Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0311400
Transcript ID	LotjaGi1g1v0311400.2
Related isoforms 2	LotjaGi1g1v0311400.1 LotjaGi1g1v0311400.3
Lotus japonicus genome version	Gifu v1.2
Description	E3 ubiquitin-protein ligase RKP; TAIR: AT2G22010.1 related to KPC1; Swiss-Prot: sp\|Q9SIZ8\|RKP_ARATH E3 ubiquitin-protein ligase RKP; TrEMBL-Plants: tr\|I1KBB2\|I1KBB2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0311400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:75552725..75565300) extracted from Lotus japonicus Gifu genome v1.2.

CTAAACGGAATATGTTCCTCCCAAAACCAAACCCTAGAACAGGATAGTGCAGTGAAACGCATGATTGAGTAGTATTGACT CATCAACATTCAACAACGCTGTCTGTCCACCACCACTGCCAGCAACGGGTGGCCCCTGTAATCCCACAGTTCCAAGTACC ACTACCAGTCATTTCAACCGGTGGCTTTCAACAAGTTCTCGACACGTGTCGGTCACTTAGGTTTCCAGTCAGCGCACACA CACGCCCCTTCACCTTTTCTGGTTCGTTCGTTCGTTGTTGTTCTTGTTCCCTTTTCCTTCGCCCCCAAACTTTTTGGCGA AAAACATTATTATTTTATTAACATTATTATCGAAATTGACTCCTCCCTCTGAAAATTCCACCTTCTCTCTTTCACAGTGT GACTGTCACCACCAATAGTTTGGAATCGAATCGAAACCCTAGCAACCTTCCGCCGCCGCCACCGCCGCCGTTTGCAGCGG CATGAACCTCTTTTGTAAGATTGATTGATTCTCCTTTATCTTGTTTATTTTTTGTTTATTTAGTAACACTAACTTCATAG CCTCTTCATGTTATTCTCGACTCGCTAACGCGTTTTGTTTCAATTTATGGGGCGATTTGGAAAAAAATTCGTAGCTACCA TCAAAATCTTAAACCTTCCATGTATTTCCCCCCCTTGTTATGCTTATATTCCGCGAAAGCTGATGTGGATTTTTTTTTGG AATTTTGTGATTTTTTGTTTTTGGTAGAGATTTGTTGTTTGTGTGTTTTTGAGTTGTTGTTCATTTCTGCTAAATTTTTT CGAGCATATTGTGAATTTCTGATTGTAAGCTTTCCCTGTAGGTTTCTCTCTTCTTATTGTGTGTTCTGAATTTTGTGTGC AAAACTGTTCATGTTAATGATTTCATATTTTTGTTTTTGCCATGGATTGTGAATATCTATCTAGGGAGCGCGTTTGAGTT TGCGACGCTTGACCGGGATCTGAAATTGGAAAGGCTTTCAGCTGGCTTGGGGCTAGTTGAGGGATAGTGCTGTTCTGTCT GTCACAGATGGGTGAAGATAACCGGCGGGTTGGTGGGTTTTCAGCTGGTCTGGCTTTGATATTGAACGGCGAGGACAGTA AGAAATGTTCGTCGAAAAATCGGCTTCTTTCTTGCTGTGATGATTTAGGTCAACAGTCTGTGGAGCGAACGCTTGAGTAC GTTTTTGGCCTCCCCAACAGATCACTCAATTCATTGGCTGGTCCGGTGGACCGCGATTTTATTCGCTCCGTTATTAGGAA AGATTTCTCAAGATGTAATGCCGAATCAGGCGATTCTTCTACGGAAAGAGAAGGGATTTTTATTGGTAATAAAAATGGCA ACGGGCCTGATGTTGTAGACCTTGAAGAATCTAGCATCTGCGGCGATCTTAAAATCATCAAGTCACCTTTTCTTATAGAG AGCTTGGCAATGTTCAGTAGTGCGAGGGCTAATACTTGTGTTTGGAAAGGAAAGTGGATGTATGAAGTTATGTTAGAAAC ATCTGGTATACAGCAGATTGGTTGGGCCACTCTTTCTTGCCCTTTCACTGACCATAAAGGTGTTGGCGATGCTGATGATT CATATGCTTATGATGGGAGACGAGTTAGCAAGTGGAACAAGGATGCAGAGACATATGGTCAGTCATGGGTTGTTGGTGAT GTCATTGGATGTTGCATAGATTTAGATCGAGATGAAATACTATTCTTCAGGAATGGCAATCCACTTGGGGTGGCATTCCG AGGAATTCGAAAAATGGGTCCTGCTTTTGGTTATTATCCAGCAATTTCCCTCTCCCAGGGCGAAAGATGTGAACTGAACT TTGGGGCACGGCCCTTCAAGTACCCAGTTGAAGGCTACCTTCCTCTTCAGGCTCCTCCCTCCAAGAGCTACTTTTTGACA CGATTGCTACAATGCTGGTCAAGGCTTTTGGACATGCATTCAGTAGAGCGAGCTGATCATTCTTTAGCTCAGAAATTGAG AAGAGTGAAGAAGTTTGTTTCATTGGAAGAAATTTTTCACCCTGCCTCTGATGCTATTTGTGAGGAATTGTTCTCTATAA TTGAAGCAGATGCTGGGAACACAGAGTATATGGTTTGGGGTCCTTTGTTGTCCTTTATGTTTGAAGTTTTAGGATTTCAT CCACCCCATGACTATTCAAGCTTGGATAAAGTAGTTGAAACACTACTACAATTTCAAGGATCACATTTCCTGTTTTACCA CATGATAAATGCCCTTTCCTGTGGTTGTAAAGTAGCCCCGTTAGTCCTCACTGAATGTCCTTACTCTGGATCATATTCTC ACCTTGCATTAGCATGTCATCTACTAAGACGAGAGGAACTAATGGTGCTTTGGTGGAAGTCACCAGATTTTGAATTTTTG TTTGAAGGCTTTCTGTCACAAAAGACTCCAAACAGGCAGGATCTTGACTCATTGATACCAACTGTTTGGTGGCCTGGTTC CTGTGAAGATGCATCTTATGAAGGTAACATGATGTTGACAACCACAGCTTTGTCTGAATCAATCAGTAAGGTAAATTCTT TTTCTCCTTGACCTAGCTGCATTTTAGGATTTAGGTAGTATATCTCAGTTGTGAATTCGATGTTGCTATTTAAACTTCGA AGGTGCAATGAGCAACCAATAACGCTGATAAGGTTTTCAACACAACGGTCACAATCAGTTGTTAATTTACGTGCTGAAAA ATTATCTACGGCATTTTTATGGTTGATGGAATAGGACAGTATTACAAAGTAATTGGAGAATATTAGAAAGTGGATATAAA GTGTAACATGTAGTTTGTTCTACTTTTCTGTTTCTAGATGAAGGAATCATTATTATTACATAATTTTGCTAACGTATATT GCTTCATCTTGCTGTTGCTCCTACACTGTTCAATGCATGTAAGGCATGAGAGCACAGAAATAATGCTGGTACCTGTCTTT TATGTGTAAAGCTGAGTGCAACTTAGAGAAACTTAGTCAAGTTGACTGTTGAATATGTGATGCCAAATCTAATCAACTCT ACTTTTTACTATATGACCGAATCATGTGATCTTATTAGTGAATCGGGAGTTCTGTTATTCCTTAAGATACAAGGTTGAGC AAAATTATTCTTTACTTTTTCTTCAGGTTGATTATTCTTGTTTATAATGAAGTCACTTTCACTTTCGTTTCATAATCTTC TCCATATTTCCATGTGTTCATAGTATGAGACTAGGTATTAGGGCTCAGATTTATTGTACAAAATAGTTTTTTTTTTTTCA TTTGCTTAATACTTCCTCTCATTTTTATCATAGAAAAGGTGTGCTCATTAGTCATTATTTAACAGTATAATGCAAATGAT AACATTGTTTCTATGAATTTCATGAACTACATTTGTTTCTTATTCAAGGGTAAAATTTGGTGAACCATTGTGCCCTTGGA TGCTTCTTTCATACTTAATTTTTCTGAGTATACCTCTTCCACTTGTAGATTGAGGAGAAGCATAGGGACCTTTGTCGCTT AGTTATACAATTTATACCGCCTACAACACCTCCCCAATTACCTGGAGCCGTTTTCAGGACATTCTTACAAAGCCTTCTGC TGAAGAACAGAGGAGCAGAACGAAATGTCCCGCCACCTGGAGTTTCTAGTAACTCGGTTCTTGTTTCAATTTATACAGTT TTGCTCCATTTTCTATCTGAAGGATTTGCGTTGGGTGAAGTCTGTGGCTGGTTAAAGAGCTGCAAATCAGATGTTGGTTT CCTTCACAGAGGTGGTCAACGAAGTTTCCCCACACGCTTGTTTCTGAAAAATGATCCCCATAGAATTAATATTTCCCGGC TTGGGGGATCCTACACCCATTTATCAAAGATACACCCTATAGTTGAGCATGAAATGGAAGTGGTTGAATGGGATGAAGGT TGCATGGATAATGAAGAAACCAGAGTAACGCATTCGACCAGGCAGAAGCCGTGCTGTTGTTCTAGTTACGATTCTGATTT TACAAGAAACTTGAAGGTTCCAGCTAAATACCTGGCCAAAGGTTCTCGGGGCCATTGTAGCTCCATTCCAGAAAGACCTG CTCATGTTGCTGCCGAATGCAGTGATGAGGGTTTGAACGATGAAATAACAGATAAGCCTAGCTCCAGTGATCAATCTGAA CCTGAGTACGGTTACCGCCAAGTGTACCATATGAAATCTGTATCAAGGGATACTAATATGTCTACAGCTACCCTTCAAGA AGAAGAGCTACTTGATGCTTTGTTGTGGTTGTATCATGTTGGTCTTGCTCCAAATTTTAAGCAGGTGAGATCACGTTGGC AAAATTTATTATGATTTATAAGATAGCAAGTTTTGATGGCAGGCAACTTGAATTTCTCTGAAATTTCTCAAAAGAGTGAG AGTGAAAAATGTAAGTAGTTGTGGTCGTATAAAAAGCTTATATATTTCAACCCCAATTCAAGACTAACTAATCGCACTCT GCTAAGGCTAATTTCTTCTTATTTTAGGTCAATGCTCATACAAAAAGTTATTCATAATGAATCTAGAACTAAGTTTCTGA CTCGGTGTGTGATTCTATCAACACTTATGTTGTATTCAAAACAGCTTATAATTAAAATCTTACTAAGCTGAGAGATATTG TGAAAAAAGAAGAAATTTTTATTCAAATATTAATCAAAACCGAACTTGCATTTCAAGACTTAGCTCCAGTTGAATTACAT TGAGCTTCCTTGAGGTTTTTAAATTACATTGACCTTCCTTGAGTTTTTTAACTTACACTCACATATCCTCTTGTTAAGAA ATTACTGACTTTTCCCTTGTCTTCGGTTTTTCACCTGTCGGAGTGGTATATCTTGAAAGAATTTAAACAGGTTTGCTGTT TGATGAGAATTTGTAGCCGAATAGGTCAGTCAATGTAATTTCTGAAACAAGAGGGGAGTTAAGTAAAATTCATTAACCTG CAAGAATATCAAAGTAATATACTTATAATTCTTGTACAACTACTTATTATTGCCAATATGTGAGAAACAACGTTTGGCCA TGTGCTATAAACAATTTTCTTTTACACTGTTACATCATTCTATAAATTTTTATGGAAAAATGATTATGGAAATCAATACA CGAATATTTCATTGAACAATCTTTGGAAAATTTAAAATTTTAGGGAAAAGAGTATGTAACCACCCTGAACTTTGTGCCTT TTGCAAAGACACCTTGAGTTTATATTATATTCATCTTAATCCTTAAACTTTGTTTGTTTTATAGACCCTTCTGTTAACTT AAGTTACTAACTATTGGTTAGTAAATATAGATCTTTTAAAATTTCTAGGAAAATAGCATTCAACCACCTTACACTTTGTA CTTTGTGCAAATGTAATTTTGAATAAGCCCTTCATTGTAATTAATCATTAGACTCTGACTATGAAAAGAGTGATGTATTT ATGACATAGTATAAGTTTAAGGATTAATTGGTACACAATTAAAATTCAGGGCGCCTATTTACAAAAGGCATGGAGTTTAG GATGGCTGGACACTTTTTCCTAAAATTTATATGCATGATCCTAAGCCAGTAATAAGAGTTTAACTCTGGTTCCTTGATCT TTTTCTCTGCTTGTCCCCATTTTTCCTTGCTAAATATTTTAGAGTGCCTGTCCATTTAATTGATTCTGAATATTATTGAA TTATACGGAAAAGATTGGAAAGAGAGATGAATGCTATTCTCTGTCTTTGCAGGCGTCATACTACATGACTCATCAGGCAC AATCAATCTCCCTTTTAGAGGAAACAGATAAACAAATACGAGAACGATCTTGTGGCGAGAAATTGAAGCGTTTGAAAGAA GCTCGCAATGAATATAGAGAAGAGGTTATTGATTGTGTTAGGCATTGTTCTTGGTAAGATGTTCAAGTAGCGCTTAAGCT AATTTGTGTTGTCTGCTTATTTTCCATCATTGATTTTTGCTTTTCAACTGGCTTTTTACTTCTTCCAAATGGTATTAGTT TGAAATTTTCAGTAGTAGTGGTTTAGTATAGTTTATGTTCTCAACTCATTATTGTTGCCGAATTGATTGGATGCAATTTG ATGACAACAGCTTGATTGTGTTTTTTATTTTAATTTTTAAATTTTTGGTGAGTTGCATTCTGGGTATGTTAAATGAAGCT CTCTGGGTGGTTAACTTAACAATAGTATTTACATTTTTTGTTCATTGGGCGGTACTTAGATTACTGAACTAAATTAAATC TAATAATGGAAAAAGATATTGTATATAGTTCAGAAGACTTGAAATATGGTTCATATTTTCAAAACTACAGGAAGAGTGTG ATTTCCAAATATTTGTGTTTCATTTCTCTATGTCATATCTGTGTACACATTTCATAAATCTCATGGTATACCAAAGGTTT GAAGCTGTACTATATCATATGACTTGTAATAGTTGCTTTTTAGTTATAAATTTATTATAGCTATGTTTAGAGATCTATCC TTTAGATTTGGTTGCTACTTATGGATGAAATATCATTCTTAGATCCTCTTGTGTGTCTGTGAGTTCAGAATTTTGCTACT TATTGAACTTATCAGGTTCAGGGTTTATAGCAGCTACCTCTATTTTATATGAGGTCAACATGATAGGTATTTAAGACATT GTATTAGAGTATATTTCAGTGTCTTGTTTCAGACTGAGTTTTCTCGATGTTTCTCAAATACTAATATCCTTTTAAAAAGC CTTGCAATCATAATTCTTAATGACCAATGTTAGCAAAATCTATAGCAAAATCGCAAAATCCTAAGATTTTACGATTTTGC AGCACTGCTCCGATTCAAAACGCATGCAAAATCTTTTTTTGGTGGAATCCCGTAGAATCTTAGATTTTAATCGTAAAATC GTAAAATCCTATTGAATCTTACGATTCTAGTATTTTTTTAATTTTTGAAGTTGATTCCTAAAATTGGGGAAACTAGAGAG TTTTTTGACTTTGTGGAAAAAACAACCCACCACCCAGCATTTAGGGGATTTCGAAATTGAAGCTCTAATTGATTGTAGTT GCCAAATTTGAATGGTTAATTGACAAGAATTAATAACTGATTGTATATTTCGAAAAATCAACCTATGTGACCCAACCTTC ATGCCTCTAATTGCCTATTTAATTCACTCATAGTAGAGTGAATTGAATCACGCATTCATGCTCTGTTTTCTGTAGTCTCT ATCTAGGTCTCTTCCTCTTATGTTTTCTCTTCATTCTTCAACATCTTTGTTTTCCTTCATTCTTCAACGTCTCTGTTTCA TCTTTTAATTTCATGTTCTAGTACTCTTATGATTTTGGATTGAGATTATGACTTGTATGGATGTTAATCTGATGAATTTT TATTCCAATTTTTGTTAAATGATGTGACTTACAAGATATCAATGCTATTTTTTTGTTTTTCTATTTATGGTAGAATCTAA CGATTCAATTTACGATTATACGATTTTGAACCCCCTCTCCGATTCTACGTAGAATCTAGTTTTTCACAACATTGTTAATG ACATTAAGATGCATATTACTGTTTACTGATTCTTTGTCTTTTTGGGTCATTTCTTGCCTTCCAGGTATCGCATCTCTCTA TTATCTCGATGCAAACAGCGAGGAATGTATGCAATGTGCATGTGGGTTGCCCAGTTGTTACTGGTTCTGAGCAATATGGA TTCAGTGTTCATCTACATCCCTGAATATTATCTGGAAGCATTGGTAAATAAGCATTTTCCCCTTGGTTTAGATTTAACTG CAGTTTTGACTCACTCACCTGCAGAGCTCAAAGTATCTTCACTACTTATCTGCTTCATTAAACTAGTTTCTTTTTCTTTT GTTGGGTGGGGGGGGGGGGGTCCTGTTACTTAGCCTGCCCCAATTAATTTGCTTAAGCTTAAGTGTGCTTTAACTCATAT TACATTTTCTCAGCATTTGTTTCTTGAAAGAGCATTTCTTATGGAATAGTTTCTCTTGGCATTAATATTTTGTCGTTCGT ACAGGTTGATTGCTTTCATGTGTTGCGGAAAAGTGATCCTCCATTTGTTCCTTCCACAATTTTGATCAAGCAAGGACTCA CTTCATTTGTGCGTAACCTTTCCCATCTCTATTTTTTCATTCTTCATTTTTTATATTAGATTTTTGCTAGATGTAAGTGT ACACTTAATATTGTGTGGAGAACTGTGGGCAGTTCTTTTTGGCCATTATCATATATTTTTCATTATGATATCTTCTAACC TATTTGCAACAACACAAACCTTATCTCACTAAGTGAGGCCTGACTATATGGATCACCTGACGTCATTGCACTCAATCAAA ATCAAAATTTGTGGGATATTATTGACCATCAGGTTTCTTTTAACAATATTTTCCGATGTTATTTTTTGCCTCCCTTTATC CCTCTTCACAGTACTAAGAACCATGTTATCAACCATTCTCCCAGGTGCCTCCGAAGGTCTTCTTTGTACATGCCTGTACC ACCTTAACCGATTTTCCGCCATCGTCTCCTCGATAGAGGCCACACATATATCTCCTCTTGTTCTATCATTGTTTATCTTG TCCTTTCCTTTCTAGTGAGACCACTCATCCATCTTAACATTCTCATTTCAGCTAGCCCAACTTTTTTCTCATGTTTTCCC ATTAAAGACCAACATACGCTACCAGAGGGGATAGCATGACTTATAGCGGTTTGTTAAAACTTTCCTTTGTGCTTTGTAGG TACTTTGCGGTCACAGATAACTTATGTCATGATGCTTTTCTCCCACTTTAGCCACCCAACTTGAATTTTTTGTGTAACAT CTTTGTCAATTTCCCCATTATTTTGCATAATAAATCCTCGGTACTTAATCTGTGAAACTTGTGGTATGATGTCGTTTCCA ATTTTTACTTCCAACAAGTAATTTGCATCTCTAAATATATGTTCCATCAAGTGGAGGATTACAGGAATTTATTATTTTGC ATATACTCAAAGTAATAGCTTAATATGGGACCCCGTCATTGATGTCTGTTATTGGGTAGATTTGGGGTAGTCTTGATGTC ATCCAATTTAATGAGATCTGACTATAAGCCTTAGGGTGATCTGACTATAATCACATTCTTTATGATATCTATTCAGTTGA GCAGTAGCTTTGGGATAAGATTAAGTATTTGGCTTCTATTCCGTGTGTAGCAACCTTTTTAAAAGATTATCCCTTACATA TATGTTGAGGTATTGGATAGCTTAATGAAGTTGATATCTATTGTTCATTTATGGTGCAGCATGCCTGATGCTTGTAATAA CCCGTAGTAAGGGTGCTGAATGTTTCTATCATTGGTTCTAAGTTATGTTTTTTATATCTTTTTCACTAGGTCACTTTTGT AGTTACTCATTTCAACGATCCAAGGATATCAAGTGCAGATCTTAGGGATCTTCTTCTCCAGTCGATATCCGTCCTGGTGC AGTACAGAGAGTATTTGGCTGCTTTTGAGAGCAATGAAGCAGCCACCCAAAGGATGCCCAAAGCTTTATTATCAGCATTT GATAATAGATCTTGGATCCCAGTGATGAACATTCTCCTGCGATTATGCAAGGGTAGTGGTTTTAGTTTTTCAAAGACTGG AGAGTCATCTTCATCATCAGTTCTATTCCAAGTATGTAACATCCTCTTTTTGGTGAATAATTTTTGCTTGGATTGATTTC TCACCAGAGGTTTTTTCCCTTTGACTCTTGATACAATGTAGAGGTTGCTAAGAGAAGCTTGCATTAACGATGAAGGATTA TTTTCATCTTTTCTAAACCGTCTATTTAATACACTTAGCTGGACCATGACTGAGTTCTCCGTTTCTGTTCGAGAAATGCA AGAAAAGTACCAGGTCTGTTTTTTCTGCCCTTTATTGGATTTCCATCTTGAATTACTTTCTCTCCTTATTCTTGTAGCTT TAAGTTAGTGTTCCGTAGCAATAATGCTACATAGGACCTGGATTTCAGTTTTTTTATGTACTCACTGTTATAGCTGATCT AATTTTCGAGTTATTCAAGTTTTATTTCCAAAACATCTGGCATGTTGTTTCGGTCAACATAGTGATTGTTGTCTTATTTA GAGTTTAGTTGGCTATTTTGATTTATCTGTGCTCTTCATTCCACAAATTGATTGTTGAAACACTTCTTCCACAGGTAATA GAGTTTCAGCAAAGGAAATGTTGTGTCATATTTGATCTTTCATGTAATCTTACAAGGATTCTGGAGTTCTACACTCGTGA GATTCCTCAAGCATTCTTGTCTGGTCCAGAAACAAACCTACGGAGGTTAACTGAATTGGTTGTATTTATCTTGAATCATA TTACTTCTGCGGCTGATGCTGAGTTCTTTGACTTGTAAGTTCCTAGCCCGTGACTTAAACTCGAGCTTATAGAACACACA CACATATTTGAAATTGTTGGTTATCCATCTGCCATATTTGGATATTGCTTCTGGAGAGACGCATAATCCAACCTTGTCAC TATCCAATTTGACCCTTAATAAAGACTCCTTGAGATTTCCAAACCTATTCAAAATAGTTTTCCATCAATTGAGTTTTGAT GAGAGGCTGCCCTTCTTTCTGTATTTTTTTCAGATCATTTAAACGGCATAACCAATCTTCGGAGAAAGTAAATCGAGGCA TGATTTTGGCACCTCTTGTTGGGATCATGTTAAATTTATTGGATGCTACAAATTTGGCAGAAGATCCCGAGAACAATGAT CTTTTGGATGTTTTTGCAAGCATGGAGTGTCCAGATACTGTTCATTATGGTTTTCAGTATCTTCTGGATTATAACTGGGT TAGTTGCTGTCCCTTAATTTATGTTATTGGTTCCTCTAAATATTTAGCATGCCAAAGCATTAAGAATGCCTTTGAATGCT GTTGTTTTTAATGTACTCTTTATCCAATTTTTTGAATTTATCCTGTTCATTAATTGCCTGCTTCCAACTTGCTGCTATTT ATTGCTAAATTAGTAATAAACTCAACCATGAAAGTTCAACATTCATACCAAAACATGCTCAAGGAGATATCAGTTCTTAA AATAGTGGGATACATAGTCTCTGAATCTTATTGATCTTTCACCATATCACATCATGTTAGCAACTTGAACTTTTTATAAA TAGTTTCTAATGAAAAGAGTGCTGTTGAAAAGTTAGCAGTTCTGCCCCATTACGTTTCTACTTTTCCGGTGATCTCTAAG TAGTTGGTATTACTTTGTTTAAGTGAGTCTTTACTCACTACTCACGTTTACCATCATTTTGCTCTTTCATTTTCCAGGAT GGGTCTTGTCGCCGGGAAGCTTTTCTGGCAAAATACGAGCAGCTAGAGAATTTTCTCAGCCTCCTTACTTGCCGCATTGT GTCACGGCATGATAAAGTGGAAAGTGTAGGAGATACAGACCTAGAGGATAGCTTATGCTGCATATGTTATGCATGTGAAG CAGATGCCCAGATTGAACCATGTTCACATAGGTCTTGCTATGGCTGTATAACCAGACATCTTTTGAACTGCCAGAGATGT TTCTTTTGCAATGCTACAGTGACAGATGTGAGCAGAATATGTGAGAAGACAGGCTGAGGAGCCTCTATTTTGTGGTTGCT CGGTTCCTGGTGCACCTAAGCTGGTCCATAGCTGATTAGTTGCCTATTTTTGAACATGATATTTCAGAAATGACAACAAA TGTTTAGGAAAGAAAACAGAAGGTTAAGATAGGGTGTAGTAAGATGGGTGGTGGGGTAGTTGCATAGGAGTTAATCTGTT CAAGGTGGTGAAGTGCTTCGTATGGGCCTGGATGTCGCTGCCATCGGTGAATTAAGAATTTTGTAGGATTTGTTAGAGGG TATTATGCTGTAAATATGCGATGTAAATGGCAAGCAAAGTTGTCGAAGTTTCTTTCTTTAAGCATGGCAACTCTTCATTA TTCGCTAAATTAGCTTTGGAGGCCGTGATGTCCAACTCTGCAGTAGAACATGGTTAGATGTTTGGGGGATTAAATTTAAA AGGCTAGTACAGTTATGGTAAAAAAACCATTGACATATGTGAGTATGGAGATCTCACTGAAATCAGTGAGAATCGCATGG CTTTGTTCATCACATTAGAAATTATATAAATAAATTATATTTGTTAGGAGAGAAAGGCTTTTCAACTCAGATTACTTTTA TTCTGTATTTCAGCATTTTGCAGTTCATCAATCAAAGTTTGTGGGGGTGTTTCGTCAGGCATTTTTTCTGGTTCAGGAAC TTTGTCTCGGTGGTTGTCAGGAATTTGATTAGCAGAAATGTTCTTTTGTACGTTTTCACTGAATGCTGTAAATAATGTAG ATGATTCAGTGACGTTGATCATATTCTTTTGTACTGTTAGCATCTATTTATTATTTTGATTTAGTCAATAAGAAGACACT ATTTGCTCAACATGATGAAATGAAAAACCAATAGATACTTGGTTCAGGTGGCACATGATTCATTCTTCTGTCTTGTATAT GAAAAACTCCATTGGGAGAGTTAGTCCATGTAAAATTTACTTTGCAGAGATACTTGTGTCACCCCCAAAAAAAGTATGAT GAAACGAAATACCAGA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0311400.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTGAAGATAACCGGCGGGTTGGTGGGTTTTCAGCTGGTCTGGCTTTGATATTGAACGGCGAGGACAGTAAGAAATG TTCGTCGAAAAATCGGCTTCTTTCTTGCTGTGATGATTTAGGTCAACAGTCTGTGGAGCGAACGCTTGAGTACGTTTTTG GCCTCCCCAACAGATCACTCAATTCATTGGCTGGTCCGGTGGACCGCGATTTTATTCGCTCCGTTATTAGGAAAGATTTC TCAAGATGTAATGCCGAATCAGGCGATTCTTCTACGGAAAGAGAAGGGATTTTTATTGGTAATAAAAATGGCAACGGGCC TGATGTTGTAGACCTTGAAGAATCTAGCATCTGCGGCGATCTTAAAATCATCAAGTCACCTTTTCTTATAGAGAGCTTGG CAATGTTCAGTAGTGCGAGGGCTAATACTTGTGTTTGGAAAGGAAAGTGGATGTATGAAGTTATGTTAGAAACATCTGGT ATACAGCAGATTGGTTGGGCCACTCTTTCTTGCCCTTTCACTGACCATAAAGGTGTTGGCGATGCTGATGATTCATATGC TTATGATGGGAGACGAGTTAGCAAGTGGAACAAGGATGCAGAGACATATGGTCAGTCATGGGTTGTTGGTGATGTCATTG GATGTTGCATAGATTTAGATCGAGATGAAATACTATTCTTCAGGAATGGCAATCCACTTGGGGTGGCATTCCGAGGAATT CGAAAAATGGGTCCTGCTTTTGGTTATTATCCAGCAATTTCCCTCTCCCAGGGCGAAAGATGTGAACTGAACTTTGGGGC ACGGCCCTTCAAGTACCCAGTTGAAGGCTACCTTCCTCTTCAGGCTCCTCCCTCCAAGAGCTACTTTTTGACACGATTGC TACAATGCTGGTCAAGGCTTTTGGACATGCATTCAGTAGAGCGAGCTGATCATTCTTTAGCTCAGAAATTGAGAAGAGTG AAGAAGTTTGTTTCATTGGAAGAAATTTTTCACCCTGCCTCTGATGCTATTTGTGAGGAATTGTTCTCTATAATTGAAGC AGATGCTGGGAACACAGAGTATATGGTTTGGGGTCCTTTGTTGTCCTTTATGTTTGAAGTTTTAGGATTTCATCCACCCC ATGACTATTCAAGCTTGGATAAAGTAGTTGAAACACTACTACAATTTCAAGGATCACATTTCCTGTTTTACCACATGATA AATGCCCTTTCCTGTGGTTGTAAAGTAGCCCCGTTAGTCCTCACTGAATGTCCTTACTCTGGATCATATTCTCACCTTGC ATTAGCATGTCATCTACTAAGACGAGAGGAACTAATGGTGCTTTGGTGGAAGTCACCAGATTTTGAATTTTTGTTTGAAG GCTTTCTGTCACAAAAGACTCCAAACAGGCAGGATCTTGACTCATTGATACCAACTGTTTGGTGGCCTGGTTCCTGTGAA GATGCATCTTATGAAGGTAACATGATGTTGACAACCACAGCTTTGTCTGAATCAATCAGTAAGATTGAGGAGAAGCATAG GGACCTTTGTCGCTTAGTTATACAATTTATACCGCCTACAACACCTCCCCAATTACCTGGAGCCGTTTTCAGGACATTCT TACAAAGCCTTCTGCTGAAGAACAGAGGAGCAGAACGAAATGTCCCGCCACCTGGAGTTTCTAGTAACTCGGTTCTTGTT TCAATTTATACAGTTTTGCTCCATTTTCTATCTGAAGGATTTGCGTTGGGTGAAGTCTGTGGCTGGTTAAAGAGCTGCAA ATCAGATGTTGGTTTCCTTCACAGAGGTGGTCAACGAAGTTTCCCCACACGCTTGTTTCTGAAAAATGATCCCCATAGAA TTAATATTTCCCGGCTTGGGGGATCCTACACCCATTTATCAAAGATACACCCTATAGTTGAGCATGAAATGGAAGTGGTT GAATGGGATGAAGGTTGCATGGATAATGAAGAAACCAGAGTAACGCATTCGACCAGGCAGAAGCCGTGCTGTTGTTCTAG TTACGATTCTGATTTTACAAGAAACTTGAAGGTTCCAGCTAAATACCTGGCCAAAGGTTCTCGGGGCCATTGTAGCTCCA TTCCAGAAAGACCTGCTCATGTTGCTGCCGAATGCAGTGATGAGGGTTTGAACGATGAAATAACAGATAAGCCTAGCTCC AGTGATCAATCTGAACCTGAGTACGGTTACCGCCAAGTGTACCATATGAAATCTGTATCAAGGGATACTAATATGTCTAC AGCTACCCTTCAAGAAGAAGAGCTACTTGATGCTTTGTTGTGGTTGTATCATGTTGGTCTTGCTCCAAATTTTAAGCAGG CGTCATACTACATGACTCATCAGGCACAATCAATCTCCCTTTTAGAGGAAACAGATAAACAAATACGAGAACGATCTTGT GGCGAGAAATTGAAGCGTTTGAAAGAAGCTCGCAATGAATATAGAGAAGAGGTTATTGATTGTGTTAGGCATTGTTCTTG GTATCGCATCTCTCTATTATCTCGATGCAAACAGCGAGGAATGTATGCAATGTGCATGTGGGTTGCCCAGTTGTTACTGG TTCTGAGCAATATGGATTCAGTGTTCATCTACATCCCTGAATATTATCTGGAAGCATTGGTTGATTGCTTTCATGTGTTG CGGAAAAGTGATCCTCCATTTGTTCCTTCCACAATTTTGATCAAGCAAGGACTCACTTCATTTGTCACTTTTGTAGTTAC TCATTTCAACGATCCAAGGATATCAAGTGCAGATCTTAGGGATCTTCTTCTCCAGTCGATATCCGTCCTGGTGCAGTACA GAGAGTATTTGGCTGCTTTTGAGAGCAATGAAGCAGCCACCCAAAGGATGCCCAAAGCTTTATTATCAGCATTTGATAAT AGATCTTGGATCCCAGTGATGAACATTCTCCTGCGATTATGCAAGGGTAGTGGTTTTAGTTTTTCAAAGACTGGAGAGTC ATCTTCATCATCAGTTCTATTCCAAAGGTTGCTAAGAGAAGCTTGCATTAACGATGAAGGATTATTTTCATCTTTTCTAA ACCGTCTATTTAATACACTTAGCTGGACCATGACTGAGTTCTCCGTTTCTGTTCGAGAAATGCAAGAAAAGTACCAGGTA ATAGAGTTTCAGCAAAGGAAATGTTGTGTCATATTTGATCTTTCATGTAATCTTACAAGGATTCTGGAGTTCTACACTCG TGAGATTCCTCAAGCATTCTTGTCTGGTCCAGAAACAAACCTACGGAGGTTAACTGAATTGGTTGTATTTATCTTGAATC ATATTACTTCTGCGGCTGATGCTGAGTTCTTTGACTTATCATTTAAACGGCATAACCAATCTTCGGAGAAAGTAAATCGA GGCATGATTTTGGCACCTCTTGTTGGGATCATGTTAAATTTATTGGATGCTACAAATTTGGCAGAAGATCCCGAGAACAA TGATCTTTTGGATGTTTTTGCAAGCATGGAGTGTCCAGATACTGTTCATTATGGTTTTCAGTATCTTCTGGATTATAACT GGGATGGGTCTTGTCGCCGGGAAGCTTTTCTGGCAAAATACGAGCAGCTAGAGAATTTTCTCAGCCTCCTTACTTGCCGC ATTGTGTCACGGCATGATAAAGTGGAAAGTGTAGGAGATACAGACCTAGAGGATAGCTTATGCTGCATATGTTATGCATG TGAAGCAGATGCCCAGATTGAACCATGTTCACATAGGTCTTGCTATGGCTGTATAACCAGACATCTTTTGAACTGCCAGA GATGTTTCTTTTGCAATGCTACAGTGACAGATGTGAGCAGAATATGTGAGAAGACAGGCTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0311400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGEDNRRVGGFSAGLALILNGEDSKKCSSKNRLLSCCDDLGQQSVERTLEYVFGLPNRSLNSLAGPVDRDFIRSVIRKDF SRCNAESGDSSTEREGIFIGNKNGNGPDVVDLEESSICGDLKIIKSPFLIESLAMFSSARANTCVWKGKWMYEVMLETSG IQQIGWATLSCPFTDHKGVGDADDSYAYDGRRVSKWNKDAETYGQSWVVGDVIGCCIDLDRDEILFFRNGNPLGVAFRGI RKMGPAFGYYPAISLSQGERCELNFGARPFKYPVEGYLPLQAPPSKSYFLTRLLQCWSRLLDMHSVERADHSLAQKLRRV KKFVSLEEIFHPASDAICEELFSIIEADAGNTEYMVWGPLLSFMFEVLGFHPPHDYSSLDKVVETLLQFQGSHFLFYHMI NALSCGCKVAPLVLTECPYSGSYSHLALACHLLRREELMVLWWKSPDFEFLFEGFLSQKTPNRQDLDSLIPTVWWPGSCE DASYEGNMMLTTTALSESISKIEEKHRDLCRLVIQFIPPTTPPQLPGAVFRTFLQSLLLKNRGAERNVPPPGVSSNSVLV SIYTVLLHFLSEGFALGEVCGWLKSCKSDVGFLHRGGQRSFPTRLFLKNDPHRINISRLGGSYTHLSKIHPIVEHEMEVV EWDEGCMDNEETRVTHSTRQKPCCCSSYDSDFTRNLKVPAKYLAKGSRGHCSSIPERPAHVAAECSDEGLNDEITDKPSS SDQSEPEYGYRQVYHMKSVSRDTNMSTATLQEEELLDALLWLYHVGLAPNFKQASYYMTHQAQSISLLEETDKQIRERSC GEKLKRLKEARNEYREEVIDCVRHCSWYRISLLSRCKQRGMYAMCMWVAQLLLVLSNMDSVFIYIPEYYLEALVDCFHVL RKSDPPFVPSTILIKQGLTSFVTFVVTHFNDPRISSADLRDLLLQSISVLVQYREYLAAFESNEAATQRMPKALLSAFDN RSWIPVMNILLRLCKGSGFSFSKTGESSSSSVLFQRLLREACINDEGLFSSFLNRLFNTLSWTMTEFSVSVREMQEKYQV IEFQQRKCCVIFDLSCNLTRILEFYTREIPQAFLSGPETNLRRLTELVVFILNHITSAADAEFFDLSFKRHNQSSEKVNR GMILAPLVGIMLNLLDATNLAEDPENNDLLDVFASMECPDTVHYGFQYLLDYNWDGSCRREAFLAKYEQLENFLSLLTCR IVSRHDKVESVGDTDLEDSLCCICYACEADAQIEPCSHRSCYGCITRHLLNCQRCFFCNATVTDVSRICEKTG

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
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	7	7	-	–
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	24	24	-	–
PANTHER	PTHR13363 View details on PTHR13363 Search for proteins/transripts with this domain View external data on PTHR13363	6	1269	1264	5.4E-219	–
PANTHER	PTHR13363:SF5 View details on PTHR13363:SF5 Search for proteins/transripts with this domain View external data on PTHR13363:SF5	6	1269	1264	5.4E-219	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	8	19	12	-	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	20	24	5	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	25	1273	1249	-	–
ProSiteProfiles	PS50188 View details on PS50188 Search for proteins/transripts with this domain View external data on PS50188	76	270	195	17.809	IPR001870 Show description in modal box View details on IPR001870 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.120.920 View details on G3DSA:2.60.120.920 Search for proteins/transripts with this domain View external data on G3DSA:2.60.120.920	119	292	174	8.7E-45	IPR043136 Show description in modal box View details on IPR043136 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49899 View details on SSF49899 Search for proteins/transripts with this domain View external data on SSF49899	132	273	142	4.75E-33	IPR013320 Show description in modal box View details on IPR013320 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd12882 View details on cd12882 Search for proteins/transripts with this domain View external data on cd12882	138	266	129	3.74643E-78	IPR035773 Show description in modal box View details on IPR035773 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00449 View details on SM00449 Search for proteins/transripts with this domain View external data on SM00449	147	269	123	1.8E-34	IPR003877 Show description in modal box View details on IPR003877 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00622 View details on PF00622 Search for proteins/transripts with this domain View external data on PF00622	149	267	119	1.3E-25	IPR003877 Show description in modal box View details on IPR003877 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF10408 View details on PF10408 Search for proteins/transripts with this domain View external data on PF10408	740	1075	336	8.6E-6	IPR019474 Show description in modal box View details on IPR019474 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	797	817	21	-	–
Gene3D	G3DSA:3.30.40.10 View details on G3DSA:3.30.40.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.40.10	1215	1269	55	5.6E-7	IPR013083 Show description in modal box View details on IPR013083 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd16541 View details on cd16541 Search for proteins/transripts with this domain View external data on cd16541	1219	1259	41	1.58977E-18	–

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:0000151 View details of GO:0000151 AmiGO InterPro QuickGO	Cellular component	Ubiquitin ligase complex	A protein complex that includes a ubiquitin-protein ligase and enables ubiquitin protein ligase activity. The complex also contains other proteins that may confer substrate specificity on the complex.	Subterm of View details of GO:0044424 View details of GO:1990234
GO:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0006511 View details of GO:0006511 AmiGO InterPro QuickGO	Biological process	Ubiquitin-dependent protein catabolic process	The chemical reactions and pathways resulting in the breakdown of a protein or peptide by hydrolysis of its peptide bonds, initiated by the covalent attachment of a ubiquitin group, or multiple ubiquitin groups, to the protein.	Subterm of View details of GO:0019941
GO:0016567 View details of GO:0016567 AmiGO InterPro QuickGO	Biological process	Protein ubiquitination	The process in which one or more ubiquitin groups are added to a protein.	Subterm of View details of GO:0032446
GO:0034450 View details of GO:0034450 AmiGO InterPro QuickGO	Molecular function	Ubiquitin-ubiquitin ligase activity	Isoenergetic transfer of ubiquitin from one protein to an existing ubiquitin chain via the reaction X-ubiquitin + Y-ubiquitin -> Y-ubiquitin-ubiquitin + X, where both the X-ubiquitin and Y-ubiquitin-ubiquitin linkages are thioester bonds between the C-terminal glycine of ubiquitin and a sulfhydryl side group of a cysteine residue.	Subterm of View details of GO:0061630

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0311400.2, 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…

LotjaGi1g1v0311400.2