| Literature DB >> 28666113 |
Weitao Li1, Ziwei Zhu1, Mawsheng Chern2, Junjie Yin1, Chao Yang1, Li Ran1, Mengping Cheng3, Min He1, Kang Wang1, Jing Wang1, Xiaogang Zhou1, Xiaobo Zhu1, Zhixiong Chen1, Jichun Wang1, Wen Zhao4, Bingtian Ma1, Peng Qin1, Weilan Chen1, Yuping Wang1, Jiali Liu1, Wenming Wang1, Xianjun Wu1, Ping Li1, Jirui Wang3, Lihuang Zhu5, Shigui Li1, Xuewei Chen6.
Abstract
Rice feeds half the world's population, and rice blast is often a destructive disease that results in significant crop loss. Non-race-specific resistance has been more effective in controlling crop diseases than race-specific resistance because of its broad spectrum and durability. Through a genome-wide association study, we report the identification of a natural allele of a C2H2-type transcription factor in rice that confers non-race-specific resistance to blast. A survey of 3,000 sequenced rice genomes reveals that this allele exists in 10% of rice, suggesting that this favorable trait has been selected through breeding. This allele causes a single nucleotide change in the promoter of the bsr-d1 gene, which results in reduced expression of the gene through the binding of the repressive MYB transcription factor and, consequently, an inhibition of H2O2 degradation and enhanced disease resistance. Our discovery highlights this novel allele as a strategy for breeding durable resistance in rice.Entities:
Keywords: C(2)H(2); H(2)O(2); MYB; blast disease; broad-spectrum; genome-wide association study; reactive oxygen species; resistance; rice; transcription factor
Mesh:
Substances:
Year: 2017 PMID: 28666113 DOI: 10.1016/j.cell.2017.06.008
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582