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LotjaGi2g1v0351000.1

Overview

Field Value
Gene ID LotjaGi2g1v0351000
Transcript ID LotjaGi2g1v0351000.1
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|I1J891|I1J891_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0351000
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr2:82734093..82743835) extracted from Lotus japonicus Gifu genome v1.2.

GTTCAATTAGATTGGACCATGTATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCACTGTTGTGTTTTGT TTATGGCAACCTCGTTTTTGAGTGAACAAGAAGAAGAAAGTTGAAAGTGGTTTTCAGTTCCCAAAAAGCCTTGGTCTTCA CTAATGCTCTCGTGACTTTCTCTCTCTATCACCTATATTCACCTTCATCCTCAACAAATCACAGACTCTCATAGCTTCTT TCCAACCAAATCCACTCTCAAAACACTTCACCACCGCCCCAGATCTCTCTTTCACACAATACATCACAGAGTGTCTCATT GGTGCTATAAAGGTTGGATTTTTCACTCTTTTCTATTGACTTATTTTTCATTTTTATCTTGTACCTGAGCTTGTTCAATT CCTGTCTATGGTTAGTGAAACTGGGGTGCATGGAAATGTGTAAAGCTTCTGACTTTTTGCTATTTTTGAACTGGGTAGTT CAATGTTGAAAGGTTTTGGTTCCTGGGTCTGTTTCTGTCTTTGAGCTTATTGAGTTTCATGACTATCCATTTTTGTATGC ATTTTTTGGTGTGTGTTCAATTTATTGATGATTTGACTTGCCTTGTGTTTTAGGCTGCAATTCACAATCTCCATCCTTGA TTGCATTGTAACTTGCAATTCTGTTTTTGGGGGTTCATTTGTCTTACACTTGCATTTGCCTGATTTTATTTGAGTTAATG GAGCTGAATGGTGGATGTAGAGTATTTTTTTCCACTTATGTTTGAGTTTTTATCATGCAGGTGAGGTGCTTGAAGAAGAG GAAACTGTGTTGCTTTGACTAGTTTCAGTTTGTTTGTTGGAAAAAGAAATGACCATTGATATGCTCCCATCCGGGGCTCA AAGCGTGAGGACAAACAGATCTTCATTTGGCTCTGGCAATGGGGATACCCCTTTGCACAATTATGCCACTGTTAGCAACG GGGATGGCTATGACAGTGACGGTAGCAATTTCGCGCCAGCGTGAGTACCATCTCTTTGAAGATATATTGGAATTAGTAAA ATTAGATATGTTCACTTTATCGTTCAATTACTCCCTTTTTAGTAGAGAATGAGTATTTTAGGATTTGGGATGTTAGCAAA TTTCGAGCCTAGAATACAAGAGCAAGGCAACATTTCTAAATCACTTTAAAAGATTTTTCTTATGAATTATAAATATTTTT TTCTTTCTCTGGAAGACAATCTCACACTGTGTTTGAAACACTGTTGCATATCTAGGAAAGCCCTTATCCCGTGTCACTAC ATGCAATTCAAACATAATTCTTGCATTATGTTCTTATTGACTGACGAACAATAATTTTTACAATACTCTTTTATACCTTT TTACCTTGAACTTCGATGACAAAGCGATAATGAATTTTGTGTTTGCCCATGTGTGACATTCTTCAGTTTGTAAACTTTTT TTTTGGCAGCACACCAACAACTCTATCGATGGCTATTCCATCAGAACTCGCTGGAGCTGTACCCTTGATTGATAGATTCC AGGTGGGAAATTATTTGTCAATCTAACTATAAATATAACTTTCTTGAATAATTTTGCTTCCCTATGAATTTTGTATCTTA ATGGATTTTGTCTAAGTTCCTGCATCAACAATAGCTCCTAGTTTATTGATTTATGTACGTGATCATTTGTTATCATCACA TTTTCGTCAATGTTGTCTGTTATAGGTGGAAGGATTTCTAAAATTGATGCAAAAACAAATTCAATCTGCTGGCAAACGAG GATTTTTTTCTAAAAGGTCTGTGGGCCCCCAAGTTCGAGAGAAACTCACATTAGAAGACATGCTTTGCTTCCAAAAGGTA ATCAAATACTTATTTTCCATAACAATGATTAAATTATTATTAAACACATCAAAAGCTAACACAAGTTCTTGCAGGATCCA ATACCTACATCATTGCTTAAGTTGAATGGTGATCTAGCAAGTCGGGCAACAAAATTATTCCAGATAATTTTGAAATATAT GGGAGTTGATTCATCTGATCGTGTAACTCCAATAGGCTTAGAAGAACGAGTTGAGCTTGTAAGTAAACTATACAAGCAAA GTTTGAAGCGTTCAGAACTCCGGGACGAACTTTTTGTCCAGATATCAAAACAAACTAGAAACAACCCAGACAGGTATGTA TATATTTTTAGTATTGAGTATCATGCTTCATGTTTTCTTGGCCTCTGTTCATTGAAGCTGCATTGCTGTGGTTTTGTATA CTAGTAGTTAATACCTTTGTTGTGCCAACAACAGGGAATACTTGATCAAAGCATGGGAGCTAATGTATTTATGTGCGTCG TGCATGCCTCCAAGTAAAGACATTGGAGGGTATCTGTCAGATTATATTCATAATGTGGCACACGGTGTTACTACTGATCC TGAGATCAGAGCCCGGGCATTAAATACACTAAATGCTTTGAAGCGCACTGTCAAGGCTGGTCCTAGGTATATAATACCTG GGGCTATAGAGATTGAAGCTCTGTTGACTGGGAAAAGGCTTACAACTATAGTGTTCTTCCTAGATGAAACATTTGAAGAA ATTACATATGATATGTCAACAACAGTTGCTGATGCTGTTGAGGTTATTTGAATTCGTTATATGCTTCTATCTATCTCCAA TGGCACACATTTCTAACTGATCCTAATATGCATAAATTATTTGGAAGAGTGAGAGTATTGAAGTAGGTGAAATAACTAGC GGGATACTAAACTAGGAATGACTTGAATGAAAGTGATTAGGAAAGGTTGGGGAAAATTTTATTCTTCGAAAGATTCTACT TAATCTAATGAAGGAAATCTATTAGCACCCCATCTCATCCTTTTCAGGGATGAAGTCTTGTAATTGCTTTAGATTTAATA CTAGAAAAATAAGATTGCAAGGCTTACTGTGGTTTAAAACAAAGAGGTCATCAAAGAGCTTGAGCTAAATGTTTGATTTC TTTCTCTAAGCTTTATATAAAAGATTGGGCTCAGCAAGTTTAGTTTTTTCAGCAGTTGTACTTATCCATCTTAAGGTTAA CATTCAATAAGATGCACAAGATTTACAGTAGTGTTTATTATTAGGGTTAGTTCTAAAAGACCTTCTTTGAACTTGATACT TGATACTAAAATTACTATCCTTTCTTCTCTTTCAATGAAGAAAACAAAAAACAATTTGTTGTGACAATCTCTGTCCTTTA AGTGACTAACATACTGTAAGGTTTGAGCATAACCCTAAAAAGTAAAAACCTCTGGAAAAGTAGGTCTTCTGAGTTATGAA TTAATGACCTCCTGCGGTGATTAAGATGTTATCTTTATGATTTGAAGAAAGAATTGAAAAATGCAAGTAAACTAAGTCAG GAAATTTGCCTTCTTTTTGTTTGATTATACAGTTCATAAACTTATTATTGTTGTATTTATGAATATATGGCTCTCATAAT GATATACTAAGTGATTGATGGAAGGGTTTCACTAGGAGAACTTTGCTTTATATAAAACTAATAAGAAGATAATTTTGTTA ACAGCCGTATCGCTTTAATCATGATTCTGCCTTAGTCATTCTACTGCTTTGCTGTCTCAAACATAGTCATTTTTCTTCTG TTTGCATTTCTGGATACTCTCAATGTGTTTACTCTGTCAAGTTTAAATCATTATATTCATCAATTAACTTCATATTTGAT TCAGGAACTTGCAGGGATCATTAAACTGCCAACGTTCTCTAGCTTTAGCCTGTTTGAATGTCATAAAGTTGTTACCGGCT CCAAATCACCGGATACTGGGAATGGCAAGTCTTTTTTTTACTCATTGCTTGTTGATTTTATTAAACTAACTGAGACCAGT AGTCTAACAACTCTTCTATTGTTAACTCAGAGGAGTACATTGGATTAGATGATAATAAGTATATTGGTGATCTCCTGGCG GAATTTAAGGCAGTGAAAGACCGAAGTAAAGGAGAAATTTTGCACTGTAAGCTGATATTCAAGAAAAAATTATTTCGTGA ATCAGATGAAGCTGTGACCGATCAAATGTTCTTGCAGTTGTCCTATGTACAAGTATGACTTTTTGTTGTATGATTGAATA AAAGCATATCTAAGGGCTGTTTATTTGAGAAAACATTTTCCTTTCTTTTTTCATATGACAAAAGTGCTTTGTTATTTTCA CTTTATTTCCTGTTTTTAAATATTTGCATAGGAAATGATGAATTGTTTAAACCTTGTATACAAAAGCAGCCCCTAGGTTT GAATGAAACTGCAATTGCCTTCAAGGTATTAATTTAGGCCTGGATTTGTTGTTACAGTTGCAGCATGATTACATTTTGGG TAATTATCCTATTGGAAGGGATGATGCTTCCAAGCTCTCTGCATTGCAAATCTTGGCTGAGATTGGATTTGTTAGAAGAC CTGAATCCTGCACGTAAGTGATTTCAATGTTTCTCTTGCTGCAAACTATCTTCCATTAGTGTTATAGCATTTTTTGATTG AAGTTCTGGTGGTGAGTGAACTTGACTCTCTTTATGTTCTTTTCTGTTATCACTTCAACTGGCTGAGATTTCTGTATTTT CAGCGAGTGGAATTCATTTCTGGAGCGTTTTCTGCCTAGACAAATTGCAATGACTCGAGCCAAACGGGAATGGGAGTTGG ACATTCTTTCTTGCTATCATTCACTGGTATGGGACTTGGATACTGTCTAAGAGCCTAAGCCCATCTGTTTGTTTTTCTTT AACATTTGATCAGTGATAACTAATCAGTATAAGAAATTTCTTCTATTTGTAGTTTGTCTTATTGAACTTATTTCAAACCC TTCCCTGTGGATTTATGAATAATAATTTTCCTCTTATGTATCAGTTTTACCCACGGAAGTACATATTGCTTCAAATATGC CTATTACCTTTGATGAAATATACTGCTGAATTTCTTTCTTCTACATGGTATTATAAGATATTGTTCCCTTTTCAGGAGCA TGTCACGAAAGACGATGCAAGACAACAATTTCTGCATACATTGAGAACACTTCCTTATGGGTTTTCTGTTTTTTTCAATG TTCGCAAAATTGATGATCCCATTGGACTCCTGCCTGGACGAATAATATTAGGAATTAACAAGAGAGGGGTAAGACTAAAA AATGATTTAATGATAATATTGTAAGGTTCTGAATATAAATATTTAACCTTGAATAGCGCATTTATTTAAATGTTTATTTC TTATCAACTGCCCCTAGGTTCATTTTTTTCGGCCCATTCCCAAGGAGTATTTGCACTCAGCTGAGTTGAGAGACATAATG CAATTTGGAAGCAGTAATACTGCAGTATTTTTTAAAATGCGAGTTGCAGGTGTTCTGCACATATTCCAGTTTGAAACCAA GCAGGTATTAACACCTTCATTGACATTTAACATTGTTCTCTAACTTTTAGTTCTTAATTTGTTCCTTTGGACTTGATTAA TATTTGTATCACTTTGGAGTTATTTTATATCATCAGAATTTTGTTCTTTTTGTAGGGAGAAGAAATTTGTGTAGCTCTTC AGACACACATAAATGATGTAATGCTGCGCAGATATTCCAAAGCACGATCTCCTACTGCGGGTTCTTTGAATGAAGATGTT TCTAGTAACTTTAAGCCTCCGAATCTGGAATTATATGAAAAACGTGTTCAAGATTTATCAAAACTTGTTGAAGAGTCTCA GAGTAATGCTGACCAAGTAAGTCTAAACTTCTAATGTATGTTCTAGAATGTTATGCAGGATGCACAACTAATCCCAAACT GAACCTTTGAACTTATAAGGCATTTTTCTTAGTTATTGCACAGCAAAGAAACCTGTAGGGCTTATCTGCTTCCTCGTGAA TAGTGAGGAATACTGCTTATTCTATTTTGGTTTATACTAGTGTGCCACGACCCTTAAAAGTGAGGTTTTGTACTAGTTTC CTTCATGTAGAATAAGGAGGCTTCTTGTTGCCTTAAGTTATGTATAGCTGTGATGTGATTTGTTCAATGTGCCAATCTTT TGATATACACCTATTTAGATGTACCAATCAGTTAAATAAAAGTAGTTTATTCCTTCTGTTTTGTGCATCTAGAGGGTGAT TTTGGTGCAAGGTATATTGTGTCCTGGTGATAATGTGTTCTTGTTGTGGAGAGAATGTATCTGCTAACAGTGATAAGGTT GTGTACATCTAACCCTACAGTGGTGGGAAGGACCATACACTGGGCCACCCTTTTACTATTAGGAACTTAGCATGTATAAT GCATGTTTCTTGGTTACTGATGATATTTTAAATTATGTTGAATAGATGTTGGAAAAACTGCATGAGAAGCAAAAACAAGA AGAGGTAATGCTACAAGAATTAGAGAGCTTGAAAGAATCTTTGAGAGCTGGTAAGCATAGTCTCACAGAAGTTACAAATG AACGTGATAGGCTTAGATCATTATGCGACGAAAAGGATAAGGCACTTCAGGTAAATGTCTTAACTTCATAGAACCAGCGT TACTTTTATCTTTGCATTATTGACCTGTCTTAATAAATATGCAATTTATTAGGCTAAAATTCTTGAGAAAAGATCCATGG AAGAAAAGATGGCCAAAATGAGTAATTTGGTGATAGAGAGCACCACCAAAAAGGACCATAACGAAGCAAATGATCAAGTA TGATGCTTTTTTGTCACTGATTATTCATTTGTTTATTGCTTCCTGAGTAATTGATTTTACTTTTAATGTGTAAATTGTGG ACTTTGGTTGGGTACTGAATAGGTCTTACGAAAACTTGAAGATGACTTACAACTTTGTAAAGATGAGTGTCTTGTAGCTG AAGAGACTATCAAAAGCTTGATTGATGAAAAGTTGATTTTGACACAGAAGCTATCTGAGCTGGAGGAGAATAATGCTGAT GAGGTAAAATAATTGAAACTCATTATTCAAAATTGAAACCCATAATTTCAAGATGATGTTCAACCAACTTGCTGCGTGTA ATGCAGATTAGTTCTCTTCAATGGAAACTTGAGCAAGAACGTAAAGCTGTAAATTCTCGAGTTTATGATCTTGAAAGAAA ACTGGATTTGTTAAAGCAAGAGTTAGTTGTGGCCGAGTCTGCACTCTCATTAAAGGACTCTGAATTGGCTGCTATAAAGA AGGACTTAAAAGAGCTAGAAGAGTTGAGAGAAATGAAAGAGGTTTGGATACTCTTATTCTATTTGTGTTCCCTGCTTTTG TTGTATAATGACAATTATAGGTTCAACATGCAGTGTGTATATTCACTCTTTTTTAATGTTAAAAGGTAATTTCTTTCTTA AGTTTCTGTTTGCTTGCTTTATGTAGGACATTGATAGAAAGAATGCACAAACAGCTGCCATATTGAAGATGCAAGGGGCT CAATTAGCTGAAATGGAAACACTTTATAAAGAAGAGCAGATTCTCAGGAAGCGATACTTTAATACCATAGAAGGTGGAGG ACAGAGCATTTTGTCTATGTGATTGTGGATATTTACATATATAACTGACATAATGACGTTGGAATACGATTCTTTCTTCC AGATATGAAAGGAAAAATAAGAGTTTACTGTAGGCTAAGACCTCTTGTTGAAAAAGAGATTGCTGACAAAGAAAGAGATG TTCTTGCAACGGTAGATGAGTTTACAGTTGAGCATCCGTGGAGAGATGATAAACCAAAACAGCATATATATGACCGCGTG TTTAACGGTGATGCCACTCAGGAAGAAGTATTTGAGGATACAAGGGCAAGTCTTTCTGTAACAACTTAAAGATCGTAGTT GTTTCTTGATTTAGCATTTTGTCACTCTAGATAATATATGAATTGAAATAGATTTAGTATTTTCCTACACTCCTTAGTTG TTACTAACATACTGATGTCTTTCTTATGGAATTTTACAGTACTTGGTGCAATCTGCAGTAGACGGCTATAATGTTTGCAT ATTTGCTTATGGTCAAACTGGCTCTGGAAAGACATTTACAATCTATGGATCTGAAAACAATCCCGGGCTTACGCCTCGTG CTACGGCAGAGCTTTTTAGAATTTTAAGGAGAGATAATAACAAATTTTCTTTTTCCTTGAAGGTAACAATGGCTAAATGG AGATTAACAATTACTTTTCTTTGCATGTTAAAAGTTTGATGTCATTAAATCCACTTAATATGTACATACAATTGTTTTAC ATATGTATATGTAAATGATTAAACTGTTTTTTTTCCTTTTGTCTTTTACTTGGTGTAAGTAACTCAACTATGATAGATTA TAGGAGTTACACAATTGTTTCTGTTTATTGTTTGATGTAAACTATTTTTTTTATCTATGATGCAGGCATATATGTTGGAA CTATATCAAGATACACTTGTAGATCTTCTGTTACCTAAAAGCGCGAAGCGATTAAAATTGGAGATTAAGAAGGATTCAAA GGTATTATTCTATGTTATGAATGCAATTTTCCATCTCTAGATAATGCTTAGTTTTTTAAATTGGATATCTAAAAAGATTT GAAGTGTCCTGAAGTTATGTGCTGAACAAAAATTTTGCTTTCCCGGATTGCTCTCCCCATTGTAATTGTTTTGTTTTACT CCTCGTGTTAGGGAATGGTAACTGTAGAAAACGTAACGACTGTGTCAATTTCTACTATGGAAGAATTAAATAGCATAATA CAAAGGGGATCAGAACGGCGGCATACATCAGGGACTCAAATGAATGAAGAAAGCTCAAGATCTCATCTTATAATGTCCAT TGTAATTGAAAGCATCAACCTTCAAAGTCAATCAGCTGCAAGGGGAAAGGTATTGTGTTTGTTGTCTTTTTACCGCAGTG TATATGTATATAAGTATACCGCATTCCTTTATTATGTAACAATTTGAAATATGGACCTTACTTACGTAATGTTGGATTTA TCACACAGCTAAGTTTTGTGGATCTTGCTGGCTCAGAAAGAATAAAAAAGTCAGGCTCTGAGGGTAATCAGCTCAGAGAA GCTCAGAGTATAAACAAATCATTATCAGCACTTGGAGATGTTATTAGTGCTTTATCTTCTGGTGGTCAGCACATACCTTA CAGAAATCACAAGTTAACTATGTTGATGAGTGATTCACTTGGGGGCAATGCAAAAACTCTTATGTTTGTCAATGTATCTC CAATAGAATCAAGCTTGGATGAGACACATAACTCCCTAATGTATGTTTTTCATCTCTGCTTTCTTTTTGAACTTTAAAAA GCTTCACTTTCAAATCTTAAGTATTTTCTTTCGGCTTTACTTAACCATCATCCATTATATTTTATGTTAATTTAGGTATG CGTCACGAGTGAGATCAATCGTGAATGATCCAAGCAAGAATGTTAGTTCAAAAGAGATTATGCGGCTGAAGAAACAAGTT GCATATTGGAAGGAGCAAGCAGGTAGGAGAGGAGAGGAAGAAGATTTAGAAGAAATTCAAGAAGTACGACCAACTAAAGA GAAGACTGACAACCGCCATTCTCTGTAATAACTCTAGCCAAATATGTTCTTTTGTTTCTTGAATGTTGTCTGGTCGATCA GTTTCCACTTTGCAAGATCTCACAGGCTTGATAGGTTGTAACTTAATTCAGAGGGGTCATGCTGTATAGTTGAATCATGT ATATATTGCTAATCTTTAATTCATTCACTTAATTAACAGGTGCCCCATAGATTGTATATGCAAATGCAAGTCACTTCACT GACGCTTAAGTTAGAATTGAATGAGACATAGAATAAAGATTACAGCTAGAAAGTGTGTTCCTT
Download Genomic Sequence

CDS sequence (LotjaGi2g1v0351000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGACCATTGATATGCTCCCATCCGGGGCTCAAAGCGTGAGGACAAACAGATCTTCATTTGGCTCTGGCAATGGGGATAC CCCTTTGCACAATTATGCCACTGTTAGCAACGGGGATGGCTATGACAGTGACGGTAGCAATTTCGCGCCAGCCACACCAA CAACTCTATCGATGGCTATTCCATCAGAACTCGCTGGAGCTGTACCCTTGATTGATAGATTCCAGGTGGAAGGATTTCTA AAATTGATGCAAAAACAAATTCAATCTGCTGGCAAACGAGGATTTTTTTCTAAAAGGTCTGTGGGCCCCCAAGTTCGAGA GAAACTCACATTAGAAGACATGCTTTGCTTCCAAAAGGATCCAATACCTACATCATTGCTTAAGTTGAATGGTGATCTAG CAAGTCGGGCAACAAAATTATTCCAGATAATTTTGAAATATATGGGAGTTGATTCATCTGATCGTGTAACTCCAATAGGC TTAGAAGAACGAGTTGAGCTTGTAAGTAAACTATACAAGCAAAGTTTGAAGCGTTCAGAACTCCGGGACGAACTTTTTGT CCAGATATCAAAACAAACTAGAAACAACCCAGACAGGGAATACTTGATCAAAGCATGGGAGCTAATGTATTTATGTGCGT CGTGCATGCCTCCAAGTAAAGACATTGGAGGGTATCTGTCAGATTATATTCATAATGTGGCACACGGTGTTACTACTGAT CCTGAGATCAGAGCCCGGGCATTAAATACACTAAATGCTTTGAAGCGCACTGTCAAGGCTGGTCCTAGGTATATAATACC TGGGGCTATAGAGATTGAAGCTCTGTTGACTGGGAAAAGGCTTACAACTATAGTGTTCTTCCTAGATGAAACATTTGAAG AAATTACATATGATATGTCAACAACAGTTGCTGATGCTGTTGAGGAACTTGCAGGGATCATTAAACTGCCAACGTTCTCT AGCTTTAGCCTGTTTGAATGTCATAAAGTTGTTACCGGCTCCAAATCACCGGATACTGGGAATGAGGAGTACATTGGATT AGATGATAATAAGTATATTGGTGATCTCCTGGCGGAATTTAAGGCAGTGAAAGACCGAAGTAAAGGAGAAATTTTGCACT GTAAGCTGATATTCAAGAAAAAATTATTTCGTGAATCAGATGAAGCTGTGACCGATCAAATGTTCTTGCAGTTGTCCTAT GTACAATTGCAGCATGATTACATTTTGGGTAATTATCCTATTGGAAGGGATGATGCTTCCAAGCTCTCTGCATTGCAAAT CTTGGCTGAGATTGGATTTGTTAGAAGACCTGAATCCTGCACCGAGTGGAATTCATTTCTGGAGCGTTTTCTGCCTAGAC AAATTGCAATGACTCGAGCCAAACGGGAATGGGAGTTGGACATTCTTTCTTGCTATCATTCACTGGAGCATGTCACGAAA GACGATGCAAGACAACAATTTCTGCATACATTGAGAACACTTCCTTATGGGTTTTCTGTTTTTTTCAATGTTCGCAAAAT TGATGATCCCATTGGACTCCTGCCTGGACGAATAATATTAGGAATTAACAAGAGAGGGGTTCATTTTTTTCGGCCCATTC CCAAGGAGTATTTGCACTCAGCTGAGTTGAGAGACATAATGCAATTTGGAAGCAGTAATACTGCAGTATTTTTTAAAATG CGAGTTGCAGGTGTTCTGCACATATTCCAGTTTGAAACCAAGCAGGGAGAAGAAATTTGTGTAGCTCTTCAGACACACAT AAATGATGTAATGCTGCGCAGATATTCCAAAGCACGATCTCCTACTGCGGGTTCTTTGAATGAAGATGTTTCTAGTAACT TTAAGCCTCCGAATCTGGAATTATATGAAAAACGTGTTCAAGATTTATCAAAACTTGTTGAAGAGTCTCAGAGTAATGCT GACCAAATGTTGGAAAAACTGCATGAGAAGCAAAAACAAGAAGAGGTAATGCTACAAGAATTAGAGAGCTTGAAAGAATC TTTGAGAGCTGGTAAGCATAGTCTCACAGAAGTTACAAATGAACGTGATAGGCTTAGATCATTATGCGACGAAAAGGATA AGGCACTTCAGGCTAAAATTCTTGAGAAAAGATCCATGGAAGAAAAGATGGCCAAAATGAGTAATTTGGTGATAGAGAGC ACCACCAAAAAGGACCATAACGAAGCAAATGATCAAGTCTTACGAAAACTTGAAGATGACTTACAACTTTGTAAAGATGA GTGTCTTGTAGCTGAAGAGACTATCAAAAGCTTGATTGATGAAAAGTTGATTTTGACACAGAAGCTATCTGAGCTGGAGG AGAATAATGCTGATGAGATTAGTTCTCTTCAATGGAAACTTGAGCAAGAACGTAAAGCTGTAAATTCTCGAGTTTATGAT CTTGAAAGAAAACTGGATTTGTTAAAGCAAGAGTTAGTTGTGGCCGAGTCTGCACTCTCATTAAAGGACTCTGAATTGGC TGCTATAAAGAAGGACTTAAAAGAGCTAGAAGAGTTGAGAGAAATGAAAGAGGACATTGATAGAAAGAATGCACAAACAG CTGCCATATTGAAGATGCAAGGGGCTCAATTAGCTGAAATGGAAACACTTTATAAAGAAGAGCAGATTCTCAGGAAGCGA TACTTTAATACCATAGAAGATATGAAAGGAAAAATAAGAGTTTACTGTAGGCTAAGACCTCTTGTTGAAAAAGAGATTGC TGACAAAGAAAGAGATGTTCTTGCAACGGTAGATGAGTTTACAGTTGAGCATCCGTGGAGAGATGATAAACCAAAACAGC ATATATATGACCGCGTGTTTAACGGTGATGCCACTCAGGAAGAAGTATTTGAGGATACAAGGTACTTGGTGCAATCTGCA GTAGACGGCTATAATGTTTGCATATTTGCTTATGGTCAAACTGGCTCTGGAAAGACATTTACAATCTATGGATCTGAAAA CAATCCCGGGCTTACGCCTCGTGCTACGGCAGAGCTTTTTAGAATTTTAAGGAGAGATAATAACAAATTTTCTTTTTCCT TGAAGGCATATATGTTGGAACTATATCAAGATACACTTGTAGATCTTCTGTTACCTAAAAGCGCGAAGCGATTAAAATTG GAGATTAAGAAGGATTCAAAGGGAATGGTAACTGTAGAAAACGTAACGACTGTGTCAATTTCTACTATGGAAGAATTAAA TAGCATAATACAAAGGGGATCAGAACGGCGGCATACATCAGGGACTCAAATGAATGAAGAAAGCTCAAGATCTCATCTTA TAATGTCCATTGTAATTGAAAGCATCAACCTTCAAAGTCAATCAGCTGCAAGGGGAAAGCTAAGTTTTGTGGATCTTGCT GGCTCAGAAAGAATAAAAAAGTCAGGCTCTGAGGGTAATCAGCTCAGAGAAGCTCAGAGTATAAACAAATCATTATCAGC ACTTGGAGATGTTATTAGTGCTTTATCTTCTGGTGGTCAGCACATACCTTACAGAAATCACAAGTTAACTATGTTGATGA GTGATTCACTTGGGGGCAATGCAAAAACTCTTATGTTTGTCAATGTATCTCCAATAGAATCAAGCTTGGATGAGACACAT AACTCCCTAATGTATGCGTCACGAGTGAGATCAATCGTGAATGATCCAAGCAAGAATGTTAGTTCAAAAGAGATTATGCG GCTGAAGAAACAAGTTGCATATTGGAAGGAGCAAGCAGGTAGGAGAGGAGAGGAAGAAGATTTAGAAGAAATTCAAGAAG TACGACCAACTAAAGAGAAGACTGACAACCGCCATTCTCTGTAA
Download CDS Sequence

Protein sequence (LotjaGi2g1v0351000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MTIDMLPSGAQSVRTNRSSFGSGNGDTPLHNYATVSNGDGYDSDGSNFAPATPTTLSMAIPSELAGAVPLIDRFQVEGFL KLMQKQIQSAGKRGFFSKRSVGPQVREKLTLEDMLCFQKDPIPTSLLKLNGDLASRATKLFQIILKYMGVDSSDRVTPIG LEERVELVSKLYKQSLKRSELRDELFVQISKQTRNNPDREYLIKAWELMYLCASCMPPSKDIGGYLSDYIHNVAHGVTTD PEIRARALNTLNALKRTVKAGPRYIIPGAIEIEALLTGKRLTTIVFFLDETFEEITYDMSTTVADAVEELAGIIKLPTFS SFSLFECHKVVTGSKSPDTGNEEYIGLDDNKYIGDLLAEFKAVKDRSKGEILHCKLIFKKKLFRESDEAVTDQMFLQLSY VQLQHDYILGNYPIGRDDASKLSALQILAEIGFVRRPESCTEWNSFLERFLPRQIAMTRAKREWELDILSCYHSLEHVTK DDARQQFLHTLRTLPYGFSVFFNVRKIDDPIGLLPGRIILGINKRGVHFFRPIPKEYLHSAELRDIMQFGSSNTAVFFKM RVAGVLHIFQFETKQGEEICVALQTHINDVMLRRYSKARSPTAGSLNEDVSSNFKPPNLELYEKRVQDLSKLVEESQSNA DQMLEKLHEKQKQEEVMLQELESLKESLRAGKHSLTEVTNERDRLRSLCDEKDKALQAKILEKRSMEEKMAKMSNLVIES TTKKDHNEANDQVLRKLEDDLQLCKDECLVAEETIKSLIDEKLILTQKLSELEENNADEISSLQWKLEQERKAVNSRVYD LERKLDLLKQELVVAESALSLKDSELAAIKKDLKELEELREMKEDIDRKNAQTAAILKMQGAQLAEMETLYKEEQILRKR YFNTIEDMKGKIRVYCRLRPLVEKEIADKERDVLATVDEFTVEHPWRDDKPKQHIYDRVFNGDATQEEVFEDTRYLVQSA VDGYNVCIFAYGQTGSGKTFTIYGSENNPGLTPRATAELFRILRRDNNKFSFSLKAYMLELYQDTLVDLLLPKSAKRLKL EIKKDSKGMVTVENVTTVSISTMEELNSIIQRGSERRHTSGTQMNEESSRSHLIMSIVIESINLQSQSAARGKLSFVDLA GSERIKKSGSEGNQLREAQSINKSLSALGDVISALSSGGQHIPYRNHKLTMLMSDSLGGNAKTLMFVNVSPIESSLDETH NSLMYASRVRSIVNDPSKNVSSKEIMRLKKQVAYWKEQAGRRGEEEDLEEIQEVRPTKEKTDNRHSL
Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Merging data from EBeye. Please wait…

Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
MobiDBLite
mobidb-lite
1 36 36 -
Gene3D
G3DSA:1.25.40.530
97 278 182 1.4E-25
IPR038185
SMART
SM00139
117 276 160 5.3E-33
IPR000857
ProSiteProfiles
PS51016
117 276 160 51.226
IPR000857
Pfam
PF00784
166 274 109 2.9E-23
IPR000857
SMART
SM00295
277 501 225 5.1E-36
IPR019749
CDD
cd17208
278 383 106 3.91877E-7
Gene3D
G3DSA:3.10.20.90
280 383 104 6.3E-10
ProSiteProfiles
PS50057
281 595 315 34.443
IPR000299
Pfam
PF09379
285 358 74 2.7E-9
IPR018979
SUPERFAMILY
SSF47031
379 496 118 9.94E-19
IPR035963
Gene3D
G3DSA:1.20.80.10
384 495 112 2.4E-11
IPR014352
Pfam
PF00373
388 501 114 2.1E-15
IPR019748
CDD
cd14473
396 494 99 1.2055E-16
IPR019748
CDD
cd13200
499 604 106 2.78095E-71
Gene3D
G3DSA:2.30.29.30
499 605 107 4.9E-14
IPR011993
SUPERFAMILY
SSF50729
501 589 89 1.43E-12
Coils
Coil
619 667 49 -
PANTHER
PTHR24115
702 1250 549 7.0E-281
IPR027640
PANTHER
PTHR24115:SF818
702 1250 549 7.0E-281
Coils
Coil
734 775 42 -
Coils
Coil
791 849 59 -
SUPERFAMILY
SSF56821
834 895 62 5.49E-9
IPR011254
Gene3D
G3DSA:3.40.850.10
886 1254 369 5.1E-150
IPR036961
CDD
cd01366
889 1214 326 0.0
SMART
SM00129
889 1220 332 9.9E-158
IPR001752
SUPERFAMILY
SSF52540
891 1242 352 1.2E-120
IPR027417
ProSiteProfiles
PS50067
891 1212 322 118.792
IPR001752
Pfam
PF00225
897 1212 316 2.0E-104
IPR001752
PRINTS
PR00380
963 984 22 9.7E-39
IPR001752
PRINTS
PR00380
1082 1099 18 9.7E-39
IPR001752
ProSitePatterns
PS00411
1112 1123 12 -
IPR019821
PRINTS
PR00380
1113 1131 19 9.7E-39
IPR001752
PRINTS
PR00380
1162 1183 22 9.7E-39
IPR001752
MobiDBLite
mobidb-lite
1238 1267 30 -

Gene function (GO predictions)

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
GO:0003777
Molecular function Microtubule motor activity Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP).
Subterm of
GO:0003824
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.
Subterm of
GO:0005524
Molecular function ATP binding Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.
Subterm of
GO:0005856
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.
Subterm of
GO:0007018
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.
Subterm of
GO:0008017
Molecular function Microtubule binding Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers.
Subterm of
GO:0016491
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.
Subterm of
GO:0055114
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.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0351000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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