SIGNAL TRANSDUCTION AND BACTERIAL CONJUGATION : CHARACTERIZATION OF THE ROLE OF ARCA IN REGULATING CONJUGATIVE TRANSFER OF THE RESISTANCE PLASMID R1

Abstract The role of the two-component response regulator ArcA protein in the transfer of the conjugative resistance plasmid R1 was investigated using a variety of in vivo and in vitro assays. The frequency of conjugal DNA transfer of plasmid R1-16, a derepressed variant of R1, was reduced by four orders of magnitude in an Escherichia coli host with a mutation in the arcA gene. Measurements of mRNAs transcribed from key plasmid transfer genes revealed that the abundance of each of the mRNA species investigated was reduced significantly in an arcA background. Gene fusion studies with the R1 P Y promoter, the major promoter of the transfer operon, and a lacZ reporter gene, indicated that arcA is required for maximal expression from this promoter. However, a stimulating effect of arcA could only be detected when the plasmid-specified positive regulator of the transfer genes, traJ , was present. Electrophoretic mobility shift assays were used to demonstrate specific binding of purified ArcA protein and a purified and phosphorylated oligohistidine-tagged ArcA (His6-ArcA) to a DNA fragment containing the P Y promoter region. The binding of phosphorylated His6-ArcA to the P Y promoter was further characterized by DNase I footprinting. The observed protection pattern was characteristic for ArcA acting as a transcriptional activator.