Rapid detection of tomato spotted wilt virus by real-time RT-LAMP and in-field application
A.G. Caruso,
A. Ragona,
G. Agrò
et al.
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 su… Show more
“…[ 45 ] and Caruso et al . [ 46 ] for prunus necrotic ringspot virus and TSWV, respectively. Among the 40 field-collected tomato leaf samples, only 11 tested positive by RT-PCR.…”
Tomato mosaic virus (ToMV), an economically important virus that affects a wide range of crops, is highly contagious, and its transmission is mediated by mechanical means, and through contaminated seeds or planting materials, making its management challenging. To contain its wide distribution, early and accurate detection of infection is required. A survey was conducted between January and May, 2023 in major tomato growing counties in Kenya, namely, Baringo, Kajiado, Kirinyaga and Laikipia, to establish ToMV disease incidence and to collect samples for optimization of the reverse transcription loop-mediated isothermal amplification assay (RT-LAMP) assay. A RT-LAMP assay, utilizing primers targeting the coat protein, was developed and evaluated for its performance. The method was able to detect ToMV in tomato samples within 4:45 minutes, had a 1,000-fold higher sensitivity than conventional reverse transcription polymerase chain reaction (RT-PCR) method and was specific to ToMV. Furthermore, the practical applicability of the assay was assessed using tomato samples and other solanaecous plants. The assay was able to detect the virus in 14 tomato leaf samples collected from the field, compared to 11 samples detected by RT-PCR, further supporting the greater sensitivity of the assay. To make the assay more amenable for on-site ToMV detection, a quick-extraction method based on alkaline polyethylene glycol buffer was evaluated, which permitted the direct detection of the target virus from crude leaf extracts. Due to its high sensitivity, specificity and rapidity, the RT-LAMP method could be valuable for field surveys and quarantine inspections towards a robust management of ToMV infections.
“…[ 45 ] and Caruso et al . [ 46 ] for prunus necrotic ringspot virus and TSWV, respectively. Among the 40 field-collected tomato leaf samples, only 11 tested positive by RT-PCR.…”
Tomato mosaic virus (ToMV), an economically important virus that affects a wide range of crops, is highly contagious, and its transmission is mediated by mechanical means, and through contaminated seeds or planting materials, making its management challenging. To contain its wide distribution, early and accurate detection of infection is required. A survey was conducted between January and May, 2023 in major tomato growing counties in Kenya, namely, Baringo, Kajiado, Kirinyaga and Laikipia, to establish ToMV disease incidence and to collect samples for optimization of the reverse transcription loop-mediated isothermal amplification assay (RT-LAMP) assay. A RT-LAMP assay, utilizing primers targeting the coat protein, was developed and evaluated for its performance. The method was able to detect ToMV in tomato samples within 4:45 minutes, had a 1,000-fold higher sensitivity than conventional reverse transcription polymerase chain reaction (RT-PCR) method and was specific to ToMV. Furthermore, the practical applicability of the assay was assessed using tomato samples and other solanaecous plants. The assay was able to detect the virus in 14 tomato leaf samples collected from the field, compared to 11 samples detected by RT-PCR, further supporting the greater sensitivity of the assay. To make the assay more amenable for on-site ToMV detection, a quick-extraction method based on alkaline polyethylene glycol buffer was evaluated, which permitted the direct detection of the target virus from crude leaf extracts. Due to its high sensitivity, specificity and rapidity, the RT-LAMP method could be valuable for field surveys and quarantine inspections towards a robust management of ToMV infections.
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