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肌肉收缩的钙调节

Calcium regulation of muscle contraction.

作者信息

Szent-Györgyi A G

出版信息

Biophys J. 1975 Jul;15(7):707-23. doi: 10.1016/S0006-3495(75)85849-8.

Abstract

Calcium triggers contraction by reaction with regulatory proteins that in the absence of calcium prevent interaction of actin and myosin. Two different regulatory systems are found in different muscles. In actin-linked regulation troponin and tropomyosin regulate actin by blocking sites on actin required for complex formation with myosin; in myosin-linked regulation sites on myosin are blocked in the absence of calcium. The major features of actin control are as follows: there is a requirement for tropomyosin and for a troponin complex having three different subunits with different functions; the actin displays a cooperative behavior; and a movement of tropomyosin occurs controlled by the calcium binding on troponin. Myosin regulation is controlled by a regulatory subunit that can be dissociated in scallop myosin reversibly by removing divalent cations with EDTA. Myosin control can function with pure actin in the absence of tropomyosin. Calcium binding and regulation of molluscan myosins depend on the presence of regulatory light chains. It is proposed that the light chains function by sterically blocking myosin sites in the absence of calcium, and that the "off" state of myosin requires cooperation between the two myosin heads. Both myosin control and actin control are widely distributed in different organisms. Many invertebrates have muscles with both types of regulation. Actin control is absent in the muscles of molluscs and in several minor phyla that lack troponin. Myosin control is not found in striated vertebrate muscles and in the fast muscles of crustacean decapods, although regulatory light chains are present. While in vivo myosin control may not be excluded from vertebrate striated muscles, myosin control may be absent as a result of mutations of the myosin heavy chain.

摘要

钙通过与调节蛋白反应触发收缩,在没有钙的情况下,调节蛋白会阻止肌动蛋白和肌球蛋白相互作用。在不同的肌肉中发现了两种不同的调节系统。在肌动蛋白相关调节中,肌钙蛋白和原肌球蛋白通过阻断肌动蛋白上与肌球蛋白形成复合物所需的位点来调节肌动蛋白;在肌球蛋白相关调节中,在没有钙的情况下,肌球蛋白上的位点被阻断。肌动蛋白控制的主要特征如下:需要原肌球蛋白和具有三个不同功能亚基的肌钙蛋白复合物;肌动蛋白表现出协同行为;原肌球蛋白的运动受肌钙蛋白上钙结合的控制。肌球蛋白调节由一个调节亚基控制,在扇贝肌球蛋白中,通过用乙二胺四乙酸去除二价阳离子,该调节亚基可被可逆地解离。在没有原肌球蛋白的情况下,肌球蛋白控制可与纯肌动蛋白一起发挥作用。软体动物肌球蛋白的钙结合和调节取决于调节轻链的存在。有人提出,轻链在没有钙的情况下通过空间位阻阻断肌球蛋白位点来发挥作用,并且肌球蛋白的“关闭”状态需要两个肌球蛋白头部之间的协同作用。肌球蛋白控制和肌动蛋白控制在不同生物中广泛分布。许多无脊椎动物的肌肉具有两种调节类型。软体动物和一些缺乏肌钙蛋白的小门类的肌肉中不存在肌动蛋白控制。在脊椎动物的横纹肌和甲壳类十足动物的快肌中未发现肌球蛋白控制,尽管存在调节轻链。虽然在脊椎动物横纹肌中不能排除体内肌球蛋白控制,但由于肌球蛋白重链的突变,可能不存在肌球蛋白控制。

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