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| 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.
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