Xing Junjie, Jia Yulin, Peng Zhirong, Shi Yinfeng, He Qiang, Shu Fu, Zhang Wuhan, Zhang Zhen, Deng Huafeng
State Key Laboratory of Hybrid Rice, Hunan Hybrid Rice Research Center, Changsha 410125, China.
United States Department of Agriculture-Agricultural Research Service, Dale Bumpers National Rice Research Center, Stuttgart, AR 72160.
Plant Dis. 2017 Apr;101(4):557-561. doi: 10.1094/PDIS-03-16-0288-RE. Epub 2017 Jan 27.
The blast (Magnaporthe oryzae) resistance (R) gene is the most economical and environmental method to control rice blast disease. Characterization of molecular identity and pathogenicity of M. oryzae benefits the deployment of effective blast R genes. In order to identify blast R genes that would be effective in Hunan Province,182 M. oryzae strains were analyzed with a Chinese differential system (CDS), repetitive element-based polymerase chain reaction (rep-PCR), and the presence and absence of avirulence (AVR) genes by PCR amplification with gene-specific primers. Identified blast R genes were validated with 24 monogenic lines (ML) carrying 24 major R genes. In total, 28 races (isolates) of M. oryzae was identified with CDS, and classified into 20 distinct groups with rep-PCR. Interestingly, AVR-Pia, AVR-Pik, AVR-Pizt, AVR-Pib, and AVR-Pi9 were detected in more than 86.8% of the isolates; AVR-Pita1 was in 51.3% and AVR-Pii was in only 2.5%. In contrast, pathogenicity assays on 24 ML demonstrated that Pi9, Piz5, Pikh, and Pikm were more effective, with resistant frequencies of 91.6, 91, 87.9, and 87.3%, respectively; Pia, Piks, Pit, Pi12, and Pib were less than 15%. These findings revealed the complexity of a genetic basis of rice blast resistance, and shed light on useful blast R genes in Hunan Province.
稻瘟病抗性(R)基因是控制稻瘟病最经济且环保的方法。对稻瘟病菌的分子特征和致病性进行鉴定有助于有效稻瘟病R基因的部署。为了鉴定在湖南省有效的稻瘟病R基因,利用中国鉴别体系(CDS)、基于重复元件的聚合酶链反应(rep-PCR)以及使用基因特异性引物通过PCR扩增分析无毒(AVR)基因的有无,对182个稻瘟病菌株进行了分析。用携带24个主要R基因的24个单基因系(ML)对鉴定出的稻瘟病R基因进行了验证。总共用CDS鉴定出28个稻瘟病菌生理小种(分离株),用rep-PCR将其分为20个不同的组。有趣的是,在超过86.8%的分离株中检测到AVR-Pia、AVR-Pik、AVR-Pizt、AVR-Pib和AVR-Pi9;AVR-Pita1在51.3%的分离株中被检测到,而AVR-Pii仅在2.5%的分离株中被检测到。相比之下,对24个单基因系的致病性测定表明,Pi9、Piz5、Pikh和Pikm更有效,抗性频率分别为91.6%、91%、87.9%和87.3%;Pia、Piks、Pit、Pi12和Pib的抗性频率低于15%。这些发现揭示了水稻抗稻瘟病遗传基础的复杂性,并为湖南省有用的稻瘟病R基因提供了线索。
