Probing the Binding States of GDP to Cdc42 Using Urea Interaction

Abstract

The inactive state of the small G Protein Cdc42, the Cdc42 · GDP · Mg2+ ternary complex, was investigated using fluorescence, Mn2+ substituted electron paramagnetic resonance, and 31P nuclear magnetic resonance spectroscopy at various urea concentrations. The urea interaction with the protein was used to probe the binding state of GDP · Mg2+ to Cdc42. Two binding states of the Cdc42 · GDP · Mg2+ ternary complex with different binding stability were observed. The two binding states were characterized by two sets of 31P resonance of GDP phosphate groups, namely Pα and Pβ, Pα′, and Pβ′. The high populated binding state I (Pα and Pβ) was more stable and less sensitive to the urea interaction. Yet the population of binding state II (Pα′ and Pβ′) was lower, and the binding of GDP · Mg2+ to Cdc42 in this state was more sensitive to the urea interaction. The release of GDP · Mg2+ from the ternary complex in binding state II was faster than in state I.