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Insights on pH-dependent conformational changes of mosquito odorant binding proteins by molecular dynamics simulations

机译:分子动力学模拟研究蚊子臭气结合蛋白的pH依赖构象变化的见解

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摘要

Chemical recognition plays an important role for the survival and reproduction of many insect species. Odorant binding proteins (OBPs) are the primary components of the insect olfactory mechanism and have been documented to play an important role in the host-seeking mechanism of mosquitoes. They are "transport proteins" believed to transport odorant molecules from the external environment to their respective membrane targets, the olfactory receptors. The mechanism by which this transport occurs in mosquitoes remains a conundrum in this field. Nevertheless, OBPs have proved to be amenable to conformational changes mediated by a pH change in other insect species. In this paper, the effect of pH on the conformational flexibility of mosquito OBPs is assessed computationally using molecular dynamics simulations of a mosquito OBP "CquiOBP1" bound to its pheromone 3OG (PDB ID: 3OGN). Conformational twist of a loop, driven by a set of well-characterized changes in intramolecular interactions of the loop, is demonstrated. The concomitant (i) closure of what is believed to be the entrance of the binding pocket, (ii) expansion of what could be an exit site, and (iii) migration of the ligand towards this putative exit site provide preliminary insights into the mechanism of ligand binding and release of these proteins in mosquitoes. The correlation of our results with previous experimental observations based on NMR studies help us provide a cardinal illustration on one of the probable dynamics and mechanism by which certain mosquito OBPs could deliver their ligand to their membrane-bound receptors at specific pH conditions.
机译:化学识别对许多昆虫物种的存活和繁殖起着重要作用。臭臭的结合蛋白(OBP)是昆虫嗅觉机制的主要成分,并被记录在蚊子的主机寻求机制中起着重要作用。它们是“传输蛋白质”,被认为将来自外部环境的气味分子运送到它们各自的膜靶,嗅觉受体。在蚊子中发生这种运输的机制仍然是该领域的难题。然而,已经证明,OBPS可以适用于由其他昆虫物种的pH变化介导的构象变化。在本文中,使用蚊子OBP“CQUIOBP1”的分子动力学模拟与其合情素30G(PDB ID:3Gogn)计算的分子动力学模拟来评估PH对蚊表户欧博特的构象灵活性的影响(PDB ID:3.ogn)。通过一组良好表征的环状变化驱动的环形扭曲,被证明了回路的分子内相互作用的良好变化。伴随的(i)封闭被认为是装订口袋的入口,(ii)膨胀可能是出口部位的膨胀,(iii)配体迁移对该推定出口的迁移提供了对机制的初步见解蚊子中这些蛋白质的配体结合和释放。我们的结果与基于NMR研究的先前实验观测结果有助于我们在其中一个可能的动态和机制上提供了一定的动态和机制,通过该动态和机制可以在特定的pH条件下将它们的配体递送到它们的膜结合受体之一。

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