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在生理离子强度和温度条件下,钙调蛋白片段对主动张力和松弛纤维硬度的平行抑制:弱横桥与肌动蛋白结合是力产生的关键中间步骤的更多证据。

Parallel inhibition of active force and relaxed fiber stiffness by caldesmon fragments at physiological ionic strength and temperature conditions: additional evidence that weak cross-bridge binding to actin is an essential intermediate for force generation.

作者信息

Kraft T, Chalovich J M, Yu L C, Brenner B

机构信息

Department of General Physiology, University of Ulm, Germany.

出版信息

Biophys J. 1995 Jun;68(6):2404-18. doi: 10.1016/S0006-3495(95)80423-6.

DOI:10.1016/S0006-3495(95)80423-6
PMID:7647245
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1282151/
Abstract

Previously we showed that stiffness of relaxed fibers and active force generated in single skinned fibers of rabbit psoas muscle are inhibited in parallel by actin-binding fragments of caldesmon, an actin-associated protein of smooth muscle, under conditions in which a large fraction of cross-bridges is weakly attached to actin (ionic strength of 50 mM and temperature of 5 degrees C). These results suggested that weak cross-bridge attachment to actin is essential for force generation. The present study provides evidence that this is also true for physiological ionic strength (170 mM) at temperatures up to 30 degrees C, suggesting that weak cross-bridge binding to actin is generally required for force generation. In addition, we show that the inhibition of active force is not a result of changes in cross-bridge cycling kinetics but apparently results from selective inhibition of weak cross-bridge binding to actin. Together with our previous biochemical, mechanical, and structural studies, these findings support the proposal that weak cross-bridge attachment to actin is an essential intermediate on the path to force generation and are consistent with the concept that isometric force mainly results from an increase in strain of the attached cross-bridge as a result of a structural change associated with the transition from a weakly bound to a strongly bound actomyosin complex. This mechanism is different from the processes responsible for quick tension recovery that were proposed by Huxley and Simmons (Proposed mechanism of force generation in striated muscle. Nature. 233:533-538.) to represent the elementary mechanism of force generation.

摘要

此前我们发现,在大部分横桥与肌动蛋白弱结合的条件下(离子强度为50 mM,温度为5℃),平滑肌肌动蛋白结合蛋白钙调蛋白的肌动蛋白结合片段可同时抑制兔腰大肌单根脱膜纤维中松弛纤维的刚度和产生的主动力。这些结果表明,横桥与肌动蛋白的弱结合对于力的产生至关重要。本研究提供的证据表明,在高达30℃的温度下,生理离子强度(170 mM)时也是如此,这表明力的产生通常需要横桥与肌动蛋白的弱结合。此外,我们表明主动力的抑制不是横桥循环动力学变化的结果,而是明显源于对横桥与肌动蛋白弱结合的选择性抑制。结合我们之前的生化、力学和结构研究,这些发现支持了以下观点:横桥与肌动蛋白的弱结合是力产生过程中的一个重要中间环节,并且与等长力主要源于附着的横桥因从弱结合向强结合的肌动球蛋白复合物转变相关的结构变化而导致的应变增加这一概念一致。这种机制不同于赫胥黎和西蒙斯提出的负责快速张力恢复的过程(横纹肌中力产生的机制。《自然》。233:533 - 538.),后者代表了力产生的基本机制。

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本文引用的文献

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Structural changes in the actomyosin cross-bridges associated with force generation.与力产生相关的肌动球蛋白横桥的结构变化。
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Eliminating the First Inactive State and Stabilizing the Active State of the Cardiac Regulatory System Alters Behavior in Solution and in Ordered Systems.消除心脏调节系统的第一无活动状态并稳定其活性状态可改变溶液和有序系统中的行为。
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Cycling Cross-Bridges Contribute to Thin Filament Activation in Human Slow-Twitch Fibers.循环横桥有助于人类慢肌纤维中的细肌丝激活。
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