Experimental and theoretical high pressure strategies for investigating protein–nucleic acid assemblies

T.W. Lynch , S.G. Sligar
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引用次数: 19

Abstract

A method was developed to investigate the stability of protein–nucleic acid complexes using hydrostatic pressure during electrophoretic gel mobility shift analysis. The initial system probed by this technique was the well-characterized cognate BamHI–DNA complex. Band shift analysis at several elevated pressures found the equilibrium dissociation (Kd) constant to be dependent on pressure, which allowed the volume change of dissociation (ΔV) to be calculated. In order to describe the effects of pressure on the specific BamHI–DNA complex at the molecular level, molecular dynamics simulations at both ambient and elevated pressure was performed. Comparison of the simulation trajectories identified several individual BamHI–DNA contacts that are disrupted due to pressure. The disruption of these contacts can be attributed to an observed pressure-induced increase in hydration at the protein–DNA interface during the elevated pressure simulation.

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研究蛋白质核酸组装的实验和理论高压策略
在电泳凝胶迁移率漂移分析中,建立了一种利用静水压力研究蛋白质-核酸复合物稳定性的方法。该技术探测的初始系统是鉴定良好的同源BamHI-DNA复合物。在几种高压下的带移分析发现平衡解离(Kd)常数依赖于压力,从而可以计算解离的体积变化(ΔV)。为了在分子水平上描述压力对特定BamHI-DNA复合物的影响,在环境压力和高压下进行了分子动力学模拟。模拟轨迹的比较确定了由于压力而破坏的几个单独的BamHI-DNA接触。这些接触的破坏可归因于在高压模拟过程中观察到的压力诱导的蛋白质- dna界面水化作用的增加。
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