Cardone Antonio, Bornstein Aaron, Pant Harish C, Brady Mary, Sriram Ram, Hassan Sergio A
Software and System Division, National Institute of Standards and Technology, Gaithersburg, Maryland, 20899; Institute for Advanced Computer Studies, University of Maryland, College Park, Maryland, 20742.
J Comput Chem. 2015 May 15;36(13):983-95. doi: 10.1002/jcc.23883. Epub 2015 Mar 18.
A method is proposed to study protein-ligand binding in a system governed by specific and nonspecific interactions. Strong associations lead to narrow distributions in the proteins configuration space; weak and ultraweak associations lead instead to broader distributions, a manifestation of nonspecific, sparsely populated binding modes with multiple interfaces. The method is based on the notion that a discrete set of preferential first-encounter modes are metastable states from which stable (prerelaxation) complexes at equilibrium evolve. The method can be used to explore alternative pathways of complexation with statistical significance and can be integrated into a general algorithm to study protein interaction networks. The method is applied to a peptide-protein complex. The peptide adopts several low-population conformers and binds in a variety of modes with a broad range of affinities. The system is thus well suited to analyze general features of binding, including conformational selection, multiplicity of binding modes, and nonspecific interactions, and to illustrate how the method can be applied to study these problems systematically. The equilibrium distributions can be used to generate biasing functions for simulations of multiprotein systems from which bulk thermodynamic quantities can be calculated.
提出了一种在由特异性和非特异性相互作用控制的系统中研究蛋白质-配体结合的方法。强结合导致蛋白质构象空间中的分布变窄;相反,弱结合和超弱结合导致分布更宽,这是具有多个界面的非特异性、稀疏填充结合模式的一种表现。该方法基于这样一种观念,即一组离散的优先首次相遇模式是亚稳态,平衡时的稳定(预松弛)复合物由此演化而来。该方法可用于探索具有统计学意义的复合替代途径,并可整合到研究蛋白质相互作用网络的通用算法中。该方法应用于一种肽-蛋白质复合物。该肽采用几种低丰度构象,并以多种模式结合,具有广泛的亲和力。因此,该系统非常适合分析结合的一般特征,包括构象选择、结合模式的多样性和非特异性相互作用,并说明该方法如何可用于系统地研究这些问题。平衡分布可用于生成用于多蛋白系统模拟的偏差函数,从中可计算大量热力学量。