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肌球蛋白丝悬浮液的热力学特征:对肌肉收缩建模的启示

Thermodynamic features of myosin filament suspensions: implications for the modeling of muscle contraction.

作者信息

Grazi E, Cintio O

机构信息

Dipartimento di Biochimica e Biologia Molecolare, Università di Ferrara, 44100 Ferrara, Italy.

出版信息

Biophys J. 2001 Jul;81(1):313-20. doi: 10.1016/S0006-3495(01)75701-3.

Abstract

The analysis of myosin filament suspensions shows that these solutions are characterized by highly nonideal behavior. From these data a model is constructed that allows us to predict that 1) when subjected to an increasing protein osmotic pressure, myosin filaments experience an elastic deformation, which is not linearly related to the acting force; and 2) at constant protein osmotic pressure, when the cross-bridges of the myosin filaments are subjected to an external, nonosmotic force parallel to the filament axis, they are deformed and the water activity coefficient is altered. As a consequence, in muscle, passive and active shortening of the sarcomere is expected to promote the change of the water-water and of the water-protein interactions. We thus propose to depict muscle contraction as a chemo-osmoelastic transduction, where the analysis of the energy partition during the power stroke requires consideration of the osmotic factor in addition to the chemoelastic ones.

摘要

对肌球蛋白丝悬浮液的分析表明,这些溶液具有高度非理想行为的特征。根据这些数据构建了一个模型,该模型使我们能够预测:1)当受到不断增加的蛋白质渗透压时,肌球蛋白丝会经历弹性变形,这种变形与作用力并非线性相关;2)在恒定的蛋白质渗透压下,当肌球蛋白丝的横桥受到平行于丝轴的外部非渗透压时,它们会发生变形,水活度系数也会改变。因此,在肌肉中,肌节的被动和主动缩短预计会促进水 - 水以及水 - 蛋白质相互作用的变化。我们因此提议将肌肉收缩描述为一种化学 - 渗透弹性转导,其中在动力冲程期间对能量分配的分析除了考虑化学弹性因素外,还需要考虑渗透因素。

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