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HIV逆转录酶的酶选择性:构象、配体与自由能分配

Enzyme Selectivity of HIV Reverse Transcriptase: Conformations, Ligands, and Free Energy Partition.

作者信息

Kirmizialtin Serdal, Johnson Kenneth A, Elber Ron

机构信息

Chemistry Program, New York University at Abu Dhabi , PO Box 129188, Abu Dhabi, United Arab Emirates.

出版信息

J Phys Chem B. 2015 Sep 3;119(35):11513-26. doi: 10.1021/acs.jpcb.5b05467. Epub 2015 Aug 14.

DOI:10.1021/acs.jpcb.5b05467
PMID:26225641
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4623308/
Abstract

Atomically detailed simulations of HIV RT are performed to investigate the contributions of the conformational transition to the overall rate and specificity of enzyme catalysis. A number of different scenarios are considered within Milestoning theory to provide a more complete picture of the process of opening and closing the enzyme. We consider the open to closed transition in the absence of and with the correct and incorrect substrates. We also consider the free energy profile and the kinetics of the conformational change after the chemistry step in which a new base was added to the DNA, but the DNA was not yet displaced. We partition the free energy along the reaction coordinate and analyze the importance of different protein domains. Strikingly, significant influence on the free energy profile is detected for amino acids far from the active site. The overall long-range impact is about 50 percent of the total. We also illustrate that the overall rate is not necessarily determined by the highest free energy barrier along the reaction path (with respect to the free enzyme and substrate) and that the specificity is not necessarily determined by the same reaction step that determines the rate.

摘要

对HIV逆转录酶进行原子水平的详细模拟,以研究构象转变对酶催化的整体速率和特异性的贡献。在里程碑理论中考虑了许多不同的情况,以更全面地了解酶的打开和关闭过程。我们考虑了在不存在底物、存在正确底物和错误底物的情况下从开放到关闭的转变。我们还考虑了化学步骤(其中一个新碱基添加到DNA中,但DNA尚未被置换)之后构象变化的自由能分布和动力学。我们沿着反应坐标划分自由能,并分析不同蛋白质结构域的重要性。令人惊讶的是,检测到远离活性位点的氨基酸对自由能分布有显著影响。整体远程影响约占总量的50%。我们还表明,整体速率不一定由反应路径上(相对于游离酶和底物)的最高自由能垒决定,特异性也不一定由决定速率的相同反应步骤决定。

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