Pre-steady state kinetic studies on H(+)-ATPase from Candida albicans.

Abstract

The mechanism of ATP hydrolysis by plasma membrane H(+)-ATPase from Candida albicans has been investigated by following the kinetics of H(+) liberation/absorption and the UV difference spectrum in a stopped flow spectrophotometer. A distinct pre-steady state phase of ATP hydrolysis could be defined. While the rapid mixing of P(i) and ATPase produced no transient pH changes, the mixing of ADP leads to the release of 1 H(+) per molecule of ATPase. Rapid mixing of ATP with ATPase releases about 2 H(+) per molecule of ATPase, of which around 1.3 H(+) are reabsorbed. The magnitudes of both H(+) release and absorption were found to be independent of ATP concentration. The rate of H(+) release (k(f)) shows ATP dependence while the rate of H(+) absorption is independent of ATP concentration. The rate of H(+) liberation with ADP, on a concentration basis, was far less as compared with ATP, indicating a low affinity of the ATPase for ADP. No change in the difference spectrum was observed with ADP. The stoichiometry of ATP binding to PM-ATPase was found to be unity from UV-difference spectrum studies. The k(f) values for H(+) release and for the appearance of a difference spectrum following the addition of ATP were found to be similar beyond a 1:1 ratio of ATP:ATPase. The results obtained lead us to propose a 4-step kinetic scheme for the mechanism of ATP hydrolysis.