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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0672500 |
Transcript ID | LotjaGi1g1v0672500.2 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Villin; TAIR: AT2G41740.1 villin 2; Swiss-Prot: sp|O81644|VILI2_ARATH Villin-2; TrEMBL-Plants: tr|A0A1J7I9H4|A0A1J7I9H4_LUPAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0672500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:123728479..123741720) extracted from Lotus japonicus Gifu genome v1.2.
AAGTTGGAGAAAACCAGGTATTACATGAGATCCGGTGAGAATGGATAGAGATTAGAGATAGAAAATGGTAAACATATCCA AAAGAGAATCACCAATCCAAGTAAGCAAATTAGAACCCAAAATGGGAGTTTACACCTTGGTGCCCCTTAAAATAACGACT TCTCTCTTGATGTAATAAAATAACAAGTAACCATAAAAAACCACCTTTTCATTACTCTCTAATTCTCTATCCTCTTTCTT TTCAATTAATTTCTTCCATTTTCATTTTCATCTTCCTCACAATCCATTCATTCATATCAACCTTTCTTCCTTGTTTCTCT GCAACAATTCTTCTCTGAAATTCTCAAATCTCAAAAAAGTTAGAGAGAGAACACAACACCAACACCACTCACAGCAATAA TTTTCACTTTTTTCTTCTCTCTCTCTTTCTCTCTCTCTATTGCCAGCTCTGCAACCTTGTCCTTCTGCCCCATCCATACC CTGTTGCCATTTCCACCTTTTCTCTGTCAAATACACAAACCATAATCATCATCATCACAAGCTGAGATCTCTCAGGTACG TTCTCCTCCATCTCTCTGATCATCACTACCCCTTTTTCTTCTTTTCATGCTCAATCATACAAAACACCATGCTTTTTCAC ATACCCTTGATCTCTTGCTCTCATCGCCTTTCCTGATTCAGTTTCGTGATTATTCTTGATCTGGGTTTGCCTCAAATTCT GGTAATTTTAATGGGTTTTTCTTGTTTTTTGCTTTTTTTTTTAATTCTGTGATCATGTGATTTTTTTATAGCCTTGCCCT CTTGTTAATTTTGATGTTGTTTCTCAGTTTTGTGCTCTTTGATTATCTGATTCTTCATTTAGTTAGCTTCTTCCTGTTTC CTTTTTTGTGATCTCACCTTTTTATGTTAACCAAGCTCTGATTATACATTTGTCATGATTTGCATTTTTTTTTATGCCAA CCAAGCTTTAATCTGAGAAAGAAATGGCTAGATGATCATTAGAGAAGAGGGGCTGGTAGATCTTAGTTCCCAGCTTTGGT TGATCATTCACCTAAATTATATTTTGAGATTCTTCATGTGTTTCTGCTCACAGCCTGTGCTTACTATTTGATTGTTAGCT CAGATAAACTGTATGGTCTTTGGTATTGGAGAAAGCACTGGATGAGCATTATTTGCTGAACTCAAATAGTTATCTATTAC AATCTCGATCATACATTATTATTTTGCTCTTAGATAGCTTCGCAGATTTTGGAATACTGGAAAGAAATTGAAAATTGGGA ATGCTGAACCCGTTTTGGCTATTAATGACTTGGATTTGGGACATTTTAAATGGTGGAGAAAGCGTTGGATGAGCAATCAT TTGCTGAACTCTTTGCAGCAATTTACATTTAGAGAGCACTTCAACCTGGTAATTCTGCTCATAGTTTGCAGTATCCACCT AATTAGAGAAGTGGGCAATTTAGAATTTGACATGGATGGATTGCTGTGCAAACATGGTAACTTGTTGGCATTTACTTTAT TCTTCACAGAACAGAAGTAATCTTCAGTTCGGGCAATTATCTAGATATACAGAAAGACACTAGCCTTGCTCTATTTTTCT GTTCGTTCAAGACTCAAACTCTTGTGCTTCCTACTTTTGTCTAGTCATTTAGTGGTGAAAAAATGTGCACATTGCAGTTC TATACAAGACGACAAGTTGGATTTAATCAGTGAAACTGCTTCTATAGAGGGACATTTGTCACCAAAGTTCAAGAGTCCCT GCTGAAGTGATTTTCGAAAAACCCGGTTTAATAAGTCAGGATCAGCATTGTGTTGATTTCTGAAATGTGTTTTGAGGAAC CAGATATTGTGCACAAATGAGGAAAACAAAATAAATATCACCCCTAAGAATAGTAGTGCCAATTTGTAAAGAAGAAAATG ATCTGTATGTAGTTACTACTCACTAATGCATGTTTATTGATAAACAATGTAGTAGAGAAAGAAAGAAATTAAAAAAAAAA TCCCCTTTGTCTGCTAGTTGAGGACCAGATATTATTAATCATGATATGGTTCGTGGCTGAGGGTTGAAATTGAGAAGGAG ACTGAGAAGGGTTGTAGTAAAGAGAAAGGTTTTGGAGAGTGTAAAATATACCAAACCTTTTGAATCTGATGACATATTTT GCTTGTGATCGAATAACCGATAATGAAGATTACTTAAAGGATTTTCTTTGGATATCATCTTGAACATTATTTTAGAAAAT TGAAACAAGACATCTTAGGTGTGGAGACTCGTGAGCTTTATTATGTAAATAGTGTCTAGATTCATTACGCTGGGCAGAAT CTATTGAGTTAGTAGTCTTGTTTTAGAGGTGATTTTTCCCACATACAGGTAAATGTTCACGCTGTAGAGATTATTTCTCT TCAGAGCTATAATTAAGTTGTTAGTCGTGCTTTCTCGTGGGCATAATGACAATGAAGGAAGAAATCAATGCCTGATAATC TGTCTCTGTATGTCCAATTGCTTGTTTCTTTCTTTCGTTTAAGAACATATTGTATGAATATTATGGTCTTACAACTGTGA AGTTAACTATACTGTGTCATTTTGTTGAGTGAGTTTTCATGTTTGTACATCAGTTGCTTGCTTGCTTTTTGTGCTAATAA AAGATACAGGGAGATATAGAAAATCAATACATACATTTTTTAGAAGTTCTTTTTTTTTTGTGATTGTATTCTCTAAAGTA CACAATAAAGTCATTCTGCTTGATTTTTGTGATGATAATGAAAGATGTGGAAAATAATATGTTTTGCAAAATGAAGTCCT GTTGCTGCTGCTGGTCTTCACGCTTGACACATGAATCTTAATCATGACAATAGTGTGCATGATATGGTGGTGGCGAAGGA TATGCAATTACTTTATTTACAAAGTGGTACATGCGTTTTTCGCGCGAAAACATTATTAACTCCTTTTCCTCTCATGCAGT GGATTACTTTGGAATTTGTAGAACGTGTTTGCTGAAAAGACAGTATTTTAGACAGAAATTTCAGCTATGTCTAACGCTGC AAAAGTTTTGGATCCAGCATTCCAGGGAGTAGGCCAAAGAGTGTATCCTTAATAAAAAGGGCGACTTTATAAATGAACTT GAATATTATGATTTATTCATTTAGAAATTTCTTTAGGAATTAAGTTAAAAAGGTACAAATAATATGATAATAGAAAAAAG TACTGCCACGAGAATAATCAAACACTGTAAACGATCATCACCTATAAGCATTACTTTTCCTGATAATATATTTGATATAT CTCCTTCCACTTGAAGTGTTTTAGACTTAACTTCTTGTAGAGGGACTGAAATATGGAGAATTGAGAATTTTCAGCCAGTT CCATTGCCCAAATCTGAACATGGGAAATTCTACATGGGAGATTCTTACATCATCTTACAGGTGCGAGCTGTATCCATTAT TACCTTAGATGTGTTTATAGTTATACATTGCTAAACTGACTGCATGGGTGACCCTAGAGGCTAATCAGTTCGTCTTTTTT CTGTTAGGCTGTGCACTATGCCCTAAATTGCACTTTCTGTTCTTATGAGATTGAAACAGACAATATTATGCCGATTATCA TATTTCAGATTTTGCTGAAAGCAAGTAAACAGTATAATATAAAAAGATACTTCAATTCACATTAGTCTAAAAGTGTGACC TATTTCAATATATAATTCAAGGGGGCTGCACAGTTTATATGTTATTCAAGTTATAAACTAAGTAAAGCCTTTTATCAGAA TTCTACTCTTAGGACAATACAGAGTCTTTAACAAAATTCCTATATTGAATGAAGAGATAGATGTCAAATTTTGGCATACA ATTTGGGAGTTGATTTAACATGTATTTGCAGACAACACAAGGCAAAGGGGGCAGTTATCTTTTTGATATTCACTTCTGGA TTGGCAAGGATACAAGTCAGGTTAGTTTGAACTTCACCCTCCCTTATCTCCAACTTGACCTTTGTCTCATTCAGCATTTT TCCCCCTCAAGGTGACTAAAATGTTGAACCTTGTAAGATTATATTTTTTCCAGAAAGTTTATTCTGTAAAGTTTTGTGCT TTCTTTTTTGGCAGTTTCTCATTCCTTTTCCCTTTCCTGGTTTAAAATTTTTTTTTGATATGATGAATCCTACATTTGAA GGGGTTTCGGTTGCATGATTCATAAATGTTTGAAATTCTTAAACCAATACATTTTGATAAAAAGAATAATTTGTATTGAC ATTGTGACTATCCTTGTAGGATGAAGCTGGCACTGCAGCCATTAAAACTGTTGAACTTGATGCATCTCTTGGAGGACGTG CTGTTCAGCACAGGGAAATCCAAGGGCATGAATCTGACAAGTTTTTGTCATACTTTAAGCCATGTATTATACCATTAGAG GGGGGTGTCGCCTCTGGTTTTAAAACACCTGAAGAAGAGGAGTTTGAAACACGTTTGTATGTATGCAAGGGAAAACGAGT TGTCAGAATAAAACAGGCATAGTATTCTCTATTCATGAACTTCATAAATTCAGTGCACATTCATTGGCCAAAAATCTGAT TTAATGTTTTCCTTATGCAGGTCCCTTTCGCACGGTCTTCACTGAATCACGATGATGTATTCATCCTAGATACTCAGGAT AAGATTTACCAATTCAATGGTGCAAATTCCAATATTCAGGAAAGAGCCAAGGCCTTGGAAGTTATTCAGTTATTGAAGGA AAAGTATCATGAAGGGAAATGCGACGTTGCAATTGTTGGTAAGGAGACAGACGCATGTTTTCCTCTCGCTTGTTGAAAAG CCTATCATATGATTTTGTATTTCTGTTCTTCAGATTTATATTTTGATTTGTTTATAAATATAAAATGTATCCCAAATTGC AGATGATGGCAAGTTGGATACTGAGTCAGACTCAGGTGAATTTTGGGTCCTCTTTGGTGGTTTTGCTCCCATTGGTAAGA AGGTAATCAGTGAGGATGATATTGTTCCAGAGACCATTCCTGCTCAACTTTATAGGTATATTGATTTATCCTGGTATCCT CTCCTCCCCTACGCTTTTTCCAGAAGCATCTGCTTCAAAATGATCCTCTACCTAGAGATGGATGTGCTACTTGTGACATT TTTTTATGAGACATAATGAGATTCTGATTAAAACAAAGGGTTTTTGAATTCTTCTCATTCTGAAGTTGAAGATGGCTTCT TTTGAAGTTTATTTCTTTATGCTCTATGATGTGTGCACTATGAACTTAAGTTTCTTGATCTAAAGGATATGACCATGTGC TGGCAGTATTGCTGATGGTGATGTCAAGTCTGTGGAAGGTGAACTTTCTAAGTCACTACTGGAGAACAGCAAATGCTATT TACTGGACTGTGGTGCTGAGGTATATGTCTGGGTTGGCCGGGTAACACAAGTTGAAGAACGAAAAGCAGCTTGTCAAGCA GCTGAGGTAATGCAATTGCAGAATCTATTTCTTCGTATGTATAATGGTTAAAAGTGGAGAAATTAATTTTACTAATTGTT CAGGACTATGTTGCAAGTCAAAAAAGGCCAAAGTCTACAAGGATAACCCGGGTTATCCAAGGTTATGAGCCACATTCATT TAAGTCCAACTTTGATTCTTGGCCATCAGGATCTGCTACTACCGGTGCTGAGGAAGGAAGAGGAAAAGTTGCAGGTGGAC ATTGTTTAACTTCTAATTTTGCTTGCCTTTTGACAATTAGCAATGCTAACTAAGTATGGTCTTTTCTTCACTGCCAGCTA TGCTGAAGCAACAAGGTATGGGACTCAAAGGAGTGGCAAAAAGTGCCCCAGTTAATGAGGAAGTTCCACCATTGCTTGAA GGAGGTGGAAAAATGGAGGTGATTTTTTCTTTAATGAGTTTCTTGGCTCAACTAAAATAATACCAATCTGCATGTAACAT TAATTAATATTTTCAGGTATGGCTAATCAATGGAAGTGCTAAGACTCCATTACCTAAAGAGGATATTGGTAAATTTTATA GTGGAGATTGTTACATAGTACTGTACACTTATCACTCCGGCGAGAGGAAGGAAGACTACTTCTTGTGCTGTTGGTTTGGC AAAAACAGCATTGAGGTAATTTCAGTCATTCTGACTTAATTTCAGAATACATTGTGAAAATTGCTATAGGTTTTATATTC ACTCTACCGTACTTACCCTATTGTTAAGACTGGCCTAGAGTTTCCATGCATGGCTAAATATGTTATTTCTAATTACATAT TCGTTGTCTATGAATCTATGGTTGTCAACTTGTCATAACATTCAGTATATATAGTCAACAACTTTACTAGAGAATATACT ATGAAGTTTCTTGGCTTTATTTAATGGTGGCTATGCATTGTGGATAGCAATGGGCAAAATATGCTGTATCAATAAACATA CACGCTCTAATTAGAGGAATTAATCTTGATTGTAAAATCATAATGTATTATCAGGACTGCATTAATAAAAATATCTTAAT CATCTATACATTGCTGTATGATCATTATTTGCTCCCCTTACTAGATAACGCCATACATGCGCGCACACACAACCCAACCG CAATTTTGTTTTTCGGGATGAAAATCCTTCATGATCCACTTGTGGTCCATGACCAGCGTTAGGCTAATTTTGGCCTACTC CTTAGTTATCCTGGAAAGTCTAACCGGAGAACCACACTAGAGATAAACATCTCTATGTGAAAGAGCTACTGAAAATTCAG CACAATCTCCTTTGTACTTTGAGCATCTATAGTAAATGCATGCTAATAGCATATATCCGAAATCCACCCACATTATGTTA CATTATCTTAACATAATATTCTTCATAAGAACTCAGAAGAAAACAACTATATAAATGTGACATATCAAGTCTATGAAATC ATCTACAATTTTAAAGTAAGAAAATAACTCCCTATCCCACTAGCTAGCCGTTTTGGTTGCTTGGAGTTTTTATGAATTTA TGTCTATCTACAAGTTGACTTGGTTATGTTTCCAATTTCAGGAGGACCAAAAAATGGCTACTCGGTTGGCTAATACAATG TTCAACTCATTAAAGGGTAGACCTGTTCAGGTATTGTAATGTGAATATGAAATTGGGTTGTGGTTTCGAAACTGGATGTA ATTGTAGTGGCTTCTTGCAGGGTCGCATATTTGAAGGTAAAGAGCCACCTCAGTTTGTTGCTATTTTCCAACCTATGGTG ATCCTCAAGGTAACATTTGAAAAATCCAATGCTATTTTGAGTAACATGTATAGATTGTGTGAAGTTAACTAGTTTGATGA CTTATGTCTTCTTCAGGGAGGTTTGAGCTCTGGTTACAAAAAATTAATAGCAGATAAAGGTTTGCCAGATGAGACATACA CAGCAGAGAGTATTGCACTTATTCGTATTTCCGGAACATCCATTCATAATAATAAAGCAGTGCAAGTTGATGCAGTAAGT ACCCATTTAATTATTCATTTTTGTCTATTATGGTTATGTTGTTAGAGCTTCTTTCTCTGCTAAGTTGACCAAAATTATGA CATTGTTATTCAGGTGGCGGCATCATTGAATTCTACTGAGTGTTTTCTCTTACAATCTGGCTCAACAGTTTTCACTTGGC ATGGCAATCAAAGTTCCTTTGAGCAGCAGCAGCTTGCGGCAAAAGTTGCTGAGTTTTTAAGGGTACATGTTTTTTCCTGC TCTCTTTTGCATTTTGTTCCTTTCTGTTTTAAGGACTTTCTATCCTCTCCCTATTTGTAGCTCACATCTTTTCTACTTAA ATAAAAAAACTCACTGAAACTTTAAGGGAACAGCTCAACTTTTTGGGCCTTCCATTAAATTATTCAAGCACTATCATATA AACACAAAAAGTGTTCTCAATCATGTATAATTCAAACACTTCTGAGTTTCTAGTGTCTAGAGACTGGTTTAGATTTATCT TTCAGGGAAGAAGTTCAACTCTTCTATATGTAAAACTTTTAAGCAAACTTGTGGAAATGGCTTTTATATTTCTATAAGCT TGGGATGGCTATATACTTATGGTTTTGCACTAAGTACATCACTTGTAACTACCTAGCGCATCTATGCCCCTGTGTAATTC TTTTTCTCAAGCATTAATGACTGTAGCTTTAACTCGTAATGGTTTTTTGTTCATTCGTAAAGGTTGCTTGCTTTTAAAGT GTGGAGTAAATCATTGTAGTGTTACATTATACATTATTTGTTAACATGTTACAAATCCATGTTCAGCCAGGAATTGCTTT AAAGCATGCAAAAGAAGGGACAGAAACCTCCGCATTCTGGTTTGCTGTTGGAGGAAAACAAAGTCACACCAGCAAAAAAG CCACTAATGACATTGTCAGAGACCCACATTTATTCACTTTCTCATTTAATAGAGGTAGTATTTCTCGTAACAAGACTTCT CTGTATGAAATTGTGTTAGAGATAAGCATATTTATTGATTGATATTTGTTTTTTCTGACCATTATTAATATTTTTTTATA TTTCTTTTGCAATATGGATGTACCAGGAAAGTTACAGGTTAGTGTCACTTTGTGAACTTTCACACTATTGCTAGGATACT TGTCAGAAATGAGGCAGTGACTCTGAGGTTCATGTATTCTAAATCCATTTTTATATTTTGCACTTCAGGAAGAGGAGGTT TACAACTTTTCCCAGGATGATTTGTTAACAGAGGACATCCTAATACTTGACACGCATGCTGAAGTGTTTGTTTGGATCGG TCAGTCTGTGGACACTAAAGAAAAGCAAAATGCTTTTGAAATTGCCCAGGTAAACACGCTCAACAGATCAGAGCTTTTGT CTCCTATATTTCCTTTTACTTCATGTACTTAATTATACTCGAAAATTTTCCATCAGAAATACATTGATAAGGCTACATCT CTGGAAGGGCTTTCTCCTCATGTACCTCTGTATAAAGTAACAGAAGGGAATGAACCTTGCTTTTTCACAACATACTTTTC TTGGGATCATGCAAAAGCTACGGTATGTGCTCAAACATTAAGGGAACCCCCTTTTTGTTTGTCCGTATTCTTATAGGATC TTCATTTTCACACTTCTAATCATCATCACCCATGAAGTTAATAGTTTTCTGGGTCTGTCTGTGTTGGTTGACCATGACAA CAGTATAATTCAAAGGTTTAAAGAAAACATATTGTTCTCATCAAATATAGGGATGACAACAGCTTTGAAGTTTTATACCA CAGGTTCCATCTTTAAAAATAACCGTGGAAGCTCATATTATGGGTATAAAACAACTGCTCTCATGTATGAACCGTTGGCA CTTGGTTCAATTATAATATTTACTTACACAAAGTGTGTCAGTGGGAGTGTGATTTGTGAAGTTGATATCAGGTGATCATG AGGTGGTTGAAGAAATTCAACAGTGAGGCTAAAAGCTAAATTGATTCTACCATTTCCTGTGCAATCTTTGATAGTAGAAA ACTAAATGAAACTAAATGGCATTTTTGTAATTAAAATTGGCATAAAAAATGAAAACAGAAATGTTTCCTTAAACCAAACA AGCCCTTAATTTGTTGAAATACTCATTCATTATCTTCCTGATGAATTGCAGGTTCAGGGGAACTCATTCCAGAAAAAGGT GGCATTATTCTTTGGGTTTGGCCATTCTGTTGAGGTATAAACCTGATTTCTAACTTTCATGAGAAATTTCTTGTTGTTGA ATGAACCATGTGTCATGAACCAACTATCTCAAAAGCTCAGGTTGTTTGGTGAAGACGCGTAATGATTTTATATTATTCTA ACACCATGCTTTAAGAGTCACTTTTTACCTTTGTATCCTTCTATCTAAGTCTCTTATTTCTTAGTTATATAGTTCCCTTG TTCGTGCTTCCATATGCTTAGCTAGGATTTCCTGAATCTGTTGACAGGAAAAGACTAAAGGACCAAGTCAAGGGGGACCA AGACAAAGAGCAGAAGCTTTGGCTGCCTTAACTAATGCGTTCAATTCATCTCCTGAGTCACCATCCAGTGCGGTATGGCA ACTTGCTTGCTATCTTTTTTATTTACAGCCATTGAACTTCAAACCAACACTAGATTCTCTTGATAATATAAAAGGGCGTG GGGTAATGAGACGGCATTAAACTCATAGCATTTCACATTCCTGTATTTTATTTCTTAGTTGTAAATAATTGAGTTTGGGT GAGTATAGGTTCAGTTATTTACCCCAAAAATAATGAAGGGAAAAGTACTCACAAATATTAAATTGAATTTAATATCTCCT GAATCGATAAGTGAGCATCAAAATTCTCACCTTCTTGGTTTTTATTTTGGAAAGTTAAGTCATGCCATGGGGCACCAGGA GCTATAGAGTCAAATTAAGTATTCTAATTATTCCTCTATGACTGATTATGGGGTTTTTTATTTAGGGTCGTTGGAGCAGC CTCTGACAGCATGACTAATTTTTTATCTTAAAAATTATATTTTGATAATCATTCGACTTTCTGCAGAGTGGATGCCTCTT CAAAGAAATTAGAAGTTCTTAGAAGTTTATTTCTCTCTCATTTACATGTAGAAATGCACTCATTTTTACTATATCACATC ATCCCAGTTAACAACACCTAAGCTATAGAAATAAGCTATATCACATCATCCCACTATATCACTCATTATTACTAAGTTTC TACAGAGTTTTCAGCGCTATTATTAAAAACACTAACTTGGTAAAATTAAAGTGGGCGAGATAGGTAAAACCACAAATTCT TAATCACAGAGGCATATAACAAGTTGCACTGATACAACAATCAGCTATTGAAGGCTTAGCATTTCTCTTTCTGTATATCG AAGTTATAATACAAGCATTTCTTTTTCTTGTTCTATCCTTATTTCATGAATGATTGAAGATAATAGATTCATTCCTAAGC AGCCTCTATTGCATTGAAGAAAGTTAGCATTAGCTGTGTTCATCTTCATCTTATTCTAATCATTGCTAATTATTTGGCGT TTTTAATACCATTATTGTTACATTCTTCTTGTCATGTGCCACTTTGGTTTTCCTTCCTTCAGTTATCATCCATAAACAAA ATTAATTTTGGCATGTTATTGAAAAACTTAGTTGGTATAGTCATCTAGATTTAGTATAGATAGTTGGATCGTGGAAATTT GTGTAAAAATCATAGATTGAAACCTGAGCTTAAAGCCTAGAACGCTACAGAAGCACTTATTTCTTAAAAAACACTATATT TAATAGTGTCATAGGTGAGTATTGAATAAATTAAAGAAAGAAATGGGCGCTTCCTTCTTATCTTTTCTACTCTTGATGAC ACAGGATAAATTGAATGGCTTTAATCAAGGAGGACCTAGACAAAGGGCAGAAGCTTTAGCCGCCTTAAACTCCGCATTTA ATTCAACATCCGGAACTAAACCTATTACTCCTAGGTCATCAGCAAGAGGTCAAGGATCACAACGAGCAGCAGCTGTAGCT GCTCTATCTCAAGTTCTCACTGCTGAAAAAAAGAAACATTCACCTGACACGTCTCCGATGGCAAGCAGTAGTCCTGTTGT GGGAAGTAGCACTCCTGGTGAGAAATAGAATTCATATTGTCTATTAGTCAAATGTGTTTCTTATGATCATATTATGACAA GTTTGAGTTGTTACAGCTGATGCTAAAAGTGAAAGTGCCCATTCTGAAGAAGCTCTTGAAGAAGAAGCCAAGGAGAGAGA GGAACTTGCCCCTGAAACAGGTAGCAATGGGGATTCAGAACCGAAACAGGAAAATGTGGAGGATGAAAATGATAGTCAAA ATAGTCAGAGATTCTTCAGTTATGAGAAATTAAAGGCTAAATCTGAGTTGTCTGGAGTTGATCTTAAACGGAGAGAGGTT AGTCTTACTTTGCACGTAATTGATTTAGGGTGTGTTTGAGTAAATAACTTAATTAAGTGCGTATCACATAAGCACTTATT TATAAGCTTATTGGAATATGTTCAAAATAATTTGTAGGTAGGTACAAATATTTAGTTAGAAGCTTAACTGCTTGTGAAAA TAAGCTCAAAACAGCTTATAAAATACTTGCATAAATGCTTATGCTATAAGATAAACTCATCCTAAAGTGGAGCCTTAATA TGTTATTGTAAGTGTGAAATTTATTTACCTCCACTGAAGTTTTGAAATAAAAAGATTACTTGAGCCTCCCATGATTATAC TTTTTAATTCTATGCTTCGGGATGATATTGACTTTTTTTCCTTTCCACTTGATATTTCTTAGGCCTATCTGTCAGAAAAA GAATTCGAAACTGTATTTGGAATGACAAAAGAAGCATTCTCGAAGTTACCAAGATGGAAGCAAGACATGCTGAAAAGGAA AGTTGATTTGTTCTAGAGACTCAAAACCAATGAGTGGCATGCATGCTATGTTGCATCCTAATATATCTTTCGTCAGTTAT CTTGAAATGCACTTATCTATTGGATAGTGTGGTTTTATTGGTATATAGTACCATCTTTGGATTCATATGCATAGCACTTT GCTTTTGGCCTATGATGAAAGTAGCTGTGGTTAGTGTTTGAAGTTTGAATTTGACCCTGGAGAGTGTTTTTTAGTTTCTC CTTTTTAAATTGATGCGGTCTCTTCCTCTTGTAATGTTCACATATAGTGTAGCAATGAAGACAGTTGAGTGCTGGTTCAA TTCTTTCATTGTGTCAAGTTTGTATTTTAAAGTTGTTTCCTTTTGTTGCTATTGGTTAAGGAGGTGGGGTGTATATGTAT TGCATGTGATACTGAATCTCAATATGAAAAGAATGAAAATTTGTTTGTTTGTTATTTGTGGCTGCGAATTATGTAAATTT AGCTTTTTGCTTCTCATTTTTCTCAATTGGATTAACAACCTGTTTGGATACAAACCAAAGAGTATCTTTTTGAGCTTCTT CAGTGTTTTTTCTAGTAGATAAGCTTCAAATATGTAACCAAACCTGTTCTAAGTCTTTAGCCAAAAGCTAAGAATCATTT CATGAGATTAGATGAGTTTCTTTAGTCAGTCAAAATTCAAGAGCTCAAGTTAAATGAGGAATATTATTCTAACTTGCTTT CTGAAACTTAATTAGCCTAAGCAATTATTGCATTATTATATCAAATGCTGGATTGTAATTGGAATGCATTATGCTACTTT TTAACTGGAATACCAAAGCTTTTGCTTTTTTATCATGATATAAGAATAATGTTAATCCAACTCTAAGAATGATTTAAAGA AAATATGTGTCAAATCATGGCCAATTTAATTTCAATATTGCT
CDS sequence (LotjaGi1g1v0672500.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCAAGGGAAAACGAGTTGTCAGAATAAAACAGGCATAGTCCCTTTCGCACGGTCTTCACTGAATCACGATGATGTATT CATCCTAGATACTCAGGATAAGATTTACCAATTCAATGGTGCAAATTCCAATATTCAGGAAAGAGCCAAGGCCTTGGAAG TTATTCAGTTATTGAAGGAAAAGTATCATGAAGGGAAATGCGACGTTGCAATTGTTGATGATGGCAAGTTGGATACTGAG TCAGACTCAGGTGAATTTTGGGTCCTCTTTGGTGGTTTTGCTCCCATTGGTAAGAAGGTAATCAGTGAGGATGATATTGT TCCAGAGACCATTCCTGCTCAACTTTATAGTATTGCTGATGGTGATGTCAAGTCTGTGGAAGGTGAACTTTCTAAGTCAC TACTGGAGAACAGCAAATGCTATTTACTGGACTGTGGTGCTGAGGTATATGTCTGGGTTGGCCGGGTAACACAAGTTGAA GAACGAAAAGCAGCTTGTCAAGCAGCTGAGGACTATGTTGCAAGTCAAAAAAGGCCAAAGTCTACAAGGATAACCCGGGT TATCCAAGGTTATGAGCCACATTCATTTAAGTCCAACTTTGATTCTTGGCCATCAGGATCTGCTACTACCGGTGCTGAGG AAGGAAGAGGAAAAGTTGCAGCTATGCTGAAGCAACAAGGTATGGGACTCAAAGGAGTGGCAAAAAGTGCCCCAGTTAAT GAGGAAGTTCCACCATTGCTTGAAGGAGGTGGAAAAATGGAGGTATGGCTAATCAATGGAAGTGCTAAGACTCCATTACC TAAAGAGGATATTGGTAAATTTTATAGTGGAGATTGTTACATAGTACTGTACACTTATCACTCCGGCGAGAGGAAGGAAG ACTACTTCTTGTGCTGTTGGTTTGGCAAAAACAGCATTGAGGAGGACCAAAAAATGGCTACTCGGTTGGCTAATACAATG TTCAACTCATTAAAGGGTAGACCTGTTCAGGGTCGCATATTTGAAGGTAAAGAGCCACCTCAGTTTGTTGCTATTTTCCA ACCTATGGTGATCCTCAAGGGAGGTTTGAGCTCTGGTTACAAAAAATTAATAGCAGATAAAGGTTTGCCAGATGAGACAT ACACAGCAGAGAGTATTGCACTTATTCGTATTTCCGGAACATCCATTCATAATAATAAAGCAGTGCAAGTTGATGCAGTG GCGGCATCATTGAATTCTACTGAGTGTTTTCTCTTACAATCTGGCTCAACAGTTTTCACTTGGCATGGCAATCAAAGTTC CTTTGAGCAGCAGCAGCTTGCGGCAAAAGTTGCTGAGTTTTTAAGGCCAGGAATTGCTTTAAAGCATGCAAAAGAAGGGA CAGAAACCTCCGCATTCTGGTTTGCTGTTGGAGGAAAACAAAGTCACACCAGCAAAAAAGCCACTAATGACATTGTCAGA GACCCACATTTATTCACTTTCTCATTTAATAGAGGAAAGTTACAGGAAGAGGAGGTTTACAACTTTTCCCAGGATGATTT GTTAACAGAGGACATCCTAATACTTGACACGCATGCTGAAGTGTTTGTTTGGATCGGTCAGTCTGTGGACACTAAAGAAA AGCAAAATGCTTTTGAAATTGCCCAGAAATACATTGATAAGGCTACATCTCTGGAAGGGCTTTCTCCTCATGTACCTCTG TATAAAGTAACAGAAGGGAATGAACCTTGCTTTTTCACAACATACTTTTCTTGGGATCATGCAAAAGCTACGGTTCAGGG GAACTCATTCCAGAAAAAGGTGGCATTATTCTTTGGGTTTGGCCATTCTGTTGAGGAAAAGACTAAAGGACCAAGTCAAG GGGGACCAAGACAAAGAGCAGAAGCTTTGGCTGCCTTAACTAATGCGTTCAATTCATCTCCTGAGTCACCATCCAGTGCG GATAAATTGAATGGCTTTAATCAAGGAGGACCTAGACAAAGGGCAGAAGCTTTAGCCGCCTTAAACTCCGCATTTAATTC AACATCCGGAACTAAACCTATTACTCCTAGGTCATCAGCAAGAGGTCAAGGATCACAACGAGCAGCAGCTGTAGCTGCTC TATCTCAAGTTCTCACTGCTGAAAAAAAGAAACATTCACCTGACACGTCTCCGATGGCAAGCAGTAGTCCTGTTGTGGGA AGTAGCACTCCTGCTGATGCTAAAAGTGAAAGTGCCCATTCTGAAGAAGCTCTTGAAGAAGAAGCCAAGGAGAGAGAGGA ACTTGCCCCTGAAACAGGTAGCAATGGGGATTCAGAACCGAAACAGGAAAATGTGGAGGATGAAAATGATAGTCAAAATA GTCAGAGATTCTTCAGTTATGAGAAATTAAAGGCTAAATCTGAGTTGTCTGGAGTTGATCTTAAACGGAGAGAGGCCTAT CTGTCAGAAAAAGAATTCGAAACTGTATTTGGAATGACAAAAGAAGCATTCTCGAAGTTACCAAGATGGAAGCAAGACAT GCTGAAAAGGAAAGTTGATTTGTTCTAG
Protein sequence (LotjaGi1g1v0672500.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MQGKTSCQNKTGIVPFARSSLNHDDVFILDTQDKIYQFNGANSNIQERAKALEVIQLLKEKYHEGKCDVAIVDDGKLDTE SDSGEFWVLFGGFAPIGKKVISEDDIVPETIPAQLYSIADGDVKSVEGELSKSLLENSKCYLLDCGAEVYVWVGRVTQVE ERKAACQAAEDYVASQKRPKSTRITRVIQGYEPHSFKSNFDSWPSGSATTGAEEGRGKVAAMLKQQGMGLKGVAKSAPVN EEVPPLLEGGGKMEVWLINGSAKTPLPKEDIGKFYSGDCYIVLYTYHSGERKEDYFLCCWFGKNSIEEDQKMATRLANTM FNSLKGRPVQGRIFEGKEPPQFVAIFQPMVILKGGLSSGYKKLIADKGLPDETYTAESIALIRISGTSIHNNKAVQVDAV AASLNSTECFLLQSGSTVFTWHGNQSSFEQQQLAAKVAEFLRPGIALKHAKEGTETSAFWFAVGGKQSHTSKKATNDIVR DPHLFTFSFNRGKLQEEEVYNFSQDDLLTEDILILDTHAEVFVWIGQSVDTKEKQNAFEIAQKYIDKATSLEGLSPHVPL YKVTEGNEPCFFTTYFSWDHAKATVQGNSFQKKVALFFGFGHSVEEKTKGPSQGGPRQRAEALAALTNAFNSSPESPSSA DKLNGFNQGGPRQRAEALAALNSAFNSTSGTKPITPRSSARGQGSQRAAAVAALSQVLTAEKKKHSPDTSPMASSSPVVG SSTPADAKSESAHSEEALEEEAKEREELAPETGSNGDSEPKQENVEDENDSQNSQRFFSYEKLKAKSELSGVDLKRREAY LSEKEFETVFGMTKEAFSKLPRWKQDMLKRKVDLF
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 |
---|---|---|---|---|---|---|
Gene3D | 1 | 101 | 101 | 1.9E-21 | ||
SMART | 3 | 93 | 91 | 1.1E-18 | ||
SUPERFAMILY | 11 | 96 | 86 | 5.01E-15 | – | |
Pfam | 12 | 76 | 65 | 1.2E-10 | ||
PANTHER | 13 | 833 | 821 | 0.0 | ||
PANTHER | 13 | 833 | 821 | 0.0 | ||
SUPERFAMILY | 82 | 204 | 123 | 1.0E-23 | – | |
Gene3D | 105 | 216 | 112 | 2.6E-25 | ||
SMART | 110 | 203 | 94 | 6.2E-22 | ||
Pfam | 126 | 196 | 71 | 4.4E-14 | ||
CDD | 127 | 202 | 76 | 4.30755E-28 | – | |
PRINTS | 182 | 203 | 22 | 8.6E-54 | ||
SUPERFAMILY | 242 | 387 | 146 | 1.26E-31 | – | |
CDD | 245 | 346 | 102 | 2.70201E-44 | – | |
Gene3D | 247 | 377 | 131 | 6.4E-34 | ||
SMART | 251 | 349 | 99 | 1.2E-20 | ||
Pfam | 264 | 342 | 79 | 1.7E-9 | ||
PRINTS | 270 | 286 | 17 | 8.6E-54 | ||
PRINTS | 296 | 314 | 19 | 8.6E-54 | ||
PRINTS | 329 | 349 | 21 | 8.6E-54 | ||
SUPERFAMILY | 369 | 471 | 103 | 3.78E-18 | – | |
SMART | 377 | 466 | 90 | 3.6E-14 | ||
CDD | 378 | 468 | 91 | 2.52266E-30 | – | |
Gene3D | 378 | 471 | 94 | 1.2E-17 | ||
Pfam | 391 | 442 | 52 | 1.4E-7 | ||
PRINTS | 392 | 412 | 21 | 8.6E-54 | ||
PRINTS | 452 | 471 | 20 | 8.6E-54 | ||
SUPERFAMILY | 455 | 577 | 123 | 1.2E-23 | – | |
Gene3D | 472 | 595 | 124 | 4.8E-32 | ||
CDD | 481 | 579 | 99 | 6.05289E-41 | – | |
SMART | 482 | 578 | 97 | 2.0E-17 | ||
Pfam | 496 | 572 | 77 | 4.3E-8 | ||
PRINTS | 504 | 526 | 23 | 8.6E-54 | ||
PRINTS | 533 | 552 | 20 | 8.6E-54 | ||
MobiDBLite | 630 | 652 | 23 | - | – | |
MobiDBLite | 630 | 646 | 17 | - | – | |
MobiDBLite | 666 | 779 | 114 | - | – | |
MobiDBLite | 666 | 692 | 27 | - | – | |
MobiDBLite | 709 | 728 | 20 | - | – | |
MobiDBLite | 729 | 752 | 24 | - | – | |
SUPERFAMILY | 771 | 835 | 65 | 2.88E-19 | ||
Gene3D | 771 | 835 | 65 | 4.9E-19 | ||
ProSiteProfiles | 772 | 835 | 64 | 19.717 | ||
Pfam | 800 | 835 | 36 | 3.9E-16 | ||
SMART | 800 | 835 | 36 | 9.6E-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 | 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. | ||
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. | ||
Biological process | Actin filament bundle assembly | The assembly of actin filament bundles; actin filaments are on the same axis but may be oriented with the same or opposite polarities and may be packed with different levels of tightness. |
Expression pattern of LotjaGi1g1v0672500.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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