The ligand- and microtubule assembly-induced GTPase activity of purified calf brain tubulin

Calf brain tubulin purified by means of ammonium sulfate fractionation, ion-exchange chromatography, and MgCl₂ precipitation contains a low level of Mg²⁺ -dependent GTPase activity, the protein preparation being essentially homogeneous according to conventional procedures. Tubulin was freed from this possibly contaminant enzyme activity by Sephacryl S300 gel chromatography. Soluble tubulin itself showed a ligand-induced Mg²⁺-dependent GTPase activity in the presence of colchicine, but not of tropolone methyl ether, podophyllotoxin, or vinblastine. Tubulin also hydrolyzed GTP when assembling into microtubules. This reaction proceeded in a nonlinear fashion and was suppressed together with microtubule assembly by lowering the protein concentration under the critical concentration, adequately modifying assembly buffer conditions, or using Ca²⁺, tropolone methyl ether, podophyllotoxin, or vinblastine. The number of molecules of GTP hydrolyzed per molecule of tubulin polymerized was estimated to vary between 0.9 and 2.1, depending on whether morpholineethanesulfonate or phosphate assembly buffers were employed.