肌动球蛋白ATP酶的作用机制：肌动蛋白对ATP水解步骤的影响。

Mechanism of the actomyosin ATPase: effect of actin on the ATP hydrolysis step.

作者信息

Stein L A, Chock P B, Eisenberg E

出版信息

Proc Natl Acad Sci U S A. 1981 Mar;78(3):1346-50. doi: 10.1073/pnas.78.3.1346.

DOI:10.1073/pnas.78.3.1346

PMID:6453345

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC319127/

Abstract

The Lymn-Taylor model for the actomyosin ATPase suggests that during each cycle of ATP hydrolysis the complex of myosin subfragment 1 (S-1) with actin must dissociate into S-1.ATP plus actin before ATP hydrolysis can occur. In the present study we tested whether such a mandatory detachment step occurs by measuring the effect of actin on the rate and magnitude of the ATP hydrolysis step (initial Pi burst) and on the steady-state ATPase rate. We find that the rate of the initial Pi burst markedly increases at high actin concentration although the Lymn-Taylor model predicts the rate should remain nearly constant or decrease. In addition, at high actin concentration, the magnitude of the initial Pi burst is much larger than is predicted by the Lymn-Taylor model. Finally, at 360 microM actin, at which more than 90% of the S-1.ATP is bound to actin, there is no inhibition of the steady-state ATPase activity although the Lymn-Taylor model predicts that 70% inhibition should occur. We conclude that the acto-S-1 complex is not dissociated by ATP during each cycle of ATP hydrolysis; in fact, the rate of the initial Pi burst appears to be even faster when S-1.ATP is bound to actin than when it is dissociated.

摘要

肌动球蛋白ATP酶的Lymn-Taylor模型表明，在ATP水解的每个循环中，肌球蛋白亚片段1（S-1）与肌动蛋白的复合物必须在ATP水解发生之前解离成S-1.ATP和肌动蛋白。在本研究中，我们通过测量肌动蛋白对ATP水解步骤（初始Pi爆发）的速率和幅度以及对稳态ATP酶速率的影响，来测试是否发生这样一个强制性的解离步骤。我们发现，在高肌动蛋白浓度下，初始Pi爆发的速率显著增加，尽管Lymn-Taylor模型预测该速率应保持几乎恒定或下降。此外，在高肌动蛋白浓度下，初始Pi爆发的幅度比Lymn-Taylor模型预测的要大得多。最后，在360 microM肌动蛋白浓度下，超过90%的S-1.ATP与肌动蛋白结合，尽管Lymn-Taylor模型预测应发生70%的抑制，但稳态ATP酶活性并未受到抑制。我们得出结论，在ATP水解的每个循环中，肌动蛋白-S-1复合物不会被ATP解离；事实上，当S-1.ATP与肌动蛋白结合时，初始Pi爆发的速率似乎比其解离时还要快。

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