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 | LotjaGi6g1v0112900 |
Transcript ID | LotjaGi6g1v0112900.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Villin; TAIR: AT2G29890.1 villin-like 1; Swiss-Prot: sp|O81643|VILI1_ARATH Villin-1; TrEMBL-Plants: tr|I1N029|I1N029_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0112900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:26924220..26936089) extracted from Lotus japonicus Gifu genome v1.2.
GAGAAAGTTTTAGATGTGATAAATGATAAGAGGAGAAAGATAGAAATAAAAATAGGTGGAAATGAAGTGTTTAAAAGATG AGGTGTGTACATATCATTACTCTTTCCATGGCCATGCCTTGCAACTACTCGTACAACAGACAACACAAGGGACCAAGACC AACCAAGCTGCACCTGTTTCATTCAACATCACCATCATCATCATCTTCTTTTCATCATACAGAGTGGAAAGTGAACAACT AGAAAGTGACTTTTGTGGGGCCCCCTCACTAGCTGGATGGTAAAGATATAAACGTTGCCTTTTATTTTGTTTTTGCTTTA ATTCAAGTCACTTTCTCTACCAAACGCTGATCTCATTAAATATAAAAATTCTCCATTTCTTTTGTCTCAGCTCTTACTCT TCAATGTGCCAAATGGGAATATCCAAGTTTTGTTCTTTCCCTGTCTGTTCAAGCATCAGTATCATCATCAGCTTCACTTG TTAGCTTTTGGGTCCTCCTGAATCTGCTGTGGAACCAAGGTATGATCCATCAGTTACCATCATGTTTGGACTGGTCAACT GTAATGCTCTTAGACTTTGTTCCTACATCATGTTTACAGATTCTGAATTTTGACCTTCCATACTTCAGAATTCAGATCAT ATTTTTTCTTTTGTTTTTACTTTTTATTGCATTGTTACTATTATTGTGTGTTTGTCCTAAGGCTCAAGAAATGACCTTTG TGGCTGATATCATACCTCAGTGATATGTAGATTTCTGAGACTTAAGTGTGAAGATCTTGAGGTAGACAGAACTGGGTTTT CTTCCACTGAACTGTAGCTATTGACTGCTACTGAATCCTAAAGTGTTAGGCTAGTTTCTTATTAAGTTTTCTGAAAATTT GGAAATTTTTTTTTTGACTCAGTAGTTTAGATTTCTTGCTATTATTAGATTTCTTCCCATTTCCAATTATATGTGGAAGT TCGAATTTTGAAGTGTGCAGTATGGAAGTTATAGATTGATTCAAATCTTAAACTTAAGCATATTGCAATTAGTATGGAGG TTTAAGATTAATTGCATTGATGGTTGAATGTATTTCCTTACCTTGATTTATTAACTATAACACTGCTTCTAGATTATATA TGAGCAGAACATCAGGCTGTTAATATAAATCCTTAAGTTTCTTTCTTCGTTCTTTAATTGCTTTATCATTACCTCTTAAA CCCTAACTAGAAATTCTTAGTACAAAACTCTGAATTGTGTAATCTCATTAATTAGTTACATTTTTCTTAGATTATGAGGA CTAACATAACATAAATCCTGGATTGCAGAACAATCTAGGGTTGAGTTATTTCAGTGGAGTAGTAGAGCCATAGAGACAAT GCCTATTCTCAATAAAGACTTGGATTCCGCATTCCAAACTGCCGGAGCAAACCCGTATCCTTTCAATAATTTTCTTTCAA GTTGTCTTATAATTTGTTAGTCTATTTACTAGGTAATAGTTATCTTCAGGTTTTTTTTTCTTATGCCAGAGAAAATAAGT GGTCAACTTGCATTAGTCCAACCTCAGTCATTGTATGAATGTGTTATCGCTTATAAGAGACAAGAGATCAAGAAGCAATT TCATGTATAACATTGAAACACATATCACATTTCTTTGTTCAAGTTCTCTCCTTTACACTTAGCTCTATATTCTTAGAGGC CTAGAAGTTTGGTGTATTGAGAACCAGCTGTTAGTTCCAGTGTCAAAGTCAAACCATGGAAAATTCTATACTGGAAGTGC ATACATAGTTTTGAATGTAAGATATTGCTCACTTTATTTCCCTGTTGATCTTTTTAAACACATTATGAAGTTGATGACTG CATCTTAATTAAAGTCCAAAATTTCAAGGAATATCATCATCATCTCTTTTAGAGTTACACTATCCACTTTTGATGTTGAT CCTGTTACTTTTGGAGCCACCTTCACCAGAATAGAGTTTTAGTAATTCCCTATCAGTATGAGCTTCATTTTCATCTAAAT TCTCTTGACGTACAATTGATCTAGACATTTTTACATGTTTGTGGAAACAGGCCGTTTTTCCCAAAAATAGCCCTCCTCAG TATGACATACATTTTTGGTTGGGAAATGATGCAAATAAGGTTAGTATTATTTCTTGTTTTACTGTCTTGATTGCGGTGGT AACTGTTTATTGATGCTAATTCTCTACAGCAAAGTTTTAAGCTTCATATTCCATTAGTCGGTTAGTCCATTACTTTTTTT TGTCCCATTTGGTTCCCTGTTTTTTGTACTCCTAATGTGGTCCTCCAATTTCCCTAAAACCATTTCATGTCTTATTTTTC CTCCCCTTTATTCTAGTTGTGGTCTAGTTTTTTCCCCTTTTTGTTCTCTCTTGTATTTGGGATTGGAGTACCCCTTGTAC TCCCCTTTTAATATTACTTTGGCTTACCCAAAAAAAAAGTCTTATTTTTCCTCATGTTTATTGCAACCGATTTTCCTCTA ATTTGAGAAGCAAGTGGAACTGCATAGAACTGTTGCCTATAAATTGAAGCACATGAGACTGAAATGACTAATTTATTGTT CTTAGATTTGTAAAACTAAACTTGCTTGATGTGTAATTTCTTTTCATCCAACAGCAAAACAAACATTATGGTTGTGGGTT TGTATTGGCTTATCTAAGAATTGCTTAACGATTTGAATGTTGTTAAATAGACCAAGGAAGGGTGCTTGAAATATCGGAAC AAATATCTATCCACAACATTTGACTTAAGAGATACATTAAACAATGAACATATATAGTATTTGGTAAAAGTATGAACATT GAAAAATATGATCTGCATTGTTTCACTGGTGAGTTCTGTATTTGCAGGTGGACTCAGGCTTGGCATCAGACAAGGCACTT GAGTTGGATGCAGCCTTAGGATCATGCAGTGTTCAATATAGGGAAATTCAAGGCCAAGAATCACAGAAGTTTCTGTCATA CTTCAAGCCTTGTCTTATACCCATTGAAGGAGTGTTTACTTCAAAGCAAGGAAACTTGAATGGTGAATACCAAGTCATCC TGTACACATGCAAGGGAGACTATGTTGTCCGTGTGAAAGAAGTTAGTTGTCTCTATGTTTAACTGCTTTTGTTATCTGAT AGTATGAATCTCCTTATCTTTATACTTCTCTTCCAGAAAAGTATAGTTATAAACTAGAGCTTATTGTATCTCTGCATAAT AGTGTATGCCTTTCTAATATTTTCAAATGTTTTTTTTATGCCCTGATTTTTACAAAGGGATGGAAAGTTATTGCAAATTT TAGATGATGATGATTTTTTTATGCCAAGACATCAGCCCACATTGTTCTTTTTTCTAGACTTAGCTTTTGGTTGTTTGATA TATTACATGTGTTTCTTATAATCTGTGTCAATGTGTCTTTATGTTCGATTGAAGTTTATCAGTGTAGTATGCCTGATGTG CTTGTATACTTTATTAGGTTCCTTTTCTGAGGTCATCATTGAATCATGAAGATTTATTCATACTTGACACTGCATCAAAA ATATTTCTCTTCAGCGGATGCAACTCTACCATTCAAGAAAGAGCCAAAGCTTTGGATGTTGTCCAGTATATAAAGGAAAA TAGGCATGGTGGAAAATGTGAGGTGGCCACAATAGGTTGGAACATGTTCTACTTTTATTAGTTCATATACCTGTTTTATG AGGTAAAGATGTTGCTGATCACAATTATACTATTGTTGTAGAGGATGGGAAATTTGTAGGCGATTCTGAAGTGGGTGAAT TCTGGAGTTTATTTGGAGGTTATGCTCCCATTCCTCGGGAGTCGCCTTCTGTTCAGGAATCTGAGGCTCCATCCATAAAG CTATTTTGGTGAGGCTCATACATCTGTCTTTGTAAATGCATCACGACATGTGTTGATATGATAATCCATTTTTGCCCAAC TTTATTTCTCTCTTCAACATCCAGGAAATTTGTATTTGATCAATAATTTAAACTGATTTTTTTTAATGATTTAAAATCTA ACTTAATAGCTTCACGATTATTTGACTAACCTAAGTTATTTTGTTAGTTGGTATATGTTGAGATCCCACATCAATTCGAG TTAAGGTCAAAGTTGAGCCTATACAGACTTTGACAATCCTCACCTTACAAACTAGCTTTTGCTGTTAAGTCAGACCCAAT CCAAATCAAGATTGTGTCAAAGCTTATCCTAGATCCGATATTGGGCCACCCACCATTAAGATCCCACGTCGATTAGAAAT AAGGTCATAGTAGAATTTATAAAGGCCCAAGCCAAATTCAATAGTATAAATGGAAAGTGATTTGCTTCAGGCAATGTGTG AGGGAGATATAGCCAAATAGATTTGTTTATCCCAAGAAATACTTTAGTTCCTCTTAGCTGAGGATTTATTGTTTTCACTT CCTTCACAGGATAAATTTACAGGGAAAACTTTGTCAAACTGGAAGCAATGCCTTGAGCAAAGAAATGCTCGAGACAGATA AGTGTTATATGTTGGACTGTGATGGTGAGATTTTTGTCTGGATGGGCAGGCAGACTCTGTTGACGGAAAGAAGAACAGCA ATCAAAGCTGTAGAAGTAAGATTCTCTTGTTTCCTTATGTTTCATGGAAGCTGAGCTTCAGTAAATATCTTAGCTTTACA TAGCTCCAAAAGAATGAGCCTTATGCTGATCTACTTATCCCAAACTTTGAGTTATTAACCAAGATCCCACTTACAATCTT CCTTAGAAGTTTTTCCATATGCTTTGAAGCCAAACTTCTTTCTAGTTTATAGGAATGAAGCCCATTTAATTCTTAGAAAA CATAACTGTATAAAAGGGCAGTTACAGAAATTCATGGATTCAATTGTGCTTGTTCATAATGATAGAATAGGATATGCATA TATTCATTTCCTGTAATTAAGCAGTTAGATCCCTATAATTATGCATAGATCCCTATACAGGAAATGAATATATGCATATC CTATTCTATCACATAAGAATTGCATTAAGGGCAATGCCTATGCTCACTACCATCTTCCATTTTATAGGAATTTGTCAGAA ATGAAGGCAGATCAATCAAAACTCATTTGACATTTTTATCTGAGGGATTAGAAAGTACCATCTTTCAGTCATACTTTACT AATTGGCCTAAAACAGTGGAGCCTAGGCTTTATGAGGAAGGGCGTGAAAAAGTGGCAGGTTAAATACCTTGTACAAAGTT TTGCTTAAGAAGTGTACAATAAAAAATCATTCATAGTTCATTTCTTTATATTTGTTTTTTCTGCCTCAGCAATATTCAAG CATCAGGGTTATGATGTGAAAGAGCTTCCTGAAGAAGAGAACGAGCCATCTATAGACTGCAGTGGCACAATAAAGGTAGC TTGCTCGAAACCTAGCTGTTTCTTGTTGTCCTTTGAAAATATTTTCCTTTACCTCTGTTACCTATTGGCTGACTACTGCA ATTTCAGGTTTGGCGGGTGGATGGTGAAGAATTCTCCCTTCTTTCTATTACAGAATCTACAAGACTTTACAGTGGAGACT GCTACATAGTACAGTATACATTTCCAGGAAATGGAAGGGATGAAACTCTGTTATATGCTTGGATTGGCAGTAGATGTGTA ATGGTAAGCACTTGACAAATATTCTAACATTTATCTTCCATGTTGTACTAGGTTGTTCAATTTTTGTACTCATTGATAAA CTCATATTCTAATCTAGTGGGATTAGGCTTGGTTGTTGTTGTTTATAACTTTGAAGTCTCAACACATTACTCCCTTTTTC TCTATGATTTTGGCTTGCAGGAGGATAAAACAGCTGTCATTTCTCACGCGAATACCATGGCTGATTCAGTCAGAACTAAT CCAGTTGTGGTTAGTGCTGTTCTTGCTATATACCAACTCTTTCATAATATGTTGATTGAATGTGTGCAATTATCAAATTA CTGGTTTAGGAAATATCCGTACAATTTTTATCTTCTCAATATGTGCTAGCTTCTTATTTCCACATTTTGCATCTTAAGCA CATTATATAAATGATATTACATAACTTTCCTGCTTTACTCAATTTACCTCTCATGTATGTCTGTTCAGGCTCAAATTCAC GAGGGTAAGGAGCCGGCTCAATTTTTCTCAATACTCCAAAGACTAATCATATTCAAGGTATGTTTCTGTTATAATCTCAT TTAAAGGTTTGCATTTAATATTAAAAAAGTAGCATGTTCAAAACCCTTTCATTTTCTTCTTGATGTAAGGGGAGAAACAG TCCACAGTATAGGAAGTTTATAGAAGAAAAAGGTATGGTGGATGAAACTTACAATCAAGACCAGGTTGCTCTGTTTCGAG TTCAAGGTACAAATCCAGATAATATGCAGGCCATCCAAGTTGATCAAGTATGTTTCACGATTCTGACATTTTATCCGCGG TGGAGCACTTTTTACCTTCATTTTATATTGTCTCTAATTACAAGAAATATGGACACCACGGCTTTTAGCAAAGCTGTTGA AGCCTTTTAAATATTTTTAATTAATTGGATCAGTAATTTGTAATTACTGGAAAAATGAACATTCAAACCTGAAAAAGCTC TTGCCACAGTTGGAGTTCCTATTATTTTTCTTTACTAACTGTTTCTGATTGAATATGAATTAAATACTGAAGTCCAACCT ATTTTTTGCTACTGTTCTCTATTACGGAAGATCTATTGGCAGTAATATATTCAAGAAATCCTTAGTAATCTTCAATTGTT CATCTATTGGCTGGAAAAAAATAGATGATAATTAGAATAATCCCTTGAAAATAAAATTTCCCATCTGTTTTAGTTGAAAC AGTTGGTTAATATTAAGACATTTGTGTTGTGTGTATCCCATTTTACTTTTTGATGTACATTTTTGTATAGTTTGTAAGCT TTTATTGACTACGAATTTAAATTGTCATAGGTTGCCACTTCTCTGAATTCATCCTATTGCTACATTCTGCAAACCAAAGA ATCTATTTATACTTGGATTGGGATCCTATCTTCAGCTAGAGACCATAATCTTCTTGATAGAATGGTGGTGCTGCTTAATG TATGTCATTTCAATTGATGCCTAAAATTTTTATGCAAATGATGGTCTCTGTGAAGAAAGCATTTAATATTAATTTTGGGT ATTTGCATTCATATTAAATTATATGATAGGATGTGAATGCTTTCTACTTGAGATATTTCTTCTAAAAATTTTAAATTGTA TATTATTTCTTCATGCAACTTGCAGCCAACATGGCTACCAGTATCTGTGAGGGAAGGGAATGAACCTGATATTTTCTGGG ATGCTCTTGGTGGAAAGGCAGAATATCCAAGAGAGAAAGAAATTCAAGGATTCATAGATGATCCACATTTGTTTGCATTA AAAATAACCAGAGGTAAGAAAAACACCCTTTTCAGAAAAAGGAATCTAATTCTCACTTGGTTTAGTATTATCCTGGGTGA AATGACAGGAAAGCATGTCTAATTGATGGTTCTGTTTCTCATGCAAATTTATTGGAATTTCAACTCAGCAGACTTCAAGG TATGTAATAATTTAACTACCTACTATATTCTAGCAACCTTTTAAGAGTCTGTTAACAAAAGTTTTATTGATGATGAAGAC AAAGATGAGCTCCAATGTGTGTAGCAATCATAAAAAACATTATCTGCAATGAAAAGCCAAAAGCATCAAGTAGAATTGAG GCCCTTGATTGTTTTTCAAATAATTTTATGAACTTTGTATTTTGGCTTTTAATTTAACTTTTTCAAGTGCATATATGTGT TGTTGAAAGGGATCAGTTAACTGTGCTCTTAAATTAATATTTCAGGTGAAAGAAATATACAATTATACACAGGATGACTT AATTACTGAAGATGTTTTATTGCTTGATTGCCAAAGAGAGATTTATGTTTGGGTTGGCTTACATTCGGTTGTCAAATCAA AACAAGAAGCTCTCAATCTTGGCTTGGTAAATCATCTGCTTTCCTCCTATATTGATCTCCCTAGCCTGTACACTAATTTT CTCATCATGATATCATCAACACTAGGTCATTTCGCTCATACCGTCCTCATGCCATTTTTTTCAGTATGAGACTTTTTCAC TCACATTTGAATTCTGGGCACTATATATGTGATAACTACTTTGTAGTTTGTACTTTTACTTTTTTTTTTTCCTGCATGAT TGGATCTCAGACTCTCTAGAACTCTTTTTTTCCACTGAATCCATTGTTGTTTAATCACTTCACTAGAAATGCCTCTACGC ATGTGAAAAAGTCATTGTTTGTGGGTCTAACTGTAATTTAAGAAGAATCAAGTTTGATGATTATTTCTCCATAATTCAAT ATTCACTAATGGTTTGATAGCAATATGTTTTTTGCTACAATATGTTTTTTCTTACAAATGAAAATTTTAATGAGCAGAAA TTTCTGGAAATGGATATCCTCGTTGAAGGTCTATCCCTTGAAATCCCTATTTATGTTGTGACGGAAGGTCATGAGCCACC ATTTTTCACTCGTTACTTTTCATGGGATCACTCAAAAGCAAAGGTACTTCTCTTCTCCCTTCAAAGTATTAAAAATTGAT CACCATTCTTTGATGCTTAATTTCAAGAATTATTCAGTGTGATAGTAATGGAATTTTTTAGAGACTAGATTCAAGCCTTT GCCCCCACCTTCCCCAAAAAAATATAGATTGATAGAAGAACTTCTGTCAATAAATTTTTGTTTTGTTATGTCCATCATTT GTTGATTTACCTGTATCTGTTGTGTAACTTGTGCCTTTTTTCAGTTATTGTGTTGTTTGGCTGCCTTTTTGTCACTTCAT TTTATAGCACATAATGCATTAATGCTTTTAAATTAATATGGTAAGTGGAATTTTGTTTAATATAATTTTGCTTATCTGTG ATATGAATATTTCAACATGCTGTATCACATGGATACAAAATCATGCCAAAGAAATTTGGAGGGGGATTTGTCACCTTTCT GGTGTTCCCACTTCTCAATTATAATTGTCATCCATCTTATAATCTATTTTAAGTGAAATGGTATTGTTGCAGATTCTGGG TAACTCCTTTGAGAAAAAGCTTGCAATTCTGAAAGGAGAATCGAAAATTCTAGAAGTAAGTGACTACCTTGGGAGTATTG AGGTTATTTTGAAGTGGCCTATACATGGTTTATCATGTTTCTGGGTGGATTTTGGTCTGATTATTAGAATTTACACAATA ATAGTTTCAGAAAGTTTTCAGTTTTGTTCCTTTGTCTTCCATCATATTCTGATCTTTTTATTCAGGGACATAGTAGAATC GCATTGAAAGCAAACTCCAGGGACTCAACTCCTAATGGTCCCAGAAGCTATTCTGTTATGTTCAATGGCCGTGGAAGAAG TAGTTCACCTGTACCTAGTAGTGCAGGCTCAGATTTTAGGCAATCAGGTGATCGGCTTCTATCGAGCCCTTCTCCAGTTG TCAAGAAGCTCTTTGATGGATCTCCTGCCAATAGCAGTGCTGGTAATAAGATTCCTTTTCATCAACTTATGATTTGAAAT TTACTTAGTTGGACAGTTAACTATAGATCTGTTAATGAGTTCCTCTTTGGAGTTATCTACTATAGAGTTAGGATAGTTGG ACAATGTATTCCCCTAGCTCTTGTATCAGTTTGGAACCTAAGTAAGATTGCAATATTAGTCAATGATTCTCTTCGATATC CAAAGTTTAGGGCTAAAATAACTACCTGAAAAATGGAACTTAATGTGGAGCACTGGATTCTGTTAAGTATCTAGAGTACT GGGTATTGTTTTCTTCAAAGTCGTTCAGTTTTTCATTCTTTTTATAACCTGATCACAGTGGTTCTTTTCATCATTTTCTT GTTATTTTTCTTTAACACCTTTTTTTTCCCAGAACAAACATTGCCACAAGCTGATTCTCCAGCAACAGAACTGAGTTCAT CAAATGAGCGTGAAAGTTTCACTCAGAAAGATAGAAATGTGGATGGTGAGAATTTGTTGGTATACCCTTATGAGCACCTG AGAGTGGTTTCTGCTAATCCAGTAACTGGCATCGATATAACCAGAAGAGAGGTACTTCCTGAACTGAAAAAAATCTATCC GCCAGTTTTCTCTCATTCACTTTGATTTTTCTTTCTGCTGGATGATCATTGAGTAAGACCAATAAATGAAATTGCCAACT CTAGGATAGACAATTATATTTATGGTCAAGCACCAAACTATGATTTGATAGTTACATGATCCACAAATGTCAGCTACAAA CCACATGTAAATTTGATTCTTAAACATAAAGTCAGTGTTTTAGGTCCTATAAGAAGTTTGAGTGGTTTGGTTTATCCTAA GCCTCATTAAATCCATAAGATTACATGTTGAGTCTGAATCTCACTATATTTAGTTTCAAATTTAATTCTTAACAAACAAA TTAAACATCAGATAGAGAAGAGTTCCACATGCAATTGTCGCTTTCTTCTCATGGTGGTGGCTTACTCTCCCAGTCTCCCT TAAGAAACACGTAAGCAAACACAATCTAACAACTGCAAGTAGTGAGGTTAATTTCATTGCTTCATCAAAATTAAAGAAGT CTGTAATTCATAGATGTTCTAATCATTCCAACATCTTATTTATGTTACTATATATAATATTCTTTCTTTATCTGTACATT TGACTGGAATCTGCACTTTCTGATGAAACCAGACATATTTATCTAATGAAGAGTTCCATGAGAAGTTTGGAATGCCAAAA TCTGCCTTCTACAAGCTTCCCAGATGGAAACAAAACAAGCTAAAGATGTCACTTGATCTATATTAGAGCAAGCCTATTTT CCTGTAATTAGTGGCACTATATTGCAACAATGCAGCTTGATACAAATTTTAATTATTTACCTCTTGAGTGTATTAAGTGT TTGAGCTCGAGTGGCTCTCTTTTGGTGAAATACATGCCATGTTTAATATTCTTGACTACTGTACTACATATTTGTTCTTT CATTTCATCTCATAATATAGGCATGCATGTGGAACTGTATTCTGTATCATAAAATATTCAGGACAGAATTGGCCATAGAT ATTTCATGGGAATTTCAGGTGAATGAATGATATGTGGTTCATGAAACACAGGATATTGCGACATACCACAGTACCCCTAT TAATTCGTGTACAACTTTGCAACAATGACTCAATGAGCATGAATGTGGAGTATGGCCATAGCAAGATCTTTTTTTCTTAC AATAAACGTATGCACAAGTGAGAAACGGTGCTATTTGAGTCGGGACATTCATTTCTTCATGGGACAAGCTCTTTTAGTAA TGATTGTTTCCATTCACAATACTCGAACTGGACTGGAATGGGCAAGGTGATGGCATAGGCAATGTGAATGACGTGACTGT TTAAGAAGACACAGTTCTTCTTCAGGCGAGATGTCTTGTGGACTAGAATGAGACGACCTGGATCACTGGTCGCCTAATTA GATCTCATTGCTAGTAAACAGGCTGGAGGGCATTTGCTTGATTTGAGCGAGGTGATGTGATATTCTTAATGTTTCATGGG CGATGTCATGTTATGGGCCTTTGGCAACCTCAAGTGTTTTACGATCTCAACACTTGTTGCAACCCCTAGCTATTTAAAAT ATTTTATTGATAATGTAATTGTCTACGTTCCTGAATCATGACAATTGTTAGCTACTACCTACATGATTATGCATAAAATG TCTTTATAAATTACATGTTCACTCTGAATTCCAAGAGGCTTAGTCTTGAACTTTCTCCTCTAGTTTTTTACTTAAACACA AGCTAAAACATTACTTAAAAAAATAAACATGTATCACTTAAATTACTACTCACTACTGAGTACTGACTATATAGTAAGAA TATAATAATATTCATTGGATTTTGATTCAC
CDS sequence (LotjaGi6g1v0112900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCCTATTCTCAATAAAGACTTGGATTCCGCATTCCAAACTGCCGGAGCAAACCCAGGCCTAGAAGTTTGGTGTATTGA GAACCAGCTGTTAGTTCCAGTGTCAAAGTCAAACCATGGAAAATTCTATACTGGAAGTGCATACATAGTTTTGAATGCCG TTTTTCCCAAAAATAGCCCTCCTCAGTATGACATACATTTTTGGTTGGGAAATGATGCAAATAAGGTGGACTCAGGCTTG GCATCAGACAAGGCACTTGAGTTGGATGCAGCCTTAGGATCATGCAGTGTTCAATATAGGGAAATTCAAGGCCAAGAATC ACAGAAGTTTCTGTCATACTTCAAGCCTTGTCTTATACCCATTGAAGGAGTGTTTACTTCAAAGCAAGGAAACTTGAATG GTGAATACCAAGTCATCCTGTACACATGCAAGGGAGACTATGTTGTCCGTGTGAAAGAAGTTCCTTTTCTGAGGTCATCA TTGAATCATGAAGATTTATTCATACTTGACACTGCATCAAAAATATTTCTCTTCAGCGGATGCAACTCTACCATTCAAGA AAGAGCCAAAGCTTTGGATGTTGTCCAGTATATAAAGGAAAATAGGCATGGTGGAAAATGTGAGGTGGCCACAATAGAGG ATGGGAAATTTGTAGGCGATTCTGAAGTGGGTGAATTCTGGAGTTTATTTGGAGGTTATGCTCCCATTCCTCGGGAGTCG CCTTCTGTTCAGGAATCTGAGGCTCCATCCATAAAGCTATTTTGGATAAATTTACAGGGAAAACTTTGTCAAACTGGAAG CAATGCCTTGAGCAAAGAAATGCTCGAGACAGATAAGTGTTATATGTTGGACTGTGATGGTGAGATTTTTGTCTGGATGG GCAGGCAGACTCTGTTGACGGAAAGAAGAACAGCAATCAAAGCTGTAGAAGAATTTGTCAGAAATGAAGGCAGATCAATC AAAACTCATTTGACATTTTTATCTGAGGGATTAGAAAGTACCATCTTTCAGTCATACTTTACTAATTGGCCTAAAACAGT GGAGCCTAGGCTTTATGAGGAAGGGCGTGAAAAAGTGGCAGCAATATTCAAGCATCAGGGTTATGATGTGAAAGAGCTTC CTGAAGAAGAGAACGAGCCATCTATAGACTGCAGTGGCACAATAAAGGTTTGGCGGGTGGATGGTGAAGAATTCTCCCTT CTTTCTATTACAGAATCTACAAGACTTTACAGTGGAGACTGCTACATAGTACAGTATACATTTCCAGGAAATGGAAGGGA TGAAACTCTGTTATATGCTTGGATTGGCAGTAGATGTGTAATGGAGGATAAAACAGCTGTCATTTCTCACGCGAATACCA TGGCTGATTCAGTCAGAACTAATCCAGTTGTGGCTCAAATTCACGAGGGTAAGGAGCCGGCTCAATTTTTCTCAATACTC CAAAGACTAATCATATTCAAGGGGAGAAACAGTCCACAGTATAGGAAGTTTATAGAAGAAAAAGGTATGGTGGATGAAAC TTACAATCAAGACCAGGTTGCTCTGTTTCGAGTTCAAGGTACAAATCCAGATAATATGCAGGCCATCCAAGTTGATCAAG TTGCCACTTCTCTGAATTCATCCTATTGCTACATTCTGCAAACCAAAGAATCTATTTATACTTGGATTGGGATCCTATCT TCAGCTAGAGACCATAATCTTCTTGATAGAATGGTGGTGCTGCTTAATCCAACATGGCTACCAGTATCTGTGAGGGAAGG GAATGAACCTGATATTTTCTGGGATGCTCTTGGTGGAAAGGCAGAATATCCAAGAGAGAAAGAAATTCAAGGATTCATAG ATGATCCACATTTGTTTGCATTAAAAATAACCAGAGACTTCAAGGTGAAAGAAATATACAATTATACACAGGATGACTTA ATTACTGAAGATGTTTTATTGCTTGATTGCCAAAGAGAGATTTATGTTTGGGTTGGCTTACATTCGGTTGTCAAATCAAA ACAAGAAGCTCTCAATCTTGGCTTGAAATTTCTGGAAATGGATATCCTCGTTGAAGGTCTATCCCTTGAAATCCCTATTT ATGTTGTGACGGAAGGTCATGAGCCACCATTTTTCACTCGTTACTTTTCATGGGATCACTCAAAAGCAAAGATTCTGGGT AACTCCTTTGAGAAAAAGCTTGCAATTCTGAAAGGAGAATCGAAAATTCTAGAAGGACATAGTAGAATCGCATTGAAAGC AAACTCCAGGGACTCAACTCCTAATGGTCCCAGAAGCTATTCTGTTATGTTCAATGGCCGTGGAAGAAGTAGTTCACCTG TACCTAGTAGTGCAGGCTCAGATTTTAGGCAATCAGGTGATCGGCTTCTATCGAGCCCTTCTCCAGTTGTCAAGAAGCTC TTTGATGGATCTCCTGCCAATAGCAGTGCTGAACAAACATTGCCACAAGCTGATTCTCCAGCAACAGAACTGAGTTCATC AAATGAGCGTGAAAGTTTCACTCAGAAAGATAGAAATGTGGATGGTGAGAATTTGTTGGTATACCCTTATGAGCACCTGA GAGTGGTTTCTGCTAATCCAGTAACTGGCATCGATATAACCAGAAGAGAGACATATTTATCTAATGAAGAGTTCCATGAG AAGTTTGGAATGCCAAAATCTGCCTTCTACAAGCTTCCCAGATGGAAACAAAACAAGCTAAAGATGTCACTTGATCTATA TTAG
Protein sequence (LotjaGi6g1v0112900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MPILNKDLDSAFQTAGANPGLEVWCIENQLLVPVSKSNHGKFYTGSAYIVLNAVFPKNSPPQYDIHFWLGNDANKVDSGL ASDKALELDAALGSCSVQYREIQGQESQKFLSYFKPCLIPIEGVFTSKQGNLNGEYQVILYTCKGDYVVRVKEVPFLRSS LNHEDLFILDTASKIFLFSGCNSTIQERAKALDVVQYIKENRHGGKCEVATIEDGKFVGDSEVGEFWSLFGGYAPIPRES PSVQESEAPSIKLFWINLQGKLCQTGSNALSKEMLETDKCYMLDCDGEIFVWMGRQTLLTERRTAIKAVEEFVRNEGRSI KTHLTFLSEGLESTIFQSYFTNWPKTVEPRLYEEGREKVAAIFKHQGYDVKELPEEENEPSIDCSGTIKVWRVDGEEFSL LSITESTRLYSGDCYIVQYTFPGNGRDETLLYAWIGSRCVMEDKTAVISHANTMADSVRTNPVVAQIHEGKEPAQFFSIL QRLIIFKGRNSPQYRKFIEEKGMVDETYNQDQVALFRVQGTNPDNMQAIQVDQVATSLNSSYCYILQTKESIYTWIGILS SARDHNLLDRMVVLLNPTWLPVSVREGNEPDIFWDALGGKAEYPREKEIQGFIDDPHLFALKITRDFKVKEIYNYTQDDL ITEDVLLLDCQREIYVWVGLHSVVKSKQEALNLGLKFLEMDILVEGLSLEIPIYVVTEGHEPPFFTRYFSWDHSKAKILG NSFEKKLAILKGESKILEGHSRIALKANSRDSTPNGPRSYSVMFNGRGRSSSPVPSSAGSDFRQSGDRLLSSPSPVVKKL FDGSPANSSAEQTLPQADSPATELSSSNERESFTQKDRNVDGENLLVYPYEHLRVVSANPVTGIDITRRETYLSNEEFHE KFGMPKSAFYKLPRWKQNKLKMSLDLY
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
PANTHER | 1 | 905 | 905 | 0.0 | ||
PANTHER | 1 | 905 | 905 | 0.0 | ||
Gene3D | 7 | 136 | 130 | 1.9E-33 | ||
SUPERFAMILY | 10 | 123 | 114 | 2.57E-27 | – | |
CDD | 12 | 124 | 113 | 2.61901E-50 | – | |
SMART | 19 | 117 | 99 | 6.8E-23 | ||
Pfam | 30 | 111 | 82 | 4.8E-11 | ||
SUPERFAMILY | 133 | 238 | 106 | 3.65E-19 | – | |
SMART | 136 | 233 | 98 | 1.8E-25 | ||
CDD | 137 | 231 | 95 | 2.90479E-29 | – | |
Gene3D | 137 | 242 | 106 | 3.4E-25 | ||
Pfam | 149 | 216 | 68 | 2.2E-8 | ||
SUPERFAMILY | 224 | 352 | 129 | 2.94E-18 | – | |
Gene3D | 246 | 351 | 106 | 1.3E-21 | ||
CDD | 248 | 342 | 95 | 1.35526E-26 | – | |
SMART | 251 | 343 | 93 | 3.2E-15 | ||
Pfam | 270 | 313 | 44 | 1.5E-5 | ||
PRINTS | 322 | 343 | 22 | 2.2E-43 | ||
SUPERFAMILY | 380 | 522 | 143 | 3.51E-23 | – | |
CDD | 380 | 479 | 100 | 3.6983E-35 | – | |
Gene3D | 383 | 495 | 113 | 2.1E-22 | ||
SMART | 386 | 483 | 98 | 4.5E-12 | ||
PRINTS | 405 | 421 | 17 | 2.2E-43 | ||
PRINTS | 430 | 448 | 19 | 2.2E-43 | ||
PRINTS | 463 | 483 | 21 | 2.2E-43 | ||
SUPERFAMILY | 505 | 606 | 102 | 9.12E-19 | – | |
Gene3D | 510 | 605 | 96 | 3.9E-19 | ||
CDD | 511 | 602 | 92 | 3.79447E-33 | – | |
SMART | 513 | 600 | 88 | 1.2E-17 | ||
PRINTS | 526 | 546 | 21 | 2.2E-43 | ||
PRINTS | 586 | 605 | 20 | 2.2E-43 | ||
SUPERFAMILY | 589 | 710 | 122 | 2.57E-21 | – | |
Gene3D | 606 | 730 | 125 | 4.6E-26 | ||
CDD | 615 | 712 | 98 | 4.3931E-34 | – | |
SMART | 616 | 711 | 96 | 3.9E-17 | ||
Pfam | 631 | 705 | 75 | 2.0E-7 | ||
PRINTS | 637 | 659 | 23 | 2.2E-43 | ||
PRINTS | 666 | 685 | 20 | 2.2E-43 | ||
MobiDBLite | 747 | 791 | 45 | - | – | |
MobiDBLite | 747 | 838 | 92 | - | – | |
MobiDBLite | 805 | 829 | 25 | - | – | |
SUPERFAMILY | 836 | 907 | 72 | 1.96E-22 | ||
ProSiteProfiles | 842 | 907 | 66 | 19.705 | ||
Gene3D | 845 | 907 | 63 | 1.6E-19 | ||
SMART | 872 | 907 | 36 | 2.6E-13 | ||
Pfam | 872 | 906 | 35 | 3.0E-14 |
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 | Actin binding | Interacting selectively and non-covalently with monomeric or multimeric forms of actin, including actin filaments. | ||
Biological process | Cytoskeleton 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. | ||
Biological process | Actin filament severing | The process in which an actin filament is broken down into smaller filaments. | ||
Molecular function | Actin filament binding | Interacting selectively and non-covalently with an actin filament, also known as F-actin, a helical filamentous polymer of globular G-actin subunits. |
Expression pattern of LotjaGi6g1v0112900.1, 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…