Effects of salt and nickel ion on the conformational stability of Bacillus pasteurii UreE

UreE, a urease accessory protein, is proposed to be a metallochaperone assisting the nickel incorporation into the urease active site. We investigated the effects of salt and nickel on the conformational stability of the UreE from Bacillus pasteurii ( Bp UreE), by circular dichroism (CD) and nuclear magnetic resonance spectroscopy accompanying a thermodynamic inspection. Far‐UV CD spectra of Bp UreE showed that both salt and nickel stabilized the ordered structure of the protein. The thermal denaturing of Bp UreE showed a bimodal feature with an aggregation process before thermal unfolding. This thermally induced aggregation could be suppressed by the addition of salt up to 50 mM, and the further addition of salt increased the thermal resistance of the protein. The nickel addition also elevated the thermal resistance of Bp UreE, although it could not prevent the aggregating process. Additionally, the stoichiometry of a specific nickel binding to Bp UreE was revealed as one nickel per dimer. Altogether, the present results establish a rather detailed characterization of the thermostability and nickel‐binding property of Bp UreE.