Weed Science Department, Institute of Plant Protection, Shandong Academy of Agricultural Sciences, Jinan, China.
Pest Manag Sci. 2017 Dec;73(12):2538-2543. doi: 10.1002/ps.4651. Epub 2017 Aug 18.
Crabgrass (Digitaria sanguinalis) is an annual monocotyledonous weed. In recent years, field applications of nicosulfuron have been ineffective in controlling crabgrass populations in Shandong Province, China. To investigate the mechanisms of resistance to nicosulfuron in crabgrass populations, the acetolactate synthase (ALS) gene fragment covering known resistance-confering mutation sites was amplified and sequenced.
Dose-response experiments suggested that the resistant population SD13 (R) was highly resistant to nicosulfuron (resistance index R/S = 43.7) compared with the sensitive population SD22 (S). ALS gene sequencing revealed a Trp574Arg substitution in the SD13 population, and no other known resistance-conferring mutations were found. In vitro ALS enzyme assays further confirmed that the SD13 population was resistant to all tested ALS-inhibiting herbicides. The resistance pattern experiments revealed that, compared with SD22, the SD13 population exhibited broad-spectrum resistance to nicosulfuron (43.7-fold), imazethapyr (11.4-fold) and flumetsulam (16.1-fold); however, it did not develop resistance to atrazine, mesotrione and topramezone.
This study demonstrated that Trp574Arg substitution was the main reason for crabgrass resistance to ALS-inhibiting herbicides. To our knowledge, this is the first report of Trp574Arg substitution in a weed species, and is the first report of target-site mechanisms of herbicide resistance for crabgrass. © 2017 Society of Chemical Industry.
稗草(Digitaria sanguinalis)是一年生单子叶杂草。近年来,在中国山东省,田间应用烟嘧磺隆防治稗草种群效果不佳。为研究稗草种群对烟嘧磺隆的抗药性机制,扩增并测序了包含已知抗性赋予突变位点的乙酰乳酸合酶(ALS)基因片段。
剂量反应实验表明,与敏感种群 SD22(S)相比,抗性种群 SD13(R)对烟嘧磺隆表现出高度抗性(抗性指数 R/S = 43.7)。ALS 基因测序显示 SD13 种群存在亮氨酸 574 精氨酸取代,未发现其他已知的抗性赋予突变。体外 ALS 酶测定进一步证实 SD13 种群对所有测试的 ALS 抑制剂除草剂均具有抗性。抗性模式实验表明,与 SD22 相比,SD13 种群对烟嘧磺隆(43.7 倍)、咪草烟(11.4 倍)和氟噻草胺(16.1 倍)表现出广谱抗性;然而,它对莠去津、麦草畏和唑嘧磺草胺没有产生抗性。
本研究表明亮氨酸 574 精氨酸取代是稗草对 ALS 抑制剂除草剂产生抗性的主要原因。据我们所知,这是首次在杂草物种中发现亮氨酸 574 精氨酸取代,也是首次报道稗草对除草剂的靶标位点机制抗性。 © 2017 英国化学学会。
