用于鉴定新变构位点的结晶添加剂的计算分析

Computational Analysis of Crystallization Additives for the Identification of New Allosteric Sites.

作者信息

Fogha Jade, Diharce Julien, Obled Alan, Aci-Sèche Samia, Bonnet Pascal

机构信息

Institut de Chimie Organique et Analytique, Université d'Orléans, UMR CNRS 7311, BP6759, 45067 Orléans Cedex 2, France.

出版信息

ACS Omega. 2020 Feb 3;5(5):2114-2122. doi: 10.1021/acsomega.9b02697. eCollection 2020 Feb 11.

DOI:10.1021/acsomega.9b02697

PMID:32064372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7016913/

Abstract

Allosteric effect can modulate the biological activity of a protein. Thus, the discovery of new allosteric sites is very attractive for designing new modulators or inhibitors. Here, we propose an innovative way to identify allosteric sites, based on crystallization additives (CA), used to stabilize proteins during the crystallization process. Density and clustering analyses of CA, applied on protein kinase and nuclear receptor families, revealed that CA are not randomly distributed around protein structures, but they tend to aggregate near common sites. All orthosteric and allosteric cavities described in the literature are retrieved from the analysis of CA distribution. In addition, new sites were identified, which could be associated to putative allosteric sites. We proposed an efficient and easy way to use the structural information of CA to identify allosteric sites. This method could assist medicinal chemists for the design of new allosteric compounds targeting cavities of new drug targets.

摘要

别构效应能够调节蛋白质的生物活性。因此，发现新的别构位点对于设计新的调节剂或抑制剂极具吸引力。在此，我们提出一种基于结晶添加剂（CA）来鉴定别构位点的创新方法，这些添加剂用于在结晶过程中稳定蛋白质。对蛋白质激酶和核受体家族应用CA的密度和聚类分析表明，CA并非随机分布在蛋白质结构周围，而是倾向于在共同位点附近聚集。通过对CA分布的分析，文献中描述的所有正构和别构腔均被检索出来。此外，还鉴定出了新的位点，这些位点可能与假定的别构位点相关。我们提出了一种高效且简便的方法，利用CA的结构信息来鉴定别构位点。该方法可为药物化学家设计针对新药物靶点腔的新型别构化合物提供帮助。

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用于鉴定新变构位点的结晶添加剂的计算分析

Computational Analysis of Crystallization Additives for the Identification of New Allosteric Sites.

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