Relaxation of replication control in chaperone-independent initiator mutants of plasmid P1.

Escherichia coli chaperones DnaJ, DnaK and GrpE increase P1 plasmid initiator binding to the origin by promoting initiator folding. The binding allows initiation and also promotes pairing of origins which is believed to control initiation frequency. Chaperone-independent DNA binding mutants are often defective in replication control. We show here that these mutants have increased rates of association for DNA binding and defects in origin pairing. The increases in association rates were found to be due either to increased protein folding into active forms or to increases in the association rate constant, kon. Since the dissociation rate constants for DNA release with these mutants are not changed, it is unlikely that the DNA binding domain is affected. The pairing domain may thus control replication and modulate DNA binding. The role of the pairing domain in DNA binding can be significant in vivo as the selection for chaperone-independent binding favors pairing-defective mutants.