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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0180300 |
Transcript ID | LotjaGi2g1v0180300.6 |
Related isoforms 7 | |
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|G7LC17|G7LC17_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi2g1v0180300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:60230336..60244795) extracted from Lotus japonicus Gifu genome v1.2.
CTCATGGGTTTTTAGAAAAAAAAATATAAACAAATACCCTAATTGGTTAAAGAAAACAATTAACCCCACTCTTGTTACTT TTCTCTCCCAGCCGTAACTCCATTCTCTTCCTCGACAATTTCCTCCCATGCCTTTGAAACAACTCGTCCTTCTCCTTTCT CTTATACCAACTATCCCTCCTTCCCAAAAATCACTACCAATCCCTCTGTAGCATACACACTCAGGAACGAATTGTGGCAC TCAATTGCAAAGGCACTTGGTTAATTTATGGGGTTTATAATTGGTGCTTTAAGGAAGGAAGGGAGTGCCCACATGTCAAG GTTTCTCTGTTAATTGCATTGAGGTATGCCGCACTCACAAATTTTAGAAATAGTAGTCTGGTATGCTAGACTTAAAGTAG AATTATTTAGGGCTTTTGGGTAAATAATTGGGGTTTTCGTAGTTGCTCACGGGTAGTATGACATAAGTTAATTATTGCTG AAGGGTTGGAATATGTTCTTGGTGTTCAGATTTGCTGGGCGTAGGTTCGTTTGCGCGTCGCGGAACTGTTGAGGACGGTC CAATTATTTCGTCATAGTTGTGAGTGATTTTCCAATCACTGTGACTTTTTTTAATAATTATATAATTGCTGATTTGATTA TTTTATCATATCACTATTTATTTAAATTGGGGAAACATGTTTTACAGTTCTTTAATTATTTGAAAGCTGGTTTTAGGAAG TTGATTTGGAGTCTGATTATGAACTGACATGAGAAAAGAATTTATATTGCTTTGATTTTGGAAATTATGTGAAACTGAGA TTATGAACTTGGAAAGTTGATTTTGAGACTTTTGATGAGACTTGAACTGATTTGAGAAAACGGTTTTGGGGATCCTTGAT AGAACCCCGTAGCCGTTAACGGAGGTAACGGCCTAGGTGCACCTAGCTAGTTTGATTCCGGGAGGAGAGGGCTATCCGTT TGATGGAGCCGCCAGTGCACGGAGAGGGCTATCAACGAGATGTAGCTTCCCCCGATGATATGATACGATGTGACCAGTGT TGTTAAATAGCGGCGATAGCGGCCGCTACCCGCTATAGCGTAGCGGGAATTTGCTTCAGCGCAATCGTTATGCCGCTACA TAGCGGCCACCGCGATAATCGCGGCCGCGAACGCCATAGCGGCGTTATGCCAGAAACGGAAATAACGGATTTCATGGAAT TCAAACGTTTTTCTGGCTAGTTTTTAGGGTTTTAAAAACAGCATATAATGGGCCACCTCCTATTAACGCTAATTCCCATT AATTACCCTAATTCCCTAATAACTATTCTCTATATTAACGCTTCAACTCTCCTCTCCTCTCTTTCAAATTCTCTCTGGTT CTCACTTCTCAGAGACTACACTCTACAGCACAGTTGCAACTTGCAAGCAAACCTTCTCAGAGTTTCTGCTTTCTGCTGAG TAGATCATACTCTTGTCCGCATCCTCTCATTCCTCTGTTTTTTGTTGAAAACCTATACTCTGTTCTTCAATGTTTCTTCT TCCTTTACCCTGTTTCACAGTTTTCTTCTCTGTTTTTCAATGTTTCTTCTTCCTTTAACAGTCATCTTCTCTTCTCTTTT TCTTTTATTTTTGTTCAAAACTCATGATCTGTTTTCCATTGTTTCTTCTTCCTTTACTAAACTTATAATATCTTGTTTCA CAGTTTTCTTCTCTGTTCAAAACTCATGCTCTGTTTTCCATTGTTTCTTCTTCCTTTTCTCTTAACTTATCTCTTACGTA TTCTTATCTCTTTAAATTGTGCTCTTTTGATACTTGCATTAACATTATGTTGTTTTAAGTACTTTTGTTATCTGTTTTGA GCTGTTGGACAGCCTTGAATTATGTTGTTTTGAGACTTTGAGTTAAAATTATGTTGTTTTTAGCTGTTTTTTGTATAATA TTGTACTTATTTTAACCGCTATGCGGTAACCGCTATTTGCCCGCGACGCGATCCGCTAAACGAAATAGCGGATTTTTGCC TCGCCGCGATTTTCCGCGATCGCGATTTGACAACACTGGATGTGACATGTGATATGAGAGAGGAAAGGGCTATCCGTTAG ATGGAGCCGCCCCTATTGGATAGGCCATCCCTTAGGAGGAGAGGGCTATCAACGAGATGGAGCCGCCTCACGGTTCTACA TGTGTGACCCTATTAAATTATATTTCCGATTTTGAAACGCTTTCATATGATTGACATGATTTTTATTCAGTTTCATTGAA ATGGTTATTTATAAACTTGGCAGTTTGATTCTTATTAATTTTATTAATATTATATATATTATACACTCTGAGCTGATAGT GAAAAACTCGTGCTTCATATGTTTCCCCTTTCCTGTTCATGGTGGTTGTTAAATCCTCACTAAGTCTTTGTGACTTACCC CATTCATTATTTTCCCTCCACAGATTCACAAGCAACTAAGTAGTAAGCTGGTATCAGATTCAGATCGTTCAATTTATCTT ATTGGTAGGCCTCCTTTGGTTGGTGGCTCGATTGGTGTCTTTTATTTGATTCTAGTTATCTGCAGCTATAGGGAGTCTTA GAAGGATTTGGATTTAAGATTGTTATTTATTGTTTTATTGTAAAAGTTGCACTTGAGTGCTAAAATTGAAAATTTCCTTT TAATGAAAGTATGAAAATGGAGATCATTATTTGACAAGTTTTGTCATTTAGATATTGATGTTACAGATGAGATCTTGTAT ATTTATTTTTTATAAAATATAGAGAAACATATGTAACTTTAGAGAATAGTTTGGAAAATGATTTTTGTGAGAAACAGGCT TGCCAGACTAGAGTGTCAGTCTGTGCGCCGGTCACGGCTTAGGATTTTGGGTCATGACATATATATTATCAATACTTTTA CACAAACTTCTCTTCTTATAGGATGCAATCTGTTTTATCATATATTTTGTGATAGAGACAGCAACTTGTCTTCTTGTAGG ATTCTGAAGTTTAGCCGCTGCCTCAAGGAGCTTTTATCACAGACTGGTAGTTTCAGATTCAATAATCTCACGGTTGATAT GTGAAACTGTTTTTGATGGAGCCTGTAGGGGAACTATGCTGTGGCATTCTTTTCTCCAGGTGTTGTGAACTTCATATATT CAAACAGATATTTAGTTGAATTTGCAAATCGAATATGAGAAAATGGTTGATGCACTGTGTGTGTGATTTTTGTTTACAGA AGCATCAAATTGAATTTCGCCACATCAAAAAAAAAATATTTTTATTTTGATTGAAATTATAAAAAATATAGCAGCTCATA GAATGTGGTCTTATGTGGTATAGTATGAGCGAAACTGTTTTACACTGAATGTGCATGAAAATTATACTCATCGTATATTT ACTATGTGTACTAATTTTTATTTGTTTCTTCAAAAAATGACTAAAAGTTCCATTTGAATGCATCAATTTTATTATAGAAA CAAGATGAGTTGCATTGACATGTCTTGCGAGTGTACCTAACTTTTTACTGGTTTATGGATCTTATATTTGAAGAGGCACC GACATATAGCATCTATATATTGCCACAAAATCTCTCAAGAGAAATGAAGTTAAAATAAAATCAGGGGAAGCAGTATATAT GAGGAGGAAATAAGGAAGGACTATGGAGTCAAATGTGCTGTCAATAATACAGGTGAGTGTATGATGGCAATTCTCTGTAC ATACTTCAAAAGTATATTACTAGCCTAATTCATTATTTCTAATCATAGATCTCTATCTACAATAGTGCTTGTTAGGTGTG GTCTGAATTGAAAGCTGAAGGTATGTAGTTCAGAAAAGTAACATAAACAGGATCACATTTGTTGGAGAATTCTAGGCATA TGATTTTAATTTTCCCAAATGGTGGTGATGGCTAACTTCGAAGTCTCTTATTGGTTTTGGTTTATAATTTTCAGAACCTA AATTTTTACAGAATGTATGATGGCATTCTTTAAAGTGTTCCTCTTTTGGAAGATGTGTGGTCTTACACGCTAAAAATAGT GTAAAGTTGAGAATTTGAAATTGGGTCTTCTGCTTTTATGGAGACTTTGAATCACGTTTGCTGTATTACAAGCTTTTATT TATAGAAAAGTAACAAATGGATAATGTGACACACTTCAAATTACAGGGAAAAGAATGCATAGGATTACTAAATCCCAATC ATTGGAAATCATTTGTGATACTGACTGAACATTTAATTTTCTTTCAAGCAGAAAACAGAAACAAAAACCTGGGAAGCACT AAGGGGCATTAACTCATGTGTACTAGTGCAGCTTATGTAGAAGCTATTGCTTGAATGCTAGGATTTATTTATGACAAAGG TAGCAGAATCAGAGGCCACAGAGATGACAAGGTGAGTGTAAGCTTCTTTATTGGGAGGGTATGCCTCCTGGTAGTAGATG CCAAATTGTTAACTTGGTGCATAAATCATGATATTGGAATCCATGTATTGACAGAGAAAAGTGGCACGGAGGACAATATC CGAGTCACCTGTCCTTATAAAAGGAGAAAATTAGACTTGAACTTGGCACCACTTCATGGTTGTTATGTTAATATTGAGCT GACTCTATAAAGCACAAGCTCTGGATCATTGTTCTCGGGCGTTGATTCATATGTGAATAAAAGGGAATGAGATCAACTCA GAGGCTTCACCATACATTTATATTATGATCACATGAGATGTTGAAGTAAGTATGTCAATCCCTTCGCACAAAGTTTTCAT CTTATAGGATATACTATGTTTGTGTACATATTTTAAAATTGTTTCTTTTATGATAGAGTTAACTTCACATGATTAAATTA TTTAGATATCTTACCATCATGTTTGGGCGGTCACGGCGCTTGTCCAAGTCCTATTTTGTAAATAACATTTCTTGGATCTT ACATTTACATTCATCAGTTTGCTTCTTTTTTTCCCCTATTCTATGCCTTCACTTTTAGTACCAGTTAAATCTGTTCAGGA TTTGCAAATATTTGCTTAGGCTGTGCATTCTTTTATGAAAACTGTTACCAGACATCTTGAATTATGCATTAATGCTCATA TCAGCATATATTAGTTAAAATTCCAATTGCAAACAATCTTAAAATAGTTCACTGATACTTTAACTTTAGTTCATTGGATT CTTTAATTGCAAATTAGTTTCAGTTGTCTTCTTCAGAAGCATTTTAGAAGGTTATTTAATTTGACGTAAAATGGAGTTTA ATTGTAGTAATTTAATGTCTATTCTGTATGGATTATTGTTGATGGAATTAGATTTTTTTCACAGCTAAGCCTCATCGACT CTATTTTGACCTTGACCAATCTTTAGGTTCCGCTGCACGATGTGGAAAAATACCATGAATGTAAAACCAATCTGGAGGAG CCACATTATCCTATGGAGAAGACTCTGAAGTTTATTTCTCTGCCTCAAGGATATTGATTTCAGATTCAATAATATCAAGG TTGGTTGGTGAATCTGCTAGTATTGGAGGTAATACAAAGGTAATTCATTTAAGGGATAAGTTATCAATAGATTGGCTTGT TTTCACCATAAAATGCACATTACGATTTTGACTATATTTTTATATCAAGTCAGTTAAAAAAAATCTCACTCCTAGCAGCA TCAAAGTGGAGAGCTGAGAGCTGGATCCTGGCATTGTGGTTAGGCAGTAGAGTGTACATTATAAAGAGAGTTACAAGCTA GCCTTCCTCTTTTGGAAGATGTGCTGTGTTACAGGCATTATAATATTCCTTTAACTTTGGAGTAACTAACTCATAATAAT AAATGGGACATCTAAGTAATCAAATGAGGTGTTTACACAGCTCTTGAAGTTTGTCTTTGTCATCTGAATCTCACTTGAAT GAATCTGTTTTGTCATTTAACTTCAGATCTAATGGATTAGGAGTACGAGACAAGTAGGAAATGCCACCATGCCTCAAATG ACACAAGTATGACTTGGATCAAGAACACCAATGTGATGATATCAGATTAAGATGGCCAGCGACAATGGTGCTTGTGTACT AATCTCTTCATTTATGCCACTGTATTCTACTTTCTCTTTTCAATGAGTTTTAAGAAATGCTGTGAAGAAATTCTTTTCAT CCATCCTTGCTAGGTCATTATTTATTTTTCTTGGTAAGGATGAAATACAAGGTAATTCCTTTGACTTAGAGTGAATTCAT TAGGTTTCACTATTGAGTATAAAGTATGTCCTATCTTTGTTCATGCACAACTCAGGTTATCGAAATGGAAATTGCATACT GTCTGTTTCCTTAGAGATGTAGCTTAGAACTTAATAAAAAATTCTGGTTTGGCTTTAATTTAAGCTAGCAAGTACCAATT TCTTATTTGAATTGCTTAATTGTGTGACACACTCTTATGCCTGGTTACTAATTACTTGCAAATCCATTGTTACAGCAAAA AATGGCATGCTGTGTAGTATGCAAAGTTTTTCAATCGTAGAAATGGATGTAGAATGTAAGTAACATAAAACATTGTGATT TTCACATTATCAATGTATGTTATTCTTAAATGGAAATTTCAGAACTTTTTGATGCCTTACCTTATTGTTTCTAAGCTGTT TGATTTTTTAGGTCCAAAAATTTCCTACTATCCATCCATACTGATGTTGCGCTCTATATTCGTTGTTCTTTTGTTGTTTC TTAGAAACATTTATTGATAAATGGGTCCATTTGATACTTGGTAAAAGACAGATTTCTTGCTAGTCCAATTTTTACAGCTG AAAATGGCTTTTAGCTTTTTACCAAAATAAAACAAACGGTTTTGATTTATACCTTATTTTCTTAGATCTCATTTTCACTC TATTATTATACTTTTCAAAATTAAAAATATCTACCAGCAAAAATAATGTAAAGAAAAGAAAGACAAGGAAACATCACTAT TTGGCTTTTGACTGTCTGTGCCAAAACAAACACACGAAACTTCCCGAAAATCACTATCTCTACCAGTTTCCTTTCTTCTC ATGGCTCTTCTACCACCACCATCATCATCTTCCTCTTCCATCACCTATTCATTCACCTATGATGCGTTCTTCAGCTTCAG GGGTTTTGATACCCGCTACGGCTTTACCGGAAATCTCTACAAAGCTCTCTGTGATGACGGGGAGCTTCATAAAGGGGATG AAATCACACCAGCACTTGAGGAGGCCATTGAAAAATCCAGGATTGCCATTGTTGTGCTATCCAAAAACTATGCATCTTCC ACTTTTTGTTTACATGAACTTTCCATAATTGTTTGGCCAGTATTTTATGATGTGGATCCTTCTGATGTGCGAAAACAAAC AGGGACATATGGAGAAGCAATGACCCTGCATACCAAGAGGTTTGAAGATAACAAGGACAAGTTGCAAAAATGGAGGACAG TTCTACAACAAGTGGCTGATTTGTCTGGACATTTCAAACACGGGTGTGTTTCTTATTCTGATTTCATTCCGTTTTAGATA TTGTCTAATTATTACAAAAATTGAGTTATAGTGAATAAGTAATACAAACATGAACATGATGTATTAATATTATTATGACT TTACACAAACTTCACTTCTCTTATTGGGCAGAGATGGATATGAACACAAGTTTATTGGAAAGATTGTTAATGAAGTATCA AGAAAGATTAATCGTGTTGCTTTACCTATTGCTGATTATCCGGTTGGACTACAGTCCCAAGTGCGACAAGTAGTTTCACT TTTGGATGTTGGGTCTATTGATAGAGTTCACATGGTAGGGATCCATGGAACAGGTGGAATTGGTAAAACAACACTTGCTC TAGCAGTTTACAATTCCATTGCTGACCATTTTGAAGATTTATGTTTTTTGGAGAATGTTAGAGAAAATTCAAACAAACAT GGATTACTACATCTCCAAAAGACCCTTCTTTTGGCTGTCCTTGGAGAGAAGGATATTGAGATAACAAGTGGATAACAATG TAGGCTCCAACAAACGAAGTTCCTTCTGATACTAGATGACGTTGACAAGGAGGTGCAATTACAATGGATTGTTGGACGAC CTGATTTGTTTGGTCTTGGTAGTAGAGTCATCATCACAACTCGGGATAAACACTTGCTAGCATGGCACGGGGTTGTAAGA ACAAGTGAAGTGAAAGAGTTGAAGGGGAAAGATGCTTTTGAATTGCTGAGATGGAAAGCTTTTAAAAATGACAAAGTTAG ACCAAGTTATGTAGACATAGTAAACCGTGCAGTGGCTTATCCTTCCGGCCTTCCATTGGCTTTGGAAGTAATTGGTTCAA ACTTGTATAGAAAAAGTATACAAGAATGGGAATCTGCATTAGAACAATATGAAAAGGCTCCAGATAAAAAGATCCAAAAG ATACTTAAAGTGAGCTTTGATGCTTTGGAGGAAAAAGAGCAGAGTGTTTTCTTAGACGTTGCTTGTTGCTTCAAAGGATA TGAATTAAAAGAGGTTGAAAGTATACTCAATGCTCATCATGACCGATGCATGAAGTATCAAATTGGTGTGTTAATTGATA AATCTCTCATAAAGATTACTCAAGATGGTGAAGTGGCACTACATGACTTGATTGAAGTTATGGGTAAAGAAATTGTCCGA CAAGAATCACCGAAAGTGTTTGGAAAACGTAGTAGGTTATGGTCTCCTAAGGATATAGTAGAAGTTTTGGAAGAAAATGC GGTAAGACAATAAATTGTGTTTTTTTAACCTTAAATTACCTTTATTATTGTTGCCACGAATGTTCATGTTACATATTTTT GTCATTTATAATATATAAATATCCATATTTATTGTTGTTGATGTCCTAATGTATGTATTTATTTTGATTGTATTTCTTTT TTTATGTTAAAGGGAACAAATAAAATTGAGCTGATATGTCTAGATTCCCCATTATTTGAAGAAGTAGAATGTGATGGGAA TGCTTTCAAGAAGATGAAAAATCTTAGAACACTTATTATCAAGAGAGCTCATTTTTCTGAAGGTCTGAAGTATCTTCCAA ATAGTTTAAGAGTATTAGAGTGGTGGAAATATCCTTCAGAACATTTACCATATGATTTTCATCCCAAGAAACTTTCCATA TGTAAGCTCCCTGGTAATTGCTTTTCATCATCGGAATTGCTTAATTCATCAAAGGCAAGTTTAATTATGATTTCTTTATT TAATCTGTCAATAAATCACATTAAGATTATTCTTTTGATTAATGCCTCTACTTTTCTTTTTCTCTTTCTTTTTTTTAAGC AGGGGTTCGTGAATATAAAAATTTTGAATTTGGAAGAGCGTAAATATTTAACACACATATATGATATATCTAGTCTCTCA AATTTAGAAGAATTTTTATTCAATGGGTGTGACAATTTAATTACAATTCACAATTCGGTTGGATTGTTGCATAAACTTAA AATCTTGGATGCTAGTGATTGCCCGAAGCTGAGGAGTGTTCCACCCCTCAAGTTGCCTTCACTTGAACAGCTCGAGCTTT CAGGTTGTTCAAGTCTGAAGAGTTTTCCAGAAATATTAGAAAAGATGTAAAAGATAACCTTTCTTGACTTGCAAAACATT TATATAAGGAAATTTCCATCTTCATTTCAAAATTTGTCTCGACTTAAATTATTACATGTAAATCTCTTGTTGTCAATAAG GGGCTTTGCCACAATACCACAGCTGGCTTCGGTTGTGGTCATGGATGGTGGTGTAAGGGGGCCGCTATTGGAAATGAAGG ATGAAGGTGAAGAACAAGTGAGCTCAATGCTGCTGTCTTCAAAAATTGAATGTCTTTGTCTCCATGACATTAAGGGAGCA AATAAATGGCTGGCATTAGTTCTCCCGTACTTTGATAACTTGAAAGAATTAGACTTGTCTCATAGTAATATCACAAGTGT TCCAGAGTGCATCAAAGAATGCCGCTATTTATGGAAGCTTGAAATGGTTTATTGCTATGAACTTCGAGAAATTAAAGCAA TTCTGCCGAGCTTAAAATATTTATCAGCAGTAGGGTGCAAATCCTTGAATTCCTCGAGTAAAAGGATCTTACTGAAGCAG GTTAGGTTTTGATTTGTTTGGTTATGTTTTTGAATGTATTTGATTTGATGCCAAACAAATTTGTGAGCTAAATCTTAAAT AACAGGAACTGCATGAGCCAGGAAACACCTTCTTTGGTTTTCCAAGCCCAAAATCACAGAGGGTTCCAGAGTGGCTCTGA ATCATGGCTCTCAAGCACCTTTTCTGACATGGAGGAAAGCGAAACAGATGAGTCTTCCGACTATGTGACTCCATCATATG ATGTGGAGGAAAGTGAAGGAGACAAGTCTTTCGATCACGAGACGTTCTCCACAATTCCATGATTTTAACTATGAATCATC GCTTCCAGGCACTGATTCTGATGTGGGGGGAAATAGAAGGAGATGAAACTTCTGATTCTAATACATTTACTAATAGTAAT GGCTACAAAGATGACTCATCTATATTATTATCACATGAGATATTGAAGTAAGTACATCAATAATTTCAGACAAACTTGTC TTCTTGTAAGATGCATTCTGTTCAATTATATTTTTTGAAATTGTTCTATTTTATGATACAAATAATTTTACACGATGTAA TGATTAAATTTGAATTACTTTAGATTTGGACCAAAATCTTTTTTTTTCTTCTTTCCTAGCAGCATCAAAGTGGAAAGCTG AGAGCTGGATCTTGCCATTGTGGTTAGGCAGTAGCTGCTGTTTCTGCTTGTCCAAGTCCTATTTTGTAAATAATAATTCA TGGACATTACATTTGCATTCATCAATTTTTCCTTTTTCTGGTACCAGTTAAATCTGTTACATATTCATGATTCATAAATA TATGCTTAGGCTGTCCAGTTTTTTTATGAAAACTGTTACCGGACATCTTGAATGATGCATTTGTGCTCATATAGTTAGAA TCTCAATTGTAGCCAGCTCACTTTAAACTGGAACATTGGATCATTTGACATAAAATGGAATTGAGTTTTAGTAATTCAAT TCCTGTTCTGTTTGGATTATAATTTATGGAATTAGATCTTTCATAGCTATCTCTCATCTACTTTATTTTTACCTTGAAAA ATCTTTAGGTTCCATTGCACATTGGGACAAAATGCCATGCATGGCTAACCAACTAGAATGAGCCATCCCCCATGGAGAGG ATTGTGAAGTATAGCCACTACCTCAAGGAGATTGATCACAGTTTGGTACTTTCACATTTAATAATCTCAAGGTTGATTGT TGAAACTGCTTTTGATGGCGGTGAACCTTCATGTGGCATTCCTTTTCCCATGTGTTATGATCAATGCAAAGGTAGCACAA TGGAGATATAAAGTTCTCAAAAAGATTATCTTTTGTTTTCACTATAAAATGTAAACTAGACTTCAGATTACGATTTTCCT ATCAGTAAAGTCTGTTCAAATATAAATCCAACTCGAAAGAGTTCTTGCTTTTTCTTCATAATTTTATTCTCTGGGTCTGT TTCATATAACACAACTATAGACTATAGAAAATAAAAGAAAATATATTTAATGGAAATGATGGACTCATATATTCAAACAA ATATATTTAGTCAAATTTACAAATATATTCGTCTGACACGAATATATTTGTTTGAATTCGCCTGATTTCTTGTTTGTTGT TTTGAAAAATAATATGGCTGAAAGCACCATTCATCAATTTGATTGCTTTGGAATTTAACTTTTCATTTATTTATTTATTT ATTGCAGAAGTGATTTTTTGTGGAAACAAGATGAGCTGCACTGAAATGATTTGTGAGTGTAATTGACTCTTAATTGGTTC TTGGATCTTTGACTTGAAGTGGCGCCAACATATAGCATCTGTTATCACAAAATCTCTGAGGAGAAATAAACAGTAAATAA AGCTAGTGGAAGCAGTATAATGAAATACAAGTACAATGTGAAGGTAATAAAGAAAGGGCTAGGGAGTCACACGTGCTGTC AATGGTAGAGATTGACATTTTATTTCTCTGTTGTAGTTGTCTCTGTTCTTTGTTGTAGTAATTGGCTATTTGTTCTTTGT TGCTTTTGTTTTCCTTAGTTGGGGGAATGTTAGAAGTATACTTTTGGTACTCGTAAGTCTGTTAGGAGTTAGGTGTTCTG TTGTAGTTGGCTATTCTATTTTAGTGATTGTTAGTTAGTATATTAGACCACATGCTTCAGTTAGAAGCAATAGTTTGAAG TCTCAAGCTATAAATGTAATTCAGCTCTTGTGAACTGAGTAGTGAGGAAATAATTATTCATTCACAGTTATCAGATTCTC TCTCTCTCATTCTTCTTACTTGGAATTCTAAAAGAGGTGAATGTATGATGGAAGTTATCTACAAATACTTCAAAAGTATA TTACTAGCCCAGTTCGTTATTTCTCATGTTGGAAAACAACTCTTTTCTCTAAATGATAAAATGAAGATGTTCAATGTCTG GCATTAACTCTCCCGTGGTTTACAAACTTGGAAGAATTTCTTCGTAAGTGTGATATCACAACAACTCATCCTGAATGCAT AAAAAAATGTTGGTTTTCATGGGCGATCAACTTCGAGAAATTGATGGGATTCCATCAAACTTAAAATATTTATCTGCAAA AGACTGCTTATCCATGAGTTTCTCAATTCTCATGTAGAAGCTTGTTACTTAAGCAGGTTAGGTTTTTATTATATGTTTGA AATGTATTTGATTTGAAAGTTAATTATATTTTATGGGTTACACCCTAAACTAACAGGAAGTTCATGAGGCTGGAAACACA CACTTCACTTTGCCAAGCCCAAAATCAGGAAGGATTAATTCCAGAGTGGTTCAAGCACCAGAGAAACTGAGGGGAGTTTT CATCATCAGTTTCTTTCTGGTTTCGTAAATCGTAACTACTTCCCTTGCAACTTACTACTCTGTCTCCTTTCAGAGACTGA TGCTAATTCTAAGCCCTCACCCTCTACTTCAGAAGCTCTAATTCGAAGCTCTCAAGCACTGATTTTGATGAATGAGACGA GTCTTCCAATTATGAGACTCCTCGTGTGATTTTAACTCTGGATCGTCTCTCTCAAGCACTGATTCTGATGTGGAGGGAAA AGAAGATGAGTTTTCCATCATACAATGATTTTAACTCTGAATGGTCAGTCACTCTCAATTTCTCATTTTAACTCCACCAT ATTATTTTATTTTATGATAGAGATATTTTTGCACAATGTAATATTTGAATTTTAATTGTTCATATCCAGACCAAAACCTT TTTTTTTTTCTGGTTTCTAGCAGCTTGGGAGAGGGAGGGAGGCTTAGAACTGGATCTGGAAGTCGTCGTTTTTGCAGTTT ATCATCCAGGTTTCTTGTAACTAACATTTTTTTACCAATTATCTCTATCCATTTTGAATGTGTTTCCAATTTTCCTGTGC CTTATAAATCTGTTATGTATTCAATGAATCACAAGTACATGCTAAGGCTGTGCATATTGTTTATGACAACTGCTATAGTG CTATGCTACAACACATCTTGAACTTTTTCCTAGTTGTAATGATTTTTATACTTAGCATATACTTTACTCATGAAGTATGA ATGCGACAATTGCGTGATGTGATGTTTCTGGAAACGTTGAACTGTCAGTGTGTGAAATGCCAGCTCCAACGCGAGGATTA GCAACTTTTATCCTATAATAGATATTTGTTTGGTCAAACCATATTATATTCACTCAATGAGGTAGGCATAGCTAGGGGTG TACAAGGGACGGGTTGAGACGGGTTTTGGTTAACCCTAACCCGGCCCTAAATATTGATCGGGTCAATTTATAGACCCTAA CCCGTCCTTAGACCCGAAGCGACAAGATATTATGCGGGTCCAATTTTGGACGGGTCTATGTAGGACGGGACCGGGTTGGC CCGAGGGACAATAAGTTTAAGACTATTTGATACTAATTGTAAGATTTAAAGATAATAACATACTAAAAGAGTTATAAGTT GGAACTGTTTTTTAGAATAAATAACTTGAAAGGATCCAATTCTTTCATAACCTATTGCACTTGAGAGGTTTACATTTTGT TTGATCATTTCTTCACTTGTCTTACATATGCATAATACACACACATAATTTTCTCTTTTTAGAGCATGAAAGTGTCCATA GTTTGACCAACGTTTATTTAATTCATAAGGTAAATGTTAAACATTTTAATTTCATCTACAAGGTAAGATAAATTTGAGCA TCATGTATCACATTTTAATCATTATAACAAATTAAAATTTTATAAAATATATATGTGGGACGGGGCGGGTGACCCGAGTG TCAACCCGAACCCGACCCTACCCGAAGTCGGGTAACTCAAAGATCAACCCGAACCCGGTCTCTTTTAATGATCGGGCCGG GTTGAACCCGGCCTTAAAGGCTTGGGCTGGGACGGGTTGGCGGGTAGGGCCGGGTCTTGTACACCCCTAGGCATAACCCC TTTAGGTTTGTTAAAGTGTATAGACCACTAGAGAGATAGGAAGTGAATATATGAATGATA
CDS sequence (LotjaGi2g1v0180300.6) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTCTTCTACCACCACCATCATCATCTTCCTCTTCCATCACCTATTCATTCACCTATGATGCGTTCTTCAGCTTCAG GGGTTTTGATACCCGCTACGGCTTTACCGGAAATCTCTACAAAGCTCTCTGTGATGACGGGGAGCTTCATAAAGGGGATG AAATCACACCAGCACTTGAGGAGGCCATTGAAAAATCCAGGATTGCCATTGTTGTGCTATCCAAAAACTATGCATCTTCC ACTTTTTGTTTACATGAACTTTCCATAATTGTTTGGCCAGTATTTTATGATGTGGATCCTTCTGATGTGCGAAAACAAAC AGGGACATATGGAGAAGCAATGACCCTGCATACCAAGAGGTTTGAAGATAACAAGGACAAGTTGCAAAAATGGAGGACAG TTCTACAACAAGTGGCTGATTTGTCTGGACATTTCAAACACGGAGATGGATATGAACACAAGTTTATTGGAAAGATTGTT AATGAAGTATCAAGAAAGATTAATCGTGTTGCTTTACCTATTGCTGATTATCCGGTTGGACTACAGTCCCAAGTGCGACA AGTAGTTTCACTTTTGGATGTTGGGTCTATTGATAGAGTTCACATGGTAGGGATCCATGGAACAGGTGGAATTGGTAAAA CAACACTTGCTCTAGCAGTTTACAATTCCATTGCTGACCATTTTGAAGATTTATGTTTTTTGGAGAATGTTAGAGAAAAT TCAAACAAACATGGATTACTACATCTCCAAAAGACCCTTCTTTTGGCTGTCCTTGGAGAGAAGGATATTGAGATAACAAG TGGATAA
Protein sequence (LotjaGi2g1v0180300.6) extracted from Lotus japonicus Gifu v1.2 Proteins.
MALLPPPSSSSSSITYSFTYDAFFSFRGFDTRYGFTGNLYKALCDDGELHKGDEITPALEEAIEKSRIAIVVLSKNYASS TFCLHELSIIVWPVFYDVDPSDVRKQTGTYGEAMTLHTKRFEDNKDKLQKWRTVLQQVADLSGHFKHGDGYEHKFIGKIV NEVSRKINRVALPIADYPVGLQSQVRQVVSLLDVGSIDRVHMVGIHGTGGIGKTTLALAVYNSIADHFEDLCFLENVREN SNKHGLLHLQKTLLLAVLGEKDIEITSG
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 | 9 | 143 | 135 | 3.01E-32 | ||
Gene3D | 14 | 170 | 157 | 1.8E-48 | ||
PANTHER | 17 | 267 | 251 | 2.9E-98 | – | |
PANTHER | 17 | 267 | 251 | 2.9E-98 | – | |
ProSiteProfiles | 18 | 141 | 124 | 21.118 | ||
SMART | 19 | 141 | 123 | 2.8E-28 | ||
Pfam | 20 | 168 | 149 | 4.4E-28 | ||
SUPERFAMILY | 168 | 264 | 97 | 3.37E-19 | ||
Gene3D | 171 | 267 | 97 | 5.7E-16 | – | |
Pfam | 183 | 234 | 52 | 8.5E-6 |
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. | ||
Molecular function | ADP binding | Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate. |
Expression pattern of LotjaGi2g1v0180300.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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