Abstract
It was found that the rate of polymerization of G-actin increased with the decrease of ATP concentration. When excess ATP was replaced by chloride through anion-exchange treatment, the extent of actin polymerization did not change provided that the ionic strength was raised immediately after the treatment. In the meantime, the rate of actin polymerization was greatly enhanced after the removal of excess ATP. The rate enhancement was much less when both excess Ca 2+ and excess ATP were removed. G-actin with excess ATP replaced by chloride had larger light scattering and showed a “catalytic” effect on the polymerization of normal G-actin. The inhibition of actin polymerization by cytochalasin B in 100 m m KCl was much more obvious for G-actin with excess ATP removed than for normal G-actin. It is suggested that the reduction of excess ATP concentration in a G-actin solution increases the binding of weak-affinity Ca 2+ and promotes the formation of oligomeric actin (actin nuclei).
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