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  • Targeting Holliday junctions by the RecG branch migration protein of Escherichia coli.

Targeting Holliday junctions by the RecG branch migration protein of Escherichia coli.

The Journal of biological chemistry (1998-07-25)
M C Whitby, R G Lloyd
ABSTRACT

The RecG protein of Escherichia coli is a junction-specific DNA helicase that drives branch migration of Holliday intermediates in genetic recombination and DNA repair. The reaction was investigated using synthetic X-junctions. RecG dissociates X-junctions to flayed duplex products, although DNA unwinding of the heterologous arms is limited to </=30 base pairs. Junction unwinding requires Mg2+ and the hydrolysis of ATP. X-junction DNA stimulates the ATPase activity of RecG. ATPase activity is also stimulated by linear duplex DNA, although to a lesser extent than by X-DNA, but not by linear single-stranded DNA. In situ 1,10-phenanthroline-copper footprinting shows that RecG binds to the strand cross-over point at the center of the X-junction. Substrate recognition by RecG was investigated using DNAs that represented the various component parts of an X-junction. The minimal DNA structure that RecG forms a stable complex with is a flayed duplex, suggesting that this is the critical feature for junction recognition by RecG. Junction binding and unwinding also depend critically on the concentration of free Mg2+, excess free cation dramatically inhibiting both processes. These inhibitory effects are not mediated specifically by Mg2+; e.g. both Ca2+ and hexamminecobalt(III) chloride also inhibit X-junction binding and unwinding by RecG. The relative abilities of these cations to inhibit RecG-junction binding is correlated with their respective abilities to stack X-junction DNA. From this we conclude that RecG is unable to bind or binds very poorly to fully stacked X-junctions.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Hexammine cobalt(III) chloride, for use in transformations, X-ray crystallography and NMR
Sigma-Aldrich
Hexaamminecobalt(III) chloride, 99%