洛氏酸甲基转移酶的反应机制：分子动力学模拟和量子力学研究。

The Reaction Mechanism of Loganic Acid Methyltransferase: A Molecular Dynamics Simulation and Quantum Mechanics Study.

机构信息

Department of Organic and Physical Chemistry, Faculty of Pharmacy, Medical University of Warsaw, Banacha 1, 02-093 Warsaw, Poland.

出版信息

Molecules. 2023 Jul 30;28(15):5767. doi: 10.3390/molecules28155767.

DOI:10.3390/molecules28155767

PMID:37570737

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10420828/

Abstract

In this work, the catalytic mechanism of loganic acid methyltransferase was characterized at the molecular level. This enzyme is responsible for the biosynthesis of loganin, which is a precursor for a wide range of biologically active compounds. Due to the lack of detailed knowledge about this process, the aim of this study was the analysis of the structure and activity of loganic acid methyltransferase. Using molecular dynamics (MD) simulations, the native structure of the complex was reconstructed, and the key interactions between the substrate and loganic acid methyltransferase were investigated. Subsequently, the structures obtained from the simulations were used for quantum chemical (QM) calculations. The QM calculations allowed for the exploration of the energetic aspects of the reaction and the characterization of its mechanism. The results obtained in this study suggest the existence of two patterns of interactions between loganic acid methyltransferase and the substrate. The role of residue Q38 in the binding and orientation of the substrate's carboxyl group was also demonstrated. By employing a combined MD and QM approach, the experimental reaction barrier was reproduced, and detailed insights into the enzymatic activity mechanism of loganic acid methyltransferase were revealed.

摘要

在这项工作中，我们从分子水平上对(loganic acid methyltransferase，马鞭草新苷酸甲基转移酶)的催化机制进行了研究。这种酶负责(loganin，马钱苷酸)的生物合成，而(loganin，马钱苷酸)是许多具有生物活性的化合物的前体。由于对这一过程缺乏详细的了解，本研究的目的是分析(loganic acid methyltransferase，马鞭草新苷酸甲基转移酶)的结构和活性。本研究通过分子动力学 (MD) 模拟，重建了该复合物的天然结构，并研究了(loganic acid methyltransferase，马鞭草新苷酸甲基转移酶)与底物之间的关键相互作用。随后，我们使用从模拟中获得的结构进行量子化学 (QM) 计算。QM 计算可以探索反应的能量方面，并对其机制进行表征。本研究的结果表明(loganic acid methyltransferase，马鞭草新苷酸甲基转移酶)与底物之间存在两种相互作用模式。此外，还证明了残基 Q38 在结合和定向底物的羧基方面的作用。通过采用 MD 和 QM 相结合的方法，我们重现了实验反应的势垒，并揭示了(loganic acid methyltransferase，马鞭草新苷酸甲基转移酶)的酶促活性机制的详细信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e4e6/10420828/ad10776a8f40/molecules-28-05767-g001.jpg

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洛氏酸甲基转移酶的反应机制：分子动力学模拟和量子力学研究。

The Reaction Mechanism of Loganic Acid Methyltransferase: A Molecular Dynamics Simulation and Quantum Mechanics Study.

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