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. 2023 Feb;9(2):228-237.
doi: 10.1038/s41477-022-01327-3. Epub 2023 Jan 16.

A natural allele of proteasome maturation factor improves rice resistance to multiple pathogens

Xiao-Hong Hu #  1 Shuai Shen #  1 Jin-Long Wu #  1 Jie Liu #  1 He Wang #  1 Jia-Xue He  1 Zong-Lin Yao  1 Yi-Fei Bai  1 Xin Zhang  1 Yong Zhu  1 Guo-Bang Li  1 Jing-Hao Zhao  1 Xiaoman You  2 Jie Xu  1   3 Yun-Peng Ji  1 De-Qiang Li  1 Mei Pu  1 Zhi-Xue Zhao  1 Shi-Xin Zhou  1 Ji-Wei Zhang  1 Yan-Yan Huang  1 Yan Li  1 Yuese Ning  2 Yanli Lu  1   3 Fu Huang  1   4 Wen-Ming Wang  5 Jing Fan  6
Affiliations

A natural allele of proteasome maturation factor improves rice resistance to multiple pathogens

Xiao-Hong Hu et al. Nat Plants. 2023 Feb.

Abstract

Crops with broad-spectrum resistance loci are highly desirable in agricultural production because these loci often confer resistance to most races of a pathogen or multiple pathogen species. Here we discover a natural allele of proteasome maturation factor in rice, UMP1R2115, that confers broad-spectrum resistance to Magnaporthe oryzae, Rhizoctonia solani, Ustilaginoidea virens and Xanthomonas oryzae pv. oryzae. Mechanistically, this allele increases proteasome abundance and activity to promote the degradation of reactive oxygen species-scavenging enzymes including peroxidase and catalase upon pathogen infection, leading to elevation of H2O2 accumulation for defence. In contrast, inhibition of proteasome function or overexpression of peroxidase/catalase-encoding genes compromises UMP1R2115-mediated resistance. More importantly, introduction of UMP1R2115 into a disease-susceptible rice variety does not penalize grain yield while promoting disease resistance. Our work thus uncovers a broad-spectrum resistance pathway integrating de-repression of plant immunity and provides a valuable genetic resource for breeding high-yield rice with multi-disease resistance.

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