M1毒蕈碱乙酰胆碱受体的扫描诱变研究。

E. Hulme, Z. L. Lu, M. Bee
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引用次数: 53

摘要

利用x射线晶体学对牛视紫红质结构进行分析,可以建立改进的M(1)毒蕈碱乙酰胆碱受体的同源性模型。这已经被用来解释一系列广泛的扫描和点诱变研究的结果,这些研究是关于受体的跨膜结构域的。潜在的增强蛋白质折叠稳定性的分子内相互作用已被确定。拮抗剂n -甲基东莨菪碱和激动剂乙酰胆碱结合位点的残基已经被绘制出来。这些配体的正电荷头基似乎结合在由跨膜(TM)螺旋3、6和7上的氨基酸侧链形成的电荷稳定的芳香笼中,而TM 4上的残基可能参与外围对接位点。关闭乙酰胆碱头基周围的笼可能有助于将结合能转化为受体激活,可能会破坏结合位点下面的一组残基之间的一组范德华相互作用,这些相互作用有助于在没有激动剂的情况下将受体限制在非活性状态。这可能会触发受体核心高度保守残基之间氢键网络的重组,其完整性对激活至关重要。
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Scanning mutagenesis studies of the M1 muscarinic acetylcholine receptor.
Following the solution of the structure of bovine rhodopsin by X-ray crystallography, it has been possible to build an improved homology model of the M(1) muscarinic acetylcholine receptor. This has been used to interpret the outcome of an extensive series of scanning and point mutagenesis studies on the transmembrane domain of the receptor. Potential intramolecular interactions enhancing the stability of the protein fold have been identified. The residues contributing to the binding site for the antagonist, N-methylscopolamine, and the agonist, acetylcholine have been mapped. The positively charged headgroups of these ligands appear to bind in a charge-stabilized aromatic cage formed by amino acid side chains in transmembrane (TM) helices 3, 6, and 7, while residues in TM 4 may participate in a peripheral docking site. Closure of the cage around the headgroup of acetylcholine may help to transduce binding energy into receptor activation, possibly disrupting a set of Van der Waals interactions between a set of residues underlying the binding site which help to constrain the receptor to the inactive state, in the absence of agonist. This may trigger the reorganization of a hydrogen bonding network between highly conserved residues in the core of the receptor, whose integrity is crucial for activation.
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