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鉴定出大豆品种托珊-231 中三个紧密连锁的位点,赋予其广谱抗大豆疫霉根腐病的能力。

Identification of three closely linked loci conferring broad-spectrum Phytophthora sojae resistance in soybean variety Tosan-231.

机构信息

Hokuriku Research Center, Central Region Agricultural Research Center, National Agriculture and Food Research Organization (NARO), 1-2-1 Inada, Joetsu, Niigata, 943-0193, Japan.

Institute of Crop Science, NARO, 3-1-3 Kannondai, Tsukuba, Ibaraki, 305-8604, Japan.

出版信息

Theor Appl Genet. 2021 Jul;134(7):2151-2165. doi: 10.1007/s00122-021-03813-2. Epub 2021 Apr 1.

DOI:10.1007/s00122-021-03813-2
PMID:33792774
Abstract

A variable genomic region containing two Harosoy-derived loci related to Rps7 and one Nemashirazu-derived locus confers broad-spectrum Phytophthora sojae resistance in Tosan-231 and is useful for developing resistant cultivars. We investigated resistance to pathotypically variable Phytophthora sojae isolates in the soybean variety Tosan-231, which has broad-spectrum resistance. Mapping analysis using descendent lines from a cross between Shuurei and Tosan-231 demonstrated that a genomic region between SSR markers BARCSOYSSR_03_0209 and BARCSOYSSR_03_0385 (termed "Region T"), confers broad-spectrum resistance in Tosan-231 and contains three closely linked resistance loci. Inoculation tests with 20 P. sojae isolates of different pathotypes and simple sequence repeat (SSR) analysis of progenitors of Tosan-231 facilitated identification and characterization of Rps genes at the three resistance loci. Two resistance genes, RpsT1 and RpsT2, were found to be derived from Harosoy carrying Rps7. This result suggested two mutually exclusive possibilities: (1) either RpsT1 or RpsT2 is Rps7, and the other is a locally functional novel gene; (2) Rps7 is not a single gene but in fact comprises RpsT1 and RpsT2. The resistance locus containing RpsT3 is derived from Nemashirazu, in which Rps genes have remained poorly defined. Moreover, we identified two genomic regions with relatively high recombination frequencies on the basis of mapping information and proposed a strategy to readily assemble useful resistance genes in or around Region T.

摘要

一个包含与 Rps7 相关的两个 Harosoy 衍生基因座和一个 Nemashirazu 衍生基因座的可变基因组区域赋予 Tosan-231 广谱抗大豆疫霉菌性,并可用于开发抗性品种。我们研究了大豆品种 Tosan-231 对具有广谱抗性的致病性不同的大豆疫霉菌分离物的抗性。利用 Shuurei 和 Tosan-231 杂交的后代系进行的作图分析表明,位于 SSR 标记 BARCSOYSSR_03_0209 和 BARCSOYSSR_03_0385 之间的基因组区域(称为“Region T”)赋予了 Tosan-231 的广谱抗性,并包含三个紧密连锁的抗性基因座。用 20 个不同致病型的大豆疫霉菌分离物进行接种试验和 Tosan-231 亲本的简单序列重复(SSR)分析,有助于鉴定和表征三个抗性基因座中的 Rps 基因。发现两个抗性基因,RpsT1 和 RpsT2,来自携带 Rps7 的 Harosoy。这一结果表明存在两种互斥的可能性:(1)RpsT1 或 RpsT2 是 Rps7,另一个是具有局部功能的新基因;(2)Rps7 不是单个基因,而是实际上由 RpsT1 和 RpsT2 组成。含有 RpsT3 的抗性基因座源自 Nemashirazu,其中 Rps 基因的定义仍不清楚。此外,我们根据作图信息确定了两个具有相对较高重组频率的基因组区域,并提出了一种在 Region T 内部或周围轻松组装有用抗性基因的策略。

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本文引用的文献

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