Isolation and characterization of Escherichia coli chromosomal mutants affecting plasmid copy number

Abstract

We have isolated chromosomal mutants of an Escherchia coli K-12 strain that maintain higher levels of an F' plasmid. The mutants are designated as plasmid copy number (pcn) mutants. They were detected by selecting for increased lactose fermentation in bacteria deleted for the lac operon but harboring an F'lacI,P pro+ plasmid. When examined for the amount of F' plasmid deoxyribonucleic acid (DNA) by the dye-CsCl isopycnic technique, the mutants show two to seven times as much covalently closed, circular (CCC) DNA as does the parental strain. The increased plasmid level in one mutant strain (pcn-24) was confirmed by DNA-DNA hybridization; however, this latter technique indicated about a twofold lower increase when compared with the increase measured for pcn-24 by the dye-CsCl technique. In mutant pcn-24 the increased amount of F' DNA reflects a proportional increase in monomeric-size plasmid molecules because oligomeric forms are not found. Also, in mutant pcn-24 the extra CCC plasmid copies do not seem to be randomly distributed throughout the cell's cytoplasm but appear complexed in situ with their host's folded chromosome. In all pcn mutants examined to date, the classical sex factor F is maintained at normal levels, whereas the viral plasmid Pl CM is maintained at two to three times the normal level. In all 17 pcn mutants isolated, the pcn mutation maps on the chromosome and not on the plasmid. Finally, the absolute amount of CCC F' DNA detectable in lysates of the six different pcn mutants examined decreased 50 to 90% upon incubation of the lysate at 37 C. In contrast, no loss of CCC DNA occurs when lysates of the parental F' strain are incubated at 37 C.