Duplex real-time PCR assay for the simultaneous detection of Ophiostoma novo-ulmi and Geosmithia spp. in elm wood and insect vectors

IF 3.8 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Neobiota Pub Date : 2023-05-18 DOI:10.3897/neobiota.84.90843
A. Pepori, N. Luchi, F. Pecori, A. Santini
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引用次数: 1

Abstract

Dutch elm disease (DED) is a destructive tracheomycosis caused by Ophiostoma novo-ulmi, an ascomycete probably originating in East-Asia that is devastating natural elm populations throughout Europe, North America and Asia. The fungus is mainly spread by elm bark beetles that complete their life cycle between healthy and diseased elms. Recently, it has been highlighted that some fungi of the genus Geosmithia, which are similarly well associated with bark beetles, seem to also play a role in the DED pathosystem acting as mycoparasites of O. novo-ulmi. Although some relationship between the fungi is clear, the biological cycle of Geosmithia spp. within the DED cycle is still partly unclear, as is the role of Geosmithia spp. in association with the bark beetles. In this work, we tried to clarify these aspects by developing a qPCR duplex TaqMan assay to detect and quantify DNA of both fungi. The assay is extremely sensitive showing a limit of detection as low as 2 fg μl–1 for both fungi. We collected woody samples from healthy and infected elm trees throughout the beetle life cycle. All healthy elm samples were negative for both Geosmithia spp. and O. novo-ulmi DNA. Geosmithia spp. are never present in infected, but living trees, while they are present in frass of elm bark beetles (EBB – Scolytus spp.) and at each stage of the EBB life cycle in much higher quantities than O. novo-ulmi. This work provides a better understanding of the role and interactions occurring amongst the main players of the DED pathosystem.
Duplex实时荧光定量PCR法同时检测榆树木材和昆虫媒介中新梢蛇孔虫和地褐虫
荷兰榆树病(DED)是一种破坏性的气管真菌病,由一种可能起源于东亚的子囊菌引起,它破坏了整个欧洲、北美和亚洲的天然榆树种群。这种真菌主要由榆树树皮甲虫传播,它们在健康的榆树和患病的榆树之间完成它们的生命周期。最近,一些与树皮甲虫有相似关系的Geosmithia属真菌似乎也作为O. novoo -ulmi的分枝寄生虫在DED的病理系统中发挥作用。虽然真菌之间的一些关系是清楚的,但在DED循环中Geosmithia spp.的生物循环仍然部分不清楚,因为Geosmithia spp.与树皮甲虫的关联作用也是如此。在这项工作中,我们试图通过开发qPCR双工TaqMan测定来检测和量化这两种真菌的DNA来澄清这些方面。该方法灵敏度极高,对两种真菌的检测限低至2 fg μl-1。我们从健康和受感染的榆树上采集了甲虫生命周期内的木材样本。所有健康的榆树样本均未检测到地史密斯虫和新发榆树的DNA。土藓属在受感染的活树中不存在,而在榆树树皮甲虫(EBB - Scolytus spp.)的草中存在,并且在EBB生命周期的每个阶段都比O. novoo -ulmi的数量高得多。这项工作为更好地理解DED病理系统中主要参与者之间的作用和相互作用提供了依据。
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来源期刊
Neobiota
Neobiota Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
8.10
自引率
7.80%
发文量
0
审稿时长
6 weeks
期刊介绍: NeoBiota is a peer-reviewed, open-access, rapid online journal launched to accelerate research on alien species and biological invasions: aquatic and terrestrial, animals, plants, fungi and micro-organisms. The journal NeoBiota is a continuation of the former NEOBIOTA publication series; for volumes 1-8 see http://www.oekosys.tu-berlin.de/menue/neobiota All articles are published immediately upon editorial approval. All published papers can be freely copied, downloaded, printed and distributed at no charge for the reader. Authors are thus encouraged to post the pdf files of published papers on their homepages or elsewhere to expedite distribution. There is no charge for color.
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