Association Mapping of Seedling and Adult Plant Resistance for Stripe Rust Resistance in Spring Bread Wheat ( Triticum aestivum L.)

Y. Shewaye, Wuletaw Taddesse
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引用次数: 2

Abstract

Stripe (yellow) rust caused by Puccinia striiformis f. sp. tritici, is one of the major diseases of wheat in the world. Development and use of resistant wheat cultivars is the most economical and environmentally friendly solution in combating wheat stripe rust. Field experiments were carried out at two sites in Ethiopia (Kulumsa and Meraro) and seedling tests were conducted at KARC green house during the 2015 cropping season to evaluate the response of 198 elite spring bread wheat genotypes and two checks to the prevailing races of stripe rust at adult plant and seedling stages. The genetic profile of the 198 genotypes was assessed using 13006 SNP markers and an Association mapping was explored to determine marker-trait association. About 72.5% and 42.5% of the lines exhibited resistance to stripe rust during the field screening at Kulumsa and Meraro, respectively. Only 8,966 of the SNPs were polymorphic and hence used for association mapping analysis. Almost half of these markers were on known chromosomes but had no position on the consensus map of bread wheat. Analysis of population structure revealed the existence of three clusters. Fifty-three SNPs and 21 SNP markers in ten genomic regions were significantly associated with yellow rust resistance at adult plant st and seedling stages, respectively. The locus on chromosome 1 AL appeared to be a novel quantitative trait locus (QTL) not reported so far. The locus on chromosome 1 AL appeared to be a novel quantitative trait locus (QTL) not reported so far there are different markers that are associated to resistance like, BS00022733_51, wsnp_Ex_rep_c69738_68695568, wsnp_Ex_rep_c108951_9195419, CAP12_c1906_217 and TA003955-1138.
春小麦(Triticum aestium L.)幼苗和成株抗条锈病相关性分析
小麦条锈病(黄锈病)是小麦的主要病害之一。开发和利用抗病小麦品种是防治小麦条锈病最经济、最环保的方法。在2015年种植季,在埃塞俄比亚Kulumsa和Meraro两个地点进行了田间试验,并在KARC温室进行了苗期试验,评估了198个优质春小麦基因型对条锈病的反应,并在成株和苗期进行了两次检查。利用13006个SNP标记对198个基因型的遗传谱进行了分析,并建立了关联作图,以确定标记-性状的相关性。在Kulumsa和Meraro的田间筛选中,分别有72.5%和42.5%的品系表现出对条锈病的抗性。只有8966个snp是多态性的,因此用于关联图谱分析。这些标记中几乎有一半位于已知的染色体上,但在面包小麦的共识图谱上没有位置。种群结构分析显示存在3个聚类。在10个基因组区域中,分别有53个SNP和21个SNP标记与成虫期和幼苗期的抗黄锈性显著相关。1号染色体AL上的位点似乎是一个新的数量性状位点(QTL),目前尚未报道。1号染色体AL上的位点可能是一个新的数量性状位点(QTL),与抗性相关的标记有BS00022733_51、wsnp_Ex_rep_c69738_68695568、wsnp_Ex_rep_c108951_9195419、CAP12_c1906_217和TA003955-1138。
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