Tuning the expression of the bacterial relBE toxin–antitoxin system inSaccharomyces cerevisiaeallows characterizing the subsequent growth inhibition

Abstract

AbstractThe bacterial toxin–antitoxin systems are each composed of a toxin, which severely inhibits bacterial cells growth, and a specific neutralizing antitoxin. Some toxin–antitoxin systems are functional when expressed in the yeast Saccharomyces cerevisiae. For instance, the expression of the relE toxin gene leads to a strong growth defect in yeast, whereas the expression of the relB antitoxin gene restores growth. Nevertheless, there is no available data regarding the required expression levels of each component of the relBE system leading to these growth phenotypes, neither their effects on cell viability. Here we used a double inducible plasmid-based system to independently modulate the relative amounts of relB and relE, and performed growth and gene expression analyses. These results allow us to correlate growth phenotypes to the expression levels of the toxin and the antitoxin, and to determine the levels necessary to observe either a strong growth inhibition or a normal growth. We also showed that the relE expression produces cell cycle progression defect without affecting cell viability. These results provide a detailed characterization of the functioning of the relBE system in S. cerevisiae, and open applicative perspectives of yeast growth control by bacterial toxin–antitoxin systems.