Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0102200
Transcript ID	LotjaGi4g1v0102200.1
Related isoforms 2	LotjaGi4g1v0102200.2 LotjaGi4g1v0102200.3
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

Download Genomic Sequence

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

Download CDS Sequence

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

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.

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	398	398	4.5E-134	IPR036961 Show description in modal box View details on IPR036961 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00129 View details on SM00129 Search for proteins/transripts with this domain View external data on SM00129	7	376	370	4.8E-153	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01372 View details on cd01372 Search for proteins/transripts with this domain View external data on cd01372	8	369	362	0.0	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	9	399	391	1.09E-113	IPR027417 Show description in modal box View details on IPR027417 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	9	368	360	113.047	IPR001752 Show description in modal box View details on IPR001752 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	16	368	353	1.8E-102	IPR001752 Show description in modal box View details on IPR001752 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	34	1030	997	0.0	IPR027640 Show description in modal box View details on IPR027640 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24115:SF475 View details on PTHR24115:SF475 Search for proteins/transripts with this domain View external data on PTHR24115:SF475	34	1030	997	0.0	–
PRINTS	PR00380 View details on PR00380 Search for proteins/transripts with this domain View external data on PR00380	79	100	22	1.8E-41	IPR001752 Show description in modal box View details on IPR001752 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	156	175	20	-	–
PRINTS	PR00380 View details on PR00380 Search for proteins/transripts with this domain View external data on PR00380	219	236	18	1.8E-41	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	263	274	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	264	282	19	1.8E-41	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	318	339	22	1.8E-41	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	376	396	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	498	518	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	537	564	28	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	580	638	59	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	697	719	23	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	703	719	17	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	810	830	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	853	894	42	-	–

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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0102200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi4g1v0102200.1