脯氨酸丰富配体与 Abl 同源结构域 3 识别中界面水分子的作用。
Role of interfacial water molecules in proline-rich ligand recognition by the Src homology 3 domain of Abl.
机构信息
Department of Physical Chemistry and Institute of Biotechnology, Faculty of Sciences, University of Granada, 18071 Granada, Spain.
出版信息
J Biol Chem. 2010 Jan 22;285(4):2823-33. doi: 10.1074/jbc.M109.048033. Epub 2009 Nov 10.
Abstract
The interaction of Abl-Src homology 3 domain (SH3) with the high affinity peptide p41 is the most notable example of the inconsistency existing between the currently accepted description of SH3 complexes and their binding thermodynamic signature. We had previously hypothesized that the presence of interfacial water molecules is partially responsible for this thermodynamic behavior. We present here a thermodynamic, structural, and molecular dynamics simulation study of the interaction of p41 with Abl-SH3 and a set of mutants designed to alter the water-mediated interaction network. Our results provide a detailed description of the dynamic properties of the interfacial water molecules and a molecular interpretation of the thermodynamic effects elicited by the mutations in terms of the modulation of the water-mediated hydrogen bond network. In the light of these results, a new dual binding mechanism is proposed that provides a better description of proline-rich ligand recognition by Abl-SH3 and that has important implications for rational design.
摘要
Abl-Src 同源结构域 3 区(SH3)与高亲和力肽 p41 的相互作用是目前公认的 SH3 复合物描述与其结合热力学特征之间存在不一致性的最显著例子。我们之前假设界面水分子的存在部分是造成这种热力学行为的原因。我们在这里提出了 p41 与 Abl-SH3 及其一组设计用于改变水介导相互作用网络的突变体相互作用的热力学、结构和分子动力学模拟研究。我们的结果提供了界面水分子动态特性的详细描述,并从水介导氢键网络的调制角度出发,对突变引起的热力学效应进行了分子解释。根据这些结果,提出了一种新的双重结合机制,该机制提供了 Abl-SH3 识别富含脯氨酸配体的更好描述,并对合理设计具有重要意义。
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