RecA Protein Promoted Homologous Pairing in Vitro: Pairing between linear duplex dna bound to hu protein (nucleosome cores) and nucleoprotein filaments of rECa protein-single-stranded DNA

Abstract

RecA protein promotes two distinct types of synaptic structures between circular single strands and duplex DNA; paranemic joints, where true intertwining of paired strands is prohibited and the classically intertwined plectonemic form of heteroduplex DNA. Paranemic joints are less stable than plectonemic joints and are believed to be the precursors for the formation of plectonemic joints. We present evidence that under strand exchange conditions the binding of HU protein, from Escherichia coli, to duplex DNA differentially affects homologous pairing in vitro. This conclusion is based on the observation that the formation of paranemic joint molecules was not affected, whereas the formation of plectonemic joint molecules was inhibited from the start of the reaction. Furthermore, introduction of HU protein into an ongoing reaction stalls further increase in the rate of the reaction. By contrast, binding of HU protein to circular single strands has neither stimulatory nor inhibitory effect. Since the formation of paranemic joint molecules is believed to generate positive supercoiling in the duplex DNA, we have examined the ability of positive superhelical DNA to serve as a template in the formation of paranemic joint molecules. The inert positively supercoiled DNA could be converted into an active substrate, in situ, by the action of wheat germ topoisomerase I. Taken collectively, these results indicate that the structural features of the bacterial chromosome which include DNA supercoiling and organization of DNA into nucleosome-like structures by HU protein modulate homologous pairing promoted by the nucleoprotein filaments of recA protein single-stranded DNA.