Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0090300
Transcript ID	LotjaGi3g1v0090300.2
Related isoforms 3	LotjaGi3g1v0090300.1 LotjaGi3g1v0090300.3 LotjaGi3g1v0090300.4
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|G7LF48\|G7LF48_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi3g1v0090300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:10211853..10224810) extracted from Lotus japonicus Gifu genome v1.2.

GAAATTTCTAAGACAAAATGAATGGTCAGAAAAAAAGTGGATAAGCAAAAGTTTGACTCAAAAGACTATAGTAGCTTGAT TTCCATTCTCTTCTTCTCTTCTGTAGTAGCTTGATTTTCTTTGATCCAATCCATGGCTTCTTCGTCCAGCAATGATCAAT GGATATACGACGTGTTCATCAATTTCAGGGGAGAAGACACCCGTCAAAGCTTCGTTTCTCATCTCTATGCTGCCCTTTCA ACCGCTGGAATCAACGCATTCCTTGACGATGAGAAGCTTAAAAAGGGATTCGAACTTGGACCAGAACTGTTGCGAGGAAT TGAAGGTTCTCGTATATCCTTAGTTGTTCTTTCCCCAAACTATGCTTCATCTAGATGGTGTCTTGATGAACTCATCAAAA TCATGGAATGTCGCAGAAAATATGGGCAGCTGGTAATTCCTATATTTTACAACGTTGATCCATCGCACGTGCGACGTCAG GTGGGTGCTTTTCATTTGACAGCAAGAGATGCATACGTTGGCTTGAGTTGGAAAAACGCGCTCACAAAAGTTGGAGGTTT GTCTGGTTGGGACTTGAGCAAATTTAGGTAAATCAATATCCCCTCCGTTTCTATATAACTGTAACTATTTTGATGTTTCT TCTGTTTCTATTTACTACTTGTCACTTTTACAATTTGAAAAGAGCATTAATTATGTTTTACTAATTGTACCCTAACTTAT TAGTGGTAGGAAAATTGAAAATAGAGAATTAGTAAGAGAGATAAGAGATATATTACAAAGTTTAATAATAATTTTAATAA AACTAGAACATTATATGATATTCCTTAATACATGTAGCACAACATTAAAATGACAGATATTAAGTTCAAAAAAGTGACAG ATATTAAGGAACGGAGCGAGTACTTTCTGCTTGCTAGATAGTTTCTTTTATTTGAAAATAAAGCCTATATGCTCATTTCT ATCTGTTCTGTACTTGTTTATTGTTATCATTATTATTATTGAAGGAGTCAAGCTGAAGCTGTTGAGGTAAGTTATGGTAG GGATATGGGGAATGGGGGGATGGGGTAAAACAACCACAACCAAAGCCATCTTCAATAGAATCCATCGCAAATTTGAGAAA GTGATAGAACTAGAGGGTATATTCATCTACAAGAACAATTTTTCTTTCTGATGTGATGTAATAAGAAGTTAGAGATTGTG AGAAAAGTGATGTGTATATGAGGTGTATTGTTTGGTAGAGAGCTTATAATCTTTAATAATCTTTGCTGAGTCTGTGTGCT TCATGACTGTTACATATTTGTAGGAATGAAGGTGATCTAGTGAAGATAATTGTTGAGGATGTTTGGTCAAAACTCGACTA TACATTCTTGTCTATTACCGAATTCCCAGTTGGATTGGAATCCCGTGTGCAAGAAGTGACTAGGCTGGTTGGGAACCAAA CAAGAATAGTTCGTATGGTAGGGATCTGGGGGATGGGAGGGTCAGGTAAGACAACCACAGCCAAAGCAATCTTCAATCAA ATCCATCTTAAATTCATGTGTAGAAGTTTCATTGAAAACATTAGAGAAGTTTGTGAAAGCGATAGTACCAGAGGACTTAT TAATTTACAAGAACAACTTCTCTCTGATGTCCTGAAAACAAAGGAGAAGATACATAGCATTTCCATGGGGACAGCTATGG TCGAGAAAAGACTCAAGTCGAAAAGGGCTCTCATCATACTTGATGATGTTACCACATCTAAGCAGTTGAAAGCCTTGTGT GGAAATCATCAATGGTTTGGATCAGGAAGTGTAATAATTGTTACAACTAGAGATGTGCGCCTACTTAAATCACTTAAAGT CGATAACGTTTATAAAATGGAGGAAATGAACCAAACAGAATGCCTGGAGCTTTTTAGTTGGCACGCTTTTGGAGAAGCAA GTCCAAGAAAAAACTTGATTGGACTCTCAACAAATGTAGTTGCTTATTGTGGAGGGTTACCACTAGCTCTTGAAGTCCTT GGGTCTTACTTAAATGAGAGGGAAGAACTAGAATGGAAAAGTGTATTGTCAAAACTAGAGAGAATTCCAAATGATCAAGT GCAAGAGAAACTCAGAATAAGTTATGACGGCTTAAAGGATGAGCTGGAAAAGGATATATTTCTTGACATATGTTGTTTCT TTATTGGTAAAGGCAGAGTCAATGTTACAGATATACTAAATGGTTGTGGACTTCACGCTGATATTGGAATAACTATCCTC ATAGAGCGTAGCCTCATAAAAGTTGACAAGAACAACAAGCTTCGAATGCATGATTTGGTACGAGACATGGGAAGAGAAAT TGTTCGTGAATGTTCGACAAAAGATCCTGGGAAGCGTAGTCGGTTGTGGTTTCATGAGGATGTCCATGATGTTTTGACCA AATATATAGTAAGAATACATATTAAAACTTTTGATTATCCCCCACAATCTTTTCAGGATCATAAAACTCTTTGAGTGTTT GACTTATCATGTTCATTGCAAGTGTGGTTAAGCTATGCTGCTGGAGCTTTATGTATAGAAGATAAAAACTGTTTCCCTTA CTTTTTCTCTGTTTATTTATTCTTCACATGCAGGGAACAGAAACAGTTGAAGGATTGATTTTGAAGTTGCAAAACACCGG CAGAGTTTGCTTCAGTGCTAATGCTTTCAAGGAAATGAGAAAACTGAGACTCTTACAACTTGATTGTGTTGACCTCACTG GAGACTTCGGGCATTTGTCCCATGAACTGAAATGGGTCTATTGGAAAGGATTTACTTCCACATATCTGCCCAATCACTTT TATCAGGGAAATCTAGTTGTTCTAGAATTAAAGTACAGCAGTATTAAAAGAGTTTGGAAGGAAACCAAGGTATAGAACTC AAAGGTTGATGACTGTAGATAGTTTGTTGTTTTCCCATTTTCTCCTAATTTTTCTTATAATCATTTATCTTCTTGCAGTT ACTTGTGAAGCTAAAAATTCTCAATCTCAGTCATTCAAAGTACTTGGTAAACACCCCTGATTTTTCAAAACTACCGAATC TAGAAAAGCTCATTCTAAAGGATTGTCCAAGTTTGTTCGAGCTACACCATTCCATCGGAGATCTCAGGAACCTTCTTCTA ATAAATTTGGAGGACTGTACAAACCTTAACAATCTCCCAGGGAAGACCTATCAGTTAAAGTCAGTGAAAACTCTCATCCT TTCAGGTTGTTCAAAAATTGACAAGTTGGAAGAAGATATAGTGCAGATGGAATCCTTGACAACACTCATTGCAAAAGATA CGGCTATAAAGGAAGTGCCCTATTCAATACTTGGATTGAAAAACATAGGGTACATATCTCTATGTGGATATGAAGGATTA TCACGTGATGTTTTTCCTTCTCTCTTTCGGTCTTGGATTTCACCAACAATGAATCCCCTATCCCGTATTCCCCTATTTGC GGGCATGTCATTGCCTCTAGTTTCTATGGATATACAGAATTATAGTTCAGGCAATTTATCTTCATGGCTTGGCAGCCTAT CAAAACTTAGAAGTGTTTGGATACAATGTCACTCAGAGATTCAACTAACTCAAGAGTCAAGAAGAATTCTTGATGATCAA TATGATGTAAATTCTATGGACTTGGAAGCATCATCATCATCATCATCATATGCATCACAAATCTCAGATTTTTCCTTGAA ATCACTTTTGATTAGATTGGGAAGTTGCCACACAGTCCTTGATACTCTTGCCAACAACATATCACAGGTGTCTTCTCTAC CTTCTCACCTTGTACTGATCTTTATTATTAATTAGGGAAGTCTTTTCTATTTGCATTTGTTTGCTTAAAGCTGAAAATTT CCATATGATACGACTTTATTCAAGTATCTGCGCGATAAACTAATTTTAGTGTGATCATAAAATTTCAGTGATGGTAAATT TATGTGTATGTTATAATGGTAGGAGCTATACAATTAATCAAAATAAACTCTAATGAAGGTGATGATTCACATTCTCAATA GAGTCTAATGTTGTCAAGAAAGAAATGACTGGTATCCATTCTACAGCTTGAGGAGTGTTGGAAGTCAATCTTTTGAACAT TTTGAGAATTATATATCATAGTTAGAGGGATTGTGGTAATCTTTTGCTTTCGGTAAAAGTTTTGCAGCCATTATACTAAA TTTATTGATGCATGGAATTGGTTCTAACTTTCTAGTGTTAATGATTGCGTTACAAAACTATCTTTCCTTGTCTTAGTTTT TCTACATGCAACATACTATCATTTTATTTAATATTCACCTTTTGAAATTAAGAATGACATATTACATGGAACGGAAAGTC CATTTGAATGATTAAATAACCGAATGTATGTTCTTGATACAGGGACTGACAACCAACGATTCTAGTAATTTTTTCCTTCC GGGTGGTAATTATCCTTCTTGGTTAGCCTATAAAGGTGAAGGACCTTCAGTGCATTTTCAAGTTCCTGAGGATTGTGATT GTTGCTTGAAGGGAATAGTTTTATGTGTTGTTTATTCATCAACACCTGAAAATATAGCGACTGAATGTCTTACAAGTGTC ATGATAAATAATCGCACAAAATTCACCATTCAAATCTACAAGCAAGATACTGTAATGTCCTTTAATGATGAAGATTGGGA GAGTGTAAAATCAAATCTTGATCCTGGTGACAATATGGAGATTGTTGTTTCTTTTGGGCGTGGATTGACTGTTAAGGAGA CAGCTGTGTATCTAATAAATGCTCAGTCAATTACTATGGAAATTGAGCCATCACCAGAAGTGAACATGCAGCCATCACCT AGCATGAAAATGGAGCCATCACCAAAGCCAACAAAACATATCTTTACAAGACTTGCAAAGAGAATCAGAAAATGTTCATG TTTGAACCAGAATTGAGATTTCAACAATTTCTGATTGACCAAGGCTTTGTCATAATAAGGGATTTCCTTGTTTTATGTAT GTGTTTTGCAAAATTTTCTAGGAGGGAGGAGGGACAGTGCCATGTTTTATGAACATAGTGGAGAATTCATGTGGTTGTTG TGTGTTTAAATGAATATGGTTCTGAAAACGTTAAGAGTTCATTTCTTGTTTTTCTGGCCCTCAAGATTGCTGGACTAGAT GTTATGCAACAGCTAGATAAAAGATGATATTAATGTGCAAGTCTAGAGAAGGTTGCTGGGTATTATTAGTATACAGCAGT TTTATGTTTGGAGTGGAGAAGTTTGAAGTATTGGATTTTGAGGGCATCATGTGAATAATAATGTATGCACACTACAGGAG GATATTGTTTCATTTAATTTTTATGAAATGGAAGATTGTGCAGTCAATTTCATGGTGTATGTTGCTCTATTATATTCACT GCCTAGCTTGTGCTGATGTGATACGTTTTATATTATCTCTATTACCATTTTTATGTCTGTAACTCTGTATTACTGTGCTC ATGCTTCATTCAATATCAGATGGTAATTAGTTGTAAACATGTTATTATAACACATGCCTTTAAAATTTAAATAGGATACC AGCGAGACCAAACTTTCAGAAGTGTTAAATGAGACATGAAAAAAAAAGTCTATGACAACTGACAAGTACAAACCAGAGTT ATGCTTTAAAATCTCGAAGTAGGTAGAGTCTGTTTACACAAAGCCTAGCTCGGGTCAATTTTTCTAACCTTAATTATTTT CTTTTCATAGCTCTTTGGATTTAAAAAAGAAATAAAAACCTAAATTATTTTCTAATAAATTCTTATATAATCAATTGTGT GCTAAAATATAAAATAGAATGAACCCCATATTGCAATGATTTTCTTCTATCAAAATTCCACTGGTTGCGTAAGATCAACA ATATGATCGACAACAAAGAAAAAAAAATGACCAACTTGCATGAACTCTTCAAATTCATGCTTCTATTTCAACTTTGGACT TTGTAGGTAGTTGTGCTTTCCATTTCTAACCGTTGACTTCCAATTTTTCATTCATCAAAATCCATGGCTTATTGGTCTGA TGAAGAAAACAAACCAAAATGCATCTACGACGTGTTCATCAATTTCAGGGGAGAAGACACACGCAGAAACTTGGTTTCTC ACCTCTATGCTTCCCTCTCCAATGCAGGAGCCTACACTTTCCTTGACAATGAGACCTTCCCCAAGGGAATGGAACTTGGT CCTGAACTCTTGCGAGCAATTGAAGCTTCTCGTGTATCCATCGTCGTTTTCTCGGAGAACTACACTGATTCTAATTGGTG TCTCATCGAGCTTTGCAAGATCATGGAATGCCATAGAGATCATGATCAGGTGGTTCTTCCCATATTCTATGGCATTGATC CATCAGTTGTGCGCCATCAGAAAGGTGCTTTCGGCAAAGCGTTGCAAGCAAGTGCTGTAAAAATTCGCACCGGAGAAGAT ATGAGCAAGTTGCTGTCGAGTTGGAGGAGTGCGCTAACAGATGCTGCGAATTTGTCTGGTTGGGATGTCACCGATTTCAG GTAAATCTTAAATGTAGAGTGAATCCTCAATTTTGTCCTTGAAGGTGTAAGGGTCACACAAGTTAATCTCTAGAAGAAGG AAATACCATAGCAGTCCGTGATTATTTGAGCTTATCTGATAGCATAAGCGCTTGTGCAAGTGTGTGGGAGAGCTTATGCT GTTTTGAGCTTCTTTTCATAAGCTACTCAGCATAGCTTATGAAAAAGAGCTTATGCTTATATATAACTTATTCAATTTAT TTCAATAAATTTTTTAAAATAGCTTATGAATAAGCGCTTATGTCATAAGCCCTTATGGTCGCTTAGGACTATAAATGCTT TATTAAGCTGTTTTCCCAAACGAGGGGCCTATGTCAAATTCAGTCAAGTTAGTCCCTAGTCCCTACCATTAGATAAAGAA TAATGTTGTTCAGTTAGTCCTTGTACTTGACTGACATTTGACACAATGAGACTGCGAGGGTATTTCCTTCTTCTAGAGAC TAACTTGCCAGACCCTGAACCTTACACTTTTAGAGACGAAATTGAACATTCACTCTAAATTTAACTTTCTAGTTTCTTGC TTGTGTTTCGATTTTGGATTATGAAGCATATTTTAAGGTATTAAGCTTTCTTAGGTTTTGATTTTTCGAATTTTTGCTCA TTTAGTTGATCTGTTTTATTGAAGGAGTGAATCTGAACTAGTGAAGAAGATAGTAGAGAACGTTTTGACAAAATTAGATG TCACACTCTTGTCTATTACTGATTTTCCGGTTGGATTAGAATCACGCGTGCAAGAAGTGATTGAGTATATTGAAAGTCAA TCAAGCAAAGTTTGTATGGTAGGGATTTGGGGAATGGGAGGGTTGGGTAAAACAACCACAGCCAAAGCCATCTACAACCA GATTCATCGAAGATTTGAGGATAGAAGTTTCATTGAAAATATTAGAAAAGTTTGTGAAAATAATAGCAGAGGGCATATGC ATTTGCAAGAACAATTTCTTTCTGATGTCGTCAAGACAAAGGTGAAGAAGATTCGTAGCATTTCCACAGGGACAACTATG ATTAAGAAAAGACTATCTGGAAGAAGGGCACTGGTTGTACTTGATGATGTGACCACATTTGAGCAATTAAAAGCCCTGTG TGGAAATCGTAAATGGTTTGGACAAGGAAGTGTTATAATTGTTACAACCAGAGATGTACGGGTACTTAGTTTACTTAAAG TCGACTATGTTTATAAAATGGAGGAAATGGATGAAGATGAGTCCCTTGAGCTTTTCAGTTGGCATGCTTTTGGAGAAGCA AGTCCGAGAGAAGACTTGATTGAACTCTCGAGAAATGTAGTTGCTTACTGTGGAGGGTTGCCACTAGCTCTGGAAGTCCT TGGATCTTACTTATATGAGAGGACAGAACAAGAATGGAAAAGTGTACTGTTAAAATTGAAGAGAATTCCCAATGATCAAG TGCAAGAAAAACTGAGAATAAGCTATGATGGTTTAAAGGATGATATGGAAAGGGATATATTTCTTGACATATGTTGTTTC TTCATTGGAAAGAACAGAGCCGATGCTGCAGATATACTAAATGGCTGTGGACTTTATGCTGATATTGGAATAACTGTTCT CATAGAGCGGAGCCTCGTCAAAGTTGGAAAGAATAACAAGATTCAAATGCATGATTTGCTACGAGACATGGGTAGAGAAA TAGTTCGTGGAAGTTCAGCAAAAGATCCTGGGAAGCGTAGTCGATTGTGGTTTCATGAGGATGTCCATGATGTTTTGACC AAAAATACTGTAAGAATACAGATTGAAACTTTTGATTATTCTCCATATTCCATAATCGTTTCAGAATCATAAAATATTTT GTTTGTTTCTGAATTGTTTTGCTCATCTTAATTACTGAATGAAAATTGTAGGATTCATGACCTGAGCTGAGAGTGTTTGC CTTGTAATGTTCATTGCAAGTGTAGTTATAGAAAACAAAAACTGTTTCCCCTAAATTTTTCTCTGTTTATTTTTTCTTCA CATGCAGGGAACAGAAACTATTGAGGGATTGGTTTTGAAGTTGCAAAAAACCGGCAGAGTTTGCTTCAGTGCTAATGCTT TCAAGGAAATGAGAAAACTGAGACTTTTACAACTTGATTGTGTTGACCTCTCTGGAGACTATGGGCATCTTTCCCAAGAA CTGAGATGGGTCTATTGGCAAGGATTTACTTTGAAATATATACCTGATGACTTATATCAGGGAAATCTAGTTGTTATAGA CTTAAAGTACAGTAGTATTAAACAAGTTTGGAAGGAAACCAAGGTATAGTACTAAAATTTATTATAAAGCTCAGAGTTTG ATGACAATAACAATTGATACCAGCATTTTTTCATTTTCTCCTCTAATTTTCCTTTTAAACATATATCCTCTTGCAGCTGC TGGAGAAGCTAAAAATTCTCAATCTCAGTCATTCCAGGTACTTGGAAAACACCCCAGATTTTTCGAAACTACCGAATCTA GAAAAGCTCATTCTAAAGGATTGTCCAAATTTGTCCGAGCTACACCAGTCCATCGGAGATCTCACTAATCTTCTTCTTAT AAATTTGAAGGACTGTACAAGCCTTAGAAATCTCCCAAGGAAGATCTATCAGTTGAAATCTTTGACAACTCTCATCCTTT CAGGTTGTTCAAAAATTGATAAGTTGGAAGAAGATATAGTGCAGATGGAATCCTTGACAACACTTATTGCAAAAGATACA GCTATAAAGGAAGTTCCCTATTCAATACTAAGATTGAAAAGCATAGGATATATATCCTTATGTGGATATGAAGGATTAAC ACGTGATGTTTTTCCTTCTCTCATTCGGTCTTGGATGTCACCCACAATGAATCCCCTATCCCGCATTCCCCAATTTGGGG GCATGTCATTGGCTCTAGTTTCTAATTCGGGCAATGTATCATCGTGGCTTAGCAGCCTGTCCAAACTAAGAAGTGTTTGG ATACAATGTCACTCGGAGATTCAAGTAACTCAAGAGTCAAGAAGAATTATTGATGATCAATATGATGCAAAGTGTACTGA ATTGGAAACAACATCATCATATGCAGCACATATCTCAAGTGTTTCCTTGAGATCACTTTTGATTAGATTGGGAAGTTGCG ACACAGTCATTGATACTCTTGGCAAGAGCATATCACAGGTTACTTCTTTATCTTCTCACCTGTACTGATCTTTATTTATA ATTAGGAAAAGATGGAATAATTTCCCTAATGCATTTGTTTGCTTTAGTCTAAAGTCAGCTAAAGAAAGCAATAGATGAAT GATGACTGAACTGGGATGGCCATGGCAAACAGGAAATTAAGATAGAGGTGCAAATTTTTTATACAAGTGGGGATCATGAA TAGCATATGGAAGGTGAAAAGCAGTATAGAGAGTATGAAATATAGAGTATGAATGAACATGAAAAAAGGGTGATTTACCC ATAAATGTTCAGACATGTATGACGTACAAGTTCTGCAATTTTTTTTTCTTTTGGTAAGAGTTTTGCAGCTTTTATGGATG CCGGAATAGGTTCAAACTTTCTCCTGTTGATGGTTGTGTTACAGAACTATTAGTTTTCTTGCCTCTGTTTTTATTCATGC AAAACACATACACTATAAATGATAATTAACATTCACCTGTTGGAATTCAGAGTGACACAGTAAGAGGTACTAAAAGTCCA TTTGTATGATTAAATAAATAGCCGACTAATATTTTCTTGTTACAGGGATTGACAACCAATGATTCTAGTAATTTTTTCCT TCCGTGTGATAATTATCCTTCTTGGTTAGCCTATAAAGGTGAAGGACCTTCAGTAAATTTTCAAGTTCCTGAGGATCGTG ATTGTTGCTTGAAGGGAATAGTTTTATGTGCTGTTTATTCACCAACACCTGGAAATATGGCAACTGAATGTCTTACTAGT GTCCTGGTCATTAATTACACAAAATTCACCATTCAGGTCTACAAGCAAGATACTGTGATATCCTTTAATGATGAAGATTG GGAGAGTGTAATATCAAATCTAGATCCTGGTGACAATATGGAGATTGTTGTTGCTTATGGGTGTGGATTGACTGTTAAGG AGACAGCTGTGTATCTAATATATGGTCCGTCAATTACTATGAAAGTTGAGCCATCAATTACTATGCAAGTTGAACTTGAG CTGTCAGTTAATGTGAAAATGGAGGCATCACCTGAAGTGAACTTGCTTCCATCACTTGATGTGAAAATGGAGTCATCACC TGAAGTAAACATGCAGCCATCACCTAGAGTGAACATGCTTCCTTCACCTAACATGAAAATGGATCCATCAACTGAAATGA ACATGCAGCCGTCACCTAATGTGAAATTGAAATCATCACCTAACAGGAAAATGGAGCCTTCACCAAAACCAAATAAAAAT TTCTTGACAAGACTTGCAAAGAGAATGGGAGAATGTTCATGCTTGAACCAAACTTGAGCTTTCAACAATTTTTGATTGGT TATGCCTTTGTCATAATCTGAGATTCCCTTGTTATATGTGTTTCGGAACATTTTCTAGGAAGGATGATGTACCGAGCTAT GTTCCGTAGGCCAGATTTGTCTCTTCCTCCGAGCATTCCTTCTACCAGGTTTGTCTCTCTTCTTTCTTAGAATTCATCCC TATTGTTGATTCTGACATTTGATTGTTAATTTAAAATCCTTGTATTTTATGTTATATATATATCATCAATGTTTGATTAT TTTGTTGATTTTATGTTATTCCTTAGTGTCCTCAATTTTTCAAGCATCTTTCATGATTGTGATAACTTTTACTGATGTGT TCTTTAATCTATGACAGAACAGATCTTGAGTTTAATTTGGGTCAAAATATAATCAGTATAGTATATTTGGTTTGTCAAAT TATTTTAACATTTTGGAGTATGTTTATCTGCACATAAGTTTTTCTAATCATCCATGAATGGTATGTTTTTGAGTGTTTTG GTTAATATTTTAATTGATTACTTTCAACTTTTACCAGAAAAGGCTTTCAGAAAGTTTGATTCTTGCGGGGGAAATTAAAA CCCAATATATGTAGTTAAGTATCAGGATTTCATAACAGCAAAATTTGGTTTGATCACAGTTTTATGAGAGCTGTGCAAAA GAAACGACGTAAACATCAATCTCTTTTGTGTCATGGACATAGATGTATGAGAGCTGTGCGGAAGAAAACTTAAATATTTA TATGAGATCTAATAATTTACTTTTACTTTTAGTTCTTTTTTATATATAACTATGCTAACCTTTGCTATTTCTCGCCGATT CCCAGAAAATGTTAACAGAGAACCTCAAAGCTTGCAGAAACTGCTACATTTCCCACTGAACCATCAGTTACAGCATAAAC TGTGCTAGAAAAGTATCCTAAATGAACAGGCCAGGTGAATAAGCTTTGCTAACTGTTTTATACTCTTTATTCAGTTAGGT AGGGAGAAGGGGCTTAATATTATGACAATAGTTCATATGGATGGTATAGCCATAGCATTATGGGGTTTCTTTAATGTAAT GTTTAATGATTGTTCACTAATTGGTGTCTCACACCTGGGTAGCTATGGAAATTCGCCTTTTTTGCTGAAGAATTTTGGAT GGTGCAGGTGGTAGCCTCTCAGCAATGAATCCCCTTCTTGGTTTTGTCAGGCCTTCTATATTTGTCCTCATTGAGGTTGT TCTAGCAATGTTTTCTTTTCCATCTATGGAAGAGCTACACGAGGGCCTTCTCTCAGAATACTTCTCAATTGTGGTCTTTT AGAAGGATTCTGTGTGTTTTACCAATGTCACTTGAATTTTGAGCTGAAACAGCACCAAGTTATCTTCTAGCTTGGTTTGG TCTGATTTTTCGTCCTTTGCTATCTGGTTCTCAAGGTCCCGAACCTTTTTCACGAGATGATCAGGTGTTCACGTATGAAG TTAGATTAGCCTCTTTTGGTGAGTGTTCTTAACATGTGCTTTGTTGTAGGTGGCACTAACGCCGCAAATAGATTCACTCT TACGTTCATGAAAAAGATTTTGAAGATGAGGTTGAGCTTGATATTATCTTGGTCGATGTCTACTCCAAATGTGGATTGGC AATCAAAGGATATTCATTCCTGTTGAGCCCAGAAATATATGCACTAATGACAAGGAAAGCATGAAGCCTACAAGAGAAGT CACTTAAGCTGTAATAGGAATATGATAAATTATGTTTACATGTTTAGTTCTTACAACCATTTGTGAGTCTTGACCTAGTT TCTGCCTCATTAGGAAGATATCATAGTTTTCTTCTTTTCATCTTTTATCTGAGTTTATCAGCAAAGATTAGTGGCGGAGA CAGACTTTCCGGTTGAGGGTGGCCACAAAAAAAAAAAAAAAGCGTACAATTTTTTTTAAGTTGATTTTTTTTTAAAGTTA CATACTTTTATATTCTGAAAAAGATGATGTTTTAATTTTGCGTTAAATATGTTTTTGATCTCTATAAATTGTGAATTA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0090300.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTTCTTCGTCCAGCAATGATCAATGGATATACGACGTGTTCATCAATTTCAGGGGAGAAGACACCCGTCAAAGCTT CGTTTCTCATCTCTATGCTGCCCTTTCAACCGCTGGAATCAACGCATTCCTTGACGATGAGAAGCTTAAAAAGGGATTCG AACTTGGACCAGAACTGTTGCGAGGAATTGAAGGTTCTCGTATATCCTTAGTTGTTCTTTCCCCAAACTATGCTTCATCT AGATGGTGTCTTGATGAACTCATCAAAATCATGGAATGTCGCAGAAAATATGGGCAGCTGGTAATTCCTATATTTTACAA CGTTGATCCATCGCACGTGCGACGTCAGGTGGGTGCTTTTCATTTGACAGCAAGAGATGCATACGTTGGCTTGAGTTGGA AAAACGCGCTCACAAAAGTTGGAGGTTTGTCTGGTTGGGACTTGAGCAAATTTAGGAATGAAGGTGATCTAGTGAAGATA ATTGTTGAGGATGTTTGGTCAAAACTCGACTATACATTCTTGTCTATTACCGAATTCCCAGTTGGATTGGAATCCCGTGT GCAAGAAGTGACTAGGCTGGTTGGGAACCAAACAAGAATAGTTCGTATGGTAGGGATCTGGGGGATGGGAGGGTCAGGTA AGACAACCACAGCCAAAGCAATCTTCAATCAAATCCATCTTAAATTCATGTGTAGAAGTTTCATTGAAAACATTAGAGAA GTTTGTGAAAGCGATAGTACCAGAGGACTTATTAATTTACAAGAACAACTTCTCTCTGATGTCCTGAAAACAAAGGAGAA GATACATAGCATTTCCATGGGGACAGCTATGGTCGAGAAAAGACTCAAGTCGAAAAGGGCTCTCATCATACTTGATGATG TTACCACATCTAAGCAGTTGAAAGCCTTGTGTGGAAATCATCAATGGTTTGGATCAGGAAGTGTAATAATTGTTACAACT AGAGATGTGCGCCTACTTAAATCACTTAAAGTCGATAACGTTTATAAAATGGAGGAAATGAACCAAACAGAATGCCTGGA GCTTTTTAGTTGGCACGCTTTTGGAGAAGCAAGTCCAAGAAAAAACTTGATTGGACTCTCAACAAATGTAGTTGCTTATT GTGGAGGGTTACCACTAGCTCTTGAAGTCCTTGGGTCTTACTTAAATGAGAGGGAAGAACTAGAATGGAAAAGTGTATTG TCAAAACTAGAGAGAATTCCAAATGATCAAGTGCAAGAGAAACTCAGAATAAGTTATGACGGCTTAAAGGATGAGCTGGA AAAGGATATATTTCTTGACATATGTTGTTTCTTTATTGGTAAAGGCAGAGTCAATGTTACAGATATACTAAATGGTTGTG GACTTCACGCTGATATTGGAATAACTATCCTCATAGAGCGTAGCCTCATAAAAGTTGACAAGAACAACAAGCTTCGAATG CATGATTTGGTACGAGACATGGGAAGAGAAATTGTTCGTGAATGTTCGACAAAAGATCCTGGGAAGCGTAGTCGGTTGTG GTTTCATGAGGATGTCCATGATGTTTTGACCAAATATATAGGAACAGAAACAGTTGAAGGATTGATTTTGAAGTTGCAAA ACACCGGCAGAGTTTGCTTCAGTGCTAATGCTTTCAAGGAAATGAGAAAACTGAGACTCTTACAACTTGATTGTGTTGAC CTCACTGGAGACTTCGGGCATTTGTCCCATGAACTGAAATGGGTCTATTGGAAAGGATTTACTTCCACATATCTGCCCAA TCACTTTTATCAGGGAAATCTAGTTGTTCTAGAATTAAAGTACAGCAGTATTAAAAGAGTTTGGAAGGAAACCAAGCTGC TGGAGAAGCTAAAAATTCTCAATCTCAGTCATTCCAGGTACTTGGAAAACACCCCAGATTTTTCGAAACTACCGAATCTA GAAAAGCTCATTCTAAAGGATTGTCCAAATTTGTCCGAGCTACACCAGTCCATCGGAGATCTCACTAATCTTCTTCTTAT AAATTTGAAGGACTGTACAAGCCTTAGAAATCTCCCAAGGAAGATCTATCAGTTGAAATCTTTGACAACTCTCATCCTTT CAGGTTGTTCAAAAATTGATAAGTTGGAAGAAGATATAGTGCAGATGGAATCCTTGACAACACTTATTGCAAAAGATACA GCTATAAAGGAAGTTCCCTATTCAATACTAAGATTGAAAAGCATAGGATATATATCCTTATGTGGATATGAAGGATTAAC ACGTGATGTTTTTCCTTCTCTCATTCGGTCTTGGATGTCACCCACAATGAATCCCCTATCCCGCATTCCCCAATTTGGGG GCATGTCATTGGCTCTAGTTTCTAATTCGGGCAATGTATCATCGTGGCTTAGCAGCCTGTCCAAACTAAGAAGTGTTTGG ATACAATGTCACTCGGAGATTCAAGTAACTCAAGAGTCAAGAAGAATTATTGATGATCAATATGATGCAAAGTGTACTGA ATTGGAAACAACATCATCATATGCAGCACATATCTCAAGTGTTTCCTTGAGATCACTTTTGATTAGATTGGGAAGTTGCG ACACAGTCATTGATACTCTTGGCAAGAGCATATCACAGGTTACTTCTTTATCTTCTCACCTGTACTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0090300.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASSSSNDQWIYDVFINFRGEDTRQSFVSHLYAALSTAGINAFLDDEKLKKGFELGPELLRGIEGSRISLVVLSPNYASS RWCLDELIKIMECRRKYGQLVIPIFYNVDPSHVRRQVGAFHLTARDAYVGLSWKNALTKVGGLSGWDLSKFRNEGDLVKI IVEDVWSKLDYTFLSITEFPVGLESRVQEVTRLVGNQTRIVRMVGIWGMGGSGKTTTAKAIFNQIHLKFMCRSFIENIRE VCESDSTRGLINLQEQLLSDVLKTKEKIHSISMGTAMVEKRLKSKRALIILDDVTTSKQLKALCGNHQWFGSGSVIIVTT RDVRLLKSLKVDNVYKMEEMNQTECLELFSWHAFGEASPRKNLIGLSTNVVAYCGGLPLALEVLGSYLNEREELEWKSVL SKLERIPNDQVQEKLRISYDGLKDELEKDIFLDICCFFIGKGRVNVTDILNGCGLHADIGITILIERSLIKVDKNNKLRM HDLVRDMGREIVRECSTKDPGKRSRLWFHEDVHDVLTKYIGTETVEGLILKLQNTGRVCFSANAFKEMRKLRLLQLDCVD LTGDFGHLSHELKWVYWKGFTSTYLPNHFYQGNLVVLELKYSSIKRVWKETKLLEKLKILNLSHSRYLENTPDFSKLPNL EKLILKDCPNLSELHQSIGDLTNLLLINLKDCTSLRNLPRKIYQLKSLTTLILSGCSKIDKLEEDIVQMESLTTLIAKDT AIKEVPYSILRLKSIGYISLCGYEGLTRDVFPSLIRSWMSPTMNPLSRIPQFGGMSLALVSNSGNVSSWLSSLSKLRSVW IQCHSEIQVTQESRRIIDDQYDAKCTELETTSSYAAHISSVSLRSLLIRLGSCDTVIDTLGKSISQVTSLSSHLY

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	2	146	145	1.14E-40	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	5	175	171	2.3E-61	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	7	867	861	0.0	–
PANTHER	PTHR11017:SF301 View details on PTHR11017:SF301 Search for proteins/transripts with this domain View external data on PTHR11017:SF301	7	867	861	0.0	–
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	10	146	137	26.875	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	11	143	133	2.2E-43	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	12	175	164	2.4E-43	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	171	434	264	2.32E-58	IPR027417 Show description in modal box View details on IPR027417 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	176	336	161	1.5E-27	–
Pfam	PF00931 View details on PF00931 Search for proteins/transripts with this domain View external data on PF00931	193	413	221	7.3E-29	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	203	218	16	7.6E-24	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	281	295	15	7.6E-24	–
Gene3D	G3DSA:1.10.8.430 View details on G3DSA:1.10.8.430 Search for proteins/transripts with this domain View external data on G3DSA:1.10.8.430	340	430	91	2.2E-7	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	374	388	15	7.6E-24	–
SUPERFAMILY	SSF52058 View details on SSF52058 Search for proteins/transripts with this domain View external data on SSF52058	479	800	322	4.93E-31	–
Gene3D	G3DSA:3.80.10.10 View details on G3DSA:3.80.10.10 Search for proteins/transripts with this domain View external data on G3DSA:3.80.10.10	522	871	350	2.3E-27	IPR032675 Show description in modal box View details on IPR032675 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	683	699	17	7.6E-24	–

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 LotjaGi3g1v0090300.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0090300.2