Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0018400
Transcript ID	LotjaGi5g1v0018400.1
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT5G17680.1 disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|A0A072UMY5\|A0A072UMY5_MEDTR Disease resistance protein (TIR-NBS-LRR class), putative; Found in the gene: LotjaGi5g1v0018400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:3554554..3567720) extracted from Lotus japonicus Gifu genome v1.2.

CGCGTGCTTCCACAAGTCTAAAGCTATCAATAATTCAAAAGTCTAAGTCTTGCTTTTTCCAACTTTCACTTTACTTACCT GATACCCTATTCTATGCATTGAAGAGATATCATCAAATCATTCCCAAATCCCAGAAGCCAATTGAACTTCTTACCACATA AACTTTCATCATTTCCACTGGATTGTTAAGAGTTCTGGCGAAGAAGATCAAAGATTGAGGAACGCAAATAGAGAAAAAGA CATAAATGTAAGTTCCTTTCTTATAACCTGCAACTTGTATTCTGCTTTATGTAGAATTTACACATGATTTTTAGAAGATG TGATATAGTCATACAGATATAATTGAAAATCAAGAGAAAGCATGGAAAACTTTTCCTGTATTATGAAATCTGAAAACTTA AACTGGACTGCTTGATCTAAGAGCTAAACCTTTAGTTAGAAGTTTAGACAAAACTAACTACTCCTCTCAATATAACGGTT ACAACCAACTGTATTTAACAGCATATAACAAACTTAGCAACTAACTGTTAAACTACAGCTTGTTAATGGGGCGGATCCAC TCATAGGCAAGGTGTGGCTTTAGCCACACCAGTTTTTTCTTTTTTTTTTTCGTAAAAAAATTTATATGCTTGCCAAAAGA AAAATCCTCAATAGTTTAACCAAGCTCTCTCTCTCTCTGTTCATGCCTCTCTCACGCAAGGTCTTTCTGTTTTCTCTGCC ATATGAACTGGTTAGCTAAAAAAAACATGAAGAGTAGCTATTATGTTCAATGTCACCAACAAGTTGATTTTACGCTTTCT CAGTTTTCAGTGTTTCGCTGGCGCATTTGTGTGGGTTGAATATCCAAAAAAATCTAGTTCACGTTTAAATCTAATATCCA GCCTACAATTCTCAACAATTTTCATCTTCATTATTGTTGTCTTCATTATCTTCTTCATCATCCTCTAACTCTATTTAGCT TATTTCAATAATTTTTTTATGGAAGCTTACAAATTAGAACTTACAGAATAAATTATAAACTATGTTGACATAAATTTTCA CCCTTTAGGATGTGATTAATTAACTTATTTTCCAAAATACAATATGTACAGACTTTACTTGCATATACAAATAAAAACTC ACTAAAAAGGTCCTGTAACCAGAGTCAAACAAGATATATAACATGAATACTCTTCCTACATTATTAGTACCCAATAATGG AAGAAGCAGACATTGATTTCTTTATCAATTGAAGAGAAGGTTACAAACTTACAATTCTACAATTGAGGTTAGGAGAGACA GTTTTTTTGCTTATCAAAAAAAAGGAGAGACAGTTTTTGACTTTTTGTCTTTACCTTATGTTGCTCACTTCACTAGTTAG ACAAATTACAGAGTTGTTATAAATCTCCCTTCTCTTCTCCTTCAATATATATTACAATTGATTATAAACTGTATACACAA ACCATTATAAACTATATCTGTGTCCACTGGATTCTTGTTAGATACATGATCAGATGACTTAGTTCCTAATCCTTCTTCCT GTTATTGAGAAATCATCAATATATTTTATATGTATGTGTATAATATAATTATATATGTGTATTTATAGTTGTGTTCGTTG GTTTTCTTTTATTTTTCTTATATAGACAGTTTTATTTGAGTTTGGTTTTTGTGGGTAGCAGGTCGGTGTAAGCAAAACAG AATTGTTGCTCTGTTATTTTGGTTTTTGATGGTTTCATTGCTCTGTTATGTTTAGCCACACTGATATATAAGTTCTGGAT CCGCCCCTGCTTGTTATACATGATTACATCTCACATCACATACTCACAATTTCTTAATTTCTAAACAGATCGTCCAGCAT CGACTTTTGCTATGGATATCAACAGAATCCAAAGCAGCTCTTCATCACCTTTGTTTAAATGGAAATATGATGTGTTTGTG AGCTTTAGAGGTGAAGACACAAGGAACAACTTCACTGATCATCTTTTCGGTGCTCTCCAAAGAAAAGGCTTTGTTACTTT CAGGGATGACACTAAGCTCAGAAAAGGAGAACAGATATCCACTGAGCTTCTACAAGCAATTGAAGTATCCAAGATTTTGA TTGTGGTATTCTCAGAAAACTATGCTTCTTCCACATGGTGCTTGGAAGAACTGGCAAAGATTGCTGACTGCATTGAAGTG CCAGGACAAACTGTTCTGCCTATTTTCTATGATGTGAGTCCATCTGAGGTGCGAAAACAAACCTGGGATTATGGAAAAGC CTTTGCAGATCATCAAGAAAGGTTCAAAGAAAATTTAGGGATGGTTCAAAAATGGAGGGAAGCTCTAACACAAGTAGCCA ATCTCTCTGGCTGGGATGTGAGGGATAAGTAAGTAACCCTTTCTGTTTTTGCAATGAGTTGATCAAGGGGGTTGTTATTA ACACCCAAAAAACCACACCATGAGTAATTTCCTAAAATGCAATGATTCATTGTTTACGAAATTTGGTACACCTTTTTGCT ATTAACATATGGGAATTAAAACTCGGTAGTAAAAACCCAGTAGCACATTAAAATTACCTGGAAAACCCGGTAACTCACCT GCTGGATTTTCGAAAACCTAACGGGTTTTAGAACCTAGAATTTAAATGTATATATACTGGAAATTCAAAAATCTTGTAGA TGAGATTTTAAGATACTGGATTTTCAAAAATCAGGTAGATATGGAGGTTATGGATGAGAACGTGGAAGAGGCGGGAGTAG TTTTGGAATTTTAAAAAGAAGGGGGTGTATTTGGGTGTTGGGGGTGTGAATAACGACCTAGTTGATCAAATATCAACAAA ATTCAATGGTTTTCCATTTAACTTTTTTATTAAAGATTTCTTAGAAAAGTTTTAATTAATTACAGAAGCACTTATATATA TATATATTATGCTTTTTAATGATTTTGTTTGTTTTTAATAGAAAAGAAATTGTTAAGAATTCTATTAAATTACATAAAAT ATTTTTTCTTTCATATACATTTGTAGTTGTTAGAATATAATATTAAACCATTCATATGACCCTTATCTAATAGCTTAAGC TTTTGGGATAATTGGTCACTTGACATGGTATCAGAGCCTCTATGACTAAGTGGTTTAGAGTGCGATCCTTGCCGCCCCCA TTATTCTTATAAAAAGATAAATTTCAGCATATTGTATAGGTGAACCTGTGTATTGTTCATGCTTCAAGCCCAAGTAGACT ATTGTGTGAGGTGTGTGTTATAATATAACAAGACTTAGACCCGCGCGTTGCGTGGTTAGAGAAATAACTTTTATTTAGCC ATTGCTTTTCTTTGATGGAGTAGAAAGTCACATATAAAATAAAATACTATAAATGTGTCAATAATATTTTTTAAAAAAGG TGCCAAAAAAATTAAGGAACTTTGATAGCGAGTAATGTGATTGTAGATAACTCTGTTTTCGTGTATGTTAAGTATATTTG AAGATTTAAAAGTATAAAAAAGAAAGGTAATTGTCATTTAGAAATCCTATGATGGACACAATATTTATGTAGTTTAAAAG AAATATGACATTTAGAATCTTGAAAGGTATCAGAAGATTTGTTAGAAAACCTTTATTCTTTTTCTAAAAATTTTGAACTT TTTCTTAATCTATTTTTGGGTATTTGCTCATGATTCTGGTGCGGAAGATTAGTAGCAAGACGATCTGCATGAAAACATTT GTAAATATTAGTAGAAAGTAAAGGGCTGAACTTGTGTCTTATTAAAAACAACTCTAGTTCAACTTTTTCTAGTTCACAAT TACTTATAAAAACATGAGTCATTCATAAACTGAGAGCAAAATGGTGGAAGGGTTGTAGAAGAAGAAAGAGCATATGCCTT CAAAATTCATAATCAAGTAACAAAATTTGACAATATGATGATACCTCCCCTAGAGATGTTTCCTAGTGCCCATTAGTTGT GGTGTCACTCTTTTCACCATCATGAGCAAATTCCATAATCTCAATCAAACAAACAAAATGCAAGTAAGATACCCCAAAGG ATAAAAAAAACAATTTTACAATGAAAATGTAGAGTATTTGTGTAACAGGAATAATAACTACAAGATAGCATATTTTATAA TTCAAAATTAGACACATACCAAAGGGATGTCCAGCTTTATAAGTAATATTGAAAATAAAAACTAACAATGTATTCCCAAA ATCAAATAAGCAGTATCATACCAAAGAAATAAGGTAGTCACACTCCTTGTCTGACAAAAAAAACCTTTGTAGAGAAAGAC CCTACAGCAACAGGGACAAAACAACATCAAATGTTGAAATATTAAAAGCAATGTGAGTAAAAAACTGCTAGTATAAGTGA AAAAAAATATAAGATCCATTTCAAAAAGAAAAAATATAAGATCTGCATAACTTAATGGCTAAGGGGAAGTTCTAGAAAGT ACCTGACCTTGGTTGCCAAGAGATTTGGAAAACACGAGAGGGATCAACTCTGTTAGAAAAATAAAGAGAGTCTCCTTAAA GCCCCAACTCAGAATCATGTTTGTTCCTTAATTCCTTGCTAGTGCAAAATTAACAATGGCAAAACCAGTGTAAAGCAATG TACTTTTATATATAGATTGTGAGAAGCAAAATTGGTGAAAGAGATAAATGGAGAGGAGGAGGAGGAGGAGCAGGGTAAGG AAAAGGGAAAGGGAGGGCATTGGTTCATGAAGAAGGAGTGGTCGTGCAAAAGTGTTTGTAATTCTTTGTATATCTGTGAA TGTGATATGAAATTTGCAATTCATTGTGATGCGAATCGTTGCTAGTTTGTGAAGAGGATATTGATTGACAGTTTCAAAAT AAATGTTTTAGGTGAAAATTGGAAACGGTTGCTGGGAAAATAAAAAAGTTTTGTAAATTAAGAGTGGGGAAAATAACGTA AATGTTTCATGGGTGGACCGATCAATTAGGAGATGAGAATGGGAACAACACTTGATAAAATGGTAGAAGATGACACATAG GATAAAATGCTGAGGTGGACACTTTGACAAAGAGTGAAAACGTGAGGTGTCAATGTCACATTACGCGCTTCACAATTCCT ATATTATAATAGATATAAAACATTCATGTGACTCTTACCCAATAGTTTAAACCTTTGGGATAATTAGTTATTTAATATTA TGGGTTGTCATTTAATGATATGTTGTTTCTTCCTTTGGTCTTAAGGCCACAATATGCAGAGATTGGAAAAATCGTTCAAA AGGTAGCGTGCATATTAGCTCAAAAACATTTAAAATTACCGCATGATATAGTTGGGTTGGACTCACGGGTAGAAGAACTT GAAAAGCTTCTGGCTTTGGACTCAGATGATATTGGAGTTGTAGGGATTTGTGGAATGGGTGGAATAGGGAAGACAACTCT TGCTACTGCTGTGTATGACAGAATCTCTAATCAATATGATGCATCATGTTTTATTGATGATATGAGCAAACTTTATGCAA ACTACGGTCCCATTGGCGCACAAAAGCAACTTCTCTGTCAAACTCTCAGTGAAGAAGAAAATCTTCATATATGGAATCTT CCTAAGGCAAATAATTTGATTCGAACAAGGCTTTGTCAAACAAAGGCCCTCATAGTTCTTGATAATGTTGATCAAGTTGA TCAATTGGATAAATTGGGTATGGAACGAGATTTGCTGGGTAAAGGGAGTAAAGTCATCATAATTTCTAGAGATGAACATA TCTTGAGATCATATCAAGTGGATGAAGTTTACATGGTTCAACCTTTGAATGATTACAATGCTCGTCAATTGTTTTGCAAA AAAGCTTTTAAATGTAATGATGTAGTGAGAGATTACATGGAATTGGTATGTGATGTTCTAAGTTATGCTAACGGCCATCC TTTAGCAATTAAAGTATTGGGTTCATTTTTGTTTGGTCGTGATGTTCCTGCATGGAGAAGTGCATTGGTCAGATTGAAAG AAAATCCAAGGAAAGATATAATGGATGGGCTTCGAATTAGTTACGATGCATTGGAGAGCACCGAAAAGGAAATATTCTTG GATATTGCTTGTTTCTTTGATGGCAAAAATGAGGCATATGTGAAGGAATTTCTAGATTTTCGTGGATTTTTCCCTCAAGT TGGTTTAAGAGTTCTCATTGATAAATCACTCATAACTGTTGAGAAGAGGCTTATTAGGATGCATAAATTGTTGAGAGAGC TGGGAAGGAGCATTGTTCGAGAAAAATCACCCAAAGAACCAATAAATTGGAGCAGGTTGTGGGACTACAAGGATCTGCAA AATATTTTATTAGAAAACAAGGTACATAGTTTTTTTTTATAAAATCCTAAGTTCTCATTTTTATAGAATTGATAGGCAAT CAAAATATTTAACATTTTCTTTTCTCTGCAATCCTTTAGGAAGCGGAAAATCTGGAAGTCATAATCGTGAAGAACTTTTC ACCAGATACAACAATGAGGGCTCATGTTGATCAAAAAAAAAAATAAAAAAATGAGGGCTCATGGTTTATCAAAAATGAGT CACCTTAAGGTGCTTGAGCTTTGGAATATAAATTTTTCAGGAAGCCTCAATAATCTTTCTAATGAATTAGGATATCTTTC TTGGTATGAATATCCTTTCACATGTTTGCCATCAGAATTTCAAACTGACAAACTGGTTAAATTGGAGCTACGCCGTAGCA ATATCAAACAACTATGGGAAGACTCAAAGGTACCGTAAATTATTGTTCTTATTCTCTATTTAACTTTTCCTTAGATGAAC TGACAAAAAGATAAGTTACCATTTTTGAGTTAAACTCATCTCTTGATATGCCCATTTTTGCAGCCTCTGCCCAGTTTGAG ACGTATTGATCTCTCTAACTCGAAAAGTCTTATTAAGACGCCAGATTTTAGAGAGATCCCAAATCTGGAGCGGCTAGATC TTGAAGGATGCGTAAAACTTGTGCAGATCCATCCATCCATTGGAATTTTGAAAAAGCTTATTTTTTTGAACTTGCAAAAT TGTAAAAATCTGGTCAGTATTCCCAATAGCATTTTTGGAATTTGTTCTCTTAAAGATCTAAATCTCTGTGGCTGCTCAAA ATTACTTAAGCTCTTAGATAAAACAAAGGATGGAGATCATTTGAAGAGGCTTGAAATAAAGGAAAGAACTATCCAACGAC TGTCAACATCATCCATCTACAAAATTCTTAAGTTTCCTTTCCATTCTCGGAGGCATGGAGATGCATTTGGTTTATTGCAA TTGCCTGATTATGCTTGTCTCCCATGTTTGCAATATCTTGACCTAAGCTTCTGCAATCTACTTGAGATCCCTGATGCTAT TGGGTTGTTACATTCTTTAGAAAGATTAAATTTAGGAGGAAACAGTTTTGTGAAACTACCTTCTAGCATCAAGGAACTTT CCAAACTTGTAGTTTTGAACCTGGACTACTGTAAGCAACTAAAATACTTGCCTGAGCTCCCATCAAGAACTCTCTTGCGA ATAAGAAGCGGAACATTTTATTCATGGTTTTATATTTTTGAGTGTCCTAAATTGTGTGAGATGGATCGCTGTTATAGCAT GGCTTTTTCTTGGATGATACGAATCCTAAAGGTACATACTCTATCATCTGTTTCCCTATTTCTCGTTTTGTTCTCTTTTC TGTGCAAGTAGACTAACACAGACTTATTTTTCTCTTACCAGGCACTTCACATGCAATCCTCTTCCGCCCTTGGTCATGTT GAAATTATTATTCCTGGAGCTCAAATTCCAATGTGGTTCTCCAATCAAAATATAGGTCGTTCAATAAGGCTGGATCCTTC TCCCATTTTGCTTAACAAAAATTGGATAGGTGTTGCTTGCTGTGTAGCATTTGTGGGGCATCATGATCCAACTAATTTGA GTGATGACATAGGTTCTCCCATTCTTTGCGGTTTCCAAACGAAATTGAATGGGTACTTTTCCCCCATGCAAGCACAGGTT GGGAAAGATCTGATCACAGATGGATTAGATCACATGTGGCTACTCTTTTTCAGTCGAGAGGAATTTTTTAGGATATATGC AACAAAAGGAATACATGATCTTCTTGATGGTATGAAATTTGAAACCGATGTTGGGCATCCCAAAGGTTTGCATTACGAGG TGAAAGAGTGTGGGTATCGTTGGGTATTTGAGGAGGATCTGGAACAATTAAACCCAGAAATGATGTATAGTGGAAATTCA TTAGATCGGAAGCAAAAGTTCATAGCAAATCATTAGCTGTGTTGTATCACTGAGACGTTTAATAATCCATTTGAGGTAAG TCTTTATACATAATAAGAGCACTATACATGTTATACAATTATAATAATTCACAAGCACTCTGTTTCTTATATGCTAATGG CATATGATATGGTGATTTTGCTTAATCTTGTCTATTTCCAGGCTGGAGTCAATTTTAACTGTGAACATTGTTCAAGTCAT GATTAGTATTGGGCCTTGGATTGCCATGAATGATCTGCAGCTAGTTGTCATGATTTGGAGGGGGAAAAGGTACATAATCT ACTTGGACATAACTATCTATGTTTTTTTTTCCAAATTGGATATAACTAACTATCTTAAATCAAATATTTCTAACAATATT CAATAGATTAGTTGAAGTTGTTATCGAGCTCCTTTTATCATTTTACGGGCGTAAATTATTTGGTATTCCGTTCGTAATTT TTTTAATATTTATGGAAGGGAATGAAAGACTTCTACATTTCACATTTCAATAGTAACAGACTAAATGTAAGATGCCTTGA GAATCTATGCTACTGAGAAAAAGTTAAAATTGACATTTCTTTATTATTTTAAAAGAATATGTGTACACAATGATGTTTGA GTGTCTTTAATCTTTATGGTACCTGTTTAGCACATTCACCTTTTGTCTTTAGGCACCCGTTTAGCACAAAAATTATTAGT TTATCACCATTTGTCTCAAACCAGAACACTATCATAGACCACCAAACTTTTCATCCCCAAGTACTTGAACTTGAAGATAC CGGAAGAGGTTGGAACAACACCAGACACCATAGTAAAAGTAGACATCAACTTAAAAATATTTTTATAAGGAACTCAAAGA AGAGACAGACAATAAATTGTGGAATAGAACTTCATAATGAAATAACTTTGTTTTGGTAAAAATGAAAAGAAGAAAAAAGA CTTGAGGTTTGTACCAGAACCTGAGATTTTGTGCTGACTATCTTGATGCCCTCTTCGTGTTGTTTATTTTTTGTAACTTT TAGGACGTTTACTACTAGAGCTTTTCATCAACACTTTGGATGAACACTGCGGCAAAATCTATTTCTTGAGCTAATAGTTT TTCCATTTTTTGACAGCTCCTAAATCACCTAATAAATTTGAATCATTTGAAGGAGTTTTACCAGTGGGATTCAAAGAGAG GGTTCAAGGACGAGGGGTTGTGTGCATAAGGGTAGGTATAACTCGTATAAGTTATGGTGCAGTCTTTCATATGGTGCTCT CTGATGTTAACAAGTTCCAAGGTGTTTTTACCTGACATAGTTAGTCAAATTATGAAAGCAGGATTGATAAGCAGCATCTT AAAAGTTTGTGTTGAAGTGGAGAAAGCTGAAAAAGATGGACAAATGAGAGTGCCTGCAATGCTCTGAAAAGTGAGGTCGG AGAAATCATACTAGGTCGAGAAGACTTTGCAATCTGAAGTGTGTGTATAGTGATATTTTATATCACAGGCTTCCAAGCTA TACTCGGGTCATTTCCTAGTGTCATGTATGACAGTCAATTTACTTTTGTATCTGTAAAAGTTAAGATGCAAAAGTGTGCA GAAACTTTCAGTGAATAAAGATGTATTGTGTTGATATGTTGAGGATTAAGTGTATTTATTGGTGTTTGTATTTATTGTGG AAGAGGGCCTTGCATTTCTTCAGTTAATTAATATCCACCCCTTTGTCAGCAGAAATTATTCCTTTACAATTTTATAGATT AACTTACAACATATTAGCCAAGTGCTAGGAAGGTATGAAAATCATAATTACTTGCATGGTTTTGATGCTATTTGGAATCA TATCTGTGAGTTGACTTGGTTGTGGTCTTTAGGTCTCAAAGTGTTTGAGGAGTACCTAGTGTTATTTAGGGACAGCAATG GCCAGCTTCATTGTTATGAAGATCGATCCCTCCACAGGTGAGTGAGTGACTTGCAATTCATAATGACTGTAGTGGTAGGT TGAATTTGCTATCAAGTGCCATCTGGGATCACATGAACATCCCCTAAGGAAGACACACGAGGAATTCATTATTTATTTAG CTAAAGATGCAATACAGTAGCTCCACTATTTTGAAACTATGTTTATGTGGATCACTTTCATAGTAGCTTTGCTATTTGCT ATGGGTTAACTCTGTTGAATTGATTTCTGAAGTTCTTTGCCTTGCATTGCAAATTAATGTTTTTTTGTGTCTGTAGGATG CTAATCTAAGCGCAGAGTTGGTTCTTTGGTCTCTCACTTCCAAAATTATGCTTCTTCTGTGGTATTTCCTTTTAGAATAT GATTTTAGCTCTATAAAACTGTTAATTGGTTTTTAATCTGTTCTACTGGGTGCTCTGTCCTTTGTCGAGCTGAACATTCA ATTTGCACTGCTAGGCTGATCATAGGACAAATGCGCATTGTGCATTAGCTGTTTAGCTAAGTAAACTGTAAAGAATCACG TATGAAGAATAGTCATCATGTCATCTTCAAATTTTGTTCTCTAAATTAAGTTGTTAAGTCCTCTTGTGATCTGCAAAACT AATCATTTAGTAGTTCATGTTTACTCTCGCGTGGTTTGCTACCCTCATTCCAATGGCTGTCTATTTCAATAAACATGGTC TTAGTTCTTGGTTTAGTCAAATCATAGTCAATGTATTTTTTTCTGTCTCCTCTATCTCCCTTTTCACTCCGGTGGCTAAT ATTCATTTAGAACAATTTATTTTCTTTCACTGATAATTGATCTTCAGGTCTTTTGCCTTTCATCTGTTCCCTGGAGTAAA ATGAGTGAACTTATGGTATTTTTGTTTAATTGTGTTGCATCAGTGTCATACTGTTCTAGTTGCTTCACCATATCAACCAA ACACAGCAGGAACCTTTAGTTTTTCTGATTTGAAATATTCAGAAGCTAAATAAGCTTCCAAGTCCAACCAACTGAATATG AGAATGTAATGATTTATCAGCTTGCATGTGCATTCTTTTGGAATAAAGTCTTCATCCTGAATCTTGTTTCATTTCTGTAC TTGTTCTTTATTCTGCATTTATCATCAGCATCATGTTCGTGGTCAAAGCATATACTGAATCAAAGCATGTGTTTGGTTTT TGAATCAAAGCATATTCAAGGCATTTTAGAAACAATGAAGGATGTCAAATGGGTCATAATAAGTTCTGAGTCTTGTAAGT GCTGTTGATTGCCACTGAAAATATGTTTTGTAATTATGATCAAGTTCAATGCATCATATTGTATTACCATCATTACTCTC CAGGTTTTTGACATGTTCAGTGTCATGCACACAAGCCAGAGAATATGCATTATGCAACATGTTGTGTTTATAAAACTTTG CTTTTTGAGGAATTATTAGAACAAATTATCACATTCCTTGATTGTTTTAATGATATGATTTGCTGATGTTACTATACAGT TTGTTATTAGTATAGTCAACTTTATCTTGGCTTGGACTTGGGGAGGAGTTTGGGGGAAAGCCATAGCATGTGGTAAATGG TTTGCAACAGAAATTTCCCAATACAATTTTCAAATTTTGAATCCATTGAATTGCGAATAAGGTGATTTCAACCTTACCTT GCTTGAATGTTTGAAATAAATACTTTATGAAAAAAAAAAATAGCCGCTTATGCTGTTTTTTTGTTAATTTCAGCGTTGTC ATATAGTGGAGTTAATCAAGAAAATTTACTTCAATCTGGTTTATGAGGGAACAAGAGGAAAATGGAAGGAATAAAATTCT TCCTAACTCAATTTTGACTCCCTGTTAAGAAAATTTGAATGAAAGGTAAATCATGTGGCTAAAATATCACTACTAAGCTT TGGAATACAACCCCTTGTGTAAAAAAAAAAACAAGGTAACAATGCGTGAAATAGATCATACGGTCGAACTCTTTTCGACC CCTTCCTCAGACCTCACGCATAGTAGGCTGAGCTTGGTGCTTGTTGTGGTATCTTAATTTAAATGAGGGTACGGTACCTT AAATGATGTAAAACCTCTTTATCTCCAATTTTTTTAACTTCTAAAAGCCTCTAGCATAATCATTTATGAGCATTTTAATA GATTATCTCATTATCTTGTCGTTCGCCAGACACTAATTTTCATATCTCACCCTTATTGTGGTCGATAACTCTCTTGTTCT TTCTTCGTATACAATTTCACTTCCACCACTAGTTTCTGACTTAAAAGAGCTACAACAACCGGCATGACGTCTAAGATTCC AACAAAAGTTAAAAGGTCTAATCATTTCACTTTATCTGCCCTTCAATTTCACAATTTCATCTAGTCAGGGTACCGTACCC AAAAGAATTTCAGGGTACCACATAATTTACCCAGGAGCTTTGATGCACTTGACTTCCCTTTAATGTTTTGGAATCTAAAA TTATATTTTAAAAGAAATGGCATGAAGAGTGCATTTATTAAAAAATCATTCTCCTCCCCTTGTAAACGAAACAAGGAGAT TGTTATTAGAATATTAGTATTTCTCTCGTCTTCGCTTTTTAAGAGAGCATAATGAGAATTAAAATCCCTTCCCTTCCCTC ATTTTAACCAAGCAAATCACCTCTTAAAAACAGAACAATCATGGAAGAAAATAAATTACTAAGCCTGTTCTGCTAGCAGA ATATTAAAACATCAGACTCTCCAAAAACCACTAACTTTACACACCATATTAAATCCTTAACCTTAAATATAAAATATCAA CTAACTCAGTTAAGCTCAATCCAAATATGATGCAATCTAAACAAGCAAACAGCGGTATCATTTTACGAGAGCAAACAATA AGATACTTGTATGATAAATTGATGAGTAGTAAGCTAGTAGCAACCATTATGCAGCAGGAAAGCAATTGATCATCAGTTAG TTTGGAAGGTAAATTATTTGTCTCGTCCAAAAGGAACAAGCACAATATGGCAGAGAATCAGATGCAACTAATCAGTGGAA GGAAATACTATGTATGAACCAATCTTGTTGTTAGTGTATATTCATCC

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0018400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGATATCAACAGAATCCAAAGCAGCTCTTCATCACCTTTGTTTAAATGGAAATATGATGTGTTTGTGAGCTTTAGAGG TGAAGACACAAGGAACAACTTCACTGATCATCTTTTCGGTGCTCTCCAAAGAAAAGGCTTTGTTACTTTCAGGGATGACA CTAAGCTCAGAAAAGGAGAACAGATATCCACTGAGCTTCTACAAGCAATTGAAGTATCCAAGATTTTGATTGTGGTATTC TCAGAAAACTATGCTTCTTCCACATGGTGCTTGGAAGAACTGGCAAAGATTGCTGACTGCATTGAAGTGCCAGGACAAAC TGTTCTGCCTATTTTCTATGATGTGAGTCCATCTGAGGTGCGAAAACAAACCTGGGATTATGGAAAAGCCTTTGCAGATC ATCAAGAAAGGTTCAAAGAAAATTTAGGGATGGTTCAAAAATGGAGGGAAGCTCTAACACAAGTAGCCAATCTCTCTGGC TGGGATGTGAGGGATAAGCCACAATATGCAGAGATTGGAAAAATCGTTCAAAAGGTAGCGTGCATATTAGCTCAAAAACA TTTAAAATTACCGCATGATATAGTTGGGTTGGACTCACGGGTAGAAGAACTTGAAAAGCTTCTGGCTTTGGACTCAGATG ATATTGGAGTTGTAGGGATTTGTGGAATGGGTGGAATAGGGAAGACAACTCTTGCTACTGCTGTGTATGACAGAATCTCT AATCAATATGATGCATCATGTTTTATTGATGATATGAGCAAACTTTATGCAAACTACGGTCCCATTGGCGCACAAAAGCA ACTTCTCTGTCAAACTCTCAGTGAAGAAGAAAATCTTCATATATGGAATCTTCCTAAGGCAAATAATTTGATTCGAACAA GGCTTTGTCAAACAAAGGCCCTCATAGTTCTTGATAATGTTGATCAAGTTGATCAATTGGATAAATTGGGTATGGAACGA GATTTGCTGGGTAAAGGGAGTAAAGTCATCATAATTTCTAGAGATGAACATATCTTGAGATCATATCAAGTGGATGAAGT TTACATGGTTCAACCTTTGAATGATTACAATGCTCGTCAATTGTTTTGCAAAAAAGCTTTTAAATGTAATGATGTAGTGA GAGATTACATGGAATTGGTATGTGATGTTCTAAGTTATGCTAACGGCCATCCTTTAGCAATTAAAGTATTGGGTTCATTT TTGTTTGGTCGTGATGTTCCTGCATGGAGAAGTGCATTGGTCAGATTGAAAGAAAATCCAAGGAAAGATATAATGGATGG GCTTCGAATTAGTTACGATGCATTGGAGAGCACCGAAAAGGAAATATTCTTGGATATTGCTTGTTTCTTTGATGGCAAAA ATGAGGCATATGTGAAGGAATTTCTAGATTTTCGTGGATTTTTCCCTCAAGTTGGTTTAAGAGTTCTCATTGATAAATCA CTCATAACTGTTGAGAAGAGGCTTATTAGGATGCATAAATTGTTGAGAGAGCTGGGAAGGAGCATTGTTCGAGAAAAATC ACCCAAAGAACCAATAAATTGGAGCAGGTTGTGGGACTACAAGGATCTGCAAAATATTTTATTAGAAAACAAGGAAGCGG AAAATCTGGAAGTCATAATCGTGAAGAACTTTTCACCAGATACAACAATGAGGGCTCATGTTGATCAAAAAAAAAAATAA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0018400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MDINRIQSSSSSPLFKWKYDVFVSFRGEDTRNNFTDHLFGALQRKGFVTFRDDTKLRKGEQISTELLQAIEVSKILIVVF SENYASSTWCLEELAKIADCIEVPGQTVLPIFYDVSPSEVRKQTWDYGKAFADHQERFKENLGMVQKWREALTQVANLSG WDVRDKPQYAEIGKIVQKVACILAQKHLKLPHDIVGLDSRVEELEKLLALDSDDIGVVGICGMGGIGKTTLATAVYDRIS NQYDASCFIDDMSKLYANYGPIGAQKQLLCQTLSEEENLHIWNLPKANNLIRTRLCQTKALIVLDNVDQVDQLDKLGMER DLLGKGSKVIIISRDEHILRSYQVDEVYMVQPLNDYNARQLFCKKAFKCNDVVRDYMELVCDVLSYANGHPLAIKVLGSF LFGRDVPAWRSALVRLKENPRKDIMDGLRISYDALESTEKEIFLDIACFFDGKNEAYVKEFLDFRGFFPQVGLRVLIDKS LITVEKRLIRMHKLLRELGRSIVREKSPKEPINWSRLWDYKDLQNILLENKEAENLEVIIVKNFSPDTTMRAHVDQKKK

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
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	8	161	154	3.14E-45	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
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	12	182	171	5.7E-66	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11017 View details on PTHR11017 Search for proteins/transripts with this domain View external data on PTHR11017	16	545	530	6.1E-186	–
PANTHER	PTHR11017:SF290 View details on PTHR11017:SF290 Search for proteins/transripts with this domain View external data on PTHR11017:SF290	16	545	530	6.1E-186	–
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	17	158	142	31.565	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	18	166	149	2.3E-44	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	18	158	141	7.8E-49	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
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	183	350	168	5.0E-31	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	187	446	260	8.38E-60	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	201	424	224	1.0E-24	IPR002182 Show description in modal box View details on IPR002182 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	217	232	16	5.5E-16	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	294	308	15	5.5E-16	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	387	401	15	5.5E-16	–
SUPERFAMILY	SSF46785 View details on SSF46785 Search for proteins/transripts with this domain View external data on SSF46785	423	526	104	9.79E-12	IPR036390 Show description in modal box View details on IPR036390 Search for proteins/transripts with this domain View on EBI InterPro Service

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 LotjaGi5g1v0018400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0018400.1