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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0178200 |
Transcript ID | LotjaGi5g1v0178200.6 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin family protein, putative, expressed; TAIR: AT1G54560.2 Myosin family protein with Dil domain-containing protein; Swiss-Prot: sp|F4HWY6|MYO11_ARATH Myosin-11; TrEMBL-Plants: tr|A0A0R0GUH4|A0A0R0GUH4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0178200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:45512342..45523763) extracted from Lotus japonicus Gifu genome v1.2.
ATGCTGCAGTCAAACCCAGTCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATTCCAGGTATGAAATTTC TGTATGCTCTATGATGTTTGGCTTTTGATATAGTATAACATTTGTACACTGTATTTTCTTGAGCACTGTACTTGCATTTC CATGTATGTGATTTCTACAATCTCATTGAATTTCATATTGGTATCTTGTATATGTGGAGATTTATACTTATTTTTTCTTC ATCCTTTGACTTTATAATCTTATTCATATTCTATACTTTTAAGTTCGTCATGAATTTTCTTGGGAATAAATTTTAATTCT TCATGGAAATGAGAGATGGCAATGTTATTCCATTCATTAAAAAACAAAATATCAGGAGCTATTTCTTATTTTCATTCTAC TTATATTCAAGGCCAGGGAGAACTACTTGTCATCATAAAGGTGCTTTCTCATTTATGATTTAGTAATGTCAATAACAAGT AGCAGTTTTGTGCTTATTTCTGTTTTCCTTGTTCTCCTGCAGCCGTTTCGGAAAATTTGTTGAGATTCAATTTAATAAGT ATGGACGAATATCCGGGGCAGCCATTAGAACTTATCTGCTGGAGAAATCTCGCGTTTGCCAAATCTCAGATCCTGAGCGT AATTATCACTGTTTCTACCTTCTCTGCGCTTCTCCTCCTGAGGTAGGCAAGTCAAGCTTGATCTTCCATTCACTATTCTT CACTATATAAATTTCTTGGTGGAATTCTGAATTGTTAACATTCTTTTGTTAGGATAAGGAGAAATATAAGTTGGGAGATC CCAGATCATTTCACTACCTTAATCAATCCAGTTGCTATGAATTAGCTGGTGTAAATGCTGCTCAAGAGTATCTTAGCACC AAGAGAGCCATGGATATCGTGGGAATCAGTCAGGAGGAGCAGGTATGAGTACAACTATGACCTTTGTTAGTGATTCTAAT AATTCTTTTAGCTTCCTCTCAGCTTCTCCAGACAAAAGGTAAAATTACTAATAATCTTTCCCCCATCCTCTCAGGATGCA ATTTTCAGAGTTGTAGCTGCTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCATCAGTTCT AGAAGATGAAGAATCCATTTTCCGTCTCCAAACAACAGCAGAACTTCTAATGTATAGCTGAACTTTGGCTGTTATCATTG TTCTTCTTTCTATTAAAATTTTTTATTGATAAATTTATTGTTATTTTAGGTGTGAACCTGATGCTTTAGAAGTCGCACTT TGTAAGCGCGTGATGATCACCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGCAGGGATGG TCTAGCCAAGACATTATATTCTCGTTTATTTGACTGGTATATTGGCTTTTCCGTGTGTAATGTAAATATATTAAAACAGA TGACAAATGTTTGGTTATTGCTATTTCTTATTTCATTAAAGAATGAATAAACAATACATCAGTTACGATTATGTGTTTTT TGTTATGTGCAGGATAGTCAATAAAATCAATAACTCCATTGGGCAGGATCCTAGCTCAAAATATCTCATTGGTGTTCTTG ACATATACGGCTTTGAAAGCTTTCGAACTAATAGGTGAGAGTTTATGAAAATACCTCATCACAAGATGTGATCTTTGCTA TTGTATGTTTGCATACTCTATTTTAGGAAGAAACAGATAAGAACACTCACACAAGGTGTCGTACAATCAACATTCGTTAA TAAATATGTACATTTATACATATTCACTGTTCATATTATTCCCAAGCTTTTTTACTTTTTATTTCATCAAGCTTAGGTGG CCCAAACTCCTTATCCCCAATAATACCCTTGTCTCTCAATATTAATAATTTGAGCCTTTCATTTTGGTACCTTAGTAAAT AAGATATTCCCAAGCTCATTTAATTTTCTATTGGCAGTTTTGAGCAATTTTGTATTAATTTCACAAATGAAAAGCTGCAG CAGCACTTCAACCAGGTATGAGGTTAGTTTTTCATATATCTTACAGCTACAACTGTAACTTCTCTCTTATCATGCAATCT GATGTCTATGATGTTCTGCAGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGGATTGACTGGAGCTACTT AGAATTTGTAGATAATCAAGATGTATTGGATCTCATTGAAAAGGTCTATACAAACTTTGTTAGAAGTCCCACATTGGCTA AACTTTTAGTTTGGGCTTAGTATGTCTTAATGGCACGAATGAAAGCATACTTTATCGATTATCTGTTTTTTAAGTAATCA TTTTGAAAATCAGGCAAACATTTGCTGACCCACATTTTCAGTGCGACAATTACTACCAAATTTAATTCAATGGCTTGCTG CTATATATATGAATATTGTTGGTTCCAGTCTGTAGGATGAAAAAAATCTCATCTAGTATTCAATTTGTTCTTGGAAGTTG CCTTGGGTATGCAACTATGCATTTTATATTTGATATGTGGAAGTGAAAAGTACTAAAAGTAATGTAGAGTATGCAATCGT GATAATCTATAGAAAGCCCAAGTGTTGATCCCTTTGGTGTTCAACTCATGCCTAGTTTAAGGGCGTCAAGGAAGGCTCAC AAAAGCTTAAGCTTAAGGCAGTTCCAAAAGCTCACAAAAGCTTTTGCTTCAGAATGTTATAACTGATCTCTAAAAGTGTT TTCTTTTGCAGAAACCGGGTGGAATCATAGCTCTGCTTGATGAAGCTTGGTATGAAAAAATTTCTTTGTTCTTCTTTTCT TATAATGCTGTGTATGCTTATGTGTTTAGAGAATAGTGAAATAGGAGAAGTTTTGTGCTTGCAAGGAATAATTTTATGTG ATTTAGAGATTGCCTAAAATTTAGTTTCATAACTTTGCCATGCATTATATCTTTGAATCATTATTAGGCACTCCTAGGAT TTAATACTTATTCTTATGAGTTAGAGGAATTAATGGGTCAAGTTTTGGTCTCTTGTTTACTAATAACTTTTCCTAGAAAA AAATTGTACACTATTTGGTTGTTTCCTGATAATTCATCCTATTTGTCATTGATGATATTTTGCAAGATTATTCATAGGCA GTGTGTAAACTTGTAACAATTTTTAAGTTTTTCACTCAATGTTACCCTTACTGACATGATCATTATCTGCTTACAGTATG TTTCCCAAGTCAACTCATGAAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATCACAAACGCTTCATCAAGCCTAA ATTGGCACGCTCTGACTTTACTATTGTTCATTATGCAGGGGAGGTGAGTTTGATTCTTCACCATTTTTATGCAAGTTATT ATCTTTCACTATGTGTTTCTCCTAAATGATGTTATTTCTGCACTTCTTTTCAGGTTCAGTATCAGTCTGAGCAGTTTATA GACAAAAACAAAGACTATGTTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGTATCAGGCCTTTT TCCTCCACTTTCTGAGGAGACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGGTATCCAAAATTTGGT TCTTTACCTTGTCAGGAAGAAATATTTTATCTGATAAGCCTTACTACAATTGAAAGATAAATACTGTCATACTAATTTGT GCAGCTACAATTACAACAACTGATGGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCCTAATAATC TATTAAAACCTGGCATATTTGAGAATATGAACATCATCCAACAATTACGTTCTGGTGTAAGTAGATTTTAGATTTAAGTT GTACCTTATTTGTTTTAAGGGTCGTATTATTGGCTCTTCCACCGCCTCTTCACATTCTCCACCAGCTACTATTTCTTAAA TTTTTCTCAACTAAATGATTTTATTTAGTCAAACCTTAATTAACTATAATCATATTTCTCTATTCATATTCAATAGAGGA CAATTAGAAATTGCAATTAATAGTGTGATGAATGTGAATAGGAAATTAGAAGTGCCAATAGCCCTTCCCTTGCTTTAAAC TTACCTTTATTGAATTTACCCCCCCATTTTTTATATTATAGGGTGTTCTTGAAGCTGTAAGAATTAAATGTGCTGGATTC CCCACTCACAGAACATTTCATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAAGTAAGTTAA CTCAATGCCAATTTGAACCTTCTTCTTTTCTCTCAATATCTTTATACTTTTGCTTTCTTCTTAGAATACCTGGTTTCGCA TCCTGAAAATTATCTGCATATATGCAGCTTTGAAGAAAAGGATAAATGTAAAATGCTTTTGGAGAAGATTGGGCTGACAG GTTATCAGGTAGAACTGGAACTCTATTTGATGATATTCTGTCACTACAATCGATAATTAAAAAATCATTGAATTTATTAT CCTTGAATGTTAAACTTACTTCCATTTAAATAATTCTGTTATATTATTTTGTAAATATTTTTCTGGCACTTGTTTTTTGA ATGGGGGCATGAAACTACGCTTGACTTATAGGAGGCATATTCTGACTCATATATGCTAACTGAAATTCTTTATTGCAAGG CACTCTTCTGCATTCACTTGAATATTTTGTAATCGGGCTAATTTTGCAGATAGGGGAAACACAAATATTTCTAAGAGCTG GTCAGATGGCTGAATTGGATGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCAGAGTAGAACT CATTTTAGTCGAAAAACATATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGTAAGTTATTTGT ACATTTTGTATCATGTGTCTTGGTTTCTCAGGTTGAGTAACTCCATGGGAATGAAAATATGAGGCCTTTCAGTTTGAGTC ATATCTTCAATTTATCAAATTTTAAGGTCCTTCTTTCAAAATCTTTAAAATAAATAAAACTTTTTCATCAAGATGCAATA GGATAGCAGCACATAGTCTTGAGGTCCTACCACCAAAAATTTATAAAATGTAATATTTAGGGTGAAACTCAAAAGAAGCT CTGATAATGATATTTGAGATTAAAATGAAAGTCAAAATAGATATCCAGAGACAATTATTTATTTCTTGAAAAAAATTCCT CTGCCATATCTACAGAGTACAGACTATGCTTTTTGTTACAGAAAAAGAAATGTTCCTTTCAAGCCAAAATAGGGGAACTT ACCATCCATTCATCCAGTCATGACAGTATCTTAGTGTGTGATAGGTATAGTAACAGAGAAGAGTTAAGAAAGGAAAATGT GTAGTTATTTCCCTTCCTACTTTAGGTGAATTACAGTAAAGAACTCGAATTCAAGAAAGAAAGAAAATAATAGAGATACA AGGAATATCATCTTCCCACGTCCAAGCCAGAGGCCCCTACCTGAAGAGTGATCAATCCTGCCCTCTCTCCTTCTCTCCCT GCTATAACTACCTCCTTATCCCCTATGCCATATGGGTCTTCCATGGATGAACAATTCCGCGTAACTAACTTCAATCCTTG CTCCCTCCCTGTGTCTCCTTCTTAACTCTCCTAGAATATACCTTGGACACCTTAGGTGCACCGGTCCCCTGTTGTCCGGG TAACACCCCCCATTATCTAGTGTCTTTGATATTAAATTCGTATCAGTGTGGCTCTGAGTTGATTTTCCCTTCCGGCTATT CAAATTTAAAACAGTCTGAATTTGAAACATGCTTATGAAAACTTTTATAGTTCAAGTCTTGGTGACATTTTTTTTTAGTT TAGCTTCTTTATTGTTTGCTCTCTATAGTTTCGATGGCATTCTGAAGCATAGGCTTAAGAATTTCTACGCCCAGGATTCC ACATCCATTTAATCAATATTTCATTAAGTGTTCTGTTGTTGCGACTTTTAGGAGAATTGGCCCGGATATCATATTATCAC ATGAAGAGGGAAGCAGCTGCAATCAGAATTCAGATGTACACGCGTGGAAAATTAGCCAGAAAATGGTACACTGAAATAAG GATTTCTGCCATTGTCTTGCAGACAGGTTTTCGGGTAATGGCTGATTGCTATAAATTGAGATATAGAAAGCAAAGTAAAG CTTCAACTCATATTCAGGTTAGTACTGTCCTTCTAATGTTAATGTTTTTTTTTTCTATATTTTGCTGTTGCCTAAATTTT GGGTGTGAAAAAAATGCAGTCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATCAGGACCTTAAAAAGGTGTCAATCA TTCCACAAAGCGTCAACCATCCCACGGATGAACATGAACATGAACATGAACATGAATATGAACATGAACATGAACATGAA CATAAGGTTCTATATGTATTTACACACTGTTATTAAATTCCTATGTTTTCATTTTCTTATTAGTTGTCTTGATAATTATT ACTAGCTACCATTAATTAGCATAGATGAATATGCAATTGTAAGAGATATAATTCAATTCTATTCTGAAGCCTTCTCATGG CTTAAAATTTTAAGGAGGACTAATTCCTTTCCTCTTAGAAACATTATTGCGAGTGTCTCCGGTGGTGTAAATGGCATTGA CAACAATGAACACATAAAAACCTGAAGTACTCTCTTTTAGCATAATTCTAATGATATCCTTGCTGATTACACAACAAAAT GAACTAGTTTGCCATCATGAATTCCCAGGTTTTGGAGATATCAGTAGAAAATGAAAGTCCTTGTGTGGAAGAATCTTCAA ATTCTTCCAAAGAAGAATCCTCAAGTCCTTTTCAAGATAATGAAAGCATTGAAGCGATCAGGGATTCCTCTAGTCCTTTG GGAGACACTGAAAAGTATGAGGCTCTCACTGCAGAAATAAAAAACTTGAAGGTAAACTTAGTATATCCACTACCTTTGTT AGGATATCTGTTATATATCTTCTATTATCAATTTTGCATCTTAAAATATTTTACAATATATTAAATCGTGTTAGGAGTGA TATCATGATGTATGTTATTTCCTGATTTAATTAGTATTAGGAGTCTAGTATTAGTATAAATATAGTTTAGTTTATATAAC ACGCCATCACACACCATTAGTTAATGTTTTATGCTATGATTCATTTATTCTCTTTTCATCCCTTTTTACCTAAATCCTTA TAACTTCAACATGATTTCAAATTAGAACCATCTAGCATCCTTCATGACTTGTGTCATCACTTTTCCATTGTTGAGTTCCC TAAAATTTGGAACTCTATGGTGATGATGTCATTTTATCATGACTCTTTCTTCCCTTTGGCTGTGGACAAATTCCAATCAT CCTCCTGACCCAAATTACTAATGATTTGTTTCCTTTGTTTTCTTCCCACTCTGATATTATTATTGGTTCTCAACTGCCAC CATGGCATTGAGAGGGAGACCAAGAAAGATAAAGTTAACTTTTTCTTAGTGACAATCAGTCTAGCAATCCACTTACAATC ATACCAGTTGTAACTTTTCTTCCCATTCTGTCTGGCCCCGCTGTCTCCACTTTGCAGATGCTCTGGCCCCATCTTTATCA CAGATGTTGTTTGGCCCCCAACTCTAGTCCCAGATGCAACCTCACACTCGTCTCTTGCAGTGAAACCTTCGCTCCTGACC GGAACAAATTGGCCCCATCTCCAGTCCCAGATGTTTGCAAATGCATTATATTTTTATTTTATTTATTTTTAGCATGTTTC ATTATAACAAGCTTAAAGCTTAGCAAGCTTTAGTTTGAAAGGAGTGTTGAGATATCTCAAAATATCTGCTAACATCATTA TTGCGTCTCCTAACATTTTATTATATTTCATTATTTTTTCCTTATTTAATTAGAATTAGTAGTCCTTTATTAGTATAAAT AAGGCTTAGTGCTTTATATTTTGTCATTATACATCGTATATGAATATCATATTTTATTATGCAGAGTTTAAACTCTTTTT TTTTCTTTCTCTACCTATAGTTTCAACAATCTTACGTTTTTAAATTTAAATGAATATTTTTTTGTATACCTCATTTTCTA ACTTTAGATATTTGTATGAGAGGAGTGCTAGCAATACAATCTTTTGAACACTCACACACACACAACCTATGATTGGTCTA TTTTCAAAATAGTCAATATATTCTCTCACTTATTAACAAATTTGTTGACTTTTAAAAAATTAAGAAATAACATGAAGAGT GTGTTGCTAGCATTTTTCTTTCTATAATTGAGAATTCACAACCGGTTTGGTAAGGTAATTTTTGGTTGAATTACATGAAA ACTAAATGTATGAAAGACATGAGAGCAATATTTTATTGTTGTCATAGAACTCAACTATTCATTAGATAGGCAATATGACA TTGATAAATATTTATTTTTATGTTAAAGGGAAACAAGGTTCTCGATAAGTTAAAATGGATGCAAACGACGTATAAATGTA GATAGCAATAATACCCGAGAACTGATATGTTAGGATCCAATTGCAAAGTATGGGACTTGAGCTCTACATTGGAAGTATGA GATGCTGGTGTGGGGTTGTTTGGGCTCTCCCATTACAACAAATAGCTTTTGTAGTTTTGTTTTCTCAAAGGTTCTTATGA ATTGGTATTGGAGCTTTCCACCATTGTCTCTCCGCTGCAAACAAGTGGCATAGGTGATGACGTTGGCATTGCAGTGTTCG CCCACTAGTCAGAGGGCTAGAGCATAGCTAGCCTGCATGGGCATGCCAGGGTTGTGGAGCGTGGTGGGATGTTAAGATAT AATGGCAAGGAATGAGACTTGAGTCTCATATTGGAAGTACGGATTCTGGTGTGAAGTTTATAAGGCCTTATGCTCTTCAA CTACAAGAGCTAGCTTTATCATGATAAACTTGGAAATTTGAGTAGATGATGGCAGTTTATACTCCCATAATGAGTGATAT AAGAGAATTAATCTATAAAGGTGAAGAAAGTTCATCACAGCATTAAATCAAAGATGACTGGTATAAGATCTAATCATCAT TAAATGATCACATTGTCAGTGTTACTATAAGTCGGTGCTTATATGTGATACATATCTAATATACAGAACAGGGTTTGGCA TATTGTTATTATGTTTACAATTCAAACTGACCAAGTTTTGTCTGATTATGGCATTGCACAGGTCATGTTGCAGGAGGAAA AACAAAAAGCTGATGAATATGAAAGGAAATACGTAGAAGCTCAAGAATCAAGCGAAGAGTTACGGAAAAAATTAGCAGAA ACTGAAAAAAGAGTATATCAGCTTCAGGACTCATTAAACAGGTAGTATTAGTATTATTCCCTTGAGGTTTCATGTGATCT TGCAATTTTGATTTTCCAATTCCAAAATCCATCATGGTGGTTAAATAATAGTCTGATGATATCGCGAGGTAAACGGATAA GCATAGTGAAAGAAGTGAGATTAGTAAGTCAAGAATAATTGGGTGTTGTATGTGTATTTATATCTGTATTTTTACTACGT GATATATTATCTTTTAACTAAAAGTGGTGATTTTTTCACTCCACTTTTTTAAGACTCACTTTATACTTTGATCTATTTCT CTTCTTTTCTCATACAATGTCCCATCACATCTCTTTATTTCTCACCATATCACATTTAGATGGGTGTAAATCTGGTGTAA AAACAATTTATGTGACACATATTTCTGTGCAACTAATTACAGGACTTGCACAAAAGACTATAAAACCAAATGATGGTCCT GAAAGGATCATACTTGGTCTATCAAGTCATAAACACTCTTTTAGAATTATCAAACATATACACTATTAAATGGTCTGTCA TTAGACACAATTCATGATAGAATATTAGGACTTATGACAACTCATTTGATCCATTTAACTTACCTTGTTTAGCGGGAAAA GACTTTGGTTGTTGTTGTTGTGTATTCTATCCATTCACTGATTACTTGTTACTGACCTGACAAACCTACAGGATTGAACA CTATAGAAATATTTAATGATTTGTAAACAATTTATCTTTCAGAAAAGTACTTGAAATAAAAGGTTCACTATATTTTAGGT AAATTACGGCGATACTCAATTAGGATTTTGAAAGAAATTCTGAAGTCTATCTGCTAAAAATGTGAGGTTAGGATATTTGA AAAGTTGAAAGGGACAAAAGCGAAGCTGCATAAGAAAATTCACTTGGGTTTCATTCCCCTTTAGGCATCTTCCCTAACAC TCTGTTTGGTAGAGAAGAGAGAGATAGAGAAGAGAGAGTAGAGAAGAGAGAAGTTGAGTAGAGAGAAATAGGTGAGAAAT AGAGTAGATTTAAAGAGAAGAGAGATAGAGAAGAGAGAGACCCCAAACATAGTGTAAATCAAGCCTTCACTCATCTTTCT TCAATCTCTCTTCAATTTGGAGAGACCAAAAAAGTGGTGGGACCCACCACTTTTTCTCCCCTCTATCTCCCTCCTCTCAC CTACCAAACACACATACTTCCCCCTAACTCTCTTCTCCATCTCTCTCTATCCAAACCTCCCTCTACCAAACAAAGTGTTA AAGTGAATGCATCATACCACCAAGAACATTATTTTCTTAATTAAAATAAAATTTATTAAACGAAGATATTAAACTCATCA ATTTTCCCAAAAGTACCGTTATCAGTAGGCATGGACAACCCAAGGTTTGAGATGAACACAGTTTTTTTTTTCTTTTTCTT TTGTTGATCTTCAGATGCTGTACTTTTTTACCACATAATGGGAACTGTACTTTTTTGGGCTTTGATAAACTTTATGTTTT AGAAAGTATATAACACCAGGGGGGAAATTATAGGGCGTTTGATGTGAGTTTGTGACATCCATGAATTATTTACCTTGTCG GCTTTTTATGGACATTAGTACAAATTAAATTATAACTTTTAAACCTAAATACTATTTGATTAATGCTAGATCTGAATTAG TGTGTATCAGGATGATATCTTCCATGTCAAGTCAAGTTGCCGAGCTGAAGATGATCTTAAGCACTTCTTCAAGATTGAGT TCAACTTTTCGACCTATTGCTAGAGTTGATGTTGCTTCCAGTAACTCTGATAGTTCATCCACAGACTCTGATTTCACATT TCCGGCACCTGTTTCAAATCCAGAAGCTTTCTCTTCCCCGAAGCCAAAATCTTTTGAACTAGTAGTTCAGGATATCACTG CAGCCGATGGATCAGGTCAGTCCAACTTTCTTCTCAAATGACAATGTACTTGCCCAACTTACGAGAAAATTATTTATCAG AGTGAAGCCACCCTATCCCTATATATATATATATATATATATATATATATATATATATATAGATCCTGTAATGTGTATTG TAAATGGAAGTTCTTTTTTAAGAATAAGAGTACTTTTTTTAAGACCTTTGCAGCCTGTGTAG
CDS sequence (LotjaGi5g1v0178200.6) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTGCAGTCAAACCCAGTCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATTCCAGCCGTTTCGGAAA ATTTGTTGAGATTCAATTTAATAAGTATGGACGAATATCCGGGGCAGCCATTAGAACTTATCTGCTGGAGAAATCTCGCG TTTGCCAAATCTCAGATCCTGAGCGTAATTATCACTGTTTCTACCTTCTCTGCGCTTCTCCTCCTGAGGATAAGGAGAAA TATAAGTTGGGAGATCCCAGATCATTTCACTACCTTAATCAATCCAGTTGCTATGAATTAGCTGGTGTAAATGCTGCTCA AGAGTATCTTAGCACCAAGAGAGCCATGGATATCGTGGGAATCAGTCAGGAGGAGCAGGATGCAATTTTCAGAGTTGTAG CTGCTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCATCAGTTCTAGAAGATGAAGAATCC ATTTTCCGTCTCCAAACAACAGCAGAACTTCTAATGTGTGAACCTGATGCTTTAGAAGTCGCACTTTGTAAGCGCGTGAT GATCACCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGCAGGGATGGTCTAGCCAAGACAT TATATTCTCGTTTATTTGACTGGATAGTCAATAAAATCAATAACTCCATTGGGCAGGATCCTAGCTCAAAATATCTCATT GGTGTTCTTGACATATACGGCTTTGAAAGCTTTCGAACTAATAGTTTTGAGCAATTTTGTATTAATTTCACAAATGAAAA GCTGCAGCAGCACTTCAACCAGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGGATTGACTGGAGCTACT TAGAATTTGTAGATAATCAAGATGTATTGGATCTCATTGAAAAGAAACCGGGTGGAATCATAGCTCTGCTTGATGAAGCT TGTATGTTTCCCAAGTCAACTCATGAAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATCACAAACGCTTCATCAA GCCTAAATTGGCACGCTCTGACTTTACTATTGTTCATTATGCAGGGGAGGTTCAGTATCAGTCTGAGCAGTTTATAGACA AAAACAAAGACTATGTTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGTATCAGGCCTTTTTCCT CCACTTTCTGAGGAGACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGCTACAATTACAACAACTGAT GGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCCTAATAATCTATTAAAACCTGGCATATTTGAGA ATATGAACATCATCCAACAATTACGTTCTGGTGGTGTTCTTGAAGCTGTAAGAATTAAATGTGCTGGATTCCCCACTCAC AGAACATTTCATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAACTTTGAAGAAAAGGATAA ATGTAAAATGCTTTTGGAGAAGATTGGGCTGACAGGTTATCAGATAGGGGAAACACAAATATTTCTAAGAGCTGGTCAGA TGGCTGAATTGGATGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCAGAGTAGAACTCATTTT AGTCGAAAAACATATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGAGAATTGGCCCGGATATC ATATTATCACATGAAGAGGGAAGCAGCTGCAATCAGAATTCAGATGTACACGCGTGGAAAATTAGCCAGAAAATGGTACA CTGAAATAAGGATTTCTGCCATTGTCTTGCAGACAGGTTTTCGGGTAATGGCTGATTGCTATAAATTGAGATATAGAAAG CAAAGTAAAGCTTCAACTCATATTCAGTCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATCAGGACCTTAAAAAGGT GTCAATCATTCCACAAAGCGTCAACCATCCCACGGATGAACATGAACATGAAGTTTTGGAGATATCAGTAGAAAATGAAA GTCCTTGTGTGGAAGAATCTTCAAATTCTTCCAAAGAAGAATCCTCAAGTCCTTTTCAAGATAATGAAAGCATTGAAGCG ATCAGGGATTCCTCTAGTCCTTTGGGAGACACTGAAAAGTATGAGGCTCTCACTGCAGAAATAAAAAACTTGAAGGTCAT GTTGCAGGAGGAAAAACAAAAAGCTGATGAATATGAAAGGAAATACGTAGAAGCTCAAGAATCAAGCGAAGAGTTACGGA AAAAATTAGCAGAAACTGAAAAAAGAGTATATCAGCTTCAGGACTCATTAAACAGGATGATATCTTCCATGTCAAGTCAA GTTGCCGAGCTGAAGATGATCTTAAGCACTTCTTCAAGATTGAGTTCAACTTTTCGACCTATTGCTAGAGTTGATGTTGC TTCCAGTAACTCTGATAGTTCATCCACAGACTCTGATTTCACATTTCCGGCACCTGTTTCAAATCCAGAAGCTTTCTCTT CCCCGAAGCCAAAATCTTTTGAACTAGTAGTTCAGGATATCACTGCAGCCGATGGATCAGGTCAGTCCAACTTTCTTCTC AAATGA
Protein sequence (LotjaGi5g1v0178200.6) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLQSNPVLEAFGNAKTVRNDNSSRFGKFVEIQFNKYGRISGAAIRTYLLEKSRVCQISDPERNYHCFYLLCASPPEDKEK YKLGDPRSFHYLNQSSCYELAGVNAAQEYLSTKRAMDIVGISQEEQDAIFRVVAAILHLGNIKFAKSEDSDSSVLEDEES IFRLQTTAELLMCEPDALEVALCKRVMITPEEIIKRSLDPIGATVSRDGLAKTLYSRLFDWIVNKINNSIGQDPSSKYLI GVLDIYGFESFRTNSFEQFCINFTNEKLQQHFNQHVFKMEQEEYTKERIDWSYLEFVDNQDVLDLIEKKPGGIIALLDEA CMFPKSTHETFAQKLYQTFKDHKRFIKPKLARSDFTIVHYAGEVQYQSEQFIDKNKDYVVPEHQDMLSTSKCSFVSGLFP PLSEETAKSAKFSSIGSRFKLQLQQLMETLNLTEPHYIRCVKPNNLLKPGIFENMNIIQQLRSGGVLEAVRIKCAGFPTH RTFHDFLTRLGILAPEVIRGNFEEKDKCKMLLEKIGLTGYQIGETQIFLRAGQMAELDARRARVLSKSATIIQKQSRTHF SRKTYIALRKSSVTVQSFCRGELARISYYHMKREAAAIRIQMYTRGKLARKWYTEIRISAIVLQTGFRVMADCYKLRYRK QSKASTHIQSYWRRHKALVEYQDLKKVSIIPQSVNHPTDEHEHEVLEISVENESPCVEESSNSSKEESSSPFQDNESIEA IRDSSSPLGDTEKYEALTAEIKNLKVMLQEEKQKADEYERKYVEAQESSEELRKKLAETEKRVYQLQDSLNRMISSMSSQ VAELKMILSTSSRLSSTFRPIARVDVASSNSDSSSTDSDFTFPAPVSNPEAFSSPKPKSFELVVQDITAADGSGQSNFLL K
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 |
---|---|---|---|---|---|---|
Pfam | 1 | 530 | 530 | 1.0E-194 | ||
SMART | 1 | 543 | 543 | 1.1E-237 | ||
ProSiteProfiles | 1 | 542 | 542 | 213.22 | ||
PANTHER | 2 | 875 | 874 | 0.0 | – | |
SUPERFAMILY | 2 | 596 | 595 | 1.24E-220 | ||
Gene3D | 2 | 472 | 471 | 1.2E-192 | ||
PANTHER | 2 | 875 | 874 | 0.0 | – | |
PRINTS | 6 | 33 | 28 | 4.4E-37 | ||
Gene3D | 57 | 121 | 65 | 1.2E-192 | – | |
Gene3D | 122 | 231 | 110 | 1.2E-192 | – | |
PRINTS | 239 | 267 | 29 | 4.4E-37 | ||
Gene3D | 248 | 432 | 185 | 1.2E-192 | – | |
PRINTS | 292 | 320 | 29 | 4.4E-37 | ||
Gene3D | 476 | 543 | 68 | 4.0E-14 | – | |
SMART | 544 | 566 | 23 | 12.0 | ||
Gene3D | 544 | 595 | 52 | 3.1E-10 | – | |
ProSiteProfiles | 545 | 574 | 30 | 6.998 | ||
Pfam | 547 | 565 | 19 | 0.072 | ||
SMART | 567 | 589 | 23 | 13.0 | ||
ProSiteProfiles | 568 | 597 | 30 | 8.498 | ||
Pfam | 569 | 588 | 20 | 0.081 | ||
SMART | 592 | 614 | 23 | 16.0 | ||
ProSiteProfiles | 593 | 617 | 25 | 8.865 | ||
SUPERFAMILY | 594 | 669 | 76 | 2.12E-5 | ||
Pfam | 595 | 613 | 19 | 0.0013 | ||
Gene3D | 596 | 636 | 41 | 4.5E-6 | – | |
SMART | 640 | 662 | 23 | 0.24 | ||
ProSiteProfiles | 641 | 666 | 26 | 6.742 | ||
Pfam | 643 | 661 | 19 | 0.039 | ||
MobiDBLite | 672 | 730 | 59 | - | – | |
SUPERFAMILY | 691 | 804 | 114 | 4.9E-5 | – | |
MobiDBLite | 694 | 724 | 31 | - | – | |
Coils | 734 | 789 | 56 | - | – | |
MobiDBLite | 828 | 856 | 29 | - | – | |
MobiDBLite | 828 | 843 | 16 | - | – |
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 LotjaGi5g1v0178200.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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