DNA sequence requirements for interaction of the RK2 replication initiation protein with plasmid origin repeats

Abstract

Replication of plasmid RK2 in a variety of Gram-negative bacteria requires its origin of replication and the plasmid-encoded TrfA proteins (TrfA-33 and TrfA-44). The initiation of replication requires that the TrfA proteins bind to a series of 17-base pair (bp) direct repeats located within the RK2 origin. The conserved 17-bp repeats are arranged in tandem and are separated by less conserved spacer sequences of 4-6 bp in length. A series of plasmids containing one or two iterons, with or without the less conserved spacer sequences, were constructed to analyze the DNA sequence requirements for binding of TrfA-33 to the iterons. In addition to the analysis of TrfA binding in vitro, the plasmid constructs were examined for their ability to exert incompatibility toward an RK2 replicon in Escherichia coli. These analyses revealed that the conserved 17-bp iteron sequence itself is not sufficient for TrfA binding; the adjacent less conserved spacer sequences are also required. Site-specific mutagenesis was carried out to determine the importance of specific bases within the spacer sequence for binding activity and a consensus sequence for a TrfA-specific binding unit was determined. DNase I and methylation interference footprinting procedures were also carried out to characterize the TrfA-binding unit complex. Finally, it was shown that the binding of the TrfA-33 protein to two adjacent TrfA binding units on a DNA fragment is not substantially affected by the relative orientation or spacing between the two units.