用于生物分子复合物强制解离的贝尔表达式和广义加尔格形式。

Bell's expression and the generalized Garg form for forced dissociation of a biomolecular complex.

作者信息

Lin Han-Jou, Chen Hsuan-Yi, Sheng Yu-Jane, Tsao Heng-Kwong

机构信息

Department of Chemical Engineering, National Taiwan University, Taipei, Taiwan 106, Republic of China.

出版信息

Phys Rev Lett. 2007 Feb 23;98(8):088304. doi: 10.1103/PhysRevLett.98.088304.

DOI:10.1103/PhysRevLett.98.088304

PMID:17359136

Abstract

The dissociation of a biomolecular complex under the action of constant force, constant loading rate, and periodic force is studied theoretically. We show that the celebrated Bell expression provides a good approximation for the bond dissociation rate when F/F(c)<<1, where F(c) is the maxima slope of the binding potential along the reaction coordinate. When 1-F/F(c) <<1 the dissociation rate is better described by a generalized Garg form in which the potential derivative is expanded near F(c). We also show that a constant-force experiment is suitable for extracting the activation energy of the bond, a constant loading experiment is suitable to extract F(c), while time-periodic force can be applied to extract both bond dissociation rates at zero force and F(c).

摘要

从理论上研究了生物分子复合物在恒力、恒加载速率和周期力作用下的解离。我们表明，当F/F(c)<<1时，著名的贝尔表达式能很好地近似键解离速率，其中F(c)是结合势沿反应坐标的最大斜率。当1 - F/F(c) <<1时，解离速率可用广义加尔格形式更好地描述，其中势导数在F(c)附近展开。我们还表明，恒力实验适合于提取键的活化能，恒加载实验适合于提取F(c)，而时间周期力可用于提取零力和F(c)时的键解离速率。

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用于生物分子复合物强制解离的贝尔表达式和广义加尔格形式。

Bell's expression and the generalized Garg form for forced dissociation of a biomolecular complex.

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