恒 pH 分子动力学（CpHMD）和分子对接研究 CquiOBP1 诱导配体释放机制的 pH 值变化。

Constant pH molecular dynamics (CpHMD) and molecular docking studies of CquiOBP1 pH-induced ligand releasing mechanism.

机构信息

State Key Laboratory of Theoretical and Computational Chemistry, Institute of Theoretical Chemistry, Jilin University, Changchun 130023, People's Republic of China.

出版信息

J Mol Model. 2013 Mar;19(3):1301-9. doi: 10.1007/s00894-012-1680-0. Epub 2012 Nov 24.

DOI:10.1007/s00894-012-1680-0

PMID:23179772

Abstract

The odorant binding protein of Culex quinquefasciatus (CquiOBP1), expressed on the insect antenna, is crucial for the investigation of trapping baited with oviposition semi-chemicals and controlling mosquito populations. The acidic titratable residues pKa prediction and the ligand binding poses investigation in two systems (pH 7 and pH 5) are studied by constant pH molecular dynamics (CpHMD) and molecular docking methods. Research results reveal that the change of the protonation states would disrupt some important H-bonds, such as Asp 66-Asp 70, Glu 105-Asn 102, etc. The cleavage of these H-bonds leads to the movement of the relative position of hydrophobic tunnel, N- and C- termini loops and pH-sensing triad (His23-Tyr54-Val125) in acid solution. Ligand MOP has lower affinity and shows different binding poses to protein CquiOBP1 at pH 5. This ligand may be released from another tunnel between helices α3 and α4 in acidic environment. However, it would bind to the protein with high affinity in neutral environment. This work could provide more penetrating understanding of the pH-induced ligand-releasing mechanism.

摘要

致倦库蚊气味结合蛋白（CquiOBP1）在昆虫触角上表达，对于利用产卵半化学物质诱捕和控制蚊虫种群的研究至关重要。通过恒 pH 分子动力学（CpHMD）和分子对接方法研究了两个系统（pH7 和 pH5）中酸性可滴定残基 pKa 预测和配体结合构象。研究结果表明，质子化状态的变化会破坏一些重要的氢键，如 Asp66-Asp70、Glu105-Asn102 等。这些氢键的断裂导致疏水性隧道、N 端和 C 端环以及 pH 感应三联体（His23-Tyr54-Val125）的相对位置在酸性溶液中发生移动。配体 MOP 在 pH5 时与蛋白 CquiOBP1 的亲和力较低，且呈现不同的结合构象。在酸性环境中，这种配体可能从α3 和α4 螺旋之间的另一个隧道中释放出来。然而，在中性环境中，它会与蛋白高亲和力结合。这项工作可以提供对 pH 诱导配体释放机制的更深入理解。

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恒 pH 分子动力学（CpHMD）和分子对接研究 CquiOBP1 诱导配体释放机制的 pH 值变化。

Constant pH molecular dynamics (CpHMD) and molecular docking studies of CquiOBP1 pH-induced ligand releasing mechanism.

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