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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0212200 |
Transcript ID | LotjaGi3g1v0212200.3 |
Related isoforms 2 | |
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|G7L5T5|G7L5T5_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi3g1v0212200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:31833713..31845131) extracted from Lotus japonicus Gifu genome v1.2.
TTTTATTTGTACCGTTATCCACCATCTTCTTCTTGTTCTTCTTCGCCTCAAACTCAGAGTTTTCCCTTCTCTCTGTTCAC TTTACAATGGAGGAAAACATCTTTTCTTCTATCTCACAAATGTGACTTTGGAATATGAGTCAACCCAAGAAAAAGCCATA TAAGTCCACAACAGCGCCAAATGAACCGAGGCTAGCATGCCACGTATCAAATAGCACTCACAAAATCCACGTATTTTCTG TTAAAATTCAAATTCAAAATACAGATATTGTTTTTTTTTAATCTCCACATGTTTGCCACCTCATCGCCGTCTTCGACTCT TCCCCTCTCTTACTCTCCTTTCTCCGAGTCACAAACTCACTTGTACGAACTCCGATTCCCCCGACTCCGAGTTGACTCCG CCGTCTCCGGTGTGAGGAAGAGTGTCAGTATGAATAACCTCTCACAGTACGAGCATCCTCAAGACGCCAACAATAACAAC AGCCACAAAGATGTCCTCTCCCACGACGATGCCGGTCCTCCCAACTCCGGCAAGCCCCTTGACCGTGAGCGCAAGCGAGG TTTGATTAATCTCATGGATTTTCATGCTTTTGTACGTTTTCAATCTAGATGAAGTGTGTGTTATGGTTTTGGTGGATGAT TGAATCGATTCATTGGATGTTGTTCAGGGGTACCGTGGACGGAGGCAGAGCACAACCTGTTCTTGGTGGGATTGCAGCAA GTTGAGAAAGGCGATTGGAGGGAAGTTTCTAGGAACTACGTCAAAACGCGAACTCCAACGCAGGTTGCAAGTCATGCTCA GAAGTACTTTATCCGGCAAAGTAACCCCAATCGCCGTCGCCGTAGATCCAGCCTCTTTGACATCATCAACGACACGGTAA TTTCAACATCATATCCTCTATCTTGTTAATTTTATTCCATTTTTTCACCTTGTTTCAATTAATTTATCCAGCAATCTCTG TATAGAAAAACCGAGAATGCTTTTGAGTCTGAATTATTGTTCAATTAGTTTTATTCCTAATCAAACTGAGCAGTATGTTT ACGGTCTTCTGTTACGGATATTGCATATTAGCTCGGCATCGACAAGCTCGATACCGAAGCTGAGGGACAACTGTTACGGG ATTTCGAACAAATTAGACGTCTCGGCTCAATTAGAAAGTTTAGGTTGCCGAGATACTGAACAGGGACGAGCAAGTTCACC GATCGACATCACTCAGACAAAACTCTTATAGGAATATTTCCCACGCCGTCAGAGTTTCCGAGCAGGGGCAAATGAAATAA AAATTTCATTCCAGTGTTTGGGTATTTTATGACGGAGCGGAACAAAGTTACCACTCCATTGTTTGGATAGTGAATGGAGC AGAATGAGTTATAACTTTTTATTCCTATATTACCCTTGTTTTAAAACAAGAGAGTATCATAATATACTTGACATTTAAAT GTAAAAAACAAGACATGCTAAAAAGCAATTGAAGAAAAAAACAATAGGAGGGAACTAAAATGAAGAGATTCAATGGAATG GGATGGTATCTATCTCACTCATTTCCATCCCATCTCATCCTTCATTAACTTACCAAACAACAGAACATAAAAATATTTTG TCTCATCCCATACCCCACTCCCTACGAATCCAAACATAGCCTAAGTTAGAGCACCGCTTTTAAAGGGAAAAAAATGCTAA AGGAAGCATGGTGAATATTATGAGTCAGTTGGTAGTAACATTTGCTTTCGTAATTAATTGATTAATAATCATAAGAACTT CGAAATTTGTTGTGAATTGAAAAAAAAATGCTAGTCTCAAACCTCATTTTTACGTCAATAGCATAAATTCTTTTTGGTTA ACACTGCGCCCTTTGATATTTTATTTTTCAATTTTAGGAAAAGATCTACGATGTGTTTTTGAGTTTTCGAGGAGAAGACA GTCGCGCAAAGTTCATTTCACATCTATATACCTCTCTTCAAAATGCTGGGATTTATGTTTTCAGAGACGATGATGAGATT AAACGGGGAGATATCGTCTCAGACTCACTAATGGATGCTATCAGCAAATCTAGAATTTCTATAGTGGTTTTGTCAAAACA TTATGCTAATTCAAAATGGTGTATGCTAGAGCTGCTTGACATAATGAAACATCGCAGAACCACAGGGCTGGTGGTTGTTC CGGTGTTCTATGAGGTAGATCCGTCAGATGTGCGTCATCAGACAGGTCAGTTTGGAAAAGCTTTTGAAGATCTTATAACA ACAATCTCAGTGGATGAACAAGACAGTGTGAGGAATTGGAGGACAGCACTTCTTGAAGTTGGTGGCGTAGCAGGTGTTGT CATCATAAATTCCAGGTACTTTAATTTTAATTTAGAATCTGTGTACTTAGTGTGGGAAAATTTACACATACTGCCTGTAG ATTTAAAATGAATAAATAAAATTTGATATATAAATATCAAAGTATAATTTTGAAATTTAGAATACAAATATAATCTATTA CTAGTTTGACGAGAGATGCTTTCTTCTGGTGGTATTTCTGGAAAAGAAGCAACCAGAATGCAAAATGGTGGGATTTTGTG AAGGCTTTACAGAAGAAATTCCAACCATAAATGGATCCTGACACACCAGTATATGTTCATGATTCTGGAGAGGACGAAAG CCGAAGGAAAAATGAAGTCTTGGAAATACAAGAGAAGGTCATCGAGTAGAATAAAAAGCAGAGATGACAGAGACCACAGT AGTGGCGGAGAAATGCTTAACCTTTGAGATGCAAAGACCTAATCTAGAAGCAGAGGTTGTAAGAAGAGGTGATGGGGTGA GTCTTGGATCCCGGTGGGGAAAGCATCGGAAGATCCATCAACAACCAAAGACGATGAAGAGACGCAAGTCTCTGAATAAA GAAGGGCAGCCAAGACAGAGGAATGGTATGTGGGTTAAATTTCTTTCAAGGATCAAGCATCTTCTACCACAGGCACTGAA CAGACTGCAACACTTTCCATGTTAAGTGTTAGAGTCTAATCATTCCCTAATTACATTCTATACTTATTTGTCCCTTATTG CGTCGCCTTCTTGATCTTTTGACCCTAATCATGGGCGCTGTTGTAGGCCTTCCTTTGTTGCCTCTCGACTGGTCTACCCT CGTCATGCTTCATAATGATCAACGCTTGTTAAGGAAAAGGACCGCTCCTCATGGATGATCTGTCTCCCTCCTCAACGTGG AGTTATCAGCTGACATTGAAGCTTAGCCTTCTTTCCACACTAGTACCTCAGATGAGCCAAATATGACCAACCAGTCCTGG GATAATTCTTAACTAGTTAATAGGTGCATACTTGGGTACTGCTAAAAAATGTTTAATTTTCTTAAATAAATTTTACTATA TATGTGCGCGCGTGCAGGTGCATTTGTGTTCTCAGTTAATTATCCTCTTCTTTTGATATCACCACAGTTCGTAAAATGGT AATTTATTTGTTTGCGCGTACTTATTCTAGGCTCATATTTTACAGAAATGAAAGTGAGGATATCATGAAAGTTGTGGAAG ATGTTGCTGATTTGCTAGGCAAGACAGACTTATTTGTTGCTGAGCACCCAGTGGGGGTAGAAGCTCGCATTCAAGATGTC ATTCAACTATTGAAAAGCCAACAATCCAAAGATCCTCTACTACTTGGGATATGGGGGATGGGAGGATTGGGTAAAACAAC CATTGCCAAAGGCGTGTATAATAAAATTCGTCGTGATTTTGAGGCCAAGAGCTTCCTCCTAAATGTTAGGGAAGTTTGCG AACAAAATGATGGCTTAGTTACTTTACAACAGAAGCTTCTTTCTGATATCTACAAAACAACCAAGATAAAGATAGATAAT GTTGAATCAGGAAGAGTGGAATTGAAGAGAAGACTTAGCCAAAAGAAAATATTTCTTGTGCTCGACGATGTCAATAAATT GGACCAACTAAGTGCGTTGTGTGGAAGTCGTGAATGGTTTGGCCAAGGAAGTAGAATTATCATCACAACAAGAGATGTAA ATATTGTTAAAAAGGAATTTGGAGTTGAAATTGTATATAGAATAAAAGAAATGAACGACAAGGAATCTCTTGAGCTGTTT AGTTGGCATGCATTTAAGCAACCAAGTCCTGAAGATGGTTTTGCTGATCTTTCTAGCGATGTAGTTAAATACTGCGGGGG GTTGCCGCTAGCTCTTCAAGTAATTGGGTCCTTTTTGTTGACTAGGAGGAGGATAAAAGAGTGGAAGAGTGTACTGGAGA AACTAAAAATGATTCCCAATAATGAAGTGATGGAGAAGCTTAGAATAAGTTTTGATGGTTTAAGTGATGATGATATTAAA GAAATATTCCTTGATATAGCTTTCTTCTTTATTGGGATGGACCAAAATGATGTGATTGAGATATTAAATGACTGTGGGAA TTTTGCAGAAATTGGAATAAGTGTCCTCGTACAACAATGCCTTGTAACTATTGATAGGAAGAACAGGATCGGAATGCATG ATTTACTACGAGACATGGGAAGAGAAATTGTCCGCAAGAGATCAGCAGAAGGGGGCAAGGAGCCTAGTAGATTATGGCAT TTTGAGGATGTGCGGCGTGTATTATCAAAATATGCTGTAAGAACTTATTGCATTTATGGTTTTTGTTTCTAATCTATCTA AAGTCAGATTGCTAAGTAAATCCAGTTTTTACCAACATTCAGTTGCTTGTCTTGTTTATCTCAATAATTAGGAAAATGGT GTTCTTGTGAATCTTTTTGTGCTGCATGGTTCCCAGTAACAGATTATGGGCTTCAAACCGTACAGTTGTATTCAGTTACT CTAGTAGATTTGTAACGACCATTTACCTATGATATGTGATTCATTTTTTCTGTTGATTTTGTTTCACAGAGAGCAGTGGA TGTTCAGGGACTGACCTTGAAGTCTCCAGAAAAGGATACAACTTATAATTTGGATGCTAAAGCTTTCGAGAAGATGGATA AACTTAGATTGCTTCAACTTGCTGGCACACAACTTGATGGAGATTATAAGTATCTTTCAAGAGATCTCAGATGGCTTTGC TGGCATAGATTTCCTTTAAAATATACACCAGCAGACTTTCATCAACAAAGTTTAGTTGCCATTGACTTCAAATATTCCAA TCTGGTACAAGTTTGGAAGAAGTCCCAGGTACAATTTATAATTCTTTTTTATATTCTTTAAAAGATAGAGTATGAATACT AATAGTGCATATTGATGCAACAAATCTTAGTGTCCTGTGTAATACTTCGACTTTATTAACTACGCTATAAACAAATGTTA TGCGATGATTTGGAAATTTGATAGGCTTGTTGGAAACTGGGGTTCTAGGCCAAAATTATGATTATGTTTTCACAGTCATT GATTTTAAATATCTATCTTTGAAATAGTTTCATAAATATTAAGATGAAACCTGTCATTCAAAATTTCGAATGTACAGACC ATCATTTTTATTCCTAAAAGATATTATTTAGTATTAAGATGAATAACATCATTTTCATCCTGGAAACGAAAACTGTTCTT GATGTTAAATATGGTCTACACTGATAGTTTCTTTTCTTGGGGGGATAACAATTATATCTGTATTAATTGCAGTGACTAAA ATGAGAAATACACATATCTTATATGCACATTTTAAACCGCCGACGTTTTGAATGATGTTTTTTTTTTCTTCATATATTTT TCTGTGCTGCTTTCTCTAACATACGTTTCAAATTTCTTTCTGCCAGATGCTGAGGAAGCTGAAATTTCTCAATCTCAGTC ATTCTCCTAACTTGAGACAAACTCCAGACTTTTCAAACTTACCAAATCTTGAAAAGTTAGTACTAAAAGATTGTACCAGT TTGTCTTCAATTTCTCCTTCTATTGGAAATCTCAATGAACTGCTTCTTATAAATTTGAAAAACTGTACAAGCCTTCGTCA ACTTCCAAGAAGCATCTATAAGTTGAAGTCATTAAAAACCCTCATTTTGTCTGGGTGTTCAAAAATTGACAAGTTGGAAG AGGATATGGAACAAATGGTATCTTTAACCACCCTGGTTGCAGATAACACTGCTATAATAAGAGTTCCATTTGCTGTAGTG AGATTAAAAAGCATTGGATATATTTCTTTGTGCGGCTATGAAGGATTCTCACGTGATGTATTTCCTTCAATTATACAGTC TTGGATGTCTCCAGCTAATAATACTTTATCCCAATTTGAAACATCTGTTGTGGGCATGTCATGTGTTGATCTCTTGGATG AACAGAAAAGCAGTTTCTATGGTCTATTATATGCTCTAAAAGGTCTTGAGAAGCTTCAACGCCTTTGGGTGAAATGTGAC TCAGAAGTTCAGCTGAATCAAAGTGTAGAAAGAATTTTGGATACACTAAAATACACAAATTGTGCCGAATTAGAAGATAC CCCAAGCACATCTCAAGTCTCAAACAATAATTCTTCTTTCATTGATTGTCCAAGTCATGTTCGCATTTCAGCCTCAAACA ATGCCTTGACGTCTCTTTTGATACAAATGGGAATGAACTGCAACCTCACCAATATTCTGAAAGAAATCATTTTACAGGTT AACTCTCCTTTTTACACACACTACCATTGCCTTATAATGTGCTTTTAAATTTAGACATACATATGAGTTTATGCTTTATA CATATTAAGTATATGGAATTAGAGATAAAAAAAACTAACCTAGCTCCCATTTGAATAGAGTTTGTTAACCCCATTTTTCA CTCCCAATTTTTGGGGTAAGTATATTTTTAGACCCAAAAATTCTTAAATCGTTCATTTCAGTTCATCATTTTTTTAAAAA CCCGACTTTAGTTCCTCATTTTTATTTTGAAATAGATTCACCTTAGTCATAACACATGTTTTGATATTCAATTTTCCTAA TAATCTTATATGGAAAATATGTATCTGGTAATTAATTTAAATAAGTTATAGTATCAATGTGTTAAATAATTTAAATTTAT ATATGCATGTTCACTGTACAGAAAATGTCTCCCATTGGGTCGGGTTTACTTCCCAGCAACAACTATCCTGATTGGTTAAC ATTCAAAAGTGAATGTTCTTCTGTAACTTTTGAAGTCCCTCACGTGGATGGGCGTAACTTGAAGACAATCATGTGCATTG TCTATTCTTCTTCCCCAGACAAAATCACATCAGTAGGCCTGAAAAATGTGTTGGTGATAAATTGCACAAAAAACACCATC CAGCTCTATAAGAAAGATGCATTAGACTCCTTTAGTGAAGAGGAGTGGCAGAAAGTAGTATCAAATATAGAACCAGGTAA CAAAGTGAAGGTGGTTGTTGTTTTTGAGAACGGCTTCATTGTGAAGAAGACAACAATTTATCTCATATATGATGAACCAA TTGGCAAAAAAACAGTAACTTACCATGAGCCAGATCAGAATGTTGTTATTTCTGGTGGTGATGCAAATGTAAGTAATAAT AGTCTAAACTTATACACATTCTATATGATTTTTTTTTCTTTCTGTATTGCCATTCTAGCAGGATTTAAGAACTGAATTGG AACTGTGAAACAGTTGTCAGTTATCTCATAAATCTGGTAATATATGTTGGACACAATGAACTTCTAGAATGATTTAAAAT GTTGCACATTTGAACTTCATTTTTTTTTTCTAGTAGAATTATTCCATTCATGAAATCATCCCTTTCTCTTTGTTTGTGGT TTTAGATATTTGGTAGACTCTTCTTTGTACTCGCTTCCCTTGTTAGAAGAATTTGCAAACCAAGAGGAGCAGAAACTGAT TGAAGACAAGGGCAACAAGAAAAGGAGGAAAAAGCTGAAAACGGGCACTGTTCTTCCATGCCAAATTAACCCAAGGTGTG CCTTAAATCTTCATATCAAGTCCATGCTATGGTTTTCATGTCACCGTAGTTACTGTTTGTGTTTTACATTTCGTTGTGTG TCAAGTCCACTTATGCTGTATTTCTTTCGTTGATAAACTCATAAGTGTTGTTGGTATGTAGAATTTGTAATTTCTATGCT TGAAAATTTAACTATTACAGGATCTTTATATGTGTACTCGCAGTTAGACTGTGTAAAGTTGTAATCATATTGAGGATACA TATTGGCACAAGGCTTCCTTTTATTTCTAGTGAAATGAAAGTAAGAGAGAATAAGTGCACTACAAGAAAATGTCTCATTA GTGTCGGACATTAGTCGGCGCTAAAGTAGTCAAAGCCTACACAAATGTACATTTAGCCTCAATGTTGAAGTCGACACTAA CTATCTCGACACAGAAAATAAGTGTTGGGCTCAAATCTGAAGCTAGCCCACGCATGATTAGTTTATTTTTTGGTACATCG GAAAGAATAATTAGTTTTTCTTTAAAGGTATGAATATTAACCCATCATGATTATTGATTGATCCCAGTTTATTTTATGAA AGATGCAAATACCCATGATGTTTGATTCTGCATCAGCTGTCTCATAAAGAAGAGACTCATTCTCCGGCACTTGGACTTTA GGTTTCCTTGATGCTGCTACTATAACTTGACAAATCCTGGTAAGGGGGCTTCCTCCAGGAAGTTGAACTCTATACCATTG ACTACCGATGAAGAAAAATATAATTGCAATGACCATTGCAACTGCAGGTACTCCAAAACCCCATCCCCAACCAACATTCA TCTGAATCCAAACTAACACAGAGGAAGCTGAAACGCACCGTTTCAGTAAATGAGGGTAAAAAATATATATATATATATAA AAAAAGGGAAAAAAGAGACAGCAACGTAAAGGAGGGGAAATGGGTTGAATACCCATTATTTTCTTTCTCTGGTGCCCGAA ACCTCACTTCCCCCTTCTGTTTCCATTCTTCTTCACCTCAAAATTCTCATTCTTCTCCTTTAATACTTTCATCTTCATCA TTTATGTGCTATCATCAACTCAAAAACACAGATACCCATTATAGATTAAGTTTGGAAATTGAGTGATTTGAAGGTTACAC ATCTTCTGAGTTGGGTTCTTTAGGGTTCTTTGAGGTAAAGTCTACAACCCAAAAACTCTGAATTTTACTTTTGCAGCATG GGTGGATAGTGAGTACTGTCATAGCAGAGTAGAAAATCAAGAGTTTGATTTTTTCATGAGTTCTCTAAAACCCTATGTCT CATAAATTGGTGGTTTTTATCTAATCTCCTTGCTACCCATTATTGATGCTTAGATTCACAAGGAGGCGCTTTTCTTGGTC CAGCGGAGGGCACGGGAAGAGATTGAGCTTGCTCTTCATAGTTGTGAGTGTATAGTTTATAAAGTGGCAAGTTTTTACAT TTAATTTTCATGGGAGAAGCACAAAACTATATTTTCAGTTCAAGCTCTTCATATATTATATCTTATGTCCATGAGTTTTA TACCATGTTTTGAAGCACATGAACTAATTGGTGCCTAAGCTCAGTTTTGTTGTTGTTGCTGCAAACCTTTGGCTTTTGAT CACTTGTGATGTTTTTTTTTTTTACTCTATGTGTTGTGACATTTAAGCTTTAAGTTTTTTTTTTAAGGATTTTAGAAGAT TCAAGAATGTGATGTGATGACTATGTAAAAGTTTAGAAATTAAATTCATGAGAAGGAAAATGAAGCTTAATGATGTTTGG AATGTTAGTACATAATATATATATTTTTGGTATTTAAGCTGAACCTAAAACTATATTCTATTAAATCTTATGTTCGGAAA ATAAGTGATGAATTCTGTTTTGGGAAACCGTTCGTCGCAACGAAGAGATAATGCGGCATATTAACCGTTCGTCGCAACGA AGAGATAATGCGACATATGTACCGTTCGTCGCAACGAAGAGATAATACGACCTATGCACTTTATGTCATAGTATAATACC GTTCGTCACAACGAAGAGATAATGTGACTGTGCAAATTCGTGCTTTATAGTAGCACACCGTTTGTCGCAACGAAGAGACA ATGCGGTCTATATGCATATAGTTTATGGAGGTGATTGTTGTTGAATGGTGAAAGTTGAAGTTGTTTCCCAATTTTTATTA TTCTATTTTTGAATTAAAAGCTTGTGGGAAAGCGTACTAAGCTTTCAGAAATATAAGAATGTACATGAGAATGTTGACTT AAAGTCCCTTATGTATATATACGGTTTGCCTAAGATCTGGTTTTAATGATCGTGCCTTAAGTGCTTCTCTTTTCCGCGCA CTGTATTTATTATGCCTCACTAAGTCTTTGTGACTTACCCCTTTATTATTTCCATTTTTTTTTAGATTCACAAGCAGCGG TGTAGCGGATTTCTGGGATTGCTGAGTTACCCAGGAGTCATCACTTGTTTTTGGTATGCCTCCATTGTGCGGTGGCTATT ATGTTCTTTTTGGTCGACTCTAGTATGACGCAGCCATAGGGATAGAGAGTCGTTTTCTTGTTTGAGTTGTAATTACTAAA CTCACTATGTTAGCGTTTTGTTTGCTTTGTACTCTTGAGACCCTATGATGGATCCTATGATGGGTGCTATTTTATTATGA TGTAATATCTGGCTATTAAGTTCCTAGATATATGCTATGACAGGTTTTCATCATTTGGATGATGTCGATGTTGAAAATAC AAAGGAAACTCTGTCGAAATTTTAATAGAACTTGATACTTTGATTTATGCGTCCATAGTGTGGTCTTATCTTTAGGCTTG CCAGGCTAGTAGAGAGTTTGGTTGTTGCTAGTCTGTGCACCGGTCATGCACCTAGAGTGGGTCGTGATAGAAGCGATAAG TGCGCCAATGTTGATTGAGAAGTAAAACCAATTGAAGAAAGAGCTCTTGTTTTTCCTCTCAATTTCATCATTGTCATCAA ATTGGTCAGCACCGAAAGACGAGACACATGGTTTGATACCACCAGTTCCAAGAGCAATCAAGTAGAGTGTTATAAAGCAA GCTGCAGTTTGTCCTGACGTTGGACTGCAACGATCAGCGTCACATGAAGGCTTTAGACCAGGCACAATAGCTGAAAATGT TAAAAGTGTCATTCCCTACAAAGTAAACAAACAATCACCATTAACAGGGCTAATCCTCCTACTATTTTATCCTTTGATTT CTGAGAATCATGTTCTGAAACACAGTTCAGGTATAACTTCGATTGAAATTTCTAGAAAATTTCAAATGCAATAAATGAGA GAAAAGATAAAGTGAAGACCGTAAGATGAAATGAAACTCGAGCTAAGATTATATACATGCTGATAGGGACAAATGTAATA GGACTTATGGAGGGTGTACACTAGAATAAACAAACAGAAAAGTTAGTAGTTAGGAGGGAAGTTCGACAGTTAACAGTGTG GTTAGGGGCAGCTGTTAGTCCAATTGTAGAAGGAATAGGTATCTTAGGGAAAATTAGTTTGTACCTAGCTATTGCATGGT GTAAAGGAGATCCACTCCTTGAACAATATTGACCAATAAAATAGACCATACGTTATTTC
CDS sequence (LotjaGi3g1v0212200.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTTGCCACCTCATCGCCGTCTTCGACTCTTCCCCTCTCTTACTCTCCTTTCTCCGAGTCACAAACTCACTTGTACGA ACTCCGATTCCCCCGACTCCGAGTTGACTCCGCCGTCTCCGGTGTGAGGAAGAGTGTCAGTATGAATAACCTCTCACAGT ACGAGCATCCTCAAGACGCCAACAATAACAACAGCCACAAAGATGTCCTCTCCCACGACGATGCCGGTCCTCCCAACTCC GGCAAGCCCCTTGACCGTGAGCGCAAGCGAGGGGTACCGTGGACGGAGGCAGAGCACAACCTGTTCTTGGTGGGATTGCA GCAAGTTGAGAAAGGCGATTGGAGGGAAGTTTCTAGGAACTACGTCAAAACGCGAACTCCAACGCAGGTTGCAAGTCATG CTCAGAAGTACTTTATCCGGCAAAGTAACCCCAATCGCCGTCGCCGTAGATCCAGCCTCTTTGACATCATCAACGACACG GAAAAGATCTACGATGTGTTTTTGAGTTTTCGAGGAGAAGACAGTCGCGCAAAGTTCATTTCACATCTATATACCTCTCT TCAAAATGCTGGGATTTATGTTTTCAGAGACGATGATGAGATTAAACGGGGAGATATCGTCTCAGACTCACTAATGGATG CTATCAGCAAATCTAGAATTTCTATAGTGGTTTTGTCAAAACATTATGCTAATTCAAAATGGTGTATGCTAGAGCTGCTT GACATAATGAAACATCGCAGAACCACAGGGCTGGTGGTTGTTCCGGTGTTCTATGAGGTAGATCCGTCAGATGTGCGTCA TCAGACAGGTCAGTTTGGAAAAGCTTTTGAAGATCTTATAACAACAATCTCAGTGGATGAACAAGACAGTGTGAGGAATT GGAGGACAGCACTTCTTGAAGTTGGTGGCGTAGCAGGTGTTGTCATCATAAATTCCAGAAATGAAAGTGAGGATATCATG AAAGTTGTGGAAGATGTTGCTGATTTGCTAGGCAAGACAGACTTATTTGTTGCTGAGCACCCAGTGGGGGTAGAAGCTCG CATTCAAGATGTCATTCAACTATTGAAAAGCCAACAATCCAAAGATCCTCTACTACTTGGGATATGGGGGATGGGAGGAT TGGGTAAAACAACCATTGCCAAAGGCGTGTATAATAAAATTCGTCGTGATTTTGAGGCCAAGAGCTTCCTCCTAAATGTT AGGGAAGTTTGCGAACAAAATGATGGCTTAGTTACTTTACAACAGAAGCTTCTTTCTGATATCTACAAAACAACCAAGAT AAAGATAGATAATGTTGAATCAGGAAGAGTGGAATTGAAGAGAAGACTTAGCCAAAAGAAAATATTTCTTGTGCTCGACG ATGTCAATAAATTGGACCAACTAAGTGCGTTGTGTGGAAGTCGTGAATGGTTTGGCCAAGGAAGTAGAATTATCATCACA ACAAGAGATGTAAATATTGTTAAAAAGGAATTTGGAGTTGAAATTGTATATAGAATAAAAGAAATGAACGACAAGGAATC TCTTGAGCTGTTTAGTTGGCATGCATTTAAGCAACCAAGTCCTGAAGATGGTTTTGCTGATCTTTCTAGCGATGTAGTTA AATACTGCGGGGGGTTGCCGCTAGCTCTTCAAGTAATTGGGTCCTTTTTGTTGACTAGGAGGAGGATAAAAGAGTGGAAG AGTGTACTGGAGAAACTAAAAATGATTCCCAATAATGAAGTGATGGAGAAGCTTAGAATAAGTTTTGATGGTTTAAGTGA TGATGATATTAAAGAAATATTCCTTGATATAGCTTTCTTCTTTATTGGGATGGACCAAAATGATGTGATTGAGATATTAA ATGACTGTGGGAATTTTGCAGAAATTGGAATAAGTGTCCTCGTACAACAATGCCTTGTAACTATTGATAGGAAGAACAGG ATCGGAATGCATGATTTACTACGAGACATGGGAAGAGAAATTGTCCGCAAGAGATCAGCAGAAGGGGGCAAGGAGCCTAG TAGATTATGGCATTTTGAGGATGTGCGGCGTGTATTATCAAAATATGCTAGAGCAGTGGATGTTCAGGGACTGACCTTGA AGTCTCCAGAAAAGGATACAACTTATAATTTGGATGCTAAAGCTTTCGAGAAGATGGATAAACTTAGATTGCTTCAACTT GCTGGCACACAACTTGATGGAGATTATAAGTATCTTTCAAGAGATCTCAGATGGCTTTGCTGGCATAGATTTCCTTTAAA ATATACACCAGCAGACTTTCATCAACAAAGTTTAGTTGCCATTGACTTCAAATATTCCAATCTGGTACAAGTTTGGAAGA AGTCCCAGATGCTGAGGAAGCTGAAATTTCTCAATCTCAGTCATTCTCCTAACTTGAGACAAACTCCAGACTTTTCAAAC TTACCAAATCTTGAAAAGTTAGTACTAAAAGATTGTACCAGTTTGTCTTCAATTTCTCCTTCTATTGGAAATCTCAATGA ACTGCTTCTTATAAATTTGAAAAACTGTACAAGCCTTCGTCAACTTCCAAGAAGCATCTATAAGTTGAAGTCATTAAAAA CCCTCATTTTGTCTGGGTGTTCAAAAATTGACAAGTTGGAAGAGGATATGGAACAAATGGTATCTTTAACCACCCTGGTT GCAGATAACACTGCTATAATAAGAGTTCCATTTGCTGTAGTGAGATTAAAAAGCATTGGATATATTTCTTTGTGCGGCTA TGAAGGATTCTCACGTGATGTATTTCCTTCAATTATACAGTCTTGGATGTCTCCAGCTAATAATACTTTATCCCAATTTG AAACATCTGTTGTGGGCATGTCATGTGTTGATCTCTTGGATGAACAGAAAAGCAGTTTCTATGGTCTATTATATGCTCTA AAAGGTCTTGAGAAGCTTCAACGCCTTTGGGTGAAATGTGACTCAGAAGTTCAGCTGAATCAAAGTGTAGAAAGAATTTT GGATACACTAAAATACACAAATTGTGCCGAATTAGAAGATACCCCAAGCACATCTCAAGTCTCAAACAATAATTCTTCTT TCATTGATTGTCCAAGTCATGTTCGCATTTCAGCCTCAAACAATGCCTTGACGTCTCTTTTGATACAAATGGGAATGAAC TGCAACCTCACCAATATTCTGAAAGAAATCATTTTACAGAAAATGTCTCCCATTGGGTCGGGTTTACTTCCCAGCAACAA CTATCCTGATTGGTTAACATTCAAAAGTGAATGTTCTTCTGTAACTTTTGAAGTCCCTCACGTGGATGGGCGTAACTTGA AGACAATCATGTGCATTGTCTATTCTTCTTCCCCAGACAAAATCACATCAGTAGGCCTGAAAAATGTGTTGGTGATAAAT TGCACAAAAAACACCATCCAGCTCTATAAGAAAGATGCATTAGACTCCTTTAGTGAAGAGGAGTGGCAGAAAGTAGTATC AAATATAGAACCAGGTAACAAAGTGAAGGTGGTTGTTGTTTTTGAGAACGGCTTCATTGTGAAGAAGACAACAATTTATC TCATATATGATGAACCAATTGGCAAAAAAACAGTAACTTACCATGAGCCAGATCAGAATGTTGTTATTTCTGGTGGTGAT GCAAATATATTTGGTAGACTCTTCTTTGTACTCGCTTCCCTTGTTAGAAGAATTTGCAAACCAAGAGGAGCAGAAACTGA TTGA
Protein sequence (LotjaGi3g1v0212200.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFATSSPSSTLPLSYSPFSESQTHLYELRFPRLRVDSAVSGVRKSVSMNNLSQYEHPQDANNNNSHKDVLSHDDAGPPNS GKPLDRERKRGVPWTEAEHNLFLVGLQQVEKGDWREVSRNYVKTRTPTQVASHAQKYFIRQSNPNRRRRRSSLFDIINDT EKIYDVFLSFRGEDSRAKFISHLYTSLQNAGIYVFRDDDEIKRGDIVSDSLMDAISKSRISIVVLSKHYANSKWCMLELL DIMKHRRTTGLVVVPVFYEVDPSDVRHQTGQFGKAFEDLITTISVDEQDSVRNWRTALLEVGGVAGVVIINSRNESEDIM KVVEDVADLLGKTDLFVAEHPVGVEARIQDVIQLLKSQQSKDPLLLGIWGMGGLGKTTIAKGVYNKIRRDFEAKSFLLNV REVCEQNDGLVTLQQKLLSDIYKTTKIKIDNVESGRVELKRRLSQKKIFLVLDDVNKLDQLSALCGSREWFGQGSRIIIT TRDVNIVKKEFGVEIVYRIKEMNDKESLELFSWHAFKQPSPEDGFADLSSDVVKYCGGLPLALQVIGSFLLTRRRIKEWK SVLEKLKMIPNNEVMEKLRISFDGLSDDDIKEIFLDIAFFFIGMDQNDVIEILNDCGNFAEIGISVLVQQCLVTIDRKNR IGMHDLLRDMGREIVRKRSAEGGKEPSRLWHFEDVRRVLSKYARAVDVQGLTLKSPEKDTTYNLDAKAFEKMDKLRLLQL AGTQLDGDYKYLSRDLRWLCWHRFPLKYTPADFHQQSLVAIDFKYSNLVQVWKKSQMLRKLKFLNLSHSPNLRQTPDFSN LPNLEKLVLKDCTSLSSISPSIGNLNELLLINLKNCTSLRQLPRSIYKLKSLKTLILSGCSKIDKLEEDMEQMVSLTTLV ADNTAIIRVPFAVVRLKSIGYISLCGYEGFSRDVFPSIIQSWMSPANNTLSQFETSVVGMSCVDLLDEQKSSFYGLLYAL KGLEKLQRLWVKCDSEVQLNQSVERILDTLKYTNCAELEDTPSTSQVSNNNSSFIDCPSHVRISASNNALTSLLIQMGMN CNLTNILKEIILQKMSPIGSGLLPSNNYPDWLTFKSECSSVTFEVPHVDGRNLKTIMCIVYSSSPDKITSVGLKNVLVIN CTKNTIQLYKKDALDSFSEEEWQKVVSNIEPGNKVKVVVVFENGFIVKKTTIYLIYDEPIGKKTVTYHEPDQNVVISGGD ANIFGRLFFVLASLVRRICKPRGAETD
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 |
---|---|---|---|---|---|---|
MobiDBLite | 54 | 90 | 37 | - | – | |
MobiDBLite | 66 | 90 | 25 | - | – | |
ProSiteProfiles | 86 | 142 | 57 | 15.822 | ||
SUPERFAMILY | 88 | 143 | 56 | 1.79E-14 | ||
TIGRFAM | 89 | 141 | 53 | 1.9E-13 | ||
SMART | 90 | 140 | 51 | 8.0E-8 | ||
Gene3D | 92 | 143 | 52 | 2.9E-13 | – | |
Pfam | 93 | 137 | 45 | 3.4E-8 | ||
CDD | 93 | 138 | 46 | 1.44103E-6 | ||
PANTHER | 152 | 1193 | 1042 | 0.0 | – | |
PANTHER | 152 | 1193 | 1042 | 0.0 | – | |
SUPERFAMILY | 159 | 306 | 148 | 1.12E-39 | ||
Gene3D | 161 | 330 | 170 | 4.6E-60 | ||
ProSiteProfiles | 162 | 304 | 143 | 31.402 | ||
SMART | 163 | 304 | 142 | 9.1E-41 | ||
Pfam | 164 | 327 | 164 | 4.7E-42 | ||
Gene3D | 331 | 493 | 163 | 2.6E-31 | – | |
SUPERFAMILY | 335 | 597 | 263 | 1.12E-62 | ||
CDD | 342 | 499 | 158 | 0.00188129 | – | |
Pfam | 345 | 568 | 224 | 3.8E-36 | ||
PRINTS | 365 | 380 | 16 | 6.4E-25 | – | |
PRINTS | 442 | 456 | 15 | 6.4E-25 | – | |
Gene3D | 501 | 586 | 86 | 1.2E-6 | – | |
PRINTS | 536 | 550 | 15 | 6.4E-25 | – | |
SUPERFAMILY | 643 | 1046 | 404 | 6.8E-30 | – | |
Gene3D | 672 | 1067 | 396 | 1.8E-27 | ||
PRINTS | 847 | 863 | 17 | 6.4E-25 | – |
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 | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
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 LotjaGi3g1v0212200.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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