Septoria tritici blotch (STB), caused by the ascomycete Mycosphaerella graminicola, is one of the most devastating foliar diseases of wheat. We screened five synthetic hexaploid wheats (SHs), 13 wheat varieties that represent the differential set of cultivars and two susceptible checks with a global set of 20 isolates and discovered exceptionally broad STB resistance in SHs. Subsequent development and analyses of recombinant inbred lines (RILs) from a cross between the SH M3 and the highly susceptible bread wheat cv. Kulm revealed two novel resistance loci on chromosomes 3D and 5A. The 3D resistance was expressed in the seedling and adult plant stages, and it controlled necrosis (N) and pycnidia (P) development as well as the latency periods of these parameters. This locus, which is closely linked to the microsatellite marker Xgwm494, was tentatively designated Stb16q and explained from 41 to 71% of the phenotypic variation at seedling stage and 28–31% in mature plants. The resistance locus on chromosome 5A was specifically expressed in the adult plant stage, associated with SSR marker Xhbg247, explained 12–32% of the variation in disease, was designated Stb17, and is the first unambiguously identified and named QTL for adult plant resistance to M. graminicola. Our results confirm that common wheat progenitors might be a rich source of new Stb resistance genes/QTLs that can be deployed in commercial breeding programs.
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机译:小麦粉癣菌(Mycosphaerella graminicola)引起的小麦黑斑病(STB)是小麦中最具破坏性的叶病之一。我们筛选了五种合成六倍体小麦(SHs),代表不同品种的13个小麦变种和全球共有20个分离株的两次易感检查,并发现了SHs中对STB的抗药性异常广泛。随后从SH M3和高度易感的面包小麦cv杂交获得重组自交系(RIL)。 Kulm在3D和5A染色体上揭示了两个新的抗性基因座。 3D抗性在幼苗和成年植物阶段表达,并且它控制坏死(N)和pynicidia(P)的发育以及这些参数的潜伏期。该基因座与微卫星标记Xgwm494密切相关,暂定为Stb16q,解释了苗期表型变异的41%至71%,成熟植物中28-31%。 5A染色体上的抗性基因座在成年植物阶段特别表达,与SSR标记Xhbg247有关,解释了疾病变异的12%至32%,被命名为Stb17,并且是第一个明确鉴定并命名为成年植物对QTL的抗性的QTL。 M. graminicola。我们的结果证实,普通小麦祖细胞可能是可用于商业育种计划的新的抗Stb抗性基因/ QTL的丰富来源。
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