A Molecular Assay Allows the Simultaneous Detection of 12 Fungi Causing Fruit Rot in Cranberry

Conti, Matteo; Cinget, Benjamin; Vivancos, Julien; Oudemans, Peter V.; Bélanger, Richard R.

doi:10.1094/pdis-03-19-0531-re

Cited by 12 publications

(5 citation statements)

References 40 publications

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“…In recent years, molecular techniques have revolutionized and greatly facilitated the diagnostic of plant pathogens (Kostov et al ., ; Michalecka et al ., ; Reich et al ., ; Silva et al ., ; Burbank and Ortega, ). Among other applications, they have allowed the precise identification of the causal agents of diseases caused by a complex of fungi (Conti et al ., ), the fulfillment of Koch's postulates with closely related species such as Fusarium spp. (Moine et al ., ), and the diagnosis of the presence and identity of a pathogen from levels that were hitherto undetectable (Rollins et al ., ; Haudenshield et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Discriminant haplotypes of avirulence genes of Phytophthora sojae lead to a molecular assay to predict phenotypes

Dussault‐Benoit

Arsenault‐Labrecque

Sonah

et al. 2020

Molecular Plant Pathology

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The soybean–Phytophthora sojae interaction operates on a gene‐for‐gene relationship, where the product of a resistance gene (Rps) in the host recognizes that of an avirulence gene (Avr) in the pathogen to generate an incompatible reaction. To exploit this form of resistance, one must match with precision the appropriate Rps gene with the corresponding Avr gene. Currently, this association is evaluated by phenotyping assays that are labour‐intensive and often imprecise. To circumvent this limitation, we sought to develop a molecular assay that would reveal the avirulence allele of the seven main Avr genes (Avr1a, Avr1b, Avr1c, Avr1d, Avr1k, Avr3a, and Avr6) in order to diagnose with precision the pathotypes of P. sojae isolates. For this purpose, we analysed the genomic regions of these Avr genes in 31 recently sequenced isolates with different virulence profiles and identified discriminant mutations between avirulence and virulence alleles. Specific primers were designed to generate amplicons of a distinct size, and polymerase chain reaction conditions were optimized in a final assay of two parallel runs. When tested on the 31 isolates of known virulence, the assay accurately revealed all avirulence alleles. The test was further assessed and compared to a phenotyping assay on 25 isolates of unknown virulence. The two assays matched in 97% (170/175) of the interactions studied. Interestingly, the sole cases of discrepancy were obtained with Avr3a, which suggests a possible imperfect interaction with Rps3a. This molecular assay offers a powerful and reliable tool to exploit and study with greater precision soybean resistance against P. sojae.

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Section: Discussionmentioning

confidence: 99%

Discriminant haplotypes of avirulence genes of Phytophthora sojae lead to a molecular assay to predict phenotypes

Dussault‐Benoit

Arsenault‐Labrecque

Sonah

et al. 2020

Molecular Plant Pathology

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“…vaccinii has been carried out by the isolation approach followed by morphological screening and sequencing or using an end-point PCR assay (Conti et al, 2019). In the present study, a new TaqMan probebased real-time PCR assay was developed for specific and sensitive detection of D. vaccinii targeting the TEF1 gene region.…”

Section: Discussionmentioning

confidence: 99%

“…A rapid increase in the movement of plant material worldwide has increased the need for rapid and efficient monitoring of imported plant material for unwanted plant pathogens. To date, the detection of D. vaccinii has been carried out by the isolation approach followed by morphological screening and sequencing or using an end‐point PCR assay (Conti et al, 2019). In the present study, a new TaqMan probe‐based real‐time PCR assay was developed for specific and sensitive detection of D. vaccinii targeting the TEF1 gene region.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, PCR‐based testing would be preferred for fast, reliable and efficient detection and identification of D. vaccinii . While a multiplex PCR assay, based on the internal transcribed spacer (ITS) and large subunit (LSU), is available for the detection of D. vaccinii (Conti et al, 2019), real‐time PCR (also referred to as qPCR) assays are more suited for faster sample processing in diagnostic laboratories (Amaral Carneiro et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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New real‐time PCR assay for detecting the blueberry and cranberry twig blight pathogen

Dharmaraj

Michalecka

Alexander

et al. 2022

Journal of Phytopathology

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Diaporthe vaccinii is a fungal pathogen of concern to Vaccinium species, responsible for twig blight disease. This fungus may survive in woody tissues without displaying symptoms, which makes the diagnostics more challenging. To provide a rapid and efficient diagnostic tool for D. vaccinii, a new and specific TaqMan real‐time PCR assay was developed using translation elongation factor 1 gene region. The assay was specific to D. vaccinii and did not cross‐react with any other tested Vaccinium pathogens. The sensitivity of the assay was found to be 1 pg of the pathogen DNA in water or in host DNA, which is equivalent to less than 20 hyphal cells. The assay was also used to test infected plant tissues, which determined that the assay can detect the pathogen from symptomatic as well as non‐symptomatic material. Furthermore, D. vaccinii was detected after mixing infected asymptomatic tissue with healthy stem tissues at a proportion of 1:10 by weight. To co‐amplify the D. vaccinii and the plant cytochrome oxidase gene as internal control in a single reaction, a duplex assay was successfully developed without any reduction in sensitivity. Inter‐laboratory testing of the assay showed consistent results, demonstrating that the developed assay is robust and transferrable to other laboratories.

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“…The designated primers successfully amplified a 400 bp fragment from F. buharicum genomic DNA, allowing for the discrimination of F. buharicum from other fungal species. Several species-specific primers, utilizing this gene, have been developed and employed for detecting various plant pathogenic fungi, including Fusarium [10,[31][32][33]. The primer developed in this study demonstrated high specificity for F. buharicum and sensitivity, capable of detecting the pathogen at concentrations as low as 1.0 ng of fungal genomic DNA in conventional PCR assays.…”

Section: Plos Onementioning

confidence: 99%

Development of a PCR-based assay for specific and sensitive detection of Fusarium buharicum from infected okra plant

Paul,

Gupta,

Ino

et al. 2024

PLoS ONE

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Fusarium wilt, caused by the fungus Fusarium buharicum, is an emerging disease of okra in Japan. The disease was first reported in Japan in 2015, causing significant damage to okra seedlings. Due to the potential threat in okra cultivation, the development of an accurate detection method for F. buharicum is needed for the surveillance and management of the disease. In this study, we designed a primer set and developed conventional and nested PCR assays for the specific detection of F. buharicum in infected okra plants and contaminated soil, respectively. We compared the diversity of the translation elongation factor 1 alpha (EF-1α) gene of F. buharicum with 103 other fungal species/isolates to design a species-specific primer. This primer pair successfully amplified approximately 400 bp of PCR product that was only detected in the F. buharicum isolate, not in the other fungal isolates. The developed nested PCR method was highly sensitive and could detect the fungus from a 0.01 fg DNA sample. The primer successfully detected the pathogen in artificially infected plants and soil by conventional and nested PCR, respectively. This is the first report of the development of the F. buharicum-specific primer set and detection assays, which can be used for the specific and sensitive detection of F. buharicum in field samples and for taking early control measures.

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A Molecular Assay Allows the Simultaneous Detection of 12 Fungi Causing Fruit Rot in Cranberry

Cited by 12 publications

References 40 publications

Discriminant haplotypes of avirulence genes of Phytophthora sojae lead to a molecular assay to predict phenotypes

Discriminant haplotypes of avirulence genes of Phytophthora sojae lead to a molecular assay to predict phenotypes

New real‐time PCR assay for detecting the blueberry and cranberry twig blight pathogen

Development of a PCR-based assay for specific and sensitive detection of Fusarium buharicum from infected okra plant

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