Deletion analysis of the mini-P1 plasmid origin of replication and the role of Escherichia coli DnaA protein.

Abstract The mini-P1 plasmid origin of replication is contained on a 246 base pair (bp) piece of DNA. At one end there are five 19-bp binding sites for the P1 initiator protein, RepA, and near the other end there are two 9-bp DnaA protein-binding sites. To further define the limits of the origin, we cloned the origin region in M13 and constructed deletions of either end. We sequenced the DNA and tested the replicative form I DNA of the deletion phages for their ability to support RepA-dependent DNA replication in an in vitro system. The origin that is functional in vitro could be reduced to 202 bp. It includes three intact and one incomplete RepA-binding sites at one end and the two DnaA-binding sites at the other end. When the two naturally occurring DnaA-binding sites were replaced with one or two synthetic sites, only the construction containing two sites was active in vitro. We found that the minimal origin that is functional in vivo contains all of the five RepA and the two DnaA-binding sites. Mini-P1 plasmid replication both in vivo and in vitro requires two initiator proteins, the Escherichia coli DnaA protein and the P1 RepA protein. We have found that the ADP form of DnaA is as active as the ATP form of the protein in the in vitro replication of mini-P1. In contrast, only the ATP form is active for in vitro replication of plasmids carrying the E. coli origin (Bramhill, D., and Kornberg, A. (1988) Cell 52, 743-755).