Abstract
Escherichia coli cells whose chromosome replication has been terminated in vivo, either by growth into stationary phase or by incubation of a mutant carrying a temperature-sensitive initiation mutation under restrictive conditions, are inactive in in vitro DNA synthesis as measured in toluene-treated cells. Addition of the non-ionic detergent Triton X-100 to such inactive systems results in a marked stimulation of ATP-dependent in vitro DNA synthesis. This Triton-stimulated DNA synthesis appears to proceed by a semi-conservative mechanism, in that DNA synthesized in vitro in the presence of a density labeled precursor bands in CsCl equilibrium centrifugation at a hybrid density. Neutral sucrose gradient centrifugation demonstrates that most of this hybrid material exhibits a molecular weight in excess of 1 × 10 7. Triton-stimulated synthesis requires the presence of DNA polymerase III, as does normal in vivo replication. We show here, however, several anomalous properties of the DNA synthesis in the Triton/toluene system. In particular, Triton-stimulated synthesis is absent in cells harboring a recB mutation which lack the ATP-dependent exonuclease V, an enzyme implicated in recombinational repair synthesis in vivo. Furthermore, the ATP requirement for Triton-stimulated synthesis is relatively non-specific, and a variety of nucleoside triphosphates can effectively substitute for ATP. Finally, despite their high molecular weight in neutral sucrose gradient centrifugation, Triton-stimulated DNA synthesis generates DNA molecules of low molecular weight (less than 500 000) as determined by alkaline sucrose gradient centrifugation. In contrast, DNA synthesis in the normal toluene-treated cell system is not dependent on recB activity, shows a nearly absolute requirement for ATP which cannot be replaced by other nucleoside triphosphates, and produces molecules of far greater molecular weight as measured on alkaline sucrose gradients. Taken altogether the data strongly suggest that Triton activates an unusual form of DNA synthesis in toluene-treated cells which shows both repair and replicative aspects. These results caution against the use of Triton-activated toluene-treated cells system,f or studying simple replicative DNA synthesis.
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More From: Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein Synthesis
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