通过一个新的野生小麦面板,可以绘制与苗期抗茎锈病有关的新基因座图谱

Anna Maria Mastrangelo, Pablo Roncallo, Oadi Matny, Čegan Radim, Brian Steffenson, Viviana Echenique, Jan Šafář, Raffaella Battaglia, Delfina Barabaschi, Luigi Cattivelli, Hakan Özkan, Elisabetta Mazzucotelli
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摘要

由 Puccinia graminis f. sp. tritici(Pgt)引起的小麦茎锈病是全球主要的小麦病害。我们收集了 283 个野生小麦 [Triticum turgidum L. subsp.然后,利用该基因组绘制了 Pgt 抗性基因图谱,作为野生珙桐全基因组关联研究有效性的概念验证。在受控条件下评估了该基因组对六种常见 Pgt 病型(TPMKC、TTTTF、JRCQC、TRTTF、TTKSK/Ug99 和 TKTTF)的反应。大多数抗性品种来源于南黎凡特野生emmer品系,其中一些品种对三到六个受测品系表现出抗性反应。根据 12K 多态性单核苷酸多态性数据集、品种间的亲缘关系和种群结构进行了关联分析。在整个基因组中发现了 11 个重要的标记-性状关联(MTA),这些关联解释了 17% 到 49% 的表型变异,平均加性效应为 1.5(基于 1-9 的评分标准)。鉴定出的基因位点要么对单一种族有效,要么对多个种族有效。一些 MTA 与已知的 Pgt 抗性基因共定位,而另一些则代表了对硬质小麦和面包小麦预育种有用的新型抗性基因座。在与抗性相关的区域发现了具有与植物对病原体的反应有关的注释功能的候选基因,并根据估计的小 LD(约 126 kb)进行了定义,这是野生物种的典型特征。
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A new wild emmer wheat panel allows to map new loci associated with resistance to stem rust at seedling stage
Wheat stem rust, caused by Puccinia graminis f. sp. tritici (Pgt), is a major wheat disease worldwide. A collection of 283 wild emmer wheat [Triticum turgidum L. subsp. dicoccoides (Körn. ex Asch. & Graebn.) Thell] accessions, representative of the entire Fertile Crescent region where wild emmer naturally occurs, was assembled, genotyped, and characterized for population structure, genetic diversity, and rate of linkage disequilibrium (LD) decay. Then, the collection was employed for mapping Pgt resistance genes, as a proof of concept of the effectiveness of genome-wide association studies in wild emmer. The collection was evaluated in controlled conditions for reaction to six common Pgt pathotypes (TPMKC, TTTTF, JRCQC, TRTTF, TTKSK/Ug99, and TKTTF). Most resistant accessions originated from the Southern Levant wild emmer lineage, with some showing a resistance reaction toward three to six tested races. Association analysis was conducted considering a 12K polymorphic single-nucleotide polymorphisms dataset, kinship relatedness between accessions, and population structure. Eleven significant marker–trait associations (MTA) were identified across the genome, which explained from 17% to up to 49% of phenotypic variance with an average 1.5 additive effect (based on the 1–9 scoring scale). The identified loci were either effective against single or multiple races. Some MTAs colocalized with known Pgt resistance genes, while others represent novel resistance loci useful for durum and bread wheat prebreeding. Candidate genes with an annotated function related to plant response to pathogens were identified at the regions linked to the resistance and defined according to the estimated small LD (about 126 kb), as typical of wild species.
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