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Aims: Vibrio harveyi is an important pathogen, causing potential devastation to marine aquaculture. This organism, however, is extremely difficult to identify because it is phenotypically diverse. Biochemical identification can involve many tests and take weeks to perform. The aim of this work is to develop a PCR that can reduce the number of biochemical tests, and the time taken, to get a definitive identification of this organism. Methods and Results: The PCR was developed using 16S rDNA sequences from a number of V. harveyi strains, and other vibrios. The described test gave positive results for all strains of V. harveyi tested. However, some strains of V. alginolyticus also gave positive results and a small number of biochemical tests were required to differentiate between these two species. This indicated that preisolation of the bacteria was needed and therefore the test was not applicable to the testing of mixed populations directly. Conclusion, Significance and Impact of the Study: The duration of identification of this species was significantly reduced from a number of weeks to a few days. Hence, diagnosis of affected animals will be faster and earlier treatment can be administered which may increase the survival rate from vibriosis.

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Vibrio cholerae autoinducer-1 enhances the virulence of enteropathogenic Escherichia coli

Gorelik

Levy

Shaulov

et al. 2019

Sci Rep

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Diarrhoea is the second leading cause of death in children under the age of five. The bacterial species, Vibrio cholerae and enteropathogenic Escherichia coli (EPEC), are among the main pathogens that cause diarrhoeal diseases, which are associated with high mortality rates. These two pathogens have a common infection site—the small intestine. While it is known that both pathogens utilize quorum sensing (QS) to determine their population size, it is not yet clear whether potential bacterial competitors can also use this information. In this study, we examined the ability of EPEC to determine V. cholerae population sizes and to modulate its own virulence mechanisms accordingly. We found that EPEC virulence is enhanced in response to elevated concentrations of cholera autoinducer-1 (CAI-1), even though neither a CAI-1 synthase nor CAI-1 receptors have been reported in E. coli. This CAI-1 sensing and virulence upregulation response may facilitate the ability of EPEC to coordinate successful colonization of a host co-infected with V. cholerae. To the best of our knowledge, this is the first observed example of ‘eavesdropping’ between two bacterial pathogens that is based on interspecies sensing of a QS molecule.

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Farnesol and Candida albicans: Quorum Sensing or Not Quorum Sensing?

Krom

Levy

Meijler

et al. 2015

Israel Journal of Chemistry

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Quorum sensing (QS) molecules function within communities of single‐cell organisms to allow concerted behavior in response to changing conditions, and certain criteria have been established to determine whether a particular molecule is quorum sensing or not. Farnesol has been identified as a secreted molecule responsible for the inoculum size effect in Candida albicans and synthetic farnesol has been used as a QS molecule in different studies. However, farnesol also exhibits growth inhibitory effects, and so a critical evaluation of farnesol is warranted. Here we review the literature to determine whether or not farnesol can indeed be considered a QS molecule in C. albicans.

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Niva Levy

Sulforaphane and erucin, natural isothiocyanates from broccoli, inhibit bacterial quorum sensing

The use of PCR to aid in the rapid identification of Vibrio harveyi isolates

Vibrio cholerae autoinducer-1 enhances the virulence of enteropathogenic Escherichia coli

Farnesol and Candida albicans: Quorum Sensing or Not Quorum Sensing?

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