Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0278200
Transcript ID	LotjaGi1g1v0278200.4
Related isoforms 3	LotjaGi1g1v0278200.1 LotjaGi1g1v0278200.2 LotjaGi1g1v0278200.3
Lotus japonicus genome version	Gifu v1.2
Description	Kinesin-like protein; TAIR: AT3G12020.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein; Swiss-Prot: sp\|Q6YZ52\|KN7D_ORYSJ Kinesin-like protein KIN-7D, chloroplastic; TrEMBL-Plants: tr\|K7MYH6\|K7MYH6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0278200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:68105080..68119997) extracted from Lotus japonicus Gifu genome v1.2.

GGGAAGACTCATACAATGCATGTGAGGCCACACTTGGTTTCTGCCTCCATCTTGTTGATATGCATATTTATGATAAATTT AACTATTGATAAGTTTTTTAATGTCTTTCAGTGTCATGACACTTAGGGTTATTAAACCACACTTAATTCACAAAAGAGCA ATTATCATGAACCAATTATCCCAAAAGCTTAAGCTGTTGGGTAAAAGATGTATGAATGGTTTTATATTTCTAATACACCC CTCACGCAAGAGCCCACTTGTAAAGTTAATGTGCAATTACATACTCATAAGTTTATGTTTGCAGGGTGATCAAAGATCTC CTGGAATCATACCACTTGCTGTGAAGGATGCTTTTAGCATTATCCAAGAGGTTTGTGAAATACCAGTGGTTTGTTGCACT TTTTACTATAGAAATTACTTATTTTGATGCTTTTGCTGACCAGACACCAAACCGAGAGTTTCTCCTTCAAGTTTCATACT TGGAAATCTACAATGAGGTGAGCTTCTTTCTGGTAACTAGCTTGTTTCTTGTGATGCTATGTTCATGCTGATTTTGTCTT TTACAAACATAGCTATTTCTGTCTGGATTCTGCATGAAGAGACATTTGATTGGGGCTGCTTTTTTATTCATATTGTTAAA ACTTCCTTTTATTTTAGGTGGTTAATGACTTATTAAATCCAGCAGGGCAGAACTTAAGAGTCAGAGAGGATGCTCAGGTA CTAATCATGATTTCTTTTGTATACGAGAGCAGTAATTGTTCTGAATTTTGATTGCTTCATTAGTGCCCAAGTATTATTTT TATTTTGAAATCTATTTTGTTGAGATTTACGGGTTTAGTTTAGTCTTTAATGTAGCGAGAGGAGAAAGAATACTCAAAAT ATATTGATATTGATATACATCATATGATTTGGTGTAATTACACAAGACAAAACCCTAATGCTTATTTATGTAATGAGGAA ACTATCATAATGTACAAGGAAATAAATCTGGAAATGAGTCCTAAGGGATAATTTAAGTTGCCCTATGTCATATATTCTTA CACTGTCCTGGTGTTAAAACTTACCATGCTTTAAGCTTGTTACAAATATACCCTTTAAGAAAAATATTTTACAAGATATT ATATATATATATTCTGGAACTAACCATGGGGCTAGGCTACTTCTAGGAATAATCTTGGGGCCAAACTTATCTGATATAGC TAGAGACTGAAAAAGATAACAGTGAGACAAATTCATCAAAGGATTTCAGATGGGTTGTGGAAGCATAGGTGGGAAAACCC TCTGAATATGAGCTATCTTGAGAAAGAAAGTGTACTTGGAATTCATGTATGACTCACGAGAATAAAAGAATCATGGAGAT ATTGATATTATTACATTAGCTTTCAAGATTAAGGGAAGTTAGCAGGAGAATAGTGACTGGATAGTTCACACTTCACAGAG GATGATACTGCTTTTGATATTAGGTTGAGCTTTAAGGGTTAGTCTTCAAGGTAGAGCGAGGAGAAAGAATCTCAAAATAT ATTAATATTGATGTGAATGGTATGTTTTGGTTACAGAAAACAGAGCTAATATCCCCATCCATAATTTTATATTAATATTA TACTCCTAATCCTAGTTGAATCAGAAAAATGATATAGAAAGAAATATGGAAGCAATCCTTACAGATAATCGAAGTTAACC TAAGTTACTCTAAGATACAATTTAGATATTATAATATATTTTTTATAACGTTATTAACATAGACGAGTGTATATGGATTC ATATGTAGGGAACCTTTGTTGAGGGAATAAAGGAAGAAGTTGTACTCTCCCCTGCTCATGCCCTGTCCCTTATTGCAGCT GGAGAAGGTAAAAGATCCAGATAGGTTTGTTTTCTTGTGGAAATTATTTAGTTTGCTGGTCTAGGTTTACCACAATAACA TGGGTTATTTTGTCTTTTGCTTGTGTCTTTTGTAATTAATTAATGATTAATAATGTCTTCCTTTTGGGAACTAGTTGATG CTTATACATTAAAATTTAAAATACCAGACATATTTTTTGTCAATTTTTAGTATAATATTTTCAAAACGTAACTGCATATA TGTAACAACTTTGGGATGTTATTAAAAAAATGGGTTTTGGTCCTGTAATTGATCATGGGGGCTGGGTTCTTCGACAGTTC TACTTGATGTTCCCCACTTTGTTCTGTTCTTTATTAGGCCCTTTCCTTGTTCTTCATGAAATTTTAATTTGATAACAGAG CACAGGCATGTTGGGTCCACAAACTTCAATGTACTCAGCAGCAGGAGCCATACGATATTTACCCTGGTGAGTTTATACTA TCTTAAAGGAGGAATCATAGTTTTAATTGATTAAAAACATGATTCTTATATTATGCAATAAATATACAAATGTTTACATT TGTTTTGTGTTCATATTTATATCTAACACTTTTAAGCATGAGTAAGACTCTTTGCTGGACCCCATCATGGTGGGAGCTTT ATACCATGAACCTTTTTGTGTTTGACAACTTACACTTCTGAGCATTTTTAAGTACATAGTGCAATGCTGTTACTTAATTG GTCAATACACCTCACACGGTCACACCTGAAGAAAACTAATGATTTACCATGTAGAAATTCCCGAATCCCAGACCGTCACC CCAACCAAAAGTTCTTGATGAGAATGCCCCTTCATTATTATTATAATAATAATTTATTTATTTTCAAAAGTTCATGAGAT AAAAATGACCTGCTGGGGATTAAAACTGTCCCATTCCAAAATATTCAGCTACATCGACAATGATACCAATCTCCAACTTT TAAGCAGTTCAGGAACCGGAAAATGGAACATCAGGATATAACCTATTTCTTTCAGTTAAATGACATTCCTCTTGTTCTTT TTTAATTTCATTCTATTTATTTACAGACCATAGAGAGTAGTCCGTGTGGTGAAAATAGTGAAGGAGAAGCAGTAACACTG TCACAACTGGTAATTAATTTAAACTGGTTGAACTACATTTGCTTTGTACATGTGATCTCTGCTTCCAAGCTATAAGTGGG TAATGATTTCATGTTCTTGTTTGATATTTTTTGTCGTTTCTTACATTTTTTAAATATTTTACTGAATGCAGAATCTCATC GATCTAGCAGGTTCTGAGAGCTCTAAAGCTGAAACAACTGGCATGAGAAGGAGAGAAGGATCTTATATTAATAAAAGTCT TCTAACTCTTGGAACTGTGAGGTCTCAAACCTTTTTTCTGGGTGCATTTTATAGATGTATATAAAACCCTTTATGTGCCT TCGCCTAACACCTTGAACGTTTACTAGAGTTAGTTTTTGAAGCGTTGTTAGAACCTTCACTGCATAATGGTCTGTAGTTT GATCCTTGCCACCCCATTGATCCCATAAAAAGTTGAAGTTTAGCATATGGTAGTTGGGCCTATGTATCTATGTTTGAGGC CAAAGGTCTCTCACATGAAGGGGTATATTGTCCTACAAATAGAAGTTAAATTTCAAAGGGTAGTATAGGACGGGCTTTGT ATATTGTCCTTGGTTCAAACTTCAAAGCCTAAAGAAATTTCGCATGATGGGGATGTGTTAGATATAAATTATAAAACCAT TGGTATGCTTTCACACAACAACATAAGTTTATGGGATGGTTGGTTCATGATGTATTCAATTGACACCACCAATGACAGTG TGTACATAGGACTCTAAAACTAATATGGTAATAGGGACTAGGGAGGAGAGGTGCTGGAGTGCAAGCAAAGATGTCTTCTG GGGTTAAACCTTGGGATCAAGCTTGCCAGATTGTCTCTTTTCTATCTGCTAGTAGAGATATCTGTTTCTTTTTTCATTAA AATTTACACTATCCACTTTTTCCACTTGCTCTGTGGTTTTCTTTTTCTCTCTTTTATGAGCTTACTCTTAGGAAATGTTT GTCATGCAATGCCCACCTGGCCATAAGAATGTTTACAATTCTTCATCATAAAGGCTTCTACAGCCACTTGTGTTTTCTAT TGTTATAACAATGTCCTTTCTGTTATAGATGGAATGAAAATGTGTTCTATTGAGAATAATCTCAATGCAGTTGTTTCTAA GCATAGATACTTCATTGTATGCTTTTGTATTCAGTTGACCTGTGTGTCTATTAGGCCTGTCTTGAAGTGTAATTGTCTTT GTTGTGCAGGTTATTTCAAAATTGACTGAAGATAGAGCTAGTCACATACCTTATAGGGACTCCAAATTGACTAGAATACT TCAGTCTTCACTCAGTGGTCATGGACGTGTATCTGTAAGGCTTCCTTGTGTAGATATTTGCACATTTTATGCATTTGTTT TGAAATTAATTTCATTATACAGTTTTTGTTGTAGAAATGCTGAAACATAAACTATTCTGATGGTTTATTGTCATTTAAAT TGCAGCTCATTTGCACAGTAACTCCTTCATCAAGTAGCACTGAAGAGACACATAATACATTGAAATTTGCTCACCGGGCA AAGCACATTGAGATACAAGCAGCACAAAACAAGGTAAGTTAAACTTTAGGACTATTATTGGGGTTCAATTAAATTTTTAT TCCTACGAAATAACAGATTACAACCTGCATACAGTGCTAATAGAAAACTCTAACTGTATAACAGAATTGTAATATTGAAT TATGAAAAGGTGAATATTACAGAAAGAGATCCAAGCTATATATAGAGAGAGAAGAAGCTTGCGCAGCAAGCTATCATAAG GAAAAGCTAAGCTAACTAACTACTCTAACTGATTCTGTTATAGCTTGCCATGTCAGCAAGGCCACTAACTGATTCTGTTA TGGCTTGCCATGTCAGCAAGGCCATGTTGATACATATACTCTAATATCCTCCCTCAAACTCAAGGTAGGTGAGAAACAAG TTTCTCACGCACATTGAGTTTGCTTCTAAGGTCTTCAAAACGAGTAGGAGAGAGGGCCTTTGTAAAGATGTCAGCAATCT GATCAACAGAAGGGACATGATGAACAAAAAGAGACTGATTTTGAACCTTCTCACGAACAAAAAAGATATCAAGTTCCATA TGCTTTGTCCTAGTATGGAGAACAGGATTGTGAGTCAAAGCAACAGCCCCCATATTATCACAGAAAACCTTAGGTACTGT AAATGGAACTTGCAATTCCTGTAATAAGGATTGTATCCATAATAACTCGGCAGAAGTATTAGCCAAACTTCTATACTCTG CCTCAGTACTGGATCTGGCTACCAAGGTCTGCTTCTTAGAAGTCCATGTGACCAAGTTTGGACCAAAAAAGACACAAGAG CCAGAGGTTGACCGTCTATCATCAGGGTCTGACCCCCAATCAGCATCACAGTAAGCCACCAAAGAGACTGGAGAGTGCAG AGAACAAGGCCTGATGTGTAAACCATGATGAATAGTACCTTTGAGGTACCTAAGTATGCGCTTGACAGCCTTCCAATGCT CCTCCAAAGGTTGGCTGAGAAATTGACACACTTTGTTCACTGAAAAACTAATCTCAGGCCTGGTCAATGTTGCATATTGC AAGGCACCAACAATGGATCTATAGAGTGTAGGATCTGAAAAATAATCTGCCCCATGTTTACTAAGTCTAGCACCACTAAC CATAGGTGTAGAGATGCCTTTAGCTTCAGCCATGTCAGCCCTTTCAAGGAGATCACCTATGTATTTAGTTTGAGTTAGGA GAAGAGATCTATCTTGCAAGTGATGAACTTGAACACCAAGAAAATAATCTAGCTGGCCTAATTGCTTCAAAGCAAATTCT GAATTCAGTTTTTGAACCACTTCTTGAATAAAGGGCAAGAAATTGCCAGTGATGATAATATCATCCACATAGACTAGTAT GTAGATGACATTAGACTTGTTGTGGAAAGTAAAGAGAGAGGGATCACAACAACTTGCTTTGAACCCATACTTGACTAGAG CTGCCTTCAACCTGTCAAACCAAGCCCTAGGAGCTTGTTTAAGCCCATATAAGGCTTTATTTAGCTTGCACACAAGAGTT TTGTCAGAATTCTGAAATCCAGCTGGTTGTTGCATGTAAACCTCTTCTTGGAGAGCCCCATGAAGAAAAGCATTATTCAC ATCCAGTTGGTGAATATGCCACCTTTTGGAAACAGCCAAAGTGAGAATTAAACGAATGGTGATTGGCTTGACTACTGGAG AAAAGGTTTCTGCATAGTCAAAGCCTTTCACTTGATGATATCCCTTGGCAACTAGCCTGGCTTTATATCTATTTACTGAC CCATCTGCATTCTCTTTGATTCTAAAAACCCATTTACACCCTATTGGATGCCTGCCCTTGGGAAGAGTGACCAAAGTCCA TGTATTGTTGGACATGAGTGCATCATACTCTGACTTCATTGCAGCCATCCACTTTGGATCCTTAAGAGCATGTTTTGTTG TAACTGGTTCTGCTTGGGCCAGAAGCAAAGTGGGAAGGAGTCTAGGCTTAACAATACCAGACTTTGCTCTAGTTTGCATA GGATGCACATTGGTCACTTGTTGAGGCTGAGAAGAGCCTGTTGTAGTAGCTGGGATGGAAGAAGCAGAAGCAAAATGATC TGAAGAAGATGTGCTGGAAACTGCATTGGGAGAGGCAGTTCCAGAGGCTGCAGGAGGTTCTGAGACAGTGGCAGCACTAT GAACTGGTGAATTTGGCAGTGACTGCAGGGAATCAACTGAATTAGGAGATGAGATGCCAGTGGGATGAGAATGATGAGGT GAAGGGATTGGTTGATACCATAATAGAAAACTCTAACTGTATAACAGAATTGTAATATTGAATTATGAAAAGGTGAATAT TACAGAAAGAGATCCAAGCTATATATAGAGAGAGAAGAAGCTTGCGCAGCAAGCTATTATAAGGAAAAGCTAAGCTAACT AACTACTCTAACTGATTCTGTTATAGCTTGCCATGTCAGCAAGGCCACTAACTGATTCTGTTATGGCTTGCCATGTCAGC AAGGCCATGTTGATACATATACTCTAATAAGTGCAAAGCACAAGATTCAGCATAAATCATTTGCTTTCTACATAAATCAG TTAGTAGTGTTATGTTAAAAACAAGGAAAACATGTGCTTATTCCTAACATTATCTCACAGTCACACTCTGTAAGATAAGA TTTTCTGAGCAATAAGCACCTCATAGTTCCCATTGATGTATTCACTCCATATATGATATGTGAGATTAGGGAAGTTTTTT TATTTTTGAAAGCAAAAGTAAAATTTTATTTATTAAAGTGACGAGATACAAGTCCTCTCGACAAAGGACCACAAAGCCAA CCAGTGATCAATTAAAAAGTACTCTCACCATATAAGGATTTTGTAATTGACAATCCTAAATCAACGGCTATTAATAGTGG ATCGCCAGTGGACTACTTCTTAATTGCTTCCACCCTATAACTTGGTGAGAGTAACTTCCCAGTTCCCACATAGATAATAT AGAATCTGTATGAATTGCAGTAAAACATTTGAAAGGAGGTAAGGCAACCACTTCATCCTCTCATGGCCATATTTCTATGT AAATATAAATCCTATGAAGACGTTGCCACTCAGTGTTATCAAATATCTGCCATGGCGGTTTCTCATGGTGATTTTTTTGC TTTCCACCATGGCCGATATCCCGCCATATTCCGCTATAATCCGCCATTATTTGTCATGTATGGCGAGATTTTGGCTTTCT GCCATGACCCACGATCCGCAATTAATAACATTGTTGCCACTACAGTCTCCTTGTAAATACTAAATACTACATTAGTAAAA GAAACACAATGTCTTTAATCACCAGACTAGAAAGAATTTATCTAATAACCCTATTTCATTAAATCTTATTTTGGTGGTCA ATCTATGGTTTGCGGCCAACTTGCTGATGAAGTTCTGCTTGGGTATAGAAAATAATTCCAAACAAGTATCTGTAAATTTT ATGTGCTGGGATTCCAAAGTAGCAGTTAATTGTAAGCTACCTGTATCCCTAGCTGTCCCAATCACTTCACTCCATCTAGA CCTGTCTTGCTGCATAACAGAATACTCAATTTAAATTGCCAGCTTGTATATTATCCAGCAGGGTCCAGTTCGCTTTGACC TGGCATTGTTAAATTGCTCCTGAATTAGTATCGATCACTAACTTCCCTAAAATCTCAAACGGTTAGTTGATGGCTAATGA ATAGTTTTTATGCCTAACATACCTCCTCATACAAGAGTTCTTTGATTAGAAGTGTGAATAATGCACGTACCCATCTGTGC TACAATTGAACAATTATTAGTAGAATTAGGATGGAAAGGATCAAATGTTATTAATTTGGTTAGTTAAAGGCATGGATACA TATTTATCTCTTACTTTGTTTTATGAAAGTAATGTTTGATATAATTTTCTCTTGATTGCATTTATTGGAATACTCCCTGT GAATCTGCAAATTTTAGAAGTGAAGTTATTTTGAGATTTTTAATGTTTGTAGTAGTTGGAGATTGTAATGAGATGCTGGA ATATTTAAAATTTAGTATTATAAATTCGTTTACTTTGAAGCAAGATGTTATTTACTTTACTTCACTCCGGTGCTCTGCCT CTACTATTTCTTTACTTCTGCCAGTAGATATTCAGCATGATTGGACAGCCACGACAATTGATATTTTTCTTTTCTGGAAC CTGTTTTCCTATAGATGATCCCATCCTTTCTTCTCCCCTTTTTAATTGTTTTTAATATAAACTAAACTTGCAGATAATTG ATGAGAAGTCACTTATCAAGAAATACCAGCAAGAGATTCAATGCTTGAAGGAAGAGTTGGAGCAATTAAAGAGGGGAATT GTCACCGTTCAGCCAAAAGATACTGGGGATGATGACATAGAGCTTCTAAAACAAAAGGTACTTAATGTTATACTATGTGT TCCAAGAAGTTTGCATAAATAGGGATTCACTTTGATACTCCCTCCAAAAAAGGGAGCACTGTGCTACTTTTTCTAAAATA CATTAAGTAATTAGAAGTTACAACTGAGTAATAAAAGTTCAGTTTGAGTGATTACTAAACCTTTTAGCACTTGGTCTCTA ATTTTTATTTTTCACTATAATTTCTATCAATCTGTTTGTAACATGATTTAAAGTTGCCATAATTAAAAAAAGGTAGTACA GTACTTCTACTTCTTTTATTTGTTGGAGTGCCGAACTGAACCAGACATTGATATCAAAGGCAAACAGATAATTTTTGAAG AGAAAACTCTATAAAGCATAATATACGGATTTGGAAATTAGTGTAATTATTTATTGTGAAGTAAATTTACTGCATATTGA GTTTAATTGGATTATATAAAATTAGCATTTTGATATTGAATGGTTCTCAATTGTTGTAATTATGTATAGTTAGAAGATGG TCAAGTTAAGCTGCAATCCAGATTGGAACAAGAAGAAGAAGCTAAAGCTGCTTTGTTAGGCAGAATTCAACGGTTGACTA AGTTGATTTTAGTCTCCACAAAAGCATCACAGTCAACGAGATTTTCCAACAGGCCTGGCTCTCGTAGAAGACATTCCTTT GGGGAAGAAGAGGTATTTCTCATTTTGGATTAACTGTCCCTTTTCCCCAAATACCAGGATTTAGATTTCTTTTGCATATT TTTTTTACTATATTTCCTACATTTTTTAATCATCAATTATGTTTGCAGCTGGCATACCTTCCATACAAAAGGCGGGATTT AATATTAGACGAGGAAAATATTGATTTGTATGTTAACCTGGAAGGTAATGCTGCAACATCTGATGATTCTTTTAAGGAGG AGAAAAAGACAAAGAAACATGGACTTCTAAATTGGTTGAAGTTGCGTGTAAGTTGTATATTGTTTCTCATGCCAGGGAAT TATAATTACAGGATTGAAATATATGTTAATTTTTCAAGTTGAATAGCTCATGTCTATTGGTTATGAGTTTTAACTGAAAA ATGATTCCTGAACCACTGAATAGTAGAAACACCCCTAAACACCCCTTTTTCCTGCGGATTTGGTCAAATAATACACTGAA CTAACCACCTAAATACACATGACTAACCATAAAGCACCGAACCGTGTAAAGTTGAAATTCCTAAATTAGGGATTTGGCCA AATAATACACTGAACTAACCACCTAAATACACATGACTAACCATAAAGCACAGAACCGTGTAAAGTTGAAATTCCTAAAT TAGGGATTTGGCCAAATAATACACTGAACTAACCACCTAAATACACATGACTAACCATAAAGCACAGAACCGTGTAAAAT TCAAATTCCTAAATTAGGGATTTGGCCAAATAATACACTGAACTAACCACCTAAATACACATGACTAACCATAAAGCACA GAACGTTCTGTGCTTTATGGTTAGTCATGTGTATTTAGGTGGTTAGTTCAGTGTATTATTTGGCCAAATCCGCAGGAAAA AGGGGTGTTTAGGGGTGTTTTACTATGTAGTGGTTCATGAATCATTACTGGTTTTAACTTGATACTTTCATTATCTGCTT CTTCCACTGTTTACCTCATTACCTTTTATGCAAATTAAGAACCCGAAATACTCTATTAGACCTTTAAATAATGCAGTAGG CTGGTTTTGCAAGGGCTTTTTATGTATTTGTTGGTATTATTTCTTAACCCTTAATAAAACTTATAAATTGGAATGGATTT TGTTTCTTCAGTAGGTTTTTTTTGGGGGGTCATAGGAAATACTTGACATTTATGAGTTTTAATATCGTTCCAAAGTTTCT ATATTTCTGTGAGCCATTCATTTGTCACCCTGAGGTTTATTTTTATATGTTCATAATCACCATTAAGCTCAATTAAACAT TAATTTCATGTGCACCGGGGTTGCTCTACATTATGTATCTTGTTGAACATCTTACATAACCCAGGTTGGATGATGCATCA TTTCAGTATGGGTATTTAAAACAAGTGAAATTGCTATATGTAACTTTTGTTTTTTCAATATTTTTATCAGAAACGAGATA GTTCCTTGATAGGATCTAGTGATAAATCTAGTGGAGCGAAATCTACTAGCACACCTTCTACACCTCAAGCAGAAAGTGGT AATAATGTTGGGTCAAGACTTTCCCATTCTCTACCTGCAGAAAGCTCTCCATCTGCTGATCATATATCAGAGGCAATAGA GGATAAAGATCTTCATGAGGATAGTTTATTGGGACAAGAGACACCTTTGGTATGTAATTGACTTCTGTTTTCTTTTTATC TTACTGCAAAATACCTATTTTTAGAATTTGTAAAATGTCATATTCACCTCACCCAGCAGGAAAATGCTTTGGTGGTGGTT GTTGTTTGTAAAGTGTTATATTCACTCTTGTATTGAACAGGACAAAAATTCAGATGGTATGTTTCTACATATATGTGTCA AAAACCAATTAAGTGATTGCTATCTCAAAAGTCTCATAAATGCTTGAATACCACCACGAACAATCTCAACTGTGCTAGTA TGCGTATATTTTATAGTATCTAGTGCTGCCTTCAAGTTCAGTTCAGTGCATAAATGCTGTTATCTTACGGGAAATGTTTC TCATGATTTCCAACATACTTCCTCTTGTTTTAAAAATTACCATTACTCTTTCATGCAGTGATCATTTTTCTTGTCTGTTC AATTATTAGAGTTCAGGCCTAAAAGGGTAGCCACAGACTTCAGTTTAAGAAATATCTATAGAACCACTGTTATTTGTGGG AAGATCTTAAGCGTTTTTATTATAAGTTAGCAATAAATTATCGAGTATATGGGTTTGGCCCAAATTTACTTTGTCTTGCA CGGCACTACGTTCTTAACCTTGTAGCATATATACATGGGGAGACTGTGTTAGTGTAGTTTATAGTTTATACCATATCTAT GGAAGATATCTCTGTTTTATCTTAAAATGGAATATGTGGTGGATATATGTCCATTAACTTCTTGGGTCTTTGCAATGATG TGTGATGACAAAATCATGTGGACATCTATTTATTTACCTTATTAGACGTCACTTTTGTTTATAATTTCTAGACAAGCACC AAATCAGTTGATCAGATTGATCTTCTAAGGGAACAGCATAAGATTTTATCTGGAGAAATGGCACTTCATTCAAGTGCTTT GAAGAGGCTGTCTGAGGAAGCAGCAAGAAATCCTCAGAATGGTCAGATTCATGTAGGTTACTGTTAATTTTTTTTTTTTT GTCTACCTAGTCTTGTTGCCTCTGATTAGAATTACAACTCTTGACTATTATGCCTGAAAGTTGCATTCTTCTGTTTGATT TCTACTAACTACTAAGGTGGAGATGAAAAGGTTGAAAGATGAAATTAAGTCGAAGAATGAACAAATAGATTTGCTGGAAA AGCGAATTTCTAGTCACTCCTTTGCTTCAGATAAGACAGATCAATCCGGAGTATCACATGTATGTTCACTTGACATCACT GTTGCTTTGTTCATTTGTTTGCATTCCAAATTAATACCGGTTGTTTTGTACAGCAGACTGTTGCTGAGCTGATAGCACAA TTAAATGAGAAGTCTTTTGAACTTGAGGTGACAATTTTTACATCCTTTTTCTAATCTTTTCCAACATGAAGTCCATAAGG AATTCAAGTGAAAAGTAGAATTCAGCATACTTTTTCTGGAACATTTTATTGGACTTGAAAGAAACTTTCTGAAATACTAT TTCTTATTAATTACTATACAAAAGGAATCCACATTATAATTGGTGTTTGGTTTTCTAAATAATGAAGTAAGGACAGCACA AAAATACTTATTCCTTGTTTGATTTAAAAAAGGGGACAGATTTTTGTCCCCCCTGCATAACACTATCTACTTCTCTCCAT CAACTCTCCTCCATTCTTTCTTCCTCTTCTCTGGTGACTGGCTACTTGTAGTCTTGTACTGTGCTATTTTCAATGAGCAT CAAAAGCACCCGCATACCTATGATTATAGCTACTTGCTTAAATAAAGCTGCATTATGGGCAAAAAATATGCACGGCACGG AAATAATAAATAATAGGCAATAACTAAATAATTATTTCTTAGATTCAATTCTACTGTAGTACTTCCCAATCAGAACAAAA ATAGACAATGATTATGTCAATAATTTGATATAAATGATAATTTAAAAGCCTCTGGTCATGCAAGACAGTGATGTTCTTAT ATTTTTATGTAGTATATACATTTCAACTACCAAAATTGATAGCTGTGCATGAACATGTGGCCTTGCTGAGGGTTGTTTTC TGATGAGCCCATTATTAACTAATGCATGTTATGGTGCTAATTCAGGTCAAAGCAGCAGACAACCGTATAATTCAAGAACA GCTTAATCAGAAGGTTCAAAATCTTGATCAACTTTTTTATGGAAGGCCTATTATTATTCTTCTTTTTATCATGCTCTTTA GCTAAGTGGATTATTTGGCACTCTCAGATCTGTGAATTTGAAAGCCTGCAAGAAACAGTTGCCTCTTTCAAACAGCAACT TGCAGATGCATTAGAGTTAAGAAATTTCAATCCTGTAGACAATCATTTACAGCATTCCTCTGTAACCAACAACTATCATG GTGAACTTCACCTTGACAAGGGAAACATAAGCAACGCCAATGAAGGGATTCTTTTGCAGTCACAGGTATGCTTTTTTGCC TCGTGCGATCTTCATAGGGTGCTATACAGATCTTACTCTTTCATTCCCCTCTGGAAGGAGTGGATATGATTGGTCATTTT TCCAGCTATTCACTTCCGTAGGCTGCCTACAATGTCCTTATGATGCAGTTCTCAAAGGCAAACTACTTGCTATAACTTAA TATTTTGCAAAGATTTGTTTCAAGTGAGAGCACATCTTATTATGTTAGGCAACAGGAGCAAATCTCAACCTTAAATGGAT AATCAAGATTATAAATTACTTAAGTCACAGTATGACTGTGTTCTGATCCTAGTACACGTGCATGATCAATGGTCAAAATT TGTAGATATATAAAACCTGGGCCTGTCGATGCTTCCATCCTTAAGTTTGAAAAAGTCTTAACCAACCCATGATTCAATGC ATCCAACTTTGATTAAGAAAAGCTCTTGTTATCTTATTTATTTCTGACTAAAGAAAATTGAAAATGATGAGTGTAATATG AGATTGGCTTATTTCCATTTGGATTTGTTTTCTTCTTTTCTTAGAGCTCTTTTTGTTTGAAGGAAACCTTAAATATTTAT GGTTATAATTTTACAAGATGAAAAGTGAAAACTAATATCTGTAGTTATTCCTATGAGACGAGAAATGTCTATTAAATGGT TAATTCTCTGCCTTCTATTCTGCAGTTAGCTAACTTATCTTGGCATCAAGTATTTTGTATATAATCTAGTGCACTGTTCC CATTTCCCACTGATCTTGTGCACCTCTTAATTAGATAAGTGAGATAGAAGAGCTGAATCAGAAGGTAGCAGAACTAACAG AATCAAAGGAGCAGCTAGAGATTAGGAATCGGAAACTGGCAGAAGAGAGTACATATGCTAAAGGGCTAGCTTCAGCTGCT GCTGTTGAGCTTAAGGCACTATCAGAAGAAGTTGCCAAACTCATGAACCATAACGAGAAACTAGCTGCGGAGCTAGCTGC GTCCAAGAATTCACCCACACAACGTAGAACTAGTGGAACAATCCAAAATGGGCGAAGGGAAAGTCATGTCAAACCTAGAC GAAATGATCAGGGTGGATCAAACTCGGATACCAAGAGAGAATTGGCCTTGAGTAAAGAAAGGGAACAGTCATATGAAGCT GCTCTTTTAGAAAAAAATCAGAAAGAGGCCGAACTTCAAAGAAAGGTTGAGGAGTCAAAGCAAAGGGAAGCATACCTGGA AAATGAACTTGCCAACATGTGGGTTCTTGTGGCAAAGCTAAAAAAGTCACACGGAGCTGAAACTGATGTTTCAGGGTCGA CTAGAGGGAGTTTGCAGTTCGATGGTTTTGACTTTTAA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0278200.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCATGGTGATCAAAGATCTCCTGGAATCATACCACTTGCTGTGAAGGATGCTTTTAGCATTATCCAAGAGACACCAAA CCGAGAGTTTCTCCTTCAAGTTTCATACTTGGAAATCTACAATGAGGTGGTTAATGACTTATTAAATCCAGCAGGGCAGA ACTTAAGAGTCAGAGAGGATGCTCAGGGAACCTTTGTTGAGGGAATAAAGGAAGAAGTTGTACTCTCCCCTGCTCATGCC CTGTCCCTTATTGCAGCTGGAGAAGAGCACAGGCATGTTGGGTCCACAAACTTCAATGTACTCAGCAGCAGGAGCCATAC GATATTTACCCTGACCATAGAGAGTAGTCCGTGTGGTGAAAATAGTGAAGGAGAAGCAGTAACACTGTCACAACTGAATC TCATCGATCTAGCAGGTTCTGAGAGCTCTAAAGCTGAAACAACTGGCATGAGAAGGAGAGAAGGATCTTATATTAATAAA AGTCTTCTAACTCTTGGAACTGTTATTTCAAAATTGACTGAAGATAGAGCTAGTCACATACCTTATAGGGACTCCAAATT GACTAGAATACTTCAGTCTTCACTCAGTGGTCATGGACGTGTATCTCTCATTTGCACAGTAACTCCTTCATCAAGTAGCA CTGAAGAGACACATAATACATTGAAATTTGCTCACCGGGCAAAGCACATTGAGATACAAGCAGCACAAAACAAGATAATT GATGAGAAGTCACTTATCAAGAAATACCAGCAAGAGATTCAATGCTTGAAGGAAGAGTTGGAGCAATTAAAGAGGGGAAT TGTCACCGTTCAGCCAAAAGATACTGGGGATGATGACATAGAGCTTCTAAAACAAAAGTTAGAAGATGGTCAAGTTAAGC TGCAATCCAGATTGGAACAAGAAGAAGAAGCTAAAGCTGCTTTGTTAGGCAGAATTCAACGGTTGACTAAGTTGATTTTA GTCTCCACAAAAGCATCACAGTCAACGAGATTTTCCAACAGGCCTGGCTCTCGTAGAAGACATTCCTTTGGGGAAGAAGA GCTGGCATACCTTCCATACAAAAGGCGGGATTTAATATTAGACGAGGAAAATATTGATTTGTATGTTAACCTGGAAGGTA ATGCTGCAACATCTGATGATTCTTTTAAGGAGGAGAAAAAGACAAAGAAACATGGACTTCTAAATTGGTTGAAGTTGCGT AAACGAGATAGTTCCTTGATAGGATCTAGTGATAAATCTAGTGGAGCGAAATCTACTAGCACACCTTCTACACCTCAAGC AGAAAGTGGTAATAATGTTGGGTCAAGACTTTCCCATTCTCTACCTGCAGAAAGCTCTCCATCTGCTGATCATATATCAG AGGCAATAGAGGATAAAGATCTTCATGAGGATAGTTTATTGGGACAAGAGACACCTTTGACAAGCACCAAATCAGTTGAT CAGATTGATCTTCTAAGGGAACAGCATAAGATTTTATCTGGAGAAATGGCACTTCATTCAAGTGCTTTGAAGAGGCTGTC TGAGGAAGCAGCAAGAAATCCTCAGAATGGTCAGATTCATGTGGAGATGAAAAGGTTGAAAGATGAAATTAAGTCGAAGA ATGAACAAATAGATTTGCTGGAAAAGCGAATTTCTAGTCACTCCTTTGCTTCAGATAAGACAGATCAATCCGGAGTATCA CATCAGACTGTTGCTGAGCTGATAGCACAATTAAATGAGAAGTCTTTTGAACTTGAGGTCAAAGCAGCAGACAACCGTAT AATTCAAGAACAGCTTAATCAGAAGATCTGTGAATTTGAAAGCCTGCAAGAAACAGTTGCCTCTTTCAAACAGCAACTTG CAGATGCATTAGAGTTAAGAAATTTCAATCCTGTAGACAATCATTTACAGCATTCCTCTGTAACCAACAACTATCATGGT GAACTTCACCTTGACAAGGGAAACATAAGCAACGCCAATGAAGGGATTCTTTTGCAGTCACAGATAAGTGAGATAGAAGA GCTGAATCAGAAGGTAGCAGAACTAACAGAATCAAAGGAGCAGCTAGAGATTAGGAATCGGAAACTGGCAGAAGAGAGTA CATATGCTAAAGGGCTAGCTTCAGCTGCTGCTGTTGAGCTTAAGGCACTATCAGAAGAAGTTGCCAAACTCATGAACCAT AACGAGAAACTAGCTGCGGAGCTAGCTGCGTCCAAGAATTCACCCACACAACGTAGAACTAGTGGAACAATCCAAAATGG GCGAAGGGAAAGTCATGTCAAACCTAGACGAAATGATCAGGGTGGATCAAACTCGGATACCAAGAGAGAATTGGCCTTGA GTAAAGAAAGGGAACAGTCATATGAAGCTGCTCTTTTAGAAAAAAATCAGAAAGAGGCCGAACTTCAAAGAAAGGTTGAG GAGTCAAAGCAAAGGGAAGCATACCTGGAAAATGAACTTGCCAACATGTGGGTTCTTGTGGCAAAGCTAAAAAAGTCACA CGGAGCTGAAACTGATGTTTCAGGGTCGACTAGAGGGAGTTTGCAGTTCGATGGTTTTGACTTTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0278200.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MHGDQRSPGIIPLAVKDAFSIIQETPNREFLLQVSYLEIYNEVVNDLLNPAGQNLRVREDAQGTFVEGIKEEVVLSPAHA LSLIAAGEEHRHVGSTNFNVLSSRSHTIFTLTIESSPCGENSEGEAVTLSQLNLIDLAGSESSKAETTGMRRREGSYINK SLLTLGTVISKLTEDRASHIPYRDSKLTRILQSSLSGHGRVSLICTVTPSSSSTEETHNTLKFAHRAKHIEIQAAQNKII DEKSLIKKYQQEIQCLKEELEQLKRGIVTVQPKDTGDDDIELLKQKLEDGQVKLQSRLEQEEEAKAALLGRIQRLTKLIL VSTKASQSTRFSNRPGSRRRHSFGEEELAYLPYKRRDLILDEENIDLYVNLEGNAATSDDSFKEEKKTKKHGLLNWLKLR KRDSSLIGSSDKSSGAKSTSTPSTPQAESGNNVGSRLSHSLPAESSPSADHISEAIEDKDLHEDSLLGQETPLTSTKSVD QIDLLREQHKILSGEMALHSSALKRLSEEAARNPQNGQIHVEMKRLKDEIKSKNEQIDLLEKRISSHSFASDKTDQSGVS HQTVAELIAQLNEKSFELEVKAADNRIIQEQLNQKICEFESLQETVASFKQQLADALELRNFNPVDNHLQHSSVTNNYHG ELHLDKGNISNANEGILLQSQISEIEELNQKVAELTESKEQLEIRNRKLAEESTYAKGLASAAAVELKALSEEVAKLMNH NEKLAAELAASKNSPTQRRTSGTIQNGRRESHVKPRRNDQGGSNSDTKRELALSKEREQSYEAALLEKNQKEAELQRKVE ESKQREAYLENELANMWVLVAKLKKSHGAETDVSGSTRGSLQFDGFDF

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Domain prediction

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	G3DSA:3.40.850.10 View details on G3DSA:3.40.850.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.850.10	1	261	261	4.1E-88	IPR036961 Show description in modal box View details on IPR036961 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24115:SF825 View details on PTHR24115:SF825 Search for proteins/transripts with this domain View external data on PTHR24115:SF825	1	836	836	0.0	–
SMART	SM00129 View details on SM00129 Search for proteins/transripts with this domain View external data on SM00129	1	238	238	2.6E-57	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50067 View details on PS50067 Search for proteins/transripts with this domain View external data on PS50067	1	230	230	82.371	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	1	265	265	2.28E-79	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24115 View details on PTHR24115 Search for proteins/transripts with this domain View external data on PTHR24115	1	836	836	0.0	IPR027640 Show description in modal box View details on IPR027640 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00225 View details on PF00225 Search for proteins/transripts with this domain View external data on PF00225	1	230	230	8.0E-79	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00380 View details on PR00380 Search for proteins/transripts with this domain View external data on PR00380	96	113	18	1.4E-19	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00411 View details on PS00411 Search for proteins/transripts with this domain View external data on PS00411	130	141	12	-	IPR019821 Show description in modal box View details on IPR019821 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00380 View details on PR00380 Search for proteins/transripts with this domain View external data on PR00380	131	149	19	1.4E-19	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00380 View details on PR00380 Search for proteins/transripts with this domain View external data on PR00380	180	201	22	1.4E-19	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	232	266	35	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	284	318	35	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	406	450	45	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	408	447	40	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	516	543	28	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	599	619	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	658	692	35	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	707	734	28	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	728	778	51	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	730	748	19	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	749	778	30	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	781	812	32	-	–

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0003777 View details of GO:0003777 AmiGO InterPro QuickGO	Molecular function	Microtubule motor activity	Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP).	Subterm of View details of GO:0003774
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0007018 View details of GO:0007018 AmiGO InterPro QuickGO	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 View details of GO:0006928 View details of GO:0007017
GO:0008017 View details of GO:0008017 AmiGO InterPro QuickGO	Molecular function	Microtubule binding	Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers.	Subterm of View details of GO:0015631

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0278200.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0278200.4