配体诱导的 FtsZ 蛋白域间位点口袋的可变性

Pub Date : 2024-07-23 DOI:10.3103/s0095452724040078
D. S. Ozheriedov, S. P. Ozheredov, O. M. Demchuk, Ya. B. Blume, P. A. Karpov
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引用次数: 0

摘要

摘要 研究了位于 FtsZ 蛋白域间裂隙(IDC)的异构结合位点口袋的可变性。基于金黄色葡萄球菌 FtsZ 蛋白与 2,6-二氟苯甲酰胺--OLQ、9PC、OM8、OMW ZI1、ZI6、ZI7 和 ZI9--复合物的 11 个结构,构建了 IDC 位点口袋的点云模型,这些复合物目前保存在 RCSB 蛋白数据库中。结果表明,IDC 位点口袋的体积和形状在适应配体的过程中会发生显著变化。通过配体与蛋白质的拟合,筛选出了位点口袋的四种主要构象状态。结果表明,配体与单个 FtsZ 蛋白分子三维模型的 IDC 位点对接并不有效。由此得出结论,考虑到细菌 FtsZ 蛋白 IDC 位点口袋构象的可变性,使用分子靶标集合可显著提高虚拟筛选效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Ligand-Induced Variability of the FtsZ Protein Interdomain Site Pocket

Abstract

The variability of the allosteric binding site pocket located in the interdomain cleft (IDC) of FtsZ proteins was investigated. The point-cloud models of the IDC site pockets were constructed based on 11 structures for the S. aureus complexes of FtsZ protein with 2,6-diflurobenzamides—OLQ, 9PC, OM8, OMW ZI1, ZI6, ZI7, and ZI9—which is currently deposed in the RCSB Protein Data Bank. Significant variability in the volume and shape of the IDC site pocket, formed under adaptation to the ligand, was demonstrated. Four main conformational states of the site pocket, resulting from ligand-protein fitting were selected. It indicates that the docking of the ligands into the IDC site of individual 3D-models of FtsZ protein molecules is not effective. It was concluded that virtual screening efficiency can be significantly improved by the use of an ensemble of molecular targets considering the conformational variability of the IDC site pocket of bacterial FtsZ protein.

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