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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0174600 |
| Transcript ID | LotjaGi2g1v0174600.1 |
| 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|G7KKS7|G7KKS7_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi2g1v0174600 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:59278624..59294061) extracted from Lotus japonicus Gifu genome v1.2.
CCCACAATTGCTGAAACCGTAAAAAAAAAACAATTCTTTTCTCTCTCTGTGCTCGTTGCTTTCTTTCTTCTCCTGTGCGC AGCTTTGGTTCTTTTCTCTTCTCTTCAATTTTCTTTCTTCTTCAAAGGAAACAAAATACTACACAATACCCCCACCATCA AATAGACGTTGGTGAAGAGAAATTATCTTGCAAGTGGAAAAGATGTTGGGCATGGTTTTGGGAGATAGGGTTTGTGCTAA AGAATGAGAAGAGTACCCACCGCTTCACGATTACTCAGTCGGGTTATTGAGGTATATCTATCACTTATAGATTTAAAGAA TGATATTATAGTATATGTTAGACTTGAGTAGGATTATTTTAGGGGTTTGGGTACATAATTGGGGATTTCATAGTTGCTCA TGGGTAGTACGACATAAGATAATTGTTGCTGAAGGTTTGAAGTTGATTTTTGGTGTTCAGATCTGCCGGTTAGTGGTTCG TTTGGTTGTCGCGCAGTTGTGGAGAGCAATCGTGTTGGTTCTTCGTAACTGTGAGTGGTTTTCAACTGCTATGACATATT TTTAACAGTCTTATAACTGATTTAATTACTTTATCATGTGACCTATTTATCTAAATTGGGGAAACGTGTTTTAGTATGTT TGACTATCATTCTTGAACTCTGAAAGCTGATTTTATGAAACTGATTTTGAGCATGTTTTATGAATTGGTATGAGAAGAGA ATGACATTGGGTTAATTTGGAAATTATGTGAAATTGAGATTGTGAACTTGAAAAGCTTTGATGAGCATTGAAAAGTTGAT ATTGAGAATGTTATTTTGAAAAGCTTTGATGAGCATTTGAAAATGATTTTGAGACTGTTGATGAGACTTGTATTGGTTTG AGAAAACGGTTTTGGGGATCCTTGATAGAACCCCGTAGCCGTTAGCGGAGGTAACGGCCTAGGTGCACCTAGCTAGTTTG ATTCCGGGAGGAGAGGGCTATCCGTTAGATGAAGCCGCCAGTGCACGGAAAGGGCTATCAACGAGATGAAGCTTCCCCCG ATGAGATTGATGAGATATGACATGATTTCGGGTGGAGAGGGCTATCCGTTAGATGGAGCCGCCTCTTGGGTAAGATAATC CTTAAGAGGAAAGGGCTATCAATGAGATGTAGCTTCCCCCGATGACACGATGTGACTTGAGAAAGGAAAGGGCTATCCGC TAGATGGAGCCACCCCTATCGGAGAGGCCATCCCTTAGGAGGAGAGGGCTATCAGTGAGATGGAGCCGCCTCATGGTTCT ACATGTGTGACCCTATTAATTATATTTCTGGTTTTATGTTTTTCATATCTGTGCATGATTTTAACTGTATTTATTTGAAA TGGTTATTTATGAACTTTATGATTTTTGTCAAGTTCATAGTTGAAATGATTTAAACTGGTATTATTGATGATATAAATTG TTTATACTGAGCTGAGAGCGAAAAACTCGTGCCTAGTTTGTTTCCCCTTCCTGTTCATGGTGGTTGTTGACTGCTCACTA AGTCTTTGTGACTTACCCCATTCATTATTTCCCTTCACAGATTTTCAGGCAGCTTAGTAGCAGACTGTTGTCAGATTCAG ATCATTCGACTTATTTCCTTTAGCAGGTTGTCATAGTGGTGTCTTTTATTTAATCCTGGTTATCTGCAGCTATAGGGAGT CCTAGGTGGATTTAGATTTGGGATTGTGATTTATTGTTATATTTTAAGAGTTGGCACTTGAGTGCTCGAGTTGGTTTTAT ATTTCACTTAAAATACTGGTTATGGAAGAACTCATTGGCAGATGTTGTTAATTTGTAACTATTGGAATTACAAAAGAGAT TCTAGTGTTTTTATATATGTGTACAAATATATTTTGAATAAATTGTTTGGAAAATGATTCTATGAGAAAGAGGCTTGCCA GGCTAGGGTGGTAGTCTGTGCGCCGGTCACGGCTTAGGATTTTGGGTCGTGACAAAGTTGGTATCAGAGCTTTGGCTGTA GGTCCTAATAGCTGCAAACATGAGGTAGTGATAGAATCTTTCTAGTAAATTGTGAACCGCGGCACAACTTACTTCAAAGA TGCTATTAACGCCTCATGAGAGTCGTAATGTTGTTTTCAAGTGTGATTTGAGTTCGTTCCTCATTCACTGAATTCCGAGT CATGTGATATGTTTGATGAATATTCTTTGTTCAGTGAGGATGCCACCTAAATTAGGATTTTCGTTATACAATGAGTTATC TTACTAGGATCATCTTAAAGGAGGTCGTGGTCGGCGTTGTGGTTTAGGCGAAGGACCATTGCCTGTAGGCGCTGGTTAAT TGCTGTGTAGCCGATATTAACGTGCTTATCTTGAGGTTATGAAATTCAGGGATGTTAGAGCTTATAGTTGGTACGAACGT GTTGGAGTGGTTGTTGGACAGCAACAAGGGAACCCACATAAGAAAATTTATGGGAGTCAGTTAGAGGTTAGACTGAGGAA AGTAACAACAAGTAGGTGCCACTAGATAGATTGAGGTCACGGTGATTGGTTTTGGGTAGCTAATTAATTCTCCTACTTTA CACATGCGAGTAAGGATCCACAAACGAATATTGGTTCTTTAGAGAGATTGTGGACATAACTTTGATGCGCATACATTAAT GCGGTATAGTTAATATAGTTCTATCTTCTGATTGTGGTATATGATTAGATTGATGGCTTTATGCGTATGAGAGCACTGAG ATCACCTCTGATAGCATAAGATGGATTTTCTTAGAAATTCAAGAATCGTTTCGTAATAGAGAGAGCTAGAGAGCTTAGCA ACTGATTTGAGATGCTAGGGCAGGCCGAGGACAGTGACTCTAGAGAGTGGTTCTAGTGGATACTTGTCAGGATTTGTTCA AAGTCGTAGAGTAGATTTTAGGGGTCTTTACAATCCATTTTTATTCTTAGAAGCATTTTGAGCAAGATCTACACGTTGTC CTACTTGTGTGAAGTTTCATCCCGTAGCTTGCTTTGGAGATGATTAGGTGTGCTGTTAGTGCGATTGAACATGTCATATT ACGAGGAATTTCCTTGTGGTTGTGGTGCAACCTTTCTCTAGTAATGGATAAGTGTTATTAGGAGTAGCTTTAGCATCTTA CCTGCTCCTACAACACTTGTTAGACGTGTTATGAGTTTTTTGGCCGAGGACGTGTAGTACCAAAAATTATGGTAAATTAA ATGGTAGTTGAGGTTGATGATATGTTAGGAGAGTGGAGCTCGAGTCTTTGCTTTGACTCATCAAGATGCTTAGGCAACCA ATGTAATGACAGTAAGTATACTCTTCATATGATCATGAGATGATTACGTTTGCTTAATGCTAAAGATCGATACTCTTTTT ATCATTGTAGTCAACTTAGTGAATTATCTTCTTTCCTGAATAAGATGTTGGACGTTGCTGTACCTCTTTGGGAGCATTTG GTAGTTGAGTTTGTGCACCATTCTTTTTAAGGTATCCATTGGAGATCGATTGAGAGTTGTTGATAATCGTTATAGCTTAA GACATGATTGATTTTAATGTGATCTTTGGATATAGATTGGTTAATCTTTTGGTCAACGATACTTTGGACTGTCATAAATA GGGTAGTGAGATTTAAAGTACATGGAGAATCTTTTTTCCCATTTCCGGAGAGCGAAGTGGACACCTCATAATCCAATTTC AGCATTGAAAGGTTACTACGAAAGAGTTGTAGGTGATAATTGATCTTGGTAGAAGATATTCAATTAGAAAAAATTGAAAC AAGAAGAGATTTTTGTGGTGGGTGTTTTGCAGAATGTATTCCCTAGAAAATTTCTTGGTGTACCTTCCAATAAGGGGATA GAGTTTTCCATATACTTAGTTTCTGAACCAGATTTATTGTGAAGAATAGAGTCAAGACCATAGTTATGTGTTGACTACAG GCAGTTGGAGAATATGATGGTATTAAAAAAAAAGGGAGACTTAGTGATCTAGGTACCATAAATGGAAAATTAAGAAAGAA AGAATTTTGAAGACCACTTACAGCACATGTTGTGACTGTAATGGGTTGTTGGTCATGCCTTTGGACTTAGTGACACCACT GCTGATTTAAGAATTCAGTGAACCATATCTTTGAATCCTTCTTTGAGCATTTTATGATTGTGTTTATTAATGATATTCTT AGTTATACTGAGGATAAAGAAGAGCTCTAGAAGCTTGTTGATAGTGGAGTTCCATTTGGGGCTTGCCCATTTCAACTTAA TGTTGAGTGTTGACTTACATGCAAATTCTTTTTACTCTGGTAGATGTTAGAAAAAACTCAAGGTTAAGAATTGAAGAGGA TTTTGATGGAGATGATGTTAGTGGTCCACCCAGAAAACAATTTTAACACTTATAGTTTTGGTGGAAAGAAGAAGCTTTTG CTGTAAAAAAAAAAAAAAAAAACACCCTGGTTGGAAAAAAAAATAGAGAGACTTCTGAGTTTGCTAATTTACTGGTTAGA AGCTTTGGCAAATTGATCACAGTCATCTTCCTATTGCTTCATGTGATAATCCTAGGCAATCATGTAGTCCATAATTTCCT AATTATTGTATGGTTACTTGGTGCAACTGTGGCCATTACATCAGGTAGTTGCCTGAAGGATTCTAAGCCCTTTTATTCAT TAGTTCCAGTAACACTTAAATATACTGTATGATAGCCTTTCAGTTAAAAAAAAAATTGCAAAGGGTGAAGATGGAAGAGG ATGTTTAAAGTGAAAAGATTTTATAGTTTTCATTAGACTTTGTTGACATTTAGTGATTTGAATGATAAATAGGTGTGCCT AATGTAGATTGTTTGAGGAAGAAATATTAGAGGAGACTCATCGTTCTTCATACACCATACACATGAATTCCATAAATGAT TCAATACTTGAAAGCACATTTATTGGTGGGAAAGAATAAAATAAAATAAAAACGTAGTGGAATTTGTTTCTAAATGGTAT GTCAAGGAGGTAAGGATAAGCACTAAAACCCAGTAGAGGTGCTTCAATCTATTGAGATAAGTGAAAGTGGATAGGTATTG CTATGAATTTCATGATAGATTTTCCTAGGACATCAAGGGGTTATGGTTCCTTAGGTGTGATTATAGATTGATTGTCAAAG TTGGCACACTTCTTGCCTGTGAGAGTACCTACACTGGAGCTGCGTATACTAAGCTATACTTGGATAAGTGTGATTATTTA CTTGCTGTACATGTGTCTACAATTATTGGAAAGCTCAATTCATTTCACAATTTTGGAAGTCTTCCTTGAATTGCTTTGAT GACTCGCTTGAATTTAAATATTGTTTATATCTTGAGCTAATGCTCATACAAGCATGAGAGAGACTATTAAGATCTTAGAG GATATGCTTTGGGTCTGTGTTCTACAACAAAGAGGGAGTTCAAAGCAGTAGTTGTCTTTGTTTGAATTTGCTTATAATAA CAATTGTCAATCTAGCATTTGGATGACACTATTTGAGGTTTGGTATGGTAAGTGATGCAGGTTACCAAATAGGTTGGTTT GAAATTGAATAAGCTAAACTTTTAGGCACAGAACTTTTCCATGATGTATAATTAGATGAGCATTTACCTTATGGAACATC CAGTAGCCATGGTTGATATGAGGGTGAAGTGTATGCATTCTAAGAGAATTGATTCAGTGAAAGTTCTTTGGTTAGGACCA CCTGGTGAGGTGAAGAGAAATCTTAGGAACGTGGAGTAACCAGTATCTCTCGCTATTGGAAACTTAAAAGTTAGCTAAAA CTATAAAATTCGAGGACGAATTTTTCTAAGGGGGGAAGATTGAAACATCCTGTTAAAAAAAAAGTACAGGAAATAGAAAA AAATATATATATACATATATATTTAATAAAGCAAAAACTTATAATAATAATAGTTAAAAAAAAAAAACAATCTAACCTAA CCCCATAACCCACGCAGCCCCACACCCACAATTGCTGAAACCATAAAAAAAAAACAATTCTTTTCTCTCTCTGTGCTCGT TGCTTTCTTTCTTCTCCTGTGCGCAGCTTTGGTTCTTTTCTCTTCTCTTCAATTTTCTTTCTTCTTCAAAGGAAACAAAA TACTACACAATACCCCCACCATCAAATAGACGTTGGTGAAGAGAAATTATCTTGCAAGTGGAAAAGATGTTGGGCATGGT TTTGGGAGATAGGGTTTGTGCTAAAGAATGAGAAGAGTACCCACCGCTTCACGATTACTCAGTCGGGTTATTGAGGTATA TCTATCACTTATAGATTTAAAGAATGATATTATAGTATATGTTAGACTTGAGTAGGATTATTTTAGGGGTTTGGGTACAT AATTGGGGATTTCATAGTTGCTCACGGGTAGTACGACATAAGATAATTGTTGCTGAAGGTTTGAAGTTGATTTTTGGTGT TCAGATCTGCCGGTTAGTGGTTCGTTTGGTTGTCGCGTAGTTGTGGAGAGCAATCGTGCTGGTTCTTCGTAACTGTGAGT GGTTTTCAACTGCCATGACATATTTTTAACAGTCTTATAACTGATTTAATTACTTTATCATGTGACCTATTTATCTAAAT TGGGGAAACGTGTTTTAGTATGTTTGACTATCATTCTTGAGCTCTGAAAGCTGATTTTATGAAACTGATTTTGAGCATGT TTTATGAATTGGTATGAGAAGAGAATGACATTGGGTTAATTTGGAAATTATGTGAAATTGAGAGTGTGAACTTGAAAAGC TTTGATGAGCATTGAAAAGTTGATATTGAGAATGTTATTTTGAAAAGCTTTGATGAGCATTTGAAAATGATTTTGAGACT GTTGATGAGACTTGTATTGGTTTGAGAAAACGGTTTTGGGGATCCTTGATAGAACCCCGTAGCTGTTAGCGGAGGTAACG ACCTAGGTGCACCTAGCTAGTTTGATTCCGGGAGGAGAGGGCTATCCGTTAGATGAAGCCGCCAGTGCACGGAAAGGGCT ATCAACGAGATGAAGCTTCCCCCGATGAGATTGATGAGATATGACATGATTTCGGGTGGAGAGGGCTATCCGTTAGATGG AGCCGCCTCTTGGGTAAGATAATCCTTAAGAGGAAAGGGCTATCAATGAGATGTAGCTTCCCCCGATGACACGATGTGAC TTGAGAAAGGAAAGGGCTATCCGCTAGATGGAGCCACCCCTATCGGAGAGGCCATCCCTTAGGAGGAGAGGGCTATCAGT GAGATGGAGCCGCCTCATGGTTCTACATGTGTGACCCTATTAATTATATTTCTGGTTTTATGTTTTTCATATCTGTGCAT GATTTTAACTGTATTTATTTGAAATGGTTATTTATGAACTTTATGATTTTTGTCAAGTTCATAGTTGAAATGATTTAAAC AGGTATTATTGATGATATAAATTGTTTATACTGAGTTGAGAGCGAAAAACTCGTGCCTAGTTTGTTTCCCCTTCCTGTTC ATGGTGGTTGTTGACTGCTCACTAAGTCTTTGTGACTTACCCCATTCATTATTTCCCTTCACAGATTTTCAGGCAGCTTA GTAGCAGACTGTTGTCAGATTCAGATCATTCGACTTATTTCCTTTAGCAGGTTGTCATAGTGGTGTCTTTTATTTAATCC TGGTTATCTGCAGCTATAGGGAGTCCTAGGTGGATTTAGATTTGGGATTGTGATTTATTGTTATATTTTAAGAGTTGGCA CTTGAGTGCTCGAGTTGGTTTTATATTTCACTTAAAATACTGGTTATGGAAGAACTCATTGGCAGATGTTGTTAATTTGT AACTATTGGAATTACAAAAGAGATTCTAGTGTTTTTATATATGTGTACAAAGATATTTTGAATAAATTGTTTGGAAAATG ATTCTATGAGGAAGAGGCTTGCCAGGCTAGGGTGGTAGTCTGTGCGCCGGTCACGGCTTAGGATTTTGGGTCGTGACATT TGCATTCTTAATGGAGGGTTGCTATTAAAAGGAAGCAGCACCTTAATGTTGATTTTAAAGTTGAAATCAACTCACTTTTG TAACTGTTACAATCTGCTACTATATTGATATGTTTATCCATTAGTCCATATGTTTCCTGTTTGGTTTTGCGCAACTGAGT TTTCTTTGCCATTCCTTTTTTCTTAGGCATCTCAGTGGTATGAAGATCTTTGTGAAAGTTCAGTCTTTACAATTTCAAGA AAAATAAGTTGGAGATTCTACCCTAGGAATTGAGCCTAAATGTATGATCTTTGTTGGTTTCTCTCTTATTTGGCATATGA AATCTTATTTTATTTTATTCTATTTTTGTTTTGTTTTATCCTTGGTCACCAAGTTTTCAGTATATGAAGAGTCATTCATC CAATTTCAGCTGTTTGTAGGTTATGTCACAATCACAATTGGATGGCTTGTTAATAGAAAATTATTTGAACACTAATGCTT AATTTCATAGAAGTATCTATGGAGTTTTGAAAATTGGTTGTGAAATTGCTAATGGGAGTATTGTTTGTCTACATATGGGA AATCTAGCAAGTAGAAGGCTTTATATGCCAAACACACTCAGATGGGGCTTTGTGACAATGTTCCAGCTATGGATTTTGTT CCCCAGCTTGGGGAAAACTCTTCCCAACGTCCACTGAAGTGTGAAGTATGTAGCTGAGTGTAGCATGTCAGAATGTCATG AAGGAGAGAAAGAAATGATGCTCTTCACCCATGGATGCAATATGTTTGTTTGTTTCAAATAATAAGTTCACATGTTAGTC GATTTTCAAGTGAATTCATCTCATTCCTTCAACTGATTAGTAATAAAGAAGAAAAGAGAGAAGTGCAGAAAATATTTATG CTAGTATCCGCTTGTAATGTGGTTGAATACATTGTTGAGCAAGTTAATATCTCTTCAAGACAGCAAGTCATATTGGTATT ACCATTCTATTGCAACTTTTAAGCTCCAGCCAATGATTAAATATGCTCATATGGCACTTGTAGCTATAATGGTTTTGGTA CTATGTGATATTTATTTTTGAATTTGGCCTTCGAAATGGAAATCGCTTCAAGACTAGTAGTGTGAGACGGGGGGCAGAAG CAGTCTTCAGCTGCCCACGTGAATAGTATTAAGTTTTATTCAGTTTTGGGCATCATGCTTCCTTTTCTGTTGACATAATG CAGCTTCCCAGCTACATTTAGGTTAAATATTGAAATTAAAATTTGTGTCTTCATTTACCCCTATTATGCTTGAATGGTAG TTGCTAACTGGTAGGATTATCCAGATTGATATTATAAACTAGTTTATGAGAGCTTACCTCATGGCCTTATGGACATCCTT AAGAGTGTCATTGTTAAATTTGATCATTAGTTGCATTAGTATTCACACGTGTATGTCATTTCCAGCATCATCAATGATTG CATCCTCCTTAGTAAAGCCTGCACCATCATCCTCTGTTACATCCTCCAATGCATCGTAGCCAGTATTCTCCACACCAACA TCCTCGGTTGTGTTAATACTTGCATCATCCACCGATTCACCATGGTCAATATTCTCCATTCTGGGCCATCACACCGCTTC AGGTCTTCACTCCCTCTCCCCCTGAAGATGTGAAGTGATAGGTTAGGAAGACTAGTAATATTTAGTTTCGAGGAACATTG TATCCATCATGGTGTAATAGCGTTCAGTGGTTGGGTCAAAGCAGCAATAGCCTTTTCTGTTAGTAGCATCTCCCAGAAAA AGCGCCTCACAGCACATGAGTCAAGTTTGGTTCTTTGATTTTGTTGTAAGTGGACAAGCACAACGCATTCAAACACCCAA GGAGAAATAAGCAAGCTAGAAGGTAAGGTAACGTGATCTACCATAATCTGTAAAGGAGTTTTAAATCCCAATACCTCTTA TGGCATTTTATCAAATGAATGAAAGTGCCAACTGCATCCTCCTAATGTCTATTGAATACATTGGTTCCAACTTCCAACAT GCTAGTATGTCTCGGTGTACTATTTGTTGTGGGTTCATTGTTGTAAAAGGTCATTTGTAGAGTATTGGATAGTTGCAAGC CTCTAATCCCAAATGCTGAGGGAGTAGTGTAAAGCCTGTTAAACTGCTGGAAAAGGGACGGTGGGTCAAGTGCAACCTTT TCTAACATCTGAGTGTCGCTTGAATATTGAAGTTTGATAATGCCATAACAATTAAGTATTTTGGTCAACCTCTCAAGTTA CGTAAGCGACGGTGAGATTTAATATCATTTTATGTCAAGTGGTATATAAATAGATGATAATTGAAGCAAAGACTTTTTCT TTTCAGTTTGATATATCAGCTAAAGCACGTCATTCTTTGCTACTTGGAAGTTGGAATTATTATTATTTTCTTGTCAACAA TTGGGAGTTGGAATTAAGAGTGCTAGAAACCTCTGAGTTTTGTATGCATTTGTTTCAGTGTCATTTGTTTTGTTCTCATG GCACCCTCCTCCTTCACCTACGATGTGTTCCTCAGCTTTTGTGGAGTTGATACTCGATTCAGTTTCACTGGGAATCTTTA CAAAGCTCTTCACGAGAGGGGAATCAACGCCTTCATAGATGACAAGAAGCTCGAGAGAGGGGAGGAAATCACACCGTCAC TTCTCAACGCAATTGAACACTCCAAGATTGCCATCATTGTTCTCTCTGAGAACTACGCATTTTCGTCATTCTGTTTAGAT GAACTTTCCAAGATCCTTGACTGCATGAAGGAAATGGGTCAGTTGGTCTGGCCAGTTTTTTATCAAGTGGATCCTTCTGA TGTGCGGAAGCTGAGCGGGACTTATGGAGAAGCCATGGCTATGCATGAGCAGAGGTTCAAGGATAACTTGGACAGGTTGA TCAATTGGAAGATTGCTTTGTATGAAGTGGCTAACTTGTCTGGATGGCATTTTAAGCATGGGTACGTACGTGCTTATAAC TATATTGCTTTTTATTTTTCTAATTGTTTCAATTTGAGCTATACTAAGTGTTAAAAACATGGACAGGGTATATGAACATG ATCTTATTAGGAAGATTGTTGAAGAAGTAGCAAGAAAGATCAATCCTTTTGCTCTACCCATTGCTGATTACCCAGTTGGA CTGGAGACCCAAGTGTCAGCCGTGATTTCACCTTTGGATGTTGAGTTGGATGATAGAGTCCACATGGTAGGGATTTATGG AACCGGTGGTATAGGTAAAACAACCCTTGCGCTATCGGTTTATAATTCGGTTGCCATCCATTTCGAAAGTTTATGTTTTC TTGAAGATGTTCGAGAAAACTCAAAAAGATATGGCTTACTATATCTCCAAAAGATCCTTCTTTCTAAAACAGTTGGAAGG GAGAAATTAACCAGTGTCAAAGAAGGAAGTTCAATAATACAACACAGGCTCCGACAAAAGAAGGTTCTTTTGGTTCTAGA TGATGTTGACAAAATGGAGCAATTAGAGGCTGTTGCTGGAAGATCTAATTGGTTTGGTCCTGGCAGTAGAGTTATCATTA CAACGCGGGATAAACACTTGCTAGAACGTCATGGGGTTGAAAGAACATATGAAGTGACCAATCTGAATGAGGATTATGCT TATGAATTGCTTACATGGAAGGCTTTCAAAACCGACAAGGTTGATCCAAGTTATGTGGATATTCTAAACCGTGCAGTAAA TTATGCTTCTGGCCTTCCATTGGCCTTGGAAGTAATAGGCTCCAACTTGTTTGGAAAAAGTATAGAAGAATGGGATTCTG CATTAGATTTGTATGAAAAGATTCCAAATAAAAAGATTCAAGAGACACTTGAAGTGAGCTTTTATGCTTTGGAGGAAGAA GAGCAGAGTGTTTTTCTTGACATTGCTTGTTTCTTCAAAGGATATAGATTGCCAAGGGTCAAGGAAATTCTTCAAGCTCA TCATGGTATCAGATTGGAGTACCACATTGGAGTATTGGTTAAAAAATCTCTTATAAAGATTAGTCAATATGATGTTGTGA CATTACATGACTTGATAGAGGATATGTGTAAAGAATTTGTTCGACGAGAATCACCAAATATACCTGCGGAACGTAGTAGA CTATGGTCTGGTGAAGACATAGTTCAAGTTTTAGAAACGAACACGGTGAGTAAGAGTAATATGGATGGCTTTTTTATCTT TACCATTGATCAAGCTCTTTTGATAACATTACTAATACTCACATTACATTTTTTCCTTTCTAATTTGTAATGTCTCTAAA TAATTATCATGAAGTCCTGAATATATACATGCATTTTGGTTGATTTGTGCTTTTTTGTGTTTAAAGGGAACGAGTAAAAT TGAAGTCATAATCCTGAGTTTCCGGTCATTTGAAAGAAAACCAAATAGCATACGTTGGGATGGAAAGGCTTTCATGAAGA TGGAAAATCTCAAAACACTTATCATAAAAGATATTTCTTTTTCCAAAGCTCCCGAGTATCTTCCAAATAGTTTAAGATTA TTGGAATGGGGGAAGTATCCTTCACTTAATTTTCCATCTGATTTTCATCCAAAGGAGCTTACCATATGCAAGTTAGACTA CAGTGACTGTAACTCATTCAAGTGGGCTGGCTTCGTGAACAAGGCAAGTTTAATGTATTTATATCCCTGATTTGCATGTT AATAAATTCACTTTTTAAGACTATTTGTTTGTTTCTCTTTGCAGAAGTTTGAGAAGATGAGAGTTTTAAACTTGGATAAC TGTACATGTTTAACTCAGACACCTGATGTATCTAGTCTCCCCAATTTAGAAGAATTTTCTTTTCAAAGTTGTATGAATTT AACTACAGTTCACCATTCAGTTGAATTCCTGGTTAAACTTAAAATCTTGAATGCTACCAGTTGCTTCGGGCTTAAGAATT TCTCATTCTTCCTCAAGTTGGCCTCGCTTGAAAAACTCCAACTATCATTTTGCTCTGGGCTTGAGAGTATTACAGAAATA GGAAAGGAGGGAAATATAGCACATCATCACTTGGAACAGACTCCCATTCAAAATCTTACTCCGCTTCAAACGTTACATGT GGATCACAATGGAATTTTTCATTTGCCAAATACTGTTGTGGGCGGGGGATGTCTATTGCCAAGACAGGATGAAGAAGTAG AAGTAGTGGGTTCAACTCGGTCTTCAAATGTGGAATATCTTGATCTCTCATATTGCTACCTGTCAGATGAATTTTTGGCA AAAGGCCTCAAGTGGTTTACTAATGTGAAAGAATTAGACCTTTCAAACAACAAGTTCACATACATTCCTGAATGCATCAA AGAATTTCAATTTTTATGGAAGCTTGTCTTGGCTGGTTGTATTGGGCTTCAGGAAATCAAAGGGATTCCGCCAAACTTAG AAAATCTTAGTTTGGATAACTGCAAGATATTTCAAGAACTTAGTCAACTTACACAGGTTCCACCGAGATTGAAAACTTTC TCTGCATTGAACTGTGAATCCTTGACTCCCTCATTTAAAAGCAAATTACTGAATCAGGTATTTAATTTTTATTTTTTAAG TGCATTTCTTAATTTATATTCTACTTAATGTTTCTAAAGTTGTGAATTATTTATAACTAACAGAAACTGCATGAGGCTGG AAACACCCAGTTTCGCTTGCCTCGAGCACAGATTCCATGTTGGTTCGAGCACCTGAGCACGGCAGGACGATCAATTTCTT TCTGGTTTCGAAACAAATTTCCAGATATGGCTTTCTGTGTTCTTTCTCCATTGACATGGACAAATTATGATGTAATTGTG ATCATCAATGGCAAAAAGTTTTTCTATAGGGTTGGTACGTGTAGATTCATGCGGCCGGAATTGTACCATATACATCTTTT CCATATGCAAAAGGAAAAATTCAATGATAATATGGACAATGCACTCTTGGAAAATAAGTGGAACCGCGCAGAGGTTAACT TTAGGTTCGCATTCCATCAATGCGGAATCCATCTATTGGATGAGAAAAGTAGCATGGAGGATTTTCAATTCACCGATCCC TATGATAAGAGAGAGATATTTGACTTGAACTTACCACTACTTCGCGACGATGATGTTGATATGCATTTGTTACTGAACGT GTTCATTGCTATCAAATGTTTGTAACAGTTTCTATTGAGCACATTGAAACACAACTTTGAATTATTGCTATCGAGCATTG ATTCTGATGTGAATAAAACAGAATGTGATTAACTCTTCCAATTCTGAGACTCCAGCCATGCAATTATAGTGTCCTTAAAG ATAACTTGTGTACGTTGTTGACAAGAGATGTCGAAGTAAGTGCATATATCATTTTGCAGTTATTTTCCCTTATGATATAT TCTTTGAAATAGATATATTTTTTACAGAATGTCATGATTAAATTTTAATTAGTTCAGCTCAGGACCTAATTCTATTTCAT GCTTTCTCATTCCAGGCAGTGATGAAGAGGAAGGCTGAAAATTGGATCTTGTTGCTGCGGTTAGGAAGCTTCTGATGCTG GTTGTCCATGTCCTATTATGTAAATAAAAAATTTCGTCCATTACCTTTGTTCATTTTACATTTTTATTTGGCTTAATTCC AGTTTGGGCCCCTGATGTTTCAAGAATGGGCGATCCGCACCCCCCGTGTATAAAAGTTGCGGTCAAGCTCCCCTTTGTTA CAAAACTGTGCTAACGAAGCCCTTCCGTTAGCTTCCGTCTGTTGACCAAACGGAAGTGGCTTCATTAATTGACGTGGCGG CCACGTGTTATTATATTTTCTTTAAGCAATTATTTTTTCATGAAAATCACCCCCCCCCCCCAATTCATAAGACCCGATCC CCCAAATTGATTGCAGACTTGAACCCTAATTTCACCATTGTTGAAGAGAAAAGAAAGGGAGAAGAAGATAGCAGTAGTTT GAAGAACCGGTGCGAGGGAGAAGACGATAGCAGTAGCTTGAAGAACCGATTCCCCCCAGGAAGTCGCTGCTGCGATAGAT GGAAAGAGGAAGCCAAATGTCAAGTGGAAGCTCCATGACCCATGGGTCTGTTCGAGGAACGACAAGGGTTTGCGATTGTG GGGCTGAGTCGAAACTAGTTACATGTTGGGTGGGTGAAAATGCTGGCCGGCGATTCTATGGATGTGGAAAATATCAAGTA AGTTTTGACAATCGAAACTGGGTTTCCTTTTCATCTTAGTTTGGAAAATATCATTGACAATGTTTGTAATATTTCTGGGT TTCCTTTTCAGGTTTATGGGAGGAGGTTGTGCTCATATTTTCATTGGTATGATGGGGAAGGCAATGTACGTGATAGGAAG GTTATTTCTGGGCTAATCCGCAAGCTTGAAGTGCATAAGAAGAAGGAGATCTATTTGACTAGGTGTTGTGTCATTGGGTG GGGACTTAGTGCAGTTTTTCTGCTTGTGATTGTAATGTTGTTGCTGAAAATTTACCTTAGGAAATAGGGCTCATGTCATG TACTGGTTAGGAATTAAGCCTACTTGGTTATGATGGAATGTAATTGGTAGCCTAATTGCTACTTGATATTCTAATGCA
CDS sequence (LotjaGi2g1v0174600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCACCCTCCTCCTTCACCTACGATGTGTTCCTCAGCTTTTGTGGAGTTGATACTCGATTCAGTTTCACTGGGAATCT TTACAAAGCTCTTCACGAGAGGGGAATCAACGCCTTCATAGATGACAAGAAGCTCGAGAGAGGGGAGGAAATCACACCGT CACTTCTCAACGCAATTGAACACTCCAAGATTGCCATCATTGTTCTCTCTGAGAACTACGCATTTTCGTCATTCTGTTTA GATGAACTTTCCAAGATCCTTGACTGCATGAAGGAAATGGGTCAGTTGGTCTGGCCAGTTTTTTATCAAGTGGATCCTTC TGATGTGCGGAAGCTGAGCGGGACTTATGGAGAAGCCATGGCTATGCATGAGCAGAGGTTCAAGGATAACTTGGACAGGT TGATCAATTGGAAGATTGCTTTGTATGAAGTGGCTAACTTGTCTGGATGGCATTTTAAGCATGGGGTATATGAACATGAT CTTATTAGGAAGATTGTTGAAGAAGTAGCAAGAAAGATCAATCCTTTTGCTCTACCCATTGCTGATTACCCAGTTGGACT GGAGACCCAAGTGTCAGCCGTGATTTCACCTTTGGATGTTGAGTTGGATGATAGAGTCCACATGGTAGGGATTTATGGAA CCGGTGGTATAGGTAAAACAACCCTTGCGCTATCGGTTTATAATTCGGTTGCCATCCATTTCGAAAGTTTATGTTTTCTT GAAGATGTTCGAGAAAACTCAAAAAGATATGGCTTACTATATCTCCAAAAGATCCTTCTTTCTAAAACAGTTGGAAGGGA GAAATTAACCAGTGTCAAAGAAGGAAGTTCAATAATACAACACAGGCTCCGACAAAAGAAGGTTCTTTTGGTTCTAGATG ATGTTGACAAAATGGAGCAATTAGAGGCTGTTGCTGGAAGATCTAATTGGTTTGGTCCTGGCAGTAGAGTTATCATTACA ACGCGGGATAAACACTTGCTAGAACGTCATGGGGTTGAAAGAACATATGAAGTGACCAATCTGAATGAGGATTATGCTTA TGAATTGCTTACATGGAAGGCTTTCAAAACCGACAAGGTTGATCCAAGTTATGTGGATATTCTAAACCGTGCAGTAAATT ATGCTTCTGGCCTTCCATTGGCCTTGGAAGTAATAGGCTCCAACTTGTTTGGAAAAAGTATAGAAGAATGGGATTCTGCA TTAGATTTGTATGAAAAGATTCCAAATAAAAAGATTCAAGAGACACTTGAAGTGAGCTTTTATGCTTTGGAGGAAGAAGA GCAGAGTGTTTTTCTTGACATTGCTTGTTTCTTCAAAGGATATAGATTGCCAAGGGTCAAGGAAATTCTTCAAGCTCATC ATGGTATCAGATTGGAGTACCACATTGGAGTATTGGTTAAAAAATCTCTTATAAAGATTAGTCAATATGATGTTGTGACA TTACATGACTTGATAGAGGATATGTGTAAAGAATTTGTTCGACGAGAATCACCAAATATACCTGCGGAACGTAGTAGACT ATGGTCTGGTGAAGACATAGTTCAAGTTTTAGAAACGAACACGGGAACGAGTAAAATTGAAGTCATAATCCTGAGTTTCC GGTCATTTGAAAGAAAACCAAATAGCATACGTTGGGATGGAAAGGCTTTCATGAAGATGGAAAATCTCAAAACACTTATC ATAAAAGATATTTCTTTTTCCAAAGCTCCCGAGTATCTTCCAAATAGTTTAAGATTATTGGAATGGGGGAAGTATCCTTC ACTTAATTTTCCATCTGATTTTCATCCAAAGGAGCTTACCATATGCAAGTTAGACTACAGTGACTGTAACTCATTCAAGT GGGCTGGCTTCGTGAACAAGAAGTTTGAGAAGATGAGAGTTTTAAACTTGGATAACTGTACATGTTTAACTCAGACACCT GATGTATCTAGTCTCCCCAATTTAGAAGAATTTTCTTTTCAAAGTTGTATGAATTTAACTACAGTTCACCATTCAGTTGA ATTCCTGGTTAAACTTAAAATCTTGAATGCTACCAGTTGCTTCGGGCTTAAGAATTTCTCATTCTTCCTCAAGTTGGCCT CGCTTGAAAAACTCCAACTATCATTTTGCTCTGGGCTTGAGAGTATTACAGAAATAGGAAAGGAGGGAAATATAGCACAT CATCACTTGGAACAGACTCCCATTCAAAATCTTACTCCGCTTCAAACGTTACATGTGGATCACAATGGAATTTTTCATTT GCCAAATACTGTTGTGGGCGGGGGATGTCTATTGCCAAGACAGGATGAAGAAGTAGAAGTAGTGGGTTCAACTCGGTCTT CAAATGTGGAATATCTTGATCTCTCATATTGCTACCTGTCAGATGAATTTTTGGCAAAAGGCCTCAAGTGGTTTACTAAT GTGAAAGAATTAGACCTTTCAAACAACAAGTTCACATACATTCCTGAATGCATCAAAGAATTTCAATTTTTATGGAAGCT TGTCTTGGCTGGTTGTATTGGGCTTCAGGAAATCAAAGGGATTCCGCCAAACTTAGAAAATCTTAGTTTGGATAACTGCA AGATATTTCAAGAACTTAGTCAACTTACACAGGTTCCACCGAGATTGAAAACTTTCTCTGCATTGAACTGTGAATCCTTG ACTCCCTCATTTAAAAGCAAATTACTGAATCAGAAACTGCATGAGGCTGGAAACACCCAGTTTCGCTTGCCTCGAGCACA GATTCCATGTTGGTTCGAGCACCTGAGCACGGCAGGACGATCAATTTCTTTCTGGTTTCGAAACAAATTTCCAGATATGG CTTTCTGTGTTCTTTCTCCATTGACATGGACAAATTATGATGTAATTGTGATCATCAATGGCAAAAAGTTTTTCTATAGG GTTGGTACGTGTAGATTCATGCGGCCGGAATTGTACCATATACATCTTTTCCATATGCAAAAGGAAAAATTCAATGATAA TATGGACAATGCACTCTTGGAAAATAAGTGGAACCGCGCAGAGGTTAACTTTAGGTTCGCATTCCATCAATGCGGAATCC ATCTATTGGATGAGAAAAGTAGCATGGAGGATTTTCAATTCACCGATCCCTATGATAAGAGAGAGATATTTGACTTGAAC TTACCACTACTTCGCGACGATGATGTTGATATGCATTTGTTACTGAACGTGTTCATTGCTATCAAATGTTTGTAA
Protein sequence (LotjaGi2g1v0174600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAPSSFTYDVFLSFCGVDTRFSFTGNLYKALHERGINAFIDDKKLERGEEITPSLLNAIEHSKIAIIVLSENYAFSSFCL DELSKILDCMKEMGQLVWPVFYQVDPSDVRKLSGTYGEAMAMHEQRFKDNLDRLINWKIALYEVANLSGWHFKHGVYEHD LIRKIVEEVARKINPFALPIADYPVGLETQVSAVISPLDVELDDRVHMVGIYGTGGIGKTTLALSVYNSVAIHFESLCFL EDVRENSKRYGLLYLQKILLSKTVGREKLTSVKEGSSIIQHRLRQKKVLLVLDDVDKMEQLEAVAGRSNWFGPGSRVIIT TRDKHLLERHGVERTYEVTNLNEDYAYELLTWKAFKTDKVDPSYVDILNRAVNYASGLPLALEVIGSNLFGKSIEEWDSA LDLYEKIPNKKIQETLEVSFYALEEEEQSVFLDIACFFKGYRLPRVKEILQAHHGIRLEYHIGVLVKKSLIKISQYDVVT LHDLIEDMCKEFVRRESPNIPAERSRLWSGEDIVQVLETNTGTSKIEVIILSFRSFERKPNSIRWDGKAFMKMENLKTLI IKDISFSKAPEYLPNSLRLLEWGKYPSLNFPSDFHPKELTICKLDYSDCNSFKWAGFVNKKFEKMRVLNLDNCTCLTQTP DVSSLPNLEEFSFQSCMNLTTVHHSVEFLVKLKILNATSCFGLKNFSFFLKLASLEKLQLSFCSGLESITEIGKEGNIAH HHLEQTPIQNLTPLQTLHVDHNGIFHLPNTVVGGGCLLPRQDEEVEVVGSTRSSNVEYLDLSYCYLSDEFLAKGLKWFTN VKELDLSNNKFTYIPECIKEFQFLWKLVLAGCIGLQEIKGIPPNLENLSLDNCKIFQELSQLTQVPPRLKTFSALNCESL TPSFKSKLLNQKLHEAGNTQFRLPRAQIPCWFEHLSTAGRSISFWFRNKFPDMAFCVLSPLTWTNYDVIVIINGKKFFYR VGTCRFMRPELYHIHLFHMQKEKFNDNMDNALLENKWNRAEVNFRFAFHQCGIHLLDEKSSMEDFQFTDPYDKREIFDLN LPLLRDDDVDMHLLLNVFIAIKCL
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 | 3 | 150 | 148 | 1.7E-38 | ||
| PANTHER | 5 | 1013 | 1009 | 0.0 | – | |
| PANTHER | 5 | 1013 | 1009 | 0.0 | – | |
| Gene3D | 5 | 171 | 167 | 2.6E-64 | ||
| ProSiteProfiles | 6 | 147 | 142 | 28.468 | ||
| SMART | 7 | 147 | 141 | 7.0E-42 | ||
| Pfam | 8 | 174 | 167 | 4.2E-43 | ||
| Gene3D | 172 | 334 | 163 | 1.3E-30 | – | |
| SUPERFAMILY | 174 | 434 | 261 | 1.28E-63 | ||
| Pfam | 188 | 405 | 218 | 8.5E-31 | ||
| PRINTS | 208 | 223 | 16 | 2.3E-24 | – | |
| PRINTS | 282 | 296 | 15 | 2.3E-24 | – | |
| PRINTS | 375 | 389 | 15 | 2.3E-24 | – | |
| SUPERFAMILY | 410 | 518 | 109 | 1.71E-20 | ||
| Gene3D | 508 | 715 | 208 | 3.4E-16 | ||
| SUPERFAMILY | 544 | 880 | 337 | 1.87E-33 | – | |
| PRINTS | 690 | 706 | 17 | 2.3E-24 | – | |
| Gene3D | 716 | 899 | 184 | 1.4E-20 |
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 LotjaGi2g1v0174600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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