Synchronization of bacteriophage Mu DNA replicative transposition: analysis of the first round after induction.

Abstract

The lytic cycle of bacteriophage Mu includes a large number of coupled DNA replication and integration events, each of which is equivalent in several respects to the process of transposition of genetic elements. To aid us in studying the process of Mu DNA replicative transposition, we developed a technique for synchronizing the first round of replication following induction of a lysogen. Synchronization was achieved by inducing a lysogen in the absence of DNA replication for a time sufficient to develop the potential for Mu DNA replication in all cells in the population; upon release of the inhibition of replication, a synchronized round of Mu DNA replication was observed. Development of the potential for Mu DNA replication in the entire population took approximately 12 min. Protein synthesis was required for development of the potential, but the requirement for protein synthesis was satisfied by approximately 9 min suggesting that other, as yet unspecified, reactions occupied the last 3 min. Replication proceeded predominantly from the left end of the prophage, though a significant amount of initiation from the right end was observed. The usefulness of the technique for studying the mechanism of replicative transposition and the end products of a single round of replication are discussed.