gpcr:药物发现结构方法的最新进展

Nigel R.A. Beeley, Carleton Sage
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引用次数: 32

摘要

g蛋白偶联受体(gpcr)是后基因组时代药物发现的主要机会。据认为,在迄今已确定的700多种gpcr中,有500多种与治疗相关,尽管只有一种视紫红质是完整的3D x射线晶体学研究的主题。两种结构相关的蛋白,细菌视紫红质和感觉视紫红质,它们不是GPCR,但属于七螺旋膜受体家族,也已成为x射线晶体学研究的主题,并已用于GPCR建模研究。这些视紫红质结构之间的显著差异,单个gpcr之间相对较低的序列同源性,以及合理化点突变数据的一些困难表明,仅基于同源性的分子建模将无法提供配体设计和硅筛选所需的单个受体的准确结构信息。在缺乏这种结构信息的情况下,可以使用几种方法来协助发现配体。
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GPCRs: an update on structural approaches to drug discovery

G-protein-coupled receptors (GPCRs) are a major opportunity for drug discovery in the post-genomic era. There are thought to be more than 500 therapeutically relevant GPCRs out of a total of over 700 identified to date, although only one, rhodopsin, has been the subject of a full 3D X-ray crystallography study. Two structurally related proteins, bacteriorhodopsin and sensory rhodopsin, which are not GPCRs but are part of the seven-helix membrane receptor family, have also been the subject of X-ray crystallographic studies and have been used in GPCR modeling studies. The significant differences between these rhodopsin structures, the relatively low sequence homology between individual GPCRs, and some difficulties in rationalizing point-mutation data suggests that homology-based molecular modeling alone will not provide the accurate structural information on individual receptors required for ligand design and in silico screening. In the absence of such structural information, several approaches can be used to assist in the discovery of ligands.

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