g蛋白偶联受体与x射线结构的同源性建模呈上升趋势。

Talia Yarnitzky, Anat Levit, Masha Y Niv
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引用次数: 0

摘要

gpcr是信号转导通路的重要组成部分,也是重要的药物靶点。最近确定的GPCR结构为GPCR建模的进步提供了机会。本文综述了GPCR建模中实验模板的选择、细胞外环的处理以及配体结合位点的描述。本综述得出了四个重要结论:(1)多模板模型可能产生比单模板模型更好的结构,尽管多模板方法也可能产生较差的模型,需要开发和应用改进的模型评估方法;(ii)谨慎地引入基于知识的约束可以提高模型的质量和对接;(iii)分子动力学模拟解释了在x射线结构中未观察到的结构特征,并可能改进对接姿势;(iv)虽然长环路预测的新方法正在取得进展,但无环路模型为对接和虚拟筛选应用提供了实用的替代方案。
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Homology modeling of G-protein-coupled receptors with X-ray structures on the rise.

GPCRs are key components of signal transduction pathways and are important drug targets. Recently determined GPCR structures provide opportunities for advancements in GPCR modeling. This review focuses on the choice of experimental templates, the treatment of extracellular loops and the description of ligand-binding sites in GPCR modeling. Four important conclusions are reached in this review: (i) multi-template models may produce better structures than single-template models, although inferior models may also be generated by multi-template approaches, warranting the development and application of improved model assessment methods; (ii) cautious incorporation of knowledge-based constraints can improve the quality of models and docking; (iii) molecular dynamics simulations account for structural features not observed in X-ray structures and may refine docking poses; and (iv) while progress in de novo methods for long loop prediction is ongoing, loopless models provide a practical alternative for docking and virtual screening applications.

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