Alexander Pflug, Kenneth A Johnson, Richard A Engh
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引用次数: 0
Abstract
With its ability to show the interactions between drug-target proteins and small-molecule ligands, X-ray crystallography is an essential tool in drug-discovery programmes. However, its usefulness can be limited by crystallization artifacts or by the data resolution, and in particular when assumptions of unimodal binding (and isotropic motion) do not apply. Discrepancies between the modelled crystal structure and the physiological range of structures generally prevent quantitative estimation of binding energies. Improved crystal structure resolution will often not aid energy estimation because the conditions which provide the highest rigidity and resolution are not likely to reflect physiological conditions. Instead, strategies must be employed to measure and model flexibility and multiple binding modes to supplement crystallographic information. One useful tool is the use of anomalous dispersion for small molecules that contain suitable atoms. Here, an analysis of the binding of the kinase inhibitor H-89 to protein kinase A (PKA) is presented. H-89 contains a bromobenzene moiety that apparently binds with multiple conformations in the kinase ATP pocket. Using anomalous dispersion methods, it was possible to resolve these conformations into two distinct binding geometries.
X 射线晶体学能够显示药物靶蛋白和小分子配体之间的相互作用,是药物发现计划中的重要工具。然而,结晶伪影或数据分辨率,尤其是当单模结合(和各向同性运动)假设不适用时,结晶学的作用就会受到限制。建模晶体结构与生理结构范围之间的差异通常会阻碍结合能的定量估算。晶体结构分辨率的提高往往无助于能量估算,因为提供最高硬度和分辨率的条件不可能反映生理条件。相反,必须采用一些策略来测量和模拟灵活性和多种结合模式,以补充晶体学信息。一种有用的工具是对含有合适原子的小分子使用反常色散。本文分析了激酶抑制剂 H-89 与蛋白激酶 A (PKA) 的结合。H-89 含有一个溴苯分子,显然能以多种构象结合到激酶 ATP 口袋中。利用反常色散方法,可以将这些构象解析为两种不同的结合几何形状。
期刊介绍:
Acta Crystallographica Section F is a rapid structural biology communications journal.
Articles on any aspect of structural biology, including structures determined using high-throughput methods or from iterative studies such as those used in the pharmaceutical industry, are welcomed by the journal.
The journal offers the option of open access, and all communications benefit from unlimited free use of colour illustrations and no page charges. Authors are encouraged to submit multimedia content for publication with their articles.
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