CSIRO Agriculture and Food, GPO Box 1700, Canberra, ACT, 2601, Australia.
Centre for Crop Science, Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, St Lucia, QLD, 4072, Australia.
Theor Appl Genet. 2022 Aug;135(8):2627-2639. doi: 10.1007/s00122-022-04132-w. Epub 2022 Jun 24.
Stem rust resistance genes, SrRL5271 and Sr672.1 as well as SrCPI110651, from Aegilops tauschii, the diploid D genome progenitor of wheat, are sequence variants of Sr46 differing by 1-2 nucleotides leading to non-synonymous amino acid substitutions. The Aegilops tauschii (wheat D-genome progenitor) accessions RL 5271 and CPI110672 were identified as resistant to multiple races (including the Ug99) of the wheat stem rust pathogen Puccinia graminis f. sp. tritici (Pgt). This study was conducted to identify the stem rust resistance (Sr) gene(s) in both accessions. Genetic analysis of the resistance in RL 5271 identified a single dominant allele (SrRL5271) controlling resistance, whereas resistance segregated at two loci (SR672.1 and SR672.2) for a cross of CPI110672. Bulked segregant analysis placed SrRL5271 and Sr672.1 in a region on chromosome arm 2DS that encodes Sr46. Molecular marker screening, mapping and genomic sequence analysis demonstrated SrRL5271 and Sr672.1 are alleles of Sr46. The amino acid sequence of SrRL5271 and Sr672.1 is identical but differs from Sr46 (hereafter referred to as Sr46_h1 by following the gene nomenclature in wheat) by a single amino acid (N763K) and is thus designated Sr46_h2. Screening of a panel of Ae. tauschii accessions identified an additional allelic variant that differed from Sr46_h2 by a different amino acid (A648V) and was designated Sr46_h3. By contrast, the protein encoded by the susceptible allele of Ae. tauschii accession AL8/78 differed from these resistance proteins by 54 amino acid substitutions (94% nucleotide sequence gene identity). Cloning and complementation tests of the three resistance haplotypes confirmed their resistance to Pgt race 98-1,2,3,5,6 and partial resistance to Pgt race TTRTF in bread wheat. The three Sr46 haplotypes, with no virulent races detected yet, represent a valuable source for improving stem resistance in wheat.
来自小麦二倍体 D 基因组供体物种节节麦的茎锈病抗性基因 SrRL5271 和 Sr672.1 以及 SrCPI110651 是 Sr46 的序列变异体,其差异仅为 1-2 个核苷酸,导致非同义氨基酸取代。节节麦(小麦 D 基因组供体)RL5271 和 CPI110672 品系被鉴定为对多种小麦茎锈病菌(Puccinia graminis f. sp. tritici,Pgt)菌系(包括 Ug99)具有抗性。本研究旨在鉴定这两个品系中的茎锈病抗性(Sr)基因。RL5271 中抗性的遗传分析鉴定出一个单一的显性等位基因(SrRL5271)控制抗性,而 CPI110672 的杂交则在两个位点(SR672.1 和 SR672.2)上分离出抗性。混池分离分析将 SrRL5271 和 Sr672.1 定位在 2DS 染色体臂上,该区域编码 Sr46。分子标记筛选、图谱绘制和基因组序列分析表明,SrRL5271 和 Sr672.1 是 Sr46 的等位基因。SrRL5271 和 Sr672.1 的氨基酸序列相同,但与 Sr46(以下简称 Sr46_h1,遵循小麦基因命名法)的单个氨基酸(N763K)不同,因此被指定为 Sr46_h2。对一系列节节麦品系的筛选发现了另一个等位基因变异体,该变异体与 Sr46_h2 的不同氨基酸(A648V)不同,并被指定为 Sr46_h3。相比之下,感病的节节麦品系 AL8/78 等位基因编码的蛋白质与这些抗性蛋白有 54 个氨基酸取代(94%核苷酸序列基因同一性)。三个抗性单倍型的克隆和互补测试证实了它们对 Pgt 菌系 98-1、2、3、5、6 的抗性以及对面包小麦 Pgt 菌系 TTRTF 的部分抗性。这三个 Sr46 单倍型尚未检测到致病菌系,代表了提高小麦茎秆抗性的宝贵资源。
