ABSTRACT: 1. The intrinsic Na(+), K(+), Mg(2+) and Ca(2+) contents of a preparation of membrane fragments from ox brain were determined by emission flame photometry. 2. Centrifugal washing of the preparation with imidazole-buffered EDTA solutions decreased the bound Na(+) from 90+/-20 to 24+/-12, the bound K(+) from 27+/-3 to 7+/-2, the bound Mg(2+) from 20+/-2 to 3+/-1 and the bound calcium from 8+/-1 to <1nmol/mg of protein. 3. The activities of the Na(+)+K(+)+Mg(2+)-stimulated adenosine triphosphatase and the Na(+)-dependent reaction forming bound phosphate were compared in the unwashed and washed preparations at an ATP concentration of 2.5mum (ATP/protein ratio 12.5pmol/mug). 4. The Na(+)-dependent hydrolysis of ATP as well as the plateau concentration of bound phosphate and the rate of dephosphorylation were decreased in the washed preparation. The time-course of formation and decline of bound phosphate was fully restored by the addition of 2.5mum-magnesium chloride and 2mum-potassium chloride. Addition of 2.5mum-magnesium chloride alone fully restored the plateau concentration of bound phosphate, but the rate of dephosphorylation was only slightly increased. Na(+)-dependent ATP hydrolysis was partly restored with 2.5mum-magnesium chloride; addition of K(+) in the range 2-10mum-potassium chloride then further restored hydrolysis but not to the control rate. 5. Pretreatment of the washed preparation at 0 degrees C with 0.5nmol of K(+)/mg of protein so that the final added K(+) in the reaction mixture was 0.1mum restored the Na(+)-dependent hydrolysis of ATP and the time-course of the reaction forming bound phosphate. 6. The binding of [(42)K]potassium chloride by the washed membrane preparation was examined. Binding in a solution containing 10nmol of K(+)/mg of protein was linear over a period of 20min and was inhibited by Na(+). Half-maximal inhibition of (42)K(+)-binding required a 100-fold excess of sodium chloride. 7. It was concluded (a) that a significant fraction of the apparent Na(+)-dependent hydrolysis of ATP observed in the unwashed preparation is due to activation by bound K(+) and Mg(2+) of the Na(+)+K(+)+Mg(2+)-stimulated adenosine triphosphatase system and (b) that the enzyme system is able to bind K(+) from a solution of 0.5mum-potassium chloride.