Growth-dependent DNA breakage and cell death in a gyrase mutant of Salmonella
- PMID: 11779784
- PMCID: PMC1461903
- DOI: 10.1093/genetics/159.4.1405
Growth-dependent DNA breakage and cell death in a gyrase mutant of Salmonella
Abstract
A class of gyrase mutants of Salmonella enterica mimics the properties of bacteria exposed to quinolones. These mutants suffer spontaneous DNA breakage during normal growth and depend on recombinational repair for viability. Unlike quinolone-treated bacteria, however, they do not show accumulation of cleavable gyrase-DNA complexes. In recA or recB mutant backgrounds, the temperature-sensitive (ts) allele gyrA208 causes rapid cell death at 43 degrees. Here, we isolated "suppressor-of-death" mutations, that is, secondary changes that allow a gyrA208 recB double mutant to survive a prolonged exposure to 43 degrees and subsequently to form colonies at 28 degrees. In most isolates, the secondary change was itself a ts mutation. Three ts alleles were mapped in genes coding for amino acyl tRNA synthetases (alaS, glnS, and lysS). Allele alaS216 completely abolished DNA breakage in a gyrA208 recA double mutant. Likewise, treating this mutant with chloramphenicol prevented death and DNA damage at 43 degrees. Additional suppressors of gyrA208 lethality include rpoB mutations and, surprisingly, icd mutations inactivating isocitrate dehydrogenase. We postulate that the primary effect of the gyrase alteration is to hamper replication fork movement. Inhibiting DNA replication under conditions of continuing macromolecular synthesis ("unbalanced growth") activates a mechanism that causes DNA breakage and cell death, reminiscent of "thymineless" lethality.
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