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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0102200 |
Transcript ID | LotjaGi4g1v0102200.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Kinesin-like protein; TAIR: AT5G47820.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein; Swiss-Prot: sp|A0A068FIK2|KN4A_GOSHI Kinesin-like protein KIN-4A; TrEMBL-Plants: tr|K7MM29|K7MM29_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0102200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:14009379..14025188) extracted from Lotus japonicus Gifu genome v1.2.
GGGAAAAGAAAAGAGTGACAGAGAGGGAAGGTAAGACAGTGAAGACAGTTGGACTTCGGGACTTGCCACGAGGACCTGAA ACAACCCATAAAAATAAATTAAATAATTAATAAAAAGAAGAAAATGGAAGAAAAAAGAAAAAGAAAGGGTAGTTATTATT ATTTTTTATTTTGGTATAAACATTCGCTACCCGACCTATAAAAGCTGCCAGATTCGAGATTTAATTACAGTTAAAACTCT CATCCTTATTTTAGACTGTATTATTTGGGAATCGAACCTGAAAGTTTTTTCCGCAGACTTAACCTGCGTTGCCAATTAAG CTAACCTCTTGTACAAGGTAGTTATTATTATGATGTAGCATTGGAGGTTTCTGTTGAAAACACAAAAACACAGAGAAAGA GGAGAGAGAAAGAAGAGAGAGAAATAGGGTGTGTTTGTTTGACACTGTTAATTAGCATCTTCTTCATTCTTCTTGAACTC TCTCTGACTCTGTGCATAGAAATAGAAGAAGTAGTGTGAGTGAAGCAGAAGCAGAAGAAACGTGATTCTGAAATCTCAAA TTCTCATCACTGTCACGCTGATAGTGCTATCTGTTACGCTCTGTACGTTCTTTGTTTGTTGCTGTTGGTTCGTTCGCGGT TTCTTCAAACCTCTCTCTCTTTCTCCCCAACAACCACCACTCCCTCTCTCTCTTGCTGTTAAATCTCCACCTTCCTTCTA TTCTCTCTCTTGATTGTTCTGCTTGCTTGCTGTTGCTGCATCGTTTTCTTCCAATTCTCTGACTGATTCTTCACTCAGAC ATTGATTCAGTTTTCATTCATTCCTTCCCTTACCCGAAACGTAACACAAATCCTCACTCAGTAACCACTTTCCGATGGAA TCAACACCGGAAAATTGCTCCGTCAAAGTGGCTCTTCACATTCGTCCTCTCATTGCCGATGAACGACAACAAGGTTGCAC TGAATGCGTTTCCGTCACAAATGGAAAACCTCAGGTTCGTTCGTTCTCACTTTCCTCTCTTCTTCTTCTTCTTCCTCCTT TTTTTTTTTTTTTTAATTTTTCGTTTCTATTTTTATTTTCAACTAATTTTTATTTTCATCATCATTTTCATTAATTATCA TCTTTGTCGTTTAGCTAGTAGATTATTAATGACGTGTTTATCCCTTACCAGGTTTGGGGGTTGCTTAATTAATTAGATCA TTTAGAATATTTTTAGTTTATTTCTTTTTTATAGGAAAGTTTTATTTATGGTTGTATTTATTATTCCTTTTTTCGTTATC TAGCTTTATAGGTCATGCTATTAATTAAGTTTCCCGGTTGGGAAATTTTGTTGTTTAATGCAGTCTTGGGGGTTGTTTGT TTAGTTAAATTTGTTTTTCCATGGTTTTAATTAGCTGCGTTTTATTGATTGAAAATTATTTATTTGTTTTTTAATGTTTG ATTTTGTCATGACTTGTGAGTTGTGTGACTGTGACTTTGATGACTTTGATGTAAATTTGCCATTGCCTAGTAATTTATTT GTGTAAATTTGTATCATAATTCATAAATAATGTTTTGGAATTTGAAGTCAAGGCACTTTAGTTCAATTTGGACATTTTCC CTATTCTATTGTTAATGAGACCTATAGGAGATAAAATGATGGCTTAATAGCTTTTTTAGTCTCTAACTTATCACGATTTG ACAGTTCTGGTCCCTTTACGAATTTATTAGCCTACAATGTCCCTCACGTTTACTAACCGTTGCAGTTTCGGTTTTCCGTT AACTTCCATCCAATATTTAATGGCTATAGGTCAGACATATATTCCATAGAAAAGTACACTTTTCAATGGAGTTACCGTAT TAAGTTAATTGCAACAGGATATAGAATGCAATTTGTGGTGAAATGATATATAGAAATTCACTTGTTTTGAATACTGTAAA TATGGACTCGCATTTTCACTGATTCATGTGGAAAAGATATGAGTGACTTTGATATTCTGCAGTTGTCTTCTGAGCTCCTG AGAATCTAATTGAAGTATTTCAATGACCAGGTTCAAATTGGGTCACATTCCTTTACATTTGATCATGTTTATGGAAATGG TGGATCACCTTCAGCTGACATGTTTGAGGAATGTGTTGCGCCATTGGTTGATGGGTTATTCCAAGGATTCAATGCTACTG TACTTGCTTATGGTCAGGTGAGGTCAATCTTGCATGCCATGTACTCAAAGTTGATAGAAGATCATTCATTTCATCTTTTG AATTTGACGTACTTACATATTTGCCACAGACAGGATCTGGGAAAACATATACCATGGGAACTGGTTATAGTGACAATTCT CAGACTGGCTTGACTCCTCGGGTTATGAATGCGTTGTTCAACAAGATTGAAATGCTAAAACATCAAACAGAATTTCAGTT GCATGTCTCCTTCATTGAGGTATATCCACTATGCTATGAGCTGGTGTGCATATTTATGCTCTTCCCAAAAATTCTAAGAT ATATTGATTTATTTTTAAAAATGAATCCATCCATGGTAGTAGATCCATGTAACTTGTCAAATTATGGATGTTCTAAGCAG AATAGTTGTTTCACACAGCAGTTTATTTTGAAACAGTGACATTGCTTTTATAATTGAAACAAAAAATTCATGAATTCTTA TTCAATTAAGGACTTAATTGTGCATTTGATTATCAAGATTTTGAAGGAAGAGGTACTGGACTTGTTGGATACAGTATCTA TGGGAAAATCAGAAACCTCTAACTCTAATGGACATTCTGGAAAAGTAACTATTCCTGGGAAGTCACCGATACAAATTCGT GAAACATCAAATGGAGTAATAACACTAGCAGGATCAACCGAAGTTGCTGTGAGTACATTACAGGAGATGGCTGCTTGTTT AGAGCAGGGTTCTTTATGTAGGGCAACTGGAAGTACAAATATGAACAACCAGTCCAGGTGAATAATGAGCCCTTACTCTT TCTTGTCCACCTACATTACCTATCAAATGAATAATGCTCAGTACATTATTTTGGATGGTCAAAATTTAACATTATTTTAT TTTAATTTTTCTATATGGCATTATCTCAGCTGGAATAGAAAATAACTTGGACCAACTTCATAAAAGATAGTAGTACAGTT TTCTCTAGTGATTCATATTCATAGATTACCAATCATTTGGTTTGGATTGCTTCTAAGTACTGTTTTTTCTTGAAGATGGC TTTTCTACTGTTTCTTTATCTTTCCCTTATAGGGGTAAGTTTAGTTTTTATTGTAACTGTAATTTCCATTAGATTCTCAA AAAAATTGGGTTCTTATTTTATGGTTTCCAGTCCACTACATTCAATATTAATATAATCTAATAAATTGTGGTTCCCCTTT TGCTTGGATTAGTCGGTCACATGCCATCTTCACAATTACATTAGAACAGATGCACAAACTCCATCCAGTTTCTTCCAGTA ATGACACCTCAGATGAGGATATGGGTGAAGAATACCTTTCAGCAAAGTTCCATTTGGTAGATCTAGCTGGATCCGAGAGA GCTAAAAGAACTGGTTCTGATGGTCTTCGTTTCAAAGAAGGTCATAATACTTTAATTAACCTTAATACCCAGTATACTTT TGCTTCAAATTACTGTGTTATTATTGAAAATAATGATGACAAGGATTTAGTGACATTATCTTATCTTTTTGTCAAATAGG TGTACACATTAATAAAGGCCTTCTTGCACTAGGTAATGTCATTAGTGCACTAGGGGATGAGAAAAAGCGAAAAGAGGGTG TACACGTCCCTTATCGGGATAGCAAACTCACTCGACTCTTACAGGTTAGAGAAACATTTTGTTGTTTGACAATTGACAAA ACACTTTTGTATGTACGCGTGTGTGTGTTAGGCTGTTACCATAAAAAGTGAGAGGAGTGGTTTATTGTGAGAGTGAGAAG ATAATAGCTACTAATCAGTAACTTCTGTTTGGGAGTTTGCAACCTTAGCTTGACTTGTCAGTTTCCCTTTTCTATTTAAG GCAGGAACTAAGAATTGTATCTTAGTTTCTTAATGCTACTCTTTAAGAATCTTTGATCCAGAGTTACTGGTCCTTGTTGC AGGATTCACTTGGTGGAAACAGTAAAACTGTCATGATAGGTAATTACTTCTGAATATTGTCTCCTGGTTTAAGTATGTAA TTGTTTTCCTTGTGTTTAATCCACAGAAAATATGAAGTGTTACTACTTTTCTTCAGTTCATCTTGTTTCAGTTGAATCCA GCTTATGGCATGGAATAATGGTTTTTATTCCTGTTAATGTCGGAGCAGTTGTAAACTAATTGCAAGTTCTCCTGTAACCT TTATTTACTTGAGAGGCTGTATTTCCATCTTTCTTCTTATATTTTAACTTCAAAATGATAATAATAATAATAATAATAAT AAAATAAGTAAATAATAATAATAATAATAATAATAATAAAAAAATAATAATAATATCAGTAATGCCCTTTTTCACTTGCC ATTTATACCATTTTTTCAATCATAATAATACATTGAGGAAAAGACAAAATTTGTCAAGTTGAAAAGAAACAACGTAGAAG CACATTTAATTTGTACAACTTGCTGGTTGAGCAACAAATTGATAAAACATCAGATAGGCCCAATAATAAAAGATGAAATT GGACCCCATTTTCTGCACCATATTCATCATGCAGTTTGACAGACAAGTCTCTAATGTCAGACATATCTGTCATATCATTG CCTAGTCAGATAAAAGCATTTGTTGGATTTAGACTCTCCATGATGAATCAGAGATATAATTCTTCTAATATAGTTATTAG ATACTGTATTATGTGTAGCAAATATGGACATTGAATTATTGCCACATAGTGATACATTTATAATATGTTTCCCTTGTCAA AACTAAAATACTTAATGCTTTTCAATTGCAAAATGATTCCCCTTTCACAGCTTGCATTAGCCCTGCTGACATAAATGCTG AGGAAACTCTTAACACCCTCAAGTATGCAAACCGTGCACGAAATATTCAAAATAAGCCAGTTGTAAGTTTCCATGATTCT TTGTTATTTGAAGTTCTTGTGCTGTTCTTTGCCCTGGGAAGATGAGGAAATTCATCCCATTCAAGCTCCCCAAGTTTTAA TCCTTGATGTTAACTTTACAGGCTAATCGAGATTTGATATCCAATGAGATGCAGCAAATGCGACAGCAATTAAAGTACTT GCAGGCTGAGCTCTGTTCCCGGGGAGGAACTCCAGCTGATGAAGTGCAGGTATTTATCACATCTAAAATTTTCATTTTGA ATTAGCATGACATAAAATGAGTTTTGTGATTAGCGTGATGTTTTTCTTGCACAGGTTCTTAGGGAAAGGATTGCTTGGCT TGAGGCAACTAACGGGCAACTGTATCGGCAACTGCATGAATATCGCAGTAGATGTGCATTTGTAGAGGGATGTGAAATTG ATGAACCAGTATGTGAATAGGAAAAATTTAAATGTTTCTGTTATTAGCTCTCACTCCAAAACTTAGATGGATTTAAAGCA CATTGTTAATCTCGCTACCCCAAAACTTACTAACAAATGCTACTTAATGTCATTTTTTCTTTTCTCAGGATGAACATATT TATCTTGTGAAAACTGATGGGCTTGAGAAGTGCCTTAAGAGCTCAGATTTATCAGACCATCCCATGGCTGGAAGTATGTC AGGTAGACATTTATTTGTCTGTTCTTAAGGCGTAAGAACCTAGTTGCTTTTATATTTTAAAACTTTTAATGCAATTGAAT TTTAAACCTACCCGACACTCCTTCTCTCAGCTTCCATTTTCTAGAAAATTTAATGAGCTTTTTCCCTATTCCCTGTACAT ATTAACTACTACATTCATAATTATAGAAAGTGTGCATTCATCATACCTGGGTTTGTTGAAATAATCTTTTGTACTTTCAG TACGGTCTTCAACATTGGGGTACTCTTTCTTACTCTCTTTTGCAGGTGAAGATTCAAGGGAAACTGATGAAGCAGTTAAA GAGTTGGAGCATGCACTATTGCAAAATACCTTGGATAAAGAGATGCATGAGTTAAATAAGCGCTTGGAGCAGAAAGAGGT TTCATTTTTATGATTTGTTTTGTCTTTGACATGTTATGAGTTTAATATACCTTGTTTAATTATTTCATCCGTTTGCTAAG ATCACAGGGCCACAACGAAAAAATATCTGTCAATTCAGTCTTTGACTTTAGCGTTTCCTATATGTTGGAAATCTGGTTGT GATAATCCTGGATAAAGTCAAGAATCGTGAGCGTCACTTTCCGAACAAATTATTTCGACCCTATAAGTGTCTGGGTTCAC GAAATCTTTGTTGGGATAATACTTGACAATCAATCTGTTTCTTGGCACAAGAGAACAGATCAAGAAAGTAGAGATATTCT GTTTCTGGTTTTCTGTGTCAAATTCCTTAGGTTGCAAGTAACCTTATATAGAGGTTGTGTTTTCACGAATGATCACACCA GTTAGAAAATAAGTCACAACTTTTCAAACAATTTCAAACTAGGGTCACGACCGTTCAGCGGGACCCCAGCCAGGGGCTCC GCCCCTTGGACCCCGGTTCGTATTCGCGGTCAATTACGCGTTGGCTCACCGAGCGTGCACTCCGCACTAACCTGACTCGA TTCCGAGCCTAACGCGTAATTGCATCAGCCTATAGTAGATCACATTACTACTAAAATACATTGATAATTCTAAAATCACC AACACTATATGGGTGAACATTAGTCTTTTGTTGTGATATGAAACTCTGTTATGATCTAAGCAGGGAATAAAATTTCAGAT TCAATTTATTATCTGAATCTATTCTCCCTTTCCTTGCAGTCTGAGATGAAGCTCATTGGAGTTGATACTGAAGCACTCAA ACAGCACTTCGGGAAGAAAATTATGGAACTTGATGAAGAGAAAAGAAAAGTGCAGGTTGAACTGGACATATTTAAATTTT AAATAGCTATCAAGTGCACAAGAAGTCTCAATTTTTACCCTAGTGACGGATTTTGGACTGATAATGACAGCATGAAAGGG ACCGTTTGTTGCATGAAGTAGAGAACCTTTCTGCTAATTCAAATGGACTGGCACATAAAAATCAAGATTTTCGTGGCCAA AAATTGAAAGCATTGGAAGCACAGGTGAATTTTCGATTTACATTAATGTCATTCTCATTTCATAAGGTTATCATCCATGT CCACTGTCCAGTCCACACAAATTTTCCATTCATTTTCTTTTTTATTTTGAAACATCAGATCTTAGACCTCAAGAAGAAAC AAGAAAGCCAAGTGCAGCTACTAAAGCAAAAGGAGAAGAGTGAAGAAGCTGCAAAAAGACTGCAAACTGAGATACAAAAT ATCAAGGCTCAAAAGGTCGGTATCCATTTGTTGAGCTAATTTTTTTTTCCACATATCTTACATTTATTCATATATATTTC AGGTTCAGTTGCAGCATAAAATGAAGCAAGAGGCAGAACAATTTAGGCAATGGAAGGCTTCTCGTGAGAAGGAGTTACTC CAGGTGATTGATTGTGCAGGACATTCAAATTCCATATTTTTGTCTCTGAGCATGTGGCATGCCAGATTTTTATTGAATGC TGTGTTTGAAATATTTATATGCTTCACAACCCATCAAATTATGGAATCTGTGATTGCATATTGCATTGAAATGATTACGG TTAGATATAAAACTCACAAGCTTTCACCTAACAAGTTAACCTTTGGGGGTCACGAAATAGTAGTTGTATATAGGCATCAA GTAGTTGGAACTTGGGAGTTTGATCCTATGCAACCCCATTATGACTTGAATTTTAGACCAATGTAAGGTGGGTCCGTACA TTGTTCACTTCAAGTCCAAAGAGCTATTTGTATGAGGTATATGTCAAATATAAAACCACTTATGAGCATTCACCTAATGG TTTAAGCTTTTGGATGGTTGGACCTTGAAAATGAAAAGTACACTTTTTATTTGAAATGAAATTTGACAAAAAGAATTATA AATTAGTATTTAATGAAAATACTGTATCTTTGGGCTTCTGTTTCTTATCAAGGGTGTTTATTGAGGACAACCTACCTTTG TTTTGTTCTAGAATTTTAGTATTTTTCTTATATTTGATATATCAGCTGTTGAAATACTTCATCAAGAAAACTCTTCTACA TGTTTTGTGCTTTCTACTTGGCTGACTCTGTTCTTTTATTTTAAAATGTTTTTTTCTGGGGATATTGATCAGTAGAAAAT TGTTTAGATACATATTGGTGCTGTTCTCTAAAAATTAATCATGCTGTGACTGCTTAAACCTTGGGGTGATTTGTTGCTCG TATCATACAACTTTCATTTTAATCTTGCTTTTAACTTTAAACAGTTGAAAAAGGAAGGAAGAAGGAATGAGTATGAAAGA CATAAACTTGAGGCTCTAAACCAGCGTCAAAAAATGGTAAGTTAAAGATCTAAAGTTTATCATTTTCGGTGCTCATTTAG TCATGAAGATATTTCTACCTACCTCCACTATTCTCTTTTCTCTAGCGTTTTCAGATTAATTGGAATCTAAACTAAATGGG AATGGCTGTGATTGTTATATAATGAAAATGTAGATAGATAGCTCAGATCATACATACAGAAAGGGCTTCTCATTTTCAGG TTCTGCAATTTCGAATTTCACAGCTGTTGTCACATAGTTAATTGCTATTTGCAGGTCCTTCATAGGAAAGCAGAGGAAGC AACAATAGCTACGAAAAGGTTAAGAGAATTGTTGGAAGCCCGCAAATCTTCTCCACGAGACAACTCTGGTAGAACTTGAT TTGTAATTATTTTCTTTCACAAGTATATCCATTTCCTGACTATTTTCTGTCTCTTTCAGTTTATTCAAATGGAAATCCGC AGCATGGGCAGGTAATGACATATACTTAGCTTATATATGATGCGATTTGTCACTTTAAAAGCAAACAGAAAATGTCATAA CTCAGCTCCTTCCTTTTAACCTACAATTATTGAAACAACATCTTCCTTATGCGTCCTTCCGAAATCGATAATCTTTCTAT TCTATGTACTTTTAAATCAGGCCGGTAAGTATATTCCTATTGTATTCAAATAAATCCCGCTATTGAATTTCTTCCCTTAC ATATTAAAACTAAGATGTTTTTAGACCTCTTTACCCCACCGCTCAATCTGACTTTTCTGTTATTTACGATTTTAAATAAA TTTATCTAAGAACAGTTTAAACCTAATCTGTATGTCCAGGTCAATGAAAAATCCCTCCAGAGGTGGCTTGATCAAGAGAT GGAGGTCATGGTACATGTGCATGAAGTTCGTGCTAAATTTGACAAACAAAACCAAGTGTATGTGATCATAGTTTTTTATC ATGTGTTTTTTTTCCTTGAGCATAATATATCTTTCCTAATCTATCTTTTCTTTTTACTATTGATTGGTATTTTTTTAGCC AAGCTGCATTGGAAGATGAGTTGGCCTTCCTGAAACAAGCAGATCAGTTTTCAGATGGGCAGAGTATCCTCACAGGAAAG AGCAGATATTCAAGGTAATTCCCCCCCTCCCCACCATAAATCTGTGTATCTAGATTGTCTTTCTATTGCTATGTTGTAGC AATTCATTATTTCTCTAACTTCTTTTTTTCTTCTTGTTTCCCCATTCCTCAGACTGTTATCCATGTCACCGGACGTAAAA GCTGCAAGAATAGCTTCTCTTGAGAACATGCTGAGCATGTCTTCAGTTGCTCTGAAAGCCATGACTACACAACTTACAGA GGCAGAAGATAGGGAACGCACATTAAGTAACCGTGGACGTTGGAACCAGCTACGCTCAATGGGAGATGCAAAGAATGTGC TTCAGTATTTGTTCAATGCCACAGCAGATGCAAGGTGCTTCCAGAATCTTCCTAGTTTTTATTTGTACCAATTTGATTAG AGAAAAGAGAGTTATCAATTTACATATATGCACCTTTTATAAATAGTCCATGGAAAAAGTAAATCTTTGGGAAGTGTTGG TAGAAATTGTTAACAGTCTATCAGATACTGACATACTGTTAATACACTATATCACAACTTCTTTCTTTTCAGATAATTTA CTTTCTGAAGTGTGCATTATCTCTTATATTTCACCTTTTTTTTAACTACTTTAAGTGCAATTTTTTTGTGCAATTTATTC CTATTCTAAGTTATGGTAGTCTGCATCATCTTCAACAGGTGCCAATTGTCGGAAAAGAAAATGGAACTGAAGGACTTGAA AGAGCAACTTAATGAACTTGTAACTCTACTACAACAAAGTGAAGCACAGAGAAAAGAACTCGTAAAGGAGAAAACAATTA GAGAACAACCTATTGCTATCACATCGAATACATCAGCGTTGGTGAGATTTTAGTCATTCTGTCAGCAACTTGCATGAGCT TGTGCAGTGAAATGTTTCAACTCTTACATTAGAGTATTAGACACCTACTGATTATTGTTAACTTTAGAACTTGTTTAACA ACAAGAAAAACAAAGCCTTTATCAATTAGGTGGAGTTCCTAAAATAGTTTAACACAAGATGCCAAAAATCTAGGTGGAAT AAAGAACTTGTAATGTGGCATATGATGTTTAATTGACTGTAAAACTTCTTAATTTAAATCTTAGATTCCATAAGTAGGAT TAACTATAGTTTCCTCGTCTCATGAAAGATCTTTCATTCATTTATATCATTATGAGTTCTGATTAAATCAAACAGGAAAA CTCACGGTCCTTGAAACACCTTGCGGATGAAATGAGCGGTCCATTGTCCCCAATGTCACTTCCTGCACCAAAGCTACTCA AATTCACCCCTGGAGTTGTTAATGGGTCAATCAGGGAGTCAGCTGCATTTCTAGATGATGCACGGAAGGTATATCCCTGC TTCATTCTGTTTCTCTGAGATCTCCATTTTTGTTTTTTCAATTAAGTTGTAATGTTTTTATATTCAGATGATACCCTTTG GAGAGTTGTCGACGAAGAGGCTAGCATCTATAGGACAAGCCGGAAAACTATGGAGGTGGAAGAGAAGTCATCATCAATGG CTGCTACAGTTTAAATGGAAGTGGCAGAAGCCATGGAAACTCTCAGAATGGATCAAACACAATGATGAAACCATCATGAG GTCAAGGCCTCAAACACGCGCTTTGATTAATGTGATGTGATGTTGAGCTCATAATAAGGGATATTATTATGATGCTGAAT GTTGACCACTGGGTTTTTCAACATGGTTGACAATAGTACAGATAATTGCAGGTAATTTTCACACTGTTGTATCATGTATG ATGAGTAACATGCATGATTTTTGAAGCAATCAGTTAATTAGTGTATTTACCTTTAATCTAAACTCTGTACATCAGCATGG AAGTGTTCTTACAATTTGCAGTATGCATGCAGGTATGGTGTAAATTTGGATGAGTTTGCTGGTATTTGTGAAGGTATTTT TGCTGAGATACAGTTTGGTTGTTGGAGAATGTTCTGTCTTGGTTCTCTATGTAGGTTGTACACATGGTAGGCGTCTGCTA ACATTGACAACATCAAAGGAAAGAATTAGTTTTAGAAGGTTGAAAGGGAAATGCTGAACTCCTGCATATACTAATATATT GTTTGTGATGAAGCTGTTCCATGTTAATTCTGTAGTTTTTTTCAACAAATTTTGTAAGTTGTATCGGTATAGCGTGAAAA TCTGTTATTTGTACAGATGAAGTACTTCCTGAAATTGGTTGTGTACAATGATCTAAGCTAATAATTGATGCTTTTCTTGG ATACGCCGAGATCCACAATTGTTTTGAAATTAGAAAAAGAAGAATGGTTAAACTAAACTATGATGGCAGTAATCAAAATA CTTACACTACAAGTTTATAAGCATTGACACTGAAGACCTCAATTTAGTTTCTCGCTTTCTCTCTTTCTGCTATACAACAT GGACAAACCAGCTGAGACATGAAGGTTGACATATGATGGCGAAGGCATGACTGACACAAGGTATACACAATTTCAGTGAT AGAGATTACGACTAAAGCTCCATCAGATGATGCGAGGTGGGGCTATCTGAAACACCGATATTGGAGTTAGAAGTGGAACG ATTCTCTTGGACAAAAGAAATGGAATAGAAATATCCCACTCCACTAGTTATTTGATAACAACCTCACGAGAAGTACAGCA CAAAAACTAGCTGTAATACTTGGAGAGCCCAGGCCTTATAAACCTCACATTAACATCTAATTTTTTTTTTTTATGTGGAA CACAAATCTCAGCTTGCAATTGGAACCTAACATATTAGTTTATGTTGAATAGTTCAAACCCAATTTTTAGAGTAATAAAA AGATCTCAGTTCTACATTTACAAATGGTTTCAGATTAAATTATTATAAGTTGGAAACAAAGGACATGTTAGCTGACTCTT ACATTCATGTAAATCTTATTTTATTGAGTTTTAGAATAACACCGCACTAACCAGTCACAGCCAACAATACAACTATAATA TATTATGCATCCGCGTGCTTAACCGTATATGATTCGTGAGAGCTGCAAAAATGATCCTTTAACCTTTAATCTTGGCCTGC AAATTGTTTTCTCTGAAACAAACCAAGTCAGAATTAGCCAAAACTATGAGAGTCCTGCGTATGTGGCGTCCTCAATTGAA ACACTATCCTTTATTCCCTGAATCATCTTAAGGACCTGCCACATTGCCGGCCTCTGCTCGGGCGAGGTCGCGCTGCAAAT ACTGGCGACCTCTGTGAGCATTTCTAGCCGGTTGTCTTCACTGCCATCATCGTCCCTCATTGCTCTAACCCAATCTTGCA AATCCGCTGGCTCAAGGAAAGGATGCTGGGAAGAATGTTTACCCGTCAAAAGCTCCAATAGTAGTACCCCGAAAGCATAC ACATCAGACTTTGTAGTGGCCCTCTGGCTAGACTTGCGAGCCTCCGGTGCTTTGTAAGCCGCAGAATTAGCATCTTCAGT GAATGAAGGGTCTGCAAGGAAGGACAAACAATAGTCTGTAACACAAGCTTCAAAGTCCGCTCCGAGTAGGACATTTGAGG ATTTCAGGTTGCCATGAATTAAGGAAGAAGCTTGGTGTATGTAAGCAAGTCCGTGGGCTACATCTTCGGCTATTTTTAAG CATGATGTCCAATGCAGGGGCTTCGCCCTTGCTGATCTAGAACCTGCACAGTGCAGCAGCAGCTATCTCAGTTCAGAAAT AATCATCAAACATCAATTGGACTAATAAAATTAAAATTGATTCATGACTGTTTGTATGTTCATAATTTCCAAGCAAGAAC AATGAAAGTTGAAATATTTAACATAAAAAGTTGAATCAACAATGAGTCAATTGATAGTCAACTTGGCATCCAAATCATTC AATATAGTCCAAACACAGCACCAAAAACAGCCCATCCCCGTGACAACAGAGGCAGCCAGGCAAGGGAAAAATAAAATAAG AAAAGAACAACAAGCCAACACACAACACTGATCAGAACAGATCACACAACAAGAACAATCAATAGCAGTACAACACATCA TCCATAAAATCAAACTCTAATTCCAGCACCAGGCCCCACAACTTTTTGGCTTGAGTATTCTTTTGTTGTTGGTTTGTTCA TCACAATCCAAACCCAACTCTCTTTTCCATTGCTGCAAGTGCAACTCCCATTTACACAATTTGGGAGCAGTAGAAAGTAA ATATCACATATGCAATAACCAAAATATAAAACTCAAGTAGGGTATTCATTGTATAGTCCTGAGAAAGCTACAACATAACC ACTTATTAATTTATTTGTATAAAAACAAAAATAAAAGACATCATATGACAGAATGAAGAGTAAGTGAATGTGTAAAGGCT TTAGCTTTCATAGAAATCAATAATACCCAAACTATATGTATGCTTCTTCTCTTCCTAAACAGTTATATAGGAACGGAGGT AGTACTATTCTTCCAAACTGGTGCTTATGCATGGATGTTTTATTTCCAAATTCACTTCCCTCAATGATTTTCAATGCCAT AAATCAATCACACTCTAGAATTCAAATGGAAGTTACTAAAGATAACTAATTTTTTTCCAGATATAACAAGCTAAGTTCAA AACTGTAAGACTAAAATGGTTAATACCATGAACAAGGTTGAAGAGGCTGCCATTGGGTTGATAATCATAGATGATGAGCT TCTCTCCCTTGGCCTGAAAATAAGCCCTCAAAGTAACCAAATTCGGGTGGCGAAGCCTCCCGACCACCTCCATGTGCCGC TCGAACACTTCCCCGCCGGCCGCCTCCGTATTACCGCCATCCAGCCTCTTCACCGTCACTATCAGCCGCGAATCCAGCAC CGCCTTATACGTGGACCCCACTCTCCCCCTCCCTAGAAGCTCCGCCGAAGCCCTCATCAGCTGCTCCAGCGTGTAGTCCT GCACCTCCCCACAGCAGAACATCAGCTTCCCACTCCTGTGCGCCTCCTCCATCTTCTTCACCTTCTCACTCCTCCCAACC TCGCCGCGCACCTCCACCGCCGCCGGCGAAGACATCCCGGGCGACACCACAGGAAACTTCCCGCTTCCATTTCCTTTCCT CTGTCCCCTAACCAACACAACAATCACTGCAAGCGAAGAAGCAACAAGAATCGCAGCCCCAACCGTTAACCCGAGAACCA ACCCGATTCTCTTGTGCTTCTTCCTCTCCGGGGAAGAAACCACCACGATTCCCTGCGAGTCCTCACTCTGCCCGAGCGGG GCCGACGGCGAAACGGTGCCGTTCGGAGAATCGAAGAATCGAGAGCGATTCCCGCATTGTCTATGCACAATCTCACCGCA GAGACCCGGGTTGGATGAAAACGACGCCGGTTTGAACCGGGAGAGTGTCGGTGTCACCGGAACCGGGCCGGTGAGGTTGT TGGCGGAGACGTTGAGTACCCGGAGCTCGGTCTGGTTGAGAGGAGGGAGGGAGCCAGTGAAGGAGTTGGAGTCCAACCGG AGGGAAGTGAGGCGGTCAAGGAGGTTGAGCTGAACCGGGAGCTGACCGGAGAGGTTGTTGTGGCTGAGCGAGAGAGTGAG GAGGCGGTGGAGGGAGAGGATTGACGGCGGGAAAGCGCCGGAGAAGTGGTTGCGGTCGAGGAAGAGTGATTTGAGGTTTG TGAGAGGTGAGAGATCAGGGATGGGTCCGGTGAGGGAGTTGTTGCGGAGCGTGAGGACACGGAGCTGGTCGAGGCGCGTG AGGGTGTCCGCGGGGAAGGTGCCGGCGAGGGAGAGGTCTTGGAGGACGAAGCGGAAGACGCGACCCTGTGAGCATTTGAC TCCTTGCCATTGGCAGTAGTCGTAGCGCTCGTTGAGCGTGTAGAGGAGCTTGTCGTTTTGGTCTGCTTCGCGTTTGAAGG ATAGCAGGGAGACTGCGTCTGGTGGGAGCGTGGTGGTGTCATTGACAGTGGCGGCGGCGGAGGAAGTGAAGATGAAGAGA GTGAAGAGTGTGGTTTTGAAATGATTAAGAAGCATTGTTGTTGTTTACATGAATGAATGTAGAGTGTGTGTGTTTTTTGA TTTCAGCATTTGATGATGTTGGAAAAGTGTTTGAGGAAGAAGAAAAAGGGTGAAGAGTGTAGTTTGTGTAGTGTGAATGG AGACAAGAGGGAGTGTAGTGATTGGATGGAGGTGGAGCTGACGGCTGCAGTGCCAATAGTAGTGCGGAGCAGCTGGACTT GGAGTAGGACTCACGTGAAACTTCTTGGAACACTTATTTTTGACTTTTTATATTTTCAAATCTCATTTTTTATTTTATCT CATGTAAATTATTTTTAATTTTTTTAAAAAAATCTCATTTGGTCCAGCCA
CDS sequence (LotjaGi4g1v0102200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAATCAACACCGGAAAATTGCTCCGTCAAAGTGGCTCTTCACATTCGTCCTCTCATTGCCGATGAACGACAACAAGG TTGCACTGAATGCGTTTCCGTCACAAATGGAAAACCTCAGGTTCAAATTGGGTCACATTCCTTTACATTTGATCATGTTT ATGGAAATGGTGGATCACCTTCAGCTGACATGTTTGAGGAATGTGTTGCGCCATTGGTTGATGGGTTATTCCAAGGATTC AATGCTACTGTACTTGCTTATGGTCAGACAGGATCTGGGAAAACATATACCATGGGAACTGGTTATAGTGACAATTCTCA GACTGGCTTGACTCCTCGGGTTATGAATGCGTTGTTCAACAAGATTGAAATGCTAAAACATCAAACAGAATTTCAGTTGC ATGTCTCCTTCATTGAGATTTTGAAGGAAGAGGTACTGGACTTGTTGGATACAGTATCTATGGGAAAATCAGAAACCTCT AACTCTAATGGACATTCTGGAAAAGTAACTATTCCTGGGAAGTCACCGATACAAATTCGTGAAACATCAAATGGAGTAAT AACACTAGCAGGATCAACCGAAGTTGCTGTGAGTACATTACAGGAGATGGCTGCTTGTTTAGAGCAGGGTTCTTTATGTA GGGCAACTGGAAGTACAAATATGAACAACCAGTCCAGTCGGTCACATGCCATCTTCACAATTACATTAGAACAGATGCAC AAACTCCATCCAGTTTCTTCCAGTAATGACACCTCAGATGAGGATATGGGTGAAGAATACCTTTCAGCAAAGTTCCATTT GGTAGATCTAGCTGGATCCGAGAGAGCTAAAAGAACTGGTTCTGATGGTCTTCGTTTCAAAGAAGGTGTACACATTAATA AAGGCCTTCTTGCACTAGGTAATGTCATTAGTGCACTAGGGGATGAGAAAAAGCGAAAAGAGGGTGTACACGTCCCTTAT CGGGATAGCAAACTCACTCGACTCTTACAGGATTCACTTGGTGGAAACAGTAAAACTGTCATGATAGCTTGCATTAGCCC TGCTGACATAAATGCTGAGGAAACTCTTAACACCCTCAAGTATGCAAACCGTGCACGAAATATTCAAAATAAGCCAGTTG CTAATCGAGATTTGATATCCAATGAGATGCAGCAAATGCGACAGCAATTAAAGTACTTGCAGGCTGAGCTCTGTTCCCGG GGAGGAACTCCAGCTGATGAAGTGCAGGTTCTTAGGGAAAGGATTGCTTGGCTTGAGGCAACTAACGGGCAACTGTATCG GCAACTGCATGAATATCGCAGTAGATGTGCATTTGTAGAGGGATGTGAAATTGATGAACCAGATGAACATATTTATCTTG TGAAAACTGATGGGCTTGAGAAGTGCCTTAAGAGCTCAGATTTATCAGACCATCCCATGGCTGGAAGTATGTCAGGTGAA GATTCAAGGGAAACTGATGAAGCAGTTAAAGAGTTGGAGCATGCACTATTGCAAAATACCTTGGATAAAGAGATGCATGA GTTAAATAAGCGCTTGGAGCAGAAAGAGTCTGAGATGAAGCTCATTGGAGTTGATACTGAAGCACTCAAACAGCACTTCG GGAAGAAAATTATGGAACTTGATGAAGAGAAAAGAAAAGTGCAGCATGAAAGGGACCGTTTGTTGCATGAAGTAGAGAAC CTTTCTGCTAATTCAAATGGACTGGCACATAAAAATCAAGATTTTCGTGGCCAAAAATTGAAAGCATTGGAAGCACAGAT CTTAGACCTCAAGAAGAAACAAGAAAGCCAAGTGCAGCTACTAAAGCAAAAGGAGAAGAGTGAAGAAGCTGCAAAAAGAC TGCAAACTGAGATACAAAATATCAAGGCTCAAAAGGTTCAGTTGCAGCATAAAATGAAGCAAGAGGCAGAACAATTTAGG CAATGGAAGGCTTCTCGTGAGAAGGAGTTACTCCAGTTGAAAAAGGAAGGAAGAAGGAATGAGTATGAAAGACATAAACT TGAGGCTCTAAACCAGCGTCAAAAAATGGTCCTTCATAGGAAAGCAGAGGAAGCAACAATAGCTACGAAAAGGTTAAGAG AATTGTTGGAAGCCCGCAAATCTTCTCCACGAGACAACTCTGTTTATTCAAATGGAAATCCGCAGCATGGGCAGGTCAAT GAAAAATCCCTCCAGAGGTGGCTTGATCAAGAGATGGAGGTCATGGTACATGTGCATGAAGTTCGTGCTAAATTTGACAA ACAAAACCAAGTCCAAGCTGCATTGGAAGATGAGTTGGCCTTCCTGAAACAAGCAGATCAGTTTTCAGATGGGCAGAGTA TCCTCACAGGAAAGAGCAGATATTCAAGACTGTTATCCATGTCACCGGACGTAAAAGCTGCAAGAATAGCTTCTCTTGAG AACATGCTGAGCATGTCTTCAGTTGCTCTGAAAGCCATGACTACACAACTTACAGAGGCAGAAGATAGGGAACGCACATT AAGTAACCGTGGACGTTGGAACCAGCTACGCTCAATGGGAGATGCAAAGAATGTGCTTCAGTATTTGTTCAATGCCACAG CAGATGCAAGGTGCCAATTGTCGGAAAAGAAAATGGAACTGAAGGACTTGAAAGAGCAACTTAATGAACTTGTAACTCTA CTACAACAAAGTGAAGCACAGAGAAAAGAACTCGTAAAGGAGAAAACAATTAGAGAACAACCTATTGCTATCACATCGAA TACATCAGCGTTGGAAAACTCACGGTCCTTGAAACACCTTGCGGATGAAATGAGCGGTCCATTGTCCCCAATGTCACTTC CTGCACCAAAGCTACTCAAATTCACCCCTGGAGTTGTTAATGGGTCAATCAGGGAGTCAGCTGCATTTCTAGATGATGCA CGGAAGATGATACCCTTTGGAGAGTTGTCGACGAAGAGGCTAGCATCTATAGGACAAGCCGGAAAACTATGGAGGTGGAA GAGAAGTCATCATCAATGGCTGCTACAGTTTAAATGGAAGTGGCAGAAGCCATGGAAACTCTCAGAATGGATCAAACACA ATGATGAAACCATCATGAGGTCAAGGCCTCAAACACGCGCTTTGATTAATGTGATGTGA
Protein sequence (LotjaGi4g1v0102200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MESTPENCSVKVALHIRPLIADERQQGCTECVSVTNGKPQVQIGSHSFTFDHVYGNGGSPSADMFEECVAPLVDGLFQGF NATVLAYGQTGSGKTYTMGTGYSDNSQTGLTPRVMNALFNKIEMLKHQTEFQLHVSFIEILKEEVLDLLDTVSMGKSETS NSNGHSGKVTIPGKSPIQIRETSNGVITLAGSTEVAVSTLQEMAACLEQGSLCRATGSTNMNNQSSRSHAIFTITLEQMH KLHPVSSSNDTSDEDMGEEYLSAKFHLVDLAGSERAKRTGSDGLRFKEGVHINKGLLALGNVISALGDEKKRKEGVHVPY RDSKLTRLLQDSLGGNSKTVMIACISPADINAEETLNTLKYANRARNIQNKPVANRDLISNEMQQMRQQLKYLQAELCSR GGTPADEVQVLRERIAWLEATNGQLYRQLHEYRSRCAFVEGCEIDEPDEHIYLVKTDGLEKCLKSSDLSDHPMAGSMSGE DSRETDEAVKELEHALLQNTLDKEMHELNKRLEQKESEMKLIGVDTEALKQHFGKKIMELDEEKRKVQHERDRLLHEVEN LSANSNGLAHKNQDFRGQKLKALEAQILDLKKKQESQVQLLKQKEKSEEAAKRLQTEIQNIKAQKVQLQHKMKQEAEQFR QWKASREKELLQLKKEGRRNEYERHKLEALNQRQKMVLHRKAEEATIATKRLRELLEARKSSPRDNSVYSNGNPQHGQVN EKSLQRWLDQEMEVMVHVHEVRAKFDKQNQVQAALEDELAFLKQADQFSDGQSILTGKSRYSRLLSMSPDVKAARIASLE NMLSMSSVALKAMTTQLTEAEDRERTLSNRGRWNQLRSMGDAKNVLQYLFNATADARCQLSEKKMELKDLKEQLNELVTL LQQSEAQRKELVKEKTIREQPIAITSNTSALENSRSLKHLADEMSGPLSPMSLPAPKLLKFTPGVVNGSIRESAAFLDDA RKMIPFGELSTKRLASIGQAGKLWRWKRSHHQWLLQFKWKWQKPWKLSEWIKHNDETIMRSRPQTRALINVM
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 | 398 | 398 | 4.5E-134 | ||
SMART | 7 | 376 | 370 | 4.8E-153 | ||
CDD | 8 | 369 | 362 | 0.0 | – | |
SUPERFAMILY | 9 | 399 | 391 | 1.09E-113 | ||
ProSiteProfiles | 9 | 368 | 360 | 113.047 | ||
Pfam | 16 | 368 | 353 | 1.8E-102 | ||
PANTHER | 34 | 1030 | 997 | 0.0 | ||
PANTHER | 34 | 1030 | 997 | 0.0 | – | |
PRINTS | 79 | 100 | 22 | 1.8E-41 | ||
MobiDBLite | 156 | 175 | 20 | - | – | |
PRINTS | 219 | 236 | 18 | 1.8E-41 | ||
ProSitePatterns | 263 | 274 | 12 | - | ||
PRINTS | 264 | 282 | 19 | 1.8E-41 | ||
PRINTS | 318 | 339 | 22 | 1.8E-41 | ||
Coils | 376 | 396 | 21 | - | – | |
Coils | 498 | 518 | 21 | - | – | |
Coils | 537 | 564 | 28 | - | – | |
Coils | 580 | 638 | 59 | - | – | |
MobiDBLite | 697 | 719 | 23 | - | – | |
MobiDBLite | 703 | 719 | 17 | - | – | |
Coils | 810 | 830 | 21 | - | – | |
Coils | 853 | 894 | 42 | - | – |
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 | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
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. |
Expression pattern of LotjaGi4g1v0102200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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