Putative dynamics of vasopressin in its V1a receptor binding site.

Receptors & channels Pub Date : 2003-01-01
Astrid Kaltenböck, Marcel Hibert, Thierry Langer
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Abstract

The molecular architecture of the GPCRs, including the dynamic set of interactions between the receptor and the ligand, is one of the key structural questions of biophysical approaches. In the present study, molecular dynamics (MD) simulations were performed on the well-validated molecular model of the vasopressin V1a receptor applying different parameters (i.e., force fields, time variation, use of constraints) in order to sample the conformational space of the endogenous ligand arginine vasopressin (AVP), to explore different putative binding modes, and to analyze the simulation results with respect to experimental data. Noteworthy, it is to mention that for the first time a model of the vasopressin receptor remained stable in a 500 ps MD simulation run under vacuo boundary conditions using the Kollman all-atom FF even though no constraints were imposed. Conclusively, we determined an optimized experimental procedure for studying the dynamics and structure-functionship of this highly important family of GPCRs: the use of MD simulations with the Kollman all-atom force-field parameters on a constrained receptor. Our simplified model may be used as a basis for structure based design of new GPCR ligands and for in silico screening of virtual combinatorial chemistry libraries.

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抗利尿激素在其V1a受体结合位点的推测动力学。
GPCRs的分子结构,包括受体和配体之间的动态相互作用,是生物物理方法的关键结构问题之一。本研究采用分子动力学(MD)模拟了行之有效的抗利尿激素V1a受体分子模型,采用不同的参数(即力场、时间变化、约束条件的使用)对内源性配体精氨酸抗利尿激素(AVP)的构象空间进行了采样,探索了不同的推测结合模式,并将模拟结果与实验数据进行了分析。值得注意的是,尽管没有施加任何约束,但在真空边界条件下,使用Kollman全原子FF,加压素受体模型首次在500 ps MD模拟中保持稳定。最后,我们确定了一个优化的实验程序来研究这个非常重要的gpcr家族的动力学和结构功能:在一个受约束的受体上使用带有Kollman全原子力场参数的MD模拟。我们的简化模型可作为基于结构的新型GPCR配体设计和虚拟组合化学文库的计算机筛选的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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