二十二个抗稻瘟病基因在云南的利用价值评价  被引量：44

作　　者：李进斌[1] 李成云[2] 陈艳[2] 雷财林[3] 凌忠专[3] 

机构地区：[1]云南省农业科学院植物保护研究所,昆明650205 [2]云南农业大学植物保护学院,昆明650201 [3]中国农业科学院作物育种栽培研究所,北京100081

出　　处：《植物保护学报》2005年第2期113-119,共7页Journal of Plant Protection

基　　金：云南省自然科学基金重点项目(1999c0008z);国家自然科学基金项目(30360061)

摘　　要：为了明确22个抗稻瘟菌基因在云南省的抗性水平及其利用价值,将采集、分离自云南省3个稻区的282个稻瘟病菌单孢菌株,接种于以丽江新团黑谷为轮回亲本培育而成的含有22个垂直抗性基因的水稻单基因系上。根据各稻区采集的菌株在水稻单基因系上的侵染率,分析出各垂直抗性基因在云南省各稻区的利用价值。持有 Pi9、Piz^5、Pil、Pita^2、Piz、Pik^h、Piz^t7个垂直抗性基因的单基因系的侵染率分别为1.22％、2.40％、3.21％、4.82％、5.95％、7.23％、9.04％,可在籼稻区种植或作抗源使用;持有 Pi9、Piz^5、Pil、Pita^2、Piz、Pik^h、Piz^t、Pil2、Pita、Pib10个垂直抗性基因的单基因系的侵染率分别为0.93％、16.67％、10.19％、5.09％、15.74％、15.74％、12.04％、9.26％、19.29％、11.11％,可在粳稻区种植或作抗源使用;持有 Pi9、Piz^5、Pil、Pita^24个垂直抗性基因的单基因系的侵染率分别为8.60％、13.83％、10.93％、18.04％,可在籼粳交错区种植或作抗源使用。同时用联合致病性系数和联合抗病性系数分析了病菌和单基因系的群体互作以及抗瘟组合的利用价值,结果表明:品种两两搭配后的 RAC 值大于0.80的组合有 Pi9与 Pita^2、Piz^t、Pil、Piz,说明以上4种组合的抗病性最强,应用价值最大。In order to evaluate performance of rice blast resistance genes in Yunnan Province, 282 monoconidia strains were inoculated on 22 monogenic rice lines raise by IRRI. The value of resistance genes were analyzed by calculating virulence frequency in three rice-growing regions, the results showed that, the virulence frequency on rice monogenic lines with Pi9,Piz^5 ,Pil ,Pita^2 ,Piz, Pik^h ,Piz^t were 1.22% ,2.40% ,3.21% ,4.82% ,5.95% ,7.23% ,9.04% in indica-grown region, respectively; The virulence frequency on rice monogenic line with Pi9 , Piz^5, Pil , Pita^2, Piz , Pik^h, Piz^t, Pil2 , Pita , Pib was 0.93% , 16.67% , 10.19% ,5.09% , 15.74% , 15.74% , 12.04% ,9.26% , 19.29% , 11.11% in japonica-grown region, respectively ; The virulence frequency on rice monogenic line with Pi9, Piz^5 , Pil, Pita^2 was 8.60% , 13.83% , 10.93% , 18.04% in japonica-indica interleaving rice, respectively. Based on the virulence frequency in three different regions, the rice cultivars containing corresponding resistance genes could be rationally deployed. At the same time, the interaction on rice monogenic lines and blast fungus and the value of combinations with multiple resistance genes could be analyzed through pathogenicity association coefficient （PAC） and resistance association coefficient （RAC）, which demonstrated that the RAC of combinations of Pi9 and Pita^2,Pi9 and Piz^t, Pi9 and Pil, Pi9 and Piz was more than 0.80, and they behaved in higher resistance in Yunnan Province.

关 键 词：抗稻瘟病基因 云南 利用价值评价 稻瘟病菌 毒力频率 联合致病性系数 联合抗病性系数 

分 类 号：S511[农业科学—作物学] S435.111.4