Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0541900
Transcript ID	LotjaGi1g1v0541900.2
Related isoforms 3	LotjaGi1g1v0541900.1 LotjaGi1g1v0541900.3 LotjaGi1g1v0541900.4
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT5G41550.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp\|Q9C7X0\|ADR2_ARATH Disease resistance protein ADR2; TrEMBL-Plants: tr\|I3S288\|I3S288_LOTJA Uncharacterized protein; Found in the gene: LotjaGi1g1v0541900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:107057632..107075459) extracted from Lotus japonicus Gifu genome v1.2.

AGCCTGTAAATAGCACACTCAGAAAAACACGTTAGAGTACCACAATTGCTCATATCAAAAGGTTAACTTGTAATCATCAA AACATAGAGTTGTACTACTAGATCAAAACTTGATCTTACACTCTTGTCAGGAATCTTAAGAATGGTAAGTGTCCATGCTT TTGCACATAATTCCCACAGAATGAGCAGAATTTTAGTTACTGATTCAACATACAAATTTCAAAATGGCATGTTAAAATGC ATGTTTCTGTATTGAAATCTAAACAAATTGTGAGTAATATACCTGGACCTCCATCATTGTCTTCAAGATCTCCAAGAAGA AATGAATCCAAGTCTTGGTCAGAGGATGAATTGGAAGATTTACTCTTCAAATTATTCCCTGTTGCTTCAACTTCTCCAGT TCCTCCAGTAGCAGCGGTTTGCTCTACCTCAGTATCCACATTCTGCTTTGCTGCTTCTATGAGTTGAACCTCCTTTCTCA TACCTGATTGTAACATCATTGATCGTTATTAGACAAAAAATATTAAATTAAAAAATATTCTAACTTTTGCTGGAAAAAAA AAACAAAAAATAGGGTTTTCAGAACCCATATAAATATCAAACATACACCTGCATATCAATAATGAGCCAGTGTTTCCAGA AACAGCAAAATAAGTGATTTTGATAAAAAATACGCAGAGGAAAACAAAAGAAAACGAAATTTGAGAAGAAGGAAGATGTG TACATTGAACATTAGCAGTATTTATAGAACTATGAGAGGAAAATTGAACACTTGCAAAGTCCTACTAACCTGATGTGATA CAACGATGACAAAATAGTGCATCATCTTCTCTGTTGCTACTGATCCTCATCTGACAACAGCCCTTCTTTCCCTCTTCTTC ACTCTTCCTTCCAAAATCGGGATGATCTATCATGTCATCTGAGTTGCCTCACCTAACCATTCACACCATCTTCTCTTCTC CCTCTGAATCTGATTCTGAAATTTTCGTACTTTCCATCATCATCTCTTGTCCTTCTCCTTGCTTTCTCCTTCCTCCATTG TCTAATCTACAAAAGAAGTTGATAATTTCATCAACAACTCTTCTGCTCCTTCTTCCTCATGTGCTGTGCAGACGTCGGCT GAAAGGGAGAAGAGACGACGTGTGATAGGCTACAGAGAGATGACGATTACCCACGAAATCAAACCATGGACACACTCCTC TCCTTCATCGCATACTCCATCAACGCGTTCTATGATGTCAGCAAAATACAGGAGCTCGAGTAGAATAGAGGGGAAAAAGT CTCATAGATGAAGGGCCATGATTAAAGAGTGAAAATGGAGAGAGTCAAATCAATGGCCCAGATTGAAAGTTCTCTTATGA ATAGTGATTTTATGTCTCTCTTTTAAGATGTAGTAGATGTCAACAAAGAGAGAAAAAATGAAATAAAATATGGTAGGACA ACAAGACAACAACAATCCTGCCAATGTAAACAACGGAAAAAAAAAATGCAAAAAACGCAAATCCCCCCTATCAACACGAC ATCCATTAATTGCCATAGTCTCAAGCGCCACAGCAAAGACATCATAGTCAACTCTTGCAGCATCAATAACCACCTTAACC ATTGGGGGATCACGCGCATGCTCTCATTCAGCCGGACGAGCATACCAAACAACAAAATGAGTTATATGCTTAATAAATGG CTAGATTTTGCTGTTGAGAAAATAACTTTGTAAGTGATATATGCATGGTCTTGAGGCACACTCTGACCTGTGTGAGCCTG GTGATGTCCATAACCTATTCAAACTTTTAATTTCTTCAGAACCTTATGTTAGAAGTTGGTTCTAAATTCTCCCATTTTCT ATGCGTGTTGCACCTCATGCTTCTTGATCCACCTCCAGCTTGTGATACATCAGCAATTTAGGTGACTAAGCAATATCAAG ATTGCTTCACAACATTACACCTTGCTGGTTGCTTCTTCCACCACCAGCTTAGTAACCATGACAAAGCAAGCCTATTTTTC CTAGCTTTCAACCTCCTACTTGCAGCATGGTGAACGTGTCACTTACTGGTTCCTTTGCTTCACTCCTAAGCATTGGTTGT GTGCCTATATATATTGCAACAAAGACAAGACTTCAAGAGCATCACACAAAGAGTGCATATACACGAGAGAGGATTCAAAG AAACATTGGCACACTTGTTTTGTGTCATTTGGTTTTTGGTGAGAATTCTAGTTTCATTTGAGAGAGTTATTTTGTGAGAA AAATATTTCTCTTTGTCCTCATTTCTATAAGAGGATTTGTTGTACTCTCCCTTTTACATAGTGGAACTTTGCTTGTGATC GCCCGTGGTTTTTTACCTCTCACATTAGAAGGGTTTTTCCACGTAAATCTTGTGTGTTCTTTTTCTTGTCACTTTACTTT TACTTCTCTTTAGTTCTCAATTATCTCGATCATGTGCTTCCGCATTGCCCTGATACCCTAACACCTTAGATAATTCATCA TCAAAATTTACCCTTAGTGTTTTATTTTTGCATTTTAAAGACTTCTTTGAGTTCACGTCAATCTCTTCGGCCCTTTAGAT TAAGAAAGGTATTGGGTTGTGGGAGTCTATGATGATATCCTATATAAAAATGCAGAGCACGTTATCAAACAACTTGGAAG GCTGTTAATGGTATTTGTGGTGTCTAACAAAGGTACGTATACCTCAATTTTTCATTTAATTTTGGTGAGTTGGAGTTTCA CTTGTTTACGAAGGAATTCATTTTTTTAAACGATGCTGTTTACCAAGGATGCTTCCTCCCAATAATTGAAGGAAGATGAT GCTTTAAATGAAATAATTAATTAACTAATCATATACTTTTTTAAAATACAATATTCACTCCTCTAAACTCTTACATTTTT TTAAATAGACACCATCAACTTTCTTTTGGTCTCAATTAATCCTTAAACTATACATTCATTATTATAACATATTCCTCTTT CCCCCCTAAAAATCATAGGTATTATTTGATGAGATGAAAACTGCTCAATACTCGTTTTAACACTATTTTATTAATTGATT GAAATTCATGCCGAGTCAGCTACAAATTGGTCACACTTTCAAGGTGTGACTCACAAATTCAACTAGTTAATGAGAGTGTT TTAAAAACAGAGTGTTACTGTGGGTGTTGCTAACAGTCCTCCTAATGAGACAATGTTGGAACGAGGTAAAAACAAGCAGA CAATGATGTCGAAAAGGATTTATGTACATACAACTGCCAGCGACCAACAACTGACACATGCGAATTGTGGGGGGTTTTCG GCCGCCCCAATATGAAAAATATCTAAAAAGAAAACATTTTCTGGCAGCTCCCGGAGGTAGCTAGCAAAAAGCCGCCACAA AATTGCGTGTATTAAAACCTCCGCAAAATGCTGTTTTTCTCTTAGCATTTTTCAGGCGGTTTGTTAATAAAAGAAGGGTT TGAATTCTATCCTACATTGCAACCTCAAGAGATGACACTTAGCTACTCATATTATAATTAAATTGAAAACATGATAACCC TAGTAGATGATACCATACAGAAACTTAGAATGATCTTCTGAGTTTTTGCTCCCTCCTTCTCCTCCTTTAGAGTGGATCAC GTTTTCTGTGTTTCTCTCTCTCTCTCTAAGATATATCATTATAACACTAAGTACCATTCTATAATTCAAAATGATATATG GAGGAGGGGAGGTAAATGTGTATTTTGTAAACTAGAAGAGAGGTCGAGAGGTCAGTGCAATAATATTAAGCTTCAGGGGA GGTGGGTTTAATTTTCCCTAAATAATTAAGTCCTCATGCTGGTTGCACAAGGTGGCATAACCGTAGCTTGGGAAGCACAG TCGTGTTGGCTTTGATACACATCAGCACGGGCAAGGTAGGGGCATCATGGCTGTGGAGCTTTATCAACAATCATATCAGA ATCAGACTTTTCTCCCTGTGCCAATCGAGCTTCATCTTTTTCCATTTGTTGTTGTTGCACTAAGCTGCAAGACCCCACTT TTGACAACCATAACACGGTATAAGTTCCTTTTACCAAAATCTTTTTGGCCTTCTTAAGCTGCATGTGGGTAACCACCGTA GTTACTACCTCCATTTCAAAAACCACCATGCTGGAATATATTCATGTGCCTTTTCTTGCATAATTCCTTCCTTGCCTAAA ATCTTGTCTCTCATTACGAATACCATCTTCTTGGGACGATGATGAATTTGTTGAATTCTTCTCTGTTTTGCCACTTTGAG TGTGTTATGATCCAGACTATGTATTTCTCTTATTGAACCTTTATTCACGGGTCTCAAGAGATCCTTGCTGATCCTCTATC TTCAAAGCTTCAGGTTCTTTGACTTTTAATTATTTGCAACAACAATATAGTTGAATCTTGGACTCAATATTGTCCTAGAG ATTTTCTTCACTACTATTTGATTAGTGAGAATCTCACCACACACCTTCCTCTGGTTGAAGAGAGATCGCACTTTGGTGAA GTAATCAGCCACCGTTTCTTGTGCCTCCATTTAGAACATATTGCCTCCTTAATGTTTCCGACAACACCATCGGTTAGAAG TCTCACATTGGCTAGAGATAGAGCATAGATAGTCTTTATAATGGTAGTGTTGGAATCAAGTGTTGGAGTCAAGTCCCACA TCGGAGAAGTCAAGGTGAGAGGGAGAGTTTATCAGAGATGTGGCCCATAAAACTAATGCCTTAAGGTTTTGGGTTAAGAT GTGGTGTCCAGATCTCCTTGGTTTCTCCTCTCGGCCTTGGCCCATGGGTCCTCGCCGTGACTCTCCCAACAAGTGGTATC AGAGTCGATGGTTTGTGGGACCATAACGACTCCTTGTGTCGAAAGTGTTCCTAGCAGTGTGGCTAGGCGGCGGGTTCCGT TGGCAGCGAACGACGGTGCAAGGTGGATAGCTTCCGCAGACGGGAGGACCATGGGTGATGTGGTTGAGGGACTCACACTT GAGGGGGAGATTGTTGGAATCAAGTGTTGGAGTCAAGTCCCACATTGAAGAAGTTAAGGTGAGAGGGAGAGTTTATAAGA GATGTGACCCATAAACCTTATGCCTTAAGATTTTGGGTTAAGATGTGGTGTCCAAGATCTCCTTGGTGTCTCCTCTCGGC CTTAGCTCAACTCTTGATGAGCTAGCTTTTGTGGTTGAGTATAGGCCTCCCAATTTCTAATATGGTATCAGAGCCAATCC TAGATCCATTTGTTGTTTGTTGTGGAGAGTGGAGACCTCCCATAATTGGGTCACCCGTTGTTGTTGATCCCACGTTCCAG GTTGTTCTGTCCTGGGCGTGAGGGGGTGTGTTAGAAGTCTCACATTGCCTAGAGATAGAGCATAGATAGCCTTTATAAGG GTAGTGCAAACCTCAACTCTTGAGCTAGCTCTTGTGGTTGAGTATAGGCATCCTAATTTCTAATATAGTATCAGAGCCTA TCCAAAATCTGTTTGTTGTTTGTTGTGGAGACCTCCCATATTTGGGGCATCCGTTGTTGTTGATCCCACGTTCCAGTTGT TCAATCCTGGACGTGAGGGGGTGTGTTAGAAGTCCCACATTGGCTAGAGATAGAGCATAGATAACCTTTATAAGGGTAGT GCAAACCTCAACTCTTGAGCTAGCTTTTGTGGTGAATCAGGAACAGAGCTTTGGAATATTTCTTCTTCGACTCTGGTGAA CATTTCTCTATGTTTTGTTGGGTTCTCTCCCAATTCTTGATCACCATTCTTCACTATCTCCATCACTTCTTAACAGTCAA AGATGACTTTTATCTATATGCACCACTTCTCATAATTCTTATCATCAAGAACAATAAGAGAAATTTTGAAAGTAATGATC ACCAGGATGAGTCAAGCTCTCAATACCACTTGTTAGAACACCTCATTTTGGTGTTTGTGAATCACACATTCACTCGAATA ATAAGATGACAATTATTGGTAGTATAATATCAATAAAGTAGCCTTATTTAGTTTTATTAGTACCATGTGCAAATATTAAA TTCTACTTTGATAGATAATATTGTAATTAATAGAGAAGAATTCTAGTTAATTAATATAAAAGTGATAAGTAGGAGAAATT TTATTAAATGAGAGTATAGTTGGAAAAGCAAGAAAAGTTCACGTGACTCTCTCTTGGTTTTTTTAAACTAAATTTAATAA TTTAAAAGTAAAACAACATTAAAGATATATAGTGTATTTGTTTCACTCAATGCTGACGACAACTCTATTGGGAACCGGGT CTGGTTCTTTTTATTTCAGGGGTGTTGTGTGCTTTGCGGAGGATAGTTGGATTTTTGGGTTTGCTGGTTACGCGAATGTT TGTGACAGTCTTCGTGCAGAGCTTTTGGAAATTCTCAGGGGCTTGACTTTGTGTTGGGAGCATGGTTATAGGAGAGTTGA GTTATTCACAGACTCCATGCTTGCGATCTGGAGCTTCTTCTTTCAGATCACCCTGTGTTCATCAGTATGCTTGTATTATT AGTAACATTAAGCGTCTTCTTTGCCAGAATTGGTTATCTACTGTCATCACTTACTTCGCGAAGGATTTTTTGTTGCTAAT TATTTGGCCAAGCTTGGAACCTATAGTAGGAGCACTTTCTTATTTTAGAGTGTACCTTTGGCTGGTGTTTTTCCTTTGTT GCGAGCTTATGCTCTTTGTGTGACCTTCTTAAAGCGTTAGTTTCTTTTTATGTTTTGCCTTTCTTTGCTTTTTGTATCAA AAAAAGTGTATTCTTGCATTTCGTTGGTTGTGGCTTCCTAACCACCGGTGATTCGTGGACCACCAAAAAGTGCCCCGACA TCAATTTTGTGGCGGTTTAAGATTGCCACAAAGTTGTAACCTTGAAAAAAATGCATTTGTTGGCAGTTTCGTGCATTTTG TGGCGGTTTCGAACCCCCACAAATATCGGTGTCTAGGGGTGTTTTTACTGGAGTGTGGTTGACCAACCTTTTTTGCTTCC TAACAATGACCATTATTGTACTTTTAACCAGAAAAGAAAAGGTTGAGAGTGAATTTAACTCAAAGGTCTAGATTTGCTTA CACTGACCTCAACCCCACGTTCTTTGAATGAATTATTCTGATAATTAATGTAAGATTGTAAGATCATTTAGGTAGAAAAT AGTTTGAAGGTAAAAATCCTTAAAAATTGATGAGGCTGCTCTTCATTATTTTTTATACAAAAGCACATGTTATTACAATC CTTAAAAATTGAAGAGGCTGCTCTTCATTATTTTTTATACAAAAGCACATGTTATTACATTACCAACGAGTACGTTGACC AAAGAGATAACGAAAAAAAATGACAAGTAGATACCAATTAGGACACCCACCCAGTTCCATTATTTGTGTTTCCATGAGAA GCTTTGGTTAAGGCACAAAACCAAATCACTCTGATCTGATCTGATCTGATCTTTAACTTTCTGGTTGCTTCCTTGTCCAT TGATCATTTCCAAAAAGGGTTTTAGCGAGATCGATCTCCATATTAGGTGCTAGCTTCATTTAGTTTTGAGGTAAGTTAAA ATTCCATTCACTTCTCTTCTTTAATTCTATATATCTTTCATTTTTCCTTTCCTTGACAATTAATATTCCTGGTTCTGTCA AATTTTGAAGTTTTATGTATTTTCTCAAATCTGTTCTGTTCTGGTTAAGATATAGTCATATAGATTAAACATGGTAATTA CAGAAGGCATGCTTGGATTGGTTTTTACACTTCCACATATGAAAATTCTGACAGTATATCCTAACATAAAACAACCCCTA ATAGCTTTCAGTCGTTGAAACCAATTCAATTTGATTTGTTGTATGAAAATTATGTCATGAATATAAAATTGATTATTTCC TGATCTTTAAATGGGTATAGCAGCTAGTTAACTAATTAGAAAGAGAAACACTAGATGTGTCGACTAGCAGTTATTTCATT ATTTGAAAAGTGATGTTTCAATTGTTTTCTGAATGATTTTCATTAATTGTACAACTGTGCAACTGCACAACTCTACGAAT CTTAGTGTTTTTGTAAGTTTAGAAGAATATGGAAATAATTTTGGTGCCTTTCATTGATCAATGGCAAGAGTATATATACA GGTAAAGTCAACCTAGGAATAAATATAATTACAAGAAATTAGACATAATTACAGGAAGAATATTTCCTATTCTATTACAC CCCCGCAGTCGAAGCGGGAGGTTCACTCACGCTGAGACTGGACCGAAAATCATCAAAGAGAACTCGAGGGAGGCCTTTAG TGAAGATGTCTGCAATCTGGTGACGAGAAGGAACATGAATGATGCGTGCCTGACCACGGGCGACCTTCTCTCGAACAAAG TGAATGTCCATCTCAATGTGTTTAGTGCGCTGATGCTGGACAGGATTGCCGGATAAGTAGATGGCACTAACATTATCACA GTAGACTAAGGTAGCCTGAGAAAGAGGAAAGTGAAGCTCTAAAAGCAGGTTGCGTAGCCAACATGATTCGGAAACCACAT TAGCCACGCCGCGATACTCAGCTTCAGCACTGGACCGGGAAAGCGTAGGTTGTCTCTTGGACGATCAGGAAATGAGATTG TCGCCGAGAAATACACAGTAACCAGAAGTAGACCGACGGGTGTCGGGACAACCACCCCAATCTGCATCAGTGTAGGAAAT AAGCTTCTCGATAGGAGAAGGATAGAGATGCAAGCCAAACTGTAAGGTGCCCTGAACATAGCGTAAGATGCGCTTCAGGG CAAACAAATGCTCTGAGCGGGGGGCATGCATGTGAAGACACACCTGCTGAACGGCATAAGAGATGTCAGGACGGGTGAAT GTAAGATACTGCAAAGCTCCAGCAAGACTCCTATATAAAGTAGGATCATCACACAGAGTACCAGCAGAAGTACTGAGTTT CTGCTTGGTGTCAACTGGAGTGGCAGAAGGATTGCACGATGCCATACCGGCGCGAGCAATAATGTCACGTGCATATGTAC TCTGACTAAGAAAAAGTCCACCTGCATGTCTGGTGACGGCAATGCCCAGAAAATAGCTCAACGGTCCCAAATCCTTCATA GCAAATTCAGAGGCAAGAAGGGCCATGATAGATTTACGAAGGTCATGAGAGGAGCTGATGAGGATGATGTCATCAACATA AAGCAAGAGGTAAGCCATGTCAGAGCCTCGTCTGTAGATGAAAAGAGAGTGATCAGAGGTGCTATGCTGAAACCCAATGG TGGAGACATAGTCTGCAAAACGCTGGTACCAAGCACGAGGCGCTTGCTTCAAGCCATAAAGAGATTTCCGCAAGCGACAC ACATAATCAGGATGAGTACGGTCACGGAAACCCAGGGGCTGATGCATGTAGACAGTCTCATGCAGATCACCATGGAGGAA TGCATTCTGAACATCTAACTGGTGAATGGGCCAAGACCTGGAGAGGGCAATGGTGAGAACTGTGCGAATGGTCGCGGGTT TCACCACAGGACTAAAGGTCTCATCACAATCAACACCTGCAATCTGTGACCTGCCATCACCTACAAGACGAGCTTTATAA CGCTCAAAACAACCATCAGCTTTCGTCTTATGACGAAAAATCCACATGCAGCGAATGATATTAACATCACTAGGACGAGG AACCAAATCCCAAGTTTTATTTCTAATTAAAGCATCAAATTCAGACTGCATTGCGGATTTCCAATTTGGGTCTGAAAGAG CTAGCTGTGGGTTTTTGGGAAGAGGTGATATGGTGGGATCATCAATGGTTACAGAAAGGTTGAAGAGCTTTCTGGGTTTG TAGATACCACGCATGCTGCGAGTGGCCATGGTACGGATAGGAGGTACAAGCGGAGTGGGCGAAGGAGGGGAAGGGGAAGA TGGTAGAGAGTCAGAGGAGGAGGAAGAGGTCGTGGGGAGTGGTGGTATGGGCACAACAGGAGGCACTACAGGAGTAGGGG TAGGGTCAGGTACGGTGGATGGACTAGTCCACTGGTGAATGATAGAGGGATGTATAGGATCGGAGAAGCAGTCATATGTG GAGAGAGGAGGGGTAGTCATGGTGGCAAAGGGAAACTGAGTCTCATCAAAAATGACATGTCGGGAGATAATGATCTTTCT GTGCGACAAATCAAAACACTTATAACCTCGATGATGAAGTGGGTACCCTAGGAAGACACACGGGGAGGAGCGTGGTTATA ACTTGTTAATGGTAGTGGAGGGAACCAAAGGGTAACAAAGACAACCAAAGACGCGAAGATGTGTGTAAGACGGGTCACGA CGATATAGAAGTTGAGTGGGAGAGAGATTAGACAAAGTTTTCCGAGGAATGATATTAAGCAGATATGTAGCCATTTGAAG GGCATGATGCCAAAAGGACGGAGGAACAGACGCATGAGCGAGAAGAGTGCGAATCATGTTGTTAATGGTGCGTATTTTAC GCTCCGCCTTGCCATTTTGAGATGATGTATGTGGGCAGGAGAAGCGAAAAATAAGACCATTAGCAGCACAATAATCATGA AAATATTTATTGTCAAATTCTCGCCCATTATCACATTGAAGACATTTTACAGTTTGAGAAAAGTGCGTGCGGATTTGAGT TGAAAGAGAAGTGAACATTTCAAAAACTTGAGATTTATGACTTAAAGGAAATGTCCACAAGAAATCTGTAAAATCATCCA AGAATAAAACATAATATCGATGACCAGCGGAAGATAAAACAGGCGAAGTCCATAGATCACTGTGTAAAATGTCAAAAGGC ATCACAGTTACATTACTAGAAGAGACAAAGGGCAACCGAATATGTTTTCCCAACACACAAGACTCACAAACGGTGCTAGA ATTCAAATGCTCATAATTAATGAACTTATTACTACGAAGAGACTGCAAAGCAGAAGGATTGGGATGACCAAGGCGGCTGT GCCAGAGACTCTGAGCTAGACCAGCAAATGAAAAGGAGGGAGTGACTGGATACAGGTCGCCATTACTATTACATCTCATG AGTGGAATCACCGTCTGAAAATCATGAACCGAGAAGCCAAATGGGTCAAAACAAACAGAAACATTGTTATCGGTAGTGAG TTGTCGCACAGAAATCAAATTTTTAACAATTTGTGGTGTGTGCAAGACATGGGAAAGGGTCAAAGGCTTGTGTTGATGGG AGGTGGGGAGGGTGGTGTCTCCAGAACCCTGAATTGGAATGCCTTGTCCGCTACCAACATACAGTTTCTGATTAAGATGA CTTAAATTAGAATAAGACGTGAGATTACCTGGTGATGCGGCTACATGAGATGATGCTCCAGTGTCCATGTACCAGGTGCC ATCCGGGGGAGCAAGTGTCATGGTGTGCATGGCAGTGGCAATGTCAGTGGGCACATGTGATGCCGAAGCAGCATAAGCCT GAGGACGCGGACCCAAAATGCCGGGTTGCCGAGGTGGAGCAGACGGACGAGTCCACTGAGAGGTAGGATATGGGCACGGA GGCATGGCCCAAGGAGGCGGAGCCCATCCCCAATGCTGGTACGGGAAGTACTGCGAGTGAGGTGGCATCGGAGGAGAGGA GCCCTGAGAGGTGCCACTGCGGGATCCACCACCGTTGCCACGATTCCCACCACGACCTTTAGAGTTGTGGGATCGAGAAC GGTTGGAGGACCGACGATCAGAGCCCTGAGAAGAGACATCAGAAGGTCGCGGCTGAGTAGCAACATAGGCAGCAGGAGGC TCAACAGGTTTCATCTTAGCCATACCGGCTTCCTCCAAGGTGAGCATGGAGCGAGCCTGATGAAACGAGGGGAGCGGATT GCTCTGGCGAATCAAAGTGGCGACACCCTTGTAAGCATCAGTGAGGCCGGAGATGAGCTGCAATACCAGACGATGGTTGT TCACAGGAGCCCCGACATCACGGAGCTGATCAGAAAGCGTCTTCAGACGCTGACAGTAGGCGGCGACGGTCGGAAAAGCC TCCATGCGAACAGCAGAGAACTCCTGCTCTAGGGTAACTGCACGGGCGTTCTGATTATCATGAAATAGGTCCGCCAAACG CGTCCAAGCACTGAGAGCAGTGGAGTCAGGCTTCATGATGGTGGTCATCAGGTCAACAGAAATGGTGGAAAAAATCCACT GAAGGACCGTGGCATCCAAAGTGGCCCACTGCTCATAAGTAGGGTCAGTGACGAGCGGAGGAGGCTTGTCCGCAGCAGGG ACAATGTGATGCAGAACCCGATGGGAACGGGCATGAATGCGAAAAAGCTCCGCCCAAGTGCCATAGCGGTCAGTGTCCAT GTCAAGCATAATAGGAATGTTATTCCTAATGTTCGAAACAGCAAGCGCCGGGTGAAAATCAGACTTGACCGACGGTGTAA GAGGAGCCACTGGGGGGACCACCATAGGAGTGGTGACGGTCGCAGGGGTGCTGTCCGATGAGGCTTGAGAAGTCATTGTG AGGAGTTTGGCCAAAAGTGAAGGAAAAGGAGGGTTTTTTTTTTTTTTTTTTTTTTTGGAAAAGTCCGGTCTAGGAGAACC GGTTCGGTCTGGACGAACCGGTGCTGGCGGTTCGCGTGAACCAAGAAACAAACAGACACGGATGCAAGGAGACGGGTCGG GTCTCCTATATGGATGGCTGCTGGATCTCCACGCAAACACGGAGGGAAGGAGAGTTGGGCTGGCGGCGCGCGGAAGGGTG GCCGGAGTTGGGCGGCGCGCGAGTGGCAGCGGAGGTGCGCGGGACGGCGCGGGCAGAGAAGGCGTGCGTGCGCTGGGGGC AGAGGAAGAAGAAGCAGGCTGCTGGGTTGGAAGAAGAACAGCAGTGGTGGAGAGTAAAAGAAGAGGGAAGAGTTATGCGG AAGCAAGGGAGGAGGACAGGGGCGCGGCGGCGGCAGTGGGCGGCGGTGGCGCAAGGGCCTGTGTGCGGAGGCTGTGCAAA GATGGGAAGAGGGCACGACCGTCAACGCAGAAACAGAGGCTAGGGTTTGGATCAATTAAACAACTCGTGATACCATGTAA GTTTAGAAGAATATGGAAATAATTTTGGTGCCTTTCATTGATCAATGGCAAGAGTATATATACAGGTAAAGTCAACTTAG GAATAAATATAATTACAAGAAATTAGACATAATTACAGGAAGAATATTTCCTATTCTATCAGTTTTCTTATTAATTGTGT GAGTTTCTTGCATTTTTTAGTCTACCATATAGAACAACTCGATCAATTGGAATACGAACAACAATTTCAGATGTCTCTTT CGTTAGCTGAAGATTACCGGAAGCTGCTTCAAAAGCGAGATTCTGTCTTGAGTAGAGTTGAAAAAGCAAAGGAAAAAGAT GAAATAATCAATGATGCTGTTGGGAAGTGGTTACATGAAGTGGATGAACTAATAAAAGAGATGAGTAGTGGGAAAAAGAA AGGAGCTTATAATAACAATTTCAGCTCTATGAAAGATGCTTCAGAGAAACTCTTGAAGGCACTCCAAGATGATAGATACT CTAGAATAGAACTGTGTGGGAAGAGGGGTTCTGGTAAAACAACATTAGTGAAATCTGAGACAAAGAAGTATGAAAAGATA TTTTCTAGGGTTATATTTCTCAACATGTTCAAAAAAGATTTGAAGAGCATGAATGAGGAAATGGCTAACTTACAAAGAAG AGAGAAAACAAACTCGGAAACTACTCTCTTCATCTTGGATAACTTTCCCACACGGCATTCTTTGGACGACATAGGTCTTT CTCGGTCTACACTCGGTCCACAGCGCAAGGTCCTTTTGATCACGGACGATGAAGCGGACTGCACTAGGCATTACAAGTTC ATTTCGCAGCGAAAAAGGATTTGTGATAGTTCAATTTCTATGGAGCGCATATCGGATGACGAAGCTTGGGAGCTTCTGCA TAACCTTACTACAGGCATTGATTCCAGATTGGATCTATTAAATGTGGCACGGGAAGTTGCTTTACAATGCAAGGGCTTAC CCGGTTTAATCAACGACGTCGTGTCTTCCTTAGATAACAAGAACACTATGAAGTACTGGAAAGAATCATTAGACAATCTA CACCATTCAACAGCTTGCCACCATATTTATTTCAGCGCTAATATAGAATCTGCTTGCCTTGAATTTACAAAAAGTCTCCA TGGCGCTTTGGTCCAACAAGGTTTCAAGATCATCCCAAAGGCATCATTTCATTTATCCCGCAAAAATTTTAAAGGTCTTG AGGAAGAAATTGCGAAATCAAGGTGCTCAATCATCGTCATATCAAAAGAATATGCAAGAGATTTTAAGGGTCTTCAGGAA CTTGTTAAGATCCTTAAGTGTAAGGAAACTATTCAACAACTGATTCTTCCAATCTTCTATAACGTGGATCCCTCAGACGT AAGGGATGTGAAAAGAAGTTTTAAGGATGGACTTCAGCATGCTAAGGAGAATGCCATGGAAGAGATGAAACAACTATACA ATGAAGAGGCTATGCTGAAAGAATGGACTTCAGCTCTCTATGAACTTGGCAGATTGCCTGGAAAACAGTACATAAAAGGG TACGTCGCATACTTCCTTCATTTTTATTTAAATTTCATAATTAATGTATAGTCTACTACATGCTGTTAATTAATTATAAA TTATTTGTAATTGAAGGTCTTGAATAGTTAAATAGGTTAGTTAATATTCTAAATAGTAATTCATATTTAACTGTTCCAAG AAATAAGAAACACAAATGTTAAGAAATGCATTAATTTTATTAGTTATTATTAGTTTTCATATTTTAACCTTTAAAATTTC TCACAATGACATTACTTGAAAAAACATAATTTAATAATATTTTCTTGAAATGTTAAGTGGACAGTTAATAAGAAACGAAG ACAATAGTAATATTAATTTTAAATATGACTTAATTTGTAAAATTTCGTCACACACATACCATGTGCTTGTGTGCTATTTA ATTCAAGTTTAATTTATATATACTTTTTCAGGTCCCAAGATAATTTTATCCAAGAGATTATAGATCATGTCAAAAATAAT AAACATCGCTTGCATGTAAAGCATGTAAATGGACAAGAAGGAAGATTGTGCTCATACGACAAGGACTGCACAGGGGACTG ATCTTGAAGTGAAGACAGAAGTGATTGCAAGCGGTTTTTGGCTACCAAAGGATATATTGTTGTTGCAATATAATGCTCCT CTTCAATAGTAGCAAGTAGTTTTTGGACATTTCACTTCGGATAGTAATTTGTCATGGTGAATAATAAAATAGTTGGAGAA GATTCTTTTAAGGCAAACTTGTTTTTAAACTTTGCAATTAATAATGTACCTGCTCTTGGTTTAATCTCAATTGTATTTTT TACTCAATAAAAGTCTACAAGTTAAAAAAGTGCACCCTGTTCCTGTTCCAGGGGAGGAACTAATTAAATCAAGAAAGAAA TCATGTTGAGAAGAAACTTGAAAGCAAATTTCTGGAAAGTATCTTGAATGAATAATAGTCTTTATTGTATCAGAAAGAAA AGTACACATACTGGTCCAGTCTAAAAGTATCTTGAATGAATAGTCTTTATTGTATCAGAAAGACAAGTACACATACTGGT CCAGTCTAAAGAGGATTTCACTGTGGTTCGATCTCTATTCTGAGCACATCTAGTTTTTATCCCGCTGTTTAATCAAGTCT CTACTGTTGTGTTGATTGACAGCACGTACAAAACCAACAAGTATATGATACCCTCCGCAAAACTCACGTCTCCATAGCTT TTGTATACATGTGCAATGAGCGCAAACTAGAAGTGACTTGGACGCTTGAAAAACTGAGAGGGTTGAAACTTAGAGAGAAG GATATGCCAAAGGTCATTGTAACTGATAAGGATAATGTTTTGGTAAGCGCAGTTGCAACCACATTCCATATATCTACTCA TTTGCTATGCCAGTTTCATATTGCTAAGAATGTGAAGGTAAAGTGCAAGCTTACTATCAAACCCAAGGAGTTGTGGGGTG AAGTTGGGGACGCATGGAGTATTGACATGTATTCGGCATCCTCCGCTGAGTTTAGTGCTGATATGGACTTCTTGTGTTCA CTGTGTGGGGATGAATATGAGTTCATGTAGTACATCAACACTTCTTGGTTGCCGCATAAGAACAAGTTTGTGAAGTATGT CATTGACAACTATATCCATTGACAGGTGCTTTCTTATCCACTGATATTTGATTCAAACAATTATTTTTTTTTCCGTAATA GTATAGTTAGTCATTTGCACAGGGTTGAAGGAGCACACACAAAACTGAAAGCGTACATCAAAGATAGCAAAAGTGACTTG TGCGCCGCTTGGAGTGTTATACATCGATGCACACTCCTCCAACATACAAAGATTAATTCTTCTTTTGAGGCCAGTATATT CATCAGGGAGCATATATTTAAGGATAAGTTGTATGACAACTTGCGGGGTCTAGTCTCAAGGCACGCACTTCAGTTGATCA CAAAGGAGAAAGTGCGGGTTGGTAAATGCAACTGTACTATCAGGAAGACGCACAACCTCCCTTGTTCATGTGAGAATTTC GTACACTCTTCTATTCCATTGCTGGAAGTGGATCTACATTGGAGAGACTTACAGCAACAACTGCACCTGATGAATCTCAA CCTGTTTTGGAACTGAGTATTATGACAGAAATGGAGGTCATATCAGAGATGTTCAAAGACGGTACTTATCCAAAAAGGCA GGCTATTAAAGATAAACTTTGAGAGATTTCCTACCCATATCAAACTGAGGACAAAGGTCCGGGCCAAAGAAGTTAAGGGT TCAACCAGACGTAATCCTTCAGGTTGGAGCATGTTGATGCACTAGTACTTGAGTCACTACAAGATAGCAACTCAACCCTT CCACCTGAGACTAACCCCCAAACAATCGGCAGCCAAGAAGAAAGGCAAGATGGCGGCCACCGAGCCACCTCAGCTCTCCC AACTGTCCCAATGACCTAACGTTTACTCAGCCCTACATTCATGAAGTGTCCAAATTACTCCATGATTATGTACTGAACAT TGTGAATGTTGTTAATGATGAGAATTGTGGATATATGAGTGTTGCTTCCTTGTTGAGTATGGGAGGAAAAAAAGTGGTCA GACGCCCTAACGTATGGCAAGCCATGATAAATGAGCTTACATCATGTAATGCAACTTATCTTAAATTGTATGACATCAAC AAACTGTACCAACAGGTACTACAAGCCCTGCATCTTGCTTCAAAGGAGATTGCAACAGAGGAGAAGTGGTTAACCATTCC GAATATGGGCCACATTGTTGCTATAGTGTATCGGGTTGTGTTGGTGACATTATCAATTAAGGGGTGCTCTACCTTCTTGC CTCTTACCGGTCTAGTGCCACATCAGTCGGACCACAAATTTTTATGTATACTACACGTCAACAACAACCACTGGGTGCAG GTACTTAACTTTTACTCACATTACAAGCCTTTTTTTTTAAGATAAAGATTATATATTGATATCTACAAAAAAAACCCTAA GGACAACATCCTTAGGGAGCGAGGATAGCCCCAATAATAACGAGGCACCTCTACAAACAAAAGAAAGCCCCTCTAAGCCG AAATACAAATCATCATCATGTAGGTGCACATGTCAAGTGGATTTCCTATGCCAAATTCAAATCCGCAATGGCGTCATCAT TGTATTCATAACGCTCTTAGTTGGGAGCTACCATACTTGGACCGCATGTCTAGATTCCTGGAAATTCTTATGGAGCAAAA CACACCAAGGAGCGAGGAATTCTAGATCTTACGGATAACTAGCTTGTTGATTATGCTAATGTTGTAATAATGTAATTTAA CCTTGTAATACTATACTATTGTAATTATGTGATTGTGATTTTAAGCTATTTCTATCATATGTTGTATG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0541900.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGTAGTGGGAAAAAGAAAGGAGCTTATAATAACAATTTCAGCTCTATGAAAGATGCTTCAGAGAAACTCTTGAAGGC ACTCCAAGATGATAGATACTCTAGAATAGAACTGTGTGGGAAGAGGGGTTCTGGTAAAACAACATTAGTGAAATCTGAGA CAAAGAAGTATGAAAAGATATTTTCTAGGGTTATATTTCTCAACATGTTCAAAAAAGATTTGAAGAGCATGAATGAGGAA ATGGCTAACTTACAAAGAAGAGAGAAAACAAACTCGGAAACTACTCTCTTCATCTTGGATAACTTTCCCACACGGCATTC TTTGGACGACATAGGTCTTTCTCGGTCTACACTCGGTCCACAGCGCAAGGTCCTTTTGATCACGGACGATGAAGCGGACT GCACTAGGCATTACAAGTTCATTTCGCAGCGAAAAAGGATTTGTGATAGTTCAATTTCTATGGAGCGCATATCGGATGAC GAAGCTTGGGAGCTTCTGCATAACCTTACTACAGGCATTGATTCCAGATTGGATCTATTAAATGTGGCACGGGAAGTTGC TTTACAATGCAAGGGCTTACCCGGTTTAATCAACGACGTCGTGTCTTCCTTAGATAACAAGAACACTATGAAGTACTGGA AAGAATCATTAGACAATCTACACCATTCAACAGCTTGCCACCATATTTATTTCAGCGCTAATATAGAATCTGCTTGCCTT GAATTTACAAAAAGTCTCCATGGCGCTTTGGTCCAACAAGGTTTCAAGATCATCCCAAAGGCATCATTTCATTTATCCCG CAAAAATTTTAAAGGTCTTGAGGAAGAAATTGCGAAATCAAGGTGCTCAATCATCGTCATATCAAAAGAATATGCAAGAG ATTTTAAGGGTCTTCAGGAACTTGTTAAGATCCTTAAGTGTAAGGAAACTATTCAACAACTGATTCTTCCAATCTTCTAT AACGTGGATCCCTCAGACGTAAGGGATGTGAAAAGAAGTTTTAAGGATGGACTTCAGCATGCTAAGGAGAATGCCATGGA AGAGATGAAACAACTATACAATGAAGAGGCTATGCTGAAAGAATGGACTTCAGCTCTCTATGAACTTGGCAGATTGCCTG GAAAACAGTACATAAAAGGGTCCCAAGATAATTTTATCCAAGAGATTATAGATCATGTCAAAAATAATAAACATCGCTTG CATGTAAAGCATGTAAATGGACAAGAAGGAAGATTGTGCTCATACGACAAGGACTGCACAGGGGACTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0541900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSSGKKKGAYNNNFSSMKDASEKLLKALQDDRYSRIELCGKRGSGKTTLVKSETKKYEKIFSRVIFLNMFKKDLKSMNEE MANLQRREKTNSETTLFILDNFPTRHSLDDIGLSRSTLGPQRKVLLITDDEADCTRHYKFISQRKRICDSSISMERISDD EAWELLHNLTTGIDSRLDLLNVAREVALQCKGLPGLINDVVSSLDNKNTMKYWKESLDNLHHSTACHHIYFSANIESACL EFTKSLHGALVQQGFKIIPKASFHLSRKNFKGLEEEIAKSRCSIIVISKEYARDFKGLQELVKILKCKETIQQLILPIFY NVDPSDVRDVKRSFKDGLQHAKENAMEEMKQLYNEEAMLKEWTSALYELGRLPGKQYIKGSQDNFIQEIIDHVKNNKHRL HVKHVNGQEGRLCSYDKDCTGD

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:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	7	151	145	3.6E-7	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	12	223	212	7.11E-25	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00931 View details on PF00931 Search for proteins/transripts with this domain View external data on PF00931	21	226	206	1.1E-12	IPR002182 Show description in modal box View details on IPR002182 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	67	94	28	-	–
Gene3D	G3DSA:3.40.50.10140 View details on G3DSA:3.40.50.10140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10140	221	401	181	1.2E-30	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR32009 View details on PTHR32009 Search for proteins/transripts with this domain View external data on PTHR32009	222	397	176	1.3E-27	–
PANTHER	PTHR32009:SF61 View details on PTHR32009:SF61 Search for proteins/transripts with this domain View external data on PTHR32009:SF61	222	397	176	1.3E-27	–
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	226	372	147	1.9E-9	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01582 View details on PF01582 Search for proteins/transripts with this domain View external data on PF01582	227	398	172	3.7E-19	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	240	371	132	3.92E-16	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	273	372	100	11.449	IPR000157 Show description in modal box View details on IPR000157 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	335	355	21	-	–

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: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:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0043531 View details of GO:0043531 AmiGO InterPro QuickGO	Molecular function	ADP binding	Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate.	Subterm of View details of GO:0032559 View details of GO:0043168

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0541900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0541900.2