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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0178200 |
Transcript ID | LotjaGi5g1v0178200.3 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin; TAIR: AT1G54560.1 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_chr5:45509454..45523763) extracted from Lotus japonicus Gifu genome v1.2.
CAAATGATGCAGGGCATTCTAGAAAACGTTGTTGCCGGTTCTCACGTCTGGGTTGGAGATCCAGAACTAGTTTGGATTGA TGGACAAGTTTTGAATATTAATGGAGAAGAAGCTGAAATTCAAACAAGCAATGAGAAGAAGGTAAATTGGGATGTTTTAT ATGTTTTTTCCTTTCATTCTTATGTTTCTAGGTATCTCTAGTTCCACTTGTAATGGTATCGTTTTTTAGGATTCTAATTT CTAGGTATTTCAATATCCTTCATTTTGTGTGTTTGGCATGCTTTATTTATTTATATGAAACATGTATATTTGCAATATCT TTCAGGAAGGATCTTGTCCTGAAAGTACCTTGAAAAGGGTAGTGTGAAAAACTTTAATGCCAATAAAACTAGGCTTTCAT TAACATTTCATGTGAACTTCTTCAGGATTCAGTATTTAGTATCCTTGATTATAAAAGAAAGATATGTTCCATAATAAATT TTTCTGTTCCATTTTATGTTTAAAAGGCTTTAAGCAACTCAGAATTGTTACTTTTCACTTCTTAAGAACTAAGTCGATAA CAAAAGCAATAAAGCATATTCAGAAGTGGTTTGAACTTTGATGACATCCATTTGAACATTTATTTCTGTCAAAAGACACT GCCTGATTAGACTAAGAATACAGCTGATTCTGCTTCATATCAGCAACACTGTTGCAAACACGTGTGATCATGTAATCTGG ATAATTATCTTCTATTTTGTTTCCATGCTTTTAGGTTGTTTCCCGTTTATCAAAGCTACATCCCAAGGATACAGATGCTC CTACTGATGGAGTTGATGACATGACCAAGCTTGCTTATCTGCATGAGCCTGGAGTGTTGCATAATTTGGAAACTAGATAC AAGATCAATGAAATATATGTAAGATTGGCTCCATGTTTAGTTTTTAAACAGTTATGCTCACCTGATGGAATATAATGACT TACTGCTGCAGCTACGACCATCTCTTTTATAATAATTTGTCATCATGACAGACTTATACTGGAAATATTCTTATTGCGAT AAATCCCTTCCAAAGTCTTCCTCATCTGTATGATGTTAATGTGATGAAAAGTTACAAGGGAGCAGTAGTTGGAGATTTAA GCCCACATGTTTTTGCTATTGCTGAAGCAGCGTATAGGTCAGTTTACTCCATTTACTCTCAAATTTTCTTTCTCAATGGT ATTCTTATTAGCAGTCTGTTTGCTATAATTAGGGCCATGATTACTGAGGAGAAAAGCAACTCTATTCTGGTTAGTGGCGA GAGTGGTGCTGGAAAGACAGAAACCACCAAAATGCTAATGTGTTACCTGGCATTTTTGGGGGGTCACACTGCATCTGAAG GACGGACTGTTGAAAAACAAGTTCTAGAAGTAAGAAGGTTATCTAACTCTGGATTATGGTTGTTTTTTATTGTTTGTTTG ATTGTGGCTTATACAAAGACATTGTTTAAAGCTACATGCTCTTGCTCTTCGCGAAAATAAGAAAAACATAGTGATGCTTA GAAAGCTTGCTGTCAAAGAGACATAAAGAAAAATAATTAAGACATGTAAAGATCGATCACAAAGACCAAATATTTAATTG ATGTTAACGAGTGAAAACTGGAAAGAATAGATTCAATTCTGAACATATTTAGGCTCAAATTGATAGCAGTTAGTCAATGA AGTATTGCTTTATCTTAAATTTATTTATTGCTATGTTGGTTATTGGTTATGGTTTCTTCGTACCTCAGGCTTTTGCGCAT CATTTTAGAAACATAGGCAACATGAGTGTTTTTTTTAGTTTCCAGTTCAATTTGAGCTCAAGATGGATCTGGTCCATTTA AGACATTCTGCTATATTAAGAGAAAAGGAAAAGATGAAAGCAAGAGACATATGCATTAGACAATATGTTTAAATGACATA GAAAAGGTAATAAATCCTATAATTTCATCATGGTATTAGAGCCAATGGTTGTTGTGGCCATGGTGATGACTTGTTGTATC GAAAGTGTTAGAAATATAATATAAAATCATTCATGACATGGTATCAGAGCCTATCCTAGATCCATTTATTGTGGATACCA CCCATATATGGACTACCCGCAAATGTTCATTCTTGCAAATTCCACGCTCCAAATGTTCAGCCCTAGGCGTGGGAGGAGGG GGGTTTGAGAAGTCTTACATTGACTAGAGATATGGAAGGTGGGCCCGTTCATTGTCCAGGCTTCAAGCCCAAGTGGGCTC TTGCGTGAGAGAGCGTCTCAGAAATATAATATAAAATCATTCATGTCAGAAAGTCCTCTTGGCTATGTGGTGGCTAGACA GTGTCCTGTTGATGCAATGAAAGCGAACGCCTGTTGTCTCGCCAATAGATTATGAGACCCACATTGGTCTTCTCATTGGT GCAGGTTCTCCTGCTGCTTTCAGGCTTTCCATGTCTCCCCAACAGCGGAATCAGAGCCGAGGGTTGGTGCGACCATGGTG ATGACTCTTTGTATCACAATTCTTCTTGACAATGTGGTGACTAGGTGGCGTGTCTGGTTGATGCAATAAAAGTGAACGAC GGTGAAATTGTGGATAGCTTCCACTGAGGGAGAGCATTGTAATGTGATGGTGACTCACATCACACTTGAGGGGTAGATTG TCGGGTTTTCAAGTGTGAGTCTGAAGTCTCTCATTGGTTAAGAATGGGTAAAATGAAGAAAATATAAAATTTTAGACCCA TATACCAAATGCCTAAAATATGAAGACATGCACTCTTTTCCTATTAGATAATATTCTGGTTTTGAATATTTAGATTGCCC TTCTTTTGATTTGTCAATTAGCTTCTTTTTCATTGTTTATTGTGGGTGAATTTTAAACTCATCAGTCCTGTTAATATTAT AAATCGTCATGCTGCAGTCAAACCCAGTCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATTCCAGGTAT GAAATTTCTGTATGCTCTATGATGTTTGGCTTTTGATATAGTATAACATTTGTACACTGTATTTTCTTGAGCACTGTACT TGCATTTCCATGTATGTGATTTCTACAATCTCATTGAATTTCATATTGGTATCTTGTATATGTGGAGATTTATACTTATT TTTTCTTCATCCTTTGACTTTATAATCTTATTCATATTCTATACTTTTAAGTTCGTCATGAATTTTCTTGGGAATAAATT TTAATTCTTCATGGAAATGAGAGATGGCAATGTTATTCCATTCATTAAAAAACAAAATATCAGGAGCTATTTCTTATTTT CATTCTACTTATATTCAAGGCCAGGGAGAACTACTTGTCATCATAAAGGTGCTTTCTCATTTATGATTTAGTAATGTCAA TAACAAGTAGCAGTTTTGTGCTTATTTCTGTTTTCCTTGTTCTCCTGCAGCCGTTTCGGAAAATTTGTTGAGATTCAATT TAATAAGTATGGACGAATATCCGGGGCAGCCATTAGAACTTATCTGCTGGAGAAATCTCGCGTTTGCCAAATCTCAGATC CTGAGCGTAATTATCACTGTTTCTACCTTCTCTGCGCTTCTCCTCCTGAGGTAGGCAAGTCAAGCTTGATCTTCCATTCA CTATTCTTCACTATATAAATTTCTTGGTGGAATTCTGAATTGTTAACATTCTTTTGTTAGGATAAGGAGAAATATAAGTT GGGAGATCCCAGATCATTTCACTACCTTAATCAATCCAGTTGCTATGAATTAGCTGGTGTAAATGCTGCTCAAGAGTATC TTAGCACCAAGAGAGCCATGGATATCGTGGGAATCAGTCAGGAGGAGCAGGTATGAGTACAACTATGACCTTTGTTAGTG ATTCTAATAATTCTTTTAGCTTCCTCTCAGCTTCTCCAGACAAAAGGTAAAATTACTAATAATCTTTCCCCCATCCTCTC AGGATGCAATTTTCAGAGTTGTAGCTGCTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCA TCAGTTCTAGAAGATGAAGAATCCATTTTCCGTCTCCAAACAACAGCAGAACTTCTAATGTATAGCTGAACTTTGGCTGT TATCATTGTTCTTCTTTCTATTAAAATTTTTTATTGATAAATTTATTGTTATTTTAGGTGTGAACCTGATGCTTTAGAAG TCGCACTTTGTAAGCGCGTGATGATCACCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGC AGGGATGGTCTAGCCAAGACATTATATTCTCGTTTATTTGACTGGTATATTGGCTTTTCCGTGTGTAATGTAAATATATT AAAACAGATGACAAATGTTTGGTTATTGCTATTTCTTATTTCATTAAAGAATGAATAAACAATACATCAGTTACGATTAT GTGTTTTTTGTTATGTGCAGGATAGTCAATAAAATCAATAACTCCATTGGGCAGGATCCTAGCTCAAAATATCTCATTGG TGTTCTTGACATATACGGCTTTGAAAGCTTTCGAACTAATAGGTGAGAGTTTATGAAAATACCTCATCACAAGATGTGAT CTTTGCTATTGTATGTTTGCATACTCTATTTTAGGAAGAAACAGATAAGAACACTCACACAAGGTGTCGTACAATCAACA TTCGTTAATAAATATGTACATTTATACATATTCACTGTTCATATTATTCCCAAGCTTTTTTACTTTTTATTTCATCAAGC TTAGGTGGCCCAAACTCCTTATCCCCAATAATACCCTTGTCTCTCAATATTAATAATTTGAGCCTTTCATTTTGGTACCT TAGTAAATAAGATATTCCCAAGCTCATTTAATTTTCTATTGGCAGTTTTGAGCAATTTTGTATTAATTTCACAAATGAAA AGCTGCAGCAGCACTTCAACCAGGTATGAGGTTAGTTTTTCATATATCTTACAGCTACAACTGTAACTTCTCTCTTATCA TGCAATCTGATGTCTATGATGTTCTGCAGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGGATTGACTGG AGCTACTTAGAATTTGTAGATAATCAAGATGTATTGGATCTCATTGAAAAGGTCTATACAAACTTTGTTAGAAGTCCCAC ATTGGCTAAACTTTTAGTTTGGGCTTAGTATGTCTTAATGGCACGAATGAAAGCATACTTTATCGATTATCTGTTTTTTA AGTAATCATTTTGAAAATCAGGCAAACATTTGCTGACCCACATTTTCAGTGCGACAATTACTACCAAATTTAATTCAATG GCTTGCTGCTATATATATGAATATTGTTGGTTCCAGTCTGTAGGATGAAAAAAATCTCATCTAGTATTCAATTTGTTCTT GGAAGTTGCCTTGGGTATGCAACTATGCATTTTATATTTGATATGTGGAAGTGAAAAGTACTAAAAGTAATGTAGAGTAT GCAATCGTGATAATCTATAGAAAGCCCAAGTGTTGATCCCTTTGGTGTTCAACTCATGCCTAGTTTAAGGGCGTCAAGGA AGGCTCACAAAAGCTTAAGCTTAAGGCAGTTCCAAAAGCTCACAAAAGCTTTTGCTTCAGAATGTTATAACTGATCTCTA AAAGTGTTTTCTTTTGCAGAAACCGGGTGGAATCATAGCTCTGCTTGATGAAGCTTGGTATGAAAAAATTTCTTTGTTCT TCTTTTCTTATAATGCTGTGTATGCTTATGTGTTTAGAGAATAGTGAAATAGGAGAAGTTTTGTGCTTGCAAGGAATAAT TTTATGTGATTTAGAGATTGCCTAAAATTTAGTTTCATAACTTTGCCATGCATTATATCTTTGAATCATTATTAGGCACT CCTAGGATTTAATACTTATTCTTATGAGTTAGAGGAATTAATGGGTCAAGTTTTGGTCTCTTGTTTACTAATAACTTTTC CTAGAAAAAAATTGTACACTATTTGGTTGTTTCCTGATAATTCATCCTATTTGTCATTGATGATATTTTGCAAGATTATT CATAGGCAGTGTGTAAACTTGTAACAATTTTTAAGTTTTTCACTCAATGTTACCCTTACTGACATGATCATTATCTGCTT ACAGTATGTTTCCCAAGTCAACTCATGAAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATCACAAACGCTTCATC AAGCCTAAATTGGCACGCTCTGACTTTACTATTGTTCATTATGCAGGGGAGGTGAGTTTGATTCTTCACCATTTTTATGC AAGTTATTATCTTTCACTATGTGTTTCTCCTAAATGATGTTATTTCTGCACTTCTTTTCAGGTTCAGTATCAGTCTGAGC AGTTTATAGACAAAAACAAAGACTATGTTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGTATCA GGCCTTTTTCCTCCACTTTCTGAGGAGACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGGTATCCAA AATTTGGTTCTTTACCTTGTCAGGAAGAAATATTTTATCTGATAAGCCTTACTACAATTGAAAGATAAATACTGTCATAC TAATTTGTGCAGCTACAATTACAACAACTGATGGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCC TAATAATCTATTAAAACCTGGCATATTTGAGAATATGAACATCATCCAACAATTACGTTCTGGTGTAAGTAGATTTTAGA TTTAAGTTGTACCTTATTTGTTTTAAGGGTCGTATTATTGGCTCTTCCACCGCCTCTTCACATTCTCCACCAGCTACTAT TTCTTAAATTTTTCTCAACTAAATGATTTTATTTAGTCAAACCTTAATTAACTATAATCATATTTCTCTATTCATATTCA ATAGAGGACAATTAGAAATTGCAATTAATAGTGTGATGAATGTGAATAGGAAATTAGAAGTGCCAATAGCCCTTCCCTTG CTTTAAACTTACCTTTATTGAATTTACCCCCCCATTTTTTATATTATAGGGTGTTCTTGAAGCTGTAAGAATTAAATGTG CTGGATTCCCCACTCACAGAACATTTCATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAAG TAAGTTAACTCAATGCCAATTTGAACCTTCTTCTTTTCTCTCAATATCTTTATACTTTTGCTTTCTTCTTAGAATACCTG GTTTCGCATCCTGAAAATTATCTGCATATATGCAGCTTTGAAGAAAAGGATAAATGTAAAATGCTTTTGGAGAAGATTGG GCTGACAGGTTATCAGGTAGAACTGGAACTCTATTTGATGATATTCTGTCACTACAATCGATAATTAAAAAATCATTGAA TTTATTATCCTTGAATGTTAAACTTACTTCCATTTAAATAATTCTGTTATATTATTTTGTAAATATTTTTCTGGCACTTG TTTTTTGAATGGGGGCATGAAACTACGCTTGACTTATAGGAGGCATATTCTGACTCATATATGCTAACTGAAATTCTTTA TTGCAAGGCACTCTTCTGCATTCACTTGAATATTTTGTAATCGGGCTAATTTTGCAGATAGGGGAAACACAAATATTTCT AAGAGCTGGTCAGATGGCTGAATTGGATGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCAGA GTAGAACTCATTTTAGTCGAAAAACATATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGTAAG TTATTTGTACATTTTGTATCATGTGTCTTGGTTTCTCAGGTTGAGTAACTCCATGGGAATGAAAATATGAGGCCTTTCAG TTTGAGTCATATCTTCAATTTATCAAATTTTAAGGTCCTTCTTTCAAAATCTTTAAAATAAATAAAACTTTTTCATCAAG ATGCAATAGGATAGCAGCACATAGTCTTGAGGTCCTACCACCAAAAATTTATAAAATGTAATATTTAGGGTGAAACTCAA AAGAAGCTCTGATAATGATATTTGAGATTAAAATGAAAGTCAAAATAGATATCCAGAGACAATTATTTATTTCTTGAAAA AAATTCCTCTGCCATATCTACAGAGTACAGACTATGCTTTTTGTTACAGAAAAAGAAATGTTCCTTTCAAGCCAAAATAG GGGAACTTACCATCCATTCATCCAGTCATGACAGTATCTTAGTGTGTGATAGGTATAGTAACAGAGAAGAGTTAAGAAAG GAAAATGTGTAGTTATTTCCCTTCCTACTTTAGGTGAATTACAGTAAAGAACTCGAATTCAAGAAAGAAAGAAAATAATA GAGATACAAGGAATATCATCTTCCCACGTCCAAGCCAGAGGCCCCTACCTGAAGAGTGATCAATCCTGCCCTCTCTCCTT CTCTCCCTGCTATAACTACCTCCTTATCCCCTATGCCATATGGGTCTTCCATGGATGAACAATTCCGCGTAACTAACTTC AATCCTTGCTCCCTCCCTGTGTCTCCTTCTTAACTCTCCTAGAATATACCTTGGACACCTTAGGTGCACCGGTCCCCTGT TGTCCGGGTAACACCCCCCATTATCTAGTGTCTTTGATATTAAATTCGTATCAGTGTGGCTCTGAGTTGATTTTCCCTTC CGGCTATTCAAATTTAAAACAGTCTGAATTTGAAACATGCTTATGAAAACTTTTATAGTTCAAGTCTTGGTGACATTTTT TTTTAGTTTAGCTTCTTTATTGTTTGCTCTCTATAGTTTCGATGGCATTCTGAAGCATAGGCTTAAGAATTTCTACGCCC AGGATTCCACATCCATTTAATCAATATTTCATTAAGTGTTCTGTTGTTGCGACTTTTAGGAGAATTGGCCCGGATATCAT ATTATCACATGAAGAGGGAAGCAGCTGCAATCAGAATTCAGATGTACACGCGTGGAAAATTAGCCAGAAAATGGTACACT GAAATAAGGATTTCTGCCATTGTCTTGCAGACAGGTTTTCGGGTAATGGCTGATTGCTATAAATTGAGATATAGAAAGCA AAGTAAAGCTTCAACTCATATTCAGGTTAGTACTGTCCTTCTAATGTTAATGTTTTTTTTTTCTATATTTTGCTGTTGCC TAAATTTTGGGTGTGAAAAAAATGCAGTCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATCAGGACCTTAAAAAGGT GTCAATCATTCCACAAAGCGTCAACCATCCCACGGATGAACATGAACATGAACATGAACATGAATATGAACATGAACATG AACATGAACATAAGGTTCTATATGTATTTACACACTGTTATTAAATTCCTATGTTTTCATTTTCTTATTAGTTGTCTTGA TAATTATTACTAGCTACCATTAATTAGCATAGATGAATATGCAATTGTAAGAGATATAATTCAATTCTATTCTGAAGCCT TCTCATGGCTTAAAATTTTAAGGAGGACTAATTCCTTTCCTCTTAGAAACATTATTGCGAGTGTCTCCGGTGGTGTAAAT GGCATTGACAACAATGAACACATAAAAACCTGAAGTACTCTCTTTTAGCATAATTCTAATGATATCCTTGCTGATTACAC AACAAAATGAACTAGTTTGCCATCATGAATTCCCAGGTTTTGGAGATATCAGTAGAAAATGAAAGTCCTTGTGTGGAAGA ATCTTCAAATTCTTCCAAAGAAGAATCCTCAAGTCCTTTTCAAGATAATGAAAGCATTGAAGCGATCAGGGATTCCTCTA GTCCTTTGGGAGACACTGAAAAGTATGAGGCTCTCACTGCAGAAATAAAAAACTTGAAGGTAAACTTAGTATATCCACTA CCTTTGTTAGGATATCTGTTATATATCTTCTATTATCAATTTTGCATCTTAAAATATTTTACAATATATTAAATCGTGTT AGGAGTGATATCATGATGTATGTTATTTCCTGATTTAATTAGTATTAGGAGTCTAGTATTAGTATAAATATAGTTTAGTT TATATAACACGCCATCACACACCATTAGTTAATGTTTTATGCTATGATTCATTTATTCTCTTTTCATCCCTTTTTACCTA AATCCTTATAACTTCAACATGATTTCAAATTAGAACCATCTAGCATCCTTCATGACTTGTGTCATCACTTTTCCATTGTT GAGTTCCCTAAAATTTGGAACTCTATGGTGATGATGTCATTTTATCATGACTCTTTCTTCCCTTTGGCTGTGGACAAATT CCAATCATCCTCCTGACCCAAATTACTAATGATTTGTTTCCTTTGTTTTCTTCCCACTCTGATATTATTATTGGTTCTCA ACTGCCACCATGGCATTGAGAGGGAGACCAAGAAAGATAAAGTTAACTTTTTCTTAGTGACAATCAGTCTAGCAATCCAC TTACAATCATACCAGTTGTAACTTTTCTTCCCATTCTGTCTGGCCCCGCTGTCTCCACTTTGCAGATGCTCTGGCCCCAT CTTTATCACAGATGTTGTTTGGCCCCCAACTCTAGTCCCAGATGCAACCTCACACTCGTCTCTTGCAGTGAAACCTTCGC TCCTGACCGGAACAAATTGGCCCCATCTCCAGTCCCAGATGTTTGCAAATGCATTATATTTTTATTTTATTTATTTTTAG CATGTTTCATTATAACAAGCTTAAAGCTTAGCAAGCTTTAGTTTGAAAGGAGTGTTGAGATATCTCAAAATATCTGCTAA CATCATTATTGCGTCTCCTAACATTTTATTATATTTCATTATTTTTTCCTTATTTAATTAGAATTAGTAGTCCTTTATTA GTATAAATAAGGCTTAGTGCTTTATATTTTGTCATTATACATCGTATATGAATATCATATTTTATTATGCAGAGTTTAAA CTCTTTTTTTTTCTTTCTCTACCTATAGTTTCAACAATCTTACGTTTTTAAATTTAAATGAATATTTTTTTGTATACCTC ATTTTCTAACTTTAGATATTTGTATGAGAGGAGTGCTAGCAATACAATCTTTTGAACACTCACACACACACAACCTATGA TTGGTCTATTTTCAAAATAGTCAATATATTCTCTCACTTATTAACAAATTTGTTGACTTTTAAAAAATTAAGAAATAACA TGAAGAGTGTGTTGCTAGCATTTTTCTTTCTATAATTGAGAATTCACAACCGGTTTGGTAAGGTAATTTTTGGTTGAATT ACATGAAAACTAAATGTATGAAAGACATGAGAGCAATATTTTATTGTTGTCATAGAACTCAACTATTCATTAGATAGGCA ATATGACATTGATAAATATTTATTTTTATGTTAAAGGGAAACAAGGTTCTCGATAAGTTAAAATGGATGCAAACGACGTA TAAATGTAGATAGCAATAATACCCGAGAACTGATATGTTAGGATCCAATTGCAAAGTATGGGACTTGAGCTCTACATTGG AAGTATGAGATGCTGGTGTGGGGTTGTTTGGGCTCTCCCATTACAACAAATAGCTTTTGTAGTTTTGTTTTCTCAAAGGT TCTTATGAATTGGTATTGGAGCTTTCCACCATTGTCTCTCCGCTGCAAACAAGTGGCATAGGTGATGACGTTGGCATTGC AGTGTTCGCCCACTAGTCAGAGGGCTAGAGCATAGCTAGCCTGCATGGGCATGCCAGGGTTGTGGAGCGTGGTGGGATGT TAAGATATAATGGCAAGGAATGAGACTTGAGTCTCATATTGGAAGTACGGATTCTGGTGTGAAGTTTATAAGGCCTTATG CTCTTCAACTACAAGAGCTAGCTTTATCATGATAAACTTGGAAATTTGAGTAGATGATGGCAGTTTATACTCCCATAATG AGTGATATAAGAGAATTAATCTATAAAGGTGAAGAAAGTTCATCACAGCATTAAATCAAAGATGACTGGTATAAGATCTA ATCATCATTAAATGATCACATTGTCAGTGTTACTATAAGTCGGTGCTTATATGTGATACATATCTAATATACAGAACAGG GTTTGGCATATTGTTATTATGTTTACAATTCAAACTGACCAAGTTTTGTCTGATTATGGCATTGCACAGGTCATGTTGCA GGAGGAAAAACAAAAAGCTGATGAATATGAAAGGAAATACGTAGAAGCTCAAGAATCAAGCGAAGAGTTACGGAAAAAAT TAGCAGAAACTGAAAAAAGAGTATATCAGCTTCAGGACTCATTAAACAGGTAGTATTAGTATTATTCCCTTGAGGTTTCA TGTGATCTTGCAATTTTGATTTTCCAATTCCAAAATCCATCATGGTGGTTAAATAATAGTCTGATGATATCGCGAGGTAA ACGGATAAGCATAGTGAAAGAAGTGAGATTAGTAAGTCAAGAATAATTGGGTGTTGTATGTGTATTTATATCTGTATTTT TACTACGTGATATATTATCTTTTAACTAAAAGTGGTGATTTTTTCACTCCACTTTTTTAAGACTCACTTTATACTTTGAT CTATTTCTCTTCTTTTCTCATACAATGTCCCATCACATCTCTTTATTTCTCACCATATCACATTTAGATGGGTGTAAATC TGGTGTAAAAACAATTTATGTGACACATATTTCTGTGCAACTAATTACAGGACTTGCACAAAAGACTATAAAACCAAATG ATGGTCCTGAAAGGATCATACTTGGTCTATCAAGTCATAAACACTCTTTTAGAATTATCAAACATATACACTATTAAATG GTCTGTCATTAGACACAATTCATGATAGAATATTAGGACTTATGACAACTCATTTGATCCATTTAACTTACCTTGTTTAG CGGGAAAAGACTTTGGTTGTTGTTGTTGTGTATTCTATCCATTCACTGATTACTTGTTACTGACCTGACAAACCTACAGG ATTGAACACTATAGAAATATTTAATGATTTGTAAACAATTTATCTTTCAGAAAAGTACTTGAAATAAAAGGTTCACTATA TTTTAGGTAAATTACGGCGATACTCAATTAGGATTTTGAAAGAAATTCTGAAGTCTATCTGCTAAAAATGTGAGGTTAGG ATATTTGAAAAGTTGAAAGGGACAAAAGCGAAGCTGCATAAGAAAATTCACTTGGGTTTCATTCCCCTTTAGGCATCTTC CCTAACACTCTGTTTGGTAGAGAAGAGAGAGATAGAGAAGAGAGAGTAGAGAAGAGAGAAGTTGAGTAGAGAGAAATAGG TGAGAAATAGAGTAGATTTAAAGAGAAGAGAGATAGAGAAGAGAGAGACCCCAAACATAGTGTAAATCAAGCCTTCACTC ATCTTTCTTCAATCTCTCTTCAATTTGGAGAGACCAAAAAAGTGGTGGGACCCACCACTTTTTCTCCCCTCTATCTCCCT CCTCTCACCTACCAAACACACATACTTCCCCCTAACTCTCTTCTCCATCTCTCTCTATCCAAACCTCCCTCTACCAAACA AAGTGTTAAAGTGAATGCATCATACCACCAAGAACATTATTTTCTTAATTAAAATAAAATTTATTAAACGAAGATATTAA ACTCATCAATTTTCCCAAAAGTACCGTTATCAGTAGGCATGGACAACCCAAGGTTTGAGATGAACACAGTTTTTTTTTTC TTTTTCTTTTGTTGATCTTCAGATGCTGTACTTTTTTACCACATAATGGGAACTGTACTTTTTTGGGCTTTGATAAACTT TATGTTTTAGAAAGTATATAACACCAGGGGGGAAATTATAGGGCGTTTGATGTGAGTTTGTGACATCCATGAATTATTTA CCTTGTCGGCTTTTTATGGACATTAGTACAAATTAAATTATAACTTTTAAACCTAAATACTATTTGATTAATGCTAGATC TGAATTAGTGTGTATCAGGATGATATCTTCCATGTCAAGTCAAGTTGCCGAGCTGAAGATGATCTTAAGCACTTCTTCAA GATTGAGTTCAACTTTTCGACCTATTGCTAGAGTTGATGTTGCTTCCAGTAACTCTGATAGTTCATCCACAGACTCTGAT TTCACATTTCCGGCACCTGTTTCAAATCCAGAAGCTTTCTCTTCCCCGAAGCCAAAATCTTTTGAACTAGTAGTTCAGGA TATCACTGCAGCCGATGGATCAGGTCAGTCCAACTTTCTTCTCAAATGACAATGTACTTGCCCAACTTACGAGAAAATTA TTTATCAGAGTGAAGCCACCCTATCCCTATATATATATATATATATATATATATATATATATATATATAGATCCTGTAAT GTGTATTGTAAATGGAAGTTCTTTTTTAAGAATAAGAGTACTTTTTTTAAGACCTTTGCAGCCTGTGTAG
CDS sequence (LotjaGi5g1v0178200.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATGCAGGGCATTCTAGAAAACGTTGTTGCCGGTTCTCACGTCTGGGTTGGAGATCCAGAACTAGTTTGGATTGATGG ACAAGTTTTGAATATTAATGGAGAAGAAGCTGAAATTCAAACAAGCAATGAGAAGAAGGTTGTTTCCCGTTTATCAAAGC TACATCCCAAGGATACAGATGCTCCTACTGATGGAGTTGATGACATGACCAAGCTTGCTTATCTGCATGAGCCTGGAGTG TTGCATAATTTGGAAACTAGATACAAGATCAATGAAATATATACTTATACTGGAAATATTCTTATTGCGATAAATCCCTT CCAAAGTCTTCCTCATCTGTATGATGTTAATGTGATGAAAAGTTACAAGGGAGCAGTAGTTGGAGATTTAAGCCCACATG TTTTTGCTATTGCTGAAGCAGCGTATAGGGCCATGATTACTGAGGAGAAAAGCAACTCTATTCTGGTTAGTGGCGAGAGT GGTGCTGGAAAGACAGAAACCACCAAAATGCTAATGTGTTACCTGGCATTTTTGGGGGGTCACACTGCATCTGAAGGACG GACTGTTGAAAAACAAGTTCTAGAATCAAACCCAGTCCTTGAAGCATTTGGTAATGCAAAAACTGTAAGAAATGACAATT CCAGCCGTTTCGGAAAATTTGTTGAGATTCAATTTAATAAGTATGGACGAATATCCGGGGCAGCCATTAGAACTTATCTG CTGGAGAAATCTCGCGTTTGCCAAATCTCAGATCCTGAGCGTAATTATCACTGTTTCTACCTTCTCTGCGCTTCTCCTCC TGAGGATAAGGAGAAATATAAGTTGGGAGATCCCAGATCATTTCACTACCTTAATCAATCCAGTTGCTATGAATTAGCTG GTGTAAATGCTGCTCAAGAGTATCTTAGCACCAAGAGAGCCATGGATATCGTGGGAATCAGTCAGGAGGAGCAGGATGCA ATTTTCAGAGTTGTAGCTGCTATTCTTCATCTTGGAAACATTAAGTTTGCAAAGTCAGAAGATTCTGATTCATCAGTTCT AGAAGATGAAGAATCCATTTTCCGTCTCCAAACAACAGCAGAACTTCTAATGTGTGAACCTGATGCTTTAGAAGTCGCAC TTTGTAAGCGCGTGATGATCACCCCAGAAGAAATCATCAAGAGAAGTCTTGATCCTATTGGTGCAACAGTTAGCAGGGAT GGTCTAGCCAAGACATTATATTCTCGTTTATTTGACTGGATAGTCAATAAAATCAATAACTCCATTGGGCAGGATCCTAG CTCAAAATATCTCATTGGTGTTCTTGACATATACGGCTTTGAAAGCTTTCGAACTAATAGTTTTGAGCAATTTTGTATTA ATTTCACAAATGAAAAGCTGCAGCAGCACTTCAACCAGCATGTGTTTAAGATGGAGCAAGAGGAATACACAAAAGAAAGG ATTGACTGGAGCTACTTAGAATTTGTAGATAATCAAGATGTATTGGATCTCATTGAAAAGAAACCGGGTGGAATCATAGC TCTGCTTGATGAAGCTTGTATGTTTCCCAAGTCAACTCATGAAACATTTGCACAAAAGCTTTATCAGACATTCAAAGATC ACAAACGCTTCATCAAGCCTAAATTGGCACGCTCTGACTTTACTATTGTTCATTATGCAGGGGAGGTTCAGTATCAGTCT GAGCAGTTTATAGACAAAAACAAAGACTATGTTGTTCCTGAACATCAAGACATGCTAAGCACTTCCAAATGTTCATTTGT ATCAGGCCTTTTTCCTCCACTTTCTGAGGAGACAGCCAAATCTGCAAAGTTTTCTTCTATTGGTTCTCGTTTTAAGCTAC AATTACAACAACTGATGGAGACGCTCAATCTGACAGAGCCTCACTATATTAGATGTGTGAAGCCTAATAATCTATTAAAA CCTGGCATATTTGAGAATATGAACATCATCCAACAATTACGTTCTGGTGGTGTTCTTGAAGCTGTAAGAATTAAATGTGC TGGATTCCCCACTCACAGAACATTTCATGATTTTTTAACTCGATTAGGCATTCTTGCACCTGAGGTTATTCGAGGAAACT TTGAAGAAAAGGATAAATGTAAAATGCTTTTGGAGAAGATTGGGCTGACAGGTTATCAGATAGGGGAAACACAAATATTT CTAAGAGCTGGTCAGATGGCTGAATTGGATGCTCGGAGGGCACGCGTACTTAGCAAGTCTGCAACTATTATCCAGAAGCA GAGTAGAACTCATTTTAGTCGAAAAACATATATTGCATTGCGAAAGTCCTCTGTCACGGTGCAGTCCTTTTGCAGAGGAG AATTGGCCCGGATATCATATTATCACATGAAGAGGGAAGCAGCTGCAATCAGAATTCAGATGTACACGCGTGGAAAATTA GCCAGAAAATGGTACACTGAAATAAGGATTTCTGCCATTGTCTTGCAGACAGGTTTTCGGGTAATGGCTGATTGCTATAA ATTGAGATATAGAAAGCAAAGTAAAGCTTCAACTCATATTCAGTCTTACTGGCGTAGACATAAAGCTCTCGTTGAATATC AGGACCTTAAAAAGGTGTCAATCATTCCACAAAGCGTCAACCATCCCACGGATGAACATGAACATGAAGTTTTGGAGATA TCAGTAGAAAATGAAAGTCCTTGTGTGGAAGAATCTTCAAATTCTTCCAAAGAAGAATCCTCAAGTCCTTTTCAAGATAA TGAAAGCATTGAAGCGATCAGGGATTCCTCTAGTCCTTTGGGAGACACTGAAAAGTATGAGGCTCTCACTGCAGAAATAA AAAACTTGAAGGTCATGTTGCAGGAGGAAAAACAAAAAGCTGATGAATATGAAAGGAAATACGTAGAAGCTCAAGAATCA AGCGAAGAGTTACGGAAAAAATTAGCAGAAACTGAAAAAAGAGTATATCAGCTTCAGGACTCATTAAACAGGATGATATC TTCCATGTCAAGTCAAGTTGCCGAGCTGAAGATGATCTTAAGCACTTCTTCAAGATTGAGTTCAACTTTTCGACCTATTG CTAGAGTTGATGTTGCTTCCAGTAACTCTGATAGTTCATCCACAGACTCTGATTTCACATTTCCGGCACCTGTTTCAAAT CCAGAAGCTTTCTCTTCCCCGAAGCCAAAATCTTTTGAACTAGTAGTTCAGGATATCACTGCAGCCGATGGATCAGGTCA GTCCAACTTTCTTCTCAAATGA
Protein sequence (LotjaGi5g1v0178200.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MMQGILENVVAGSHVWVGDPELVWIDGQVLNINGEEAEIQTSNEKKVVSRLSKLHPKDTDAPTDGVDDMTKLAYLHEPGV LHNLETRYKINEIYTYTGNILIAINPFQSLPHLYDVNVMKSYKGAVVGDLSPHVFAIAEAAYRAMITEEKSNSILVSGES GAGKTETTKMLMCYLAFLGGHTASEGRTVEKQVLESNPVLEAFGNAKTVRNDNSSRFGKFVEIQFNKYGRISGAAIRTYL LEKSRVCQISDPERNYHCFYLLCASPPEDKEKYKLGDPRSFHYLNQSSCYELAGVNAAQEYLSTKRAMDIVGISQEEQDA IFRVVAAILHLGNIKFAKSEDSDSSVLEDEESIFRLQTTAELLMCEPDALEVALCKRVMITPEEIIKRSLDPIGATVSRD GLAKTLYSRLFDWIVNKINNSIGQDPSSKYLIGVLDIYGFESFRTNSFEQFCINFTNEKLQQHFNQHVFKMEQEEYTKER IDWSYLEFVDNQDVLDLIEKKPGGIIALLDEACMFPKSTHETFAQKLYQTFKDHKRFIKPKLARSDFTIVHYAGEVQYQS EQFIDKNKDYVVPEHQDMLSTSKCSFVSGLFPPLSEETAKSAKFSSIGSRFKLQLQQLMETLNLTEPHYIRCVKPNNLLK PGIFENMNIIQQLRSGGVLEAVRIKCAGFPTHRTFHDFLTRLGILAPEVIRGNFEEKDKCKMLLEKIGLTGYQIGETQIF LRAGQMAELDARRARVLSKSATIIQKQSRTHFSRKTYIALRKSSVTVQSFCRGELARISYYHMKREAAAIRIQMYTRGKL ARKWYTEIRISAIVLQTGFRVMADCYKLRYRKQSKASTHIQSYWRRHKALVEYQDLKKVSIIPQSVNHPTDEHEHEVLEI SVENESPCVEESSNSSKEESSSPFQDNESIEAIRDSSSPLGDTEKYEALTAEIKNLKVMLQEEKQKADEYERKYVEAQES SEELRKKLAETEKRVYQLQDSLNRMISSMSSQVAELKMILSTSSRLSSTFRPIARVDVASSNSDSSSTDSDFTFPAPVSN PEAFSSPKPKSFELVVQDITAADGSGQSNFLLK
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 | 9 | 1067 | 1059 | 0.0 | – | |
PANTHER | 9 | 1067 | 1059 | 0.0 | – | |
ProSiteProfiles | 10 | 59 | 50 | 14.958 | ||
Pfam | 12 | 47 | 36 | 2.2E-6 | ||
SUPERFAMILY | 40 | 788 | 749 | 3.23E-278 | ||
SMART | 58 | 735 | 678 | 0.0 | ||
ProSiteProfiles | 64 | 734 | 671 | 265.781 | ||
Gene3D | 65 | 664 | 600 | 1.4E-250 | ||
Pfam | 66 | 722 | 657 | 2.4E-248 | ||
CDD | 78 | 722 | 645 | 0.0 | ||
PRINTS | 94 | 113 | 20 | 7.5E-60 | ||
PRINTS | 151 | 176 | 26 | 7.5E-60 | ||
PRINTS | 198 | 225 | 28 | 7.5E-60 | ||
Gene3D | 249 | 313 | 65 | 1.4E-250 | – | |
Gene3D | 314 | 423 | 110 | 1.4E-250 | – | |
PRINTS | 431 | 459 | 29 | 7.5E-60 | ||
Gene3D | 440 | 624 | 185 | 1.4E-250 | – | |
PRINTS | 484 | 512 | 29 | 7.5E-60 | ||
Gene3D | 668 | 735 | 68 | 5.1E-14 | – | |
SMART | 736 | 758 | 23 | 12.0 | ||
Gene3D | 736 | 787 | 52 | 3.9E-10 | – | |
ProSiteProfiles | 737 | 766 | 30 | 6.998 | ||
Pfam | 739 | 757 | 19 | 0.09 | ||
SMART | 759 | 781 | 23 | 13.0 | ||
ProSiteProfiles | 760 | 789 | 30 | 8.498 | ||
Pfam | 761 | 780 | 20 | 0.1 | ||
SMART | 784 | 806 | 23 | 16.0 | ||
ProSiteProfiles | 785 | 809 | 25 | 8.865 | ||
Pfam | 787 | 805 | 19 | 0.0017 | ||
Gene3D | 788 | 828 | 41 | 5.6E-6 | – | |
SUPERFAMILY | 788 | 860 | 73 | 2.26E-5 | ||
SMART | 832 | 854 | 23 | 0.24 | ||
ProSiteProfiles | 833 | 858 | 26 | 6.742 | ||
Pfam | 835 | 853 | 19 | 0.049 | ||
MobiDBLite | 864 | 922 | 59 | - | – | |
SUPERFAMILY | 883 | 996 | 114 | 7.19E-5 | – | |
MobiDBLite | 886 | 916 | 31 | - | – | |
Coils | 926 | 981 | 56 | - | – | |
MobiDBLite | 1020 | 1035 | 16 | - | – | |
MobiDBLite | 1020 | 1048 | 29 | - | – |
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 LotjaGi5g1v0178200.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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