Real-Time PCR and LAMP Assays for the Detection of Spores of <i>Alternaria solani</i> and Sporangia of <i>Phytophthora infestans</i> to Inform Disease Risk Forecasting

Lees, A. K.; Roberts, David M.; Lynott, J.; Sullivan, L.; Brierley, J. L.

doi:10.1094/pdis-04-19-0765-re

Cited by 26 publications

(13 citation statements)

References 45 publications

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“…5). The sensitivity of LAMP and qPCR were identified to be higher than conventional d i a g n o s t i c m e t h o d s f o r A l t e r n a r i a s o l a n i a n d Phytophthora infestans detection from potato, tomato, and other related host plants (Okiro et al 2019;Khan et al 2018;Lees et al 2019). The real-time PCR has previously also been identified as the most sensitive method, followed by LAMP assay, to detect the Xylella fastidiosa pathogen from blueberry (Waliullah et al 2019).…”

Section: Discussionmentioning

confidence: 99%

Comparative evaluation of lateral flow immunoassays, LAMP, and quantitative PCR for diagnosis of fire blight in apple orchards

et al. 2020

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Fire blight remains a serious threat to commercial apple production in the USA and worldwide. Other diseases and spray damage can result in fire blight-like symptoms that can lead to misdiagnosis and affect disease management strategies. Accurate and timely detection of the fire blight pathogen, Erwinia amylovora, is extremely important to deploy appropriate and timely measures to reduce fire blight epidemics in commercial apple orchards. We tested two commercial lateral flow immunoassays (AgriStrip®, and Pocket Diagnostics kit), Loop mediated isothermal amplification (LAMP), and quantitative PCR (qPCR) to diagnose E. amylovora infected samples in lab and field settings. The AgriStrip® and Pocket Diagnostics kits were able to detect actively growing bacteria up to ×10 6 cfu/ml bacterial concentration. Pocket Diagnostics kit had less specificity and showed positive tests for E. pyrifolia in addition to E. amylovora. The LAMP assay showed high specificity for E. amylovora and was able to detect up to ×10 3 cfu/ml bacterial concentrations. The qPCR assay was also able to detect bacterial cells up to ×10 −3 cfu/ ml bacterial concentration with highly specific E. amylovora detection. Grower surveys and comparative cost-benefit analysis indicated that immunoassay kits are less expensive, easier to use, and require less technical expertise for on-site fire blight diagnosis than LAMP and qPCR. However, the choice of a specific diagnostic assay depends on the time, sensitivity, and specificity required for the detection of fire blight and its management.

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Section: Discussionmentioning

confidence: 99%

Comparative evaluation of lateral flow immunoassays, LAMP, and quantitative PCR for diagnosis of fire blight in apple orchards

et al. 2020

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“…LAMP methods have been developed to enable early on-site detection of plant pathogens from crude extract samples, including the detection of latent infections of Plasmopara viticola in grape leaves [65], grapevine phytoplasmas in crude leaf-vein homogenate [66], Peronospora effusa in symptomless spinach leaves [67], Spiroplasma citri in citrus leaves [68], and Phytophthora infestans in potato leaves [54], as well as the detection of plant viruses and viroids [69]. When coupled with spore trap systems, LAMP assays have been used for the detection and quantification of airborne pathogen inoculum, including the conidia of Alternaria solani and sporangia of P. infestans [70], and the conidia of Magnaporthe oryzae [56]. LAMP assays have been also developed for the quantification of airborne Erysiphe necator inoculum and have been evaluated for potential implementation by vine growers for the initiation of fungicide programmes [55,71].…”

Section: Discussionmentioning

confidence: 99%

Use of LAMP for Assessing Botrytis cinerea Colonization of Bunch Trash and Latent Infection of Berries in Grapevines

Ammour

Castaldo²,

Fedele

et al. 2020

Plants

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A real-time loop-mediated isothermal amplification (LAMP) assay was evaluated for the detection of Botrytis cinerea in grapevine bunch trash, immature berries, and ripening berries. A simple method for the preparation of crude extracts of grape tissue was also developed for on-site LAMP analysis. When tested with 14 other fungal species frequently found in grapevines, the LAMP assay was specific and sensitive to a B. cinerea DNA quantity of 0.1 ng/µL. The sensitivity was further tested using bunch trash samples with B. cinerea colonization levels between 6 and 100% and with bulk-berry samples composed of 4 pathogen-free berries or 4 berries among which 25 to 100% had been inoculated with B. cinerea. The LAMP assay detected the lowest B. cinerea colonization level tested in bunch trash and in immature and mature berries in less than 20 min. In single-berry experiments, LAMP amplified B. cinerea DNA from all artificially inoculated individual immature and mature berries. No amplification occurred in B. cinerea-free material. The real-time LAMP assay has the potential to be used as a rapid on-site diagnostic tool for assessing B. cinerea colonization in bunch trash and B. cinerea latent infections in berries, which represent critical stages for decision-making about disease management.

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“…Efficient disease management can be achieved through the use of sensitive and sophisticate detection methods. Thus, in-field loop-mediated isothermal amplification (LAMP), hyperspectral measurements, and ensemble machine learning methods have been recently developed, which are suitable for early and mass detection [75,76]. In addition, species-specific polymerase chain reaction (PCR) and multilocus sequencing are highly recommended techniques to differentiate A. solani from other Alternaria species infecting tomato [66,77].…”

Section: Tomato Mosaic Diseasementioning

confidence: 99%

A Review of the Most Common and Economically Important Diseases That Undermine the Cultivation of Tomato Crop in the Mediterranean Basin

et al. 2021

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Tomato (Solanum lycopersicum L.), family Solanaceae, has become in the past fifty years one of the most important and extensively grown horticultural crops in the Mediterranean region and throughout the world. In 2019, more than 180 million tonnes of tomato have been produced worldwide, out of which around 42 million tonnes in Mediterranean countries. Due to its genetic properties, tomato is afflicted by numerous plant diseases induced by fungal, bacterial, phytoplasma, virus, and viroid pathogens. Not only is its genetic inheritance of great importance to the management of the numerous tomato pathogens, but equally as important are also the present climate changes, the recently revised phytopathological control measures, and the globalization of the seed industry. Thus, the recognition of symptoms and the knowledge of the distribution and spread of the disease and of the methods for early detection of the pathogens are the major prerequisites for a successful management of the disease. In this review, we will describe the main tomato pathogens in the Mediterranean area that impact mostly the tomato yield and provide the current and perspective measures necessary for their successful management.

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Real-Time PCR and LAMP Assays for the Detection of Spores of Alternaria solani and Sporangia of Phytophthora infestans to Inform Disease Risk Forecasting

Cited by 26 publications

References 45 publications

Comparative evaluation of lateral flow immunoassays, LAMP, and quantitative PCR for diagnosis of fire blight in apple orchards

Comparative evaluation of lateral flow immunoassays, LAMP, and quantitative PCR for diagnosis of fire blight in apple orchards

Use of LAMP for Assessing Botrytis cinerea Colonization of Bunch Trash and Latent Infection of Berries in Grapevines

A Review of the Most Common and Economically Important Diseases That Undermine the Cultivation of Tomato Crop in the Mediterranean Basin

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