多配体同时对接（MLSD）：一种研究抑制剂对底物与PPO结合影响的新方法。

Multiple ligand simultaneous docking (MLSD): A novel approach to study the effect of inhibitors on substrate binding to PPO.

作者信息

Raghavendra S, Aditya Rao S J, Kumar Vadlapudi, Ramesh C K

机构信息

College of Horticulture, University of Horticulture Sciences, Bagalkot 587102, Karnataka, India.

Molecular Biomedicine Laboratory, PG Department of Biotechnology, Sahyadri Science College, Shimoga 577203, Karnataka, India.

出版信息

Comput Biol Chem. 2015 Dec;59 Pt A:81-6. doi: 10.1016/j.compbiolchem.2015.09.008. Epub 2015 Sep 18.

DOI:10.1016/j.compbiolchem.2015.09.008

PMID:26414950

Abstract

Multiple ligand simultaneous docking, a computational approach is used to study the concurrent interactions between substrate and the macromolecule binding together in the presence of an inhibitor. The present investigation deals with the study of the effect of different inhibitors on binding of substrate to the protein Polyphenoloxidase (PPO). The protein was isolated from Mucuna pruriens and confirmed as tyrosinases involved in L-DOPA production. The activity was measured using different inhibitors at different concentrations taking catechol as substrate. A high-throughput binding study was conducted to compare the binding orientations of individual ligands and multiple ligands employing Autodock 4.2. The results of single substrate docking showed a better binding of urea with the binding energy of -3.48 kJ mol(-1) and inter molecular energy of -3.48 kJ mol(-1) while the results of MLSD revealed that ascorbic acid combined with the substrate showed better inhibition with a decreased binding energy of -2.37 kJ mol(-1).

摘要

多配体同时对接是一种计算方法，用于研究在抑制剂存在的情况下底物与结合在一起的大分子之间的同时相互作用。本研究探讨了不同抑制剂对底物与多酚氧化酶（PPO）结合的影响。该蛋白质从刺毛黧豆中分离出来，并被确认为参与L - 多巴生产的酪氨酸酶。以儿茶酚为底物，使用不同浓度的不同抑制剂测量其活性。采用Autodock 4.2进行高通量结合研究，以比较单个配体和多个配体的结合方向。单底物对接结果显示尿素具有较好的结合，结合能为 - 3.48 kJ mol(-1)，分子间能量为 - 3.48 kJ mol(-1)，而多配体同时对接结果表明，与底物结合的抗坏血酸表现出更好的抑制作用，结合能降低至 - 2.37 kJ mol(-1)。

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多配体同时对接（MLSD）：一种研究抑制剂对底物与PPO结合影响的新方法。

Multiple ligand simultaneous docking (MLSD): A novel approach to study the effect of inhibitors on substrate binding to PPO.

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