Mapping Protein Conformational Landscapes from Crystallographic Drug Fragment Screens.

IF 5.6 2区 化学 Q1 CHEMISTRY, MEDICINAL
Ammaar A Saeed, Margaret A Klureza, Doeke R Hekstra
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引用次数: 0

Abstract

Proteins are dynamic macromolecules. Knowledge of a protein's thermally accessible conformations is critical to determining important transitions and designing therapeutics. Accessible conformations are highly constrained by a protein's structure such that concerted structural changes due to external perturbations likely track intrinsic conformational transitions. These transitions can be thought of as paths through a conformational landscape. Crystallographic drug fragment screens are high-throughput perturbation experiments, in which thousands of crystals of a drug target are soaked with small-molecule drug precursors (fragments) and examined for fragment binding, mapping potential drug binding sites on the target protein. Here, we describe an open-source Python package, COnformational LAndscape Visualization (COLAV), to infer conformational landscapes from such large-scale crystallographic perturbation studies. We apply COLAV to drug fragment screens of two medically important systems: protein tyrosine phosphatase 1B (PTP1B), which regulates insulin signaling, and the SARS CoV-2 Main Protease (MPro). With enough fragment-bound structures, we find that such drug screens enable detailed mapping of proteins' conformational landscapes.

从晶体学药物片段筛选中绘制蛋白质构象图谱
蛋白质是动态大分子。了解蛋白质的热可获得构象对于确定重要转变和设计疗法至关重要。可获得的构象受到蛋白质结构的高度约束,因此外部扰动导致的协同结构变化很可能会跟踪内在构象转变。这些转变可被视为构象景观的路径。晶体学药物片段筛选是一种高通量扰动实验,在这种实验中,成千上万的药物靶点晶体被小分子药物前体(片段)浸泡,并检查片段结合情况,从而绘制出靶点蛋白质上潜在的药物结合位点。在这里,我们介绍了一个开源 Python 软件包 COnformational LAndscape Visualization (COLAV),它可以从这种大规模晶体学扰动研究中推断构象景观。我们将 COLAV 应用于两个重要医学系统的药物片段筛选:调节胰岛素信号的蛋白酪氨酸磷酸酶 1B (PTP1B) 和 SARS CoV-2 主要蛋白酶 (MPro)。我们发现,有了足够的片段结合结构,此类药物筛选就能详细绘制蛋白质的构象图谱。
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来源期刊
CiteScore
9.80
自引率
10.70%
发文量
529
审稿时长
1.4 months
期刊介绍: The Journal of Chemical Information and Modeling publishes papers reporting new methodology and/or important applications in the fields of chemical informatics and molecular modeling. Specific topics include the representation and computer-based searching of chemical databases, molecular modeling, computer-aided molecular design of new materials, catalysts, or ligands, development of new computational methods or efficient algorithms for chemical software, and biopharmaceutical chemistry including analyses of biological activity and other issues related to drug discovery. Astute chemists, computer scientists, and information specialists look to this monthly’s insightful research studies, programming innovations, and software reviews to keep current with advances in this integral, multidisciplinary field. As a subscriber you’ll stay abreast of database search systems, use of graph theory in chemical problems, substructure search systems, pattern recognition and clustering, analysis of chemical and physical data, molecular modeling, graphics and natural language interfaces, bibliometric and citation analysis, and synthesis design and reactions databases.
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