Novel techniques have been developed to purify replication initiator proteins of the plasmids R6K and pSC101. The techniques consist of tagging the initiator cistrons at the C-terminus with beta-galactosidase-encoding DNA of Escherichia coli in the correct translational phase. The hybrid proteins are then rapidly purified by adsorption to and elution from a beta-galactosidase- specific affinity column. Two procedures have been devised to isolate the nonfused initiator proteins using the fused protein as a handle. The first procedure, called subunit association chromatography, exploits the association of a monomer of nontagged protein with that of beta-galactosidase-tagged protein in isolating both types of proteins by beta-galactosidase specific affinity column chromatography. The second procedure involves the fusion of the initiator protein to beta-galactosidase via a specific linker DNA. The linker DNA encodes a protein which is readily and specifically hydrolyzed by a sequence specific protease, thus releasing the initiator protein from beta-galactosidase. Using purified or partially purified initiator protein, we have demonstrated that the R6K encoded initiator protein (Pi protein) binds to a consensus 22 bp sequence at 2 regions of the plasmid chromosome. The pSC101-encoded initiator protein binds to sequences at or near the plasmid replication origin. At low concentrations the protein binds to a nucleation site and upon raising the concentrations of the protein binding is promoted at 4 adjacent sequences that have partial homologies with the nucleation sequence. Deletion of the binding site leads to a nonfunctional replication origin.