DNA repair pathways important for the survival of Escherichia coli to hydrogen peroxide mediated killing.

Abstract

Escherichia coli exposed to 1-3mM hydrogen peroxide undergo killing which is designated as the mode-one killing which is a result of oxidative DNA damage. Oxidative stress mediated DNA damage can be repaired by various DNA repair pathways like base excision repair, nucleotide excision repair and homologous recombination repair. In this study we have investigated the role of multiple DNA repair pathways in survival to oxidative killing and assessed their relative importance. Results show that both nucleotide excision repair pathway as well as the RecF pathway of recombination repair are important for repair of the DNA damage caused by exposure to hydrogen peroxide. The study also provides the evidence that RecG helicase which is known for the resolution of Holliday junction intermediates plays a critical role in the survival of mode-one killing by peroxide. There is a severe impact on the survival of repair mutants when parameters like aeration and growth medium are changed. Low aeration and growth in minimal medium provide significant protection from the mode-one killing suggesting that under natural conditions Escherichia coli cells are likely to be protected from the oxidative stress mediated DNA damage.