Target-site basis for resistance to flucarbazone- sodium in Japanese brome (Bromus japonicus Houtt.) in China

IF 1.7 4区 农林科学 Q2 Agricultural and Biological Sciences Chilean Journal of Agricultural Research Pub Date : 2022-09-01 DOI:10.4067/s0718-58392022000300493
Qi Li, Jinping Yu, Wenlei Guo, Long Du, P. Bai, Yixue Liu
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引用次数: 1

Abstract

Japanese brome ( Bromus japonicus Houtt.) is a troublesome annual weed and widely distributed in winter wheat ( Triticum aestivum L.) fields in the North China Plain. A B. japonicus population (TJ06) suspected of resistance to acetolactate synthase (ALS) inhibitors was found in Tianjin, China. In this study, the TJ06 population with an Asp-376-Glu mutation in ALS gene was identified. TJ06 population developed 66.7-fold resistance to flucarbazone-sodium and exhibited obvious cross-resistance to other two ALS-inhibiting herbicides. The 50% plant growth reduction (GR 50 ) to herbicides of pyroxsulam and mesosulfuron-methyl were 28.72 and 39.44 g ai ha -1 , respectively. In in vitro ALS activity assays, the concentration of flucarbazone-sodium required to inhibit 50% ALS activity (I 50 ) for TJ06 was 11.3-fold greater than that for a susceptible population (TJ01), which was highly correlated with that of whole-plant response experiments and indicated that the Asp-376-Glu mutation leading to resistance reduced sensitivity of the ALS enzyme to flucarbazone-sodium. Besides, one derived cleaved amplified polymorphic sequence (dCAPS) marker was designed to quickly detect Asp376 mutation in ALS gene of B. japonicus . of Bromus japonicus has evolved high-level resistance to flucarbazone, and demonstrates the molecular mechanism underlying this resistance by an Asp-376-Glu mutation in the ALS gene. These results demonstrate that persistent and intensive application of flucarbazone-sodium has resulted in resistance in B. japonicus in China, and an integrated weed management system is highly necessary for B. japonicus control in wheat fields.
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我国日本雀麦(Bromus japonicus Houtt.)对氟卡松钠抗性的靶点基础
日本雀麦(Bromusjaponicus Houtt.)是一种常见的一年生杂草,广泛分布于华北平原冬小麦(Triticum aestivum L.)地。在天津发现一个疑似对乙酰乳酸合成酶(ALS)抑制剂具有耐药性的日本血吸虫种群(TJ06)。在本研究中,鉴定了ALS基因中存在Asp-376-Glu突变的TJ06群体。TJ06群体对氟卡松钠产生了66.7倍的抗性,对其他两种抑制ALS的除草剂表现出明显的交叉抗性。吡嘧磺隆和甲基中磺隆除草剂的50%植物生长抑制率分别为28.72和39.44 g ai ha-1。在体外ALS活性测定中,TJ06抑制50%ALS活性所需的氟卡唑酮钠浓度(I50)是易感群体(TJ01)的11.3倍,这与全植物反应实验的浓度高度相关,表明导致抗性的Asp-376-Glu突变降低了ALS酶对氟卡唑钠的敏感性。此外,设计了一个衍生的裂解扩增多态性序列(dCAPS)标记,用于快速检测日本血吸虫ALS基因的Asp376突变。日本Bromus japonicus已经进化出对氟卡唑酮的高水平抗性,并通过ALS基因中的Asp-376-Glu突变证明了这种抗性的分子机制。这些结果表明,在中国,持续和密集施用氟卡松钠已导致日本血吸虫病的抗性,因此,在麦田中建立一个综合杂草管理系统是非常必要的。
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来源期刊
CiteScore
3.00
自引率
11.80%
发文量
60
审稿时长
6 months
期刊介绍: ChileanJAR publishes original Research Articles, Scientific Notes and Reviews of agriculture, multidisciplinary and agronomy: plant production, plant protection, genetic resources and biotechnology, water management, soil sciences, environment, agricultural economics, and animal production (focused in ruminant feeding). The editorial process is a double-blind peer reviewing, Editorial Office checks format, composition, and completeness, which is a requirement to continue the editorial process. Editorial Committee and Reviewers evaluate relevance and scientific merit of manuscript.
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