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小麦-斯卑尔脱山羊草重组体的开发和用于 Sr32 和 2S#1 染色体上新的抗条锈病基因的简单 PCR 标记。

Development of wheat-Aegilops speltoides recombinants and simple PCR-based markers for Sr32 and a new stem rust resistance gene on the 2S#1 chromosome.

机构信息

CSIRO Plant Industry, GPO Box 1600, Canberra, ACT, 2601, Australia,

出版信息

Theor Appl Genet. 2013 Dec;126(12):2943-55. doi: 10.1007/s00122-013-2184-8. Epub 2013 Aug 30.

DOI:10.1007/s00122-013-2184-8
PMID:23989672
Abstract

Wheat- Aegilops speltoides recombinants carrying stem rust resistance genes Sr32 and SrAes1t effective against Ug99 and PCR markers for marker-assisted selection. Wild relatives of wheat are important resources for new rust resistance genes but underutilized because the valuable resistances are often linked to negative traits that prevent deployment of these genes in commercial wheats. Here, we report ph1b-induced recombinants with reduced alien chromatin derived from E.R. Sears' wheat-Aegilops speltoides 2D-2S#1 translocation line C82.2, which carries the widely effective stem rust resistance gene Sr32. Infection type assessments of the recombinants showed that the original translocation in fact carries two stem rust resistance genes, Sr32 on the short arm and a previously undescribed gene SrAes1t on the long arm of chromosome 2S#1. Recombinants with substantially shortened alien chromatin were produced for both genes, which confer resistance to stem rust races in the TTKSK (Ug99) lineage and representative races of all Australian stem rust lineages. Selected recombinants were back crossed into adapted Australian cultivars and PCR markers were developed to facilitate the incorporation of these genes into future wheat varieties. Our recombinants and those from several other labs now show that Sr32, Sr39, and SrAes7t on the short arm and Sr47 and SrAes1t on the long arm of 2S#1 form two linkage groups and at present no rust races are described that can distinguish these resistance specificities.

摘要

携带抗秆锈病基因 Sr32 和 SrAes1t 的小麦-节节麦重组体,对 Ug99 有效,以及用于标记辅助选择的 PCR 标记。小麦的野生近缘种是新的锈病抗性基因的重要资源,但利用不足,因为有价值的抗性通常与阻止这些基因在商业小麦中应用的负面特征相关联。在这里,我们报告了 ph1b 诱导的重组体,其来自 E.R. Sears 的小麦-节节麦 2D-2S#1 易位系 C82.2 的异源染色质减少,该系携带广泛有效的秆锈病抗性基因 Sr32。重组体的侵染类型评估表明,该原始易位实际上携带两个秆锈病抗性基因,Sr32 位于短臂上,另一个先前未描述的基因 SrAes1t 位于 2S#1 染色体的长臂上。这两个基因都产生了具有显著缩短的异源染色质的重组体,它们赋予了对 TTKSK(Ug99)谱系和所有澳大利亚秆锈谱系的代表性菌株的抗性。选择的重组体被回交到适应性强的澳大利亚品种中,并开发了 PCR 标记,以方便将这些基因纳入未来的小麦品种中。我们的重组体和其他几个实验室的重组体现在表明,2S#1 短臂上的 Sr32、Sr39 和 SrAes7t 以及长臂上的 Sr47 和 SrAes1t 形成两个连锁群,目前没有描述的锈病菌株可以区分这些抗性特异性。

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