R plasmid gene dosage effects in Escherichia coli K-12: Copy mutants of the R plasmid R1 drd-19

Abstract

Copy mutants of the R plasmid R1 drd-19 were used to study gene dosage effects in Escherichia coli K-12. The specific activity of β-lactamase, chloramphenicol acetyltransferase, and streptomycin adenylylase, as well as ampicillin resistance, increased linearly with the gene dosage up to a level at least tenfold higher than that of the wild-type plasmid. This makes it possible to use ampicillin resistance to determine plasmid copy number and also to select for plasmid copy mutants with defined copy number. Chloramphenicol resistance, despite the increase in enzyme activity, reached a plateau level at a gene dosage less than twice that of the wild-type plasmid, presumably due to the high energy demand on the cells during inactivation of the antibiotic by acetylation with acetyl-coenzyme A. Similarly, resistance to streptomycin plateaued at a gene dosage about three times that of the wild-type plasmid, presumably because of a decreased efficiency of the cells' outer penetration barriers when carrying the R plasmid. The susceptibility of the cells to rifampicin was increased by the presence of plasmid copy mutants.