAGGTTTGAGATGAACACAGTTTTTTTTTTCTTTTTCTTTTGTTGATCTTCAGATGCT GTACTTTTTTACCACATAATGGGAACTGTACTTTTTTGGGCTTTGATAAACTTTATGTTTTAGAAAGTATATAACACCAG GGGGGAAATTATAGGGCGTTTGATGTGAGTTTGTGACATCCATGAATTATTTACCTTGTCGGCTTTTTATGGACATTAGT ACAAATTAAATTATAACTTTTAAACCTAAATACTATTTGATTAATGCTAGATCTGAATTAGTGTGTATCAGGATGATATC TTCCATGTCAAGTCAAGTTGCCGAGCTGAAGATGATCTTAAGCACTTCTTCAAGATTGAGTTCAACTTTTCGACCTATTG CTAGAGTTGATGTTGCTTCCAGTAACTCTGATAGTTCATCCACAGACTCTGATTTCACATTTCCGGCACCTGTTTCAAAT CCAGAAGCTTTCTCTTCCCCGAAGCCAAAATCTTTTGAACTAGTAGTTCAGGATATCACTGCAGCCGATGGATCAGGTCA GTCCAACTTTCTTCTCAAATGACAATGTACTTGCCCAACTTACGAGAAAATTATTTATCAGAGTGAAGCCACCCTATCCC TATATATATATATATATATATATATATATATATATATATATAGATCCTGTAATGTGTATTGTAAATGGAAGTTCTTTTTT AAGAATAAGAGTACTTTTTTTAAGACCTTTGCAGCCTGTGTAGTCTGGTGTTTGGGTTACTATGGAATATCAAAGATAAG GAAGTGGTAATAGGATTTAGTTGCTTCCGATTATAACAGAGTCATATGCATCTATATTGATGATAATGGTGATTGCAATA TAACTGTTAGAACATGGCCTACATGTAGATTTTGGTTTAAATTATCCTTTTGGTTATTCATGAAAGGACGAAAATAAGAT GTGAATGAGAATATCATTTTTCCATTTCTTTATGGTTGCATTTTCAGGATCTGAAAGTGAAAAGGAAGGTTCGTTTGATG ACTTCTTCTAGTAAAACTTGTATTTCTTCGATCTGGCTTAAATTTTCATTTCCTCTATGTTTCTGGGAAACAAGGAGGAA TGGCAGAGAGGAATGGAGGTGGCATTGGTTAAGCAGGTCGCTCCTTCTGTCGCATACCCTCCTCAGTACAAATTTGTAGA TACGCAGTTTATCTCAGGATCCTGTAGATCAGTCAGGTAGAGGTAGCAAAAAAGTTCATCTATGATGAACTTGTTGATTA GTGGTTCATCTTGTTCACATCCATTCAGAGTTCTAATCCTTTTTTATGTCAGATGACACACTGACAATTTTGTACATAAC ATCTTTCCAGAGGTTTCTTGTTTTCTGTCTTTGTGGTTTTCAACCTTACTAAGTTGTAACACCATCTGCTTCGAGCATCA TCTCCTCCGGGTAACATTTGCATTTACACCGAATTTCATCCACTAAACATCAAGAAATGAAATAGAACGTAATAGAACAT AACAGTAATAATATTCTTTGTGCTAGATTTAGTAAGTAGAGAATATAACAGCTTCATTGGAGTAAACTATAATTTTAATT GCAT
CDS sequence (LotjaGi5g1v0178200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGCATTCTAGAAAACGTTGTTGCCGGTTCTCACGTCTGGGTTGGAGATCCAGAACTAGTTTGGATTGATGGACAAGT TTTGAATATTAATGGAGAAGAAGCTGAAATTCAAACAAGCAATGAGAAGAAGGTTGTTTCCCGTTTATCAAAGCTACATC CCAAGGATACAGATGCTCCTACTGATGGAGTTGATGACATGACCAAGCTTGCTTATCTGCATGAGCCTGGAGTGTTGCAT AATTTGGAAACTAGATACAAGATCAATGAAATATATACTTATACTGGAAATATTCTTATTGCGATAAATCCCTTCCAAAG TCTTCCTCATCTGTATGATGTTAATGTGATGAAAAGTTACAAGGGAGCAGTAGTTGGAGATTTAAGCCCACATGTTTTTG CTATTGCTGAAGCAGCGTATAGGGCCATGATTACTGAGGAGAAAAGCAACTCTATTCTGGTTAGTGGCGAGAGTGGTGCT GGAAAGACAGAAACCACCAAAATGCTAATGTGTTACCTGGCATTTTTGGGGGGTCACACTGCATCTGAAGGACGGACTGT TGAAAAACAAGTTCTAGAATCAAACCCAGTCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATTCCAGCC GTTTCGGAAAATTTGTTGAGATTCAATTTAATAAGTATGGACGAATATCCGGGGCAGCCATTAGAACTTATCTGCTGGAG AAATCTCGCGTTTGCCAAATCTCAGATCCTGAGCGTAATTATCACTGTTTCTACCTTCTCTGCGCTTCTCCTCCTGAGGA TAAGGAGAAATATAAGTTGGGAGATCCCAGATCATTTCACTACCTTAATCAATCCAGTTGCTATGAATTAGCTGGTGTAA ATGCTGCTCAAGAGTATCTTAGCACCAAGAGAGCCATGGATATCGTGGGAATCAGTCAGGAGGAGCAGGATGCAATTTTC AGAGTTGTAGCTGCTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCATCAGTTCTAGAAGA TGAAGAATCCATTTTCCGTCTCCAAACAACAGCAGAACTTCTAATGTGTGAACCTGATGCTTTAGAAGTCGCACTTTGTA AGCGCGTGATGATCACCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGCAGGGATGGTCTA GCCAAGACATTATATTCTCGTTTATTTGACTGGATAGTCAATAAAATCAATAACTCCATTGGGCAGGATCCTAGCTCAAA ATATCTCATTGGTGTTCTTGACATATACGGCTTTGAAAGCTTTCGAACTAATAGTTTTGAGCAATTTTGTATTAATTTCA CAAATGAAAAGCTGCAGCAGCACTTCAACCAGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGGATTGAC TGGAGCTACTTAGAATTTGTAGATAATCAAGATGTATTGGATCTCATTGAAAAGAAACCGGGTGGAATCATAGCTCTGCT TGATGAAGCTTGTATGTTTCCCAAGTCAACTCATGAAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATCACAAAC GCTTCATCAAGCCTAAATTGGCACGCTCTGACTTTACTATTGTTCATTATGCAGGGGAGGTTCAGTATCAGTCTGAGCAG TTTATAGACAAAAACAAAGACTATGTTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGTATCAGG CCTTTTTCCTCCACTTTCTGAGGAGACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGCTACAATTAC AACAACTGATGGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCCTAATAATCTATTAAAACCTGGC ATATTTGAGAATATGAACATCATCCAACAATTACGTTCTGGTGGTGTTCTTGAAGCTGTAAGAATTAAATGTGCTGGATT CCCCACTCACAGAACATTTCATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAACTTTGAAG AAAAGGATAAATGTAAAATGCTTTTGGAGAAGATTGGGCTGACAGGTTATCAGATAGGGGAAACACAAATATTTCTAAGA GCTGGTCAGATGGCTGAATTGGATGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCAGAGTAG AACTCATTTTAGTCGAAAAACATATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGAGAATTGG CCCGGATATCATATTATCACATGAAGAGGGAAGCAGCTGCAATCAGAATTCAGATGTACACGCGTGGAAAATTAGCCAGA AAATGGTACACTGAAATAAGGATTTCTGCCATTGTCTTGCAGACAGGTTTTCGGGTAATGGCTGATTGCTATAAATTGAG ATATAGAAAGCAAAGTAAAGCTTCAACTCATATTCAGTCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATCAGGACC TTAAAAAGGTGTCAATCATTCCACAAAGCGTCAACCATCCCACGGATGAACATGAACATGAACATGAACATGAATATGAA CATGAACATGAACATGAACATAAGGTTTTGGAGATATCAGTAGAAAATGAAAGTCCTTGTGTGGAAGAATCTTCAAATTC TTCCAAAGAAGAATCCTCAAGTCCTTTTCAAGATAATGAAAGCATTGAAGCGATCAGGGATTCCTCTAGTCCTTTGGGAG ACACTGAAAAGTATGAGGCTCTCACTGCAGAAATAAAAAACTTGAAGGTCATGTTGCAGGAGGAAAAACAAAAAGCTGAT GAATATGAAAGGAAATACGTAGAAGCTCAAGAATCAAGCGAAGAGTTACGGAAAAAATTAGCAGAAACTGAAAAAAGAGT ATATCAGCTTCAGGACTCATTAAACAGTGTGTATCAGGATGATATCTTCCATGTCAAGTCAAGTTGCCGAGCTGAAGATG ATCTTAAGCACTTCTTCAAGATTGAGTTCAACTTTTCGACCTATTGCTAG
Protein sequence (LotjaGi5g1v0178200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGILENVVAGSHVWVGDPELVWIDGQVLNINGEEAEIQTSNEKKVVSRLSKLHPKDTDAPTDGVDDMTKLAYLHEPGVLH NLETRYKINEIYTYTGNILIAINPFQSLPHLYDVNVMKSYKGAVVGDLSPHVFAIAEAAYRAMITEEKSNSILVSGESGA GKTETTKMLMCYLAFLGGHTASEGRTVEKQVLESNPVLEAFGNAKTVRNDNSSRFGKFVEIQFNKYGRISGAAIRTYLLE KSRVCQISDPERNYHCFYLLCASPPEDKEKYKLGDPRSFHYLNQSSCYELAGVNAAQEYLSTKRAMDIVGISQEEQDAIF RVVAAILHLGNIKFAKSEDSDSSVLEDEESIFRLQTTAELLMCEPDALEVALCKRVMITPEEIIKRSLDPIGATVSRDGL AKTLYSRLFDWIVNKINNSIGQDPSSKYLIGVLDIYGFESFRTNSFEQFCINFTNEKLQQHFNQHVFKMEQEEYTKERID WSYLEFVDNQDVLDLIEKKPGGIIALLDEACMFPKSTHETFAQKLYQTFKDHKRFIKPKLARSDFTIVHYAGEVQYQSEQ FIDKNKDYVVPEHQDMLSTSKCSFVSGLFPPLSEETAKSAKFSSIGSRFKLQLQQLMETLNLTEPHYIRCVKPNNLLKPG IFENMNIIQQLRSGGVLEAVRIKCAGFPTHRTFHDFLTRLGILAPEVIRGNFEEKDKCKMLLEKIGLTGYQIGETQIFLR AGQMAELDARRARVLSKSATIIQKQSRTHFSRKTYIALRKSSVTVQSFCRGELARISYYHMKREAAAIRIQMYTRGKLAR KWYTEIRISAIVLQTGFRVMADCYKLRYRKQSKASTHIQSYWRRHKALVEYQDLKKVSIIPQSVNHPTDEHEHEHEHEYE HEHEHEHKVLEISVENESPCVEESSNSSKEESSSPFQDNESIEAIRDSSSPLGDTEKYEALTAEIKNLKVMLQEEKQKAD EYERKYVEAQESSEELRKKLAETEKRVYQLQDSLNSVYQDDIFHVKSSCRAEDDLKHFFKIEFNFSTYC
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 | 4 | 1024 | 1021 | 0.0 | – | |
PANTHER | 4 | 1024 | 1021 | 0.0 | – | |
ProSiteProfiles | 8 | 57 | 50 | 14.958 | ||
Pfam | 10 | 45 | 36 | 2.1E-6 | ||
SUPERFAMILY | 38 | 786 | 749 | 2.85E-278 | ||
SMART | 56 | 733 | 678 | 0.0 | ||
ProSiteProfiles | 62 | 732 | 671 | 265.781 | ||
Gene3D | 63 | 662 | 600 | 1.3E-250 | ||
Pfam | 64 | 720 | 657 | 2.1E-248 | ||
CDD | 76 | 720 | 645 | 0.0 | ||
PRINTS | 92 | 111 | 20 | 6.7E-60 | ||
PRINTS | 149 | 174 | 26 | 6.7E-60 | ||
PRINTS | 196 | 223 | 28 | 6.7E-60 | ||
Gene3D | 247 | 311 | 65 | 1.3E-250 | – | |
Gene3D | 312 | 421 | 110 | 1.3E-250 | – | |
PRINTS | 429 | 457 | 29 | 6.7E-60 | ||
Gene3D | 438 | 622 | 185 | 1.3E-250 | – | |
PRINTS | 482 | 510 | 29 | 6.7E-60 | ||
Gene3D | 666 | 733 | 68 | 4.8E-14 | – | |
SMART | 734 | 756 | 23 | 12.0 | ||
Gene3D | 734 | 785 | 52 | 3.7E-10 | – | |
ProSiteProfiles | 735 | 764 | 30 | 6.998 | ||
Pfam | 737 | 755 | 19 | 0.085 | ||
SMART | 757 | 779 | 23 | 13.0 | ||
ProSiteProfiles | 758 | 787 | 30 | 8.498 | ||
Pfam | 759 | 778 | 20 | 0.097 | ||
SMART | 782 | 804 | 23 | 16.0 | ||
ProSiteProfiles | 783 | 807 | 25 | 8.865 | ||
Pfam | 785 | 803 | 19 | 0.0016 | ||
SUPERFAMILY | 786 | 859 | 74 | 2.66E-5 | ||
Gene3D | 786 | 826 | 41 | 5.4E-6 | – | |
SMART | 830 | 852 | 23 | 0.24 | ||
ProSiteProfiles | 831 | 856 | 26 | 6.742 | ||
Pfam | 833 | 851 | 19 | 0.047 | ||
MobiDBLite | 863 | 934 | 72 | - | – | |
MobiDBLite | 866 | 893 | 28 | - | – | |
MobiDBLite | 898 | 928 | 31 | - | – | |
Coils | 938 | 993 | 56 | - | – |
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 | Motor activity | Catalysis of the generation of force resulting either in movement along a microfilament or microtubule, or in torque resulting in membrane scission, coupled to the hydrolysis of a nucleoside triphosphate. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Cellular component | Myosin complex | A protein complex, formed of one or more myosin heavy chains plus associated light chains and other proteins, that functions as a molecular motor; uses the energy of ATP hydrolysis to move actin filaments or to move vesicles or other cargo on fixed actin filaments; has magnesium-ATPase activity and binds actin. Myosin classes are distinguished based on sequence features of the motor, or head, domain, but also have distinct tail regions that are believed to bind specific cargoes. |
Expression pattern of LotjaGi5g1v0178200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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