The effects of calcium and magnesium ions on the adenosine triphosphatase and inosine triphosphatase activities of myosin A

Abstract

1. The effects of Ca(2+) and Mg(2+) on the enzymic activity of myosin were studied with myosin preparations treated by the ion-exchange resin Chelex-100. A reaction mixture containing 0.05m-potassium chloride was chosen in which the effects of univalent ions such as K(+), Na(+) and Cl(-) do not change significantly with small variations in their concentrations. 2. The relationship between the rate of hydrolysis of ATP or ITP and the concentration of Ca(2+) suggests that a relatively weak binding of Ca(2+) either to myosin or to the substrate nucleotide is responsible for the activation of the enzymic activity. According to the experiments with an ultrafiltration technique, the binding of Ca(2+) to myosin proceeds in at least two steps, the first occurring at one site on every 500000 atomic mass units of myosin with an apparent association constant, K(app.), 1.3x10(6)m(-1), and the second seeming to be so weak that its binding parameters cannot be determined by the method used. The first type of Ca(2+) binding is not observable with N-ethylmaleimide-modified myosin, yet this modified myosin shows activation by Ca(2+) of its adenosine triphosphatase and inosine triphosphatase. 3. The inhibition by Mg(2+) can be related to a binding reaction of Mg(2+) with myosin having K(app.) approximately 10(6)m(-1). Mg(2+) replaces the Ca(2+) bound tightly to myosin. The K(app.) for Mg(2+)-myosin binding calculated by assuming a competition between Ca(2+) and Mg(2+) for the same site is 2.1x10(5)-3.0x10(5)m(-1). When myosin is modified with a thiol reagent (p-mercuribenzoate) at a certain ratio to myosin, the inhibition by Mg(2+) becomes unobservable. 4. The behaviour of the hydrolytic activity of myosin on ATP or ITP in the presence of both Ca(2+) and Mg(2+) is consistent with the explanation that the inhibition by Mg(2+) is due to the tight binding of Mg(2+) to myosin, whereas the activation by Ca(2+) is caused either by a weak binding of Ca(2+) to myosin or by CaATP(2-) or by both.