Rapid detection of tomato spotted wilt virus by real-time RT-LAMP and in-field application

IF 2.2 4区 农林科学 Q2 PLANT SCIENCES
A.G. Caruso, A. Ragona, G. Agrò, S. Bertacca, E. Yahyaoui, L. Galipienso, L. Rubio, S. Panno, S. Davino
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Abstract

Tomato spotted wilt virus (TSWV) is considered one of the most threatening viruses worldwide for different economically important agricultural crops. In this scenario, it is important to perform an early detection by laboratory tests to prevent TSWV spread. A rapid and sensitive TSWV detection protocol based on real time reverse transcription loop-mediated isothermal amplification (RT-LAMP) assay was developed in this work, also using cost-effective and simplified sample preparation procedure, to assess the suitability of the RT-LAMP assay in field conditions on tomato and pepper samples. A set of six primers was designed within the nucleotide sequence region coding for the nucleocapsid protein (N) of segment S, targeting a 220-nucleotide sequence. Sensitivity, specificity, accuracy, and in-field application of the real-time RT-LAMP assay were evaluated. The developed real-time RT-LAMP assay proved to be one thousand and one hundred times more sensitive than end-point RT-PCR and real-time RT-PCR methods, respectively, detecting a total of 9.191 × 101 genome copies as minimum target, and no cross-reactivity were detected with other viruses belonging to Tospoviridae and Bromoviridae families used as outgroup. In addition, the in-field application of the assay using the rapid sample preparation gave adequate and reliable results within 60 minutes, with an acceptable reaction delay when compared to canonical RNA extraction. The in-field analyses showed an increase of TSWV-positive samples (37%) detection compared with end-point RT-PCR and real-time RT-PCR (32% and 29%, respectively), particularly on asymptomatic samples, confirming that the real-time RT-LAMP assay can be implemented as a routine test both in-field and laboratory conditions as a rapid and sensitive technique for TSWV detection.

Abstract Image

通过实时 RT-LAMP 和田间应用快速检测番茄斑萎病毒
番茄斑点枯萎病病毒(TSWV)被认为是全球对各种重要经济农作物威胁最大的病毒之一。在这种情况下,通过实验室检测进行早期检测以防止 TSWV 的传播非常重要。本研究开发了一种基于实时反转录环介导等温扩增(RT-LAMP)检测方法的快速灵敏的 TSWV 检测方案,同时还采用了经济有效且简化的样品制备程序,以评估 RT-LAMP 检测方法在番茄和辣椒样品田间条件下的适用性。在 S 段核壳蛋白(N)编码的核苷酸序列区域内设计了一组六条引物,目标序列为 220 个核苷酸。对实时 RT-LAMP 检测的灵敏度、特异性、准确性和现场应用进行了评估。结果表明,所开发的实时 RT-LAMP 检测法的灵敏度分别是端点 RT-PCR 法和实时 RT-PCR 法的一千倍和一百倍,最低检测目标为 9.191 × 101 个基因组拷贝,并且与作为外群的其他托斯波病毒科和溴病毒科病毒没有交叉反应。此外,与传统的 RNA 提取法相比,现场应用快速样品制备法可在 60 分钟内获得充分、可靠的结果,反应延迟也在可接受范围内。现场分析结果显示,与终点 RT-PCR 和实时 RT-PCR(分别为 32% 和 29%)相比,TSWV 阳性样本的检测率(37%)有所提高,尤其是在无症状样本中,这证实了实时 RT-LAMP 检测法作为一种快速、灵敏的 TSWV 检测技术,可在现场和实验室条件下作为常规检测方法使用。
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来源期刊
Journal of Plant Pathology
Journal of Plant Pathology 生物-植物科学
CiteScore
3.10
自引率
4.50%
发文量
218
审稿时长
6-12 weeks
期刊介绍: The Journal of Plant Pathology (JPP or JPPY) is the main publication of the Italian Society of Plant Pathology (SiPAV), and publishes original contributions in the form of full-length papers, short communications, disease notes, and review articles on mycology, bacteriology, virology, phytoplasmatology, physiological plant pathology, plant-pathogeninteractions, post-harvest diseases, non-infectious diseases, and plant protection. In vivo results are required for plant protection submissions. Varietal trials for disease resistance and gene mapping are not published in the journal unless such findings are already employed in the context of strategic approaches for disease management. However, studies identifying actual genes involved in virulence are pertinent to thescope of the Journal and may be submitted. The journal highlights particularly timely or novel contributions in its Editors’ choice section, to appear at the beginning of each volume. Surveys for diseases or pathogens should be submitted as "Short communications".
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