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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0541900 |
| Transcript ID | LotjaGi1g1v0541900.4 |
| Related isoforms 3 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT1G56520.2 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp|Q9C7X0|ADR2_ARATH Disease resistance protein ADR2; TrEMBL-Plants: tr|G7K8H3|G7K8H3_MEDTR TIR-like domain protein TSDC protein; Found in the gene: LotjaGi1g1v0541900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:107060099..107075447) extracted from Lotus japonicus Gifu genome v1.2.
GCACACTCAGAAAAACACGTTAGAGTACCACAATTGCTCATATCAAAAGGTTAACTTGTAATCATCAAAACATAGAGTTG TACTACTAGATCAAAACTTGATCTTACACTCTTGTCAGGAATCTTAAGAATGGTAAGTGTCCATGCTTTTGCACATAATT CCCACAGAATGAGCAGAATTTTAGTTACTGATTCAACATACAAATTTCAAAATGGCATGTTAAAATGCATGTTTCTGTAT TGAAATCTAAACAAATTGTGAGTAATATACCTGGACCTCCATCATTGTCTTCAAGATCTCCAAGAAGAAATGAATCCAAG TCTTGGTCAGAGGATGAATTGGAAGATTTACTCTTCAAATTATTCCCTGTTGCTTCAACTTCTCCAGTTCCTCCAGTAGC AGCGGTTTGCTCTACCTCAGTATCCACATTCTGCTTTGCTGCTTCTATGAGTTGAACCTCCTTTCTCATACCTGATTGTA ACATCATTGATCGTTATTAGACAAAAAATATTAAATTAAAAAATATTCTAACTTTTGCTGGAAAAAAAAAACAAAAAATA GGGTTTTCAGAACCCATATAAATATCAAACATACACCTGCATATCAATAATGAGCCAGTGTTTCCAGAAACAGCAAAATA AGTGATTTTGATAAAAAATACGCAGAGGAAAACAAAAGAAAACGAAATTTGAGAAGAAGGAAGATGTGTACATTGAACAT TAGCAGTATTTATAGAACTATGAGAGGAAAATTGAACACTTGCAAAGTCCTACTAACCTGATGTGATACAACGATGACAA AATAGTGCATCATCTTCTCTGTTGCTACTGATCCTCATCTGACAACAGCCCTTCTTTCCCTCTTCTTCACTCTTCCTTCC AAAATCGGGATGATCTATCATGTCATCTGAGTTGCCTCACCTAACCATTCACACCATCTTCTCTTCTCCCTCTGAATCTG ATTCTGAAATTTTCGTACTTTCCATCATCATCTCTTGTCCTTCTCCTTGCTTTCTCCTTCCTCCATTGTCTAATCTACAA AAGAAGTTGATAATTTCATCAACAACTCTTCTGCTCCTTCTTCCTCATGTGCTGTGCAGACGTCGGCTGAAAGGGAGAAG AGACGACGTGTGATAGGCTACAGAGAGATGACGATTACCCACGAAATCAAACCATGGACACACTCCTCTCCTTCATCGCA TACTCCATCAACGCGTTCTATGATGTCAGCAAAATACAGGAGCTCGAGTAGAATAGAGGGGAAAAAGTCTCATAGATGAA GGGCCATGATTAAAGAGTGAAAATGGAGAGAGTCAAATCAATGGCCCAGATTGAAAGTTCTCTTATGAATAGTGATTTTA TGTCTCTCTTTTAAGATGTAGTAGATGTCAACAAAGAGAGAAAAAATGAAATAAAATATGGTAGGACAACAAGACAACAA CAATCCTGCCAATGTAAACAACGGAAAAAAAAAATGCAAAAAACGCAAATCCCCCCTATCAACACGACATCCATTAATTG CCATAGTCTCAAGCGCCACAGCAAAGACATCATAGTCAACTCTTGCAGCATCAATAACCACCTTAACCATTGGGGGATCA CGCGCATGCTCTCATTCAGCCGGACGAGCATACCAAACAACAAAATGAGTTATATGCTTAATAAATGGCTAGATTTTGCT GTTGAGAAAATAACTTTGTAAGTGATATATGCATGGTCTTGAGGCACACTCTGACCTGTGTGAGCCTGGTGATGTCCATA ACCTATTCAAACTTTTAATTTCTTCAGAACCTTATGTTAGAAGTTGGTTCTAAATTCTCCCATTTTCTATGCGTGTTGCA CCTCATGCTTCTTGATCCACCTCCAGCTTGTGATACATCAGCAATTTAGGTGACTAAGCAATATCAAGATTGCTTCACAA CATTACACCTTGCTGGTTGCTTCTTCCACCACCAGCTTAGTAACCATGACAAAGCAAGCCTATTTTTCCTAGCTTTCAAC CTCCTACTTGCAGCATGGTGAACGTGTCACTTACTGGTTCCTTTGCTTCACTCCTAAGCATTGGTTGTGTGCCTATATAT ATTGCAACAAAGACAAGACTTCAAGAGCATCACACAAAGAGTGCATATACACGAGAGAGGATTCAAAGAAACATTGGCAC ACTTGTTTTGTGTCATTTGGTTTTTGGTGAGAATTCTAGTTTCATTTGAGAGAGTTATTTTGTGAGAAAAATATTTCTCT TTGTCCTCATTTCTATAAGAGGATTTGTTGTACTCTCCCTTTTACATAGTGGAACTTTGCTTGTGATCGCCCGTGGTTTT TTACCTCTCACATTAGAAGGGTTTTTCCACGTAAATCTTGTGTGTTCTTTTTCTTGTCACTTTACTTTTACTTCTCTTTA GTTCTCAATTATCTCGATCATGTGCTTCCGCATTGCCCTGATACCCTAACACCTTAGATAATTCATCATCAAAATTTACC CTTAGTGTTTTATTTTTGCATTTTAAAGACTTCTTTGAGTTCACGTCAATCTCTTCGGCCCTTTAGATTAAGAAAGGTAT TGGGTTGTGGGAGTCTATGATGATATCCTATATAAAAATGCAGAGCACGTTATCAAACAACTTGGAAGGCTGTTAATGGT ATTTGTGGTGTCTAACAAAGGTACGTATACCTCAATTTTTCATTTAATTTTGGTGAGTTGGAGTTTCACTTGTTTACGAA GGAATTCATTTTTTTAAACGATGCTGTTTACCAAGGATGCTTCCTCCCAATAATTGAAGGAAGATGATGCTTTAAATGAA ATAATTAATTAACTAATCATATACTTTTTTAAAATACAATATTCACTCCTCTAAACTCTTACATTTTTTTAAATAGACAC CATCAACTTTCTTTTGGTCTCAATTAATCCTTAAACTATACATTCATTATTATAACATATTCCTCTTTCCCCCCTAAAAA TCATAGGTATTATTTGATGAGATGAAAACTGCTCAATACTCGTTTTAACACTATTTTATTAATTGATTGAAATTCATGCC GAGTCAGCTACAAATTGGTCACACTTTCAAGGTGTGACTCACAAATTCAACTAGTTAATGAGAGTGTTTTAAAAACAGAG TGTTACTGTGGGTGTTGCTAACAGTCCTCCTAATGAGACAATGTTGGAACGAGGTAAAAACAAGCAGACAATGATGTCGA AAAGGATTTATGTACATACAACTGCCAGCGACCAACAACTGACACATGCGAATTGTGGGGGGTTTTCGGCCGCCCCAATA TGAAAAATATCTAAAAAGAAAACATTTTCTGGCAGCTCCCGGAGGTAGCTAGCAAAAAGCCGCCACAAAATTGCGTGTAT TAAAACCTCCGCAAAATGCTGTTTTTCTCTTAGCATTTTTCAGGCGGTTTGTTAATAAAAGAAGGGTTTGAATTCTATCC TACATTGCAACCTCAAGAGATGACACTTAGCTACTCATATTATAATTAAATTGAAAACATGATAACCCTAGTAGATGATA CCATACAGAAACTTAGAATGATCTTCTGAGTTTTTGCTCCCTCCTTCTCCTCCTTTAGAGTGGATCACGTTTTCTGTGTT TCTCTCTCTCTCTCTAAGATATATCATTATAACACTAAGTACCATTCTATAATTCAAAATGATATATGGAGGAGGGGAGG TAAATGTGTATTTTGTAAACTAGAAGAGAGGTCGAGAGGTCAGTGCAATAATATTAAGCTTCAGGGGAGGTGGGTTTAAT TTTCCCTAAATAATTAAGTCCTCATGCTGGTTGCACAAGGTGGCATAACCGTAGCTTGGGAAGCACAGTCGTGTTGGCTT TGATACACATCAGCACGGGCAAGGTAGGGGCATCATGGCTGTGGAGCTTTATCAACAATCATATCAGAATCAGACTTTTC TCCCTGTGCCAATCGAGCTTCATCTTTTTCCATTTGTTGTTGTTGCACTAAGCTGCAAGACCCCACTTTTGACAACCATA ACACGGTATAAGTTCCTTTTACCAAAATCTTTTTGGCCTTCTTAAGCTGCATGTGGGTAACCACCGTAGTTACTACCTCC ATTTCAAAAACCACCATGCTGGAATATATTCATGTGCCTTTTCTTGCATAATTCCTTCCTTGCCTAAAATCTTGTCTCTC ATTACGAATACCATCTTCTTGGGACGATGATGAATTTGTTGAATTCTTCTCTGTTTTGCCACTTTGAGTGTGTTATGATC CAGACTATGTATTTCTCTTATTGAACCTTTATTCACGGGTCTCAAGAGATCCTTGCTGATCCTCTATCTTCAAAGCTTCA GGTTCTTTGACTTTTAATTATTTGCAACAACAATATAGTTGAATCTTGGACTCAATATTGTCCTAGAGATTTTCTTCACT ACTATTTGATTAGTGAGAATCTCACCACACACCTTCCTCTGGTTGAAGAGAGATCGCACTTTGGTGAAGTAATCAGCCAC CGTTTCTTGTGCCTCCATTTAGAACATATTGCCTCCTTAATGTTTCCGACAACACCATCGGTTAGAAGTCTCACATTGGC TAGAGATAGAGCATAGATAGTCTTTATAATGGTAGTGTTGGAATCAAGTGTTGGAGTCAAGTCCCACATCGGAGAAGTCA AGGTGAGAGGGAGAGTTTATCAGAGATGTGGCCCATAAAACTAATGCCTTAAGGTTTTGGGTTAAGATGTGGTGTCCAGA TCTCCTTGGTTTCTCCTCTCGGCCTTGGCCCATGGGTCCTCGCCGTGACTCTCCCAACAAGTGGTATCAGAGTCGATGGT TTGTGGGACCATAACGACTCCTTGTGTCGAAAGTGTTCCTAGCAGTGTGGCTAGGCGGCGGGTTCCGTTGGCAGCGAACG ACGGTGCAAGGTGGATAGCTTCCGCAGACGGGAGGACCATGGGTGATGTGGTTGAGGGACTCACACTTGAGGGGGAGATT GTTGGAATCAAGTGTTGGAGTCAAGTCCCACATTGAAGAAGTTAAGGTGAGAGGGAGAGTTTATAAGAGATGTGACCCAT AAACCTTATGCCTTAAGATTTTGGGTTAAGATGTGGTGTCCAAGATCTCCTTGGTGTCTCCTCTCGGCCTTAGCTCAACT CTTGATGAGCTAGCTTTTGTGGTTGAGTATAGGCCTCCCAATTTCTAATATGGTATCAGAGCCAATCCTAGATCCATTTG TTGTTTGTTGTGGAGAGTGGAGACCTCCCATAATTGGGTCACCCGTTGTTGTTGATCCCACGTTCCAGGTTGTTCTGTCC TGGGCGTGAGGGGGTGTGTTAGAAGTCTCACATTGCCTAGAGATAGAGCATAGATAGCCTTTATAAGGGTAGTGCAAACC TCAACTCTTGAGCTAGCTCTTGTGGTTGAGTATAGGCATCCTAATTTCTAATATAGTATCAGAGCCTATCCAAAATCTGT TTGTTGTTTGTTGTGGAGACCTCCCATATTTGGGGCATCCGTTGTTGTTGATCCCACGTTCCAGTTGTTCAATCCTGGAC GTGAGGGGGTGTGTTAGAAGTCCCACATTGGCTAGAGATAGAGCATAGATAACCTTTATAAGGGTAGTGCAAACCTCAAC TCTTGAGCTAGCTTTTGTGGTGAATCAGGAACAGAGCTTTGGAATATTTCTTCTTCGACTCTGGTGAACATTTCTCTATG TTTTGTTGGGTTCTCTCCCAATTCTTGATCACCATTCTTCACTATCTCCATCACTTCTTAACAGTCAAAGATGACTTTTA TCTATATGCACCACTTCTCATAATTCTTATCATCAAGAACAATAAGAGAAATTTTGAAAGTAATGATCACCAGGATGAGT CAAGCTCTCAATACCACTTGTTAGAACACCTCATTTTGGTGTTTGTGAATCACACATTCACTCGAATAATAAGATGACAA TTATTGGTAGTATAATATCAATAAAGTAGCCTTATTTAGTTTTATTAGTACCATGTGCAAATATTAAATTCTACTTTGAT AGATAATATTGTAATTAATAGAGAAGAATTCTAGTTAATTAATATAAAAGTGATAAGTAGGAGAAATTTTATTAAATGAG AGTATAGTTGGAAAAGCAAGAAAAGTTCACGTGACTCTCTCTTGGTTTTTTTAAACTAAATTTAATAATTTAAAAGTAAA ACAACATTAAAGATATATAGTGTATTTGTTTCACTCAATGCTGACGACAACTCTATTGGGAACCGGGTCTGGTTCTTTTT ATTTCAGGGGTGTTGTGTGCTTTGCGGAGGATAGTTGGATTTTTGGGTTTGCTGGTTACGCGAATGTTTGTGACAGTCTT CGTGCAGAGCTTTTGGAAATTCTCAGGGGCTTGACTTTGTGTTGGGAGCATGGTTATAGGAGAGTTGAGTTATTCACAGA CTCCATGCTTGCGATCTGGAGCTTCTTCTTTCAGATCACCCTGTGTTCATCAGTATGCTTGTATTATTAGTAACATTAAG CGTCTTCTTTGCCAGAATTGGTTATCTACTGTCATCACTTACTTCGCGAAGGATTTTTTGTTGCTAATTATTTGGCCAAG CTTGGAACCTATAGTAGGAGCACTTTCTTATTTTAGAGTGTACCTTTGGCTGGTGTTTTTCCTTTGTTGCGAGCTTATGC TCTTTGTGTGACCTTCTTAAAGCGTTAGTTTCTTTTTATGTTTTGCCTTTCTTTGCTTTTTGTATCAAAAAAAGTGTATT CTTGCATTTCGTTGGTTGTGGCTTCCTAACCACCGGTGATTCGTGGACCACCAAAAAGTGCCCCGACATCAATTTTGTGG CGGTTTAAGATTGCCACAAAGTTGTAACCTTGAAAAAAATGCATTTGTTGGCAGTTTCGTGCATTTTGTGGCGGTTTCGA ACCCCCACAAATATCGGTGTCTAGGGGTGTTTTTACTGGAGTGTGGTTGACCAACCTTTTTTGCTTCCTAACAATGACCA TTATTGTACTTTTAACCAGAAAAGAAAAGGTTGAGAGTGAATTTAACTCAAAGGTCTAGATTTGCTTACACTGACCTCAA CCCCACGTTCTTTGAATGAATTATTCTGATAATTAATGTAAGATTGTAAGATCATTTAGGTAGAAAATAGTTTGAAGGTA AAAATCCTTAAAAATTGATGAGGCTGCTCTTCATTATTTTTTATACAAAAGCACATGTTATTACAATCCTTAAAAATTGA AGAGGCTGCTCTTCATTATTTTTTATACAAAAGCACATGTTATTACATTACCAACGAGTACGTTGACCAAAGAGATAACG AAAAAAAATGACAAGTAGATACCAATTAGGACACCCACCCAGTTCCATTATTTGTGTTTCCATGAGAAGCTTTGGTTAAG GCACAAAACCAAATCACTCTGATCTGATCTGATCTGATCTTTAACTTTCTGGTTGCTTCCTTGTCCATTGATCATTTCCA AAAAGGGTTTTAGCGAGATCGATCTCCATATTAGGTGCTAGCTTCATTTAGTTTTGAGGTAAGTTAAAATTCCATTCACT TCTCTTCTTTAATTCTATATATCTTTCATTTTTCCTTTCCTTGACAATTAATATTCCTGGTTCTGTCAAATTTTGAAGTT TTATGTATTTTCTCAAATCTGTTCTGTTCTGGTTAAGATATAGTCATATAGATTAAACATGGTAATTACAGAAGGCATGC TTGGATTGGTTTTTACACTTCCACATATGAAAATTCTGACAGTATATCCTAACATAAAACAACCCCTAATAGCTTTCAGT CGTTGAAACCAATTCAATTTGATTTGTTGTATGAAAATTATGTCATGAATATAAAATTGATTATTTCCTGATCTTTAAAT GGGTATAGCAGCTAGTTAACTAATTAGAAAGAGAAACACTAGATGTGTCGACTAGCAGTTATTTCATTATTTGAAAAGTG ATGTTTCAATTGTTTTCTGAATGATTTTCATTAATTGTACAACTGTGCAACTGCACAACTCTACGAATCTTAGTGTTTTT GTAAGTTTAGAAGAATATGGAAATAATTTTGGTGCCTTTCATTGATCAATGGCAAGAGTATATATACAGGTAAAGTCAAC CTAGGAATAAATATAATTACAAGAAATTAGACATAATTACAGGAAGAATATTTCCTATTCTATTACACCCCCGCAGTCGA AGCGGGAGGTTCACTCACGCTGAGACTGGACCGAAAATCATCAAAGAGAACTCGAGGGAGGCCTTTAGTGAAGATGTCTG CAATCTGGTGACGAGAAGGAACATGAATGATGCGTGCCTGACCACGGGCGACCTTCTCTCGAACAAAGTGAATGTCCATC TCAATGTGTTTAGTGCGCTGATGCTGGACAGGATTGCCGGATAAGTAGATGGCACTAACATTATCACAGTAGACTAAGGT AGCCTGAGAAAGAGGAAAGTGAAGCTCTAAAAGCAGGTTGCGTAGCCAACATGATTCGGAAACCACATTAGCCACGCCGC GATACTCAGCTTCAGCACTGGACCGGGAAAGCGTAGGTTGTCTCTTGGACGATCAGGAAATGAGATTGTCGCCGAGAAAT ACACAGTAACCAGAAGTAGACCGACGGGTGTCGGGACAACCACCCCAATCTGCATCAGTGTAGGAAATAAGCTTCTCGAT AGGAGAAGGATAGAGATGCAAGCCAAACTGTAAGGTGCCCTGAACATAGCGTAAGATGCGCTTCAGGGCAAACAAATGCT CTGAGCGGGGGGCATGCATGTGAAGACACACCTGCTGAACGGCATAAGAGATGTCAGGACGGGTGAATGTAAGATACTGC AAAGCTCCAGCAAGACTCCTATATAAAGTAGGATCATCACACAGAGTACCAGCAGAAGTACTGAGTTTCTGCTTGGTGTC AACTGGAGTGGCAGAAGGATTGCACGATGCCATACCGGCGCGAGCAATAATGTCACGTGCATATGTACTCTGACTAAGAA AAAGTCCACCTGCATGTCTGGTGACGGCAATGCCCAGAAAATAGCTCAACGGTCCCAAATCCTTCATAGCAAATTCAGAG GCAAGAAGGGCCATGATAGATTTACGAAGGTCATGAGAGGAGCTGATGAGGATGATGTCATCAACATAAAGCAAGAGGTA AGCCATGTCAGAGCCTCGTCTGTAGATGAAAAGAGAGTGATCAGAGGTGCTATGCTGAAACCCAATGGTGGAGACATAGT CTGCAAAACGCTGGTACCAAGCACGAGGCGCTTGCTTCAAGCCATAAAGAGATTTCCGCAAGCGACACACATAATCAGGA TGAGTACGGTCACGGAAACCCAGGGGCTGATGCATGTAGACAGTCTCATGCAGATCACCATGGAGGAATGCATTCTGAAC ATCTAACTGGTGAATGGGCCAAGACCTGGAGAGGGCAATGGTGAGAACTGTGCGAATGGTCGCGGGTTTCACCACAGGAC TAAAGGTCTCATCACAATCAACACCTGCAATCTGTGACCTGCCATCACCTACAAGACGAGCTTTATAACGCTCAAAACAA CCATCAGCTTTCGTCTTATGACGAAAAATCCACATGCAGCGAATGATATTAACATCACTAGGACGAGGAACCAAATCCCA AGTTTTATTTCTAATTAAAGCATCAAATTCAGACTGCATTGCGGATTTCCAATTTGGGTCTGAAAGAGCTAGCTGTGGGT TTTTGGGAAGAGGTGATATGGTGGGATCATCAATGGTTACAGAAAGGTTGAAGAGCTTTCTGGGTTTGTAGATACCACGC ATGCTGCGAGTGGCCATGGTACGGATAGGAGGTACAAGCGGAGTGGGCGAAGGAGGGGAAGGGGAAGATGGTAGAGAGTC AGAGGAGGAGGAAGAGGTCGTGGGGAGTGGTGGTATGGGCACAACAGGAGGCACTACAGGAGTAGGGGTAGGGTCAGGTA CGGTGGATGGACTAGTCCACTGGTGAATGATAGAGGGATGTATAGGATCGGAGAAGCAGTCATATGTGGAGAGAGGAGGG GTAGTCATGGTGGCAAAGGGAAACTGAGTCTCATCAAAAATGACATGTCGGGAGATAATGATCTTTCTGTGCGACAAATC AAAACACTTATAACCTCGATGATGAAGTGGGTACCCTAGGAAGACACACGGGGAGGAGCGTGGTTATAACTTGTTAATGG TAGTGGAGGGAACCAAAGGGTAACAAAGACAACCAAAGACGCGAAGATGTGTGTAAGACGGGTCACGACGATATAGAAGT TGAGTGGGAGAGAGATTAGACAAAGTTTTCCGAGGAATGATATTAAGCAGATATGTAGCCATTTGAAGGGCATGATGCCA AAAGGACGGAGGAACAGACGCATGAGCGAGAAGAGTGCGAATCATGTTGTTAATGGTGCGTATTTTACGCTCCGCCTTGC CATTTTGAGATGATGTATGTGGGCAGGAGAAGCGAAAAATAAGACCATTAGCAGCACAATAATCATGAAAATATTTATTG TCAAATTCTCGCCCATTATCACATTGAAGACATTTTACAGTTTGAGAAAAGTGCGTGCGGATTTGAGTTGAAAGAGAAGT GAACATTTCAAAAACTTGAGATTTATGACTTAAAGGAAATGTCCACAAGAAATCTGTAAAATCATCCAAGAATAAAACAT AATATCGATGACCAGCGGAAGATAAAACAGGCGAAGTCCATAGATCACTGTGTAAAATGTCAAAAGGCATCACAGTTACA TTACTAGAAGAGACAAAGGGCAACCGAATATGTTTTCCCAACACACAAGACTCACAAACGGTGCTAGAATTCAAATGCTC ATAATTAATGAACTTATTACTACGAAGAGACTGCAAAGCAGAAGGATTGGGATGACCAAGGCGGCTGTGCCAGAGACTCT GAGCTAGACCAGCAAATGAAAAGGAGGGAGTGACTGGATACAGGTCGCCATTACTATTACATCTCATGAGTGGAATCACC GTCTGAAAATCATGAACCGAGAAGCCAAATGGGTCAAAACAAACAGAAACATTGTTATCGGTAGTGAGTTGTCGCACAGA AATCAAATTTTTAACAATTTGTGGTGTGTGCAAGACATGGGAAAGGGTCAAAGGCTTGTGTTGATGGGAGGTGGGGAGGG TGGTGTCTCCAGAACCCTGAATTGGAATGCCTTGTCCGCTACCAACATACAGTTTCTGATTAAGATGACTTAAATTAGAA TAAGACGTGAGATTACCTGGTGATGCGGCTACATGAGATGATGCTCCAGTGTCCATGTACCAGGTGCCATCCGGGGGAGC AAGTGTCATGGTGTGCATGGCAGTGGCAATGTCAGTGGGCACATGTGATGCCGAAGCAGCATAAGCCTGAGGACGCGGAC CCAAAATGCCGGGTTGCCGAGGTGGAGCAGACGGACGAGTCCACTGAGAGGTAGGATATGGGCACGGAGGCATGGCCCAA GGAGGCGGAGCCCATCCCCAATGCTGGTACGGGAAGTACTGCGAGTGAGGTGGCATCGGAGGAGAGGAGCCCTGAGAGGT GCCACTGCGGGATCCACCACCGTTGCCACGATTCCCACCACGACCTTTAGAGTTGTGGGATCGAGAACGGTTGGAGGACC GACGATCAGAGCCCTGAGAAGAGACATCAGAAGGTCGCGGCTGAGTAGCAACATAGGCAGCAGGAGGCTCAACAGGTTTC ATCTTAGCCATACCGGCTTCCTCCAAGGTGAGCATGGAGCGAGCCTGATGAAACGAGGGGAGCGGATTGCTCTGGCGAAT CAAAGTGGCGACACCCTTGTAAGCATCAGTGAGGCCGGAGATGAGCTGCAATACCAGACGATGGTTGTTCACAGGAGCCC CGACATCACGGAGCTGATCAGAAAGCGTCTTCAGACGCTGACAGTAGGCGGCGACGGTCGGAAAAGCCTCCATGCGAACA GCAGAGAACTCCTGCTCTAGGGTAACTGCACGGGCGTTCTGATTATCATGAAATAGGTCCGCCAAACGCGTCCAAGCACT GAGAGCAGTGGAGTCAGGCTTCATGATGGTGGTCATCAGGTCAACAGAAATGGTGGAAAAAATCCACTGAAGGACCGTGG CATCCAAAGTGGCCCACTGCTCATAAGTAGGGTCAGTGACGAGCGGAGGAGGCTTGTCCGCAGCAGGGACAATGTGATGC AGAACCCGATGGGAACGGGCATGAATGCGAAAAAGCTCCGCCCAAGTGCCATAGCGGTCAGTGTCCATGTCAAGCATAAT AGGAATGTTATTCCTAATGTTCGAAACAGCAAGCGCCGGGTGAAAATCAGACTTGACCGACGGTGTAAGAGGAGCCACTG GGGGGACCACCATAGGAGTGGTGACGGTCGCAGGGGTGCTGTCCGATGAGGCTTGAGAAGTCATTGTGAGGAGTTTGGCC AAAAGTGAAGGAAAAGGAGGGTTTTTTTTTTTTTTTTTTTTTTTGGAAAAGTCCGGTCTAGGAGAACCGGTTCGGTCTGG ACGAACCGGTGCTGGCGGTTCGCGTGAACCAAGAAACAAACAGACACGGATGCAAGGAGACGGGTCGGGTCTCCTATATG GATGGCTGCTGGATCTCCACGCAAACACGGAGGGAAGGAGAGTTGGGCTGGCGGCGCGCGGAAGGGTGGCCGGAGTTGGG CGGCGCGCGAGTGGCAGCGGAGGTGCGCGGGACGGCGCGGGCAGAGAAGGCGTGCGTGCGCTGGGGGCAGAGGAAGAAGA AGCAGGCTGCTGGGTTGGAAGAAGAACAGCAGTGGTGGAGAGTAAAAGAAGAGGGAAGAGTTATGCGGAAGCAAGGGAGG AGGACAGGGGCGCGGCGGCGGCAGTGGGCGGCGGTGGCGCAAGGGCCTGTGTGCGGAGGCTGTGCAAAGATGGGAAGAGG GCACGACCGTCAACGCAGAAACAGAGGCTAGGGTTTGGATCAATTAAACAACTCGTGATACCATGTAAGTTTAGAAGAAT ATGGAAATAATTTTGGTGCCTTTCATTGATCAATGGCAAGAGTATATATACAGGTAAAGTCAACTTAGGAATAAATATAA TTACAAGAAATTAGACATAATTACAGGAAGAATATTTCCTATTCTATCAGTTTTCTTATTAATTGTGTGAGTTTCTTGCA TTTTTTAGTCTACCATATAGAACAACTCGATCAATTGGAATACGAACAACAATTTCAGATGTCTCTTTCGTTAGCTGAAG ATTACCGGAAGCTGCTTCAAAAGCGAGATTCTGTCTTGAGTAGAGTTGAAAAAGCAAAGGAAAAAGATGAAATAATCAAT GATGCTGTTGGGAAGTGGTTACATGAAGTGGATGAACTAATAAAAGAGATGAGTAGTGGGAAAAAGAAAGGAGCTTATAA TAACAATTTCAGCTCTATGAAAGATGCTTCAGAGAAACTCTTGAAGGCACTCCAAGATGATAGATACTCTAGAATAGAAC TGTGTGGGAAGAGGGGTTCTGGTAAAACAACATTAGTGAAATCTGAGACAAAGAAGTATGAAAAGATATTTTCTAGGGTT ATATTTCTCAACATGTTCAAAAAAGATTTGAAGAGCATGAATGAGGAAATGGCTAACTTACAAAGAAGAGAGAAAACAAA CTCGGAAACTACTCTCTTCATCTTGGATAACTTTCCCACACGGCATTCTTTGGACGACATAGGTCTTTCTCGGTCTACAC TCGGTCCACAGCGCAAGGTCCTTTTGATCACGGACGATGAAGCGGACTGCACTAGGCATTACAAGTTCATTTCGCAGCGA AAAAGGATTTGTGATAGTTCAATTTCTATGGAGCGCATATCGGATGACGAAGCTTGGGAGCTTCTGCATAACCTTACTAC AGGCATTGATTCCAGATTGGATCTATTAAATGTGGCACGGGAAGTTGCTTTACAATGCAAGGGCTTACCCGGTTTAATCA ACGACGTCGTGTCTTCCTTAGATAACAAGAACACTATGAAGTACTGGAAAGAATCATTAGACAATCTACACCATTCAACA GCTTGCCACCATATTTATTTCAGCGCTAATATAGAATCTGCTTGCCTTGAATTTACAAAAAGTCTCCATGGCGCTTTGGT CCAACAAGGTTTCAAGATCATCCCAAAGGCATCATTTCATTTATCCCGCAAAAATTTTAAAGGTCTTGAGGAAGAAATTG CGAAATCAAGGTGCTCAATCATCGTCATATCAAAAGAATATGCAAGAGATTTTAAGGGTCTTCAGGAACTTGTTAAGATC CTTAAGTGTAAGGAAACTATTCAACAACTGATTCTTCCAATCTTCTATAACGTGGATCCCTCAGACGTAAGGGATGTGAA AAGAAGTTTTAAGGATGGACTTCAGCATGCTAAGGAGAATGCCATGGAAGAGATGAAACAACTATACAATGAAGAGGCTA TGCTGAAAGAATGGACTTCAGCTCTCTATGAACTTGGCAGATTGCCTGGAAAACAGTACATAAAAGGGTACGTCGCATAC TTCCTTCATTTTTATTTAAATTTCATAATTAATGTATAGTCTACTACATGCTGTTAATTAATTATAAATTATTTGTAATT GAAGGTCTTGAATAGTTAAATAGGTTAGTTAATATTCTAAATAGTAATTCATATTTAACTGTTCCAAGAAATAAGAAACA CAAATGTTAAGAAATGCATTAATTTTATTAGTTATTATTAGTTTTCATATTTTAACCTTTAAAATTTCTCACAATGACAT TACTTGAAAAAACATAATTTAATAATATTTTCTTGAAATGTTAAGTGGACAGTTAATAAGAAACGAAGACAATAGTAATA TTAATTTTAAATATGACTTAATTTGTAAAATTTCGTCACACACATACCATGTGCTTGTGTGCTATTTAATTCAAGTTTAA TTTATATATACTTTTTCAGGTCCCAAGATAATTTTATCCAAGAGATTATAGATCATGTCAAAAATAATAAACATCGCTTG CATGTAAAGCATGTAAATGGACAAGAAGGAAGATTGTGCTCATACGACAAGGACTGCACAGGGGACTGATCTTGAAGTGA AGACAGAAGTGATTGCAAGCGGTTTTTGGCTACCAAAGGATATATTGTTGTTGCAATATAATGCTCCTCTTCAATAGTAG CAAGTAGTTTTTGGACATTTCACTTCGGATAGTAATTTGTCATGGTGAATAATAAAATAGTTGGAGAAGATTCTTTTAAG GCAAACTTGTTTTTAAACTTTGCAATTAATAATGTACCTGCTCTTGGTTTAATCTCAATTGTATTTTTTACTCAATAAAA GTCTACAAGTTAAAAAAGTGCACCCTGTTCCTGTTCCAGGGGAGGAACTAATTAAATCAAGAAAGAAAT
CDS sequence (LotjaGi1g1v0541900.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTCTTTCGTTAGCTGAAGATTACCGGAAGCTGCTTCAAAAGCGAGATTCTGTCTTGAGTAGAGTTGAAAAAGCAAA GGAAAAAGATGAAATAATCAATGATGCTGTTGGGAAGTGGTTACATGAAGTGGATGAACTAATAAAAGAGATGAGTAGTG GGAAAAAGAAAGGAGCTTATAATAACAATTTCAGCTCTATGAAAGATGCTTCAGAGAAACTCTTGAAGGCACTCCAAGAT GATAGATACTCTAGAATAGAACTGTGTGGGAAGAGGGGTTCTGGTAAAACAACATTAGTGAAATCTGAGACAAAGAAGTA TGAAAAGATATTTTCTAGGGTTATATTTCTCAACATGTTCAAAAAAGATTTGAAGAGCATGAATGAGGAAATGGCTAACT TACAAAGAAGAGAGAAAACAAACTCGGAAACTACTCTCTTCATCTTGGATAACTTTCCCACACGGCATTCTTTGGACGAC ATAGGTCTTTCTCGGTCTACACTCGGTCCACAGCGCAAGGTCCTTTTGATCACGGACGATGAAGCGGACTGCACTAGGCA TTACAAGTTCATTTCGCAGCGAAAAAGGATTTGTGATAGTTCAATTTCTATGGAGCGCATATCGGATGACGAAGCTTGGG AGCTTCTGCATAACCTTACTACAGGCATTGATTCCAGATTGGATCTATTAAATGTGGCACGGGAAGTTGCTTTACAATGC AAGGGCTTACCCGGTTTAATCAACGACGTCGTGTCTTCCTTAGATAACAAGAACACTATGAAGTACTGGAAAGAATCATT AGACAATCTACACCATTCAACAGCTTGCCACCATATTTATTTCAGCGCTAATATAGAATCTGCTTGCCTTGAATTTACAA AAAGTCTCCATGGCGCTTTGGTCCAACAAGGTTTCAAGATCATCCCAAAGGCATCATTTCATTTATCCCGCAAAAATTTT AAAGGTCTTGAGGAAGAAATTGCGAAATCAAGGTGCTCAATCATCGTCATATCAAAAGAATATGCAAGAGATTTTAAGGG TCTTCAGGAACTTGTTAAGATCCTTAAGTGTAAGGAAACTATTCAACAACTGATTCTTCCAATCTTCTATAACGTGGATC CCTCAGACGTAAGGGATGTGAAAAGAAGTTTTAAGGATGGACTTCAGCATGCTAAGGAGAATGCCATGGAAGAGATGAAA CAACTATACAATGAAGAGGCTATGCTGAAAGAATGGACTTCAGCTCTCTATGAACTTGGCAGATTGCCTGGAAAACAGTA CATAAAAGGGTCCCAAGATAATTTTATCCAAGAGATTATAGATCATGTCAAAAATAATAAACATCGCTTGCATGTAAAGC ATGTAAATGGACAAGAAGGAAGATTGTGCTCATACGACAAGGACTGCACAGGGGACTGA
Protein sequence (LotjaGi1g1v0541900.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSLSLAEDYRKLLQKRDSVLSRVEKAKEKDEIINDAVGKWLHEVDELIKEMSSGKKKGAYNNNFSSMKDASEKLLKALQD DRYSRIELCGKRGSGKTTLVKSETKKYEKIFSRVIFLNMFKKDLKSMNEEMANLQRREKTNSETTLFILDNFPTRHSLDD IGLSRSTLGPQRKVLLITDDEADCTRHYKFISQRKRICDSSISMERISDDEAWELLHNLTTGIDSRLDLLNVAREVALQC KGLPGLINDVVSSLDNKNTMKYWKESLDNLHHSTACHHIYFSANIESACLEFTKSLHGALVQQGFKIIPKASFHLSRKNF KGLEEEIAKSRCSIIVISKEYARDFKGLQELVKILKCKETIQQLILPIFYNVDPSDVRDVKRSFKDGLQHAKENAMEEMK QLYNEEAMLKEWTSALYELGRLPGKQYIKGSQDNFIQEIIDHVKNNKHRLHVKHVNGQEGRLCSYDKDCTGD
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 |
|---|---|---|---|---|---|---|
| Coils | 9 | 29 | 21 | - | – | |
| Gene3D | 40 | 197 | 158 | 3.2E-7 | – | |
| SUPERFAMILY | 62 | 273 | 212 | 9.77E-25 | ||
| Pfam | 104 | 276 | 173 | 3.5E-11 | ||
| Coils | 117 | 144 | 28 | - | – | |
| Gene3D | 271 | 451 | 181 | 1.4E-30 | ||
| PANTHER | 272 | 447 | 176 | 1.6E-27 | – | |
| PANTHER | 272 | 447 | 176 | 1.6E-27 | – | |
| SMART | 276 | 422 | 147 | 1.9E-9 | ||
| Pfam | 277 | 448 | 172 | 4.7E-19 | ||
| SUPERFAMILY | 290 | 421 | 132 | 4.97E-16 | ||
| ProSiteProfiles | 323 | 422 | 100 | 11.449 | ||
| Coils | 385 | 405 | 21 | - | – |
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 LotjaGi1g1v0541900.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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