Long amplicon Nanopore sequencing of Botrytis cinerea and other fungal species present in infected grapevine leaf samples

IF 2.5 Q3 BIOCHEMICAL RESEARCH METHODS Biology Methods and Protocols Pub Date : 2024-01-05 DOI:10.1093/biomethods/bpad042
Vladimer Baramidze, Luca Sella, Tamar Japaridze, Nino Abashidze, Daviti Lamazoshvili, Nino Dzotsenidze, Giorgi Tomashvili
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Abstract

Botrytis cinerea is a well-known plant pathogen responsible for grey mould disease infecting more than 500 plant species. It is listed as the second most important plant pathogen scientifically and economically. Its impact is particularly severe in grapes since it affects both the yield of grape berries and the quality of wines. While various methods for detecting B. cinerea have been investigated, the application of Oxford Nanopore Technology (ONT) for complete ribosomal operon sequencing, which has proven effective in human and animal fungal research and diagnostics, has not yet been explored in grapevine (Vitis vinifera) disease research. In this study, we sequenced complete ribosomal operons (∼5.5 kb amplicons), which encompass the 18S, ITS1, 5.8S, ITS2, and 28S regions, from both pure cultures of B. cinerea and infected grapevine leaf samples. Minimap2, a sequence alignment tool integrated into the EPI2ME software, served as a taxonomy classifier, utilising the custom reference database FRODO. The results demonstrate that B. cinerea was detectable when this pathogen was not the dominant fungal species in leaf samples. Additionally, the method facilitates host DNA-free sequencing and might have a good potential to distinguish other pathogenic and non-pathogenic fungal species hosted within grapevine’s infected leaves, such as Alternaria alternata, Saccharomyces cerevisiae, Saccharomyces boulardii, Mucor racemosus, Ascochyta rabie, etc The sequences were uploaded to the NCBI database. Long Amplicon sequencing method has the capacity to be broadened to other susceptible crops and pathogens, as a valuable tool for early grey rot detection and mycobiome research. Future large-scale studies are needed to overcome challenges, such as comprehensive reference databases for complete fungal ribosomal operons for grape mycobiome studies.
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对受感染葡萄叶片样本中的葡萄孢菌和其他真菌物种进行长扩增片段纳米孔测序
灰霉病是一种著名的植物病原体,感染 500 多种植物。在科学和经济方面,它被列为第二重要的植物病原体。它对葡萄的影响尤为严重,因为它会影响葡萄果实的产量和葡萄酒的质量。虽然已经研究了多种检测葡萄孢病的方法,但牛津纳米孔技术(ONT)在人类和动物真菌研究和诊断中被证明是有效的,但在葡萄(葡萄属)疾病研究中尚未得到应用。在本研究中,我们对纯培养物和受感染葡萄叶片样本中的完整核糖体操作子(∼5.5 kb 扩增子)进行了测序,其中包括 18S、ITS1、5.8S、ITS2 和 28S 区域。EPI2ME 软件中集成的序列比对工具 Minimap2 利用定制的参考数据库 FRODO 作为分类器。结果表明,当病原体不是叶片样本中的主要真菌种类时,也能检测到 B. cinerea。此外,该方法有利于无宿主 DNA 测序,并有可能区分葡萄树感染叶片中寄生的其他病原真菌和非病原真菌,如交替丝核菌、酿酒酵母菌、布拉氏酵母菌、粘孢子菌、雷公藤酵母菌等。长扩增子测序方法可扩展到其他易感作物和病原体,是早期灰腐病检测和真菌生物群研究的重要工具。未来的大规模研究需要克服各种挑战,例如为葡萄真菌生物群研究建立完整的真菌核糖体操作数综合参考数据库。
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来源期刊
Biology Methods and Protocols
Biology Methods and Protocols Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.80
自引率
2.80%
发文量
28
审稿时长
19 weeks
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