A novel structure-based virtual screening model for the hERG channel blockers

机译：hERG通道阻滞剂的基于结构的新型虚拟筛选模型

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The hERG potassium channel is a key effector of cardiac repolarization and the blockade of this channel could cause arrhythmia. Thus, hERG channel blockade plays an important role for the potential pro-arrhythmic liability. In this report, binding of blockers to the hERG potassium channel is investigated using a combination of homology modeling, molecular docking, and molecular simula tions, where blockade activities are evaluated using the linear regression model of GoldScore fitness. This structure-based virtual screen ing model is able to estimate the pIC50 value of a wide range of ligands for the hERG potassium channel. The docked poses for ligands are also consistent with published mutation. Therefore, this model for the prediction of hERG channel blockade has the potential to provide cost-effective virtual screening tools for the evaluation of the cardiac liability of new chemical entities.

机译：hERG钾通道是心脏复极的关键效应器，该通道的阻滞可能导致心律不齐。因此，hERG通道阻滞对于潜在的心律失常作用起着重要的作用。在本报告中，使用同源性建模，分子对接和分子模拟的组合研究了阻滞剂与hERG钾通道的结合，其中使用GoldScore适应度的线性回归模型评估了阻滞活性。这种基于结构的虚拟筛选模型能够估算hERG钾通道的各种配体的pIC50值。配体的对接姿势也与公开的突变一致。因此，这种用于预测hERG通道阻滞的模型具有为评估新化学实体的心脏功能性提供经济有效的虚拟筛查工具的潜力。

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《第四届国际分子模拟与信息技术应用学术会议（The 4th International Conference of Molecular Simulations and Applied Informatics Technologies）论文集》|2008年|260-265|共6页
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Lupei Du; Minyong Li; Qidong You; Lin Xia;
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中图分类 ORTQ;
关键词
hERG; Potassium channel; Homology model; Molecular docking; Prediction; Virtual screening;

机译：hERG;钾通道;同源性模型;分子对接;预测;虚拟筛选;

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1. A novel structure-based virtual screening model for the hERG channel blockers. [J] . Du L, Li M, You Q, Biochemical and Biophysical Research Communications . 2007,第4期

机译：hERG通道阻滞剂的基于结构的新型虚拟筛选模型。
2. A novel structure-based virtual screening model for the hERG channel blockers. [J] . Du L, Li M, You Q, Biochemical and Biophysical Research Communications . 2007,第4期

机译：hERG通道阻滞剂的基于结构的新型虚拟筛选模型。
3. A critical assessment of combined ligand- and structure-based approaches to hERG channel blocker modeling [J] . Du-Cuny L., Chen L., Zhang S. Journal of chemical information and modeling . 2011,第11期

机译：对基于结合的基于配体和结构的方法进行hERG通道阻滞剂建模的关键评估
4. ADMET Evaluation in Drug Discovery.12.Development of Binary Classification Models for Prediction of hERG Potassium Channel Blockage [C] . Sichao Wang, Youyong Li, Junmei Wang, International conference of molecular simulations and applied informatics technologies . 2012

机译：药物发现中的ADMET评估12.预测hERG钾通道阻滞的二元分类模型的开发
5. Design of Novel Inhibitors for Infectious Diseases using Structure-based Drug Design: Virtual Screening, Homology Modeling and Molecular Dynamics. [D] . Ramamoorthy, Divya. 2012

机译：使用基于结构的药物设计设计新型传染病抑制剂：虚拟筛选，同源性建模和分子动力学。
6. A Critical Assessment of Combined Ligand-based and Structure-based Approaches to hERG Channel Blocker Modeling [O] . Lei Du-Cuny, Lu Chen, Shuxing Zhang -1

机译：基于配体结合的严格评估并基于结构的途径HERG通道阻滞剂建模
7. Structure-Based Discovery of Potassium Channel Blockers from Natural Products Virtual Screening and Electrophysiological Assay Testing [O] . Liu Hong, Li Yang, Song Mingke, 2003

机译：基于结构的天然产物钾通道阻滞剂的虚拟筛选和电生理分析测试

A novel structure-based virtual screening model for the hERG channel blockers

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