小麦育种品系吉麦 809 白粉病抗性基因座的特征及其育种应用

IF 2.6 3区 农林科学 Q1 AGRONOMY
Ya Zhao, Guohao Han, Yanmin Qie, Jianmin Song, Yan Zi, Bei Xiao, Jiaojiao Wang, Zejun Qian, Xiaomei Huang, Ruishan Liu, Jiadong Zhang, Lihong Song, Yuli Jin, Pengtao Ma
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引用次数: 0

摘要

由 Blumeria graminis f. sp. tritici(Bgt)引起的白粉病是一种严重影响小麦产量和质量的病害。在生产中推广抗病品种是控制该病害的首选策略。在本研究中,中国小麦育种品系吉麦 809 在整个生长阶段表现出优异的农艺性状和对白粉病的高抗性。为了分析这种抗性的遗传基础,吉麦 809 与易感性小麦栽培品种俊达 159 杂交,产生了分离群体。遗传分析表明,一个暂时被命名为 PmJM809 的显性基因赋予了小麦对不同 Bgt 分离物的抗性。随后,PmJM809 被绘制在染色体臂 2BL 上,两侧分别有遗传距离为 0.4 和 0.8 cM 的标记 CISSR02g-1 和 CIT02g-13,对应的物理区间为 704.12-708.24 Mb。PmJM809与已报道的染色体臂2BL上的Pm基因在起源、抗性谱、物理位置和/或图谱区间的遗传多样性等方面存在差异,这也表明PmJM809位于一个具有多个抗性基因的复杂区间。为了分析和筛选 PmJM809 的候选基因,利用一组额外的小麦样本和 Bgt 分离物 E09 接种后的时程分析,评估了候选区间中与抗病性相关的六个基因的表达模式。结果,有四个基因被推测为关键候选基因或调控基因。考虑到其全面的农艺性状和抗性研究结果,PmJM809有望成为小麦抗病育种的宝贵基因资源。为了将 PmJM809 有效地转移到不同的遗传背景中,19 个密切相关的标记中有 13 个被证实适合标记辅助选择。利用这些标记,从吉麦 809 和几个易感栽培品种的杂交种中筛选出了一系列抗病性和农艺性状协调的小麦育种品系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Characterization of the powdery mildew resistance locus in wheat breeding line Jimai 809 and its breeding application

Characterization of the powdery mildew resistance locus in wheat breeding line Jimai 809 and its breeding application

Powdery mildew, caused by Blumeria graminis f. sp. tritici (Bgt), is a severe disease that affects the yield and quality of wheat. Popularization of resistant cultivars in production is the preferred strategy to control this disease. In the present study, the Chinese wheat breeding line Jimai 809 showed excellent agronomic performance and high resistance to powdery mildew at the whole growth stage. To dissect the genetic basis for this resistance, Jimai 809 was crossed with the susceptible wheat cultivar Junda 159 to produce segregation populations. Genetic analysis showed that a single dominant gene, temporarily designated PmJM809, conferred the resistance to different Bgt isolates. PmJM809 was then mapped on the chromosome arm 2BL and flanked by the markers CISSR02g-1 and CIT02g-13 with genetic distances 0.4 and 0.8 cM, respectively, corresponding to a physical interval of 704.12–708.24 Mb. PmJM809 differed from the reported Pm genes on chromosome arm 2BL in origin, resistance spectrum, physical position and/or genetic diversity of the mapping interval, also suggesting PmJM809 was located on a complex interval with multiple resistance genes. To analyze and screen the candidate gene(s) of PmJM809, six genes related to disease resistance in the candidate interval were evaluated their expression patterns using an additional set of wheat samples and time-course analysis post-inoculation of the Bgt isolate E09. As a result, four genes were speculated as the key candidate or regulatory genes. Considering its comprehensive agronomic traits and resistance findings, PmJM809 was expected to be a valuable gene resource in wheat disease resistance breeding. To efficiently transfer PmJM809 into different genetic backgrounds, 13 of 19 closely linked markers were confirmed to be suitable for marker-assisted selection. Using these markers, a series of wheat breeding lines with harmonious disease resistance and agronomic performance were selected from the crosses of Jimai 809 and several susceptible cultivars.

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来源期刊
Molecular Breeding
Molecular Breeding 农林科学-农艺学
CiteScore
5.60
自引率
6.50%
发文量
67
审稿时长
1.5 months
期刊介绍: Molecular Breeding is an international journal publishing papers on applications of plant molecular biology, i.e., research most likely leading to practical applications. The practical applications might relate to the Developing as well as the industrialised World and have demonstrable benefits for the seed industry, farmers, processing industry, the environment and the consumer. All papers published should contribute to the understanding and progress of modern plant breeding, encompassing the scientific disciplines of molecular biology, biochemistry, genetics, physiology, pathology, plant breeding, and ecology among others. Molecular Breeding welcomes the following categories of papers: full papers, short communications, papers describing novel methods and review papers. All submission will be subject to peer review ensuring the highest possible scientific quality standards. Molecular Breeding core areas: Molecular Breeding will consider manuscripts describing contemporary methods of molecular genetics and genomic analysis, structural and functional genomics in crops, proteomics and metabolic profiling, abiotic stress and field evaluation of transgenic crops containing particular traits. Manuscripts on marker assisted breeding are also of major interest, in particular novel approaches and new results of marker assisted breeding, QTL cloning, integration of conventional and marker assisted breeding, and QTL studies in crop plants.
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