A population genetics-based approach reveals candidate gene regions important in the determination of resistance specificity for the Pik family of rice blast resistance genes

Ikuo Ashikawa; Ryuji Ishikawa

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A population genetics-based approach reveals candidate gene regions important in the determination of resistance specificity for the Pik family of rice blast resistance genes

机译：基于群体遗传学的方法揭示了候选基因区域，该区域在确定稻瘟病抗性基因Pik家族的抗性特异性中很重要

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Allelic resistance (R) genes at the Pik locus for rice blast resistance consist of two genes, designated as the first gene and the second gene, which each have a nucleotide-binding site and a leucine-rich repeat. We investigated allelic nucleotide sequence diversity at this locus in 36 rice lines and searched for gene regions showing high rates of nonsynonymous nucleotide substitutions. We detected such regions within and near the coiled-coil domain of the first gene but detected only a few nucleotide substitutions in the second gene, suggesting the importance of the N-terminal part of the first protein in the determination of R specificity.

机译：Pik基因座处的稻瘟病抗性等位基因抗性基因由两个基因组成，分别称为第一个基因和第二个基因，每个基因都有一个核苷酸结合位点和一个富含亮氨酸的重复序列。我们在36个水稻系的这个基因座处调查了等位基因核苷酸序列的多样性，并寻找显示非同义核苷酸取代率高的基因区域。我们检测到第一个基因的卷曲螺旋结构域内和附近的此类区域，但仅检测到第二个基因中的几个核苷酸取代，表明第一个蛋白质的N末端部分在确定R特异性中的重要性。

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来源
《Journal of General Plant Pathology》 |2013年第3期|178-181|共4页
作者
Ikuo Ashikawa; Ryuji Ishikawa;
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作者单位

NARO Institute of Crop Science">(1);

Faculty of Agriculture and Life Science Hirosaki University">(2);

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正文语种 eng
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关键词
Resistance specificity; Rice blast resistance genes; Fungal effector-R gene interaction; Diversifying selection; Oryza sativa;

机译：抗性特异性;稻瘟病抗性基因;真菌效应子-R基因相互作用;多元化的选择;水稻;

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专利

1. A population genetics-based approach reveals candidate gene regions important in the determination of resistance specificity for the Pik family of rice blast resistance genes. [J] . Ashikawa I., Ishikawa R. Journal of general plant pathology . 2013,第3期

机译：基于群体遗传学的方法揭示了候选基因区域，该区域在确定稻瘟病抗性基因Pik家族的抗性特异性中很重要。
2. Regions outside the leucine-rich repeat domain determine the distinct resistance specificities of the rice blast resistance genes Pik and Pik-m [J] . Ashikawa I. Molecular Breeding . 2012,第3期

机译：富含亮氨酸的重复结构域以外的区域决定了稻瘟病抗性基因Pik和Pik-m的独特抗性特异性
3. Allele-specific marker-based assessment revealed that the rice blast resistance genes Pi2 and Pi9 have not been widely deployed in Chinese indica rice cultivars [J] . Dagang Tian, Zaijie Chen, Ziqiang Chen, Rice . 2016,第1期

机译：基于等位基因特异性标记的评估表明，稻瘟病抗性基因Pi2和Pi9尚未在中国in稻品种中广泛使用
4. Leneage-exclusion resistance breeding: pyramiding of blast resistance genes for management of rice blast in India [C] . S. S. GNANAMANICKAM, LAVANYA BABUJEE, V. BRINDHA PRIYADARISIHI, International Rice Blast Conference . 2000

机译：谱系排除抗性育种：印度稻瘟病抗性基因的功率
5. Rice Blast Disease in the U.S. and Africa: Determination of Pathogen Diversity and the Identification of Resistance Genes for Disease Management. [D] . Rotich, Felix. 2015

机译：美国和非洲的稻瘟病：病原多样性的确定和抗病基因的鉴定，以用于疾病管理。
6. Allele-specific marker-based assessment revealed that the rice blast resistance genes Pi2 and Pi9 have not been widely deployed in Chinese indica rice cultivars [O] . Dagang Tian, Zaijie Chen, Ziqiang Chen, 2016

机译：基于等位基因特异性标记的评估表明稻瘟病抗性基因Pi2和Pi9尚未在中国rice稻品种中广泛使用
7. Allele-specific marker-based assessment revealed that the rice blast resistance genes Pi2 and Pi9 have not been widely deployed in Chinese indica rice cultivars [O] . Dagang Tian, Zaijie Chen, Ziqiang Chen, 2016

机译：基于等位基因特异性标记的评估表明，稻瘟病抗性基因Pi2和Pi9尚未在中国Chinese稻品种中广泛使用

A population genetics-based approach reveals candidate gene regions important in the determination of resistance specificity for the Pik family of rice blast resistance genes

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