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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0783500 |
Transcript ID | LotjaGi1g1v0783500.3 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin family protein, putative, expressed; TAIR: AT1G54560.1 Myosin family protein with Dil domain-containing protein; Swiss-Prot: sp|F4HWY6|MYO11_ARATH Myosin-11; TrEMBL-Plants: tr|A0A072U4E6|A0A072U4E6_MEDTR DIL domain myosin family protein; Found in the gene: LotjaGi1g1v0783500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:135654311..135666721) extracted from Lotus japonicus Gifu genome v1.2.
ACGATTCGTTGTTTTTGTGTGCAGGGGAGTACTCCAGTGAATATTATTGTGGATTCTCATGTCTGGGTTGAAGATCATGA GGTTTGCTGGATTGATGGACAGGTTTCCAAAATCAATGGTCAGGATGCTGAAATTGAAACTACCAGTGGAAAGAAGGTTT GTACTTTTGGAATAACATTATTCAGTTTGTGCTCAGTTTCTTAGTGCCTGTTTGGTTTTCATTTGAAATTGCTTTCACCC AACGGAGGTCCAAAGCCTCTTTCACGTTTGGGGCTTTGGAATTCGAGATCGCACACTCCAATGCCCCAAACGGACTCCCA AACTGAAAACCAAACACAACCTTAGTTTCTTGATAAATCACATTTGCATTTTGGAAAATGTGCAACATATCTTAGTTAGG CAAAAATTACTTCTGAATTGTTTTTCTGTGCTTTTATTTTGGGATAATTCAAGGTTGTCACAAAGTTATCAAAATTATAT CCCAAAGATATGGAAGCTGCTCCTGGTGGAGTGGATGATATGACTAAGTTGTCCTATTTGCATGAGCCAGGAGTCCTGCA GAACTTAAAGATTAGATATGAGTTGAATGAAATATATGTAAGGATCTCTTCCCTTTTAATTTGTTGGGATCCAGCATGGT TTATCAGTTCAAAAACCTTTTATCTTGTTAATTGCTGTGGCAGACTTATACTGGAAATATTCTGATTGCAATAAATCCAT TCCAAAAACTACCTCATCTATATGATGCACACATGATGCATCAATACAAGGGAGCACCATTTGGAGAGTTAAGCCCTCAT GTATTTGCCGTTGCTGATGTTGCATATAGGTAACCTTAATTTCTTCTAAGAATCCAAATACCATTTCTATCACTGAACCA AATTTTAATTTATGATTTGATTAATGCTAGGGCAATGATTAACGAAAGAAAAAGCAATTCAATTCTGGTCAGTGGAGAAA GTGGAGCTGGTAAAACTGAAACCACAAAAATGCTTATGCAGTACCTTGCTTACTTAGGTGGTAGGGCTGCCACCGAAGGA CGAACAGTTGAACAGCAAGTTCTTGAAGTATGATTCAATAAATCACTGTTTGTTAACTCTAACAAAATTTCCATTCTTTT TTTCCCGTACAATTATATTCAATTTTTTCCCCTCTTTGAACTTTGACTCACCTGCGACTTCTATATTAACTGATCTGAGT ACAGTCAAATCCAGTTCTGGAAGCATTTGGTAATGCTAAAACTGTCAGGAATAACAATTCCAGGTGAGTCTTTCTTACAC GTGGGTAGTAAATAATCTTGTGTTTTATTCTCTACGATATGCTAATATATAAACTAAGTTTGTTGTTAGTCTTTGTAATA TGTGGGAATAAATAATTCAAGTTTGATATATAAATTCACTTCGTCTCCAGTTTGTATCATTGCATTCCCCCAATTCTCTA TTGTACTGCCAAAATTCAATGTGTTAGTGACAACAGTTAAATTGATGGCCATTTATCAAATTTTCTTTTGAAAAATGGAA CATAAACTCCTATGGAACATAAACTTCTAGACAGTGCCTAGTTAATGTCCAGTTATTTATAGTAGAATTAGTTTCAAATT CTCATTGTCTTAATGCTGCAGTCGTTTTGGTAAATTTGTTGAGATCCAATTTGATAAGAGTGGAAGAATCTCAGGAGCAG CCATTCGAACATACCTTCTAGAGAGATCTCGGGTTTGCCAAATTAATGATCCTGAACGCAATTACCACTGTTTTTATCTT CTCTGTGCTGCACCACAGGAGGTTACTTGCTGCACAATCTACTTTTTGTTTATTCGTTTAATTATATATACTCATTACAA TTTATGCTGACAGGAAATTGAGAAATACAAACTAGGACATCCTAAAACATTTCATTACCTAAATCAGTCAAAATGCTTTG AACTGGCTGATGTAAGTGATGCTCGTGAGTATCTTGCAACTCGGAGAGCTATGGATATTGTTGGAATAAGCCCAAAAGAG CAGGTATTTCTTTTCATGAGTGAGAATTTAGCTTCTTTATTGCTTAAATATGAAATGAATAGCTTCTTAAGCCTTCACTT TCCCCGCTACATTTTTTATCAGGAAGCTATTTTTAGAGTTGTTGCTTCCATTCTTCATCTTGGTAATATTGAATTTACCA AAGGAAAGGAGGTTGATTCATCAGTTCCTAAGGATGATAAAGCCAAATTCAGCTTAAAAACAACTGCTGAGCTCCTCATG TATGGGTGACAGTGTTGTATTACTCCCTATGCCCAAATGATTTTCATCTGCCTTTAAGATGATTACCATTATTGGATTTT GCACTTTATCAGGTGTAATGCTGGTGCCTTGGAAGATGCATTATGTAAGCGTGTCATGATCACCCCTGAGGAAGTTATAA AACGGAGCCTGGATCCCCAAAGTGCAGCAGTCAGCAGAGATGGCTTGGCAAAAACACTTTATTCAAGGCTGTTTGACTGG TAAGATGCTGAAAATGGAAACAAACCCGTAGTTTTTGTCCTTTATCATTCTCGTTAGGCCACACAATACACATACAGAAG GTAAGGATCTAGGATTCTGGTTTTGATCCCTGGTGTTTTAATGTGGTTGTTAACAGGTTGGTGGACAAGATTAATAATTC AATTGGACAAGACGCCACTTCTAAATCTTTGATTGGGGTCCTTGATATATATGGTTTTGAAAGCTTTAAATGTAACAGGT AATATTTAGTTTAGAAGAATAAACATGCCTATCCGTACAAATGCATCCTGAGATTGCTTTACTAGAGATATTGAAAGCAG CCACCTCTGCTTGTTTTCAATCCATTTTAACTTATTTTCAGCCTATCATGCTCTGCAGTTTTGAGCAGTTCTGCATTAAT TTCACAAACGAGAAATTGCAGCAACATTTCAATCAGGCAAATTCTCAGACCAGATAAGCACTTACAGTGTTATGACTGTT ACTTCCCATTTTAATTTGCTTTTTCGTGATGAATTTCAGCACGTGTTCAAAATGGAACAAGAAGAATATACAAAGGAGCA GATTGATTGGAGTTACATTGAATTTGTTGACAACCAAGATGTTTTGGACCTAATTGAAAAGGTTTTCTTTCTCTCTTTTT TTCACTTTTCTCAAAGGCTTGTGGGTATTCAGCTCATTTTGAGCATAAAAGCAGCCAACTTAGATGTTATGAAACTTAAT GTAATGGAAAGTTAATACTAGTATGCTCTTTTAGATGCATATTGATGATTTATTGTCTAATTATCCTAGTGTGTAAAGTT CATCCCACAATCTATTTAGTGTTACTATTCATACCCAAAATAATTGAATTTTCATTAATCCCCATCTGCAAAACAACTGC ACACATTTACAAAGGAAAAGAAGCAGAAGAAGGGATGAGGTTGAGGGTGAAAATGAGCTTGGTTAATTGGTTCATTGTTT CTTCTTTTGAACTGAACCACAGTAGCGCTATTTAATATTGTCACGAACCAACTATCCCAAAAGCTTAGCTTTTGAGTGAA GGACACATGAATGATTTAATATTATATTTATAACACACCCCTTACGCACGATCCCACTTGGGCTTAAAGCGTGGAAAAAG CACAAACTCACCTAACATGTGCTGAAATTCAACAATTTTTCAATTAGAATAATGGGGCAAACACAGGTCGAACTCTAGAC CACCTGATTATAGAGGCCTTAATAGCATGTCATGAACCATTTATCACAAAAGTTTAAGCTGTTGGGTAAATGACACATGA GTGACTTCATATAATATCTAATGAGTATGTAACACAAATCTTTTATATTTGGTTTTCAGACAAACAAAATTTATAATTAA GGAACTGGACTGCTGTTATTGAGTGATCTCTCCCTATGTTGTAGTTTTGGTTATTTTACTGTCAGCCAGAATTCAGTGCC TTTTTCATCCTTTTCTTCCACTTTGTCTTCCCTTACTTTTTGCATTAGTACTTTACTTTTTTTCTTTTTTGCAGAAACCT GGAGGAATCATTGCTCTCCTTGATGAAGCTTGGTAAACTATTGTTTTCTTCCCTGAATTTCTTCCTTGAAAGGATGACAA TTCATAGCTTGCTTGATGAATTTTAACCTTCTTTTGGTGACAAGTTCCTGTTTTAATTCTAATGCTCCTTGTTACTTACC ATATTGAATCAACTCCTTCATTCTAACCTTTCGCCCTTGTCTTTCAGCATGTTTCCAAAGTCAACTCATGAAACTTTCGC TAACAAGCTTTATCAAACATTTAAGAATCACAAGCGCTTTGTTAAGCCAAAATTATCTCGAACAGATTTCACCATTTCTC ATTATGCTGGCGAGGTATGACTTATTCTCATAGCATCTGCTTCAGAAAACACTAGACTTTGTTTATTCATTTCTACTGTC ATAAATGTGCAGGTGCTGTACCAGTCAGACCATTTTTTAGATAAAAACAAGGACTATGTGGTTCCGGAACATCAAGATTT ATTGGGTGCTTCCAAGTGTCCTTTTGTAGCTGGACTTTTTCCTCCACTTCCAGATGAGACATCAAAATCTTCAAAATTTT CTTCAATCGGTTCTCGTTTTAAGGTATCATTATTTTTCTAGTCTTCATTATTGAAAATGTGGACTTTGGCATGACAATAA ACTTCTTGCCTGGTGCAGCTGCAACTACAGAGCCTAATGGAAACACTAAACTCAACAGAGCCTCATTACATTAGATGTGT GAAGCCAAACAACGTCCTCAAGCCTGCAATTTTTGAGAATGTCAATATTATGCAACAACTTCGCTGTGGTGTGAGTATAC TTTGATGTTCCTCCTTAATTTCATTCTTCGGATAACTGGTTTGTACAAAAGTATGGTCATAGTTTCTTCACAACTCAACC TTTTCTTTTCCCTTTTTTCTCCAATGCTTTCTCATACAGGGTGTTTTGGAGGCAATCAGAATCAGTTGTGCTGGCTACCC TACCCGTCGCGCTTTCTTTGAGTTTATAAACCGATTTTCCCTCCTTGCCCCCGAGGTTACAGAAGCAAAGTAAGAACTCT CTTAGTATATTTGTATGCCCAATAGGAAGGAAGTTTTTGCTTTATGTTTTTAAACATTTCGTACCAACCTAATCAGCTAA GCCTTTTCACCTTTGGGCAGTCATGATGAGAAGACTGTTTGCAAAAAAATTCTAGAAAAGATGGGGCTTAAAGGATATCA GGTAAATGTTTCACCAAAATAATAAATTTTGCTCTTGTTTTCTTGTCTGAATATCTTTTATTATAAAATCAATATAAAAT CATTCATATATCTTTACCCAACAACTAAAATTTTAGGGACAGTTGGTTTGTGACACCTTTAAACCTCTTAAGGTGTCAAC AACAACCATACTTCATGGATATTGCATCATTGATATATAATACCTCTTTTTGCTATATTTTATCGATGTCATCAAGGGTA TGTACGATCATCATGCATATATATATATTTATGTTTATGCTCATCAAGGCTGTCAATTGTGTAGATTGGAAAAACAAAGG TATTCCTAAGAGCAGGTCAGATGGCTGAACTAGATGCACGGAGGGCTCAGGTACTAAGTAATGCAGCAAAAACTATCCAA AGGCGTATACGAACCCATCAAGCTCGTAAACATTATATCGCATTACGAAAGAAGACCATATATGTGCAGTCTCTGTGGAG AGGTGAAATATTTTTAAAGTGAAATAGCCTGAATCATTTGTTTGGATAGGCTCAATTCTGTATGGACTTACCTAAACAAA TGGCGTATGTCAGTGCTTAGGACATTTCATGGTTAATCAGTCTCCTTTATTTACATATTTTTCACATGCATATGATTTGT AGGAAGACTTGCATGCAAACTTTATCAGGGCCTGAGAAGGGAGGCTGCTGCTATTAAAATTCAGAAGAACATACGCAGAC ATGATGCTAGGAAAGCCTATACTAAACTACAAGCATCAGTACTTACTCTTCAAACAGCTTTGAGGGCAATCTCCGCCCGT AAGGAGTTCAACTTTAGGAAACAGACTAAAGCTTCCACCATTATTCAGGTTATAGTTGACTCCTATATGATTAGGAATAT CCACAAAGGACATCACATCAGTATTTACTATATAATTCTATTTCAAAAAATTGCAGGCTCGGTGGCGGTGCCACAAAGCT TCTTCATATTATAAGAGGCTAAAGAAAGGTGCAATAATGACACAATGCAAATGGAGGGGGCGCATGGGAAGGAAAGAACT TAGGAAACTGAAAATGGTAAGTTTCTAGATTTTACAAAACTCTTAATAAATTGTTTAACTATTCCATAATTAAGTAGAAC CCTCCGAAGTAAAAATGTAATGCATCCAAGCAACATAACTCAAGTCATACAAGGGAAAAGATACTATCTGATTTTTTGCC ACAGCAGTGAACTTCATATCATAAAAGCTTATACAATGTATATTTTTTTTATTGTCGATGTTATCTTCATAAAGGGAAAA CAACACGTAACAAGTAACATAAGCCTTATCCCAATAAGTGAGATTGGCTATATGAATCACTTGATTCATATGAAAGATAC GGTCAATTTTACATTGGCTACCGCAGACCTAACACAATCTTCCTCCTTTATCCGGGCTTAGGATTGACTATGACACAGTA TAGGTGGAGTTATAAAGGGAAAACAACCAAAGAAAATAAGGTTTTCTAATCTGAAATTGGTTTTAACTTTTAACTTCTGA TTATAGGAGCTTAAAGTTTCATTTTCTTTCTCTTTCTTATTTTAATTTCTTTATCTCTAATCATATCTTGTAAGTGAAAC ATTTCAAGTAGATAAAAATTTAATCTTCTACTTAACTACAGAAAACAATATCCCATCAATGTGGATCTGGACTGAATCGC ATCCATTATTTTCCATACCACAATCATTTTTCTTTTTGATGGTTTTATAAATGATCAAACCTTTTTTTTTTTTTGTTACA ATGATCAAACCTATTATCATATCTTTACCTATTATCATATCTTTCTCAGTCTCTCTACTGATAGTTGACATCTATTTCCA TTTTCTTTAGGCTGCAAGAGAAACTGGTGCGCTTAAAGAAGCAAAGGACAAGCTTGAAAAACGGGTGGAGGAACTCACTT ATCGTGTCCAACTAGAAAAAAGTTTAAGGGTGAGAAATATGTTTTGCAGTTAGATACAATTCGGAAGATATTGCAGTTAT TCTAATATCTTTCTCTAGGATGCATTTTGTAAAACATATTGCATAAATGGGGAATAAAATGAAGGGAGAGTAAAAGACCA ATATTGGCAAGTTATCAAGCATCCTTTCAATTTGTAATCCCTAAAGAAACTATATGGAATCCTGCAGACCAACCTAGAAG AATCCAAAGCACAAGAGATAACAAAACTGCAGAATTCACTGAAGGAGATGCAGAGCAGAGTTGATGAAACTAATGCTTTG CTTGTAAAGGAGCGAGAGAATGCAAAGAAAGCTATTGAAGAAGCACCTGCTGTTGTTCAAGAAACTAAGGTTATTGTTGA AGACACACAGAAGATTGAAGCACTAACAGCGGAAGTTGAGAGCCTAAAGGTATAAAATTCAGTCTTACAACTCCTAATCT TTTGTTAAGTGGCCCTTATTTCAATCATGCTCCTCATTCAATGAAATATTGTAGACAATATATACTTCAATTACATACAG CTTACATCATTCTTAGAGTTCTTTATTGGCTCTTGTGCCTCTGTTCCTACTTTTATTGGTTAATTGGAACGAAGTTTGAT AACATTTTTGGAATTTGGCATATCTGAGTAGGAGCTAGAAAATACTACCCTCCATTTAGCTAGTTGCTCGGTATTTTGTT GTCCACCTAATTGCTAAGTGTTACTAAATCTCTCTTTCAGTTATATCTCTCTAGTTACATTCAGTTAATTGAGTTGTTTT TCCCAGCTCCCTTCTTCTTTTTCTTAACATAAATCCTCTTAATTACATCATGTTTTATCCAAGATATAACTTAGCTTGTA AGCAGAGCTACGTGAAGCACCTCATTAAATATGCTTTCAGAACCGAGTGCAAACTGTGCAGTACACTTTAGAGTTCAGAG TTATATGAGAATGAGAAGCAGTTCCCTTGGAGCCTCAATAAAAAGGGATGTGACAAGATTGATTTCCTTCCTGATGATAT GAGAAAGAGGAAGTAAACTCATGTCATTGGTGCATTCTCTTCAATTTAATACTTCACAATCATATCAAGATATTAATGTC AAGAACGAATCATTCTAAAAGCTTAAGTTGTGAGGTAGTGGCACAATAATAGTTTTATTGGACAGATTACAGTACCAAGA ATAAAAAATTATTAAACTAAATGTTCATGCATATGCTTTTTAACTGGTTTATCGCTAAATTTCTAAGGAGCGTTATTTCT TGTTAAGCTCATATTGATGCTAAGTTCTTGTAACTTGTAAGACGTGTCATGATTATCTTGTTTGTATGATGTTTCCTTGG CTTATCTTTGCACAGACTTTGCTAGAGTCAGAGAGACAAAAAGCTGATGATTTTGAAAAGAAATATAATGAAGCCCAAGC TTCTCTTGAAGAAATGAGTAAAAAATTTGAAGACACAGAGAAGAAGGCCCGTCAGTTCCAAGAATCAATGACCAGGTAAT ATATAAACTGAACAATTAACCCAACGTTACTTCTCTACCATTTTAACCAACTACAATCAACACTGGAAGTGTTGGATTAG ATTGTAAGTGGTTCCTGAATTGAGATTTTCAAACTTCTTGAGCACCTCATTTTTTTTATAAGTCGTTTGAAGTTGAGTAC CTGATTTCTTGTTGCACAGATTTTCTTTCTTACGAGAAGTATGGTGATACTATTGGTTAACTGATCACATATTATTCTTT CTTTATTTCCCTTCTTCTCTAATGCTAAGTAGTAATAATCATGATGACGATGCTGGATGAATTTATATCTAATTCAAAAA CTGTCCTCTTAAAAAGTAGTATCAAATGACTCATATCCAACCTTAATTCAGTGAGATGAATGACCAAAATCTCATAATTC TCTGTTTAGGCTAGAAGAGAAGATTGCTAATTTAGAATCGGAGAATAAGGTTCTACGCCAACAAGCTGTGTCTATAGCAC CCAATAAGATGTTTTCAGCACGCACCAGATCAAGTATTCAGGTACTCCTCGGAACGAATCTTTATATACATGATATAATA CGAACCTTGAAGATGGTTTAATTTTTTTTTTCTTATCTCTGTTGATAGAGAGCTGACAGTGGACACATAGTAGTGGAACC AAGGACATCTTTGGTAACACAACTTTATTTTAAATCACTATTACTTGTCTTGGGTTTGTGTATTCGGATTTGACTTTTTT TCTTTTTAACTTGACTAACTAATCAGGATATGCATAGCCCATCAATGAACCACAGAGAATCCTCTGATTTGGAGGATAAA CCACAGAAGTCACTGAATGAGAAACAACAGGAGAACCAAGAGTTGCTCATTAGATGTATTGCACAACACTTAGGCTTTGC TGGGAATAGACCAGTTGCTGCCTGTATCATATTCAAATGCCTCTTGCATTGGAGATCATTTGAAGTTGAGCGTACTAGCG TTTTTGATCGTATAATCCAAACTATTGGCCATGCAATTGAGGTGTAAAATGCTCAACGTTCATGTGATAGTTCTGTGTTT TTCTTGCTCTCCTTTCTTAATATATTTATTTTCACTAAAATATTTTTATTTGGACTTCAGACTCAGGAGAACAATGAAGT TTTGGCTTATTGGTTATCCAATGCTTCTACACTTCTATTGTTGCTCCAGCGAACACTTAAAGCAAGTGGTGCTGCTGGCA TGGCTCCTCAACGCCGTCGTTCTTCCTCAGCAACCCTGTTTGGGAGGATGACACAAGTAATAACTTATTTGAGCAAATTA GTTCCAACTGAGAAACTCTTCTTCTTCAGACAAGTGAAGTATTTTATATACCATTGTTTCAGAGTTTCCGTGGTAATCCG CCTGGAGTCAATATTTCCCTAATCAATGGTAGCATGAGTGGCGGAGTAGATACAGTAAGACAAGTTGAAGCCAAGTACCC AGCTCTTCTTTTCAAACAGCAGCTTACAGCTTATGTGGAAAAGATATATGGAATGATTCGGGATAACTTGAAGAAAGAAA TTTCTCCTTTGCTTGGACTATGCATCCAGGTATAACAATTTTTTTGCCTAGTCTTCTTTATAAATTTATCAATCTTTTCA TTTGCTACGTTGCCTTTCAAATTCAATGATTTATTGCATAACTGTTTGAATTTGATGAGGTAGGCACCAAGAACATCCAG GGCAAGCTTGGTTAAGGGTTCATCACGTTCAGTTGTAAACACTGAAGCCCAGAAAGCTTTGATTGCTCACTGGCAGGGTA TAGTTAAGAGTCTTGGGAACTTCTTAAATACTTTGAAGACAAATCACGTTAGTAGATCCTCTTTTGACTGCATTATAGTT AACTTTTTTTCTTGTTTTGGGGCTCTATCTTATAGCTTTTGCTAGCTGTGCTTCTGGCTCTTCACAAAAATATTTATATA TCATATTAAATACATGGTTAAAATAAAATCACAGGCTTCTCCTAAAATATACCAAAACTACGTGACCTCCTTTTGTTTCT CTAAATTTATACATACTTTCTCTCTGATTTCAAATATATTACAAAGGTGATTTTGTTAATAATTAAAATATGAGGCTTAT GTAAATTTGAGAGCAAGAAGGGAAGTCTACATAATTTTGCTAAACCTCAGGGAGGTTTAGCATTTTATCTCCTCTTGTCT TGTTAACATTATTTATTGAGTTGCTACGTTTGCATTTATTTAGTCTTGTTTGAATCAGAGTTGTTTATTCTGCATAATCC CATTCTGCTTCATTTTGGCAGGTTCCCCCATTTTTGGTTCGTAAGGTGTTCACTCAAATATTTTCTTTTATCAATGTCCA ACTTTTCAATAGGTTAGTATCTTCGAGTTTCCATTGTTTTGGGGGTTTTCTATTCTGCAAATCAGAATTTTCATTTTTAT CATCTCATCTCTTTCATTTTTCTTATAGTCTTCTTTTAAGACGGGAGTGCTGCTCATTTAGTAATGGAGAATATGTGAAA GCTGGTTTGGCTGAATTGGAACATTGGTGTTTTAAGGCGACGGATGAGGTGCATTGCTTCACACTGCTGTTATATTCGGT GATTCTTGCAAAAATGTATGAATACTAAGTACTAACCCCCTCTCCTGGGAAAAATTGCAGTATGCAGGTTCAGCGTGGGA TGAGCTCAAACATATTAGACAAGCTATTGGATTTCTGGTATCTGTCTATCATGTCTTTACACCATCTGTAAGGTACTTGT GGTGGATAATAAAATATAAAAAACTGATCTTTCCTGCCCCTTAATTTAGGTCATACACCAGAAACCAAAGAAAACGCTGG ATGAAATAAGCCATGACCTTTGCCCGGTAAGTGGAAGAAATCTGGCTTTTTACTGAAAATTTCACTTTCCTGAATACCTA CATTTGTTAGTTCCCTGTTCACAGGTTCTCAGTATACAGCAGCTATATCGAATTAGCACCATGTACTGGGATGACAAGTA TGGCACGCATAGCGTGTCCCCTGATGTAAGTTTTTACATTAAACCATTACTCAAATATGATAACTTCAACACTACACATC AAAGACATGCGAAAAACCTATCTTGAGCTTTGCTGTATCAATGTTTTCATCTAGGTCATCTCTAATATGCGAGTCTTGAT GACTGAAGATTCAAATAATGCAGTTAGTAATTCTTTCCTGTTGGATGATGATTCAAGGTAAGTTGGATACTATTCAACCA CGTAGTAATCTTTGCTCAGGTTTTCATCTTGTTTTATAAACGCACATTGATATTGTATTGTATACACAATTAGTTAGTTT TGTAACCAAATCACTCTTGGTAATGAGGTTATAGTTATGACCACATACAAAGTAAATATGAAAACTTGGCAAGAGCTATG CAGGGTGCTCCATGACTTCAATTCTAGTCAGACATCCACTACTTGACCGCTCTTAGTAATTAGGATGATGACTTCAACTA AATTTTCTTATACTAACTATCAACTTCTGGCTACACATTGACTGAACCAAACTTTTCGCCAAAAAGAATCTGATTTGAGT AGATGTTTAGATTTCCGTTAAACTCAACACTGATTCATCAACACTGATTCACTGTTTCTAGTTGTTAATATATACTTTTG ACCTTACATTTATCATTAACCATTTGGAAGCATCATCTACTTTGCAGCATTCCGTTTTCAGTGGATGACATATCAAAGTC AAAGGAACAGATAGATATATATGATGTAGAGCCTCCACCACTAATTCGAGACAACTCTGGCTTTAGTTTCTTGTTGCCCC GTGCAGACTGA
CDS sequence (LotjaGi1g1v0783500.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAGCTGCTCCTGGTGGAGTGGATGATATGACTAAGTTGTCCTATTTGCATGAGCCAGGAGTCCTGCAGAACTTAAA GATTAGATATGAGTTGAATGAAATATATACTTATACTGGAAATATTCTGATTGCAATAAATCCATTCCAAAAACTACCTC ATCTATATGATGCACACATGATGCATCAATACAAGGGAGCACCATTTGGAGAGTTAAGCCCTCATGTATTTGCCGTTGCT GATGTTGCATATAGGGCAATGATTAACGAAAGAAAAAGCAATTCAATTCTGGTCAGTGGAGAAAGTGGAGCTGGTAAAAC TGAAACCACAAAAATGCTTATGCAGTACCTTGCTTACTTAGGTGGTAGGGCTGCCACCGAAGGACGAACAGTTGAACAGC AAGTTCTTGAATCAAATCCAGTTCTGGAAGCATTTGGTAATGCTAAAACTGTCAGGAATAACAATTCCAGTCGTTTTGGT AAATTTGTTGAGATCCAATTTGATAAGAGTGGAAGAATCTCAGGAGCAGCCATTCGAACATACCTTCTAGAGAGATCTCG GGTTTGCCAAATTAATGATCCTGAACGCAATTACCACTGTTTTTATCTTCTCTGTGCTGCACCACAGGAGGAAATTGAGA AATACAAACTAGGACATCCTAAAACATTTCATTACCTAAATCAGTCAAAATGCTTTGAACTGGCTGATGTAAGTGATGCT CGTGAGTATCTTGCAACTCGGAGAGCTATGGATATTGTTGGAATAAGCCCAAAAGAGCAGGAAGCTATTTTTAGAGTTGT TGCTTCCATTCTTCATCTTGGTAATATTGAATTTACCAAAGGAAAGGAGGTTGATTCATCAGTTCCTAAGGATGATAAAG CCAAATTCAGCTTAAAAACAACTGCTGAGCTCCTCATGTATGGGTGTAATGCTGGTGCCTTGGAAGATGCATTATGTAAG CGTGTCATGATCACCCCTGAGGAAGTTATAAAACGGAGCCTGGATCCCCAAAGTGCAGCAGTCAGCAGAGATGGCTTGGC AAAAACACTTTATTCAAGGCTGTTTGACTGGTTGGTGGACAAGATTAATAATTCAATTGGACAAGACGCCACTTCTAAAT CTTTGATTGGGGTCCTTGATATATATGGTTTTGAAAGCTTTAAATGTAACAGTTTTGAGCAGTTCTGCATTAATTTCACA AACGAGAAATTGCAGCAACATTTCAATCAGCACGTGTTCAAAATGGAACAAGAAGAATATACAAAGGAGCAGATTGATTG GAGTTACATTGAATTTGTTGACAACCAAGATGTTTTGGACCTAATTGAAAAGAAACCTGGAGGAATCATTGCTCTCCTTG ATGAAGCTTGCATGTTTCCAAAGTCAACTCATGAAACTTTCGCTAACAAGCTTTATCAAACATTTAAGAATCACAAGCGC TTTGTTAAGCCAAAATTATCTCGAACAGATTTCACCATTTCTCATTATGCTGGCGAGGTGCTGTACCAGTCAGACCATTT TTTAGATAAAAACAAGGACTATGTGGTTCCGGAACATCAAGATTTATTGGGTGCTTCCAAGTGTCCTTTTGTAGCTGGAC TTTTTCCTCCACTTCCAGATGAGACATCAAAATCTTCAAAATTTTCTTCAATCGGTTCTCGTTTTAAGCTGCAACTACAG AGCCTAATGGAAACACTAAACTCAACAGAGCCTCATTACATTAGATGTGTGAAGCCAAACAACGTCCTCAAGCCTGCAAT TTTTGAGAATGTCAATATTATGCAACAACTTCGCTGTGGTGGTGTTTTGGAGGCAATCAGAATCAGTTGTGCTGGCTACC CTACCCGTCGCGCTTTCTTTGAGTTTATAAACCGATTTTCCCTCCTTGCCCCCGAGGTTACAGAAGCAAATCATGATGAG AAGACTGTTTGCAAAAAAATTCTAGAAAAGATGGGGCTTAAAGGATATCAGATTGGAAAAACAAAGGTATTCCTAAGAGC AGGTCAGATGGCTGAACTAGATGCACGGAGGGCTCAGGTACTAAGTAATGCAGCAAAAACTATCCAAAGGCGTATACGAA CCCATCAAGCTCGTAAACATTATATCGCATTACGAAAGAAGACCATATATGTGCAGTCTCTGTGGAGAGGAAGACTTGCA TGCAAACTTTATCAGGGCCTGAGAAGGGAGGCTGCTGCTATTAAAATTCAGAAGAACATACGCAGACATGATGCTAGGAA AGCCTATACTAAACTACAAGCATCAGTACTTACTCTTCAAACAGCTTTGAGGGCAATCTCCGCCCGTAAGGAGTTCAACT TTAGGAAACAGACTAAAGCTTCCACCATTATTCAGGCTCGGTGGCGGTGCCACAAAGCTTCTTCATATTATAAGAGGCTA AAGAAAGGTGCAATAATGACACAATGCAAATGGAGGGGGCGCATGGGAAGGAAAGAACTTAGGAAACTGAAAATGGCTGC AAGAGAAACTGGTGCGCTTAAAGAAGCAAAGGACAAGCTTGAAAAACGGGTGGAGGAACTCACTTATCGTGTCCAACTAG AAAAAAGTTTAAGGACCAACCTAGAAGAATCCAAAGCACAAGAGATAACAAAACTGCAGAATTCACTGAAGGAGATGCAG AGCAGAGTTGATGAAACTAATGCTTTGCTTGTAAAGGAGCGAGAGAATGCAAAGAAAGCTATTGAAGAAGCACCTGCTGT TGTTCAAGAAACTAAGGTTATTGTTGAAGACACACAGAAGATTGAAGCACTAACAGCGGAAGTTGAGAGCCTAAAGACTT TGCTAGAGTCAGAGAGACAAAAAGCTGATGATTTTGAAAAGAAATATAATGAAGCCCAAGCTTCTCTTGAAGAAATGAGT AAAAAATTTGAAGACACAGAGAAGAAGGCCCGTCAGTTCCAAGAATCAATGACCAGGCTAGAAGAGAAGATTGCTAATTT AGAATCGGAGAATAAGGTTCTACGCCAACAAGCTGTGTCTATAGCACCCAATAAGATGTTTTCAGCACGCACCAGATCAA GTATTCAGAGAGCTGACAGTGGACACATAGTAGTGGAACCAAGGACATCTTTGACTAATCAGGATATGCATAGCCCATCA ATGAACCACAGAGAATCCTCTGATTTGGAGGATAAACCACAGAAGTCACTGAATGAGAAACAACAGGAGAACCAAGAGTT GCTCATTAGATGTATTGCACAACACTTAGGCTTTGCTGGGAATAGACCAGTTGCTGCCTGTATCATATTCAAATGCCTCT TGCATTGGAGATCATTTGAAGTTGAGCGTACTAGCGTTTTTGATCGTATAATCCAAACTATTGGCCATGCAATTGAGACT CAGGAGAACAATGAAGTTTTGGCTTATTGGTTATCCAATGCTTCTACACTTCTATTGTTGCTCCAGCGAACACTTAAAGC AAGTGGTGCTGCTGGCATGGCTCCTCAACGCCGTCGTTCTTCCTCAGCAACCCTGTTTGGGAGGATGACACAAAGTTTCC GTGGTAATCCGCCTGGAGTCAATATTTCCCTAATCAATGGTAGCATGAGTGGCGGAGTAGATACAGTAAGACAAGTTGAA GCCAAGTACCCAGCTCTTCTTTTCAAACAGCAGCTTACAGCTTATGTGGAAAAGATATATGGAATGATTCGGGATAACTT GAAGAAAGAAATTTCTCCTTTGCTTGGACTATGCATCCAGGCACCAAGAACATCCAGGGCAAGCTTGGTTAAGGGTTCAT CACGTTCAGTTGTAAACACTGAAGCCCAGAAAGCTTTGATTGCTCACTGGCAGGGTATAGTTAAGAGTCTTGGGAACTTC TTAAATACTTTGAAGACAAATCACGTTCCCCCATTTTTGGTTCGTAAGGTGTTCACTCAAATATTTTCTTTTATCAATGT CCAACTTTTCAATAGTCTTCTTTTAAGACGGGAGTGCTGCTCATTTAGTAATGGAGAATATGTGAAAGCTGGTTTGGCTG AATTGGAACATTGGTGTTTTAAGGCGACGGATGAGTATGCAGGTTCAGCGTGGGATGAGCTCAAACATATTAGACAAGCT ATTGGATTTCTGGTCATACACCAGAAACCAAAGAAAACGCTGGATGAAATAAGCCATGACCTTTGCCCGGTTCTCAGTAT ACAGCAGCTATATCGAATTAGCACCATGTACTGGGATGACAAGTATGGCACGCATAGCGTGTCCCCTGATGTCATCTCTA ATATGCGAGTCTTGATGACTGAAGATTCAAATAATGCAGTTAGTAATTCTTTCCTGTTGGATGATGATTCAAGCATTCCG TTTTCAGTGGATGACATATCAAAGTCAAAGGAACAGATAGATATATATGATGTAGAGCCTCCACCACTAATTCGAGACAA CTCTGGCTTTAGTTTCTTGTTGCCCCGTGCAGACTGA
Protein sequence (LotjaGi1g1v0783500.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEAAPGGVDDMTKLSYLHEPGVLQNLKIRYELNEIYTYTGNILIAINPFQKLPHLYDAHMMHQYKGAPFGELSPHVFAVA DVAYRAMINERKSNSILVSGESGAGKTETTKMLMQYLAYLGGRAATEGRTVEQQVLESNPVLEAFGNAKTVRNNNSSRFG KFVEIQFDKSGRISGAAIRTYLLERSRVCQINDPERNYHCFYLLCAAPQEEIEKYKLGHPKTFHYLNQSKCFELADVSDA REYLATRRAMDIVGISPKEQEAIFRVVASILHLGNIEFTKGKEVDSSVPKDDKAKFSLKTTAELLMYGCNAGALEDALCK RVMITPEEVIKRSLDPQSAAVSRDGLAKTLYSRLFDWLVDKINNSIGQDATSKSLIGVLDIYGFESFKCNSFEQFCINFT NEKLQQHFNQHVFKMEQEEYTKEQIDWSYIEFVDNQDVLDLIEKKPGGIIALLDEACMFPKSTHETFANKLYQTFKNHKR FVKPKLSRTDFTISHYAGEVLYQSDHFLDKNKDYVVPEHQDLLGASKCPFVAGLFPPLPDETSKSSKFSSIGSRFKLQLQ SLMETLNSTEPHYIRCVKPNNVLKPAIFENVNIMQQLRCGGVLEAIRISCAGYPTRRAFFEFINRFSLLAPEVTEANHDE KTVCKKILEKMGLKGYQIGKTKVFLRAGQMAELDARRAQVLSNAAKTIQRRIRTHQARKHYIALRKKTIYVQSLWRGRLA CKLYQGLRREAAAIKIQKNIRRHDARKAYTKLQASVLTLQTALRAISARKEFNFRKQTKASTIIQARWRCHKASSYYKRL KKGAIMTQCKWRGRMGRKELRKLKMAARETGALKEAKDKLEKRVEELTYRVQLEKSLRTNLEESKAQEITKLQNSLKEMQ SRVDETNALLVKERENAKKAIEEAPAVVQETKVIVEDTQKIEALTAEVESLKTLLESERQKADDFEKKYNEAQASLEEMS KKFEDTEKKARQFQESMTRLEEKIANLESENKVLRQQAVSIAPNKMFSARTRSSIQRADSGHIVVEPRTSLTNQDMHSPS MNHRESSDLEDKPQKSLNEKQQENQELLIRCIAQHLGFAGNRPVAACIIFKCLLHWRSFEVERTSVFDRIIQTIGHAIET QENNEVLAYWLSNASTLLLLLQRTLKASGAAGMAPQRRRSSSATLFGRMTQSFRGNPPGVNISLINGSMSGGVDTVRQVE AKYPALLFKQQLTAYVEKIYGMIRDNLKKEISPLLGLCIQAPRTSRASLVKGSSRSVVNTEAQKALIAHWQGIVKSLGNF LNTLKTNHVPPFLVRKVFTQIFSFINVQLFNSLLLRRECCSFSNGEYVKAGLAELEHWCFKATDEYAGSAWDELKHIRQA IGFLVIHQKPKKTLDEISHDLCPVLSIQQLYRISTMYWDDKYGTHSVSPDVISNMRVLMTEDSNNAVSNSFLLDDDSSIP FSVDDISKSKEQIDIYDVEPPPLIRDNSGFSFLLPRAD
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 |
---|---|---|---|---|---|---|
SMART | 1 | 679 | 679 | 0.0 | ||
PANTHER | 1 | 1477 | 1477 | 0.0 | – | |
PANTHER | 1 | 1477 | 1477 | 0.0 | – | |
ProSiteProfiles | 6 | 678 | 673 | 272.124 | ||
SUPERFAMILY | 6 | 731 | 726 | 9.69E-285 | ||
Gene3D | 7 | 608 | 602 | 1.7E-252 | ||
Pfam | 8 | 666 | 659 | 1.2E-254 | ||
CDD | 20 | 666 | 647 | 0.0 | ||
PRINTS | 36 | 55 | 20 | 5.0E-61 | ||
PRINTS | 93 | 118 | 26 | 5.0E-61 | ||
PRINTS | 140 | 167 | 28 | 5.0E-61 | ||
Gene3D | 191 | 255 | 65 | 1.7E-252 | – | |
Gene3D | 256 | 367 | 112 | 1.7E-252 | – | |
PRINTS | 375 | 403 | 29 | 5.0E-61 | ||
Gene3D | 384 | 568 | 185 | 1.7E-252 | – | |
PRINTS | 428 | 456 | 29 | 5.0E-61 | ||
Gene3D | 612 | 678 | 67 | 3.1E-18 | – | |
Gene3D | 679 | 731 | 53 | 1.5E-8 | – | |
SMART | 680 | 702 | 23 | 1.9 | ||
ProSiteProfiles | 681 | 708 | 28 | 7.602 | ||
Pfam | 683 | 701 | 19 | 0.0033 | ||
SMART | 703 | 725 | 23 | 23.0 | ||
ProSiteProfiles | 704 | 733 | 30 | 7.437 | ||
SMART | 728 | 750 | 23 | 0.0016 | ||
ProSiteProfiles | 729 | 758 | 30 | 8.755 | ||
Pfam | 731 | 749 | 19 | 0.0011 | ||
SUPERFAMILY | 731 | 829 | 99 | 2.36E-13 | ||
Gene3D | 732 | 782 | 51 | 2.3E-9 | – | |
SMART | 751 | 773 | 23 | 18.0 | ||
ProSiteProfiles | 752 | 781 | 30 | 6.87 | ||
SMART | 776 | 798 | 23 | 0.047 | ||
ProSiteProfiles | 777 | 803 | 27 | 7.071 | ||
Pfam | 778 | 798 | 21 | 0.014 | ||
SMART | 799 | 821 | 23 | 8.4 | ||
ProSiteProfiles | 800 | 829 | 30 | 7.657 | ||
Coils | 823 | 857 | 35 | - | – | |
Coils | 862 | 903 | 42 | - | – | |
Coils | 914 | 997 | 84 | - | – | |
MobiDBLite | 1025 | 1060 | 36 | - | – | |
MobiDBLite | 1026 | 1040 | 15 | - | – | |
MobiDBLite | 1041 | 1059 | 19 | - | – | |
CDD | 1059 | 1444 | 386 | 0.0 | ||
ProSiteProfiles | 1108 | 1421 | 314 | 57.276 | ||
SMART | 1296 | 1403 | 108 | 1.3E-43 | ||
Pfam | 1296 | 1400 | 105 | 2.5E-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 | 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. | ||
Biological process | Actin filament organization | A process that is carried out at the cellular level which results in the assembly, arrangement of constituent parts, or disassembly of cytoskeletal structures comprising actin filaments. Includes processes that control the spatial distribution of actin filaments, such as organizing filaments into meshworks, bundles, or other structures, as by cross-linking. | ||
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 LotjaGi1g1v0783500.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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