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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0141300 |
Transcript ID | LotjaGi4g1v0141300.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Kinesin-like protein; TAIR: AT5G65930.2 kinesin-like calmodulin-binding protein (ZWICHEL); Swiss-Prot: sp|Q7XPJ0|KN14I_ORYSJ Kinesin-like protein KIN-14I; TrEMBL-Plants: tr|G7L7W2|G7L7W2_MEDTR Kinesin-like calmodulin-binding protein; Found in the gene: LotjaGi4g1v0141300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:21514800..21529320) extracted from Lotus japonicus Gifu genome v1.2.
GATAGTGATAACTCCAACTATGCATCACCGTGAGTAACAACAGTCTTTCTTTTAGATATGTTTTGGAATGTTTAAAATGA TGGTATGCATTTTAGTGTTTAAAAAACTTTATTTGGCTCAAATCTTGAATTCTGTTCTTGTTATAATGTCACTCTTACTC TTTCCAACATGAATTTCGCCTTTTCCTTTGAACTGAGGGACTAGTTTTACAAGAAAGTGATAATTAATTTCGCCTTTTCC CATGTGGAAGTGCAACATTCTCCAGTTTGTAACTTGGTATTTGGTTTGTTTTTGCAGCACGCCATCAACTCTGTCAATGG CGGTTCCCGCAGAACTAGCTGGAGCTGTACCCTTGATTGACAGATTCCAGGTAAGTATTTAAAAAAAATAAATAAATACT AGATATAAATATAGTTTTCTAAAATAATATTGCTTCCCTGTCAGTTTAGTGTGTTAATGATAATTTTTAGTTTCTTGCCT TATGTACATTGTCACCAAGTTTACATCAATGTTGTTTTACACAGGTGGATGTATTTTTAAAATTAATGCATAAACAAATT CAATCTGCTGGGAAACGTGGATTTTTTTCTAAAAGATCTGTAGGTCCCCAAGCTCGAGAGAAATATACATTTGAGGACAT GCTTTGTTTTCAAAAGGTAATCAAATCCAATACCAAATTTTTTTGTTACATTGAAATATTTTTTACCTATGAAGAGTTAA CACACTGATTCCTGTAGGATCCGATACCAACTTCATTGCTTAAGATTGATGGTGATTCAGTAAGCCGGGCAACCAAGTTA TTCCAGATAATTTTGAAATATATGGGAATTGATCCATCTGATCGTGTAGTGCCAGTAAGCTTAGATGAACGAGTTGAGCT CGTAGGTAAACTATACAAGCAAAGTTTGAAACGTTCAGAACTCCGAGATGAACTTTTTGTTCAGATATCAAAACAGACAA GAAATAACCCTGAGAGGCATGTCACTTTTAGATTAAGTACTTTGTTATTTGCTTCATCTTTTCTTGGCCTTTAATCACTG AAGCAATATCCACTGGGGTTTCTGTACTCTTGACTAATATCTATCCTGTCTAAAAAACAGGCAATACTTGATCAAAGCAT GGGAGCTTATGTATTTATGTTCGTCCTCCATGCCTCCTAGTAAAGATATTGGGGTTTATCTATCAGAATACATTCATAGC ATAGCACATGGTGTGGCTACTGATCCCGAGATCCAAGCCCTTGCATTAAATACATTAAATGCTTTGAAGCGTTCTGTCAA GGCTGGTCCAAGACATATAATACCTGGGCGAGAGGAGATTGAAGCTCTGTTGAATGGGAGAAAGCTTACAACTATAGTGT TCTTCCTGGATGAAACTTTTGAAGAAATCACATATGACATGTCAACAACAGTTTCTGATGCTGTTGAGGTTCTTTTAAAC TCATAGGCTTCTATTTGAAATTGCATGCATTTTTAACTACTTGAAATATATAGAATATATTATGGAAAATTGAAAACTTA TGTAGGTAAAATGAGAAATAGATAGGAGACTATGAATGTCTTGAATCAAAGTGATTAGGAGAGGTAAGAGAAAAAATTGT CTCTTGAAAGAATATACTTAACCTAATGAAGGTGATATACATATATATCCAATTTCAGACCTTTTGTAGTTAAGGCTTTT AGTTGCTTTGAATCTACAACTTTAATAAGACTTCGAGGCTTGACCTAGCAAAAGGGTATTACTTTAAGATTATTATTATT GATAGCAATATGAAATACCTTCATATTTACAATTAAGCAAGTTTTGTGAAGGTTCTGGAAGAATATCCACTAAAATTTTC ATTTACATCTCTAAGTTTTATATCAGGGTTCATTGTTTCAACTAGCAAGTTATTTTTTGGTGCTTGTTTAGATTTTTAAG AATGATATAATTCAATAAAGTGAACCGAAGCTATCTGTCAGTGGTTATTACTTATCACTTGTTTGTGACTTACTACTTCA ATAATGTTTACACTCAATAAGATGAATAAAGCTATAGGCTATTGGTTATTACTTCTTTGTGACTTCTCTTCTGCAAGTCC TTTATAGGATTGGTAGGCTTTTATAAGCTGAACTGATATATTATCTTAAGGAAAATGAATACCTATGAAGCACCGATTCT GACACGACACGACACGACATTGACACCTCGAAACGGCTAACCTCTAAAAAGTAGGACACTGAGACATTCCTTATATATAT CCACACTCTCTAAGTAAAGACAAGTTAGTCTCTAGAAAACATAAAAACAATTTTGTAAGCTCTATGACAAGAGTTTCACA AAAAAATTACTAAGGTACCGTTTCACAAAGTAGCCACTTTGTCCAAAAAAGGAGCTAATCTATCTACTGGTTTTCGCCTC CCTCTTAATGATATCATTGAAAAGTATAGCCTTCAGCTCTGGTTTAACAAGTGACAAATTAACAATTTCTTTCATGGTTT GACTCTTAAAAAATAATTTTTTTAAAATATATAAGTCTCCTAGAGGTGTCCAGCCAAGAAGACGTGTTGGATCAAGTGTC TGAGCTGCAAAAATATAGTTTTTCATTCAGACACCGCGAAGAAGGGTTTGATATGTGTCATGTCAGTGTTGTACGGGTGT TGGTGTCCAACACCGGGACACTCCATATTGTAGAGTGTCCGTGCTGCATAGCTTGGTACCTAATTGTAATACCAATGAAG TCCATAAATAGCTGTCTGTTCTTTCATATATTTTTATGTTGTCAGAGTGATAAGGAAATAACTAATTATGTACACAATCT CCTAATAAGAGAATAAATCTCCTAATACTGAATATAATCTTCTAATAATAATTCTTATATTAATTCCTTATTTACAACAC CCCCCTCAAGCTGGTGAATGAATATCTATCATTCCCAGCTTGCAAGTAAGCTCTCGAAACCGCTCCAAGGGAAGTCCTTT GGTGAGCACATCAGCCAACTGAAGTCCTGAGGGGACATACTGTGTAGATATTAGACCACTATCCAATTTCTCTTTGATGA AGTGCCGGTCTATCTCTATGTGCTTTGTTCTGTCGTGTTGGACTGGATTATGAGCAATACTAATGGCAGATTTATTATCA CAGAAGAGTCTCATGGGAGCTTCATACTTTATTTTCAAATCATCCAGTATGATCTTCATCCACAACAGTTCACAAACTCC TTGAGCCATGGCTCTAAACTCTGCCTCTGCGCTTGATCTGGCAACTACATTCTGCTTCTTGCTCCTCCATGTAACTAAAT TTCCACCCAAGAACATACAATATCCTGTAGTGGATCTCCTGTCAACAATTGACCCTGCATAATCTGCATCAGTATAAACC TCCATAGACAACTGCTCACTCTTCTTGAACAGCAGACCTCTCCCTGGACTTGCCTTCAGATACTGCAAGATTCTATCCAC AGCCTGTAAGTGTCTCTCCTGTGGGTCATGCATGAATTGACTGACAACACTAACAGGATAAGCTATGTCAGGCCTAGTGT GAGATAGATAAATGAGCTTCCCCACAAGTCTCTGATATTGAGCCTTATCAACCCTAAGGTCCTCCTCACTACTTCCAATC TTGTGGTTTTGCTCTATAGGCACTCCAATGGGCTTACAACCCAATTTACCAGTCTCTTTGAGAAGATCAAGGACATACTT TCTTTGAGATATGAAAATCCCTTGCTTCGAGTATGCCACCTCCATACCTAGGAAATATTTCAGTTTTCCAAGATCCTTCA TTTCAAATTGGGCTGCCAACTGTTTCCTCAGATTCTGCTTCTCAAGTTCATCATTACCTGCAATGATCATATCGTCTACA TAGACTAACAGAAGAGTGAGTTTACCATTTTGAGTATGTTTGATAAAGAGGGTATGATCACCTTGGCTTTGTTTATAACC CAGAGACACCATAGCATTAGTGAATCTCCCAAACCAAGCTCGGGGTGACTGTTTGAGCCCATATAGGGCCTTCTTCAGTT TGCACACCTTATTTCTTCCTGAAGTAGGGTCATACCCCGGTGGAATCTCCATATACACCTCTTCCTCCAAATCTCCATGC AAGAAAGCATTTTTAACATCAAACTGTTGCAACTCCCAATCAAAATGAGCTGCTAAGGAAAGAATGATCCTTACAGTGTT CATTTTTGCTACCGGAGCAAATGTCTCTTCATAATCAATTCCATAGGTCTGGGTGTATCCCTTTGCAACTAGCCTCGCCT TATACCTGTCAAGTGTGCCATCAGATCGGTACTTCACGGTATAAATCCACCTGCAACCTACTGTCCTCTTGTCATTTGGC TTCTCAACAATCTCCCAAGTTCCATTTTTGTCCAGTGCATGCATCTCTTCATTCATGGCTTGAATCCAATTCTTATCTTT TAATGCTTCTTGTACTGATGTAGGGACTCTAATAGAGTCAATAGCTGAAATAAAACTCTGATGCTGCACAGAAAGATTTT GAGTAGACACAAACTGGGATATAGGGTACTTGGCACAAGAACGTTTTCCTTTTCGTAAGGCAATAGGTAAGTCATCAAGG TTATGCTCATAGGAATTACTAGGCTCAGGGTTCGCAACACTTACCTCAGGATCAGACGGTTGGACTTGTTGTTGGATCAG GACGGGTTTTACTTTCCGTTGGTACTTTATCCTGAACCTGTCAACATTATTCTGATCTGGTACTACTTCAGAACCATTGT CATCATTCTCATCTGGTACTAGTTCAGGACCATTGTCATCATTCTGATTTGGTACTAGTTCAGGACCATTGTCATCATCA TCACTGTCCTCAGTGATAGGAATAGAGGAAGGCATCAAGGGATCCTGTAGAAGAGGAATAACAGACAATTCTGGAGACTC AACTTCCTGAGTATTCCCCCCCTGAAGCTGAGGATTGGGATAAAAAGACTCTGATTCTTGAAAAGTAACATCCATGGATA TATAGACACGACGACTAGGAGGATGATAACACTTGTAGCCCTTTTTATCTGAGGCATATCCTATAAAGATGCACTTAATA GCCCGAGGATCTAACTTACCCCGATGATGACCGTGAACATGGACAAAGGCGGAACAACCAAATACACGACTTTGAAGACC TGACTTAATGGGCACAGACGGAAAGAAGCTAGTCATAACCTGCACAGGACTAACACTAGATAAAACCCTAGAAGGTAACC TATTAATTAAATAAGCAGCAGTCAAGACAGCTTCCCCCCAATAAAACTTAGGAACATTCATTTGAAAGAGTAAAGCTCGA GTGATTTCAAGAAGATGACGATTTTTCCTTTCAGCAACCCCATTTTGTTGTGGGGTGTCAACACAAGTCAACTCATGAAC CACACCATTTTTTGTAAGAAATTCAGAAAAATTCTTGTTAACATACTCTTTCCCATTGTCTGACCTTAACCTCTTAATAG GTTTCCCAAACTGTGTTCTAATCATGTGGAAAAAGTTAACAAATAATTGAAACACCTCAGACTTATCTTTCATAAGAAAA ACCCACGTAATCCGAGTACAATCATCAATAAAAGTAACAAACCATTTTGCACCAGAAACATTAGAAATGGACGAAGGTCC CCACACATCAGAGTGAACAAGATCAAAAGGTTGAGCACATTTATTATTACTAGGAAGAAAAGTTGAACGATGATGCTTAG AAAACTGACAAACATCACAATGAAAAGATTCAACTGACACTTTTGAAAATAAATGGGGAAACATGGTCCTAAGAATACTA AAAGGAGGATGCCCAAGACGCTTGTGCTGCAACCATATTTGAGAAGTATTCCAGGACTCTGAACTCGTCTGATGACACTT GCTTTCCTCGTGCCGCAGACAGTATAACCCGTCCTGTTCCTTAGCAATCCCAATTATCTGTCCCGTGGCAAGATCCTGAA AAACACCATGTGAGTGGAAAAAGGTTACAGCACAGTTCAAGTCTCGAGTGAGTTTATGGATGGACAAAAGATTGTTAGAA AGCTTTGGGACATGAAGCACATGCTTCAAGGGAAGAGATGGACTAAGGTGAATATTACCACATCCCGTAATCTGGTTTTG GGATCCATTAGCAACAGTGATATAGTGTTTTTCAGGGTAAGTGGAATAAGAAGATAAATGTGAGGGGTGAGGTGTCATAT GATCTGTAGCACCAGAGTCAATAATCCAGTCATTTTCAGTACTCAAAGCATTAAGAGATAAGAAGGTAGAACTCTTACCA GTCATTGTGAGAGAACAAGAACCAGAGGGCTTACTCAATGAGTCCATAAAAGCTCTCAGACGCTCCAATTCTGCTTTGCT AAGGCTAGGGACATCTTCTGCTGGTGGTACAGGTGGGACTTCACCATCATTTTCCATGTCAGAAGTTGTGTGATTTGCGC GCCTCTGTGGAGCACCTTTGGACCCCCTCATACGTCTAAGGACGTTTTCCCTTCCATAAAGTTTGAAACAGTACTCTTTG GTGTGACCAGACCTCTTACAGTAAGTGCAACGATCATCACGGTTGAAGAGATCATCACGGTTGAAGCGATCATCACGGTT GGGGCGATCATCACGGTTAGGGTGTCCGGAAGAGGTGGATCCTTTTATGGGACCCTTTCCAGAGGCTAAGGCTGAACCAT CAACTGATTTGTCTTCCACCATCACTGTCCTCCTAGTTTCTTCACCACGAACTATAAAGAACACCTCTGAGAGAGAGAAG GGAGTTGCTCTTTACCCAAAACTTGGACCCGAATCGGATCAAATTCAGAGTTAAGCCCAGAGAGAAACTTAAAGATTCGC GCTTTTTCAATAAATTTATTCAATGTTGTGGAGTCAGCATCACATTTCATCTTCAGATTTTGATACTGATCTAATTCAAT CCATAGACCATTCAAGGTCCCATAGTAATCTGTCACGGAGAGAGTTCCTTGCTTAGAATTGAAAACTTTATTTTCCAATT CATAACAAGCTGAGAGATCTTGTTTCTTAGAATATGCCTGTGACAGATTATTCCAAATCTCCTTAGCAGTAGGGAAAAAC ATATAATTCCGGCTAATTTCCGGAATCATGGAGTACCAAAACCAGGTCATAATAAGAGAATTCTCTTCACGCCATGTGTC ATATTGTGGATCAGTTTCAGCAGGGGCTTTTTCTTCAATATAAATGATTTTCTTGCGACTTATGAGAGTGTGACGGATGA GCTCAGACCATTGGAGGTAGTTGCGCCCATCCAAGCGAAAGGAACCTTGTAATACCGGGAGATCTTTGTGGGTCAAAGGT GGAAGAGAGACTTTCACTCCAGAAGTGAGTTTCTCCTTAGGTATGGGAATCTCGTCTCCAGACATACTGAGAGATGTTAC TGTAGAAGGGAAACAAGAGGAAAAATAACAGAAACAGAGAAGATTGCACTCTCCTTGAATGGAAGAACCAAAGGCTTCTC AAGAAAAAACACCAACAAAGTGAGGAAACGACCCTCAGAACAAGACCAAAAGGCACGGGGAACCCTCTCTGTGCAATCGG AGTAACGAACAGAGGATGGCAGGCCGGTGATGAAGAGCACAGGCCTCCAAACGGTATAAGCCAACAGTGGCAAAACAGGA AACGTTACCAGATAAAAGGGCCGTAATAAGACGGCTAGGGTTTTTTTCGCAGAAGCAGAACTCCCAAGATCGGGAGCTCT GATACCAACTTGAAAGTAGGAGAAATTGTATTATTACTTCTTAATCAGAATACAAAGGGTAATTACATTATATAGAAGAA GACTAATCCTAAATAAGGAAATAACTAATTATGTACACAATCTCCTAATAAGAGAATAAATCTCCTAATACTGAATATAA TCTTCTAATAATAATTCTTATATTAATTCCTTATTTACAACAGATAAGTTGCTAAAAGGTTTTGGATTGCATCAGTTTAA TAGTCTTCTGGGCTAACTTCATGGCTTCCTGCACTTGTTGTGATTATGATCTTATCTTTACCTTCAGAGGAAATTTAGAG AAATGGAATGATCAGCTAATGTTAATTAGGTTCCTTGTATCAACTAAGTTGTGAAACTGCATTGTTTTCTTGGATTTTAT GGTATTATGGTTCATAAACTATATTGTACTTTATTTATGAATATTTGGTTTTTCTGTCTGATTTTGATGATAATTGGTAG AGTGGTTCACTTGATGAATTTTACTTCAGCTTCTATCAATAAGAAGAAATTTTTTTCACCAGCAGCATCCATTTAATTAC AATTCCTCCTTAAAATGTTTTCCATGGATATGCTCTGCTTTTCTACACAATCCTACTGCTTTCTTGTGTTACACATTGGC AGTTCCAGTTTTCCAAACATCATAAAATTGCTCATTATCTGTTGTTTCTTTTACTTAATGCATCTTTTCATCGCACTACA TATGTAGTTGCTGCTAGATTGACTTATTTTGTTCTTCAACAAATTGTTTGATGAACAACATTTTTGATATTTAAGTTTAT GTTTTAAAAGGATGCTATATCACATTATTCTGTCTTCTTCTATTTGAAGTTCACGATACACGCAATTTCTTGTTTCTACA CTTTCAAGTTTGTATCCTTTCAGTACTTACTCAACATTCTTACTCCAGGAACTTGCAGGCCTCATTAAACTGTCAACGTA CTCTAGCTTTAGTCTGTTTGAATGTCGTAAAGTTGTTACCGGCTCCAAATCATCTGATCCTGGGAATGGCATGTTTTTTT TCCTCTCCTTGATTGATATTCTATAAGCTAGCATTTCATTTGTCTAATACTCTAATGGCTCATTTTATTGCTACACAGAG GAGTATATTGGGTTAGATGATAACAAATATATTGGGGATCTCCTGGCGGAATTTAAAGCAGCAAAAGATCGAAGTAAGGG AGAAGTTTTGCACTGTAAACTGATATTCAAGAAAAAGTTATTTCGCGAGTCAGATGAAGCTGTGACAGAACCAATGTTTG TGCAGTTGTCCTATGTACAAGTATGCCATTTCATTATGAAACGTTGCAAATGATTAAAAGCATGTTTAATTTATGTATGA AGCTACAATTACCTTCAGCTTCAAGTTCTTAGATTTATTGGCGCTTGATGTGCAGTTCTATTTGCAAGTGTCTTATGTGC AACTATATCTTTAAATTTTGAAATCTTACAAGTAATTGAAACCATATCTCGTTGCATTTGAAGCCACAATTACCTCCAAT TTATATATTTGTTGATGCTGGATGCGTTGTTACAGTTGCAACACGATTATATTTTGGGTAATTATCCAATTGGAAGGGAT GATGCTTCTCAGCTTTCTGCATTACAAATCTTGGCTGAGATTGGATTTGTTAGCACACCTGAAACTGGCAGGTAAGTGAT TTCCAATGTTCACTTTGCAATTAACTATCTTTTAACAATATTTAGAGTCATTTAAATTTTGTGGTCGTGACTCGTGAGTG AACTTGTCAATTGCTATTTATTGTACTGTGACTTGACTGATTGATATTTTGTAATTCTCAGTAACTGGAATTCACTTTTA GAGCGCTTCCTTCCTAGACAAATTTCGATGACACGAGCTAAACGTGAATGGGAGTGTGATATTCTTTCTCGTTATCATTC AATGGTATGGGAAGGCTGTCTATTAGATTGTCTTTGACCCCTTCAATTACTAATAAGTCATTGTTTTCAATTATTTTCAA ATATTGATTATTTTAGTTTGAGTTCAATTATTTTCAAGCTATCATTTTACATGTCAGTCATTTTTCAGTGTTGTGTTTGT TTTAAATATGAAACTTGATATTTGTTTCTAGCATATTCTTTTTAATTGATGAATATAAACCCGTAAGTTTCTTTTTTTCC CCTTGATAAAGATGTTCTTAACTTTTAATAGGTGCATATGACAAAAGATGATGCAAGACAACAATTTCTGCGTATATTAA GAGCGCTTCCTTATGGGAATTCTGTTTTCTTCAATGTTCGCAAGATTGATGATCCTATTGGACTCCTGCCTGGACGAATA ATATTGGGAATTAATAAAAGAGGGGTATGCTTAAATAGACTAATAAATTGGTTAAATAATATCATTATTAAATTGTAACA AAATGGATTGTGCTTTTAATTGTATTCTTTTTCTTAATCAATTGTGTATAGATTCATTTTTTCCGTCCAGTTCCTAAAGA ATATTTGCACTCAGCTGAGTTGAGAGACATAATGCAATTTGGAAGCAGCAATACTGCAGTCTTTTTCAAAATGCGAGTGG CAAGTGTTCTTCACATATTCCAGTTTGAAACCAAGCAGGTATAACACCTGTTAACATCACACAAACCATTCTTATTTTGA AATTATTTTTCCTCACTAGAATTGTATCACTTTGTTGTAGGGAGAAGAAATTTGCATAGCTCTTCAGACACATATAAATG ATGTAATCATGCGCCGCTATTCAAAAGCACGGTCTGCCAGTGGAGGTGGTTCTTTGAATGGAGATGTTTCTAATAATTTT AAGCCTCCTAATTTAGAATTATATGAGAAGCGTATTCAAGATCTATCAAAACTTGCTGAAGAATCTCAAAGAAATGCTGA TGAAGTAAGTCTAAGCTTCTAACGTTTAATATATTATGTTATGCAAGTTGTACAACAAACGCCAAACTAAAACATTAAAC CTCCAAAAAAAATTCATGGCTTTTTGCATTGTAAACAAAACCATAAAACATGTTTGCTTCAGCTAGTCAAAGATTAAGGT TGCTACTAAGGCGAGTTTAGGTAAACAACTTGAATAAGTGCTCATGGCAATAAACACTTATGACATAAGCACTTATTCAT AATTTTATTTGAGAAACTTATTGAAATAAGCTCAATAGAGATTATAGGTAAGTTTGAGTGCTTATTCATAAGCTAATATG AGAAATTTATTGAAATAAAGTAAGTTTGAAAGAGCTATTTTATAAGATTAACCAAATACCTGCGTGAGTGTTTATGTTAT AAGATAAAGTCAAATACGCTCTTTCAAACATACCCTAATTGTCTTTGGGTATAATTTAGAGGCTTGTTGGTTGTCAGTGT AAATAGAAAATGTTTGTTTACATATCATATCATATGTCTAATGCATGTGTTTCATTAGAGTTATAATTTTATTTTATCTT GAGTAGTTGCTTAAAGAATTGCGTGAGAAGCAAGGAAAAGAAGAGAAAATGCAAGACGAATTGGAGGGTTTAAAGAAATC CTTAAAAGCTGATAAGCAAAATCTTGAGGTAGTGGCAAGTGACTGTGACAGGCTTAGATCATTATGCAATGAAAAAGATG AGGCACTACAGGTAAAGGTCTTGATTTCATGAAATGAGTCTTGTTTGGTCTTTACGTTATTGACATATCTTACTAATCAT GCAATCTTCCAGGCTGCAATTCAAGAGAAAAGGAATATGGAAGCAAGGATGGCCAAGTTGAGTAATGTGGTCATAGAGAA CTCTGCCAAAGAGGGTCTTATTGGAGAAAATAACCAAGTAAGATATTCTATAAAACTGTTATTCACGTACACAGCATCTT TTTTTTTTTATTCATGTTGCTGATTTTACTTCTAATGTATAAATTATGGACTTCGAATGGTACCAATAGGTGCTACAAAA GCTTAAATATGAGCTAAAACATTGTAAAGATGAGCTGCATTCTGCTGAAGAAACTATCAAAGCCTTGACAAGTGAAAAAA TGGTTTTGGAACAGAAGCTATCTGCACTTGAGAAGAGAAATGCTGAAGAGGTATGATCAAGTTCAAAAATCATTATTTGA AATTAGAAAGCCATAAGTTTAAGATGATGATGGTGGTTGTAATGCATTGCAGAGTAGTTCTCTTCAACGGAAACTGGAGC AAGAACGCAGAGCTGTGAAGTCTGAAGTGTTTGATCTACAAAGAAAGCTAGAAGGGTGCAGAGAAGAATTAATGTCTGCT AAGTCTACTATTTCAGTCAAGGACTCTGAGTTGGCTGCATTGCAGAATAATTTAAAGGAACTAGACGAATTGCGAGAAAT GAAAGAGGTTTCGATGCTCTTATCTCGTTTATTTCTCTGCTTCCATTGCATAATAACAAATAGAGGTTTCAATATATTAT TTAGTTTCACATTTTTTGTTTTTCTTTTGATTTAGGACATTGATAGGAAGAATGAACAGACAGCTGCCATATTGAAGATG CAAGGGGCTCAACTAGCTGAAATGGAAGTTCTTTATAAGGAAGAACAAGTTTTAAGGAAGCGTTACTTTAATATAATAGA AGGTTGGTAAAAGAAACTATGTGATCATGTCTATGTGATTGTGTTTGATAAACATACATGACTGACAAATATTCAACTAT GGAACTTGGTTTTACTTTAGACATGAAAGGCAAGATCAGAGTTTACTGTCGACTAAGACCTCTTAGTGGAAAAGAGATTG CTGAGAAAGAAAGAGAAGCTATTATTGCGTTCGATGAGTTCACTGTTGAATATCAATGGAGGGATGATAAGCCAAAGCAG TACATATATGATCGTGTTTTTGGTGGGGATGCAACTCAAGAAAGTGTATTTGAGGATACGAGGGTAAGTCTTAGTATAGC AACTTATAGATCATAGTCATGTGTTTCTCATGGGAACATATATTTAATCCTTTCTTATACTCATCACTAATCTCTTTTTT ATTTGCACTGCAGTATTTGGTGCAATCTGCTATAGACGGTTATAATGTCTGTATATTCGCTTACGGTCAAACTGGCTCTG GAAAGACATATACAATCTATGGAAGTGAAGACAACACTGGACTTACCCCTCGCGCAATTGCAGAACTTTTTAGAATTTTA AGGAGAGATAATAACAAGTATTCCTTTTCCTTAAAGGTAATATATCAGTTCAGCTTGGTAATTGTCATGCCGTTAGTCGT ATCAAGTGTATTATTATTAACATTTAATAGGTTAAATGATTAAAGAATTTAATTTGAAAGCTTTATTTATATGAAAAAGC ACACTGCTCTTTTCCAATTGTTTTTTTTTTGTTTGTGTTGCTGAGTGATGTTCACCACAACAGATGTTAGGAGTTCTACA AAACATTGCTTCTTGTCATATGTTGATTTCTTGAGTCAATGATGCAGGCATACATGGTGGAATTATATCAAGATACCCTT ATAGATCTTTTGTTGCCCAAGAATGCAAAGCATTTAAAATTGGATATCAAGAAGGATTCGACGGTAATACCCTCTCTATG TTGCCATTATGAATTTCCTTTGGTAAACAAGATATATTTTGTTATCTAGAAGGATTTAAAGGTGTTTATCTGGATGTTTA AATTTGATTTCTCAGTTGAAAAGTCCCCTCCCTGTTTGGTTTTTTAGAATTTTTTGTGTTACTTAACCATGCTTTCTAGC AATTGCTGAGGTAAGGGTGCTTTTGCAAACATTTTGAAACAAGTTTTGAAAATTATGGAACCTGTGGTGGACTTGCAAAC TTTTTTATACTACTTGTTGCTCGTAATCATCTTGATAATAGTTTCATTTTTAATTATTTGATGCTAGGGAATGGTTGTTG TGGAAAACGTAACAGTTATGCCGGTTTCTACAATTGAAGAGTTGAATGATATAATAAGAAGGGGATCTGAACGGCGGCAT ATATCGGGGACCCAAATGAATGAAGAAAGTTCAAGATCTCATCTTATTCTATCAATTGTAATTGAAAGTACCAACCTTCA AAGCCAGACAGTTGCAAGGGGAAAGGTAGCTTTTAGTTACATTTATTTCCTTTGAACAACAGTTGTATATAAACCTTGAT TGTTTCTTGAGCTCAACTGCGTTGTGGATGTTCACTCATTATATGTTGGATATAATTTTACAGTTGAGTTTTGTGGATCT TGCTGGTTCAGAAAGAGTGAAAAAGTCAGGTTCCAAAGGGAGTCAACTGAAGGAAGCACAAAGCATCAACAAATCATTAT CAGCACTTGGAGATGTTATAAGTGCTTTGTCTTCTGGTGGTCAACACATACCTTACAGGAATCACAAGTTAACTATGTTG ATGAGTGATTCACTTGGTGGTAATGCCAAAACTCTCATGTTTGTGAATGTTTCTCCAGTAGAATCAAGCTTGGATGAGAC ACATAACTCTCTTATGTATGTCTCTTTTTCTCTGTTATGCTCATGTTCTTCTATTAATATTTTTTGAACATGAAAACGGT TAACTTTCATATATTAAAGCATGTTTGGATCAGCTTCTCTAACTTCATAATCAATTCTGAAACTTAGAAGTTACTCAGAG AAGCTTCTTCCCAGAATTGACTCCATAATCAATTGTAGAAGGATTTCCAAATATGTTAACAATATTCCTGTTTATTCTTA TGTAGGTATGCATCACGAGTGAGATCAATTATAAATGACCCTAGCAAAAATGTTGCTTCAAAAGAGATAGCGCGACTGAA GAAGTTGGTTTCTTATTGGAAGCAGCAAGCAGGTAGAGGACTTGAGAATGAAGATTTAGAAGAAATACAAGATGAACGAT CATCTGAAGAGAGGACAGAGAGTCGTGGTAGCTCTAGGTAA
CDS sequence (LotjaGi4g1v0141300.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGTTCCCGCAGAACTAGCTGGAGCTGTACCCTTGATTGACAGATTCCAGGTGGATGTATTTTTAAAATTAATGCA TAAACAAATTCAATCTGCTGGGAAACGTGGATTTTTTTCTAAAAGATCTGTAGGTCCCCAAGCTCGAGAGAAATATACAT TTGAGGACATGCTTTGTTTTCAAAAGGATCCGATACCAACTTCATTGCTTAAGATTGATGGTGATTCAGTAAGCCGGGCA ACCAAGTTATTCCAGATAATTTTGAAATATATGGGAATTGATCCATCTGATCGTGTAGTGCCAGTAAGCTTAGATGAACG AGTTGAGCTCGTAGGTAAACTATACAAGCAAAGTTTGAAACGTTCAGAACTCCGAGATGAACTTTTTGTTCAGATATCAA AACAGACAAGAAATAACCCTGAGAGGCAATACTTGATCAAAGCATGGGAGCTTATGTATTTATGTTCGTCCTCCATGCCT CCTAGTAAAGATATTGGGGTTTATCTATCAGAATACATTCATAGCATAGCACATGGTGTGGCTACTGATCCCGAGATCCA AGCCCTTGCATTAAATACATTAAATGCTTTGAAGCGTTCTGTCAAGGCTGGTCCAAGACATATAATACCTGGGCGAGAGG AGATTGAAGCTCTGTTGAATGGGAGAAAGCTTACAACTATAGTGTTCTTCCTGGATGAAACTTTTGAAGAAATCACATAT GACATGTCAACAACAGTTTCTGATGCTGTTGAGGAACTTGCAGGCCTCATTAAACTGTCAACGTACTCTAGCTTTAGTCT GTTTGAATGTCGTAAAGTTGTTACCGGCTCCAAATCATCTGATCCTGGGAATGAGGAGTATATTGGGTTAGATGATAACA AATATATTGGGGATCTCCTGGCGGAATTTAAAGCAGCAAAAGATCGAAGTAAGGGAGAAGTTTTGCACTGTAAACTGATA TTCAAGAAAAAGTTATTTCGCGAGTCAGATGAAGCTGTGACAGAACCAATGTTTGTGCAGTTGTCCTATGTACAATTGCA ACACGATTATATTTTGGGTAATTATCCAATTGGAAGGGATGATGCTTCTCAGCTTTCTGCATTACAAATCTTGGCTGAGA TTGGATTTGTTAGCACACCTGAAACTGGCAGTAACTGGAATTCACTTTTAGAGCGCTTCCTTCCTAGACAAATTTCGATG ACACGAGCTAAACGTGAATGGGAGTGTGATATTCTTTCTCGTTATCATTCAATGGTGCATATGACAAAAGATGATGCAAG ACAACAATTTCTGCGTATATTAAGAGCGCTTCCTTATGGGAATTCTGTTTTCTTCAATGTTCGCAAGATTGATGATCCTA TTGGACTCCTGCCTGGACGAATAATATTGGGAATTAATAAAAGAGGGATTCATTTTTTCCGTCCAGTTCCTAAAGAATAT TTGCACTCAGCTGAGTTGAGAGACATAATGCAATTTGGAAGCAGCAATACTGCAGTCTTTTTCAAAATGCGAGTGGCAAG TGTTCTTCACATATTCCAGTTTGAAACCAAGCAGGGAGAAGAAATTTGCATAGCTCTTCAGACACATATAAATGATGTAA TCATGCGCCGCTATTCAAAAGCACGGTCTGCCAGTGGAGGTGGTTCTTTGAATGGAGATGTTTCTAATAATTTTAAGCCT CCTAATTTAGAATTATATGAGAAGCGTATTCAAGATCTATCAAAACTTGCTGAAGAATCTCAAAGAAATGCTGATGAATT GCTTAAAGAATTGCGTGAGAAGCAAGGAAAAGAAGAGAAAATGCAAGACGAATTGGAGGGTTTAAAGAAATCCTTAAAAG CTGATAAGCAAAATCTTGAGGTAGTGGCAAGTGACTGTGACAGGCTTAGATCATTATGCAATGAAAAAGATGAGGCACTA CAGGCTATAGAGAACTCTGCCAAAGAGGGTCTTATTGGAGAAAATAACCAAGTGCTACAAAAGCTTAAATATGAGCTAAA ACATTGTAAAGATGAGCTGCATTCTGCTGAAGAAACTATCAAAGCCTTGACAAGTGAAAAAATGGTTTTGGAACAGAAGC TATCTGCACTTGAGAAGAGAAATGCTGAAGAGAGTAGTTCTCTTCAACGGAAACTGGAGCAAGAACGCAGAGCTGTGAAG TCTGAAGTGTTTGATCTACAAAGAAAGCTAGAAGGGTGCAGAGAAGAATTAATGTCTGCTAAGTCTACTATTTCAGTCAA GGACTCTGAGTTGGCTGCATTGCAGAATAATTTAAAGGAACTAGACGAATTGCGAGAAATGAAAGAGGACATTGATAGGA AGAATGAACAGACAGCTGCCATATTGAAGATGCAAGGGGCTCAACTAGCTGAAATGGAAGTTCTTTATAAGGAAGAACAA GTTTTAAGGAAGCGTTACTTTAATATAATAGAAGACATGAAAGGCAAGATCAGAGTTTACTGTCGACTAAGACCTCTTAG TGGAAAAGAGATTGCTGAGAAAGAAAGAGAAGCTATTATTGCGTTCGATGAGTTCACTGTTGAATATCAATGGAGGGATG ATAAGCCAAAGCAGTACATATATGATCGTGTTTTTGGTGGGGATGCAACTCAAGAAAGTGTATTTGAGGATACGAGGTAT TTGGTGCAATCTGCTATAGACGGTTATAATGTCTGTATATTCGCTTACGGTCAAACTGGCTCTGGAAAGACATATACAAT CTATGGAAGTGAAGACAACACTGGACTTACCCCTCGCGCAATTGCAGAACTTTTTAGAATTTTAAGGAGAGATAATAACA AGTATTCCTTTTCCTTAAAGGCATACATGGTGGAATTATATCAAGATACCCTTATAGATCTTTTGTTGCCCAAGAATGCA AAGCATTTAAAATTGGATATCAAGAAGGATTCGACGGGAATGGTTGTTGTGGAAAACGTAACAGTTATGCCGGTTTCTAC AATTGAAGAGTTGAATGATATAATAAGAAGGGGATCTGAACGGCGGCATATATCGGGGACCCAAATGAATGAAGAAAGTT CAAGATCTCATCTTATTCTATCAATTGTAATTGAAAGTACCAACCTTCAAAGCCAGACAGTTGCAAGGGGAAAGTTGAGT TTTGTGGATCTTGCTGGTTCAGAAAGAGTGAAAAAGTCAGGTTCCAAAGGGAGTCAACTGAAGGAAGCACAAAGCATCAA CAAATCATTATCAGCACTTGGAGATGTTATAAGTGCTTTGTCTTCTGGTGGTCAACACATACCTTACAGGAATCACAAGT TAACTATGTTGATGAGTGATTCACTTGGTGGTAATGCCAAAACTCTCATGTTTGTGAATGTTTCTCCAGTAGAATCAAGC TTGGATGAGACACATAACTCTCTTATGTATGCATCACGAGTGAGATCAATTATAAATGACCCTAGCAAAAATGTTGCTTC AAAAGAGATAGCGCGACTGAAGAAGTTGGTTTCTTATTGGAAGCAGCAAGCAGGTAGAGGACTTGAGAATGAAGATTTAG AAGAAATACAAGATGAACGATCATCTGAAGAGAGGACAGAGAGTCGTGGTAGCTCTAGGTAA
Protein sequence (LotjaGi4g1v0141300.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAVPAELAGAVPLIDRFQVDVFLKLMHKQIQSAGKRGFFSKRSVGPQAREKYTFEDMLCFQKDPIPTSLLKIDGDSVSRA TKLFQIILKYMGIDPSDRVVPVSLDERVELVGKLYKQSLKRSELRDELFVQISKQTRNNPERQYLIKAWELMYLCSSSMP PSKDIGVYLSEYIHSIAHGVATDPEIQALALNTLNALKRSVKAGPRHIIPGREEIEALLNGRKLTTIVFFLDETFEEITY DMSTTVSDAVEELAGLIKLSTYSSFSLFECRKVVTGSKSSDPGNEEYIGLDDNKYIGDLLAEFKAAKDRSKGEVLHCKLI FKKKLFRESDEAVTEPMFVQLSYVQLQHDYILGNYPIGRDDASQLSALQILAEIGFVSTPETGSNWNSLLERFLPRQISM TRAKREWECDILSRYHSMVHMTKDDARQQFLRILRALPYGNSVFFNVRKIDDPIGLLPGRIILGINKRGIHFFRPVPKEY LHSAELRDIMQFGSSNTAVFFKMRVASVLHIFQFETKQGEEICIALQTHINDVIMRRYSKARSASGGGSLNGDVSNNFKP PNLELYEKRIQDLSKLAEESQRNADELLKELREKQGKEEKMQDELEGLKKSLKADKQNLEVVASDCDRLRSLCNEKDEAL QAIENSAKEGLIGENNQVLQKLKYELKHCKDELHSAEETIKALTSEKMVLEQKLSALEKRNAEESSSLQRKLEQERRAVK SEVFDLQRKLEGCREELMSAKSTISVKDSELAALQNNLKELDELREMKEDIDRKNEQTAAILKMQGAQLAEMEVLYKEEQ VLRKRYFNIIEDMKGKIRVYCRLRPLSGKEIAEKEREAIIAFDEFTVEYQWRDDKPKQYIYDRVFGGDATQESVFEDTRY LVQSAIDGYNVCIFAYGQTGSGKTYTIYGSEDNTGLTPRAIAELFRILRRDNNKYSFSLKAYMVELYQDTLIDLLLPKNA KHLKLDIKKDSTGMVVVENVTVMPVSTIEELNDIIRRGSERRHISGTQMNEESSRSHLILSIVIESTNLQSQTVARGKLS FVDLAGSERVKKSGSKGSQLKEAQSINKSLSALGDVISALSSGGQHIPYRNHKLTMLMSDSLGGNAKTLMFVNVSPVESS LDETHNSLMYASRVRSIINDPSKNVASKEIARLKKLVSYWKQQAGRGLENEDLEEIQDERSSEERTESRGSSR
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 | 41 | 221 | 181 | 2.9E-27 | ||
SMART | 60 | 219 | 160 | 2.6E-33 | ||
ProSiteProfiles | 60 | 219 | 160 | 51.587 | ||
Pfam | 109 | 217 | 109 | 8.5E-24 | ||
SMART | 220 | 444 | 225 | 2.8E-37 | ||
CDD | 221 | 326 | 106 | 5.90764E-9 | – | |
Gene3D | 223 | 325 | 103 | 3.6E-11 | – | |
ProSiteProfiles | 224 | 538 | 315 | 35.69 | ||
Pfam | 228 | 301 | 74 | 3.8E-10 | ||
SUPERFAMILY | 322 | 439 | 118 | 1.57E-19 | ||
Gene3D | 326 | 437 | 112 | 2.3E-12 | ||
Pfam | 333 | 445 | 113 | 3.1E-16 | ||
CDD | 339 | 437 | 99 | 9.59845E-17 | ||
CDD | 441 | 549 | 109 | 1.48256E-70 | – | |
Gene3D | 442 | 550 | 109 | 5.6E-14 | ||
SUPERFAMILY | 444 | 531 | 88 | 1.84E-12 | – | |
Coils | 563 | 622 | 60 | - | – | |
Coils | 629 | 649 | 21 | - | – | |
PANTHER | 634 | 1182 | 549 | 3.6E-298 | ||
PANTHER | 634 | 1182 | 549 | 3.6E-298 | – | |
Coils | 659 | 729 | 71 | - | – | |
Coils | 744 | 781 | 38 | - | – | |
SUPERFAMILY | 759 | 820 | 62 | 3.57E-8 | ||
Gene3D | 811 | 1179 | 369 | 3.6E-149 | ||
SMART | 814 | 1145 | 332 | 5.5E-159 | ||
CDD | 814 | 1139 | 326 | 1.90198E-179 | – | |
SUPERFAMILY | 816 | 1163 | 348 | 1.72E-120 | ||
ProSiteProfiles | 816 | 1137 | 322 | 119.864 | ||
Pfam | 822 | 1137 | 316 | 5.6E-105 | ||
PRINTS | 888 | 909 | 22 | 2.8E-39 | ||
PRINTS | 1007 | 1024 | 18 | 2.8E-39 | ||
ProSitePatterns | 1037 | 1048 | 12 | - | ||
PRINTS | 1038 | 1056 | 19 | 2.8E-39 | ||
PRINTS | 1087 | 1108 | 22 | 2.8E-39 | ||
MobiDBLite | 1164 | 1193 | 30 | - | – | |
MobiDBLite | 1167 | 1193 | 27 | - | – |
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 | Microtubule motor activity | Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP). | ||
Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Cellular component | Cytoskeleton | Any of the various filamentous elements that form the internal framework of cells, and typically remain after treatment of the cells with mild detergent to remove membrane constituents and soluble components of the cytoplasm. The term embraces intermediate filaments, microfilaments, microtubules, the microtrabecular lattice, and other structures characterized by a polymeric filamentous nature and long-range order within the cell. The various elements of the cytoskeleton not only serve in the maintenance of cellular shape but also have roles in other cellular functions, including cellular movement, cell division, endocytosis, and movement of organelles. | ||
Biological process | Microtubule-based movement | A microtubule-based process that results in the movement of organelles, other microtubules, or other cellular components. Examples include motor-driven movement along microtubules and movement driven by polymerization or depolymerization of microtubules. | ||
Molecular function | Microtubule binding | Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers. | ||
Molecular function | Oxidoreductase activity | Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced. | ||
Biological process | Oxidation-reduction process | A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. |
Expression pattern of LotjaGi4g1v0141300.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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