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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0210600 |
Transcript ID | LotjaGi5g1v0210600.1 |
Related isoforms 2 | |
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|I1NIS2|I1NIS2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0210600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:51460873..51475499) extracted from Lotus japonicus Gifu genome v1.2.
CCGAAGTTGAAGCTGAGAGTGAAGAATGTCACTTCATGAAGCCACTGGATTTCCATCTTCATCCACATTCACTTCTTTCT TCCTCTCTTCCCTTCTCTCTCTCTCTTTTCAATCTCAATTTCTCCCCCAAAAAAGAAAAATGGCGTTTCCCTTTCCAATT CACGGTTTATCACATTCTTAATGCGTTTCATACACACCTAACTGATTTCATTGCCTTTATGATCGCACTCCACTCCTCTC AAACCTTCAATTTCAGACCTCACTAATGGTACGTTCGCTAATTTCTTTTCTGCATTTTGGTTTCGCCTATTTTCAATTAT GTGAACAATCAACAGTGTAATGTAATGGAACTATGAATTATCTGCTCAAGAAGAAGGTGTTAGGGGATCGACCTGTTTAC GAGTAATTAGAATTTGAAATCTAGTGGTTTTTCTTTGAAATGCAGCAGCTGTTTAATTAATATAGTGATCATCCATATTT CATCATGAATGCACCTCATTTGAGTGTTTAGAATTTCTCAAGAGTAGGGGGAGAGCGGTTGGAACGCGCTGGTAAAATCT AAAAGAAGATTATAACTTCTGGAGATGTTGCATTGAGATCAAAATGTGTAACACAGGTAGCAGTGCCAGAGGGTTTGGAG AATAAAAATAAGTATGATATCTTTTCATATAGCTGCTGCTAACTTGTGATTAAACCAACTTTTCGGATGTGCGGTATCTA GTTAGTTTTGGGGCTACTAGTCATAAGAATTCTGATAAAAGGTTCTGATATATCATATTTGGAAGTTAGAATAGCTGGTC CTGTCTAACTATGAGGAGATACAAGATGAATTTTATTTTAATTGGTAGTTAGTATCACAGGTACTGTATAACTATAAGGA AGAAGATACAAAGCAGAATCTAGTTGGAATTTATAGATCTTTAATGAGTCATGACACCAATCGTGCAACAAGCATGAGCT TTTTGATAGCTTTTCTTGCTGACAAGATAGTATAAAAATACGCATTTTGAACCTTAATTAGATCTTTACATAAATTGTAC TAAAAAATGATGACTCCATATCTCCATCTGCAGGGAACTCCAGTGAATATTAATGTGGGTTCGCATGTCTGGGCCGAAGA CCCTGAGGTATGTTGGATCGATGGACAGGTGTCAAAAATCAATGGAAATGATGCTGAAATTGAAACTACCGATGGAAAAA AGGTTTGTAGACTGCCAGTAACTTGGTTTCTTATGTTATAGTATTTGGGTTTTGTTTTTCCACTTTTGTACCCAATTTAT TTTGAGAAGCTGCCAATTTCGGTCATTCATAGGCTACACCCTATCCACACTTGCATTCTGGAATCAATCCATATTGTATT GGATAGCTAAACATTTGACATAGGCTTATTGTATGATGACAGTTACTACAAAAGGAAGATAAAATAATTTTGAGGGGAAT GATTTACCTCTCTTTTATGAGTGACGAATTGCATAATTATTTGCCCCCCTTGAAAATAATGTTTTTTTGCGATGTAAATT TGTTCTAAACTAAACTTAATTTGGGTTCCCTCAAGGACAGTAATTATAGTATTGTGTCCCTCTTTTATTCTAGCTCCACC CGTGGTCTCCTTTATCATCGCCCTAGGTTTATACTTAGCAAATGCCTCCATGGTGATCAGCTAAAAAACCACAAGCAATG CAAGTCATCAGTATCTGAGCTTAAAGTTGATCACAGAAAGAGTAAAGAAGGGTAAAAAGTAGCAAAGGAATAGATCCATA AAGAATCATTATTTTTTCATCACTGACCTTCCCAGATTAGAATTCAAATCACCTTAATGATCTATGGAAAAATTATTTAA CTATGTTGAATTGAAGGCCTAAAGGACTATTGTCAAAGTTATTTGAGTCCCGAACAAATTTATCTGTCCGTGTCTGTGAG TGGTATTCTTGCTTTTCCTTTACTAGTTAAACTCTCTAGTAAGAAAAGAATTATTACTTCTCAACTTCTAGAAGTATTTT TCTGCATTCCTTAGTGCTGTACTAGTTCTTTCTCATGCTTGTATTACTAATTAGAAAAGGGGAAAGTTATTCCAGTAACT TATCAAGCCAAAGATTTAATGAGAAACAATGTAAAAGAGACCGAAGAACTAATCTGAAATACTCAATGAGGTAGTTGAGG AGTAGTTTATAATAGATGAGCTAGTACAATGGAAATGTGATAGCTTGTCACACTCACAACTAACTAACAAACCAAATTAA CTATTGACTGGTTACATAAATTCAACCGAGTGCTAAGTACACTCTAATAAGATTACATCTAAATAATTACCTGTGATTTG TTTTGGCTATTTCAAGGTTGTCGCAAATTTATCAAAAATATATCCTAAGGATATGGAAGCTCCTCCTGGCGGAGTGGATG ATATGACTAAACTGTCCTATTTGCATGAGCCTGGAGTCCTGCAGAACTTAAGAATTAGATATGAATTGAATGAAATATAT GTAAGACTTTCTTCCCTTTAATGTGATAAGATCCATTGAAGTTTCTCAGTGAAAAAGTTGTTACTTACGCTCTTAATTTC TCTGGCAGACTTATACTGGAAATATTCTGATTGCAATAAATCCATTCCAAAGGCTCCCTCATATTTATGGTGCACACATG ATGCAACAATACAAGGGAGCACCATTTGGAGAATTAAACCCCCATGTATTTGCAATTGCTGATGTTGCATTTAGGTAATC ATGAATTTCTTCTTATGATCCAAGTTTCATTTCTATCATTAAAGAAAATATTAAATGGATGGTTTTATCAATATCAGGGC AATGGTTAATGAAGGAAAAAGCAATTCAATTCTGGTCAGTGGGGAAAGTGGAGCTGGTAAAACTGAAACTACAAAGATGC TTATGCAATACCTTGCTTTCCTTGGTGGTAGGGCTGGTACTGAAGGTCGAACAGTTGAACAACAAGTTCTTGAAGTATGA TTCAATTAATGATACTCATTTTTGAGTTCTTAAAAAATTTCCATTCTCATTTTATGCTTTGAAGACTTCCCATTTTCTTT TACTTTAATATGTGCTCTGTCGAAACTTCTATATTAACTGACTTGAGTGCAGTCAAATCCAGTTCTGGAAGCATTTGGCA ATGCTAAAACTGTCAGGAATAACAATTCTAGGTGAGTCTTTCTTATATGCAGGCAATAAAGGATTCCACAGGTTTAATTC TCCATAGTTGGCTGATATACAAATTAACTTTTTTGTCAGTCTTTCTGACATATGGGCAATAAAGATTCCTTGTGTTTCAT TCTCCCTGATAGGATTATAAATTAACTTTATCTTGTTTATTTTACTCATTTCATTCTCTTAACACACTTGTCATATTGTC TAAGCCCTAATGTCATTTCGATATTAAGGGCTGTTAAAATGATGACATTTTTATAAAAAAAAATCCACAAAAAGGAAATA TTATTTTTCTTATCTGCGTAACACTTGAAGAAGCTATTACCAAAGACTTGGTTTCAAATTCTCCTAGTGTTAATGGTGCA GTCGTTTCGGTAAATTCGTTGAGATCCAATTTGATAAGAGTGGAAGGATCTCAGGAGCAGCTATCCGAACATACCTTCTA GAGAGATCTCGGGTTTGCCAAGTTAACGATCCTGAACGGAACTACCATTGCTTTTATCTCCTTTGTGCTGCACCACAGGA GGTGGATTTCTGTCTACAATCTATCTATTATTGATTCTAAGTTATATAAACTCATTAAAATTCTGCTAACAGGAAGTTGA GAAATATAAATTAGGAAATCCTAGAACATTTCACTACCTTAACCAGTCAAAATGCTTTGAACTGGCTGATGTGAGCGATG CTCGTGAGTATCTTGCTACTCGGAGAGCTATGGATATTGTTGGAATCAGTCAAACTCATCAGGTATTTCTTTCACAAGTT TGAATTTAGCTTCTTGCTATAATGTAAAATGATTGCTTTTTACCTTTCTGCTTTCGTTGGCCGTCTTTTTCTCAGGAAGC CATTTTCAGAGTTGTTGCTGCAATTCTTCATCTTGGTAATATTGAGTTTACCAAAGGAAAAGAAGTTGACTCATCCATTC CAAAAGATGACAAAGCCAAATTCCACCTGAAAACTACTGCTGAGCTTCTCATGTATGTATTCTGTTATGTTATTACTTCT GCGTATATGATTTTCAATTTCCTTTTAAGATGATTGTCAATATGGATCAGGTGTGATGTTGTTGCCTTGGAAGATGCATT ATGTAAGCGTGTCATGGTCACCCCTGAAGAAGTTATAAAAAGGAGCCTTGACCCACAAAGTGCAGCGATCAGCAGAGATG GATTGGCAAAAACAATTTATTCTCGGCTATTCGACTGGTAAGAATTTGATTTCTGACTATTTAAGAAAGTGAGGCTAGAT AGAGCCACAGTTTTCCCAAAACAACTTTCTGGACTTCAATCATGGGATCTTTTGATCTTTGACATTCAGACCTTTATAAT GTCTAATTGGTACCAAAAAATTATGAAGATAAGGATACATGGTTCTGGTTTTGATTCCCGGTGCATTTACGTATTTGATA ACAGGTTGGTGGACACGCTTAATAATTCAATCGGACAAGACCCGAATTCTAAATATTTGATTGGGGTTCTTGATATCTAC GGTTTTGAAAGCTTTAAAACTAACAGGTAATATATAATTTAGAAGAATAAACATCTTTATCTGTATAAGCATGTCCACAT GCTTCTTTTTAAATTTAAATCTTTTGTAACTTATTTTCAGTTTGTCACGCTCTGCAGTTTTGAGCAGTTTTGCATTAATT TCACAAATGAGAAGTTGCAGCAACATTTCAATCAGGTAAAGTCTCAGATCATATTTTGCACTTCATGTTTGCTCTTTTAT TTCCATGTTTAATATGGTATTAATGATGAATTTCAGCACGTGTTTAAAATGGAACAAGAAGAATATACAAAGGAGCAGAT AGATTGGAGCTACATTGAATTTGTTGACAACCAAGATGTTTTGGACCTTATTGAAAAGGTTTTCTTTACCTTTTTTTTTC TTCTTTCGGTTTACGTTCTTTAAGTCATTGAGGATACTCAGTTCATTTTTAGTTGGAAGCCTTCAACTTAGAAGTTTAGA AAAATTAATGAAACAGAGAGATAGAGTGCTTTTGATATGCTTAATGGTGATCTTTACAGTGGTGTGTTGCATAATTATTC CTTTAAAGGTTATCCTACAGTCTATTCAGTCTGGGATATACCTTACTATTAATAATGTTTATTCAATTGATACCAATCTG CAAATGTCAACAAAGATTACAGAATAACTGCATACATTTAAAAAGAGAGAGAACAGGGTAACAGGAGGTTGGGGTGAAAC TTAAAGTGAACTTGCATTCTTTGGAACTGAACCAGAAGAGCTCTATTGTTTATATTACAAAATCTGGGTTTTAGATGAAA CAAATTTACAAATAACAAAGCTTTATTCCTGAGTGGTCTTCGAGTAGGTTATTATTCTGGGCTTAATTTACAGTCTGAGT AAACCCCTAGTTAGGCTTTTCCTTCCCTTTTTCCCCCTCCCCTTCTTGTACTATTCTTTTACATTGATTTTGCTTGTGCA GAAACCTGGAGGAATCATTGCTCTCCTCGATGAAGCATGGTAAAATATAGTAATTTTCCCATGAACTACTTTTTCAGTGC TCATTAGATTATTTCAACCTTTTTTGTCCTTTAGGTTTGTAAAATAAGGCATGATCCAGTTTTGTCTGGTTTCTGTGAAT CTAAAGATCCTGATTCCATAACATACTGAATCTACTTTCTTCTTGCTTTTACTCCCCTCCTTTTGTCTTTCAGCATGTTT CCAAAGTCAACACATGAAACATTTGCAAACAAGCTTTATCAAACATTTAAGAATCACAAGCGCTTTATTAAGCCAAAATT GTCTCGAACGGATTTCACCATTGCTCATTATGCTGGAGAGGTATGACTGATTCTCATAGTGTCACTGCTGCAAAAATTAG ACATCTTTGCTTATTTTTACCCTCATAAATCTGCAGGTTGGATACCAGTCTGACCAATTTTTAGACAAAAACAAGGATTA TGTAGTGCCTGAGCATCAAGATTTATTAAGTGCTTCCAAATGTTCTTTTGTATCTGGCCTTTTTCCACCACTTCCAGTAG AGACATCAAAATCTTCAAAATTTTCTTCAATTGGGTCTCGTTTTAAGGTATCTTTCCATTTATAGTCTTCATTGATTAAC TTTTAGACTCAGGCTTAACAAGTTTATGTACAAGCTAATGTCACTTTGTACAAAATTTGAACACATTCTTGTTATCAGGA AGCTAACAAAATTCTGAATGGTGCAGCTACAACTACAGCAACTAATGGAGACATTAAATTCTACCGAACCCCATTACATT AGATGCGTGAAACCAAACAACATCCTCAAGCCTGCAGTTTTCGAGAATGTTAATGTTATGCAACAACTTCGTTGTGGTGT GAGTATAGTTTTATTTTACTCTTTCAATTCATTTTTTGGATAATCATTTATACAGAACCATATCCATTGTTCCGTCAAGT ATTCAAACCTTCTTCAGCTTTCCCTAACTCTTGCCCCAACAGGGTGTTCTGGAAGCAATTAGAATCAGTTGTGCTGGCTA CCCTACTCGCCGTCCTTTCTTTGAATTTATAAACAGATTTGCCCTCCTTGCCCCAGAGGCCGCGGAAGCAAAGTAAGCAC TCTTTCAATATATTTTCTATGCCTAGGAAGAAGAAAGTTCTTACTTGATGTGCTAAAATATTTTGTATCAAATTCGGCAT ATTGCTAACTTTTCAAGTTATTTCACCTATGAGCAGCTGTGATGAGAAGACCGGTTGCAAAAAGATTTTGGAAAAGATGG GACTTAAAGGATATCAGGTAATTTGAAATGTTTCGTCCATAATTGATGCTTCTTAAGACCTCAGCAACAGCTTTAACTTA TGCACATTGCAGCATTAATTTCAGATTTGATTATCTAATATCAACAGGGGTCTTCTGTGGTCTTATAACACATAGTGTAT AATACTTACTCGCTGCTCACATGGTCACAAAATTTATTTTATTTTCCATCAAATGTTGTAGATTGGAAAAACAAAGGTAT TCTTAAGAGCAGGTCAGATGGCTGAACTCGATGCACGGAGAGCTCAAGTACTTAGTAATGCAGCAAAAATTATCCAACGG CGCATACGAACCCATCAAGCTCGTAAACATTATCTTGCATTGCGAAAGAAGGCCATATATGTGCAGTCTCGGTGGAGAGG TGAAATGTTTTATAATGAAATAGTCTAATTCGTTTGTTAGGATATATGCAGTCATATTTTCATAGGGCGTGGACTTCCCT AATTAGAAATGTCTCCCAGAGCAGTAGGAGGCCTCATTGCTTAATCACTCTCTTTTCTATATATTTAATTTGTATAGTAT ATTATCTGTAGGAAGACTTGCGTGCAAACTTTATGATAAATTGAGAAGGGAAGCTGCTGCTGTGAAAATTCAAAAGAACA TTCGCAGACATGAATCTAGGAAAGCCTATAAAGAACTTCACATATCAGTACTTGTGCTGCAAACGGTTTTAAGGGCCACT GCTGCTCGCAAGGAGTTCAGATTTAGGAAACAGACTAAGGCTTCCATCATTATTCAGGTTTTGGTCAAGTACTATATGTT TTGGACCATCCACTATAGAAAAAAGTATTCAAATTTTAAATTCTCTCTCAAAAAATTGCAGGCTCGGTGGCGGTGCCACA AAGCAACATTATATTTCAAGAGGCTCAAGAAAGGTACAATAGTTACACAAAGCAGATGGAGAGGGCGTTTATCCAGGAGA GAACTTAGAAAACTAAAAATGGTATGTTTCTATGTTTATCATGATTCTTATACATTAAGTAGAAACAGAAATATAGGAAT GAAGATGTAATGCATTCAACCTGCATAAATTAAGGAACAAAAGGTAAAAAAATGCTGTCTGATTATTATTTTTAATTGAA AACTTGAGCTTCATGTCATTAAAAGTTCAATAGAACCGGACAAGAAATGGACTACATACCACAATCAATTAAAATCACCA CCTTTCCTCTTCCTACACCTCTCCGTGATATCCTAGAGGTTAAGCCTGTCATGGTGCGCAGTGAGAGCTGCAGCGCTTTA TAACTCCCCTCTTTCTGATCCACGGCCAAACTTCTTTCTGGTCTTCTGTGTTTTCTTCCTCTTCCAATACAGCTTGTTTT TGCAAAGATATCCTAGCCTAAACTTGTTATCACATTTGAAACAAATTCCCTAATTGATTTTATCTTGCAATTATGCTTTT GTCAGATGCTTGAATCCCACTATCCTTCCTCTAAATGCCCCTCTTGCCCCATTGGTTCTGTTGGTTTCTGAATCTATGGC TATGGGTGATACTTTTACCCCTATGATTCTTTAAGGACTCGTCTTAGGTGTTCACTCCACCGTGACATTTTTGGAAGTCA GAAGATTCCTGTATGAGAACTCGTTCCTACCTGTTGTGCTTACTCCCACCCTAGCCATATCCTAATTATTCTTCTCAATA AACTGAGATCACCTTTGTCATTGTTGTCAGGCCATACAACTTAAAATTCACCTTGATGTCTTCCTGTAAGCCATCAAAGA AAATTAACTTCAAGTAATCTTGATCAATATCCCTCTATGGACTTTGTACAACTCAAATTTCTCCTTGCATTCCTCCACTG AGGTAGTTTGCTTCTGACCCGACAACAGCTGAAAAATGTGTCTGCATCATAGAAGGTTGGAACCTCCAAATGATGGCAGT CATGAGTTCCTCCCAAGGTGGGATCGAGGTTAAAGTTCCCACCATTGGAACCCGTTATTCCTCTACTGCCCTGCTTATTC CTTCTAAGGCAAACCTTTATTGAAGATCAACTATGATGTATTCCAATATATTTTTTTGTTTCATCATCATCATTATCTTC ATGAAGGGAAAACCAACAAAACAAAATTATAGTTGTCTTATGATCTGCAAGGTTCAAAATGGCTTCAACTTTTCACTTGT GATTACAGGAGTAAAAGATTTATTCTCTTTCTGTTTTTAATTTAGTTTTCTTAAACCATTATCAATCTTTATTGCCTATT GGAAAAGAAGTGAAGTAGATACAGAAGAGACCTCTTAGAGAATTTCAAAGAAGAATGCCCTACTTGCGTTGAACCTGAAC ACTTTCATGATTTATTCTGTAATTTTAAGTAGCATAAGCCTCTCTTTATTTTATCTTTTCCTGGTTTTGCTATATCTTTC TCTTTTGTTTTTTCCTCTAAGTTGACATCTCTTCCCATTTGCTTTAGGCTGCAAGAGAAACTGGTGCACTTCAAGAAGCA AAGGATAAACTTGAAAAACGAGTGGAGGAACTCACTTGGCGTCTCCAACTAGAAAAAGGTTTAAGGGTGAGATTTATGTC TTCCAGATAGATATACATGGAAGGATGCTATTGTTCTGATATCAAACAATCATGCACTTAGATTTTTTTTTGTACAAATC AGATATAAAATGGTAAAAGGAAATTATTTAGTTCCTAAGTATCATTTCAATTGGTAAGCCCTCAATTAAATCATTTGCAA TCATATGCAGACCAATCTGGAAGAATCCAAAGCACAGGAGATAGCAAAAATGCAAAATTCATTGCAGGCGATGCAGAGCA AAGTTGATGAAACTAATGCTCTGCTCATCAAGGAGAGAGAGAATGCAAAGAAAGCTATTGAAGAAGCACCTGCTGTCGTT AAAGAAACACAGGTTCTGGTTGAAGATACAGAGAAGATTGAGACACTCAAAATGGAAGTTGAGAGCCTAAAGGTATGCAA ATTCAGTTGTACGAGACCTTATCTCCTTTTAGGTGACCGTGATTTCAATTTTGAATCTTTTTGTGTATATAATGAATCAT TTGATATTGAAGCTTGTAGGACATATATATTTCGTTTATATATGTCTTTTTATCAATACTTAGGCCTCTTTTTCTGACCT TATTGGTTAATTGGGAAAAAGAAGACATAACAGATATAGAATACGGTAGATCATATTGGGAGCCATGAATAGTTCCAATG ATAAGATACTATTTAAATTGTATTATTTTGTTTGGAACATTATGTATCCAATCATGTAACCTAGACAACTAAACACGCAC CTCTCATCAAAGAACTCAGTGATACCTTTGCACTGTGACTCTGTATTTGTATAAGATGCTTTCTTTCTTTAGATCCTCAC TATAAAGGGATGTAAAATGGCATGTTATGGAAACATTAAGGTAAATTCACACCATTGCTCAATCTCTTCAAAGTAATAAT ACAGCCAAAGCTAGGTATTCATAATTGATGAACAGTAAAGATAGATAATGCCAGTTGATGTCTTGTGATGTCCCTCCTTC GTAGAAATCCCTTTGGGCTTCTACTGCAAGTCACCCCATGCTGAAAATTACCTTAGTTAGGAATGATTATGAAAAAAGTG GCAAGGGTCAAGATTGAACACTTGATCGTCATGGAGACTCTAATACCGTGTCATGCTGTGAAGAACAAATCTTCAAAAAC TAAGCCTAGATGGGGGGGACATGGATGGTTTTAACTCTCTAATAATATCTATTATGATGATGCATTTTAATTCGACAGAT TATCAAGAATGCAAAAATGATTTATGAAACGTACATGTTTCTGAACTTGCCTAATTGCTTTGGATAAGTATAGCCCCAAA ATGACTAATGAGCACAATTTTTTCTTAAGCTTATGGTGATATACCTGATTTTTTTTAGCAGTAAATCATGTTGATCTCAT CTTAAGTGTTATTTCCTTGGCATTATCTTCACAGAGTTCACTTGAATCGGAGAAACAGAAAGCTGATGACTTTGAAAGGA AATATAATGAAGCCCAAGTTTGTAGTGAAGAAAGAGGTAAAAAATTAGAAGAAACAGAGAAGAAGATTCGTCAGCTCCAA GAATCATTGGCCAGGTAATTTGTGTAACAAACAATGAGCCTTGGTTAATTGTTTTCCCGTGATAATCCATGATGACCTGC TCTGAAAATTTTGAAAGAGATGTTCAAACTTCTTGAGTACCCCTAGTCGTGGAGATTTTCTTTCTCATGAAATGTCTGAT AATTTCATTGGGTAGCTGATCAGAAATTTATCTTTCTGTATCTTCTCTTTACATCTGAGAAGAATTTATGGCTAATTCAA ATTTCATCATCAAAAGTATCTGACATGCCACTCTCAATTGGGTGGGATTGTTGACTATAATCTCATAATTCTATCATTAG GCTTGAAGAGAAGATTAATAATGTAGAATCAGAGAATCAAGTTCTGCGTCAACAAGCTGTGTCCATGGCTCCGGTGTCCA TGGCTCCTGTGTCTATGGCACCTAATAAGCTCCTTTCAGGACGCTCCTTCCGATCAAATATCCAGGTACTCCTCATATTG AATATCATATGCATGACAAGAATATAAAGCTTGACAATGGTTTAAAAATGTTTCTGTCTCTGTTGGTAGAGAGGTGCTGA AAGTGGTCATATTGCAGTGGAAACAAAGACATCTGTGGTAATTAAATCTTTTTTAAAATTCATTCACGTAATTGGTTTTA AGTATGTCTATGTGGATTTGACTTGTTTCCTGGCCGCCTAATGGATTGATCAGGAACTGCATAGTCCATCAATGAACCAG AGAGAGTCCTCTGAAATAGAGGATAAACCACAAAGGTCACTAAATGAGAAGCAACAGGAGAATCAAGAGTTACTCATCAG ATGTATTGCACAACATCTAGGCTTTTCTGGGAACAGACCGATTGCTGCCTGTATCATATATAAATGCCTTTTACATTGGA GATCATTTGAAGTTGAACGTACTAGTGTTTTTGATCGTATCATCCAAACCATTGGTCATGCAATTGAGGTTTGAAAAGCA CAACTTACACATGCAGTGCTCTCTTTTTACTTTCAAGTCTCTGATGTATTTCCATTTGGACTTCAGACCCAGGATAACAA TGATGTCTTGGCTTATTGGTTGTCCAATGCCTCTACACTTCTCCTGTTACTCCAGCGCACACTCAAAGCAAGTGGTGCTG CTGGAATGGCTCCACAACGCCGTCGCTCTTCATCAGCAACCCTGTTTGGGAGAATGACTCAAGTAAATATTGCATCTGAT TCAAATAGATAATTCCCATAAAAAAACGCTTTTATTCCTTCGATAAGCACACTCCATTATTTTCTCCAGAGTTTCCGTGG AACTCCAGCTGGGGTGAATCTTGCCCTAGTCAATGGCAGTTCAAGCAGAGGAGTAGATACATTAAGACAAGTTGAAGCCA AGTACCCAGCTTTGCTTTTCAAACAGCAGCTTACAGCATATGTGGAGAAGATATATGGAATGATTCGTGATAACTTGAAG AAAGAAATATCTCCCTTGCTTGGATTATGCATCCAGGTATGGCAATATCTTCATTTCTCTAGTATGTTTCTAAGAACTGA TCCATCATATATGTTTCAATAAATGATTTTTTAAACATTTCCTTTGACATTCGTTCATTTGAAACATCACTGTTTATATG TGATGATACAGGCGCCAAGAACATCCCGAGCAAGCTTGGTTAAGGGATCGCGTTCTGTTCCAAACACTGAAGCCCAGCGC GCTTTGATTGCTCACTGGCAGGGGATAGTGAAGAGCCTAGGCACCTTTTTAAATACGTTGAAAGCAAATAATGTTAGTAG CACCTCTTCTGACTCTTTAGTATTTTCATATATATTTTTATATCTCCTATTCAATGTATGATTATGATAAAATCACGTAT GCTTCTCTTGAAATTCTGTAATATTACATGACATCCCTTATAGTTTCTCAAGTTACATGTATTTATTTTGATCTTGACTA AAGAGGGTTTATGTTAACAATTGCATTTATTTCTATATACTATATTCTTATTATATTAATTGGTTTGTCTGTCTTTGGCA AGTCATTATGTTTTCAGTTCGCAGCGTTGTTATTTCTGATTTCTCCCACTTTTGCTTAACTTTGGCAGGTTCCCCCATTT TTGGTTCGTAAGGTGTTCACACAAATTTTTTCTTTTATCAATGTACAATTATTCAATAGGTTAGTTTGTTCTGCACTTCT ATAGTCCCGTTGTGCGGACTTTTCTATTGTAAATCATAATATTTATTTTCATCACCTAAAATATAATTTATTTTTTTATC AGTCTTCTTTTACGAAGGGAATGCTGCTCATTTAGTAATGGAGAGTATGTCAAAGCTGGTTTGGCTGAATTGGAGCATTG GTGTTATAAGGCAACTGATGAGGTAACTTTACACTGCTGTTATTTTCTGTAGTTCTTATAGTATAGGTACATGTACTAAC ACCCATCTCCAAAATGCACAAAAAAAATGCAGTATGCAGGTTCAGCCTGGGATGAGCTCAGACATATTAGACAAGCTATT GGATTTCTGGTATCTTGCAGCCTTGGCTACATACCATCTTGCAGTTTTTCTTTGTTTATCTAAATGGCCAGAAATAGGAA AATATGGTAAACTGATTTTTCCTTACCTTTATTTAGGTCATACACCAGAAACCGAAGAAGACACTGGATGAAATAAGCCA TGACCTGTGTCCAGTAAGTGAAAGAAATCTTTCTTTGTCCTTGAAGATTAACTTTTCCGAACAGTTTGTAGTTACCATTA GTTCCCTTTGTCCAGGTACTTAGTATACAGCAACTATATCGAATTGGCACCATGTACTGGGATGACAAATATGGAACGCA TAGTGTGGCCCCTGATGTAAGATTTTATGGGAGACCTTTACTCAAACAGTGTCAGAAACCTTTATGATAACTTAAAATAT AAGATGCGCAGAAAAAACTATGTTAACCTTTTCCTTATTAAATGTTTTCATCTAGGTCATATCCAGTATGAGAGTATTGA TGACTGAAGATTCAAATAATGCAGTTAGCAGTTCTTTCTTATTGGATGATGATTCAAGGTAAACTGGATATCTTTATCCC ACGTGATAATATATTCTTTTGCAAATCTATATCATGACATTATATTTGACATTAACCATTTGAAAGAATCTATTCTGCAG CATTCCGTTTTCTGTTGACGACATATCGAAGTCAATGGAACAGATAGATATCGCAGATATAGACCCCCCGCCACTGATTC GTGAAAACTCTGGCTTTAGCTTTTTGTTGCCACGCCCAGATTGACAGATTGTGCTGTAGAATTAACCGGCCGGTATTCTT ACCCACCTCTTGGATATATCAAAGTCACATTCTGTCAGGTATTCTCATGGAATGCTGACTTTGGTTGTGTCAGAAACAAG TTTAACATACCAAATTTACCTCTTGGTAGGTTCAAAAATTGATGGCACAACACAGATCATCCCATTGTGCAAGCAATTTT TTGTGGTGGGAGTAAAATGAATATTACTATAATAGCATTCTTCCCTCATAATTTTCAGTGTCCTTTTTATTTGATTTCGT TACTTCTCAGCACATTTTTTTTTTGTTGTTGCTTAGAATAAGATTGTTGTATCTAGAAGAACAGGACTTTCATCCCAGTA TAATAGTGAATGGAGGATTGAGGAGTCGATGATTTATTTGGCAATAGAAATTCATGATTTACCGGGA
CDS sequence (LotjaGi5g1v0210600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGAACTCCAGTGAATATTAATGTGGGTTCGCATGTCTGGGCCGAAGACCCTGAGGTATGTTGGATCGATGGACAGGT GTCAAAAATCAATGGAAATGATGCTGAAATTGAAACTACCGATGGAAAAAAGGTTGTCGCAAATTTATCAAAAATATATC CTAAGGATATGGAAGCTCCTCCTGGCGGAGTGGATGATATGACTAAACTGTCCTATTTGCATGAGCCTGGAGTCCTGCAG AACTTAAGAATTAGATATGAATTGAATGAAATATATACTTATACTGGAAATATTCTGATTGCAATAAATCCATTCCAAAG GCTCCCTCATATTTATGGTGCACACATGATGCAACAATACAAGGGAGCACCATTTGGAGAATTAAACCCCCATGTATTTG CAATTGCTGATGTTGCATTTAGGGCAATGGTTAATGAAGGAAAAAGCAATTCAATTCTGGTCAGTGGGGAAAGTGGAGCT GGTAAAACTGAAACTACAAAGATGCTTATGCAATACCTTGCTTTCCTTGGTGGTAGGGCTGGTACTGAAGGTCGAACAGT TGAACAACAAGTTCTTGAATCAAATCCAGTTCTGGAAGCATTTGGCAATGCTAAAACTGTCAGGAATAACAATTCTAGTC GTTTCGGTAAATTCGTTGAGATCCAATTTGATAAGAGTGGAAGGATCTCAGGAGCAGCTATCCGAACATACCTTCTAGAG AGATCTCGGGTTTGCCAAGTTAACGATCCTGAACGGAACTACCATTGCTTTTATCTCCTTTGTGCTGCACCACAGGAGGA AGTTGAGAAATATAAATTAGGAAATCCTAGAACATTTCACTACCTTAACCAGTCAAAATGCTTTGAACTGGCTGATGTGA GCGATGCTCGTGAGTATCTTGCTACTCGGAGAGCTATGGATATTGTTGGAATCAGTCAAACTCATCAGGAAGCCATTTTC AGAGTTGTTGCTGCAATTCTTCATCTTGGTAATATTGAGTTTACCAAAGGAAAAGAAGTTGACTCATCCATTCCAAAAGA TGACAAAGCCAAATTCCACCTGAAAACTACTGCTGAGCTTCTCATGTGTGATGTTGTTGCCTTGGAAGATGCATTATGTA AGCGTGTCATGGTCACCCCTGAAGAAGTTATAAAAAGGAGCCTTGACCCACAAAGTGCAGCGATCAGCAGAGATGGATTG GCAAAAACAATTTATTCTCGGCTATTCGACTGGTTGGTGGACACGCTTAATAATTCAATCGGACAAGACCCGAATTCTAA ATATTTGATTGGGGTTCTTGATATCTACGGTTTTGAAAGCTTTAAAACTAACAGTTTTGAGCAGTTTTGCATTAATTTCA CAAATGAGAAGTTGCAGCAACATTTCAATCAGCACGTGTTTAAAATGGAACAAGAAGAATATACAAAGGAGCAGATAGAT TGGAGCTACATTGAATTTGTTGACAACCAAGATGTTTTGGACCTTATTGAAAAGAAACCTGGAGGAATCATTGCTCTCCT CGATGAAGCATGCATGTTTCCAAAGTCAACACATGAAACATTTGCAAACAAGCTTTATCAAACATTTAAGAATCACAAGC GCTTTATTAAGCCAAAATTGTCTCGAACGGATTTCACCATTGCTCATTATGCTGGAGAGGTTGGATACCAGTCTGACCAA TTTTTAGACAAAAACAAGGATTATGTAGTGCCTGAGCATCAAGATTTATTAAGTGCTTCCAAATGTTCTTTTGTATCTGG CCTTTTTCCACCACTTCCAGTAGAGACATCAAAATCTTCAAAATTTTCTTCAATTGGGTCTCGTTTTAAGCTACAACTAC AGCAACTAATGGAGACATTAAATTCTACCGAACCCCATTACATTAGATGCGTGAAACCAAACAACATCCTCAAGCCTGCA GTTTTCGAGAATGTTAATGTTATGCAACAACTTCGTTGTGGTGGTGTTCTGGAAGCAATTAGAATCAGTTGTGCTGGCTA CCCTACTCGCCGTCCTTTCTTTGAATTTATAAACAGATTTGCCCTCCTTGCCCCAGAGGCCGCGGAAGCAAACTGTGATG AGAAGACCGGTTGCAAAAAGATTTTGGAAAAGATGGGACTTAAAGGATATCAGATTGGAAAAACAAAGGTATTCTTAAGA GCAGGTCAGATGGCTGAACTCGATGCACGGAGAGCTCAAGTACTTAGTAATGCAGCAAAAATTATCCAACGGCGCATACG AACCCATCAAGCTCGTAAACATTATCTTGCATTGCGAAAGAAGGCCATATATGTGCAGTCTCGGTGGAGAGGAAGACTTG CGTGCAAACTTTATGATAAATTGAGAAGGGAAGCTGCTGCTGTGAAAATTCAAAAGAACATTCGCAGACATGAATCTAGG AAAGCCTATAAAGAACTTCACATATCAGTACTTGTGCTGCAAACGGTTTTAAGGGCCACTGCTGCTCGCAAGGAGTTCAG ATTTAGGAAACAGACTAAGGCTTCCATCATTATTCAGGCTCGGTGGCGGTGCCACAAAGCAACATTATATTTCAAGAGGC TCAAGAAAGGTACAATAGTTACACAAAGCAGATGGAGAGGGCGTTTATCCAGGAGAGAACTTAGAAAACTAAAAATGGCT GCAAGAGAAACTGGTGCACTTCAAGAAGCAAAGGATAAACTTGAAAAACGAGTGGAGGAACTCACTTGGCGTCTCCAACT AGAAAAAGGTTTAAGGACCAATCTGGAAGAATCCAAAGCACAGGAGATAGCAAAAATGCAAAATTCATTGCAGGCGATGC AGAGCAAAGTTGATGAAACTAATGCTCTGCTCATCAAGGAGAGAGAGAATGCAAAGAAAGCTATTGAAGAAGCACCTGCT GTCGTTAAAGAAACACAGGTTCTGGTTGAAGATACAGAGAAGATTGAGACACTCAAAATGGAAGTTGAGAGCCTAAAGAG TTCACTTGAATCGGAGAAACAGAAAGCTGATGACTTTGAAAGGAAATATAATGAAGCCCAAGTTTGTAGTGAAGAAAGAG GTAAAAAATTAGAAGAAACAGAGAAGAAGATTCGTCAGCTCCAAGAATCATTGGCCAGGCTTGAAGAGAAGATTAATAAT GTAGAATCAGAGAATCAAGTTCTGCGTCAACAAGCTGTGTCCATGGCTCCGGTGTCCATGGCTCCTGTGTCTATGGCACC TAATAAGCTCCTTTCAGGACGCTCCTTCCGATCAAATATCCAGAGAGGTGCTGAAAGTGGTCATATTGCAGTGGAAACAA AGACATCTGTGGAACTGCATAGTCCATCAATGAACCAGAGAGAGTCCTCTGAAATAGAGGATAAACCACAAAGGTCACTA AATGAGAAGCAACAGGAGAATCAAGAGTTACTCATCAGATGTATTGCACAACATCTAGGCTTTTCTGGGAACAGACCGAT TGCTGCCTGTATCATATATAAATGCCTTTTACATTGGAGATCATTTGAAGTTGAACGTACTAGTGTTTTTGATCGTATCA TCCAAACCATTGGTCATGCAATTGAGACCCAGGATAACAATGATGTCTTGGCTTATTGGTTGTCCAATGCCTCTACACTT CTCCTGTTACTCCAGCGCACACTCAAAGCAAGTGGTGCTGCTGGAATGGCTCCACAACGCCGTCGCTCTTCATCAGCAAC CCTGTTTGGGAGAATGACTCAAAGTTTCCGTGGAACTCCAGCTGGGGTGAATCTTGCCCTAGTCAATGGCAGTTCAAGCA GAGGAGTAGATACATTAAGACAAGTTGAAGCCAAGTACCCAGCTTTGCTTTTCAAACAGCAGCTTACAGCATATGTGGAG AAGATATATGGAATGATTCGTGATAACTTGAAGAAAGAAATATCTCCCTTGCTTGGATTATGCATCCAGGCGCCAAGAAC ATCCCGAGCAAGCTTGGTTAAGGGATCGCGTTCTGTTCCAAACACTGAAGCCCAGCGCGCTTTGATTGCTCACTGGCAGG GGATAGTGAAGAGCCTAGGCACCTTTTTAAATACGTTGAAAGCAAATAATGTTCCCCCATTTTTGGTTCGTAAGGTGTTC ACACAAATTTTTTCTTTTATCAATGTACAATTATTCAATAGTCTTCTTTTACGAAGGGAATGCTGCTCATTTAGTAATGG AGAGTATGTCAAAGCTGGTTTGGCTGAATTGGAGCATTGGTGTTATAAGGCAACTGATGAGTATGCAGGTTCAGCCTGGG ATGAGCTCAGACATATTAGACAAGCTATTGGATTTCTGGTCATACACCAGAAACCGAAGAAGACACTGGATGAAATAAGC CATGACCTGTGTCCAGTACTTAGTATACAGCAACTATATCGAATTGGCACCATGTACTGGGATGACAAATATGGAACGCA TAGTGTGGCCCCTGATGTCATATCCAGTATGAGAGTATTGATGACTGAAGATTCAAATAATGCAGTTAGCAGTTCTTTCT TATTGGATGATGATTCAAGCATTCCGTTTTCTGTTGACGACATATCGAAGTCAATGGAACAGATAGATATCGCAGATATA GACCCCCCGCCACTGATTCGTGAAAACTCTGGCTTTAGCTTTTTGTTGCCACGCCCAGATTGA
Protein sequence (LotjaGi5g1v0210600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGTPVNINVGSHVWAEDPEVCWIDGQVSKINGNDAEIETTDGKKVVANLSKIYPKDMEAPPGGVDDMTKLSYLHEPGVLQ NLRIRYELNEIYTYTGNILIAINPFQRLPHIYGAHMMQQYKGAPFGELNPHVFAIADVAFRAMVNEGKSNSILVSGESGA GKTETTKMLMQYLAFLGGRAGTEGRTVEQQVLESNPVLEAFGNAKTVRNNNSSRFGKFVEIQFDKSGRISGAAIRTYLLE RSRVCQVNDPERNYHCFYLLCAAPQEEVEKYKLGNPRTFHYLNQSKCFELADVSDAREYLATRRAMDIVGISQTHQEAIF RVVAAILHLGNIEFTKGKEVDSSIPKDDKAKFHLKTTAELLMCDVVALEDALCKRVMVTPEEVIKRSLDPQSAAISRDGL AKTIYSRLFDWLVDTLNNSIGQDPNSKYLIGVLDIYGFESFKTNSFEQFCINFTNEKLQQHFNQHVFKMEQEEYTKEQID WSYIEFVDNQDVLDLIEKKPGGIIALLDEACMFPKSTHETFANKLYQTFKNHKRFIKPKLSRTDFTIAHYAGEVGYQSDQ FLDKNKDYVVPEHQDLLSASKCSFVSGLFPPLPVETSKSSKFSSIGSRFKLQLQQLMETLNSTEPHYIRCVKPNNILKPA VFENVNVMQQLRCGGVLEAIRISCAGYPTRRPFFEFINRFALLAPEAAEANCDEKTGCKKILEKMGLKGYQIGKTKVFLR AGQMAELDARRAQVLSNAAKIIQRRIRTHQARKHYLALRKKAIYVQSRWRGRLACKLYDKLRREAAAVKIQKNIRRHESR KAYKELHISVLVLQTVLRATAARKEFRFRKQTKASIIIQARWRCHKATLYFKRLKKGTIVTQSRWRGRLSRRELRKLKMA ARETGALQEAKDKLEKRVEELTWRLQLEKGLRTNLEESKAQEIAKMQNSLQAMQSKVDETNALLIKERENAKKAIEEAPA VVKETQVLVEDTEKIETLKMEVESLKSSLESEKQKADDFERKYNEAQVCSEERGKKLEETEKKIRQLQESLARLEEKINN VESENQVLRQQAVSMAPVSMAPVSMAPNKLLSGRSFRSNIQRGAESGHIAVETKTSVELHSPSMNQRESSEIEDKPQRSL NEKQQENQELLIRCIAQHLGFSGNRPIAACIIYKCLLHWRSFEVERTSVFDRIIQTIGHAIETQDNNDVLAYWLSNASTL LLLLQRTLKASGAAGMAPQRRRSSSATLFGRMTQSFRGTPAGVNLALVNGSSSRGVDTLRQVEAKYPALLFKQQLTAYVE KIYGMIRDNLKKEISPLLGLCIQAPRTSRASLVKGSRSVPNTEAQRALIAHWQGIVKSLGTFLNTLKANNVPPFLVRKVF TQIFSFINVQLFNSLLLRRECCSFSNGEYVKAGLAELEHWCYKATDEYAGSAWDELRHIRQAIGFLVIHQKPKKTLDEIS HDLCPVLSIQQLYRIGTMYWDDKYGTHSVAPDVISSMRVLMTEDSNNAVSSSFLLDDDSSIPFSVDDISKSMEQIDIADI DPPPLIRENSGFSFLLPRPD
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 | 5 | 1538 | 1534 | 0.0 | – | |
PANTHER | 5 | 1538 | 1534 | 0.0 | – | |
ProSiteProfiles | 8 | 57 | 50 | 16.262 | ||
Pfam | 10 | 47 | 38 | 1.0E-8 | ||
SUPERFAMILY | 37 | 785 | 749 | 6.56E-288 | ||
SMART | 57 | 733 | 677 | 0.0 | ||
ProSiteProfiles | 62 | 732 | 671 | 272.907 | ||
Gene3D | 63 | 662 | 600 | 2.2E-253 | ||
Pfam | 64 | 720 | 657 | 1.7E-255 | ||
CDD | 76 | 720 | 645 | 0.0 | ||
PRINTS | 92 | 111 | 20 | 4.9E-61 | ||
PRINTS | 149 | 174 | 26 | 4.9E-61 | ||
PRINTS | 196 | 223 | 28 | 4.9E-61 | ||
Gene3D | 247 | 311 | 65 | 2.2E-253 | – | |
Gene3D | 312 | 421 | 110 | 2.2E-253 | – | |
PRINTS | 429 | 457 | 29 | 4.9E-61 | ||
Gene3D | 438 | 622 | 185 | 2.2E-253 | – | |
PRINTS | 482 | 510 | 29 | 4.9E-61 | ||
Gene3D | 666 | 732 | 67 | 2.0E-17 | – | |
Gene3D | 733 | 785 | 53 | 2.7E-9 | – | |
SMART | 734 | 756 | 23 | 0.7 | ||
ProSiteProfiles | 735 | 761 | 27 | 7.272 | ||
Pfam | 737 | 755 | 19 | 0.0032 | ||
SMART | 757 | 779 | 23 | 11.0 | ||
ProSiteProfiles | 758 | 787 | 30 | 7.895 | ||
SMART | 782 | 804 | 23 | 0.0019 | ||
ProSiteProfiles | 783 | 810 | 28 | 8.553 | ||
Pfam | 785 | 804 | 20 | 0.041 | ||
SUPERFAMILY | 785 | 883 | 99 | 1.77E-13 | ||
Gene3D | 786 | 836 | 51 | 2.5E-7 | – | |
SMART | 805 | 827 | 23 | 21.0 | ||
ProSiteProfiles | 806 | 835 | 30 | 6.87 | ||
SMART | 830 | 852 | 23 | 0.14 | ||
ProSiteProfiles | 831 | 858 | 28 | 6.54 | ||
Pfam | 832 | 852 | 21 | 0.021 | ||
SMART | 853 | 875 | 23 | 0.17 | ||
ProSiteProfiles | 854 | 883 | 30 | 8.169 | ||
Pfam | 856 | 875 | 20 | 0.035 | ||
Coils | 877 | 904 | 28 | - | – | |
CDD | 917 | 1050 | 134 | 0.00552326 | – | |
Coils | 923 | 957 | 35 | - | – | |
Coils | 968 | 1051 | 84 | - | – | |
MobiDBLite | 1095 | 1123 | 29 | - | – | |
MobiDBLite | 1107 | 1122 | 16 | - | – | |
CDD | 1122 | 1506 | 385 | 0.0 | ||
ProSiteProfiles | 1171 | 1483 | 313 | 57.099 | ||
SMART | 1358 | 1465 | 108 | 1.1E-43 | ||
Pfam | 1358 | 1462 | 105 | 5.3E-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 LotjaGi5g1v0210600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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