David Marek, Daniel Eberl, Khaled Otba, Ruth Walter, Andreas Kortekamp, Wilfried Schwab, Ludwig Niessen
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A genome-based approach was applied for detection and selection of unique target DNA sequences. The designed primer sets showed overall good specificities, with some observed cross-reactions towards closely related <i>Phaeoacremonium</i> species for the PMI primer set. The developed assays had detection limits of 100 pg (FMED, PMI) and 1 pg (PCH) per reaction (corresponding to 1460 [FMED]; 1950 [PMI]; 342 [PCH] genome copies per reaction). The application of the assays to field samples was demonstrated by testing individual infected grapevine trunks from two European viticultural regions using crude DNA obtained in a rapid sample preparation step. LAMP assay results matched those of PCR following a conventional DNA extraction protocol. The study showed that LAMP-based rapid molecular detection of major Esca agents can serve as a useful tool for further research and surveillance of a highly devastating grapevine disease. The application of computer-based whole genome comparison between target and non-target species for the identification of unique target sequences as the basis for LAMP (or PCR) primer design was demonstrated to be a useful approach in species for which scarce sequence information is available. 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引用次数: 0
摘要
埃斯卡是一种由丝状真菌引起的葡萄树干病害(GTD)。它在全球范围内给葡萄栽培造成了巨大的经济损失。尽管有许多未知因素会导致受影响植物出现症状,但一般认为,Phaeoacremonium minimum (PMI)、Phaeomoniella chlamydospora (PCH) 和 Fomitiporia mediterranea (FMED) 是主要的致病真菌。因此,这些病原体的早期检测和特异性鉴定在疾病控制和评估适当对策方面发挥着重要作用。本研究针对这三种病原体分别开发了环介导等温扩增(LAMP)检测方法。该方法以基因组为基础,用于检测和选择独特的目标 DNA 序列。所设计的引物组总体上显示出良好的特异性,但在 PMI 引物组中观察到了一些与近缘的 Phaeoacremonium 物种的交叉反应。所开发的检测方法每个反应的检测限分别为 100 pg(FMED、PMI)和 1 pg(PCH)(相当于每个反应 1460 个 [FMED];1950 个 [PMI];342 个 [PCH] 基因组拷贝)。通过使用在快速样品制备步骤中获得的粗 DNA 对来自两个欧洲葡萄栽培地区的受感染葡萄树树干进行检测,证明了这些检测方法在田间样品中的应用。LAMP 检测结果与采用传统 DNA 提取方案的 PCR 检测结果一致。研究表明,基于 LAMP 的埃斯卡主要病原体快速分子检测可作为一种有用的工具,用于进一步研究和监测这种破坏性极大的葡萄病害。在目标物种和非目标物种之间进行基于计算机的全基因组比较,以确定独特的目标序列,并以此作为 LAMP(或 PCR)引物设计的基础,这在序列信息匮乏的物种中被证明是一种有用的方法。此外,所开发的从葡萄树干中快速制备 DNA 的方法也可用于基于 DNA 的其他葡萄树干病害真菌检测。
Detection of Esca-associated fungi in grapevine trunks using loop-mediated isothermal amplification (LAMP) assays
Esca is a grapevine trunk disease (GTD) that is caused by filamentous fungi. It is responsible for considerable economic losses in viniculture on a global scale. Despite many unknown factors contributing to the development of symptoms in affected plants, Phaeoacremonium minimum (PMI), Phaeomoniella chlamydospora (PCH) and Fomitiporia mediterranea (FMED) are generally considered as the main causative fungal species. Early detection and specific identification of these pathogens therefore play an important role in disease control and evaluation of suitable countermeasures. In this study, loop-mediated isothermal amplification (LAMP) assays were developed for each of the three pathogens. A genome-based approach was applied for detection and selection of unique target DNA sequences. The designed primer sets showed overall good specificities, with some observed cross-reactions towards closely related Phaeoacremonium species for the PMI primer set. The developed assays had detection limits of 100 pg (FMED, PMI) and 1 pg (PCH) per reaction (corresponding to 1460 [FMED]; 1950 [PMI]; 342 [PCH] genome copies per reaction). The application of the assays to field samples was demonstrated by testing individual infected grapevine trunks from two European viticultural regions using crude DNA obtained in a rapid sample preparation step. LAMP assay results matched those of PCR following a conventional DNA extraction protocol. The study showed that LAMP-based rapid molecular detection of major Esca agents can serve as a useful tool for further research and surveillance of a highly devastating grapevine disease. The application of computer-based whole genome comparison between target and non-target species for the identification of unique target sequences as the basis for LAMP (or PCR) primer design was demonstrated to be a useful approach in species for which scarce sequence information is available. Moreover, the developed method for rapid DNA preparation from grapevine trunks may potentially be adapted to the DNA-based detection also of other fungal species that cause grapevine trunk diseases.
期刊介绍:
Annals of Applied Biology is an international journal sponsored by the Association of Applied Biologists. The journal publishes original research papers on all aspects of applied research on crop production, crop protection and the cropping ecosystem. The journal is published both online and in six printed issues per year.
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