Conventional and Real-Time PCRs for Detection of Erwinia piriflorinigrans Allow Its Distinction from the Fire Blight Pathogen, Erwinia amylovora

Barbé, Silvia; Bertolini, Edson; Roselló, Montserrat; Llop, Pablo; López, Marı́a M.

doi:10.1128/aem.03626-13

Cited by 9 publications

(10 citation statements)

References 45 publications

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“…piriflorinigrans by Barbé et al . [3], using 10 6 cfu ml -1 bacterial suspensions. Additionally, sensitivity and specificity assays of the developed primers and probe were performed in bacterial mixtures consisting of E .…”

Section: Methodsmentioning

confidence: 99%

“…Recent records of E . piriflorinigrans in new hosts in Spain [3] or in new areas in Switzerland (Smits, T., personal communication), as well as the discovery of E . pyrifoliae in strawberry plants in The Netherlands [4] suggest that the likelihood of spread of E .…”

Section: Introductionmentioning

confidence: 99%

“…amylovora and E . piriflorinigrans [3], should be taken into account when examining disease outbreaks.…”

Section: Introductionmentioning

confidence: 99%

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Development of a real-time PCR method for the specific detection of the novel pear pathogen Erwinia uzenensis

et al. 2019

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Erwinia uzenensis is a plant-pathogenic bacterium, recently described in Japan, which infects pear trees, causing the ‘bacterial black shoot disease of European pear’ (BBSDP). Like other Erwinia pear pathogens, E . uzenensis causes damp, black lesions on young shoots resembling those of E . amylovora , but not blossom blight, fruitlet blight or wilting of the shoot tip. The distribution of E . uzenensis seems restricted to the country where it was reported up to now, but it may spread to other countries and affect new hosts, as is the current situation with E . piriflorinigrans and E . pyrifoliae . Fast and accurate detection systems for this new pathogen are needed to study its biology and to identify it on pear or other hosts. We report here the development of a specific and sensitive detection protocol based on a real-time PCR with a TaqMan probe for E . uzenensis , and its evaluation. In sensitivity assays, the detection threshold of this protocol was 10 1 cfu ml -1 on pure bacterial cultures and 10 2 –10 3 cfu ml -1 on spiked plant material. The specificity of the protocol was evaluated against E . uzenensis and 46 strains of pear-associated Erwinia species different to E . uzenensis . No cross-reaction with the non-target bacterial species or the loss of sensitivity were observed. This specific and sensitive diagnostic tool may reveal a wider distribution and host range of E . uzenensis initially considered restricted to a region and will expand our knowledge of the life cycle and environmental preferences of this pathogen.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Development of a real-time PCR method for the specific detection of the novel pear pathogen Erwinia uzenensis

et al. 2019

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“…Bacterial detection using serology with a specific polyclonal antibody has been described as well (Teixeira et al 2008); however, due to its low sensitivity, an enrichment step in plant extracts was necessary to detect bacterial cells in small numbers. PCR, either conventional or real time, has been broadly employed for successful detection and diversity studies of plant pathogenic bacteria, including Pantoea stewartii (Wensing et al 2010), Erwinia amylovora (Powney et al 2011;Dreo et al 2012;Gehring and Geider 2012;Wensing et al 2012;Hannou et al 2013) and E. piriflorinigrans (Barbé et al 2014). Several genomic regions, including PCR fragments obtained from rep-PCR profiles (Rico et al 2008), plasmidial sequences (Bereswill et al 1992;Barbé et al 2014) and draft whole genome sequences (Pritchard et al 2013), have been used for the development of specific identification tools for plant pathogenic enterobacteria.…”

Section: Introductionmentioning

confidence: 99%

“…PCR, either conventional or real time, has been broadly employed for successful detection and diversity studies of plant pathogenic bacteria, including Pantoea stewartii (Wensing et al 2010), Erwinia amylovora (Powney et al 2011;Dreo et al 2012;Gehring and Geider 2012;Wensing et al 2012;Hannou et al 2013) and E. piriflorinigrans (Barbé et al 2014). Several genomic regions, including PCR fragments obtained from rep-PCR profiles (Rico et al 2008), plasmidial sequences (Bereswill et al 1992;Barbé et al 2014) and draft whole genome sequences (Pritchard et al 2013), have been used for the development of specific identification tools for plant pathogenic enterobacteria. The recombinase A (recA) gene is a valuable marker for the major bacterial groups (Eisen, 1995) and for differentiating species in Erwinia and related genera (Waleron et al 2002;Young and Park 2007;Parkinson et al 2009;Wensing et al 2010).…”

Section: Introductionmentioning

confidence: 99%

PCR-based methods for detection of Erwinia psidii on guava

Silva

Torres

Oliveira

et al. 2015

Trop. plant pathol.

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Erwinia psidii causes bacterial blight of guava (Psidium guajava), one of the most important diseases of this crop in Brazil. Control measures are not effective, and dissemination often occurs through contaminated but asymptomatic propagating plant material. Considering the need for a reliable and sensitive method for detecting the pathogen in asymptomatic plant material, E. psidii-specific PCR primers were designed from a 355-bp fragment of the recombinase A gene (recA) amplified from E. psidii type strain. Primer pair Ep2L/2R only amplified DNA from E. psidii and its detection limit was 10 −5 ng/μL of purified DNA and 10 CFU (colony forming units) of bacterial cell suspension/mL. Three methods, conventional PCR, IC-PCR, and BIO-PCR were evaluated with the selected primers for their potential to detect E. psidii on guava leaves. BIO-PCR and conventional PCR were more sensitive and less time-consuming than IC-PCR. The detection limits on extracts of macerated guava leaves spiked with bacterial suspensions at different concentrations were 10 and 10 3 CFU/mL for BIO-PCR and conventional PCR, respectively. The PCR method here described could be useful for developing a protocol for early detection of this pathogen in asymptomatic guava plants.

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Powerful qPCR assays for the early detection of latent invaders: interdisciplinary approaches in clinical cancer research and plant pathology

Luchi

Capretti

Pazzagli

et al. 2016

Appl Microbiol Biotechnol

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Latent invaders represent the first step of disease before symptoms occur in the host. Based on recent findings, tumors are considered to be ecosystems in which cancer cells act as invasive species that interact with the native host cell species. Analogously, in plants latent fungal pathogens coevolve within symptomless host tissues. For these reasons, similar detection approaches can be used for an early diagnosis of the invasion process in both plants and humans to prevent or reduce the spread of the disease. Molecular tools based on the evaluation of nucleic acids have been developed for the specific, rapid, and early detection of human diseases. During the last decades, these techniques to assess and quantify the proliferation of latent invaders in host cells have been transferred from the medical field to different areas of scientific research, such as plant pathology. An improvement in molecular biology protocols (especially referring to qPCR assays) specifically designed and optimized for detection in host plants is therefore advisable. This work is a cross-disciplinary review discussing the use of a methodological approach that is employed within both medical and plant sciences. It provides an overview of the principal qPCR tools for the detection of latent invaders, focusing on comparisons between clinical cancer research and plant pathology, and recent advances in the early detection of latent invaders to improve prevention and control strategies.

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Conventional and Real-Time PCRs for Detection of Erwinia piriflorinigrans Allow Its Distinction from the Fire Blight Pathogen, Erwinia amylovora

Cited by 9 publications

References 45 publications

Development of a real-time PCR method for the specific detection of the novel pear pathogen Erwinia uzenensis

Development of a real-time PCR method for the specific detection of the novel pear pathogen Erwinia uzenensis

PCR-based methods for detection of Erwinia psidii on guava

Powerful qPCR assays for the early detection of latent invaders: interdisciplinary approaches in clinical cancer research and plant pathology

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