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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0423000 |
| Transcript ID | LotjaGi3g1v0423000.2 |
| Related isoforms 4 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Disease resistance protein (TIR-NBS-LRR class); TAIR: AT1G72840.1 Disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|G7LI64|G7LI64_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi3g1v0423000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:83194834..83208244) extracted from Lotus japonicus Gifu genome v1.2.
ATATAGTACTGCAAGCGCTCCATTCAGTGTTTCTTTGCAGTTTGCACTGAGGACGGTGGCTATGTCTTCATCTTCTTCCC ACCGCGTCCCTCTCAAAAAGTACGATGTGTTTATTAGCTTTAGGGGTGAGGACACGAGAGATAACTTCGCTAGGCCTCTC TATACTGCTCTCACAAAGGAGAAGATTGAAACCTACATAGATTATAAGCTTGAAAGAGGAGATGATATTTGGCCAGGACT TGTAAAAGCAATCAAGGACTCTGTGATGTCCATCGTTGTGTTCTCAGAAAGATACGCAACTTCAAGGTGGTGTTTGAATG AACTCGCCCAAATAATGAAGTGCAGAAGTTATGAGGGACAGGTTGTTCTTCCACTGTTCTACAAAACAAACCCAACAGAC GTGCGGCACCAAACAGGGAGTTACAAGAAACCATTTGAAGATCATTATCGAGCCGGTCGTGACGACGAAGAAAAGGTGGA TAGTTGGAGAGCTGCTCTCAATCACGCAGCCAATATATCTGGATGGGAGTCAACTACCCACAAGTAAGTTTTATTATTTT CTTTCACCTATAGACTTCAACCATTAAATTATTTATTAGAATTAGAGAGATATAACTCAACTCAAAAACTAGCTTTAGAG TTGAGGTTTGTATTATCATCTATAAGCATATAATATGGTGAGTCAACAAATGGATCTAGCACAGGCTCTGGTATCATATG AGAAATTAGGGAGGTCTTACTCAACTCAAAAGCTAGCTCAAAAGTTAAGGTTTGCACTACCATTTATAAGCACTTAATTG ATCAGATTCTAACAATAACATTAACATTGGCCATTTGATTCAAGTAGATAAGACGGATTTTTCCATGTTTCTCAAAAAGA AGAAAATTTGAGAATATATAGTTGGAATTTTTAGTTTAGATATGGATCCCAATTAGTCAATCTCTATCCCCATTCCCCAC CCCGAGGCTACGAAGTACGAATAAACTACTCTCCTTCGTAGATCTGAATAATGCCTTTTTAGTTAGACTAAATAATGTGG AAGGAATTGAGAGGTTGCCATCACACGTGGCCAAGTCTTGATTTTTAGTAAATGGATAGGTAAATATATACTCTCATTCC GTTGCTTATTATGTCATTTTTCTGAAATAATTTGTTCTTTTTTTGACATGAAATAATTTGTTCTTAAATATAAGTTACTT TCGAAGTTAGTATTGAATTTTTTTTTTCAAAATTTACTCTCTATTTAATATATTTAATATGAAAGAAATGATGGAATTTT TTAATATTAATTGAGAGAAAAAATTATAGAAAACTAAATAAGACTAGTCTAGAAAATTAATAAATTTTTGTTTCAAATTT ATTGCTCATAATAACTTTTCTTAATATATGAAAATTAAATAAAAAGATAATGTCGAGGCGTAAACCATTTTCAAGTAACA TTATTTTAAGAGCTCATCTGTCGGGGCGCAACCCCACCATGTGACAAAAAAAATTCATATATTTTTATTAATCAATGAAG TCACATGGAGTAAAAAACTTATTTAATGAAGTTAAGTTAAATATCGTTCACTTTAAAAAAAAGTTAAATTTCATTCATAT ATTGTCATTAATGTGATAAAATTAATTTAATAAATTAATTCAGTGCAAGCATTGATAATAATTTTGGTCATTATTATTTT GGTCATAATAAAGTGTATTTAAAAACAAATCATGTTACTTTAGTTTCGATACTTAATTTTATCAGAATCAGTTCTTTCAG AATTAATTGTTTCTGTTCTGTTTTTTTCCCTACTTGAGACTTGAGAGGGATGATCTCAAGCTTTTTATCTATATATTGAT TGATCTTTAAAAAAAACTGTGCAAACATTAATCTAAAACACACAGCATAGTAGTTTTGGGAAATTGAAAAAATAGTTTGG AATCAAGACTGAGGAACCTTGTGCACTGCGCATGCATTGTCTCTTTTTAGTTAGATAGAAAATAGTTTTATATATTTTTT CAAAAAAAAAATAGTTTTATATATTTAAAATAGTAAGTTTTTTTATAGGCAAATATTAATTGCTTGTAACGTTAGTAAAT TAGTCCTCTTCAGGAGTAGCTAGAGGTAGGTAACTAGAGGTAGCTAACCCACATTTTGGTGTTTGTAGGGCACACCTGAA TGTCACTTCTCAAAATTATTTATATACCTTTAAATTCATGGAAAATTTCTTTTTTACGCATTTCCAACTTTTATTATAGT TCTAGTGAGAGATATAAAAAAAATGACTAATATGATAAGTGATGTAATGGAATTGGATATGAGAAAAAAAAAAGTAGAAA TAATTCATAAGAGAAATAAGATGTGAGCGTATCAATTTTTTTTTATCACAACATATCAAAATTCTTAAATTAACTACTAC ATAATGTTTGTCAGTAACATATAATTATTAATTTGTTCACACTCTTTCACCTCCACTTGGTAGAGAGATATGAGAAGAGA AAGAATAGAAAGAACGGTAAATAATGTGGTTGAAGACGAAATGGGAGATAGAAAAAGAAATAAGGTGAAAATGAGATAAA AGAGAAATTGAGGTGTGAAGATATCAAATCTATAATTATTAGATCTATGTAGACATACTATTCTTATAACTTTGGCTTTT ATAATATTCAAGAAATTGTGTCACATATTGTCTCTTATCCTTTATTTGACAGGGACGATTCTCAATTCATAAAGGAAATT GTCAAGTATCACTACTACAGAAAACACCTTTTGCCACGCCTCAATTGCCACGGTTATAGGCGGAACCGTGGCAATAGGTC AGTTACCACGGTTATACACGGAACCGTGGCAAAATGGTACAATATTTTATTATTTTATTTAGGAACCGTGGCAATAGACA ATTTTTTTTGAGATTTTCACTTGCCCAAAAACCCTAACCCTCTCGATCTGTTCTCTTGGTTCCCTCTCTATTCGCTGCAA TATGTCCTTCTCTCCCTCTCGTTCTCACTGCAAGTCAGTCCTCCTCTCCCTCTGCTTCTCAATCGCTCTCTCTCTCTCTC CTTCGCATGGGAGAATCGCTCCTTCTCCTGCTCGGTGCCGCCCATTCCACCGGCGCCGCTCCTTCCCTCACACGATGATG GTGGAAGAATCTTCTGTTATCTTCTAGATACATTTCGTTCCAGATCTGTTTCTCCGTTTCCTTCGTTTCACTCGAAGAGC AGATCGGTGACGAAGATGAAAACAAAGAAGGTGACCCTCCCTGAGCACGCGACGGCGCGTCCTGTGGCGGCAATGCGAAG AGTGAACACGGTGGCTAAGGTGGTGCCGCCCGTGCCATTGCCTGCGCACCATCTTCCCAACTCGTCCCGACTTGGAAGCT GGTTCCACTTTCTCTCTCTGCTGTGGTTCTGCCTCTCTTTATTTCCTCGCAGGTGATTCTAGCTTCTGGGCAATTGGATG AAGTTTACTAAATCATATTATTCATTCATTGGTAACTCTTGTGGTCACGCTATTGATTAGTGTAGTTTGCAATTGGTAGA ATAATTTATGCACTAGAACTGTTTGATTAAATGCCTCACAGAAACCTTGTTTTGTATCTCCTGAACAATGCGGTTGAACT TAACTTGACTATATTTTCTTGAATATTTGTTTTACTAGTTGCTGCATTATGGAAAATCGAATTTAACCGATGGCAATACT TGAAAATGCTGCCAACAATGGTCATAGTTTCTGTCTTTCATTATGTGTGATTGGGAGAGGATCTCAATCTTAGTGTCTTA TAGACAAAGGTAATCTCGAGAGTACATCTTTGATTTCATATTGTTCATCTCAGGTACTATAGACCATTGAGATGTTACTA GACTAGAGCATGGCAGCACTGCAATGGTTTTTATACACGACACTTGTTTCTTGTTCCTATAGATTAGGATGTCCAAGAAG TTTTTCCTATTCCTAAATCCAATTTGTTATTTTTCCTCTAGTAGGCATCCATATTTGGTCTTTTTGTTTCAATTGCTTTC TCATATTTTCATTGTAGCTTACACACATAAAACTTGTCTAATGAAGCTGTGTTATTGATGTCTTATTAATCTACAAACTG TTTGATGAAATGCTTGACTGACTTTTTCTCCTTTTTCTTCATGTTTTTGTTGAATGTGTGAGTATCACAAAGCTTGAAAA ACGCACGGAGTCCATAACTGAGGTAGCGCACCAGCCCTCTTTTGAATTTGTGAAGAGTAAGGCAGGAGGAGAGCGCATCC AATAAATGCTTAGAATCTGGAACTGAGATATTCCGCCTGGTTTGCATAATTTGCTCTTACAATTTGCTGCTAATTTTACT TATATAATTCGCTGATATGCTTGGACTGGTTTTATTGCAATCAAACATGTGGGAATGTGCTATGCCAAGGATGCCATAAG TATCGGGAGTGAAAATTCAAGTAGCTGAACTTATAATATATCAAGTTTAATCTTTGCATTCTGAATTTAGTTGACCACAA GGATACACACTTCACTTTCGTCAACACAACATAAAATTGGTTGCTAAATGTCTAATTAGTTATTGGCCAAACCTTTGTTC AGCAAGCATGTCGTGAGTTGAGTTGTTCTGCACTGAAATTCTTTCATATAAAGTTGATAGTCATTTACTTTTATTGATAA AGTGCCAGCACATTTTGAAGAAGATTTTCCAAGGTGTTTGTTCTGGAGCTGGTATACAATCAGATTTCATGATTCGCATC ATGCCTCGCTTGTTAAGTTGATTTTCCAATTTATTGAATGACTTGCACACTTGTAAATTGAGCTGTTGAAAATTCAAGTT CATAGAACATTTTGGATCCCCAAAAAAAAAATACAAGAACATGTGTCAAGATTAGATTTAAGTTGAAAAATCTCAACTTG ATAATCCATGTATGATTATATGATGAAGAGTTAAGATTAATGCTTATCACCTTTGATGCTCTCACCAGAAATGTGTGTTT GTTTATTTACTTCTCGTCTTAACGGCTGAATTTTACAGGTTGGGGGACTTTTGGGTTCTGGATACTGGTATGGCATTTTG TATAATATTTGTTCAGTTCATGTTCTGTGAAGACTTTGATGTTGTGAGACTTGACTTGTTTGTTGGCATGTTGGCATTTG GAACAAATGATGGTGTTCAAGATATATGGCAATGGTCTGAATTAACTAGCTTTGGTGACTTGCCTTCATCGAGGGATTTC ACTGCAGCTTCAGCAATTGGAAACCGGAAAATTGTTACGTGAGATCTATAGCATTTAATTTGACTTTTTATCCTAATTGG CTGTATTAGGATCAAATTATAACATGTGATAAGGTGGGGTTTATTTGAATGCAGGTGTGGTGGATGGGATGGAAAAAAGT GGTTATCTGATGTTTATGTCATGGACACAAGTATTTTAAGGTTTAGTCCTCTTTTCCCAACATGTGTGTTATGCAAAATT CAAGTTCTGAATCAACATGTTTTGTTTGAGATAGTCTCTCAGGGTTTTTGATAAGAATTGATTGTGTCCTGCTCTGGAAT AGTCCCCCAGCCCAAATAATCTCGTTGCTTTGATTTCTCTGACTTACATGTAAATAAGTAACTGTTATGAGATAATGGAG GGAGCATATATATTAATTGTTGCCATGTCAATCTCATTAGAAGTTATCAGCTGAAATGAGTGTTGTACCCTGACTTAACA GGAGGAGGTGGACCAATTATGGGCGATTTATGGGCATTGAAGGGCCTTATTGAAGAAGGTGTGTATGTTTTTGCCATCTT TATAGGTCTATCATGTATATTGCTGTTTATTTAGTTGCAGGCTGCAAGTTGTTATTGTCATGTGTTCCTTTGCTTTATTT TGGGTGCTAAATTTTCCTTCTTATGAGTTTTGTTGATTTTATTCAAATTTAAGTTTGATTCATTTTCAGTTTGAAATTTG TACACTATTAGTTTGACTCAATATTTAGCTTTTGCACCTGAACTATGTTTTGCTTAGTGAGATTGGATGGCAAAGCTTAG TGACTATGGATTGTCCATTATCTCAGAGAAAAATGATGCAAGTGGGGAGTCATCAGTAGTTTAACTTGGATAACTTCTGA TCCATTTATAAATTAGCAGAAAGTCATTAGTAGTTTAATAATTTATTTGTGGATTCTTCCTAAGTTTGTCTCTTGATTTT GTCAACATGTGCAATTTCAGGCAAATGAAAAACTTAGAGGATGATGCTTATAGCTTTGGATTCATACTACTTGAGGCACT TGTTGGACCCTCAGTATCTGCTAAAAGAGAAGCAAGTGTGCTCATGATGAGTACTTGGAGTTAGTTAGTTAGTTAAGGGT TAGCATTTAGAGTTAGTTAGTTATGGCTTAGCCTATAAATAAGGGAGTGTGAAGAGGGTTTAGTATCTTTGGGATCATTT GGGAATTGGGAATTAGGAGAGTGATGAGTCTCTCGAATACTCATCTGTTTCTTGTACATTTTTCTGTTGAATAATATCAG GGTTTCATCAATTGGTATCAGAGCTCCATCCAGGAGCTGTGGTATCGATTTGTCTATGGTAGCGAGCAGAATGGAAGCCA GAGTGGAAGCGATTGAGAGATTCATTGAGGTTCTGAATCGCGATCGCGAGGAAGAACGCAGGAATCGCGAAGAAGACAGG AGGATTCGCGACGAAGAACGGAGAGAGCGTGCGATCGAGCATGAACGCGTGGAGCAGAGGTTTCGCAATCTGGAAGCGAT TGTCGAGACGATGGCGCGCCGGCGAGCCGGCGAGCACGGCGACAGCGACGGCGAGCAAGAACGCCGACGAATGGAGGAGG AGCGCACCGTGAACGGAGGACAACCGGGAAGCGTAAGAGACGAAGCTGATGCGCGAGAGAATCTTCAGCGCATTGCAAAT GCACAAACAGAGCGTTGGAGGAAGCTTGACATTCCAGTTTTCCAGGGTGAAGAAGATGCGTACAGTTGGATTCAGAAATT GGAACGCTACTTCCGACTGAAGGGAGCGACTGAGGAAGAGAAGGTACAAGCGATTATGGTGGCCTTGGATGGAAAGGCAT TGAGCTGGTACCAATGGTGGGAAACCTGCAACCAGGTGACTACTTGGACCAAGTTCAAGGAAGCCATGCTGGAACGATTT CAACTCACCTCGAATTCTAGTCCATTTGCGGCTTTGCTGGCCTTGAAGCAAGAAGGTAGTGTTGAAGAGTTTGTAGGACA ATTTGAGAGATTTGCAGGAATGCTCAAGGGAATTGATGAAGAGCATTACATGGATATTTTTGTTAATGGACTCAAGGAGG AAATTGCAGTAGAAATCAAGCTCTATGAGCCCAAATCCCTAACAATCATGGTCAAGAAAGCCTTGATGGTGGAACAGAAG AACCTGGCTGTGAGCAAGGCTGGAATTGGCAGTACTAGCAGGTATAATTCCTCTTTCAAACCACCTTTTAGATCCACAAC TTTTCAGAAATCTGTGCAAATTGATACTGGACAGAAAAGTGGTAGTGGTAGTGTAACTCAGGGCACAGTGCAATCATCTA GTGGTAGTGTTAATGAGAGAGTAGGAGGTAAGCCAGCCAGGGGAGGAGTTTACAGAAAACTCACTGGGGAAGAGTTGAAG GAAGGTGCGCTAAGGGAGAAATCGCAGACTCGCAACCTTCAAGGGAGGAAGAGGGTTCAATCAACCGTTTTTCCCCAAAT TACTGAACTAGGGTTCGATTGGAAGAGAAGGCAGCCGCGGAAACCACCTGATTAACGGCGTCGCAAGGCGGTAACCGTCA ATCGACCGCGGAACCTCAATTCTTTGTTCATCGGAGGTCGCCAATCGAACGGTGGCGGAATCGCCAAACCACCGTGGCGG TGGTTCACATATCATCTTCGGCAAGGCCCTGTGATTCGCGAGGAGGAGAGACGTTGCACGCCGGTAACCACCTTATGGCC GCCGGCGAAGCCACCGGACCTTGCAGTTACGGCGGTGGAAGAAAGGAAATTGAAGTGGGGAAGATACGGGTTTGGGTATC TGCCGTTGGCTCCTTGCGAGGTTCAAGCTCGGCACGTGAGGGAAGTGGGCCCGAGTGAGAAGGCTCCAGTTGAACCCCTC TCCAATTCGAATGGGCCAAGCCCAATCCATTCATGGAAAGAGTTGGAGCCTGGCAGGAGGTGGCACAAAAAAAAAACAAC CTGGCCAAGGACTGCGAGTGGGCCTAAGAATGCAGCATTAGCCCAATTTTGCATGTTTTCTGCTATGTTTACTTTTCTAT GTTTTTGTTTCAAGGAGCTTGTTTTTTACCCCACCTTGAGGACAAGGTGGATGTTTAGGGGGGAGTATTGATGAGTACTT GGAGTTAGTTAGTTAGTTAAGGGTTAGCATTTAGAGTTAGTTAGTTATGGCTTAGCCTATAAATAAGGGAGTGTGAAGAG GGTTTAGTATCTTTGGGATCATTTGGGAATTGGGAATTAGGAGAGTGATGAGTCTCTCGAATACTCATCTGTTTCTTGTA CATTTTTCTGTTGAATAATATCAGGGTTTCATCAGCTCAGTGCCACGGTATGTATAAAAGATAAAAGATTACATGATACA TAGAATTAATTCTACACATAACATAAAAGCAAAATTGTAGCTCAATTAGCATTAGTTTAAGTCGTTAAGACTTAGTGCAT GTTTAGTATCAATTTAGTAGGAACAAAGAGAAGAATCCTTATTAGCTTATTAGATTTTTTTAGTAACAAACCAGGTGTAT GACCTATTGTCACGTTTAAAACTGTGGCAACAGAGGCCACCTATTGCCACGGTTAAGTAACTGTGGCAATAGAGGTCACC TGTTGTCACGGTTACGTTCTTAACCGTGGCAAAAGGTGGCCTCTATTGCAACGGTTAACTACGTAACCGTGGCAATAGGT GGCCTCTATTGCCACGGTTAAGTACGTAACCGTGGCAATAGAGGGAACCTATTGTCACGGTTACGCTTTACAAACCGTGA TAACAGGCGAATCAATTGTCACGGTTCCGCCTTTAACCGTGGCAATTGAGCAATTGTCACGCCTTCTATCGTCACGGTTT AACCGTGACGAATGAGCGGTTTTAACCGTGACGAAAGGCCTTTTCTGTAGTAGTGTATGTTTCGGGAAAGCTGGTTTCAA TGCAGTATGATCATGAAAAAGGCCTTGTTGGAATTGAGGAACATTGTGCAGCCATTGAAGGTTTTTCGCAAAAATTTGGA AGAATTGGAGTTTGGGGGATGGGGGGAACAGGTAAGACAACTATTGCTAGAGCTTTGTTTGACAAACACTCCTCCCATTA TGACAGCGTATGCTTCTTGAAAGACATAAGAGAAGAATCACAGAAGCACCGTGGGCTAGCATACCTCCATCATAAGCTTC TCTCTGAGCTACTAAAGGAACAAGTTACAACATCCAACATTTCTGAATCCTCACTCAGTAGTAGAAGAGTTCTGATTGTG CTTGATGATGTGGATAGTTCTGAGCAATTAGAGGCTTTGTTTGTTGGACTGGGAGAGCTGGGAGAAGGCAGCAGTCTGAT TGTAACAACAAGAGACAGACATTTGCTTCATGAAAAAATAGTTGATAAGATACATGAGGTCAAGCCTTTGGACTCTAAAA AGTCGCTTGTGCTCTTCAATTTGGGAGCTTTCAAGAAAAGGGAACCAGCTGATTCTTTTTATCAGGACTATTCGCAAAGG GTAGTTAAATATGCAGAAGGCCTTCCATTGGCTTTAAAAATTTTGGGTTCACACTTTTATGTCATCAATCAAAGAGAATG GTTTTCTGAAGTGGGTTATTTGGAGAACAGGTCTAAATCCTACAAGGATATTCTAGACAAGTTAAAAGTGAGCTATAATG GATTATCAAGGCAAGAGCAAGCAATATTTCTGGAAATTGCTTTCTTTTTCAAGGACAGAAAAGAAGATTTTGTCATAAAA ATACTAGATGCCTGTGGTTTCAATGCTACATCTAGTGTAATGGAAGTCCTTAAAGACAAATCTCTTATAACTATATCAAA GAGCAATACTATACAAATGCTTGACTTTCTACAAGACATTGCTTTTGATATAGTTGAAAATGATGTAACAAACCCTAGAA GAGGCATCCTATTGAGAGATAAGGGAGTTAATAGTCTTGACTGCGGCCCTGATGTAAGAATAAGCCTACTCTTTACTTTT TTCTATAGAAAATATGTGCGAATTTGCAACCTCAATTTACTTATTAAATTCTTGTCTTTCATCCAGGGAACTTCAAAAGT TGTTGAAGGAGCATTGTTAGATTTGTCTCGTTACGATAGGTTTAAACTCAATGCTGGCATTTTCAATTTGCCTAAATTAA AAATTCTTAGATTTTATGTCCCTGGAGAAGCTATCAACCCGTATCTCTTTCAGACCCGATCTCCTCAGTGAGCTAGGTTC TGCTGAATTGAAGTATTTTGAGTGGACTGGATACCCTTCTAAATCTCTTCCATCAAATTTTTGTGTCAAGTTTCTTGTTG AGATTCGCATGCGGTACAGTCATGTTCTACAACTTTGGGAGGGGACGCAGGTAAAGATATTTATACATTATATTTGCTTT GTATGCTTACATTTTCAATCGCCTTAACTGAGAGCATAAGCATGAGATAACATTCCTTTTGACTTTTTGCAGGACCTTGT GAATTTGGAGACAATTGACCTAAGTGAATGCAAGCGGTTGGTGAAGCTCCCTGACTTGTCTAAAGCGTTAAAACTCAAAT GGGTTGATCTTTCCGGATGTGAAAGTCTTTGTGCCGTTCATCCATCGCTTTTATCTACAGACACACTAGTTACTTTGACA CTGAATAGGTGCTACAAGCTGAAGAGTCTAATGAGTGAAAAACATTTAAGCAATCTGCAAAACCTCAATGTGAATCACTG TTTCGACCTTAAGCAATTTTCAGTGTCGTCGGATTCAATTAAAATGTTGGATTTAAGTAAGGCAAATGTCCAAAAGTTGT ATCCATCAATCGGTCGGCTAAGCAAGCTTGTGTGGCTGAATCTAGAAGCAGATTCTTCAAGGGAATCAAGGCTGGAGGAT CTTCCTGATGAGATATCATGCCTGACATCTCTTGAGGAGCTAAGGATTTCTCATTGCAGAGTAGTTGACAAAGAGAAGCT ACATGTCCTGTTTGCTGGCTTAGGATCATTAAAACGGCTACATCTGAAGTATTGCAAGCAGTTGTTTGAACTCCCAGACA ACATCAGTGCCTTGTCATCATTGCAAGAATTAAGGCTTGATAGAAGCAGTGTGGAGAAGTTGCCCACAAGCATCAAGCTT CTTGAAAAGCTCGAGATTCTCTCGTTACAGAAATGTAAGAAGCTTCGGTCTCTACCTAAGCTTCCGTTGTTGATCAAGGA GCTTAACGCCGATCGCTGTATCTCACTAGTGACCGTGTCCACTTTAACGACTTTTTCAGTGAAGATGAAAGGAATGAGGA AACACATATCATTCCAGGATGCAATAAAACCAAATGAATGTCCACCCCTCCATAACCAGATTATGGAAGATGTTGTGCTT GCAATGAAGAGGGCTGAATTGTGCAATTTATTTGTAAGAAGCAGTGTTTCGGTTTGCTTACCAGGAAGCAGTGTCCCCTC AGTGCCAGGGTCGTCGTTCAAATATCGAAGCACAAGCTCCTCAATTACCATTAAACCTCATGACCCAAGTTTGTCCCACT GGCTTGGCACCATTTATTCTGTTGTTCTTTCTCCAGCTGGATTTAGCATGGTTGGTGCTAAAATAGGATGCCGAATCTAC CGGAAAAATGCTGTTTCCGGACAGAAGGAATTCAAGACTACGTGGTATAGCAAATACATCAGGGAATCCAAATCGGATAA TGTTTATCTATGGCATGGTTCAAGTTTTGATGGTGCACAAGATTTTGAGTTCTTTGCTACAGATAGTAGCGGGACAGGAC CGACAGGTCATAACTGGTTGAAAATAAAAGAGTGTGGAATTTCCTTGATGTGTTGCTCCAATTCTGAGTTTCAGAGTCTC AAAGCGTACACAGAAACGGTACCGGAGATCAAGTCGGAGTTGCCATCGGCACCCTTCTTGCCGCTGGTGTACGGCAATCA GGAAGCGCCGGTTGATTTATGGGTGGAGTCAGAAGACGATCAAGCATTTGATTGGACATTTGGACTAGGAGCATGTATAT TGGAAACTTTGGTGGTATGAAACTTAACTACTCTCCCTCATTAATCTAATTTTTTTTAAAAATAGTAAAAGATTAAGGGG TAGCTAAATCAATATCTCAATCTCTGGAGTTAATAATTTCCTTTTTTAATATTTTGGTGGGTTGGGTATTTCCAAATCAA TATCTCAATCTCTGGAGTTAATAATTCCCTCCTCTTTAAACTCATAAAATTGATGGGTAAAAGTGGAGACGTTAAAAGTA CATAAAATTATTTTTATTTATTAATATTGTTAGGAAATTGTTGGATAGCCCACGATGAGAAAAATAAGAAGAGAAATGAT GATTGTGATATGAAAAGAAGGGAGAGATAGAGAGAAATTGAGTATATTTAAGATGTTTGTACTATTTAAGTGTCTATTTA AGATGTTTGTAGTTTGTACCATTCAGCCAAGAAAAACGTTTCTTGCTTTGATGTGTGTTCTCGAGATTGGTTGAATGATT TTGTTTGTGAAAGTAATTTATTCATTTTGAGTGTAATTATTTGTTACTTTATTATTTTTTATAAGCATTTAAGAATTTGA TTATTTTTTTTATTTAATTGTAATGTGTAGATGCTGATGAGAGGTGGTGAATACTATGAATGGTGACAAAGATTAGAAAG AAGATGATGGCGTTGAGGGAAATGAAGATGTATAAAAAAGATGTATCTTCTTTCAAGAGAGCATCAATTGTTTCGAATTC AGAAGAAGAAGATGATGATTGAATCACCAGAGGAATTTGGTTGAATTATATCTTTGGTGTATAAGAAGACTATGTCGTTT GTATTTTGCTTAATTTTTTGTAGTTTAAAATATTTAAACAAATTTGTGGTTCTGTTGTTTAAGCTTACATTTAAGTCACG TGATTGTGTTCCGTTAGACTTTAAGTCCGGTTTTGAATGATGGGGAGGATCCTCGTCGTTTTAACTCAACTTTTCTTTGC CTCATTCCTAAGGTGAAGAAGCCCAAGCATGCAGGCGAGTTTCGTCCTATCTCTCTTTGTAATGTTTTCTTTAAAATTAT TACCAAGACGGTGGCGAATAGGTTGAAGGTGGTTCTCCCTGAGATTGTGATGCCTTATCAGAGTGCCTTTGTCCCAGGAA GACTGATTACAGATAACTCTCTGATTGCTTTTGACATCTTTCATTACATGCGGAAGAGGACTAAAGGGCGGCATGGGGTA GTTGGATTGAAGCTGGATATGGCAAAAGCCTATGATAGAATTGAGTGGAGT
CDS sequence (LotjaGi3g1v0423000.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTTCATCTTCTTCCCACCGCGTCCCTCTCAAAAAGTACGATGTGTTTATTAGCTTTAGGGGTGAGGACACGAGAGA TAACTTCGCTAGGCCTCTCTATACTGCTCTCACAAAGGAGAAGATTGAAACCTACATAGATTATAAGCTTGAAAGAGGAG ATGATATTTGGCCAGGACTTGTAAAAGCAATCAAGGACTCTGTGATGTCCATCGTTGTGTTCTCAGAAAGATACGCAACT TCAAGGTGGTGTTTGAATGAACTCGCCCAAATAATGAAGTGCAGAAGTTATGAGGGACAGGTTGTTCTTCCACTGTTCTA CAAAACAAACCCAACAGACGTGCGGCACCAAACAGGGAGTTACAAGAAACCATTTGAAGATCATTATCGAGCCGGTCGTG ACGACGAAGAAAAGGTGGATAGTTGGAGAGCTGCTCTCAATCACGCAGCCAATATATCTGGATGGGAGTCAACTACCCAC AAGGACGATTCTCAATTCATAAAGGAAATTGTCAAGTATCACTACTACAGAAAACACCTTTTGCCACGCCTCAATTGCCA CGGTTATAGGCGGAACCGTGGCAATAGGTCAGTTACCACGGTTATACACGGAACCGTGGCAAAATGGTACAATATTTTAT TATTTTATTTAGGAACCGTGGCAATAGACAATTTTTTTTGA
Protein sequence (LotjaGi3g1v0423000.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSSSSSHRVPLKKYDVFISFRGEDTRDNFARPLYTALTKEKIETYIDYKLERGDDIWPGLVKAIKDSVMSIVVFSERYAT SRWCLNELAQIMKCRSYEGQVVLPLFYKTNPTDVRHQTGSYKKPFEDHYRAGRDDEEKVDSWRAALNHAANISGWESTTH KDDSQFIKEIVKYHYYRKHLLPRLNCHGYRRNRGNRSVTTVIHGTVAKWYNILLFYLGTVAIDNFF
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 |
|---|---|---|---|---|---|---|
| PANTHER | 1 | 172 | 172 | 2.2E-68 | – | |
| PANTHER | 1 | 172 | 172 | 2.2E-68 | – | |
| SUPERFAMILY | 4 | 155 | 152 | 4.19E-39 | ||
| Gene3D | 11 | 180 | 170 | 1.8E-65 | ||
| ProSiteProfiles | 12 | 152 | 141 | 27.654 | ||
| SMART | 13 | 152 | 140 | 3.7E-41 | ||
| Pfam | 13 | 173 | 161 | 2.1E-42 | ||
| TMHMM | 200 | 222 | 23 | - | – |
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 , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| 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). | ||
| 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. |
Expression pattern of LotjaGi3g1v0423000.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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