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以CaATP作为底物来研究肌球蛋白产生力的杠杆臂假说。

CaATP as a substrate to investigate the myosin lever arm hypothesis of force generation.

作者信息

Polosukhina K, Eden D, Chinn M, Highsmith S

机构信息

Department of Biochemistry, University of the Pacific, School of Dentistry, San Francisco, California 94115-2399, USA.

出版信息

Biophys J. 2000 Mar;78(3):1474-81. doi: 10.1016/S0006-3495(00)76700-2.

DOI:10.1016/S0006-3495(00)76700-2
PMID:10692332
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1300745/
Abstract

In an effort to test the lever arm model of force generation, the effects of replacing magnesium with calcium as the ATP-chelated divalent cation were determined for several myosin and actomyosin reactions. The isometric force produced by glycerinated muscle fibers when CaATP is the substrate is 20% of the value obtained with MgATP. For myosin subfragment 1 (S1), the degree of lever arm rotation, determined using transient electric birefringence to measure rates of rotational Brownian motion in solution, is not significantly changed when calcium replaces magnesium in an S1-ADP-vanadate complex. Actin activates S1 CaATPase activity, although less than it does MgATPase activity. The increase in actin affinity when S1. CaADP. P(i) is converted to S1. CaADP is somewhat greater than it is for the magnesium case. The ionic strength dependence of actin binding indicates that the change in apparent electrostatic charge at the acto-S1 interface for the S1. CaADP. P(i) to S1. CaADP step is similar to the change when magnesium is bound. In general, CaATP is an inferior substrate compared to MgATP, but all the data are consistent with force production by a lever arm mechanism for both substrates. Possible reasons for the reduced magnitude of force when CaATP is the substrate are discussed.

摘要

为了测试力产生的杠杆臂模型,我们确定了用钙替代镁作为ATP螯合二价阳离子对几种肌球蛋白和肌动球蛋白反应的影响。当CaATP作为底物时,甘油化肌纤维产生的等长力是用MgATP时所获值的20%。对于肌球蛋白亚片段1(S1),在S1 - ADP - 钒酸盐复合物中用钙替代镁时,使用瞬态电双折射测量溶液中旋转布朗运动速率来确定的杠杆臂旋转程度没有显著变化。肌动蛋白激活S1 CaATP酶活性,尽管其激活程度小于激活MgATP酶活性。当S1·CaADP·Pi转化为S1·CaADP时,肌动蛋白亲和力的增加在某种程度上大于镁的情况。肌动蛋白结合的离子强度依赖性表明,对于S1·CaADP·Pi到S1·CaADP步骤,肌动蛋白 - S1界面处表观静电荷的变化与结合镁时的变化相似。一般来说,与MgATP相比,CaATP是一种较差的底物,但所有数据都与两种底物通过杠杆臂机制产生力一致。文中讨论了以CaATP作为底物时力大小降低的可能原因。

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