Evaluation of Stripe Rust Resistance and Chip Detection Resistance Genes in 286 Xinjiang Wheat Cultivars and Breeding Lines.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Haohao Yan, Jianing Zhu, Yongjin Jin, Xingxuan Bai, Qingdong Zeng, Haifeng Gao, Jinbiao Ma, Lili Huang, Zhensheng Kang, Gangming Zhan
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Abstract

Wheat stripe rust is a destructive disease worldwide, caused by Puccinia striiformis f. sp. tritici (Pst). Resistance breeding is the most effective method of controlling stripe rust. Xinjiang is a relatively independent epidemic region of wheat stripe rust in China. In recent years, wheat stripe rust in this area has shown an upward trend. Therefore, the purpose of this study was to evaluate the resistance level of wheat cultivars (lines) to the prevalent Pst races and determine the genetic background of stripe rust resistance genes in Xinjiang. Six predominant Pst races in China were used to study resistance of 286 wheat cultivars (lines) at both the seedling stage under controlled conditions and the adult-plant stage under field conditions. In the seedling tests, 175 (61.19%) entries were resistant to the race CYR23, 125 (43.71%) to CYR29, 153 (53.50%) to CYR31, 88 (30.77%) to CYR32, 174 (60.84%) to CYR33, and 98 (34.27%) to CYR34. Among the resistant entries, 23 (8.04%) were resistant to all six races. In the field test, 135 (47.20%) entries were resistant to the tested mixed races. Through comparing the responses in the seedling and adult-plant stages, 109 (38.11%) entries were found to have adult-plant resistance (APR), and 14 (4.90%) entries have all-stage resistance (ASR). The 286 wheat entries were also tested using a wheat breeder chip containing 12 Yr resistance loci. Among these entries, 44 (15.38%) were found to have a single gene, 221 (77.27%) have two or more genes, and 21 (7.34%) have none of the 12 genes, including 144 (50.35%) with Yr30 and 5 (1.75%) with YrSP. Entries with two or more genes have stronger resistance to Pst. Overall, the majority of entries have all-stage and/or adult-plant resistance, but their genes for resistance in addition to the 12 tested Yr genes need to be determined. It is also necessary to introduce more effective resistance genes in the breeding programs to improve stripe rust resistance in wheat cultivars in Xinjiang.

对 286 个新疆小麦栽培品种和育种系的抗条锈病基因和抗芯片检测基因进行评估
小麦条锈病是一种世界性毁灭性病害,由条锈病菌(Puccinia striiformis f. sp. tritici,Pst)引起。抗性育种是防治条锈病最有效的方法。新疆是我国小麦条锈病相对独立的流行区。近年来,该地区的小麦条锈病呈上升趋势。因此,本研究旨在评估新疆小麦栽培品种(品系)对流行的 Pst 株系的抗性水平,并确定新疆小麦条锈病抗性基因的遗传背景。本研究利用中国的 6 个主要 Pst 株系,研究了 286 个小麦栽培品种(品系)在对照条件下的幼苗期和田间条件下的成株期的抗性。在苗期试验中,175 个品种(61.19%)对 CYR23 感抗,125 个品种(43.71%)对 CYR29 感抗,153 个品种(53.50%)对 CYR31 感抗,88 个品种(30.77%)对 CYR32 感抗,174 个品种(60.84%)对 CYR33 感抗,98 个品种(34.27%)对 CYR34 感抗。在抗性品种中,有 23 个品种(8.04%)对所有六个品系都具有抗性。在田间试验中,135 个条目(47.20%)对测试的混合品系具有抗性。通过比较苗期和成株期的反应,发现 109 个(38.11%)品种具有成株抗性(APR),14 个(4.90%)品种具有全生育期抗性(ASR)。这 286 个小麦品种还使用含有 12 个 Yr 抗性位点的小麦育种芯片进行了测试。在这些条目中,发现 44 个(15.38%)条目具有单基因,221 个(77.27%)条目具有两个或多个基因,21 个(7.34%)条目没有 12 个基因,其中 144 个(50.35%)条目具有 Yr30 基因,5 个(1.75%)条目具有 YrSP 基因。含有两个或更多基因的品种对 Pst 的抗性更强。总体而言,大多数品种具有全生育期和/或成株抗性,但除了 12 个测试的 Yr 基因外,还需要确定它们的抗性基因。在育种计划中引入更多有效的抗性基因以提高新疆小麦品种的条锈病抗性也是必要的。
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来源期刊
Plant disease
Plant disease 农林科学-植物科学
CiteScore
5.10
自引率
13.30%
发文量
1993
审稿时长
2 months
期刊介绍: Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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