Characterization of cell lysis in Pseudomonas putida induced upon expression of heterologous killing genes

Abstract

Active biological containment systems are based on the controlled expression of killing genes. These systems are of interest for the Pseudomonadaceae because of the potential applications of these microbes as bioremediation agents and biopesticides. The physiological effects that lead to cell death upon the induction of expression of two different heterologous killing genes in nonpathogenic Pseudomonas putida KT2440 derivatives have been analyzed. P. putida CMC4 and CMC12 carry in their chromosomes a fusion of the P(A1-04/03) promoter to the Escherichia coli gef gene and the φX174 lysis gene E, respectively. Expression of the killing genes is controlled by the LacI protein, whose expression is initiated from the XylS-dependent Pm promoter. Under induced conditions, killing of P. putida CMC12 cells mediated by φX174 lysis protein E was faster than that observed for P. putida CMC4, for which the Gef protein was the killing agent. In both cases, cell death occurred as a result of impaired respiration, altered membrane permeability, and the release of some cytoplasmic contents to the extracellular medium.