The prophage form of bacteriophage P1 is a unit-copy plasmid which is maintained with great fidelity in its Escherichia coli host. The plasmid maintenance functions of P1 are clustered in one region of the genome. An 11.5-kilobase fragment from this region has been cloned into a lambda delta att vector and promotes stable unit-copy plasmid maintenance. The properties of the lambda vector facilitated the isolation of deletion mutants affecting the P1 DNA. Twenty-eight deletion mutants were isolated, and their lesions were mapped by physical techniques. The genetic properties of the mutants with respect to plasmid replication, stability of plasmid maintenance, and ability to exert incompatibility effects against P1 and P7 plasmids were determined. These properties, along with those of several subfragments of the P1 insert cloned into high-copy-number plasmid vectors, allow the construction of an unambiguous genetic and physical map of the maintenance functions. A region of less than 3 kilobases, the rep region, is essential for plasmid replication and contains the incA incompatibility determinant within an 800-base-pair segment. Immediately adjacent to rep is a second region of approximately 3 kilobases which is required for stable plasmid maintenance, but not replication. This region, par, contains a second incompatibility element incB which is approximately 1 kilobase in size. The par region appears to specify equipartition of plasmid copies to daughter cells during cell division.
Signals for transcription initiation and termination in the Saccharomyces cerevisiae plasmid 2 micron circle.