Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi3g1v0129700 |
Transcript ID | LotjaGi3g1v0129700.6 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin family protein, putative, expressed; TAIR: AT2G31900.1 myosin-like protein XIF; Swiss-Prot: sp|F4IRU3|MYO12_ARATH Myosin-12; TrEMBL-Plants: tr|V7BT17|V7BT17_PHAVU Uncharacterized protein; Found in the gene: LotjaGi3g1v0129700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:15985001..15999113) extracted from Lotus japonicus Gifu genome v1.2.
ATGATAAATGAGAATGGAAGTCAATCCATTTTGGTGAGTGGAGAGAGTGGAGCTGGTAAAACGGAGACAACCAAAATGCT AATGAGATATCTAGCTTTCATGGGGGGAAGGTCTAATACAGAAGGCAGGACTGTAGAACAACAAGTCTTGGAGGTCAGTT TTAACTACTAGCAAATGTTTCTCAGTTAACTCAAATCAGGTATATGTAGTGACACTTTCACTTCTTCAGTCCAATCCAGT GTTGGAAGCTTTTGGAAATGCCAAAACTGTCAAAAACAACAATTCAAGGTAAAAAAAAATGCATACGGATTTTCTCAGAT TACATTTTCTTTCATAATTTCCATTTTAGTTGATATTACAAAATTATTGGACTTTCTGGCAGTCGTTTTGGTAAATTTGT TGAAATTCAATTTGACAAGAATGGAAAGATTTCTGGAGCAGCAATCCGTACCTATCTCCTTGAAAGGTCAAGAGTTTGTC AGGCTTCTGATCCAGAGAGAAACTATCATTGCTTTTACATGCTTTGTGCAGCACCACCAGAGGTGACTTCTACATAATTA AATTGAAACAAAAAAAAAATTTGTAACATATCATTAACTCCTAAAATCTAACAGTTAAAGTTTGCTTGATAGGATCTTGA GAGGTTCAAGTTAGGGGACCCAAGGCAATTCCACTATCTGAATCAATCAAACTGTTATGAAGTGTCAAATGTAGATGATG CTAAAGAATACTTAGAGACCAGAAATGCAATGGATATTGTAGGTATCAGCCAGGATGAGCAGGTATTGTGCCAATGCAAC AGTGCATCATATTTTGAAGAAGCAATGATTTATGTTTATCCAGAGACATTCGATCAAAGAAAATTTCCCTCCACAGGATG CTATCTTTCGTGTGGTAGCTGCAATCCTTCATCTAGGAAACATTAACTTCGCCAAAGGGAATGAAGTTGATTCATCAAAA TTGAAAGATGACAAATCACTCACCCACCTTCGAACTGCAGCCGAGTTACTCATGTACAAGCATTGATCCAACTTTAAAAT CCATATAATCTGTATGCTTCACCTTTAATGTCTATGACATGATTATTTTCAGGTGTGATGATAAAGCACTAGAAGACTCA CTTTGCAAGCGAGTCATTGTTACTCCTGATGGGAACATTACAAAACTACTAGACCCAGATGCAGCTGCTTTGAGCCGAGA TGCTTTGGCAAAGACTATGTACTCCAGACTGTTTGACTGGTAAAAACAAACTAAGAATGACAACATGTATCTTCATTCAG TCGCAACATTAAAAACCCTGATAATTTTATATCCAGGAAACATACTACTCCTATACAACATCAATCATAATACACAACAA ATCATCTATGAACAAAAAGTGTTTTGATATAATCCAAATGCATGCTTCAAATATGTTAGGATTGTGGACAAGATTAACAG TTCAATTGGGCAAGATGCAAATGCAGTCAGCTTAATAGGAGTCCTTGATATTTATGGATTTGAAAGCTTCAAAGTCAACA GGTAAATGGGATAGTTATGTTTCATAAAGACAATTTCTTCGTCTCTAAATTTTAATCTCATTCATTCTCTATATACAGTT TTGAGCAACTGTGCATCAACCTAACAAATGAGAAGTTGCAACAACATTTTAATCAGGCAAGGTTATAAATTCTAAATAGA TCTTAAGCAACATTATCGATACAAACATATAATATAGAAATGCATCTGTTTCCGCAGCATGTATTCAAGATGGAGCAAGA AGAGTACACAAAGGAGGAAATCAATTGGAGCTATGTAGAGTTTGTGGATAATCAGGATGTTCTTGATCTTATTGAGAAGG TCATTAGAAACTTGTGTATCAGCATTGCTTGTGAAGGATCTTTTATACCAGATAAATATTGATACTGTTTACATGTATTG CTTGCAGAAACCTGGGGGAATAATTGCTCTTCTTGATGAAGCCTGGTATGTCAATTTCTCACTTGAAAAACTGTGAATAG ATAGATTGGCTATACAGATAAACTTTTTTGCAAATAGTATACCTACAAAATAATTCCTCAATCAAGGAGAGAATGGTGGT AGGATTATTTTTTGAAAGGAAATGGTGGTATAGTTAGCTCAGCCAGATTTTATTTTCCTGCTAAACAGGAAGCAAAAACC AGGAAAGCAAGTCAAAATTTAATTATATTCTTATTTACTGCAGCATGTTCCCCAAGGCAACTCATGAGACTTTTGCACAA AAGATGTACCAGACATATAAAGGACACAAGCGCTTCAGCAAGCCAAAACTTGCTCGAACAGATTTCACAATTAACCACTA TGCTGGAGATGTAAGACAAGGAATTCTAAATTTTTCTCGCCGGCCATCCATTTTAAAATTAAAAATGCTAATTTCTTGTC ACAAATATTCTTTATTTACAGGTCACTTACCAAGCAGATTATTTTCTAGATAAGAATAAAGATTATGTTATAGCAGAGCA TCAAGCTCTTTTATGTGCTTCCAAGTGCACATTTGTTGCTAATCTTTTCCCTCTTCTACCTGAGGAGACATCAAAGCAAT CAAAATTTTCTTCCATGGGCTCACAGTTTAAGGTAAATATATTTCAATTTCGGTGTTTAGTTTCTCCAGTCTCTAGAAAC TCCGAGTCCTTGAATTGCTTCTGAATAAATCTTAATATCCAGCAACAACTGCAATCACTCATGGAGACACTGAGCACAAC AGAACCACATTACATAAGATGTGTGAAACCTAATACAGTTTTGCAGCCAGGAATCTTTGAGAACTTCAATGTCTTAAACC AATTAAGATGTGGGGTAAGTTTAATTTCTCCTATTGTTCTTAAATGTATGCCTGTTCAGTGGATTTGAGAAATACCCCTG CCGAAAAAAAAGGGACATTTACCTCATTGCTTCTTGCAGGGAGTACTTGAGGCAATAAGGATTAGTTGTGCTGGATATCC AACAAAAAGAACATTTGAAGAGTTCCTTGATCGCTTTGGAATGCTAGCTCCTGATGTCCTTGATGGGTATGCATTACTAT AGTCTACAAGAAAATGAAAATGATGCTTTTTAACTTTGATTGTCATATGAAATTCACACCTTCATGAAGATAGAGCAAGA ATGATGAGTCAAAGATGTAATACTCTATTAAACTACTTGAACCACCACATGAAAGTAACTATAACAATAATCTATGATGT AGCTCCTATCATTGAAGATAAGCTCAGATTCACTTGAAAGTAAATATCATATATCTATATCTCTCATTGAAGTTCTAAAA AATATGCTTTGATCTTCACAAACCCATATGATAGTTAATGCTTTCTTGTATGTAGATCTGATGAGAAAAAGGCATCTATT GCAATCTGTGAGAAGATGGGCCTAAAAGGCTATCAGGTAAGTCTATACATGGGAAACATGTTCTATGGAAGTAAAAGGCA TAATCATGCATAAAATTTTCAGGAATTTGTTATAAGCTCTCATCCATTTTATCCCAATGTTTCAATCAGATGGGAAAAAC AAAGGTATTTCTCAGAGCTGGTCAGATGGCTGAATTAGATGCACGAAGAGCTGAAGTCTTAGCTAAAGCAGCTAGACTCA TACAGAGACAAATCCGAACACATTTAACCAGAAAAGAGTTCATCACCCTTAAAAAGGCCACAATTCAGATCCAGAAGATT TGGAGAGGTCATCTTTCTTAACAAAATAACTTGTATTTTTAGTACATCTCCTTTTTAAGTGCATAATTCTTATGGTTCTG TCCTATAGATAACTTATTCGAGTTACTTTCTTTTGCCCTTCATTTTTTCAGCAAGACTTGCACGTGAACTATATGAGCAC ATGAGAAGGGAAGCAGCTTCTATCCGGGTGCAGAAACATGTGCGTGCACACAGAGAAAGAACTTATTACACATCATTACA AGCATCAGCTATTGTTATTCAATCTGGCATGAGAGCATTAGCAGCACGAAATGAATTTAGGTACAGAAGAAGGACAAAGG CTTCAACCAAAATTCAGGTAAAGACATCACTAGAAGCAATATCTAACACCAACATAGATCATGACATGCATAATGAAATC ATTTGGAATCCAAATGTTTGCTCATGGAAAAGTTCATCTAAAATTTCATCAATAAGAAATTCAAGATGCTTGATTCTTTT TAAAATTAATAATTTAAATTATTCCATTTCATTTCTTCTGACAGACACAATGGAGAAGAGCCAAAGCTGTTTCTGATTAC AAACAGCAGAAGAGAGTAGCTCTTTCACTTCAATGTCTCTGGAGAGCTAAAGTAGCACGGAAAGAGCTCAGAAAGCTTCG GATGGTGAGTGTTGCTTCTGTGCATCATTTTTCTAGAAGCCAATTTTTTTTAGAATATCTAATAAGAAAGAAATATTTTC AAAAGTAGAGGTGTGTAACAGTTTTAAGTTGCTGTGCAGGCTGCAAGGGAAACGGGGGCACTTAAGGAAGCAAAGGACAA GTTGGAGAAGCGTGTTGAGGAGCTGACATGGAGACTGGATATTGAAAAGCACTTGCGGGTAGGGACTATCAACTAGTTCT ACATGATAACCACTAAATGGATTCAAGTAAAATTATCAATTATAAGTAAAAATAAAAAGGGATTAATTTTCATTCAAAAG TAAGATTCTATTTTCATAGTTTTTATCAGTGAGTAACTGTCTAGTGCACTCCTTTCAAGATACTAATGAGGAGAAAAACT ATTCAGTCCTTCATATAGCAGTTTATCCAGCCCATCTAATCTGGAAATAATAACATGCAGCTTGACCTTGAAGAAGCTAA AGGGCAAGAGATAGCAAAATTACAGAATACTTTACAAGAAATTCAAGCTCAGCTAGATGAAGCCCATGCTGCAATTATAC ATGAGAAAGAAGCAGCAAAAATAGCAATTGAACAAGCACCACCTGTAATTAAAGAGGTACCTGTTGTGGACAACACCAAG CTAGAGTTGCTGACAAATAAAAATGAGGAGCTGGAGGTAAAATAATTTTTTTCCTGGACATTTTTAAATTTTACTTTTAG TATTAAGATGGTGGGACACTGGAATTACATTCAGCAGGGTAAGAAGTACTTCTAAATGATAAAATGATACATAAGAAAAG TAAGGAAAGCTTTTTATTAACCCTTTTTTTTAAGAAATATTATTTTTAAAATAAATATTATATCTTTTACCACCAAAAAC TTAAATGAATAATGAGAACTGTCACATATATAAATAATTTGCATGCAAACAGCACTGCATAGATGAATACTTTTCACTTG ACAATGTGATGGCAAGTACTTAAATTGAAGTTCTGAAAATACAGAGTGAAGTAGAACAGCTAAAAAGTAAGATTAAAGAG TTTGAAGAAAGGTGCTCAGAAATTGAAAAAGAGAATCAAGCAAGGCTGAAAGAGGCAGAAGAAGCACATCTCAAAGCGAC ACAACTTCAGGAGACTATTGAAAGGTTGTGGAAATAATATTTAGCCACACAATATCTCTACCAACATAAACTGGAATTGA CCATCTATACTTTACTACTCCAGATTAGAATCAAGTTTGTCAAACCTTGAGTCTGAGAACCAGGTTCTATGTCAGCAGGC ATTAGTAGAATCAAATAATGAAGAACTATCTGAAGAGATAAAAATGTAAGTACAATATGCTATTTGGATAATTTATTATT ATTTTTCTTCTAAGTGATACTTAGTTGCCAGATGCCTGCATTTGAATGTAGTAAATCAAAAACTTTATATGCATCAATGA GCTCCCTTGTTTTTGGATTAGATGTTTTGATATTGTTGAGATATGTTGATTAAATAAATAGGGAATAAATATATTTAGTA TATTTTATCTTTTATTAGGATAGATCTTTTCCTTATTTAGCTATCCCTAAACTCTTATATATATATATGTACTCAGCTTC ATGAAATAATCAATCAGAATATTTCATTCAAGTTGGTACCAGAGCTTTCTGATTCAAGTCTCCCTCTGGTTTACTAGTTT AGTTTAGGGTTTCAGCCGTCGTAGGCTAACCCTTATTTTTACCAGTTAGAATTCCGGAAGCAACCACCGGCCGCCACCAC TGCTGTTGATTGCTGCTACCATAGTCCGCTGCTGCCACCACTGTGTCGTGATCAGCCGCCACCGCCAGCCGCTGCCGCCG CCGCCGGTCGCCGCTGATAATTTTTTCTGGGTTTGCTTGTTTTTATTCCAGGATTCCTCTTCTGTGGTTCGTTTCTGTGT TTGAGGTCTCTTGTTTCTGTTTTTTGGCCTGTTCCAATCAGTGAGCCTTTCGTTTGAAGTGTGTTTGGATTTGTTTGGTT GCGGTTGTTTTCCCTGTCTCTGTTTGTTCTTTTTCTTCATGGAGGATTTGCTGAAGGATAAGTCTCCCAAGGGTGAGAAG AAGAGTCTCATCTCATTTGCTTTTTCTGGGACTCCTGTTATCACTTCTGAGAAGTTGAATGAGGCAAATTATCTAGATTG GTCCAATGCTGTTGAGATCTGGTTTTTGGGTCAAGGTTTGTCCGAGCACCTTACTAAAAAATGTGCTGATATTGATGCTT CTGAGAAGAAGGAATGGGAGAAGGCTGATTATCAACTTGTTTCTTTATTATACCAGGCAATTGAACCTAGACTGATTGTT CACTTTCGTCCCTACAAAACATGTTATGATGTGTGGAAAAAGGCACAGGACATCTATGCTAATGATATTCAGCGGTTGTA TGATTCAGTACGTAATTTGGCAAATCTCGAGATGACTGATCTTAATTTGCCGTCTTACCTGAATAAGGCACAATCTACCA TTGTGGAGCTGAAGTCAATGCTGGTTAATGACGATTTGAAGAAGGTGCTGGAGAAACTTGACAATATGTTCATGGTGTTT GTTTTGCATGGTCTCCATAAGGATCTGGAATCTGTTCGAAACCAGACCCTTACTAATCCCAATATTCCTACAGCGGAGGA GCTTATTAATCGTTTACTTCGTGTTCCTTCATCTGCCACTTCAACTAGACTTGAATCTCATACAGCCTCTGACTCCTCTG CTCTCATATCAAATTCTTTTGAGTCAGGGGGTCGAGGTCGTGGTCGTAAAGGTGGTGGACGTGGAAGAGGAGGTAGAGGA AATCTCCATTGTTCTTACTGTAAGAGGGATGGACACACACAAGATCGTTGTTACTCTCTAGTTGGGTTTCCAGACAAAAC TGCTAATGTCGCACAGTCTTTGGAGTCCAAGGTTGAATCTGATGGTGCAAAGAACCACTCATTCTCAACTGATGAGTACA AGGAATATCTCCAGCTGAAGGGCGCTCAAAGATCATCTTCATCAGCAACTGTTGCTCAAACCGGTAATTCTACGGTTTGT TACTCTCATTCTACACCTGTTGGATCCTGGGTTTTGGATTACGGTGCCTCAGATCATCTCACTGGTAATCCTTCCTTTTT CTCTAACTTATCTTCACCCAAAACTACACACCATGTTACCCTTGCAAATGGCTCGAAAGTACAAGCCACCGGTGTTGGGC AGACATCTCCTCTTCCTACACTACCTTTGAGTTCTGTTCTATTAGTTCCGGGATGTGCTTTTAATCTTATTTCTATAAGT AAATTAACCAAATCATTAGGTTGTGCCATAACTTTTACCTCTGATTCCTTCTTTATACAGGACCGGAGTACGGGACGGAT GATTGGAGCAGGATCTGAATCACATGGTCTCTATTATCTACAACAACCATCTTCTGCAATTTGTGCGGCTGCTGCTGAGT CTCCGAGTTTACTTCATCGTCGTCTGGGACATCCGAGTTTGGACAAATTAAAGAAGATGGTGCCTTACTTGTCGCAGTTA GAGTCTTTGGAATGCGAGTCATGTCAGCTTGGGAAGCATGTTAGGTCGTCTTTTCCTAGTAGCATCAATAAAAGGGCCCT ACATCCATTTGATGTCATTCATTCTGATGTTTGGGGTCCAAGTCGTGTTTCTTCTATCTTAGGATACAGGTATTATGTCA GTTTTATTGATGATTTCTCCCGGTGTACTTGGATATTTTTAATGAAAGATAGATCTGAGTTGTTTAGTATCTTTCAAAAA TTTTGTCATGAAATTGAAACTCAATTTGATAAGAAAATTCGTGTTCTGCGAAGTGATAATGCTAAAGAGTATTTTTCTGA TTCCTTTAACTCTTTTATGAAGTCTCATGGCATTATACATCAGTCTAGTTGTCCACATACACCCCAACAAAATGGGGTAG CTGAGAGAAAACATAGACATATTGTGGATACGGCTCGTACTTTATTGATGAATGCTAATGCACCTTTAAAGTTTTGGGGT GAAGCTGTTTTGACTGCAGGATATTTGATAAATCGGATGCCATCATTTGTTTTGGGTAATCAGATTCCTCATTCCATGTT GTATCCTAGGGAATCTTCATTTTGTGTTCTGCCTCGTGTCTTTGGTTGTACTTGCTTTGTTCATGATCTTTCACCAGGTC GTGATAAGATGTCTGCTCGAGCTGTCAAATGTGTCTTTTTAGGTTACTCTCGTGTTCAAAAAGGGTATAAGTGTTACTCT TCATCCACACATAAGTTCTACACTTCTGCAGATGTCACGTTCTTTGAAGATACACCTTACTTTGTTACAACTGGTCAACA ATCTGATCTAGATATATTTCCTGTGGTTTTACCTGTTCCTCAAGTGTCTATGTCACCATCTTCGGTCGTTACTCCTCAAG CAGACACTTCCACTCCATCAGCGCCAGCTCCTGATATGTCTCGTTATCGCATTACTTATGAGCGTCGCCCACGACGTACA GTAACGGATGAGCCCCACGACTCAGTTTCTGCAGGACATGAGACATGTGATTTGGTTCCTCATCAAGCCTCCTCTCCTGC TTCGGATCCTGTTGACTTGCCCATTGCCCTCCGGAAAGGTAGTCATTCTACTCGTAATCCTTATCCTATTTATAATTTTC TCTCATATCATCGCTTGCCCCCTGCATACTACGCTTTTGTTTCTACCATATCTTCCATTACTGTACCTAAGACTATACAG GAGGCCCTATCTCACAAAGGTTTGCGTCAAGCGATGATTGACGAGATGACAGCTTTAGAGTCTAATAATACATGGGAGCT TGTTCCTCTTCCTGCAGGGAAATCTATTGTTGGGTGTCGTTGGGTCTTTAATGTTAAAGTAGGCCCTGATGGGCATATTG ATCGATTGAAGGCTCGTCTTGTTGCCAAAGGGTACACTCAGGTTTATGGCTTGGATTATAGTGATACTTTTTCACCAGTT GCAAAGATGGCATATGTCCGTTTATTTTTTGCCATGGCTGCTATGCGACATTGGCCCTTGTTTCAGCTGGATATTAAAAA TGCTTTCTTACATGGTGATTTGGAAGAAGAGATCTATATAGAGCAACCACCGGAGTTTATTGCTCAGGGGGAGTCAGGAC TAGTTTGTAAATTGCAAAAGTCTCTGTATGGTCTGAAACAATCACCCCGAGCTTGGTTTGGCCGTTTCAGCAATGTTATT CAGCAGTTTGGGTTAGTTCGTTGTGAAGCGGATCACTCAGTCTTCTTTAGGTGTTCATCCTCAAAGAGGTTCATTTATCT TGTTGTCTATGTGGATGATATTGTAATCACCGGTGATGACCAAGAGGGCATACAAGCTCTTAAGCAGCACCTGTTTCAGC ATTTTCAGACTAAGGATCTTGGATCTTTGCATTACTTTCTTGGGATTGAGGTAGCTCAGTCAAAGTCTGGCATTGCTATT TGTCAAAGAAAGTATGCGCTTGATATTTTGGAAGAAACGGGCCTTCTTAACTGCAAGCCTGCGGATACTCCTATGGACCC TAATGTGAAGCTTCTGCCTAACCAGGGGGAGCCTTATTCTGATCCAGGAAGATATAGGAGGTTAGTAGGAAAGTTGAATT ATCTCACAATGACCAGACCTGATATATCATTCTCTATTAGTGTTGTTAGTCAGTTTTTAAACTCTCCTTGTAAGAGTCAT TGGCAGGCTGTTATTCGGATACTTCAATATATAAAAGGTTCGCCTGGAAAAGGTCTTGTTTATACTGATAGAGGTCATAC TAGTATTACTGGATATTCAGATGCGGATTGGGCAGGTGATGCAGGTGATAGGAGATCCACCTCTAGTTATTGTGTTTTTA TTGGTGGAAATCTCATCTCTTGGAAGAGTAAGAAACAAAGTGTTGTTGCTAGATGAAGCACCGAAGCTGAGTATCGTGCT ATGGCTCATACTACGTGTGAGCTCTTGTGGTTGAAGCACTTACTTCAGGAGTTGAAGTTTTGTGCGATTACTCCTATGAA CTTAGTATGTGACAATCAGTCAGCTTTACATCTTTCTTCTAATCCGGTTTTTCATGAACGAACAAAACATATAGAAGTTG ATTGTCATTTTATTAGGGAGAAGATTCTTTGTGGTACTATCAAGACTTCTTCTGTTTGCTCTCAAGATCAGCTGGCTGAT ATTTTTACCAAGTCTTTACGAGGTCCCCGGATAAAATATATATGTGACAAGCTGGATGCATACGATTTATATGCTCCAAC TTGAGGGGGAGTGTTGAGATATGTAGATTAAATAAATAGGGAATAAATATATTTAGTATATTTTATCTTTTATTAGGATA GATCTTTTCCTTATTTAGCTATCCCTAAACTCTTGTATATATATATGTACTCAGCTTCATGAAATAATCAATCAGAATAT TTCATTCAAGTGATATGATGTACAGAATTCGCTTTGCAAGATGGTGATACATAAATGAGGCGTCAAAATGAACCTGGTAT AGGTCTAGTAATTGTTCATACTTGATAGGATAGGTTTTTAAAAGAAAATGAAAACAACAAAACAAAGGAGACCATGATAA ATTGTTCTTTTTTCCTTTCATTTAAGAGTTCTGAATGTGCTGCATTTGTACAATATGTGTTACTTTCCTTTCCATAAATA TTTTTGAAGATTAAAGTTTTCCAATTAAACATCACAGATAATTTCTCAATAACATAGGCCATATATGCTTTTATATCATA TCACATTAAGTGGGCTTACACACCATTTTCTTGACAATAGATTTAGGAAGGAATTTTTAAAACATAAAAAAAATTACTGG CATATACACGTCTCTAAATTAGTTCCAATTTAATGCCATCTCTAGCCTCAAGGATCAGATAGAAAATCTAGAATCAGAGA ATGAAGTTCTAAGGAGCCAGGCAGCCGCTGTTGTCGAGCAGAAGGTTTATCCAGAAAAGATAGAAACAGGCCAGGAGGTT GCTGTTGTAGAACAGATACAACCAAGAGTTATTACAGATACCATGACTTCACAAATAAAGGTATACTACTCTGAGCTTTC CCTAAGGATTATTCATTATGTGACAATTATCTTTTATGATGATCGATGCAGAACTTGGATAACAGAAATCAAACAGAAGA AGAATGGCATGCCAGAAAGGTATTTCCAACTTGATAACATGTGTTTTTCAATAATTTCAAGGGTAAGTAATTGATCACAG TAATTGAAATTGAAAAAATGATGTTTCCAGGAACTTAGAGCACCTGTGTCTTTGCTTACGAAACAAAGATCACTCACAGA CAGACAGCAGGTATATATGATCTCATAACACAATTAAGTGAGGCAGAAATTCCACCCTAAAATTAAATGGTATCTTACAG TTTTTATATATCTATATCTTCTAAACAGGAAAGTTATGATGCACTGCTCAAGTGTCTCATGGAAGATAAGAAATTTGAGA AAAACAGACCAGCAGTTTCTTGCATTGTTTATAAAGCACTTCTTCATTGGAGATCATTTGAATCGGAGAAGACACATATA TTTGATAAAATTATTCACGCTATCAAATCATCTATAGAGGTAGTATTTTCCAAGAGCTTTATACACCAACAATAGTTAAG GAATTCTTGATAAAACATCAGTTTTTGAACCTAAATTATTGAAAGCAATTTATCATTTTATGTCCTGGCAGAGCCAAGAA GGAATCAATGACCTAGCATATTGGCTTTCAACAACTTCAACACTTCTGTTTTATCTACAATGTACCATCAAGGCCAGCAA TACAACTAGGGCCGCTTCGCGTAATAGGAACTCCCCTGCCAGCCTATTTGGCAAAATGGCACAAGTATGATTTCGAAGCT GCAAAATTTCAGTTCATTAAATCAATGTTAAAAACATAACGATACTTGATGTACAATGTCAGGGCTTACGTTCATCTTCA TTGGGCATGGGGATTTCAAGTGGCTACAGTGGAATGGTGGAAAAGCCAAATGAGCAATCTAAAGTGGAAGCCAAATACCC AGCAATTCTTTTTAAGCAACATTTAACTGCATATGTGGAGAAGATTTATGGAATGATCCGAGATAGTTTAAAGAAAGAGA TTAGCCCATTCTTAAATTTGTGTATTCAGGTAATCATGTTGAAGAAAAACAGACAATACAAAGTACAACAGAAAATTGGA CATTGGTTGATTAGATAAATCTTTTATCACCATTGACAGGCACCAAGATCCTTAAGGACCAGATCAATAAGAGGGTCATC TAGAAACATCCATTCAAATATAGTTGCAAAACAACAGGCATTGCATATGCACTGGAAAAGCATTGTGAACAAATTAGATC ATACCTTGGATATATTGTCTGCTAACTATGTAAGCATGAATTACTCCCTTAATATTGCTTTGGCTGGGTTGTTCAGATCA GATAAGAGATTTCTCAAATTTCTACATCTCATAACTTCAGGTCCCTCCCATGATAACAAGGAAGATATTTAGTCAGGTCT TCTCATTCATGAATGTTCAACTGTTTAATAGGTGAGCAGATTTTCCATTCAATTGCACTAAGTATATTGGAGTAGTGATT GTTGATTCAACTTAGTACAGATTCTCATAAAATTATGGTCTGTTAGTTTGTTGCTTCGCCGGGAGTGCTGTTCCTTTAGC AATGGAGAGTATTTGAAGGCAGGTTTGCATGAGTTGGAACTCTGGTGTCTAAAAGCAACAGATCAGGTAGCTTTAGAAAT TTGCCATAACCTAGACTAAACAGAACAGAAGTGCAAGACACCAATTATCTAAGTCCTTACTTTTGTGTTACTTCTTATTC ACTTTGCAGTTTACGGGGACATCTTGGGATGAACTCAAACACATACGCCAAGCTGTCAGCTTTCTGGTATACTTTCTTGA ACAATGATTACAAAATAATGCACACTTTCTTTCCCCTTTCCTCAATATTCGATTTTAAAATGCTTCATTTATGCAGGTTT TGCATCAAAAGACTCAAAAACCTTTGGAGGAGATCACAAAAGAACTCTGCCCGGTAATTTAATTAACTAACTCATAACCA AGACACAACAGTTAATACTTAGTATCTCAATAACAGTTTCTATCTTATACCTACTTGGATAAGTAGCTTTTCTCTAACTT ATGGTTTTTTATCAAGAATGACTTTTTTTTTACTTTGAAACTATCTAAATCACATGCTTAAAATTCGAGTAAAAGAGGAG TGCCTCTAATACAATGTAACCTATAATCTCTTGTTTTATGTTCCCTATATCAGGTGTTAAGTATTCCACAAATATACCGT ATTGGAACTATGTTCTGGGATGACAAGTATGGAGCACAGGGACTATCTGCAGAGGTAAGTTCTTGTCTCCTCAAACATTT TCGGCTCAGCTGCATGTTTGTGCAATGCATTCTATCATAGCTTCATTCTACAGCACATTCAATTCTTTCTTAATCCCAAA TATACTAAAACATCATTCATTTAATTTTTACAGGTAATTAGCAGAATGAGAGTGCTTATGACAGAAGACTCCGAAAACAT ACCACCCAATAACTCGTTCCTTCTTGAAGTGGATTCCAGGTAATGAACTATTTAACATGCTTCTACATCTAAAAATCACT TCTTAGCCAATATAAACACATTTTGTTTATGTTTGTTGTATGAAAAAGCATACCGTTCTTAATGGAGGAGATGTTCCGGT CCATGAGTGACATTCGGTTATCTGATATGGATGTGGATCCGCCACCAATCCTGAGACAAAGGTCTGATTTCCAGTTCTTG TTGCAACAAATTGATAGTAGTGACTCTCAATGA
CDS sequence (LotjaGi3g1v0129700.6) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATAAATGAGAATGGAAGTCAATCCATTTTGGTGAGTGGAGAGAGTGGAGCTGGTAAAACGGAGACAACCAAAATGCT AATGAGATATCTAGCTTTCATGGGGGGAAGGTCTAATACAGAAGGCAGGACTGTAGAACAACAAGTCTTGGAGTCCAATC CAGTGTTGGAAGCTTTTGGAAATGCCAAAACTGTCAAAAACAACAATTCAAGTCGTTTTGGTAAATTTGTTGAAATTCAA TTTGACAAGAATGGAAAGATTTCTGGAGCAGCAATCCGTACCTATCTCCTTGAAAGGTCAAGAGTTTGTCAGGCTTCTGA TCCAGAGAGAAACTATCATTGCTTTTACATGCTTTGTGCAGCACCACCAGAGGATCTTGAGAGGTTCAAGTTAGGGGACC CAAGGCAATTCCACTATCTGAATCAATCAAACTGTTATGAAGTGTCAAATGTAGATGATGCTAAAGAATACTTAGAGACC AGAAATGCAATGGATATTGTAGGTATCAGCCAGGATGAGCAGGATGCTATCTTTCGTGTGGTAGCTGCAATCCTTCATCT AGGAAACATTAACTTCGCCAAAGGGAATGAAGTTGATTCATCAAAATTGAAAGATGACAAATCACTCACCCACCTTCGAA CTGCAGCCGAGTTACTCATGTGTGATGATAAAGCACTAGAAGACTCACTTTGCAAGCGAGTCATTGTTACTCCTGATGGG AACATTACAAAACTACTAGACCCAGATGCAGCTGCTTTGAGCCGAGATGCTTTGGCAAAGACTATGTACTCCAGACTGTT TGACTGGATTGTGGACAAGATTAACAGTTCAATTGGGCAAGATGCAAATGCAGTCAGCTTAATAGGAGTCCTTGATATTT ATGGATTTGAAAGCTTCAAAGTCAACAGTTTTGAGCAACTGTGCATCAACCTAACAAATGAGAAGTTGCAACAACATTTT AATCAGCATGTATTCAAGATGGAGCAAGAAGAGTACACAAAGGAGGAAATCAATTGGAGCTATGTAGAGTTTGTGGATAA TCAGGATGTTCTTGATCTTATTGAGAAGAAACCTGGGGGAATAATTGCTCTTCTTGATGAAGCCTGCATGTTCCCCAAGG CAACTCATGAGACTTTTGCACAAAAGATGTACCAGACATATAAAGGACACAAGCGCTTCAGCAAGCCAAAACTTGCTCGA ACAGATTTCACAATTAACCACTATGCTGGAGATGTCACTTACCAAGCAGATTATTTTCTAGATAAGAATAAAGATTATGT TATAGCAGAGCATCAAGCTCTTTTATGTGCTTCCAAGTGCACATTTGTTGCTAATCTTTTCCCTCTTCTACCTGAGGAGA CATCAAAGCAATCAAAATTTTCTTCCATGGGCTCACAGTTTAAGCAACAACTGCAATCACTCATGGAGACACTGAGCACA ACAGAACCACATTACATAAGATGTGTGAAACCTAATACAGTTTTGCAGCCAGGAATCTTTGAGAACTTCAATGTCTTAAA CCAATTAAGATGTGGGGGAGTACTTGAGGCAATAAGGATTAGTTGTGCTGGATATCCAACAAAAAGAACATTTGAAGAGT TCCTTGATCGCTTTGGAATGCTAGCTCCTGATGTCCTTGATGGATCTGATGAGAAAAAGGCATCTATTGCAATCTGTGAG AAGATGGGCCTAAAAGGCTATCAGATGGGAAAAACAAAGGTATTTCTCAGAGCTGGTCAGATGGCTGAATTAGATGCACG AAGAGCTGAAGTCTTAGCTAAAGCAGCTAGACTCATACAGAGACAAATCCGAACACATTTAACCAGAAAAGAGTTCATCA CCCTTAAAAAGGCCACAATTCAGATCCAGAAGATTTGGAGAGCAAGACTTGCACGTGAACTATATGAGCACATGAGAAGG GAAGCAGCTTCTATCCGGGTGCAGAAACATGTGCGTGCACACAGAGAAAGAACTTATTACACATCATTACAAGCATCAGC TATTGTTATTCAATCTGGCATGAGAGCATTAGCAGCACGAAATGAATTTAGGTACAGAAGAAGGACAAAGGCTTCAACCA AAATTCAGACACAATGGAGAAGAGCCAAAGCTGTTTCTGATTACAAACAGCAGAAGAGAGTAGCTCTTTCACTTCAATGT CTCTGGAGAGCTAAAGTAGCACGGAAAGAGCTCAGAAAGCTTCGGATGGCTGCAAGGGAAACGGGGGCACTTAAGGAAGC AAAGGACAAGTTGGAGAAGCGTGTTGAGGAGCTGACATGGAGACTGGATATTGAAAAGCACTTGCGGCTTGACCTTGAAG AAGCTAAAGGGCAAGAGATAGCAAAATTACAGAATACTTTACAAGAAATTCAAGCTCAGCTAGATGAAGCCCATGCTGCA ATTATACATGAGAAAGAAGCAGCAAAAATAGCAATTGAACAAGCACCACCTGTAATTAAAGAGGTACCTGTTGTGGACAA CACCAAGCTAGAGTTGCTGACAAATAAAAATGAGGAGCTGGAGAGTGAAGTAGAACAGCTAAAAAGTAAGATTAAAGAGT TTGAAGAAAGGTGCTCAGAAATTGAAAAAGAGAATCAAGCAAGGCTGAAAGAGGCAGAAGAAGCACATCTCAAAGCGACA CAACTTCAGGAGACTATTGAAAGATTAGAATCAAGTTTGTCAAACCTTGAGTCTGAGAACCAGGTTCTATGTCAGCAGGC ATTAGTAGAATCAAATAATGAAGAACTATCTGAAGAGATAAAAATCCTCAAGGATCAGATAGAAAATCTAGAATCAGAGA ATGAAGTTCTAAGGAGCCAGGCAGCCGCTGTTGTCGAGCAGAAGGTTTATCCAGAAAAGATAGAAACAGGCCAGGAGGTT GCTGTTGTAGAACAGATACAACCAAGAGTTATTACAGATACCATGACTTCACAAATAAAGAACTTGGATAACAGAAATCA AACAGAAGAAGAATGGCATGCCAGAAAGGAACTTAGAGCACCTGTGTCTTTGCTTACGAAACAAAGATCACTCACAGACA GACAGCAGGAAAGTTATGATGCACTGCTCAAGTGTCTCATGGAAGATAAGAAATTTGAGAAAAACAGACCAGCAGTTTCT TGCATTGTTTATAAAGCACTTCTTCATTGGAGATCATTTGAATCGGAGAAGACACATATATTTGATAAAATTATTCACGC TATCAAATCATCTATAGAGAGCCAAGAAGGAATCAATGACCTAGCATATTGGCTTTCAACAACTTCAACACTTCTGTTTT ATCTACAATGTACCATCAAGGCCAGCAATACAACTAGGGCCGCTTCGCGTAATAGGAACTCCCCTGCCAGCCTATTTGGC AAAATGGCACAAGGCTTACGTTCATCTTCATTGGGCATGGGGATTTCAAGTGGCTACAGTGGAATGGTGGAAAAGCCAAA TGAGCAATCTAAAGTGGAAGCCAAATACCCAGCAATTCTTTTTAAGCAACATTTAACTGCATATGTGGAGAAGATTTATG GAATGATCCGAGATAGTTTAAAGAAAGAGATTAGCCCATTCTTAAATTTGTGTATTCAGGCACCAAGATCCTTAAGGACC AGATCAATAAGAGGGTCATCTAGAAACATCCATTCAAATATAGTTGCAAAACAACAGGCATTGCATATGCACTGGAAAAG CATTGTGAACAAATTAGATCATACCTTGGATATATTGTCTGCTAACTATGTCCCTCCCATGATAACAAGGAAGATATTTA GTCAGGTCTTCTCATTCATGAATGTTCAACTGTTTAATAGTTTGTTGCTTCGCCGGGAGTGCTGTTCCTTTAGCAATGGA GAGTATTTGAAGGCAGGTTTGCATGAGTTGGAACTCTGGTGTCTAAAAGCAACAGATCAGTTTACGGGGACATCTTGGGA TGAACTCAAACACATACGCCAAGCTGTCAGCTTTCTGGTTTTGCATCAAAAGACTCAAAAACCTTTGGAGGAGATCACAA AAGAACTCTGCCCGGTGTTAAGTATTCCACAAATATACCGTATTGGAACTATGTTCTGGGATGACAAGTATGGAGCACAG GGACTATCTGCAGAGGTAATTAGCAGAATGAGAGTGCTTATGACAGAAGACTCCGAAAACATACCACCCAATAACTCGTT CCTTCTTGAAGTGGATTCCAGCATACCGTTCTTAATGGAGGAGATGTTCCGGTCCATGAGTGACATTCGGTTATCTGATA TGGATGTGGATCCGCCACCAATCCTGAGACAAAGGTCTGATTTCCAGTTCTTGTTGCAACAAATTGATAGTAGTGACTCT CAATGA
Protein sequence (LotjaGi3g1v0129700.6) extracted from Lotus japonicus Gifu v1.2 Proteins.
MINENGSQSILVSGESGAGKTETTKMLMRYLAFMGGRSNTEGRTVEQQVLESNPVLEAFGNAKTVKNNNSSRFGKFVEIQ FDKNGKISGAAIRTYLLERSRVCQASDPERNYHCFYMLCAAPPEDLERFKLGDPRQFHYLNQSNCYEVSNVDDAKEYLET RNAMDIVGISQDEQDAIFRVVAAILHLGNINFAKGNEVDSSKLKDDKSLTHLRTAAELLMCDDKALEDSLCKRVIVTPDG NITKLLDPDAAALSRDALAKTMYSRLFDWIVDKINSSIGQDANAVSLIGVLDIYGFESFKVNSFEQLCINLTNEKLQQHF NQHVFKMEQEEYTKEEINWSYVEFVDNQDVLDLIEKKPGGIIALLDEACMFPKATHETFAQKMYQTYKGHKRFSKPKLAR TDFTINHYAGDVTYQADYFLDKNKDYVIAEHQALLCASKCTFVANLFPLLPEETSKQSKFSSMGSQFKQQLQSLMETLST TEPHYIRCVKPNTVLQPGIFENFNVLNQLRCGGVLEAIRISCAGYPTKRTFEEFLDRFGMLAPDVLDGSDEKKASIAICE KMGLKGYQMGKTKVFLRAGQMAELDARRAEVLAKAARLIQRQIRTHLTRKEFITLKKATIQIQKIWRARLARELYEHMRR EAASIRVQKHVRAHRERTYYTSLQASAIVIQSGMRALAARNEFRYRRRTKASTKIQTQWRRAKAVSDYKQQKRVALSLQC LWRAKVARKELRKLRMAARETGALKEAKDKLEKRVEELTWRLDIEKHLRLDLEEAKGQEIAKLQNTLQEIQAQLDEAHAA IIHEKEAAKIAIEQAPPVIKEVPVVDNTKLELLTNKNEELESEVEQLKSKIKEFEERCSEIEKENQARLKEAEEAHLKAT QLQETIERLESSLSNLESENQVLCQQALVESNNEELSEEIKILKDQIENLESENEVLRSQAAAVVEQKVYPEKIETGQEV AVVEQIQPRVITDTMTSQIKNLDNRNQTEEEWHARKELRAPVSLLTKQRSLTDRQQESYDALLKCLMEDKKFEKNRPAVS CIVYKALLHWRSFESEKTHIFDKIIHAIKSSIESQEGINDLAYWLSTTSTLLFYLQCTIKASNTTRAASRNRNSPASLFG KMAQGLRSSSLGMGISSGYSGMVEKPNEQSKVEAKYPAILFKQHLTAYVEKIYGMIRDSLKKEISPFLNLCIQAPRSLRT RSIRGSSRNIHSNIVAKQQALHMHWKSIVNKLDHTLDILSANYVPPMITRKIFSQVFSFMNVQLFNSLLLRRECCSFSNG EYLKAGLHELELWCLKATDQFTGTSWDELKHIRQAVSFLVLHQKTQKPLEEITKELCPVLSIPQIYRIGTMFWDDKYGAQ GLSAEVISRMRVLMTEDSENIPPNNSFLLEVDSSIPFLMEEMFRSMSDIRLSDMDVDPPPILRQRSDFQFLLQQIDSSDS Q
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 | 590 | 590 | 0.0 | ||
Pfam | 1 | 577 | 577 | 1.7E-218 | ||
CDD | 1 | 577 | 577 | 0.0 | ||
Gene3D | 1 | 524 | 524 | 3.0E-217 | ||
ProSiteProfiles | 1 | 589 | 589 | 244.411 | ||
PANTHER | 1 | 1435 | 1435 | 0.0 | – | |
SUPERFAMILY | 1 | 643 | 643 | 1.44E-249 | ||
PANTHER | 1 | 1435 | 1435 | 0.0 | – | |
PRINTS | 7 | 32 | 26 | 1.7E-52 | ||
PRINTS | 54 | 81 | 28 | 1.7E-52 | ||
Gene3D | 110 | 165 | 56 | 3.0E-217 | – | |
Gene3D | 166 | 277 | 112 | 3.0E-217 | – | |
PRINTS | 287 | 315 | 29 | 1.7E-52 | ||
Gene3D | 299 | 481 | 183 | 3.0E-217 | – | |
PRINTS | 340 | 368 | 29 | 1.7E-52 | ||
Gene3D | 525 | 589 | 65 | 1.7E-15 | – | |
Coils | 581 | 601 | 21 | - | – | |
Gene3D | 590 | 643 | 54 | 7.3E-11 | – | |
SMART | 591 | 613 | 23 | 8.1 | ||
ProSiteProfiles | 592 | 621 | 30 | 7.144 | ||
Pfam | 594 | 612 | 19 | 0.011 | ||
SMART | 614 | 636 | 23 | 0.69 | ||
ProSiteProfiles | 615 | 644 | 30 | 8.773 | ||
Pfam | 617 | 635 | 19 | 0.027 | ||
SMART | 639 | 661 | 23 | 15.0 | ||
ProSiteProfiles | 640 | 666 | 27 | 7.236 | ||
SUPERFAMILY | 643 | 740 | 98 | 1.62E-10 | ||
Gene3D | 644 | 694 | 51 | 1.9E-7 | – | |
SMART | 662 | 684 | 23 | 17.0 | ||
ProSiteProfiles | 663 | 692 | 30 | 7.968 | ||
SMART | 687 | 709 | 23 | 2.2 | ||
SMART | 710 | 732 | 23 | 5.8 | ||
ProSiteProfiles | 711 | 740 | 30 | 8.023 | ||
Coils | 734 | 768 | 35 | - | – | |
Coils | 773 | 807 | 35 | - | – | |
Coils | 830 | 947 | 118 | - | – | |
CDD | 1013 | 1400 | 388 | 0.0 | ||
ProSiteProfiles | 1062 | 1376 | 315 | 51.369 | ||
Pfam | 1251 | 1355 | 105 | 1.2E-23 | ||
SMART | 1251 | 1358 | 108 | 1.4E-39 |
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 LotjaGi3g1v0129700.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…