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定位和鉴定来源于栽培一粒小麦 PI 193883 的两个抗秆锈病基因。

Mapping and characterization of two stem rust resistance genes derived from cultivated emmer wheat accession PI 193883.

机构信息

Department of Plant Sciences, North Dakota State University, Fargo, ND, 58108, USA.

Morden Research and Development Centre, Agriculture and Agri-Food Canada, 100, Morden, MB, R6M 1Y5, Canada.

出版信息

Theor Appl Genet. 2019 Nov;132(11):3177-3189. doi: 10.1007/s00122-019-03417-x. Epub 2019 Sep 7.

DOI:10.1007/s00122-019-03417-x
PMID:31494680
Abstract

Two stem rust resistance genes identified on chromosome arms 2BL and 6AL of the cultivated emmer wheat accession PI 193883 can be used for protecting modern varieties against Ug99 strains. The wheat research community consistently strives to identify new genes that confer resistance to stem rust caused by the fungal pathogen Puccinia graminis f. sp. tritici Eriks & E. Henn (Pgt). In the current study, our objective was to identify and genetically characterize the stem rust resistance derived from the cultivated emmer accession PI 193883. A recombinant inbred line population developed from a cross between the susceptible durum wheat line Rusty and PI 193883 was genotyped and evaluated for reaction to Pgt races TTKSK, TRTTF, and TMLKC. Two QTLs conferring resistance were identified on chromosome arms 2BL (QSr.fcu-2B) and 6AL (QSr.fcu-6A). The stem rust resistance gene (Sr883-2B) underlying QSr.fcu-2B was recessive, and based on its physical location it is located proximal to the Sr9 region. QSr.fcu-6A was located in the Sr13 region, but PI 193883 is known to carry the susceptible haplotype S4 for Sr13, indicating that the gene underlying QSr.fcu-6A (Sr883-6A) is likely a new allele of Sr13 or a gene residing close to Sr13. Three IWGSC scaffold-based simple sequence repeat (SSR) and two SNP-based semi-thermal asymmetric reverse PCR (STARP) markers were developed for the Sr883-2B region, and one STARP marker was developed for Sr883-6A. Sr883-2B was epistatic to Sr883-6A for reaction to TTKSK and TRTTF, and the two genes had additive effects for TMLKC. These two genes and the markers developed in this research provide additional resources and tools for the improvement in stem rust resistance in durum and common wheat breeding programs.

摘要

两个位于栽培二粒小麦 PI 193883 染色体臂 2BL 和 6AL 的抗秆锈基因可用于保护现代品种免受 Ug99 菌株的侵害。小麦研究界一直致力于鉴定赋予小麦对由真菌病原体禾柄锈菌引起的秆锈病(Puccinia graminis f. sp. tritici Eriks & E. Henn,Pgt)抗性的新基因。在本研究中,我们的目标是鉴定和遗传分析源自栽培二粒小麦 PI 193883 的秆锈病抗性。利用 Rusty 感病 durum 小麦品系和 PI 193883 杂交构建的重组自交系群体进行基因型分析,并评估其对 Pgt 菌株 TTKSK、TRTTF 和 TMLKC 的反应。在染色体臂 2BL(QSr.fcu-2B)和 6AL(QSr.fcu-6A)上鉴定到两个赋予抗性的 QTL。QSr.fcu-2B 所对应的秆锈病抗性基因(Sr883-2B)是隐性的,根据其物理位置,它位于 Sr9 区域的近端。QSr.fcu-6A 位于 Sr13 区域,但 PI 193883 已知携带 Sr13 的易感单倍型 S4,这表明 QSr.fcu-6A (Sr883-6A)所对应的基因可能是 Sr13 的新等位基因,或是一个位于 Sr13 附近的基因。开发了三个基于 IWGSC 支架的简单重复序列(SSR)和两个基于 SNP 的半热不对称反向 PCR(STARP)标记用于 Sr883-2B 区域,以及一个用于 Sr883-6A 的 STARP 标记。Sr883-2B 对 TTKSK 和 TRTTF 的反应是与 Sr883-6A 上位性的,并且这两个基因对 TMLKC 具有累加效应。这两个基因和本研究中开发的标记为 durum 和普通小麦的秆锈病抗性改良提供了额外的资源和工具。

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