A rice blast-resistance genetic resource from wild rice in Yunnan, China.

植物生理与分子生物学学报 Pub Date : 2007-12-01
Ming-Zhi Yang, Zai-Quan Cheng, Shan-Na Chen, Jun Qian, Ling-Ling Xu, Xing-Qi Huang
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Abstract

Compared to Pi-ta(-) alleles, Pi-ta(+) alleles can cause blast resistance response. In this work, Pi-ta gene in multiple rice materials, including local rice cultivars, different types of O. rufipogon and O. longistaminata was detected by molecular cloning and sequence analysis. Results indicated that Pi-ta(+) alleles were rare alleles, because in all the tested materials, only the 'Erect' type of O. rufipogon (ETOR) from Jinghong county in Yunnan province contains a Pi-ta(+) allele. Another rice blast resistance gene, Pib, confers resistance to the Japanese strain of M. grisea, was also confirmed to be functional in this type of O. rufipogon. The results of pathogen inoculation test show that ETOR is more strongly resistant to the tested blast pathogen races than other types of O. rufipogon. The resistance of ETOR may at least partially depend upon the functioning of Pi-ta and Pib gene. As O. rufipogon has the same type of genome with the cultivated rice (O. sativa), Pi-ta(+) and Pib gene in Erect type of O. rufipogon can be used to improve the tolerance of cultivated rice to blast, either by traditional hybridization or by genetic engineering.

云南野生水稻抗稻瘟病遗传资源研究。
与Pi-ta(-)等位基因相比,Pi-ta(+)等位基因可引起抗爆反应。采用分子克隆和序列分析的方法,对不同水稻品种、不同水稻品种和不同水稻品种的Pi-ta基因进行了检测。结果表明,Pi-ta(+)等位基因是罕见的等位基因,因为在所有的检测材料中,只有云南景洪县的“直立”型紫花苜蓿(ETOR)含有Pi-ta(+)等位基因。另一种稻瘟病抗性基因Pib,赋予稻瘟病日本菌株的抗性,也被证实在这种类型的稻瘟病稻中起作用。病原菌接种试验结果表明,ETOR对所测爆炸病原菌小种的抗性较其他类型的水蚤强。ETOR的耐药可能至少部分依赖于Pi-ta和Pib基因的功能。由于水稻直立型的Pi-ta(+)和Pib基因与栽培水稻(O. sativa)具有相同的基因组类型,可以通过传统杂交或基因工程的方法提高栽培水稻对稻瘟病的耐受性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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