Clo DF13 plasmid genes affecting Flac transfer and propagation of male specific RNA phages

Abstract

The presence of Clo DF13 copy mutants in Escherichia coli (Flac) cells results, in contrast to the presence of Clo DF13 wt plasmids, in a decreased transfer of Flac and a decrease in the efficiency of plating (EOP) of male specific RNA phages. The degree of reduction of these processes is correlated to the number of Clo DF13 copies per cell as was found by the use of copy mutants and a thermosensitive copy control mutant of Clo DF13. For instance, the presence of the Clo DF13 cop3 plasmid results in a hundredfold decrease in EOP of RNA phages and a tenfold decrease in transfer of the F plasmid. No interaction with the efficiency of plating of male specific RNA phages was measured when the wild type Clo DF13, ColE1, ColE2, ColE3 or ColK plasmid is present in the cell. Studies with both, insertion and deletion mutants of CLo DF13 cop3 showed that these effects are not due to a high number of plasmid DNA molecules itself but due to a high amount of plasmid gene products in the cell. Furthermore these studies enabled us to locate the genes involved in these interactions on the Clo DF13 physical map. It turned out that two Clo DF13 genes are involved in the observed phenomena: one gene, coding for polypeptide B (molecular weight 61,000 daltons) which is also involved in the mobilisation of Clo DF13, and one gene coding for polypeptide D (molecular weight 21,000 daltons). The possible role of these Clo DF13 gene products, involved in the decrease in transfer of Flac as well as the decrease in efficiency of plating of male specific RNA phages, is discussed.