Gene Details:
- MSU gene ID: LOC_Os12g10740
- RAPdb gene ID: Os12g0210400
- Gene Symbol: RIR1
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- RIR1 overexpression plants were more susceptible to Xoo at late growth stage, suggesting that RIR1 mRNA levels are negatively correlated with the resistance of rice against Xoo.
- Here, we found that a Tos17 insertion mutant of LRR_RLK displayed increasing temporal resistance to Xoo, whereas the LRR_RLK overexpression lines were susceptible to the pathogen early on in the infection, indicating that LRR_RLK encodes a repressor of rice resistance to Xoo infection, and it was renamed as RIR1 (Rice Immunity Repressor 1).
- RIR1 represses plant immunity by interacting with mitochondrial complex I subunit in rice.
- Notably, impairment of RIR1 or overexpression of NUO resulted in reactive oxygen species accumulation and enhanced expression of pathogen-resistance genes, including jasmonic acid pathway genes.
- Co-immunoprecipitation, bimolecular fluoresence complementation, and pull-down assays indicated that RIR1 interacted with the NADH-ubiquinone oxidoreductase (NUO) 51-kDa subunit of the mitochondrial complex I through its kinase domain.
Function-related keywords:
- growth , resistance , immunity , pathogen , jasmonic , jasmonic-acid , Kinase , xoo , kinase , reactive-oxygen-species
Literature:
- RIR1 represses plant immunity by interacting with mitochondrial complex I subunit in rice . DOI: 10.1111/mpp.13145 ; PMID: 34628712
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os12g10740.1
TTGGATCAATCATGCATATCAATGTGTTGACCCGTTCTTGATGCATATACAATTGTGTGTCATCTCCTACCTTACATTAACAACTAATCTAGCCTGTTGCAGTTCAATCAGAGCTTCTGACCTTGCAAAAGGATGAGCTGCTAAAAGCATTTCAGTGGCAGCTCAAGAGAGAGAAGAGAGAGAAATAGAAACTGCCCAAACATGGGGGTTTCTCCATGGATTATCATCTTCTTGTTGATTGTTCTTGTGCAAGCTTTTGTCGCTTCGGCCGATACGAACGCACAGGACACTTCTGGACTTAACGGGCTTGCAGGTAGCTGGGGCAGCGCACCATCGAATTGGGCTGGCAACGATCCATGTGGAGACAAATGGATTGGGATAATTTGCACCGGGAACCGGGTCACATCCATAAGACTGTCAAGTTTCGGACTGTCCGGGACGCTTTCCGGGGACATTCAGTCCTTATCAGAATTGCAGTACCTGGACTTATCCTACAACAAGAACTTGAATGGCCCCCTTCCTTCAACCATTGGAACCTTGAGCAAGCTCCAAAACTTAATTCTTGTCGGCTGCGGCTTTACAGGTGAAATACCAAAGGAGATAGGCCAGCTCTCAAACCTGATATTTCTATCATTGAACTCCAACAAGTTCACTGGTAGCATACCGCCATCGCTTGGCGGCCTCTCAAAGCTATATTGGTTTGATCTGGCTGACAATCAGCTCACTGGAGGACTTCCAATATCCAATGCGACAAGTCCTGGTCTGGACAATCTCACAAGTACTAAGCACTTCCATTTTGGGATAAACCAGCTCTCTGGCAGCATACCTAGCCAGATTTTCAACTCAAATATGAAGCTGATACATCTGCTTCTTGACAACAACAAATTCTCCGGTAGCATCCCTTCTACCTTAGGCCTTCTTAATACACTGGAAGTTCTGCGTTTCGATAACAATGCGCAGTTGACCGGACCGGTTCCTACCAACCTCAAGAACCTAACCAAGCTTGCAGAATTCCATCTAGCAAACAGCAATCTTACTGGTCCATTGCCAGACCTAACTGGAATGAGCTCACTCAGCTTTGTGGACATGAGCAACAACAGCTTCAGTGCATCTGATGCGCCCTCCTGGATAACCACTTTGCCATCGTCATTGACTTCACTGTACCTAGAAAATCTGCGCATCAGTGGGGAGGTACCGCAAAGTCTCTTTAGTCTCCCTTCAATTCAAACACTGAGGCTTCGGGGCAACCGTCTGAATGGCACCCTAAATATAGCAGACTTCAGCAGTCAGCTCCAACTAGTCGATTTGCGGGACAACTTTATCACAGCACTAACTGTAGGAACACAATACAAGAAGACTCTCATGCTCTCAGGAAATCCATATTGCAACCAAGTGAACGACGACGTGCACTGCAAAGCCACCGGACAATCGAACCCGGCATTGCCACCATACAAGACTACCTCCAACTGCCCTGCCCTGCCTCCCACATGCCTCTCAACCCAGCAGCTGAGCCCAACCTGCATTTGCTCTGTGCCATACAGAGGCACACTCTTCTTCAGATCACCAGGTTTTTCAGACCTGGGCAACAGCTCATACTTCATTCAGCTGGAGGGGACAATGAAAGCCAAGTTCTTGAACCTCAGTCTCCCGGTCGATTCAATTGCGATCCACGACCCGTTTGTCGACACCAACAACAACTTGGAGATGAGCTTGGAGGTGTACCCCAGTGGCAAGGATCAGTTTAGTGAGCAAGACATTTCTGGCATTGGTTTCATCCTGAGTAACCAGACATATAAGCCTCCTTCTAACTTTGGCCCATACTATTTCCTTGGACAGACCTACTCCTTTGCTAATGGGGCGTTGCAAACTTCAAAATCGAACACAAACCACATCCCGCTTATCGTCGGTGCTTCGGTTGGAGGTGCAGCTGTAATTGCAGCATTGCTTGCACTCACAATCTGCATTGCTAGAAGGAAGAGAAGTCCAAAGCAGACTGAAGATAGGAGCCAGTCTTATGTTTCCTGGGACATCAAGAGCACCAGCACTAGCACTGCCCCGCAGGTGCGAGGTGCGAGGATGTTCTCCTTCGACGAGCTGAAGAAGGTCACCAACAACTTCTCGGAGGCCAATGACATCGGCACCGGAGGCTACGGGAAGGTTTACAGGGGAACACTTCCTACTGGTCAGCTGGTTGCCGTGAAGAGATCCCAGCAAGGCTCCCTGCAGGGCAACCTCGAGTTCAGGACTGAGATCGAGCTCCTGTCCAGGGTTCATCACAAGAATGTCGTCAGCCTAGTCGGATTCTGCTTCGACCAGGGCGAGCAGATGCTTGTCTACGAGTATGTCCCCAATGGCACCCTCAAGGAGAGCCTCACAGGGAAATCTGGTGTGAGGCTGGACTGGAAGCGGCGGCTCCGGGTTGTCCTCGGTGCGGCGAAGGGTATCGCCTACCTGCATGAGCTCGCTGACCCTCCGATCATCCACCGTGACATCAAGTCGAGCAATGTTCTCCTCGATGAGCGGCTCAACGCCAAGGTCTCCGACTTCGGCCTGTCCAAGCTTCTCGGCGAAGACGGTCGTGGCCAGATCACCACCCAAGTCAAGGGCACAATGGGGTACCTGGACCCGGAGTACTACATGACGCAGCAGCTGACGGACCGGAGCGACGTGTACAGCTTCGGCGTGCTGCTGCTGGAGGTGATCACGGCGAGGAAGCCGCTGGAGCGCGGCCGCTACGTGGTCCGGGAGGTCAAGGAGGCGGTGGACCGCCGCAAGGACATGTACGGCCTCCACGAGCTCCTCGACCCCGCGCTGGGGGCCTCCTCGGCGCTCGCCGGCCTCGAGCCGTACGTCGACCTGGCCCTCCGCTGCGTCGAGGAGTCCGGCGCCGACCGCCCCTCCATGGGCGAGGCCGTCGCCGAGATCGAGCGGATCGCCAAGGTGGCCGGCGCTGGGGGTGCGGCCGCCGCCGAGTCGGCGGCGTCGGACTCCATGAGCTACGCCGCTAGCCGGACGCCGCGCCACCCCTATGGCGGCGGCGGCGGCGACAGCGCGTCGGAGTATAGCGGCGGCGGGCTGCCGTCGATGAGGGTGGAGCCCAAGTGAAGATGGTGGATTTGTTTCCAACGTTTTGTGTACAGCTTGATGATTTAGAGTATGTACGATTTCATTTGTGTAAATTTTGGTCGTCTATGCATGCTAAGTTTGGATTTTTGAATTTGAATGTTTGATGATGGCTAATTGAGAATTTGGGGTCGTTGTCAATCGAACTATACCCAAAAAAAAAAAACCAGTTTTCTTTTCAGCTTGTGTTTCATGTGTATTAGTACTCATTTGGATAAGTGCATCTCTGTATTATGCTAACAATCTATTGAAGTAACCGAGAAGAAAAAGGATAGGGTATTTTGCTGAAATGTTTCGCAGTTAAAGATGTAGT
CDS Sequence
- >LOC_Os12g10740.1
ATGGGGGTTTCTCCATGGATTATCATCTTCTTGTTGATTGTTCTTGTGCAAGCTTTTGTCGCTTCGGCCGATACGAACGCACAGGACACTTCTGGACTTAACGGGCTTGCAGGTAGCTGGGGCAGCGCACCATCGAATTGGGCTGGCAACGATCCATGTGGAGACAAATGGATTGGGATAATTTGCACCGGGAACCGGGTCACATCCATAAGACTGTCAAGTTTCGGACTGTCCGGGACGCTTTCCGGGGACATTCAGTCCTTATCAGAATTGCAGTACCTGGACTTATCCTACAACAAGAACTTGAATGGCCCCCTTCCTTCAACCATTGGAACCTTGAGCAAGCTCCAAAACTTAATTCTTGTCGGCTGCGGCTTTACAGGTGAAATACCAAAGGAGATAGGCCAGCTCTCAAACCTGATATTTCTATCATTGAACTCCAACAAGTTCACTGGTAGCATACCGCCATCGCTTGGCGGCCTCTCAAAGCTATATTGGTTTGATCTGGCTGACAATCAGCTCACTGGAGGACTTCCAATATCCAATGCGACAAGTCCTGGTCTGGACAATCTCACAAGTACTAAGCACTTCCATTTTGGGATAAACCAGCTCTCTGGCAGCATACCTAGCCAGATTTTCAACTCAAATATGAAGCTGATACATCTGCTTCTTGACAACAACAAATTCTCCGGTAGCATCCCTTCTACCTTAGGCCTTCTTAATACACTGGAAGTTCTGCGTTTCGATAACAATGCGCAGTTGACCGGACCGGTTCCTACCAACCTCAAGAACCTAACCAAGCTTGCAGAATTCCATCTAGCAAACAGCAATCTTACTGGTCCATTGCCAGACCTAACTGGAATGAGCTCACTCAGCTTTGTGGACATGAGCAACAACAGCTTCAGTGCATCTGATGCGCCCTCCTGGATAACCACTTTGCCATCGTCATTGACTTCACTGTACCTAGAAAATCTGCGCATCAGTGGGGAGGTACCGCAAAGTCTCTTTAGTCTCCCTTCAATTCAAACACTGAGGCTTCGGGGCAACCGTCTGAATGGCACCCTAAATATAGCAGACTTCAGCAGTCAGCTCCAACTAGTCGATTTGCGGGACAACTTTATCACAGCACTAACTGTAGGAACACAATACAAGAAGACTCTCATGCTCTCAGGAAATCCATATTGCAACCAAGTGAACGACGACGTGCACTGCAAAGCCACCGGACAATCGAACCCGGCATTGCCACCATACAAGACTACCTCCAACTGCCCTGCCCTGCCTCCCACATGCCTCTCAACCCAGCAGCTGAGCCCAACCTGCATTTGCTCTGTGCCATACAGAGGCACACTCTTCTTCAGATCACCAGGTTTTTCAGACCTGGGCAACAGCTCATACTTCATTCAGCTGGAGGGGACAATGAAAGCCAAGTTCTTGAACCTCAGTCTCCCGGTCGATTCAATTGCGATCCACGACCCGTTTGTCGACACCAACAACAACTTGGAGATGAGCTTGGAGGTGTACCCCAGTGGCAAGGATCAGTTTAGTGAGCAAGACATTTCTGGCATTGGTTTCATCCTGAGTAACCAGACATATAAGCCTCCTTCTAACTTTGGCCCATACTATTTCCTTGGACAGACCTACTCCTTTGCTAATGGGGCGTTGCAAACTTCAAAATCGAACACAAACCACATCCCGCTTATCGTCGGTGCTTCGGTTGGAGGTGCAGCTGTAATTGCAGCATTGCTTGCACTCACAATCTGCATTGCTAGAAGGAAGAGAAGTCCAAAGCAGACTGAAGATAGGAGCCAGTCTTATGTTTCCTGGGACATCAAGAGCACCAGCACTAGCACTGCCCCGCAGGTGCGAGGTGCGAGGATGTTCTCCTTCGACGAGCTGAAGAAGGTCACCAACAACTTCTCGGAGGCCAATGACATCGGCACCGGAGGCTACGGGAAGGTTTACAGGGGAACACTTCCTACTGGTCAGCTGGTTGCCGTGAAGAGATCCCAGCAAGGCTCCCTGCAGGGCAACCTCGAGTTCAGGACTGAGATCGAGCTCCTGTCCAGGGTTCATCACAAGAATGTCGTCAGCCTAGTCGGATTCTGCTTCGACCAGGGCGAGCAGATGCTTGTCTACGAGTATGTCCCCAATGGCACCCTCAAGGAGAGCCTCACAGGGAAATCTGGTGTGAGGCTGGACTGGAAGCGGCGGCTCCGGGTTGTCCTCGGTGCGGCGAAGGGTATCGCCTACCTGCATGAGCTCGCTGACCCTCCGATCATCCACCGTGACATCAAGTCGAGCAATGTTCTCCTCGATGAGCGGCTCAACGCCAAGGTCTCCGACTTCGGCCTGTCCAAGCTTCTCGGCGAAGACGGTCGTGGCCAGATCACCACCCAAGTCAAGGGCACAATGGGGTACCTGGACCCGGAGTACTACATGACGCAGCAGCTGACGGACCGGAGCGACGTGTACAGCTTCGGCGTGCTGCTGCTGGAGGTGATCACGGCGAGGAAGCCGCTGGAGCGCGGCCGCTACGTGGTCCGGGAGGTCAAGGAGGCGGTGGACCGCCGCAAGGACATGTACGGCCTCCACGAGCTCCTCGACCCCGCGCTGGGGGCCTCCTCGGCGCTCGCCGGCCTCGAGCCGTACGTCGACCTGGCCCTCCGCTGCGTCGAGGAGTCCGGCGCCGACCGCCCCTCCATGGGCGAGGCCGTCGCCGAGATCGAGCGGATCGCCAAGGTGGCCGGCGCTGGGGGTGCGGCCGCCGCCGAGTCGGCGGCGTCGGACTCCATGAGCTACGCCGCTAGCCGGACGCCGCGCCACCCCTATGGCGGCGGCGGCGGCGACAGCGCGTCGGAGTATAGCGGCGGCGGGCTGCCGTCGATGAGGGTGGAGCCCAAGTGA
Protein Sequence
- >LOC_Os12g10740.1
MGVSPWIIIFLLIVLVQAFVASADTNAQDTSGLNGLAGSWGSAPSNWAGNDPCGDKWIGIICTGNRVTSIRLSSFGLSGTLSGDIQSLSELQYLDLSYNKNLNGPLPSTIGTLSKLQNLILVGCGFTGEIPKEIGQLSNLIFLSLNSNKFTGSIPPSLGGLSKLYWFDLADNQLTGGLPISNATSPGLDNLTSTKHFHFGINQLSGSIPSQIFNSNMKLIHLLLDNNKFSGSIPSTLGLLNTLEVLRFDNNAQLTGPVPTNLKNLTKLAEFHLANSNLTGPLPDLTGMSSLSFVDMSNNSFSASDAPSWITTLPSSLTSLYLENLRISGEVPQSLFSLPSIQTLRLRGNRLNGTLNIADFSSQLQLVDLRDNFITALTVGTQYKKTLMLSGNPYCNQVNDDVHCKATGQSNPALPPYKTTSNCPALPPTCLSTQQLSPTCICSVPYRGTLFFRSPGFSDLGNSSYFIQLEGTMKAKFLNLSLPVDSIAIHDPFVDTNNNLEMSLEVYPSGKDQFSEQDISGIGFILSNQTYKPPSNFGPYYFLGQTYSFANGALQTSKSNTNHIPLIVGASVGGAAVIAALLALTICIARRKRSPKQTEDRSQSYVSWDIKSTSTSTAPQVRGARMFSFDELKKVTNNFSEANDIGTGGYGKVYRGTLPTGQLVAVKRSQQGSLQGNLEFRTEIELLSRVHHKNVVSLVGFCFDQGEQMLVYEYVPNGTLKESLTGKSGVRLDWKRRLRVVLGAAKGIAYLHELADPPIIHRDIKSSNVLLDERLNAKVSDFGLSKLLGEDGRGQITTQVKGTMGYLDPEYYMTQQLTDRSDVYSFGVLLLEVITARKPLERGRYVVREVKEAVDRRKDMYGLHELLDPALGASSALAGLEPYVDLALRCVEESGADRPSMGEAVAEIERIAKVAGAGGAAAAESAASDSMSYAASRTPRHPYGGGGGDSASEYSGGGLPSMRVEPK*