Electric potential at regions near the two specific thiols of heavy meromyosin determined by the fluorescence quenching technique. I. Effect of ATP.

Electric potentials at regions near the two specific thiol groups, SH1 and SH2, of the heavy meromyosin (HMM) molecule were studied by the fluorescence quenching technique. The effects of binding of ATP to HMM upon the electric potentials were also studied. N-(p(2-Benzimidazolyl)phenyl)maleimide (BIPM) was used as a thiol-directed fluorescent reagent.

Fluorometric method for estimating the kinetic parameters of beta-naphthyl triphosphate and ATP hydrolysis by acto-heavy meromyosin.

We have established a method to estimate the values of various kinetic parameters of acto-heavy meromyosin (acto-HMM) ATPase, using a fluorescent ATP analog, beta-naphthyl triphosphate (beta-NapP3); from the fluorescence intensity change accompanying beta-NapP3 hydrolysis, the various kinetic parameters of beta-NapP3 hydrolysis, including its product inhibition, were obtained. beta-NapPd3 hydrolysis is inhibited competitively by ATP, resulting in different time courses of fluorescence intensity change in the presence and absence of ATP. From this difference, the values of kinetic parameters of ATP hydrolysis, including its product inhibition, can be estimated.

Some characteristics of beta-naphthyl triphosphate as a substrate of heavy meromyosin. F-actin-inactivated hydrolysis showing initial burst.

The initial burst of Pi liberation was found in the hydrolysis of beta-naphthyl triphosphate (beta-NapP3) by heavy meromyosin (HMM) in the presence of Mg ions as well as in the hydrolysis of ATP. However, unlike that of ATP, the steady-state hydrolysis of beta-NapP3 by HMM was inhibited by the addition of F-actin to the reaction solution. Although the possession of an initial burst-like property during interaction of a substrate and myosin is believed by many investigators to be a key factor in F-actin activation of substrate hydrolysis in vitro and in the molecular mechanism of muscle contraction, the above results suggest that this is not generally true.