The membrane ATPase of Escherichia coli. II. Release into solution,allotopic properties and reconstitution of membrane-bound ATPase

Membrane-bound ATPase of Escherichia coli was released in a soluble form by decreasing the Mg²⁺ concentration to 0.05 mM. The particulate fraction left behind was depleted by more than 90% from its initial ATPase activity.Soluble ATPase exhibits a number of different properties as compared with membrane-bound ATPase. These are a 2-fold increased K_m toward ATP, a shift of 1–1.5 pH units in the pH-dependence curve, a greatly increased resistance to inhibition by N,N′-dicyclohexylcarbodiimide (DCCD) and a stimulation by Dio 9 instead of an inhibition.Upon mixing the soluble fraction and the depleted membrane fraction, the initial properties of native membrane-bound ATPase reappear. This reconstitution requires Mg²⁺ and results in the physical binding of the activity to sedimentable material.Soluble ATPase and depleted membrane can be titrated against each other until an equivalence point is reached, beyond which the component in excess keeps its previous characteristics.During the release procedure, DCCD remains associated with the particulate fraction with conservation of the ATPase-binding sites.Such DCCD-treated depleted membranes behave as a specific inhibitor of soluble ATPase.