Programmed cell death in bacteria: proteic plasmid stabilization systems - PubMed (original) (raw)
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Programmed cell death in bacteria: proteic plasmid stabilization systems
R B Jensen et al. Mol Microbiol. 1995 Jul.
Abstract
Bacterial plasmids are stabilized by a number of different mechanisms. Here we describe the molecular aspects of a group of plasmid-encoded gene systems called the proteic killer gene systems. These systems mediate plasmid maintenance by selectively killing plasmid-free cells (post-segregational killing or plasmid addiction). The group includes ccd of F, parD/pem of R1/R100, parDE of RP4/RK2, and phd/doc of P1. All of these systems encode a stable toxin and an unstable antidote. The antidotes prevent the lethal action of their cognate toxins by forming tight complexes with them. The antidotes are degraded by cellular proteases. Thus, the different decay rates of the toxins and antidotes seem to be the molecular basis of toxin activation in plasmid-free cells. The operons encoding the toxins and antidotes are autoregulated at the level of transcription either by a complex formed by the toxins and the cognate antidotes or by the antidote alone. The cellular targets of the killer proteins have been determined to be DNA gyrase in the case of ccd of F and DnaB in the case of parD of R1. Surprisingly, the Escherichia coli chromosome encodes at least two of these peculiar gene systems.
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