David H Gent, Nanci L Adair, Ross J Hatlen, Timothy D Miles, Briana J Richardson, Hannah M Rivedal, Cameron Ross, Michele S Wiseman
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The assay amplified all isolates of <i>P. macularis</i> tested and had minimal cross-reactivity with other <i>Podosphaera</i> species when assayed with biologically relevant quantities of DNA. Standard curves generated independently in two other laboratories indicated that assay sensitivity was qualitatively similar and reproducible. All laboratories successfully detected eight unknown isolates of <i>P. macularis</i> and correctly discriminated <i>Pseudoperonospora humuli</i> and a water control. The usefulness of the assay for air sampling for late-season inoculum of <i>P. macularis</i> was demonstrated in field studies in 2019 and 2020. 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引用次数: 0
摘要
与培养无关的检测方法有助于检测和量化空气或其他环境样本中的病原体繁殖体。我们针对啤酒花白粉病真菌 Podosphaera macularis 开发了一种定量 PCR 检测方法,用于检测空气样本中的病原体。该检测方法利用引物和 TaqMan 探针,以核核糖体 rDNA 28S 大亚基(LSU)中的物种特异性序列为目标。分析灵敏度不会受到外源内部对照或与土壤中提取的 DNA 相关的潜在 PCR 抑制剂的影响。从固定数量的分生孢子中提取 DNA 时,检测的定量水平在 200 到 350 个分生孢子之间。当使用生物相关数量的 DNA 进行检测时,该检测方法可扩增所有受测的黄斑疫霉分离株,与其他 Podosphaera 种类的交叉反应极小。另外两个实验室独立生成的标准曲线表明,该检测方法的灵敏度具有相似性和可重复性。所有实验室都成功地检测出了 8 个未知的黄斑癣菌分离物,并正确区分了沼泽假包囊和水对照。2019 年和 2020 年的实地研究证明了该检测方法在空气采样中检测黄斑病菌晚季接种体的实用性。在这两年中,酒花堆场中空气传播的黄斑病菌种群被持续检测到,并且在开花和果实发育期间有所增加。
Detection of Podosphaera macularis in Air Samples by Quantitative PCR.
Detection and quantification of pathogen propagules in the air or other environmental samples is facilitated by culture-independent assays. We developed a quantitative PCR assay for the hop powdery mildew fungus, Podosphaera macularis, for detection of the organism from air samples. The assay uses primers and a TaqMan probe designed to target species-specific sequences in the 28S large subunit of the nuclear ribosomal DNA. Analytical sensitivity was not affected by the presence of an exogenous internal control or potential PCR inhibitors associated with DNA extracted from soil. The level of quantification of the assay was between 200 and 350 conidia when DNA was extracted from a fixed number of conidia. The assay amplified all isolates of P. macularis tested and had minimal cross-reactivity with other Podosphaera species when assayed with biologically relevant quantities of DNA. Standard curves generated independently in two other laboratories indicated that assay sensitivity was qualitatively similar and reproducible. All laboratories successfully detected eight unknown isolates of P. macularis and correctly discriminated Pseudoperonospora humuli and a water control. The usefulness of the assay for air sampling for late-season inoculum of P. macularis was demonstrated in field studies in 2019 and 2020. In both years, airborne populations of P. macularis in hop yards were detected consistently and increased during bloom and cone development.
期刊介绍:
Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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