Utilizing functional genomics in Saccharomyces cerevisiae to characterize food preservative compounds: A pilot study.

Abstract

Chemical preservatives are ubiquitously used to suppress the growth of or kill microorganisms across numerous industries, including the food industry. Utilizing yeast functional genomic techniques, genes and their functions can be observed at a genomic scale to elucidate how environmental stressors (e.g., chemical preservatives) impact microbial survival. These types of chemical genomics approaches can reveal genetic mutations that result in preservative resistance or sensitivity, assist in identification of preservative mechanism of action, and can be used to compare different preservatives for rational design of preservative mixtures. In this proof-of-concept study, we performed deletion and high-copy genetic expression screens to identify mutants that confer drug resistance to sodium benzoate, potassium sorbate, rosemary extract, and Natamax. By observing overlapping mutant genes between genetic screens, we were able to identify functional overlap between chemical preservatives and begin to explain mechanisms of action for these compounds.