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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0233100 |
Transcript ID | LotjaGi1g1v0233100.4 |
Related isoforms 3 | |
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|A0A072UCJ6|A0A072UCJ6_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi1g1v0233100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:54798455..54809069) extracted from Lotus japonicus Gifu genome v1.2.
TGACCTTATAATATAAATACTATCATTATCCACATTGTGCCTCCCAAACCCTACCAGCCACCACTTCTCCCCTTAAACCC TAGCAGCCACCATGCGACTCTCAAACCTTAACCGCGATAGCCACCAGCCCACCACTTCTCCTTTCTTCTTGCTGTCAGCA TGGACTTCCGATGAGCTACGCCACCACATCCGCTTCTCTCTTCCCCTCGTCGCAACGACCCTCTAAGTCAGCGCCAACCA CCACTTATCCTCTGTTGCCTGCTTCACCGTCATCAGGTTCGAGGAGGAACCTTCACGCGCTTCTTTTCTTTTACTGCATC TTCCTTAGATCTGAGTATGGAAGTTGAAGACGATATCAACAGATCTAGGTTTCTTCCATCTGTTGCACTTTCATTAGCCT CAGATCTTTTGCACAAGTGAGTAAAGCTCGACGAGGACAGACGAGAAGACAAAGAAGACACTCACGAAGATGAGGAGTTG AAGAAGACGCTTGCTAGCAGTTTGCCTTACTATTTCATAGTGTCACAGGGGATAAATGACATTGAAAAATAGTCCAGGTG TTCTTATTTGAATGAAAGTGGTACTTAACACAACTATTGTGCTTTGTTTTAATTTGTGAAATTTTGTACTCATCACTGGA AAGCAAAGAATTTCTTCCTCTTCACTATTCTTTTCCTCATCGGTTACCATTTAACCGATCTGATTAACCCGTACCCACAA CACCCGAGGTCCGACCAAACCGACGCTTTACACGGACGGTGGCAGACCTGGGTTTTTGGTGATTTTCACCGAACAAAACC GACGCCAGCGGCCAAAACCAACTGTAACCGGCCAATGGACAACCCTAGTTTCATGCCTCATTAGAGAGGATTTCTGAAAC TATGGGGTTCACATGTTTTTTTGCCCCTTCCACTTGTTTTCCATTGTGATCCAAACAATAAAAAACTCCCCTTTTCATGT GTAATCCTTCCATCTAACTTCCTTCCTTTCATATTACCGAGAAACAAACGTAGAACAAGAGAAAATTACATTCACCTCTC GTGAAGTATTCTAAATTCATTTTTTTGGTTGAAGCATTCTAAATTCTAATACTTCATTGAGCATCCTTTGTAAAATCTAA TTGACACAATTTACCCCTTTTCTAACGGGAGTAGACGGTGACCGACTAGCAGACCTTCACCATTTCAGCACTCACCTCCA CCAAGCTCCTTGTCGTCACCCTCCTCCCGGAGCTTCTTGGCCAAAACCTGTCACCGGTCCTCCACAGCACCACCCTTCAC CGCCGCAAACAACCACACCGCGCCTCGGAGTCGGAGCTGTCATCACGTCGCACCTGACTTCGTATTCACACAACAAAACT AAATCGGGTATGAAATAATTGCCTTCCTTAACCTCCTCCTATTTTAATTCACACACGTTCCTCCATTCTACCTCTCTTCA TTCATTCCCTCTCTCACATTCCATTGCTTTTAATTTGGTTGTTGCAAAGTTTCTTGGTTGTTAATTTTTTGGCAATCGAA ACTTGAAAATGCTAGAATACCTCCAATAGAGATTGTCTCTCTCTGATAACGATAAGGAATGTGAGGGATTTTGAATTTTC ACAAATTACAGGGGTGTGGCTGCAATTTCCACTAACAATAAATATATGAGAGATGTAATTACTTTAAGACGACTAGTTTG ACTTGGACTGTACGAGAGTTGCCAATAAAAAGGTGTAAGGTGTGGCGTTCCAATAACGTGTAGCACGTTCTTGGGCGTGC TTGGGAGAGACATGTCCACTTAATATCATCTAAGAACTTCTGAAGATCAGTCTCATGACGGTCGGTATGGAATACATTAT GAAACCAAAATGAAAAGGCGTGGCTTCATCTTACCTGTTTCCTCTGCTCTGCATATTTTCTTTCAACTCCATCCATGTTT TCCTTAAGATCTGATCCCTGTCCAGAGTGGATCTACGATGTCCTTTTGAGTTATTGTGTTAATGATGACTCTGCTAAATC TTTTGCATCACTTCTCTACACCACTCTCACAGAGGCTGGAGTTGATGTTTTCAAGGACGATGGCAAGCTTAGAAGTGGCG ATCAGATATCATATTTCTCCTCAGTGCTTCATGCAATCGGAGTTTCTAGAATTTCCATCATTGTTTTCTCAAGAAACTAT GCTGCATCTCAATGGTGTATGGAAGAGTTGGAAAAAATAATGGAGTGCCGCAGAACCATATCTCAGAGGGTAATCCCTGT ATTCTATGAAGTAGATCCCTCTGATGTATTTATGCAAGAAGGTGCGTTTGGAGAAGGTTTTGAAGACAAATTGATAAGTT GGAGGGCAGCTCTCAGTGAAGCTAACAACATATTAGGACTTCACTCAGTGGATTCAAGGTAATCAAGTTATATTTTGCAT TTGGTTTTGATTTTTGCTCTCCATATTTATGCTTTTAGGCTCTGATTGGCATATCTAGCTGATCACCACCCGGAAGCGGT AGCATGTCCTTCCCATCAAATGTTTTTCGCGAGATTCGAATTCGTGCACTCATTCTTACGTGAGTTTAACTTGCTTATCA CTAGACCAATACCTTGTTGATATTTTATACTAATTTAAAAATAATTATTACTTTAAAAATAAGGTTTAAGCTAGTTGAAA TATCTTGTCAAACAAAGCCTTTGTTACTATTATTAACAATGTGATTTTTAAATGAAAATTGTTTTGTTCACACTTGTAAT AATTGCCATGAGACTAATCTCTCAACCCCACAGTCAGCGCTCTAAGCGCTAGGGGACCAAAGAGTTATTTTCTTGCATTT TCTTTTCTTTTGAATGATGGACTGAAGCACCCTAGTGCTCCATATTAATATATTTGGCTTATAAAAAAAGAGAAAAGAGA ATAATAAGAGTGTGAATATATCATTACTCTTTTTAAATATCCCAAAATATATACCTCCTTCTTCTAATTTTTTTCATGTT ACAACCTATTTTATTTTTTATTTTCATTTTCTTCTTATGTTTTTTGCTCATTTGGGACCGGGCATTTTTTAATATTTTTC TGGGCTGGGGTTGACATGATAATTTGAATTCAAAGAATGTATTTCCTACAGTGTTCTTCACTTCTTTGTTCACTTAGAAT AATTAAATAGTTAGTTTTATATGATTATTATACAAATGATTTGATTTTACATGTAAAATACAATTGGGAGAGAGAACTTT TTGTCCACTGAGTTGGGATTGTACATGTTAAGGCAGACTTGCTAGCAGAGAATTGCTCTTTGGTTCACATTCTGTTAGAA ATCATACGTTAGATCCACACACCACCACAAAACCCTAAGCTTAAGGTGAAAGGTGGGTGTGATCTAAGTTATATATACAC TCTTTCCTTTTCTAATCTAGGCAATGTGGGACTCGTTTGAGTCACCACTTGTTATTTTCTATTACATTCTATAGGAGGGA ACACGACGAGATCAACAAAGTAGTTGAAGATGTTATGGAAGATGTTAAGGCAGACTTGCTAGCCTTCAGACAATCGAAGG ATCTAGTGGGGATAGAATCTCGTGTGCAAGATGTGGTTCGACTGCTGAACAGCCAACAATCACAACATCCACAAATACTA GGGATATGGGGTATGGCAGGGATAGGTAAAACAACCATTGCCAAAGAAGTTTTTTCTCGAATTGGTCATGGTTTTGAGGC TCTTGTATTCCTTAATAATGTCAGGGAATGCACACTAGAACATGGGTTGCTTTCTTTACAGCATAAGCTTCTTTCTACAA TCTTCGAAACAGAAGAACTACAGCTACATTCAATTGAATCAGCAAAAAAGATACTGCGGGAAAGACTTCATGATAGAAAA ATACTTGTTATACTTGATGACGTGAATGAGCCAGAGCAGCTAAATGCTCTGTGTGGAAGTCGTGACTGGTTTAGTTCGGG CAGTGTTATAATCGTCACCACAAGAGATAGGCGTCTACTCAAGACGCTTGGAGTTGACCATGTGTATAGAGTGCCAGAGC TGGACCAAATTGAGTCTCTTGAGCTTTTTTGTTGGCGTGCATTCAGCCAAGCAAGTCCTGGAGAAGATTTTGTTGAACTT TCCAGAAAAGTAGTTGCTTACTCTGGGGGATTGCCACTAGCTCTTAAAGTCACTGGGCGCACTGTGTTTGGAAGTGACGC ATCAGAGTGGAAGAGTCTGTTACCCAAACTCAAAAGAGATCTCGATCACAAACTTTACCGAGTTCTAAAAAGTTGTTTTG ATGATTTAGACGAGACAGCTAAAGTAGTAGGCCTTGATATAGCATGTTTCTATAGCGGGATGGACCGAAATGAAGTGATA CAGATGTATGCATTTTCAGCAGAAGTTGCATTACAAGTTCTTCAAGACCAAAGCCTTTTAATTATTAATGAGAATAACAA GCTCAGAATGCACGTTCTGCTGCAACATGCGGGAAGAGAATTCCAAAAGGAGAAGGTGTTGCAGAAGGTTGCTCTGGTAC GTATAGGTTATTGTGTGTGTGTGTGTGTATCTTCAACAAGAAGAAAACTGCTAACTAACACTATATCTAAATGCTCTTTG ATATTTTATTTTTAATTTCAGGGAAAAATCTACGACGTGTTCTTGAGTTTCAGAGGGAAAGACAGTCGCCCAAAATTCGT TTCACATCTCCATACCTCTCTCGAAAATGCTGGAATATATGTTTTCAGAGATGATGATGAAATTCGGCGGGGAGATACGA TCTCAGACTCATTACTGCGAAGTCTCAGACAATCTAGAATTTGTATTGTTGTTCTGTCAAAACATTATGCTAATTCAAAA TGGTGCATGCTAGAGTTGGAGAACATAATGGAATATCGCCAAACCATGGGTCTGGTGGTTGTGCCAGTGTTCTACGAGGT AGATCCCTCAGATGTACGTCATCAAGCAGGTGAGTTTGGAAAAGCTTTTGAGGATCTTATAACAAGAACCTCACTGGATG AAGAAGACGACACTGTGCAAAATTGTAGGACAGCACTCCTTCAAGTTGGTGGCATAGCAGGTGTTGTCATCATAAATTCC AGGTAGTTTAGTTTTAGTTTTTTATCTATATATTTAACCTTATGAAAAAAAATTAAACCTGTGTTTTGATTTTTGTGGTA TTTCAAATTGTCTAACATTGGAATATCATCCAAAATAATTGAATGTCTCTCGGAAGTGATTTTTGTGCAATGCCATGAAA TAAAATTTAATTTTAGTGTACTGTTTTACTTTTATAGTGATTCTTTTAATTACTCCAACACTGCTTCTACCATGAACCAC AACTTGGCAGCTCTTTCTTCTTTCCCATGGTTCTCGTTTTATGCAATGGCAAATTGGCAATCACTCAAAGTCAAATAAGT TGTCTTTTCTCTCACATGTTACCCCTCAACATTATAAATTGAAAGTTGAAACGAAATTAGATTTGATGTGTGAAAAACTT AATAATAAGTGTCAATTGTTTATTAGAGAACAGTACCAACAAAACATATGGTACTGTACGTAAGTTTTGTCCTAGATCCA CCTGAATAAATAAGATGTTCACGTGGATACAAGCGGAGCTGTCAACTTTTCTCAATTAGATCTCCTCTTCTTTTGTATTT TATGACCACCCCAGTTTGTATAATGGTAATATGATCATTTATGCACTAATTCTAGGGTTCATATTTTACAGGAACGAAAG TGAGGATGTCAAGAAAGTAGTTGAAGATGTTACTGATTTGCTTGGCAAGACAGACTTATTCGTTGCTGAGCACCCAGTGG GGGTAGAAGCTCGTATTCAAGATGTGATTCAACTTTTGCATAGTCATCAATCCAAAGCTCCTTTGCTACTTGGGATATGG GGGATGGGGGGGCTGGGCAAAACAACCATTGTAAAAGCTGTTTATAATCAAATTCGTCGTGATTTTGAGGCTAAGAGCTT CCTCCTAAATGTCAGAGAAGTTTGCGAACAAAATAATGGTATAGTTTCTTTACAACAGAAGCTTCTTTCTGATATCTACA AAACAACCAAGATAAAGATAGATAATGTTGAATCAGGAAGAGTGGAATTGAAGAGAAGACTTAGCCAGAAGAAAATATTT CTTGTGCTTGATGATGTCAATAGATTGGACCAACTGGCTTCTTTGTGTGGAAGTTGTGAATGGTTTGGCCAAGGAAGTAG AATTATCATCACAACCAGAGATGAAAATATAGTCAGCAGGGCATTTGGAGTTGAGCTTGTATATAGAATAAAAGAAATGG ATGAGAAGGAATCTCTTGAGCTTTTTAGTTGGCATGCATTTAAACAACCAATTCCTGGAGAAGGCTATGCTGACCTTTCA AGAGATGTAGTTGAGTACTGTGGGGGATTGCCGCTAGCTCTTCAAGTAATCGGGTCCTTTTTGTTGACTAGGAGGAGGAC TACAGAGTGGAAGAATGTGCTGGAGAAACTCAAAGTGATTCCCAATGGTGAAGTAATGGAGAAGCTAAAAATAAGTTTTG ATGGTTTAAGTGATGATGATATTAAAGAAATATTCCTTCACTTAGCTTTTTTCTTTATCGGGATGGACCAACATGATGTA ATTAAGATATTGAAAGACTGCGAGCATTTTGCAGAAATTGGAATAAGTGTGCTTGTACAACAAAGCCTTGTAACTATTGA TAGGAAGAACAGGATCGGAATGCATGATTTGCTACGAGACATGGGAAGAGAAATCGTCCGCAAGAAATCAGTAGATGGGG GCAAGGAGCCTAGTAGATTATGGCATTACCAGGATCTGGATTTTGTATTATCAAAAGATACTGTAAGAACTTCCTGCATC TACTGTTTTTGTTTCTAAAATATCTAAACTCAGAGGATGCTAAATGACCTTTGATGACCCAGTTATTTCTTGTCCTATTT TCTCAGTAATTGTGAATATATATTATCTTTGATTGTGAATCGTCTTGTGCTACTTGGTTCCCAGTAACAGATTATGGGCT TCAAACCTCTTAGTTTTATTCAGTTGCACTAGTAGATGTGTCTCATTTTGTTCATTTTGTTTCGCAGAGAAAGACAGATG TTCAGGGACTGACTTTGAAGTCTCCAGAAATGGATACAACTTATAACTTCGAAGCCAAAGCATTTGAGAAGATGGATAAA CTTAGATTGCTTCAACTTGCTGGCGTGAAAATTGATGGAGATTACAAGTATCTTTCAAAAGATCTTAGATGGCTTTGCTG GCATAGATTTCCTTTAAAATACACACCAACAGACTTTCATCAACAAAGTTTAGTTGCCATTGACTTCAAATATTCCAATC TGGAACAAGTTTGGAAGAAGTCCCAGGTACAAGTTATAATTCTTTTTTTTATACTTTTAAAGATAGAGTTTAAACTGTTG GACGTCTTTAGATGATTTTTTTCTTTTTTCATCAAATTTTCCTATGCTGTTGTCAACAAATATTTTTAAATTTGTTTTAT GTAGTTGCTGAAGAAGCTGAAATTTCTGAATCTTAGTCATTCTCCTAACTTGAGACAAACTCCAGACTTTTCAAACTTAC CAAATCTTGAAAAGTTAGTACTTAAAGACTGTTCTAGTTTGTCTTCGATTTCTCATACTATTGGAAATCTCAATGAACTG GTTCTGCTAAATTTGAAGAACTGTACAAGCCTTCATTCACTTCCAAAAAGCATCTATAAGTTGAAGTCATTAAAAACTCT TATTTTGTCTGGATGTTCAAAAATTGACAAGTTGGAAGAGGATATAGAACAGATGGAATCTTTAACCATCCTGGTTGCAG ATAACACTGCAATAACAAGAGTTCCCTTTGCTGTAGTGAGATCCAAAAGCATTGGATATATTTCTTTGTGCGGCTATGAA GGATTCTCACGTGATGTATTTCCATCAATTATACGATCTTGGATGTCTCCAACTAATAATATTTTATTCCAAGTTCAAAC ATCTTCTATGGGCATGTCATCCCTTGATATCTTGTATGAACAAAACAGTAGTTCATCAGGTCTATTCTATGCTCTAAAGG ATCTTCAGAAGCTTCGACGCCTTTGGGTGAAGTGCGACTCAGAAGTTCAGCTGAATGAATGTGTAGAAAGAATTTTGGAT GCACTAAAAATCACAAATTGTGCGGAATTAGAAGCAACACCAAGCACATCTCAAGTCTCAAACAATAGTTCTGCTTTACT TGATTGTCACAATCAAGTTCGCATTTCAGGGTCAAAACTTTCGTCGACTTCTCTTTTGATACAAATGGGAATGAACTGCC GTGTCTTCAATACTCTTAAAGAAACTATTTTACAGGTTCTCTCTCTGTCTTTCTTCTTTTTACAAGCATAATAGTACAAA TGAGTTTATTTTATACATCACAATTTTAAAATGTTTTATAGACTTACTCATGTTGAATAATTTAATTTTATACATGCATG TACACTGTACAGATGTCCCCCATTGAGTCTGGTTTACTTCCCAGTGACGACTATCCTGATTGGTTAACATTCAATAGTGA TTGTTCTTCTGTAACTTTTGAAGTCCCTCAAGTGGATGGGCGCAACTTGAGGACAATCATGTTCATTGTCTATTCTTCTT CCCCAGACAATATCACATCAGAAGGCCTGAAAAATGTGTTGATGATAAATTGCACAAAGAACACCATTCAGCTCTATAAG AAAGGTGCATTAGGATCCTTTAATGAAGAGGAGTGGCAGAAAGTAGTATCAAACATAGAACCTGGTAACAAAGTGAAGGT GGTTGTCTTTTTTGAGAAAGAATTCATTGTGAAGAAGACATCAGTTTATCTCATATATGATGTGCCAACTGACCAAAAGA CAGAACACTGCCATGAGCCAGATAAGAGTGTTCCTGTTTCCGGTGGTGATGAAAATGTTAGTAATAATAGGCTAAATTTA GGCTCATTCTATATGATATTTTTTCATATTGTTATGCAAGTAAGCATTGATTCAACTCTTTCTTCAAAATAGTGTTAAAA GTTTTCCTACTCTTTATATATTTGTCTCAGGACTTTTCTCAACCTGAAGGTAGCAACGCTGATCCACCTCCTTGCTTAAA GAAAAAGAAAATCAAGCATAAGGATACTCAAAAACCAATTCCTAATGACATTGTTGAGAAATTTCCAGAGGTAAACTCGT TAAATTTATCTTTTAAAATATTTCCAATTTGAGCTTTGAACTTTGTTCTTTTTACTTTTTTTCAGTATAAAACCACAGAA TCCTTCTTCTGTAAAATTTCAAACTCGAATTCCTTCTTCTATTTCTTTTTCTTTGAGCTCTGATGGCAGTTTGGAAGTTG ACCATTTATTTTTGGCTTTGGCTTTGTAGATACCTGGAGGTGAAGCTGTATATGTTTATAGAGAGGCTGATCGAAACGTT CCCCCAGGTCCAAATTTTTCTTTAAACTCTGAACCTTATGATTTTGTCAATTATGAACCAGTCACATTAACTCCTAAAAT TCCTGTAGAAACTCAAGGTCCTCAAATTCCTCCTTCTGGTATTCCCACTCGAACCAACATAGAAGTTCCTTCTCCTCCAA TAGAAAATCCACTCAAAGAAGCTGCTGTTTCTGAAAATGAGCCTCTTCAGAATCCATTTCCAAAGATTGTTAATCCTTCA GGTCCAACTTCTGAAGCTCAAATTCTTGATACTTTGAATGAACCAACTGTTCAACAACAAGAATCTCCTCCATGTCCCTC TTTAAACATAAAAGATTATGAAAAGATGCTTGAAGATGACCCCTTTCAACTTATGATGAAAATCATTTCGAAAGAGATTC ATTTCTCTGACACTAAACAAATTAGCACCAAGACTTCTGAGTCTTCAACATCTACTCCTCTTCCCATGTTGATCAACCAA CTGAAGGAGCTTATATTTTCAGTGGACTTAATCGAAGCATTACCGTCGAACACCTTTCTGAGCAATCAAATTCGGAAGGT AATGGATGAGATTGAGGTTCATCAAGATAAACTCAAAGCTTACCGAGATATAGGAGTTGGAAATTTCTGTTATTGGTACA ATGATCTTACTTCAACCATAGATCAAATAAAAAATTCAAAACTCTTTATATTCCAACTTGAAGCTGATCAGGAGGAAATT AGACAAAAGTTAATGAAAACTCGAAGCAAGTATGATGGTGCTATTGCTGCAGTTTTGATGGGGGCTTCGAGACGTTGTGA AATCAAGAATGAAATTCAATCACTCAAGCAACAAATTTCTGAGCTTGAGAAGGAAGATGCTTTGATTATTGAGGAAGAAC TTAAATGTGAGGATCAAAAGAGAAACATCATTGAGGAAATCAAAGTCTTATCTAAAGAGGCTCTTGAGAAAGGTAAAGAA ACTGCTGCCCTCCAGAAAAAGAAGAAGAAGCATGAATCTGTACTTGAAGCTCTTCGAAAGACTTATGAAGAGATGAAGTT CAAGCAAACTTTTTAGTCTATAATCTGTGGTTTTCCTTTCTAAGAGTTGGTCTTGTGAATCTCTTGTACATATTTGAAGC CTATAACACTTTTTTAAATTTTTCTATAAAGCTTTTGATGGAACTGCCCTGAAACATTCTGGAAAAACAGATGTGAATTT ACTTTGAAGAGCGTCCAATTTTAAGCTCCATCCTTGTTGGCCTACCAAAAGAGTT
CDS sequence (LotjaGi1g1v0233100.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTTTCCTTAAGATCTGATCCCTGTCCAGAGTGGATCTACGATGTCCTTTTGAGTTATTGTGTTAATGATGACTCTGC TAAATCTTTTGCATCACTTCTCTACACCACTCTCACAGAGGCTGGAGTTGATGTTTTCAAGGACGATGGCAAGCTTAGAA GTGGCGATCAGATATCATATTTCTCCTCAGTGCTTCATGCAATCGGAGTTTCTAGAATTTCCATCATTGTTTTCTCAAGA AACTATGCTGCATCTCAATGGTGTATGGAAGAGTTGGAAAAAATAATGGAGTGCCGCAGAACCATATCTCAGAGGGTAAT CCCTGTATTCTATGAAGTAGATCCCTCTGATGTATTTATGCAAGAAGGTGCGTTTGGAGAAGGTTTTGAAGACAAATTGA TAAGTTGGAGGGCAGCTCTCAGTGAAGCTAACAACATATTAGGACTTCACTCAGTGGATTCAAGGAGGGAACACGACGAG ATCAACAAAGTAGTTGAAGATGTTATGGAAGATGTTAAGGCAGACTTGCTAGCCTTCAGACAATCGAAGGATCTAGTGGG GATAGAATCTCGTGTGCAAGATGTGGTTCGACTGCTGAACAGCCAACAATCACAACATCCACAAATACTAGGGATATGGG GTATGGCAGGGATAGGTAAAACAACCATTGCCAAAGAAGTTTTTTCTCGAATTGGTCATGGTTTTGAGGCTCTTGTATTC CTTAATAATGTCAGGGAATGCACACTAGAACATGGGTTGCTTTCTTTACAGCATAAGCTTCTTTCTACAATCTTCGAAAC AGAAGAACTACAGCTACATTCAATTGAATCAGCAAAAAAGATACTGCGGGAAAGACTTCATGATAGAAAAATACTTGTTA TACTTGATGACGTGAATGAGCCAGAGCAGCTAAATGCTCTGTGTGGAAGTCGTGACTGGTTTAGTTCGGGCAGTGTTATA ATCGTCACCACAAGAGATAGGCGTCTACTCAAGACGCTTGGAGTTGACCATGTGTATAGAGTGCCAGAGCTGGACCAAAT TGAGTCTCTTGAGCTTTTTTGTTGGCGTGCATTCAGCCAAGCAAGTCCTGGAGAAGATTTTGTTGAACTTTCCAGAAAAG TAGTTGCTTACTCTGGGGGATTGCCACTAGCTCTTAAAGTCACTGGGCGCACTGTGTTTGGAAGTGACGCATCAGAGTGG AAGAGTCTGTTACCCAAACTCAAAAGAGATCTCGATCACAAACTTTACCGAGTTCTAAAAAGTTGTTTTGATGATTTAGA CGAGACAGCTAAAGTAGTAGGCCTTGATATAGCATGTTTCTATAGCGGGATGGACCGAAATGAAGTGATACAGATGTATG CATTTTCAGCAGAAGTTGCATTACAAGTTCTTCAAGACCAAAGCCTTTTAATTATTAATGAGAATAACAAGCTCAGAATG CACGTTCTGCTGCAACATGCGGGAAGAGAATTCCAAAAGGAGAAGGTGTTGCAGAAGGTTGCTCTGGGAAAAATCTACGA CGTGTTCTTGAGTTTCAGAGGGAAAGACAGTCGCCCAAAATTCGTTTCACATCTCCATACCTCTCTCGAAAATGCTGGAA TATATGTTTTCAGAGATGATGATGAAATTCGGCGGGGAGATACGATCTCAGACTCATTACTGCGAAGTCTCAGACAATCT AGAATTTGTATTGTTGTTCTGTCAAAACATTATGCTAATTCAAAATGGTGCATGCTAGAGTTGGAGAACATAATGGAATA TCGCCAAACCATGGGTCTGGTGGTTGTGCCAGTGTTCTACGAGGTAGATCCCTCAGATGTACGTCATCAAGCAGGTGAGT TTGGAAAAGCTTTTGAGGATCTTATAACAAGAACCTCACTGGATGAAGAAGACGACACTGTGCAAAATTGTAGGACAGCA CTCCTTCAAGTTGGTGGCATAGCAGGTGTTGTCATCATAAATTCCAGGAACGAAAGTGAGGATGTCAAGAAAGTAGTTGA AGATGTTACTGATTTGCTTGGCAAGACAGACTTATTCGTTGCTGAGCACCCAGTGGGGGTAGAAGCTCGTATTCAAGATG TGATTCAACTTTTGCATAGTCATCAATCCAAAGCTCCTTTGCTACTTGGGATATGGGGGATGGGGGGGCTGGGCAAAACA ACCATTGTAAAAGCTGTTTATAATCAAATTCGTCGTGATTTTGAGGCTAAGAGCTTCCTCCTAAATGTCAGAGAAGTTTG CGAACAAAATAATGGTATAGTTTCTTTACAACAGAAGCTTCTTTCTGATATCTACAAAACAACCAAGATAAAGATAGATA ATGTTGAATCAGGAAGAGTGGAATTGAAGAGAAGACTTAGCCAGAAGAAAATATTTCTTGTGCTTGATGATGTCAATAGA TTGGACCAACTGGCTTCTTTGTGTGGAAGTTGTGAATGGTTTGGCCAAGGAAGTAGAATTATCATCACAACCAGAGATGA AAATATAGTCAGCAGGGCATTTGGAGTTGAGCTTGTATATAGAATAAAAGAAATGGATGAGAAGGAATCTCTTGAGCTTT TTAGTTGGCATGCATTTAAACAACCAATTCCTGGAGAAGGCTATGCTGACCTTTCAAGAGATGTAGTTGAGTACTGTGGG GGATTGCCGCTAGCTCTTCAAGTAATCGGGTCCTTTTTGTTGACTAGGAGGAGGACTACAGAGTGGAAGAATGTGCTGGA GAAACTCAAAGTGATTCCCAATGGTGAAGTAATGGAGAAGCTAAAAATAAGTTTTGATGGTTTAAGTGATGATGATATTA AAGAAATATTCCTTCACTTAGCTTTTTTCTTTATCGGGATGGACCAACATGATGTAATTAAGATATTGAAAGACTGCGAG CATTTTGCAGAAATTGGAATAAGTGTGCTTGTACAACAAAGCCTTGTAACTATTGATAGGAAGAACAGGATCGGAATGCA TGATTTGCTACGAGACATGGGAAGAGAAATCGTCCGCAAGAAATCAGTAGATGGGGGCAAGGAGCCTAGTAGATTATGGC ATTACCAGGATCTGGATTTTGTATTATCAAAAGATACTAGAAAGACAGATGTTCAGGGACTGACTTTGAAGTCTCCAGAA ATGGATACAACTTATAACTTCGAAGCCAAAGCATTTGAGAAGATGGATAAACTTAGATTGCTTCAACTTGCTGGCGTGAA AATTGATGGAGATTACAAGTATCTTTCAAAAGATCTTAGATGGCTTTGCTGGCATAGATTTCCTTTAAAATACACACCAA CAGACTTTCATCAACAAAGTTTAGTTGCCATTGACTTCAAATATTCCAATCTGGAACAAGTTTGGAAGAAGTCCCAGTTG CTGAAGAAGCTGAAATTTCTGAATCTTAGTCATTCTCCTAACTTGAGACAAACTCCAGACTTTTCAAACTTACCAAATCT TGAAAAGTTAGTACTTAAAGACTGTTCTAGTTTGTCTTCGATTTCTCATACTATTGGAAATCTCAATGAACTGGTTCTGC TAAATTTGAAGAACTGTACAAGCCTTCATTCACTTCCAAAAAGCATCTATAAGTTGAAGTCATTAAAAACTCTTATTTTG TCTGGATGTTCAAAAATTGACAAGTTGGAAGAGGATATAGAACAGATGGAATCTTTAACCATCCTGGTTGCAGATAACAC TGCAATAACAAGAGTTCCCTTTGCTGTAGTGAGATCCAAAAGCATTGGATATATTTCTTTGTGCGGCTATGAAGGATTCT CACGTGATGTATTTCCATCAATTATACGATCTTGGATGTCTCCAACTAATAATATTTTATTCCAAGTTCAAACATCTTCT ATGGGCATGTCATCCCTTGATATCTTGTATGAACAAAACAGTAGTTCATCAGGTCTATTCTATGCTCTAAAGGATCTTCA GAAGCTTCGACGCCTTTGGGTGAAGTGCGACTCAGAAGTTCAGCTGAATGAATGTGTAGAAAGAATTTTGGATGCACTAA AAATCACAAATTGTGCGGAATTAGAAGCAACACCAAGCACATCTCAAGTCTCAAACAATAGTTCTGCTTTACTTGATTGT CACAATCAAGTTCGCATTTCAGGGTCAAAACTTTCGTCGACTTCTCTTTTGATACAAATGGGAATGAACTGCCGTGTCTT CAATACTCTTAAAGAAACTATTTTACAGATGTCCCCCATTGAGTCTGGTTTACTTCCCAGTGACGACTATCCTGATTGGT TAACATTCAATAGTGATTGTTCTTCTGTAACTTTTGAAGTCCCTCAAGTGGATGGGCGCAACTTGAGGACAATCATGTTC ATTGTCTATTCTTCTTCCCCAGACAATATCACATCAGAAGGCCTGAAAAATGTGTTGATGATAAATTGCACAAAGAACAC CATTCAGCTCTATAAGAAAGGTGCATTAGGATCCTTTAATGAAGAGGAGTGGCAGAAAGTAGTATCAAACATAGAACCTG GTAACAAAGTGAAGGTGGTTGTCTTTTTTGAGAAAGAATTCATTGTGAAGAAGACATCAGTTTATCTCATATATGATGTG CCAACTGACCAAAAGACAGAACACTGCCATGAGCCAGATAAGAGTGTTCCTGTTTCCGGTGGTGATGAAAATGACTTTTC TCAACCTGAAGGTAGCAACGCTGATCCACCTCCTTGCTTAAAGAAAAAGAAAATCAAGCATAAGGATACTCAAAAACCAA TTCCTAATGACATTGTTGAGAAATTTCCAGAGATACCTGGAGGTGAAGCTGTATATGTTTATAGAGAGGCTGATCGAAAC GTTCCCCCAGAAACTCAAGGTCCTCAAATTCCTCCTTCTGGTATTCCCACTCGAACCAACATAGAAGTTCCTTCTCCTCC AATAGAAAATCCACTCAAAGAAGCTGCTGTTTCTGAAAATGAGCCTCTTCAGAATCCATTTCCAAAGATTGTTAATCCTT CAGGTCCAACTTCTGAAGCTCAAATTCTTGATACTTTGAATGAACCAACTGTTCAACAACAAGAATCTCCTCCATGTCCC TCTTTAAACATAAAAGATTATGAAAAGATGCTTGAAGATGACCCCTTTCAACTTATGATGAAAATCATTTCGAAAGAGAT TCATTTCTCTGACACTAAACAAATTAGCACCAAGACTTCTGAGTCTTCAACATCTACTCCTCTTCCCATGTTGATCAACC AACTGAAGGAGCTTATATTTTCAGTGGACTTAATCGAAGCATTACCGTCGAACACCTTTCTGAGCAATCAAATTCGGAAG GTAATGGATGAGATTGAGGTTCATCAAGATAAACTCAAAGCTTACCGAGATATAGGAGTTGGAAATTTCTGTTATTGGTA CAATGATCTTACTTCAACCATAGATCAAATAAAAAATTCAAAACTCTTTATATTCCAACTTGAAGCTGATCAGGAGGAAA TTAGACAAAAGTTAATGAAAACTCGAAGCAAGTATGATGGTGCTATTGCTGCAGTTTTGATGGGGGCTTCGAGACGTTGT GAAATCAAGAATGAAATTCAATCACTCAAGCAACAAATTTCTGAGCTTGAGAAGGAAGATGCTTTGATTATTGAGGAAGA ACTTAAATGTGAGGATCAAAAGAGAAACATCATTGAGGAAATCAAAGTCTTATCTAAAGAGGCTCTTGAGAAAGGTAAAG AAACTGCTGCCCTCCAGAAAAAGAAGAAGAAGCATGAATCTGTACTTGAAGCTCTTCGAAAGACTTATGAAGAGATGAAG TTCAAGCAAACTTTTTAG
Protein sequence (LotjaGi1g1v0233100.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFSLRSDPCPEWIYDVLLSYCVNDDSAKSFASLLYTTLTEAGVDVFKDDGKLRSGDQISYFSSVLHAIGVSRISIIVFSR NYAASQWCMEELEKIMECRRTISQRVIPVFYEVDPSDVFMQEGAFGEGFEDKLISWRAALSEANNILGLHSVDSRREHDE INKVVEDVMEDVKADLLAFRQSKDLVGIESRVQDVVRLLNSQQSQHPQILGIWGMAGIGKTTIAKEVFSRIGHGFEALVF LNNVRECTLEHGLLSLQHKLLSTIFETEELQLHSIESAKKILRERLHDRKILVILDDVNEPEQLNALCGSRDWFSSGSVI IVTTRDRRLLKTLGVDHVYRVPELDQIESLELFCWRAFSQASPGEDFVELSRKVVAYSGGLPLALKVTGRTVFGSDASEW KSLLPKLKRDLDHKLYRVLKSCFDDLDETAKVVGLDIACFYSGMDRNEVIQMYAFSAEVALQVLQDQSLLIINENNKLRM HVLLQHAGREFQKEKVLQKVALGKIYDVFLSFRGKDSRPKFVSHLHTSLENAGIYVFRDDDEIRRGDTISDSLLRSLRQS RICIVVLSKHYANSKWCMLELENIMEYRQTMGLVVVPVFYEVDPSDVRHQAGEFGKAFEDLITRTSLDEEDDTVQNCRTA LLQVGGIAGVVIINSRNESEDVKKVVEDVTDLLGKTDLFVAEHPVGVEARIQDVIQLLHSHQSKAPLLLGIWGMGGLGKT TIVKAVYNQIRRDFEAKSFLLNVREVCEQNNGIVSLQQKLLSDIYKTTKIKIDNVESGRVELKRRLSQKKIFLVLDDVNR LDQLASLCGSCEWFGQGSRIIITTRDENIVSRAFGVELVYRIKEMDEKESLELFSWHAFKQPIPGEGYADLSRDVVEYCG GLPLALQVIGSFLLTRRRTTEWKNVLEKLKVIPNGEVMEKLKISFDGLSDDDIKEIFLHLAFFFIGMDQHDVIKILKDCE HFAEIGISVLVQQSLVTIDRKNRIGMHDLLRDMGREIVRKKSVDGGKEPSRLWHYQDLDFVLSKDTRKTDVQGLTLKSPE MDTTYNFEAKAFEKMDKLRLLQLAGVKIDGDYKYLSKDLRWLCWHRFPLKYTPTDFHQQSLVAIDFKYSNLEQVWKKSQL LKKLKFLNLSHSPNLRQTPDFSNLPNLEKLVLKDCSSLSSISHTIGNLNELVLLNLKNCTSLHSLPKSIYKLKSLKTLIL SGCSKIDKLEEDIEQMESLTILVADNTAITRVPFAVVRSKSIGYISLCGYEGFSRDVFPSIIRSWMSPTNNILFQVQTSS MGMSSLDILYEQNSSSSGLFYALKDLQKLRRLWVKCDSEVQLNECVERILDALKITNCAELEATPSTSQVSNNSSALLDC HNQVRISGSKLSSTSLLIQMGMNCRVFNTLKETILQMSPIESGLLPSDDYPDWLTFNSDCSSVTFEVPQVDGRNLRTIMF IVYSSSPDNITSEGLKNVLMINCTKNTIQLYKKGALGSFNEEEWQKVVSNIEPGNKVKVVVFFEKEFIVKKTSVYLIYDV PTDQKTEHCHEPDKSVPVSGGDENDFSQPEGSNADPPPCLKKKKIKHKDTQKPIPNDIVEKFPEIPGGEAVYVYREADRN VPPETQGPQIPPSGIPTRTNIEVPSPPIENPLKEAAVSENEPLQNPFPKIVNPSGPTSEAQILDTLNEPTVQQQESPPCP SLNIKDYEKMLEDDPFQLMMKIISKEIHFSDTKQISTKTSESSTSTPLPMLINQLKELIFSVDLIEALPSNTFLSNQIRK VMDEIEVHQDKLKAYRDIGVGNFCYWYNDLTSTIDQIKNSKLFIFQLEADQEEIRQKLMKTRSKYDGAIAAVLMGASRRC EIKNEIQSLKQQISELEKEDALIIEEELKCEDQKRNIIEEIKVLSKEALEKGKETAALQKKKKKHESVLEALRKTYEEMK FKQTF
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 | 5 | 148 | 144 | 1.7E-30 | ||
Gene3D | 9 | 176 | 168 | 7.1E-49 | ||
ProSiteProfiles | 12 | 122 | 111 | 21.009 | ||
SMART | 13 | 155 | 143 | 5.1E-28 | ||
PANTHER | 13 | 496 | 484 | 0.0 | – | |
PANTHER | 13 | 496 | 484 | 0.0 | – | |
Pfam | 22 | 183 | 162 | 3.6E-29 | ||
SUPERFAMILY | 176 | 434 | 259 | 1.19E-61 | ||
Gene3D | 177 | 338 | 162 | 2.7E-31 | – | |
Pfam | 191 | 411 | 221 | 8.6E-29 | ||
SMART | 206 | 344 | 139 | 0.079 | ||
PANTHER | 503 | 1548 | 1046 | 0.0 | – | |
Gene3D | 503 | 679 | 177 | 2.8E-60 | ||
PANTHER | 503 | 1548 | 1046 | 0.0 | – | |
SUPERFAMILY | 503 | 648 | 146 | 1.07E-38 | ||
ProSiteProfiles | 504 | 647 | 144 | 28.052 | ||
SMART | 505 | 647 | 143 | 6.2E-40 | ||
Pfam | 506 | 670 | 165 | 4.0E-38 | ||
SUPERFAMILY | 678 | 940 | 263 | 8.21E-63 | ||
Gene3D | 680 | 836 | 157 | 5.1E-31 | – | |
CDD | 685 | 842 | 158 | 0.00368792 | – | |
Pfam | 688 | 911 | 224 | 1.8E-34 | ||
SMART | 705 | 844 | 140 | 0.0012 | ||
PRINTS | 708 | 723 | 16 | 8.6E-24 | – | |
PRINTS | 785 | 799 | 15 | 8.6E-24 | – | |
Gene3D | 844 | 929 | 86 | 3.2E-6 | – | |
PRINTS | 879 | 893 | 15 | 8.6E-24 | – | |
SUPERFAMILY | 986 | 1315 | 330 | 8.84E-29 | – | |
Gene3D | 1015 | 1404 | 390 | 6.8E-27 | ||
PRINTS | 1190 | 1206 | 17 | 8.6E-24 | – | |
MobiDBLite | 1526 | 1559 | 34 | - | – | |
Coils | 1758 | 1778 | 21 | - | – | |
Coils | 1839 | 1866 | 28 | - | – | |
Coils | 1895 | 1922 | 28 | - | – |
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 LotjaGi1g1v0233100.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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