College of Plant Protection, State & Local Joint Engineering Research Center of Green Pesticide Invention and Application, Nanjing Agricultural University, Nanjing, Jiangsu Province, 210095, China.
Biosciences, University of Exeter, Stocker Road, Exeter, EX4 4QD, UK.
Plant Dis. 2018 Oct;102(10):2016-2024. doi: 10.1094/PDIS-03-18-0542-RE. Epub 2018 Aug 22.
Optimal disease management depends on the ability to monitor the development of fungicide resistance in plant pathogen populations. Benzimidazole resistance is caused by the point mutations of the β-tubulin gene in Botrytis cinerea, and three mutations (E198A, E198K, and E198V) at codon 198 account for more than 98% of all resistant strains. Although traditional methods remain a cornerstone in monitoring fungicide resistance, molecular methods that do not require the isolation of pathogens can detect resistance alleles present at low frequencies, and require less time and labor than traditional methods. In this study, we present an efficient, rapid, and highly specific method for detecting highly benzimidazole-resistant B. cinerea isolates based on loop-mediated isothermal amplification (LAMP). By using specific primers, we could simultaneously detect all three resistance-conferring mutations at codon 198. The LAMP reaction components and conditions were optimized, and the best reaction temperatures and times were 60 to 62°C and 45 min, respectively. When B. cinerea field isolates were assessed for benzimidazole resistance, similar results were obtained with LAMP, minimal inhibition concentration, and sequencing. The LAMP assay developed in the current study was highly suitable for detection of highly benzimidazole-resistant field isolates of B. cinerea.
最佳的疾病管理取决于监测植物病原菌群体中杀菌剂抗性发展的能力。苯并咪唑抗性是由灰葡萄孢菌β-微管蛋白基因的点突变引起的,而密码子 198 处的三个突变(E198A、E198K 和 E198V)占所有抗性菌株的 98%以上。尽管传统方法仍然是监测杀菌剂抗性的基石,但不需要分离病原体的分子方法可以检测到低频存在的抗性等位基因,并且比传统方法需要更少的时间和劳动力。在这项研究中,我们提出了一种基于环介导等温扩增(LAMP)的检测高度苯并咪唑抗性灰葡萄孢菌分离物的高效、快速且高度特异性方法。通过使用特异性引物,我们可以同时检测到密码子 198 处的所有三种赋予抗性的突变。优化了 LAMP 反应的成分和条件,最佳反应温度和时间分别为 60 至 62°C 和 45 分钟。当评估田间灰葡萄孢菌分离物对苯并咪唑的抗性时,LAMP、最小抑菌浓度和测序得到了相似的结果。本研究中开发的 LAMP 检测方法非常适合检测高度苯并咪唑抗性的灰葡萄孢菌田间分离物。
