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蛋白激酶PDK1变构调节的弹性网络模型

Elastic network model of allosteric regulation in protein kinase PDK1.

作者信息

Williams Gareth

机构信息

Wolfson Centre for Age-Related Diseases, Kings College London, London Bridge, London SE1 1UL, UK.

出版信息

BMC Struct Biol. 2010 May 25;10:11. doi: 10.1186/1472-6807-10-11.

DOI:10.1186/1472-6807-10-11
PMID:20500829
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2888814/
Abstract

BACKGROUND

Structural switches upon binding of phosphorylated moieties underpin many signalling networks. The ligand activation is a form of allosteric modulation of the protein, where the binding site is remote from the structural change in the protein. Recently this structural switch has been elegantly demonstrated with the crystallisation of the activated form of 3-phosphoinositide-dependent protein kinase-1 (PDK1). The purpose of the present work is to determine whether the allosteric coupling in PDK1 emerges at the level of a simple coarse grained model of protein dynamics.

RESULTS

It is shown here that the allosteric effects of the agonist binding to the small lobe upon the activation loop in the large lobe of PDK1 are explainable within a simple 'ball and spring' elastic network model (ENM) of protein dynamics. In particular, the model shows that the bound phospho peptide mimetic fluctuations have a high degree of correlation with the activation loop of PDK1.

CONCLUSIONS

The ENM approach to small molecule activation of proteins may offer a first pass predictive methodology where affinity is encoded in residues remote from the active site, and aid in the design of specific protein agonists that enhance the allosteric coupling and antagonist that repress it.

摘要

背景

磷酸化部分结合后的结构转换是许多信号网络的基础。配体激活是蛋白质变构调节的一种形式,其中结合位点远离蛋白质的结构变化。最近,通过3-磷酸肌醇依赖性蛋白激酶-1(PDK1)活化形式的结晶,这种结构转换得到了完美的证明。本研究的目的是确定PDK1中的变构偶联是否出现在简单的蛋白质动力学粗粒度模型水平上。

结果

本文表明,在蛋白质动力学的简单“球与弹簧”弹性网络模型(ENM)中,可以解释激动剂与PDK1大结构域中的激活环结合时对小结构域产生的变构效应。特别是,该模型表明结合的磷酸肽模拟物波动与PDK1的激活环具有高度相关性。

结论

蛋白质小分子激活的ENM方法可能提供一种初步的预测方法,其中亲和力编码在远离活性位点的残基中,并有助于设计增强变构偶联的特异性蛋白质激动剂和抑制变构偶联的拮抗剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ccb4/2888814/0595f44b7f67/1472-6807-10-11-1.jpg

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