Effect of phi X C protein on leading strand DNA synthesis in the phi X174 replication pathway

The influence of the bacteriophage phi X174 (phi X) C protein on the replication of bacteriophage phi X174 DNA has been examined. This small viral protein, which is required for the packaging of phi X DNA into proheads, inhibits leading strand DNA synthesis. The inhibitory effect of the phi X C protein requires a DNA template bearing an intact 30-base pair (bp) phi X origin of DNA replication that is the target site recognized by the phi X A protein. Removal of nucleotides from the 3' end of this 30-bp conserved origin sequence prevents the inhibitory effects of the phi X C protein. Leading strand replication of supercoiled DNA substrates containing the wild-type phi X replication origin results in the production of single-stranded circular DNA as well as the formation of small amounts of multimeric and sigma structures. These aberrant products are formed when the termination and reinitiation steps of the replication pathway reactions are skipped as the replication fork moves through the origin sequence. Replication carried out in the presence of the phi X C protein leads to a marked decrease in these aberrant structures. While the exact mechanism of action of the phi X C protein is not clear, the results presented here suggest that the phi X C protein slows the movement of the replication fork through the 30-bp origin sequence, thereby increasing the fidelity of the termination and reinitiation reactions. In keeping with the requirement for the phi X C protein for efficient packaging of progeny phi X DNA into proheads, the phi X C protein-mediated inhibition of leading strand synthesis is reversed by the addition of proteins essential for phi X bacteriophage formation. Incubation of plasmid DNA substrates bearing mutant 30 base pair phi X origin sequences in the complete packaging system results in the in vitro packaging and production of infectious particles in a manner consistent with the replication activity of the origin under study.