Functions and origin of plasmids in Erwinia species that are pathogenic to or epiphytically associated with pome fruit trees

Llop, Pablo; Barbé, Silvia; López, Marı́a M.

doi:10.1007/s00468-011-0630-2

Cited by 28 publications

(26 citation statements)

References 87 publications

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“…y Pseudomonas sp. (Llop et al, 2012;Behlau et al, 2012). Otros casos de resistencia a productos como kasugamicina y validamicina Additional key words: Passiflora edulis Sims, antimicrobial, resistance.…”

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Sensibilidad de bacterias procedentes de pasifloras a antibióticos y productos cúpricos

Farfán

Benítez

Hoyos-Carvajal

2014

Rev. Colomb. Cienc. Hortic.

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Sensibilidad de bacterias procedentes de pasifloras a antibióticos y productos cúpricos

Farfán

Benítez

Hoyos-Carvajal

2014

Rev. Colomb. Cienc. Hortic.

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“…Plasmid extraction and restriction analysis confirmed that the plasmid had not integrated into the chromosome or undergone rearrangement under our experimental conditions, demonstrating its stability. Although most Erwinia species from pome fruits have plasmids of similar sizes in variable numbers of copies (27), specific E. piriflorinigrans sequences were selected for the new PCR protocols. The primers and probe designed did not amplify E. pyrifoliae or E. amylovora, or other closely related species that harbor similar-size plasmids, as templates.…”

Section: Discussionmentioning

confidence: 99%

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

Barbé

Bertolini

Roselló

et al. 2014

Appl Environ Microbiol

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bErwinia piriflorinigrans is a new pathogenic species of the bacterial genus Erwinia that has been described recently in Spain. Accurate detection and identification of E. piriflorinigrans are challenging because its symptoms on pear blossoms are similar to those caused by Erwinia amylovora, the causal agent of fire blight. Moreover, these two species share phenotypic and molecular characteristics. Two specific and sensitive conventional and real-time PCR protocols were developed to identify and detect E. piriflorinigrans and to differentiate it from E. amylovora and other species of this genus. These protocols were based on sequences from plasmid pEPIR37, which is present in all strains of E. piriflorinigrans analyzed. After the stability of the plasmid was demonstrated, the specificities of the protocols were confirmed by the amplification of all E. piriflorinigrans strains tested, whereas 304 closely related pathogenic and nonpathogenic Erwinia strains and microbiota from pear trees were not amplified. In sensitivity assays, 10 3 cells/ml extract were detected in spiked plant material by conventional or real-time PCR, and 10 2 cells/ml were detected in DNA extracted from spiked plant material by real-time PCR. The protocols developed here succeeded in detecting E. piriflorinigrans in 102 out of 564 symptomatic and asymptomatic naturally infected pear samples (flowers, cortex stem tissue, leaves, shoots, and fruitlets), in necrotic Pyracantha sp. blossoms, and in necrotic pear and apple tissues infected with both E. amylovora and E. piriflorinigrans. Therefore, these new tools can be used in epidemiological studies that will enhance our understanding of the life cycle of E. piriflorinigrans in different hosts and plant tissues and its interaction with E. amylovora. Erwinia piriflorinigrans is a Gram-negative plant-pathogenic bacterium causing pear blossom necrosis (1). The disease affects pear production and can reduce fruit yield. It was first observed in Valencia, Spain, in 1999 (2, 3). After the first identification, the disease was observed at the same place in later years (1). Due to its recent discovery, the biology, ecology, and life cycle of this new species are still poorly understood.Unlike Erwinia amylovora, the causal agent of fire blight, E. piriflorinigrans affects blossoms and not other parts of plants (3). Nevertheless, E. piriflorinigrans colonies can be easily mistaken for E. amylovora in culture media, e.g., CCT medium (4), King's medium B (5), and sucrose nutrient agar (SNA) or Levan medium, which are usually utilized and recommended for the isolation of E. amylovora (6, 7). These two pathogens show similar metabolic profiles by use of the commercial API 20E, API 20NE, API ZYM, and API 50CH strips (bioMérieux, France), as well as close fatty acid profiles. E. piriflorinigrans can react with several antisera, and even with one of the monoclonal antibodies, used to detect E. amylovora (3). Moreover, E. piriflorinigrans reacts positively in PCR using the 23S rRNA gene sequence-based primers de...

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“…According to Llop et al (2012), plasmids contain versatile bacterial genomes, and acquisition of extra-chromosome genetic elements is an important source of genetic diversification in phytopathogenic bacteria. Plasmids can be transferred between strains, species, and genera, and then passed down through the bacterial strain.…”

Section: Discussionmentioning

confidence: 99%

Genomic variability of Pantoea ananatis in maize white spot lesions assessed by AFLP markers

et al. 2016

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ABSTRACT. Measures to control maize white spot (MWS) caused by Pantoea ananatis are preferentially based on resistant cultivars. A lack of knowledge on the genetic variability of pathogens could interfere with the development and utilization of controlling strategies in this pathosystem. The main goals of this study were to investigate the genetic variability of 90 P. ananatis isolates from three different eco-geographical regions of Brazil by amplified fragment length polymorphism (AFLP), and to determine the presence of a universal P. ananatis plasmid in isolates from tropical Brazil. Analysis of genetic similarity by AFLP allowed us to categorize the 90 isolates into two groups. However, no correlation between the collecting sites and genetic groupings was observed. The polymorphism percentage found in P. ananatis ranged between 24.64 and 92.46%, and genetic diversity was calculated to be 0.07-0.09. The analysis of molecular variance showed that 99.18% of genetic variability was within the populations, providing evidence that evolutionary forces were acting on these populations. All P. ananatis isolates showed the P. ananatis universal plasmid (280 or 352 kb). This is the first report on the presence of a universal P. ananatis plasmid from MWS lesions in the tropical area.

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Functions and origin of plasmids in Erwinia species that are pathogenic to or epiphytically associated with pome fruit trees

Cited by 28 publications

References 87 publications

Sensibilidad de bacterias procedentes de pasifloras a antibióticos y productos cúpricos

Sensibilidad de bacterias procedentes de pasifloras a antibióticos y productos cúpricos

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

Genomic variability of Pantoea ananatis in maize white spot lesions assessed by AFLP markers

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