State Key Laboratory of Crop Stress Biology for Arid Areas, Northwest A&F University, Yangling, China.
Department of Plant Pathology, , China Agricultural University, Beijing, China.
Pest Manag Sci. 2020 Dec;76(12):4258-4267. doi: 10.1002/ps.5990. Epub 2020 Aug 17.
Rice blast, caused by Magnaporthe oryzae, is the most devastating disease in rice. Recently, trifloxystrobin was registered for the control of M. oryzae in China. The resistance profile and mechanism of M. oryzae to trifloxystrobin were investigated in the present study, providing important data for the recommended use of trifloxystrobin.
The baseline sensitivity was established at a half maximal effective concentration (EC ) of 0.024 μg mL . Nine stable trifloxystrobin-resistant mutants were generated with EC values ranging from 12.75 to 171.49 μg mL . The mutants exhibited strong adaptive traits in sporulation, conidial germination, and pathogenicity. Positive cross-resistance was only observed between trifloxystrobin and azoxystrobin, but not between trifloxystrobin and carbendazim, isoprothiolane, prochloraz, or chlorothalonil. The point mutation G143S in cytochrome b (cyt b) protein was found in eight high-resistance mutants with resistant factor ranging from 2295.16 to 13 200.00; and the double mutation G137R/M296V only occurred in Mg117-1 with resistance factor ≈ 900. The G143S mutation weakened hydrogen bond interactions, and G137R/M296V changed the conformation of trifloxystrobin in the cyt b binding pocket. A molecular detection method was established for the rapid detection of G143S mutants in M. oryzae.
The resistance risk of M. oryzae to trifloxystrobin could be moderate to high. Two genotypes with three point-mutations G143S, G137R, and M296V conferred resistance to trifloxystrobin in M. oryzae. © 2020 Society of Chemical Industry.
稻瘟病由稻瘟病菌引起,是水稻上最具毁灭性的病害。近期,三氟苯唑在我国登记用于防治稻瘟病菌。本研究调查了稻瘟病菌对三氟苯唑的抗药性谱和机制,为三氟苯唑的合理使用提供了重要数据。
建立了半效浓度(EC )为 0.024 μg mL 时的基础敏感度。用 EC 值为 12.75 至 171.49 μg mL 的 9 个稳定的三氟苯唑抗性突变体。这些突变体在产孢、分生孢子萌发和致病性方面表现出很强的适应性特征。仅观察到三氟苯唑和唑菌酯之间存在正向交叉抗性,而三氟苯唑与多菌灵、异菌脲、丙环唑或百菌清之间没有交叉抗性。在 8 个高抗性突变体中发现细胞色素 b(cyt b)蛋白中的点突变 G143S,抗性系数为 2295.16 至 13200.00;Mg117-1 中仅发生双突变 G137R/M296V,抗性系数约为 900。G143S 突变削弱了氢键相互作用,G137R/M296V 改变了 cyt b 结合口袋中三氟苯唑的构象。建立了一种用于快速检测 M. oryzae 中 G143S 突变体的分子检测方法。
稻瘟病菌对三氟苯唑的抗药性风险可能为中度至高度。在 M. oryzae 中,三种点突变 G143S、G137R 和 M296V 的两种基因型赋予了对三氟苯唑的抗性。© 2020 英国化学学会。
