Abstract
The RuvABC resolvasome of Escherichia coli typifies nucleoprotein complexes involved in genetic transactions. This molecular assembly catalyses the resolution of Holliday junctions that arise during genetic recombination and DNA repair. This process involves two key steps: branch migration, catalysed by the RuvB protein that is targeted to the Holliday junction by the structure specific RuvA protein, and resolution, which is catalysed by the RuvC endonuclease. We have used matrix-assisted laser desorption/ionisation time of flight mass spectrometry (MALDI-TOF MS) to rapidly identify the binding of RuvA to an immobilised synthetic Holliday junction; unambiguous identification was verified using tryptic digest of the bound protein. In conjunction with a novel fluorescent-based technique incorporating ion pair reverse phase liquid chromatography, a “footprint” of the RuvA:Holliday complex was obtained. These two complementary techniques offer a generic approach to the analysis of nucleoprotein complexes.
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