Chen Changjun, Zhao Wei, Lu Yuejian, Wang Jianxin, Chen Yu, Li Hongxia, Zhou Mingguo
College of Plant Protection, Nanjing Agricultural University, Nanjing 210095, China.
Pest Manag Sci. 2009 Apr;65(4):413-9. doi: 10.1002/ps.1691.
A point mutation often confers resistance of organisms against medical drugs and agricultural pesticides. Allele-specific nucleotide polymerase chain reaction (ASPCR) and allele-specific quantitative real-time PCR using SYBR Green (ASQPCR) are widely and effectively applied to detect and monitor this type of resistance. However, the former is unsuitable for high-throughput detection, and the latter often reduces the accuracy of detection.
In order to decrease background amplification, a rapid and high-throughput genotyping method with mismatch primers was developed (ASQPCR-MP) and applied specifically to survey the frequency of the highly benzimidazole-resistant MBC(HR) mutation (E198A) in the beta-tubulin gene of Sclerotinia sclerotiorum (Lib.) de Bary populations. Genomic DNA from 223 sclerotia was analysed. Similar genotype results were also obtained using ASPCR with mismatch primers and a mycelial growth inhibition assay. It was found that ASQPCR-MP clearly differentiated MBC(HR) and benzimidazole-sensitive MBC(S) phenotypes. Moreover, ASQPCR-MP took less than 6 h to complete.
ASQPCR-MP appears suitable for large epidemiological studies involving resistant genotypes and requiring high-throughout formats.
点突变常常使生物体对药物和农用杀虫剂产生抗性。等位基因特异性核苷酸聚合酶链反应(ASPCR)以及使用SYBR Green的等位基因特异性定量实时PCR(ASQPCR)被广泛且有效地应用于检测和监测这类抗性。然而,前者不适用于高通量检测,而后者常常会降低检测的准确性。
为了减少背景扩增,开发了一种带有错配引物的快速高通量基因分型方法(ASQPCR-MP),并专门用于调查核盘菌(Lib.)de Bary群体β-微管蛋白基因中高苯并咪唑抗性MBC(HR)突变(E198A)的频率。分析了来自223个菌核的基因组DNA。使用带有错配引物的ASPCR和菌丝生长抑制试验也获得了相似的基因型结果。发现ASQPCR-MP能够清晰地区分MBC(HR)和苯并咪唑敏感的MBC(S)表型。此外,ASQPCR-MP完成检测所需时间不到6小时。
ASQPCR-MP似乎适用于涉及抗性基因型且需要高通量形式的大型流行病学研究。
