Microbiological parameters of food provide quality information regarding the processing, storage, and distribution conditions, shelf life, as well as whether the food poses a health risk to the population. In this context, the concern with food safety is a competitive advantage, as the pressure of consumers, who are increasingly interested and concerned about what they are consuming, directs the trade to reach the quality of products and services offered. With regard to microbiological analyses, researchers have been developing sensitive techniques to produce rapid results, since traditional methods of microbiological culture are time-consuming and very laborious. Thus, the real-time quantitative PCR technique (qPCR) offers the possibility of quantifying the total bacterial DNA in a food sample without the need of the microbial growth step. That is, the result can be expressed on the same day, and it is possible to perform a simultaneous quantification of more than one pathogen in a single assay. Therefore, it can be a useful tool for monitoring microbiological quality in food industries. In this chapter, we will present the advantages and disadvantages of this methodology for food microbiology emphasizing the challenge of differentiating viable cells from nonviable cells.
Part of the book: Synthetic Biology
Wildlife can be a reservoir of infectious agents for humans and domestic and wild animals. In this regard, widespread Salmonella spp. in wildlife is a problem for public and environmental health. Currently, more than 2500 serovars of Salmonella spp. are widely distributed among humans, animals, and the environment. This ubiquity favors the bidirectional transmission of the pathogen between wild and domestic animals. Moreover, when farmed animals acquire Salmonella spp. from wildlife, the likelihood of humans becoming infected increases. The risk is higher in forest environments impacted by human activities or when animals are removed from their natural habitat. Consequently, human contact with wild animals in captivity increases the risk of salmonellosis outbreaks. These animals are often carriers of Salmonella spp. strains multiresistant to antibiotics, which makes it difficult to treat and control the disease. Therefore, prevention and control measures of this pathogen must include both the pathogen-host relationship and the environment, with a surveillance system for emerging and re-emerging diseases from wildlife.
Part of the book: Enterobacteria