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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0078600 |
Transcript ID | LotjaGi3g1v0078600.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin-related family protein; TAIR: AT5G54280.2 myosin 2; Swiss-Prot: sp|F4K0A6|MYO2_ARATH Myosin-2; TrEMBL-Plants: tr|A0A0B2R755|A0A0B2R755_GLYSO Myosin-J heavy chain; Found in the gene: LotjaGi3g1v0078600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:8663778..8675954) extracted from Lotus japonicus Gifu genome v1.2.
TGGAAAGTGGAAGCTACAACAAGCTTCATAATAATTGATCTACAAATCCAGGCCCATTTCAGCAATCTTCCACTTTAATC CTAGTGTCAGACTTTTCCCACGTTTTTTCACTCCCACCCACACAACCCCCACAACCCCCATATAATTTAATTTAATTTAT TTCAAACTTCACAAATCAATTTTACAATATCCAAAAAATCATTTTCATATACTTTGGTAGATTAAAACAACATTATTTAT TTACCCTAAGATATGCAAACGGTTCTCTATGAAGTAAGGAATAATGAAACATTGCTAGGTTGGTTGTCTCATGTCTGTCT TGCCAACTCACCTCACCTGAGAAATTTGAATTTCTGGGCTAAAAACCAAAACACCATCATCACATCACCATAAAAAACCA ACCAAAACTCTTTACACACACACAGTTTTTACCTTTCATTGAGTTTTCAGAAAAACACACACAACAGAAGAAGAAACAGA GCACAAAACAACTAACCAAATTTTCCAATATTGTTGGGTGTTTGGTTTCTGTTATCTTTCTCTTTCTCTCTGTGTTGTTT TTGAGGAGGTTAGTTTCCCTCAACAACCTCAACCTCCTCGCTATTACAACCTCGTATTCTTCGCTTTCAGTAATGGAAAC CCGACATGTTCCTCGATTTGGCAAATGCACTTCTGTAATTCGTTTTCCGAGTTTCTCTTGATTCATTCAAAACAAACCCT AATATCCCAAAAGGGTGTTGAAATCTCGAGCTGGATTGTGAGAATTTGAAGAAATTTTTGAAGAAATCTGAAGAAGATGA TGTTATCACCTTCGCCATCTTCTCTCGCGAGGAGCTCGTTGGAGGAGATGCTTGATTCGATTCGCCGGAGAGATGATGAG GAGAAGCCGAAGGACTTGCCGCCGGCATTGCCGTCGCGGCCGACGTCGAGAGCTCGGCTTCCGCCGGCGAGGAGGACGTT GCCGAAGGGTTTAATGTTGGATGAGAAGGAAGATGCCAAGAAGAAGGGGCATAGCAGGAAAGGTAGTTTTGGGGGAAAGA AGATTAAGTTGGATTTTGAATCTCCTTATGTGGCGGAATCGGAGGAGAAGATTGTTGAAGAAGCGTTGACAGGTCCTGTT TCGACGTCTGCTGATGATTCTGCTGCTGCTTCTGTAGCTCCCCCATCCTTGGAATTGGAGGATGATAACGTTGCTTATTT CATTAAGAAGGTAACTTGAAAGTGTTCATGATTGTTAATGATAGCTTGCTGGTTTATGGATAGATGATGTTACAACTTGT ATTAGATTTGTGGATGAAGTTTTAACAGTGGTTCTTAGTGTTTGAATTACTCAGTTAGTTATGTTTTCAAGTTTAAGTAT GATGCTTTTTTGGTATTTGGATGAGAGCATCTGCTAATGCAAGATGGTGTTAGGAAAAAAAATGTTATTGTGATACTGCC ATGTAGCATGGAGCTCTTTCAGCTGCAACTAAGATAAATTATGCCAACATTAATTCAATTAAATTTCTGGTTGGTTATTA TAGTTTTAATTTTTAAATATATCATACTATCTTGTTCTTTATTAGCTGATACATTGATTGATTCCGAGCTTTTATTTCGT TGATCTTTCATATCAGCACCATTTCTGTTCTTTAGTGGGTCAATATTAGGCATGGATAAGTTGTTTGTAGCATGCATACT TTCTGTCCAATTTTCTTTTTGTTTTCATTGTTACCCGGAGCCTTCCTATTGGTTGATTATGTAAAATTTGATTGAAAGAT ATGAAAGTTCATTTTAACATGTTCTTAAGAAGAATGTTTATTTGCGGTTGTTGTGTAGGAAAGAGTCATATATCAGTGTT ATGTTTTTTTTCCTTTTGTCTATAGTATTAACCATTCGCACAGATTGAAAGTTGAGGCATTTTTAATGGCATGTGCATTT CTTTAAAACTTCCTTTCTGTTTTTGGTTGTTTCCACAGAAGCTTCATGTTTGGTGTAGGCAGCCAAAAGGGAAGTGGGGG CTAGGAACGATACAGTCAACTTCAGGAGAGGAAGCATCTGTTTCACTCTCCAATGGAAATGTAAATTTTTAGCTTTTTGT GTCTTTGAAAGATAGTCATCACTCTTGAATATGCAAGATGACATGTTCCATTGAGTTGCTATTGCAGGTTATGAGAGTGG CCAGAATAGAACTCCTACCAGCTAATCCGGATCTTCTAGAGGGTGTGGATGATCTTATACAGCTCAGTTATTTAAATGAG CCCTCAGTTCTTCACAATCTTCAGTTTAGATATTCTCAAGATATGATTTACGTATGCTTTCTGCTCTGGCTTGTTTTTCC TATTTTAATAGTTACCTATGTACTCTCTTAAGTTGCTTGTGCTTTCTTTTTGCAGAGCAAAGCAGGGCTGATTTTAATTG CACTCAATCCCTTCAAAGATATACCAATTTATGGAGATGATTATATCACAGCTTATAGGCAGAAATCTATCAATAGTCCT CATGTTTATGTTACGGCAGATGCAGCTTATAATGAGATGATGAGAGGTGAATGAAATTTCCCTTTCTTTCTCCTCCTTTG AAATCTTTAGAATTCAGTTGAATGGTGTATTTATGAAGGTTTTCTGTTCACATGCTGTGCAATGCAGATGAAGTAAATCA GTCCATTATCATAAGGTTAGCACTCGTAAATTAGGGGCTCTATTTTCCTGAAATCAATTGCTCTGATTTATTTATTGAAA TAGGAAGATATAGTCACTAGTATACTTGTTAATAATCACTGTTAGAACTTTGTTTACAGCGGCGAGAGTGGCTCTGGGAA AACAGAGACAGCAAAAATTGCTATGCAATACTTAGCTGCTATTGGTGGGGGCAGTTGTGGGATAGAAGATGATATTATTC AGACAAATTTAATACTAGAAGCTTTTGGGAATGCGAAAACATCTAGGAATGACAACTCTAGCAGATTTGTGAGTTCATGT CCCTTTTCATTGTAGTGCAACTTACTCCTGTTGTTGCTCTTTAACTTTTCTATAACTTTGTTGGTTCTCTTTCTCTATCA AATATGTCCACCAAACTCTACAATTTGAATCTTCTGAAAGTTGTGGAGCACTTTGTGGAGGTATCTAATGATTGAGTGGT TTAATTGATATTCGTTTTGATTTATTGCAGGGGAGGCTGATCGAAATTCATTTCAGCATAACGGGGAAAATTTGTGGGGC TAAACTTCAAACCTGTAAGCATGTTCAAGTTACATATGCTACATACAATTGTTCTTTTGAGACATCCTTTTCTTTTTTAG CAATTTACTGACTTGACTCATTCTTATGGCTTTGTGTCTCTGATATGCAAATTCCCATCTGCCAACTTAAACAGTTCTAT TAGAAAAGGTAATATGTGGCTCCTATTTGAACAAAAGTGTGGAACTGAAATATTTATCTTTCTTCTCATATTCTCGTGTT TCCTGTTGGCAGTCAAGAGTTGTTCAACTGGCTTGTGGCGAGAGGTCGTATCACATATTTTATCAACTTTGTGCTGGATC TTCACCTGATCTGAAAGGTGTATTTCTATGCAATCTATCAACTAGTTTGCATTCTTTTATACTTCTGTGTCATATTTGAG ATCTCAATGACCATCCTTAAGATAATCAATTTAAAAATGATTGCTGAGTTTGGTCTTCGAAGTATCATTATCCTCTTCTG TTTAATTTTATTTACGAATTTTTCATTAACAGATACTTTATTTTAAATGGAAATTCATTGATACCAATTTCTGCAGGCAA TGCCATAAATTACCTTTTTCTGGATTGTGATTCTTTAATCAGCTTAATTGGGCTTGTAGATATATTCTCATTCAAAATCA TTTTTTCTTTTCTTGTGCAGATAAACTGAATCTAAGAGGGGCCAATGAATATAAATATCTTAATCAGAGTGACTGCATGA CAATTGATGGTGTTGATGATGCAAAAAAATTTCATAGGCTGATGGTATATTATTTGACAGTTCATTTGTTAAAGTATAGC TTCTTTAATTATCTTTATGGCCTACTAAAATCTCATGTCTTTTCCCCCCTCTTTTTGGCATCTGTGTTTTTACCCAGAAA GCATTGGATGCTGTTCAAATGTGCAAAGAGGATCAAGAGCTTGTCTTTAAGATGCTTACTGCAATACTGTGGCTCGGAAA TATATCATTCCAAGTTACGGATAATGAAAATCACATTGAAGTGGTTAATGATGAAGGTAAGATTCATAATTTATGGATAA TGCCTTTTAATGGGCTGCTTGCGCCTTGTCATATTTTGTGTTTGCTAATTCAGTGACACTGAATACTTAAAGCTATCTGA GATGACTCTATCATGTTTTGTGTTTGCTAATTCAGTGGTATTGAATACTTAAAGCTATCTGAGATGACCCTATCATGTTT TGTGTTTGCTAATTCAGTGGTATTGAATACTTAAAGCTAGCTGAGAGTCACTCGTATTTTTATTTCAATGCCATACTGTG CAGAAAGAAATATATTTGATTTGAACTTTGTAGGACTAGGTTGTCCAATGACTCATACTGACTGTGGCTAATATAGTAAC CTAGAGGGTATACATAAAAATTTCTGCTCCTCCTTAAAAGTGACTTTTATTCGGTGTTTCTTTTGGCAGCTGTAACCAGT GCTGCTTTGCTGATGGGTTGCAGTTCCCAGGAGTTAATGACAGCATTATCTACCCATAAAATCCAAGCTGGCAAGGACAC TATTACCAAAACCTTGACGTTGCGGCAGGTCTGTTTATTACTTGAACAATTTAATTGTTCTAGTATTCTACAGCCTCTAA TTATATATTATACTATCATATCCAATTTTTTATTCTATGTTCAGGCAATTGATGCAAGAGATGCATTAGCAAAATTTATC TATGCAAGTTTGTTTGACTGGCTTGTAGAGCAAGTTAACAAGTCACTTGAAGTGGGTAAACGACGAACTGGGAGATCCAT ATCTATCCTTGATATTTATGGGTTTGAATCATTCCAGGTATTCAATTTCTATTAATGTTATTTGATGCTTCATAGTTCAT AGACTATTTGAATATGTTCTGATTATTTCTTGTTTTTCTTTTCTAGAAAAACAGCTTTGAACAGTTTTGTATAAATTATG CCAATGAAAGGCTTCAACAACATTTCAATCGGCATCTGTTCAAACTTGAGCAGGAGGTCAGCAGCTATGTTAATCTTGAA TTTGGATGAAAAATCATAAATATGGGATATGATTCAGGAAATTTATTAATTATTACTGCATTGAAGTTTAAAGTTGCTGG GTAATTTGATGCTTTGTAACTTAATTTAAATGGTGTTATACGAATTCCAAAATATAGTGTCGATGCATTTAAAAAGTTTT ACTACTGTTATTATCTTTTAGATATGTGCAGTATAAGTCAAGACTTCCTAAGTTTTTTGGCCACTATACAACATGGTTAA TTATAATTAATTTATCAAACTAATTATCGGTCAAGACTTTCTAAGTCATAATACATAGTAATCCTGACATACCTATATCA ATCAGTGTATTGTTTACTTCTGTAAATTGTCTATCCCACTTAGTGATGTCTTAGTGCTTTGAATGATTGTGAACCATATA ATATTTTGTCATCTAAGGCCTAATTTGTGTGTGTATGAGGGAGAAAAAAGATAGAGAGAAGAGGGGAAAACTTTACTTAT AAAGTGCATAAATGGGAATTTGTTTAAAACAAGCATAGTTACAACAAAATGAGCAGGTGGCAATAATATCACATGCTAAG CATCTTTTCTTGAAAAGGCTTTCTGGATTGGTGTGCATGACATCAAGATTACAATTTACATATCTTGTTTCAGGACTATG AATTAGATGGTGTTGATTGGACCAAGGTAGATTTTGAGGACAATCAAGAATGTTTAGATCTCATTGAGAAGGTATTTACA TGGTTTAATCTTTTAAAAATTTTGTGAGTTATTTCTCTTATGCTGAGCTGGAAACTGGGGCCGTTGTTTTGGCATTTGTT TATCCTTCGTTTCTGGACAATATGCTTTTTGACTAAACATATTATTTTAAAAAATTATTATGCTGAGAACCTGATGTTGA AGCTCACATTATTCTTTGTGTCTAGCATACTCATCTGTACTCTGTTGTAAAATAAGCAGAAGCCTCTGGGGCTACTCTCT TTGTTGGATGAGGAATCAAAGTTCCCCAGAGCCACTGATCTATCATTTGCCAACAAACTTAGGCAGCACCTGCACGCTAA ACCTTGCTTTAAAGGGGAAAGAGGCAGGACTTTCAGTGTTTGCCATTATGCAGGGGAGGTTAGTGACTGCTCAATGTTAT AGGAGCTTTTGCAGTTAGTCACTCTAATCTATTTGTTTGCTGTTATTGAAGTCAAATTCATCCCTTCAATTTGTTTCTAT AATTCTTCTTGGTTCTATTTTTCAAAGTTTAATTAATTATTTCTATTACTTAGTTTTAGTTGTGTTCATATTCAAAATGT TGCGTATAGAGTATTATAATATTATGCATATTCCTGCTTCGTGTTGATATTGTAAAGTAGTAGAAGTAAGGTACTGATAT CTGATAATTTAAATCTGTTATAATAATATCATCATATACAGAATATGTTTTGTAAAGGCACAAGTATCGTAATGTGATTA TTTAGTTGTTTTTAAATGTAAAGCTTAACTGCACTTTTGATCGGAATTAGTTGTTTCAGGACTATGTGATAGTATCTTTT TTTCTTTTCTACTAACTAAATTTGCTGATTTAATATTATTCTTTACTTGCAATAGTGTTTTCACTTACAACCTACAGACA TTATAAAATATCATTCTGATGTTAAACACACAACTTTGCTTCTTGAAAAAAGTTTTTGCTGGAGTTTTTTCCCCTAGGTA TCTTTGAGAATTTCCCGCTTCCTCTAGACCTTAGCTATATCTGTATATGTAGAATGCATACAATGGAAGTCAATTTTGCA TTTGTGTTTCTGACTATTCTAATTTCTGTTCCTCAATCAGGTTTTGTATGATACAAGCGGCTTTCTAGAAAAGAACAGAG ATCCACTGCCTTCTGAGTCTATTCAACTACTGTCATCATGTAGTTGTAAACTACTTCAGTTGTTCTCGGAGATGCTTAAC CAGTCTGATAAGCAATCAAATTCCCAGCACGTAGGGGCTCTGGACTCGCAAAGGCTGAGCGTTGGCACAAAGTTCAAGGT GTTTTCTTGTAACATTTACTTGAGTTTGTTCTACATATTTAATATTTGGAAAGAAATGATTATGATATCATTGATTGGTG GGTGGTGAGCTCCAAAAAAACAGTGATTTGATTTACAGGGATTTTAATAGTACACTGAGAAATATGCAGAAAGCTGTAAT TTGAGGGGAAATAGGCCTAACAACTCTCTTTCTATTAGGGCCAATTATTCAAGTTGATGCATCAGTTGGAGAGCACCACA CCTCACTTTATTCGGTGTATAAAGCCAAATACTAAGCAACTTCCTGGCGTATATGATGAAGATCTTGTCCTACAACAACT CAAGTGTTGTGGAGTTTTGGAAGTTGTTAGGATTTCAAGGGCTGGATATCCTACTCGAATGACACATCAAGAGTTTGCCA GAAGGTAGTGTAGAAACCATATATACTTTTATATTAACTTAAGATACAGGCTGATTTATATTGCTGCATATATTTTAGGT ATGGGTTTCTACTTTCTGAGGCCAATGCAGCTCAAGATCCACTGAGCATCTCAGTTGCTGTTTTGCAACAATTTAATATC CCTCCTGAGATGTACCAAGTTGGCTTCACCAAACTGTATCTTCGAACAGGGCAGGTATGTCTGAGTAGTTTCATGTTTTC ACTTCTCAAAACTGCATTTTGGCATGTATATAAAATACTTATTGAGGTTAAAATGCTAAGAACAATTATAGTATTTGGAG CTGGGCCATGGTTAGGTGGCAACTGAGTTCATCGATCCTTGATCCATCCATATCTGAATCCAATCCTAATCCTATACATC CAATTATATCAAATCATCGATAGATTTAATGGATTGGATTAGTTTTAATTAGTCTCTGGTCCATGAACCAACAAAAGTAT TTGTTGGATAGCTAGATGTTATTATAGAGTGAAATGCATTTGGACATAGGAGTCTAGATGCGTTTAACCAAGAAAAAAAG GTGGAGAATGAAATATATTTGTATAAAGGAGTCTTCTAGATGTATCTATTTAAGAAACCGTACTTAATTCATAAGATTTA TTGATAGATAAATGGAGTGAGAGGGGGGGAGAGGAGAGTTAGTTTTTTTCTATTCAACACAATTTGTGTTTAGATAGATT AGTTTGGATATTCATATAACCCATCCATGAAAGGAATTAATATATGAATTGGATGTCCAAACATTAAAATGATTCCTGGA TGATTTGGGTGGGGTTTAGCAGTTTTTAATGGATTCTAATTGAATTCATGGCTTATGGTTTGATTTATCCATTCATTACA ATCCAATCCATTCATTGTCCACCCTAGTCATGGTTGACTTTTTTGGAGTTCCAAGTGTGAATAAAGAAGCCTCGCATTAG GTGGAAATAGATATGTTGAGCAACATATAAGTGGGGGACCTCTACACCTAATACCTCAAGGTTTTGGGTGTAAGATATGG TGTTGAATCCACTAATGTGATTTGCTCTTAACCTAATTGTGGAGATCTAGAGTTTTAGGCCCCTCATGACCCAACAGTGG TTTTAGAGCTGACGGTGTAACTTTGGTTACTGGTTCCTTGAATCAAAAGTCTTCCTAGAGACCTAGAGGACAGACGACAT GCCCATTGATGTGATGAGAACCGATGGCGGTCCAATTTGTTTGTTTGGAAAAAAAAATTATACATTGACTTTAAAAGTCT TGTTTCAGCTACATTTTATGTTAAATTTTTAATTCATACAGTTGTTATGTGATGTGATTATTCTTGTGCTTTGGTTGATT TTATAGGTTGGTGCACTGGAGGATAGGAGAAAAAAAGTTCTGCGAGGAGTACTTGGGGCTCAAAAATGCATTCGTTGTCA TCAAGCTCGCCGTTATTACCATGAGCTTAAGAGTGGAGCGACAACTTTACAATCATGTAATGCCTTCCTATTAATATTAG TTTTGTTTGGAACAAAAGTCTCAACTTGGTCAAGGGTTTATAAACGTTTTCTTTTTCTTTTTTTTCAGACTTTTCAAAAT GTTATTCATAAAAACATAATCAATATTAAACTAAAAGAAACCTTTGGTGCTTGTTGCTTCTACGTTTTAAAATCAAAATC TAAGGACCTCATTGACATACATTTAGTTAAGAACTTTATACACCTAAACTTAAGGCTCAAATAAGTCAAATTCTTATTGC AATTGTTCTTAACCTTGGTTATCGTTTGTATATATATCTTAAGTGTGAACTTGATTCTATTGTAGTTGTTCGCGGAGAAA TGGCAAGAAGGAAATATGGTGTTATGGTGAAATCTTCTCTTACTATTTCTTCTGAAACAATGGAGGAGAGACAGGCAATC GTAGCACTACAATCTGGTTAGTATGTTTATGTGAATCTGTGATATTCAAGTTAACCCTTGGGAGGGGTATGATTTGCTTA TTATCCATTTCCTTTTTTTGTAGCAATACGTGGGTGGCTGGTTCGTAAGCATACTGGTAGCTTGAATAGGTTCAAGAAAT ATCCTGGAAATCCAAAACCTAGACGAAAGTCACGAACGAAGATGCCGGAAGTGGAGGTACTTACTATCCATGTATTCAAA TTAGAAAAACACAATAAGTTCCACTCTTATTCCTCATTTTTAATTTAGATAATTCATTGATTTGGTTCTTTTTCGATTTT CTTATACATGTAAATAATATTTTCCCCTTATTTCTTATTCCAACTAAAAATGGACTTTCTAAAATCATGTTTTTCAGTTC ATTTTCAACCTTTGTCCGGTATGATGATTTTTGTTTTTAATTTTTCAAGAATGAAGGATGCCTATATTTGGCAGTTCATT AAGTGCAAATAAATTCTCTGATTAGAAGTGGGAGATATATTTAAGTTTTGCTCCACACACTCATTCTGTTGTTATCAAAT GTTTCTTGAAGTTCGCATATTAAATTCATTAATCTGGAGTATAACACTAATTTGTTCATTATGTTGTAAAGTATAGATCA AAATGCTTATGCACTAGTAATTGAATGATTTAATTGGTAGTAATCAAAGATGTTAGTTGTCCCTTACGCGAGATCAACAT CTCACAAGCACTTTCTTTTTACTTAATTCTTGCGGTTATATCTTAAACATTATGCTAGCACTAGCAGAGCATTTCCAAGT ACTTATGTGCATGAATGTGTTGTGAAAAACTTCAAGTCTGTCTCCTCCTTAAGGATATTGTATTCCCTTCATTCAATTCA TATATTTCTCTATTTACCCTTTGAATGAGCTTTACTCATGAATCTATAGTGCTGAATTTCATGTTGTTTGTGAAATTCTG GACTGCTCAATATGATAAATCTCTTATTTGTTTTTGGGTTTAGCAGGAAGCATCCAAAGAGCATGCCCATAATCTGCCTT CAGCCTTGGAAGAGCTCCAAAGACGGGTTGTCAAGGCTGAAGCAACTATACAGCAAAAGGAACAGGAAAGTACAGAATTG AGAGAACGGTTAAAACAATTTGAGAAAAGGTGGATTGAATATGAGACAAAGATGAAAACAATGGAGGAGATGTGGCAAAA ACAGATGGCATCTTTGCAAGTAAGTTTTTTGCTTGAATATTTCTCAGTTTTTAATGTGCTCTTCAATGTTACTGTAATGG ATGAAGTTAATTGGTCTGATCAAATCAAACATTTATTCAGCTCATTTCATGGTGCTCTCCTTGAACAAATGCCATTTCCC TTACCCCCTATGACCAAGTAAATGCAGTTTTATAGTCACTTGTGTTGGTCTTCAATGAAGAATTAGCAGAACTGTTATGT TATTGAGATGGATTTTGCTTTGCATTCATTATTGGCTCATTGCTGATAAAAAAATACTAATATTTAGAATGTAATTTGTT AAATTTATTCAACAGTTGGTTTTCTTATATACCCTGAGTTTGTTGCAACCTTATTACTTAATGAGTCCTATGCATAGTTG GGTTTGAACCTAGAAATTCTATGAAAATATTGATTGCAATTTCTTTGCAGATGAGTCTTGCTGCTGCTAGAACCAGCCTT GCCTCAGAAATTGCCACTGGTCAGCAAGTGAGACATGATGTTGCATCACATTTCTGCTATGATTCTGAAGATGCGACTTC AATGGGATCTCGAACACCTCGAACGCCTGGTAGAACTCCAGGTAGAACGCCTGGTAACAGCACACCTTTGAAGTATTCTA GTAGCCTTTCTGAAGCTGGATTAGGGAGAGATGCTAACGGTGCTACGGCTGTAGTCAACAATCTAATGAAGGAATTTGAG CAGCGTAGACAGACCTTTGATGGTGATGTCAAGTCTTTGACTGACGGTAGAATTGAGCAATCTGCTTGCTCGAATTCCAT TGAAGAACTTAGGAAACTCAAACATAGATTTGAGGGGTGGAAGAAAGAATACAAGGTTAGATTAAGGGAGGCAAAAGCAA GACTTTATAAATCAGGGAACTCAGATATGGATAAAAGTCGGCGAAAATGGTGGGGAAAGTTTAATAGATAACATTCCGTT TGCAAATGTTCTCTTTGCCAAAAGTCTATACAAGTTCACAATGATTGTTGTCATAAACTGTCCCTTTCAGGAGTTGCTTC TTCTGTATCTTGTGGGAATGTTTGATTAGTGTTAATTTTGTACTAGTTGATGAAGGGAAAAATATTGTATATCTACCAAT TTTGTGACATGGGGGTGAGTTGTTTGTATAGTTGTAGTCTTCTAGTTCTAGGGTTGCATAGTTGTAATAGCAGTATAGTT TTCTCTTGTATATTCTGTAAAACCTAGCCCCAAGAGTATAAATAGACAGTGTTGATGTCTTCAAAATGAAAGGAAAAGAA TTTCATATCTCGCTTTTGGTTAAATAGTTAGAAGCTCAATTAATGTGGAGGTTCATTTCCCAGGAGATCAGTACTGTTAT TTGTTGGGCTTAGATGTTCATTTTCGTGTTTGTAATTGATTTTTATATTTATGCAATCAAGAATCAAATGATTTGTTTTA TTTTTTTGTCAAAGCAC
CDS sequence (LotjaGi3g1v0078600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGACAATTGATGGTGTTGATGATGCAAAAAAATTTCATAGGCTGATGAAAGCATTGGATGCTGTTCAAATGTGCAAAGA GGATCAAGAGCTTGTCTTTAAGATGCTTACTGCAATACTGTGGCTCGGAAATATATCATTCCAAGTTACGGATAATGAAA ATCACATTGAAGTGGTTAATGATGAAGCTGTAACCAGTGCTGCTTTGCTGATGGGTTGCAGTTCCCAGGAGTTAATGACA GCATTATCTACCCATAAAATCCAAGCTGGCAAGGACACTATTACCAAAACCTTGACGTTGCGGCAGGCAATTGATGCAAG AGATGCATTAGCAAAATTTATCTATGCAAGTTTGTTTGACTGGCTTGTAGAGCAAGTTAACAAGTCACTTGAAGTGGGTA AACGACGAACTGGGAGATCCATATCTATCCTTGATATTTATGGGTTTGAATCATTCCAGAAAAACAGCTTTGAACAGTTT TGTATAAATTATGCCAATGAAAGGCTTCAACAACATTTCAATCGGCATCTGTTCAAACTTGAGCAGGAGGACTATGAATT AGATGGTGTTGATTGGACCAAGGTAGATTTTGAGGACAATCAAGAATGTTTAGATCTCATTGAGAAGAAGCCTCTGGGGC TACTCTCTTTGTTGGATGAGGAATCAAAGTTCCCCAGAGCCACTGATCTATCATTTGCCAACAAACTTAGGCAGCACCTG CACGCTAAACCTTGCTTTAAAGGGGAAAGAGGCAGGACTTTCAGTGTTTGCCATTATGCAGGGGAGGTTTTGTATGATAC AAGCGGCTTTCTAGAAAAGAACAGAGATCCACTGCCTTCTGAGTCTATTCAACTACTGTCATCATGTAGTTGTAAACTAC TTCAGTTGTTCTCGGAGATGCTTAACCAGTCTGATAAGCAATCAAATTCCCAGCACGTAGGGGCTCTGGACTCGCAAAGG CTGAGCGTTGGCACAAAGTTCAAGGGCCAATTATTCAAGTTGATGCATCAGTTGGAGAGCACCACACCTCACTTTATTCG GTGTATAAAGCCAAATACTAAGCAACTTCCTGGCGTATATGATGAAGATCTTGTCCTACAACAACTCAAGTGTTGTGGAG TTTTGGAAGTTGTTAGGATTTCAAGGGCTGGATATCCTACTCGAATGACACATCAAGAGTTTGCCAGAAGGTATGGGTTT CTACTTTCTGAGGCCAATGCAGCTCAAGATCCACTGAGCATCTCAGTTGCTGTTTTGCAACAATTTAATATCCCTCCTGA GATGTACCAAGTTGGCTTCACCAAACTGTATCTTCGAACAGGGCAGGTTGGTGCACTGGAGGATAGGAGAAAAAAAGTTC TGCGAGGAGTACTTGGGGCTCAAAAATGCATTCGTTGTCATCAAGCTCGCCGTTATTACCATGAGCTTAAGAGTGGAGCG ACAACTTTACAATCATTTGTTCGCGGAGAAATGGCAAGAAGGAAATATGGTGTTATGGTGAAATCTTCTCTTACTATTTC TTCTGAAACAATGGAGGAGAGACAGGCAATCGTAGCACTACAATCTGCAATACGTGGGTGGCTGGTTCGTAAGCATACTG GTAGCTTGAATAGGTTCAAGAAATATCCTGGAAATCCAAAACCTAGACGAAAGTCACGAACGAAGATGCCGGAAGTGGAG GAAGCATCCAAAGAGCATGCCCATAATCTGCCTTCAGCCTTGGAAGAGCTCCAAAGACGGGTTGTCAAGGCTGAAGCAAC TATACAGCAAAAGGAACAGGAAAGTACAGAATTGAGAGAACGGTTAAAACAATTTGAGAAAAGGTGGATTGAATATGAGA CAAAGATGAAAACAATGGAGGAGATGTGGCAAAAACAGATGGCATCTTTGCAAATGAGTCTTGCTGCTGCTAGAACCAGC CTTGCCTCAGAAATTGCCACTGGTCAGCAAGTGAGACATGATGTTGCATCACATTTCTGCTATGATTCTGAAGATGCGAC TTCAATGGGATCTCGAACACCTCGAACGCCTGGTAGAACTCCAGGTAGAACGCCTGGTAACAGCACACCTTTGAAGTATT CTAGTAGCCTTTCTGAAGCTGGATTAGGGAGAGATGCTAACGGTGCTACGGCTGTAGTCAACAATCTAATGAAGGAATTT GAGCAGCGTAGACAGACCTTTGATGGTGATGTCAAGTCTTTGACTGACGGTAGAATTGAGCAATCTGCTTGCTCGAATTC CATTGAAGAACTTAGGAAACTCAAACATAGATTTGAGGGGTGGAAGAAAGAATACAAGGTTAGATTAAGGGAGGCAAAAG CAAGACTTTATAAATCAGGGAACTCAGATATGGATAAAAGTCGGCGAAAATGGTGGGGAAAGTTTAATAGATAA
Protein sequence (LotjaGi3g1v0078600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MTIDGVDDAKKFHRLMKALDAVQMCKEDQELVFKMLTAILWLGNISFQVTDNENHIEVVNDEAVTSAALLMGCSSQELMT ALSTHKIQAGKDTITKTLTLRQAIDARDALAKFIYASLFDWLVEQVNKSLEVGKRRTGRSISILDIYGFESFQKNSFEQF CINYANERLQQHFNRHLFKLEQEDYELDGVDWTKVDFEDNQECLDLIEKKPLGLLSLLDEESKFPRATDLSFANKLRQHL HAKPCFKGERGRTFSVCHYAGEVLYDTSGFLEKNRDPLPSESIQLLSSCSCKLLQLFSEMLNQSDKQSNSQHVGALDSQR LSVGTKFKGQLFKLMHQLESTTPHFIRCIKPNTKQLPGVYDEDLVLQQLKCCGVLEVVRISRAGYPTRMTHQEFARRYGF LLSEANAAQDPLSISVAVLQQFNIPPEMYQVGFTKLYLRTGQVGALEDRRKKVLRGVLGAQKCIRCHQARRYYHELKSGA TTLQSFVRGEMARRKYGVMVKSSLTISSETMEERQAIVALQSAIRGWLVRKHTGSLNRFKKYPGNPKPRRKSRTKMPEVE EASKEHAHNLPSALEELQRRVVKAEATIQQKEQESTELRERLKQFEKRWIEYETKMKTMEEMWQKQMASLQMSLAAARTS LASEIATGQQVRHDVASHFCYDSEDATSMGSRTPRTPGRTPGRTPGNSTPLKYSSSLSEAGLGRDANGATAVVNNLMKEF EQRRQTFDGDVKSLTDGRIEQSACSNSIEELRKLKHRFEGWKKEYKVRLREAKARLYKSGNSDMDKSRRKWWGKFNR
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 | 796 | 796 | 0.0 | – | |
ProSiteProfiles | 1 | 451 | 451 | 166.368 | ||
SMART | 1 | 452 | 452 | 1.3E-129 | ||
PANTHER | 1 | 796 | 796 | 0.0 | – | |
SUPERFAMILY | 2 | 500 | 499 | 4.4E-162 | ||
Pfam | 2 | 439 | 438 | 4.9E-145 | ||
Gene3D | 25 | 148 | 124 | 4.1E-35 | – | |
PRINTS | 140 | 168 | 29 | 1.4E-19 | ||
Gene3D | 149 | 302 | 154 | 2.4E-57 | – | |
PRINTS | 193 | 221 | 29 | 1.4E-19 | ||
Gene3D | 306 | 384 | 79 | 9.0E-14 | ||
Gene3D | 385 | 452 | 68 | 1.8E-16 | – | |
SMART | 452 | 474 | 23 | 1.3 | ||
Gene3D | 455 | 503 | 49 | 2.1E-9 | – | |
SMART | 475 | 497 | 23 | 0.027 | ||
ProSiteProfiles | 476 | 505 | 30 | 8.444 | ||
Pfam | 479 | 496 | 18 | 0.0037 | ||
SMART | 512 | 534 | 23 | 0.016 | ||
ProSiteProfiles | 513 | 541 | 29 | 8.517 | ||
Pfam | 514 | 532 | 19 | 3.8E-4 | ||
MobiDBLite | 538 | 566 | 29 | - | – | |
MobiDBLite | 551 | 566 | 16 | - | – | |
Coils | 574 | 608 | 35 | - | – | |
MobiDBLite | 664 | 702 | 39 | - | – | |
MobiDBLite | 664 | 696 | 33 | - | – |
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 LotjaGi3g1v0078600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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