小鼠丁香酚 O- 工厂受体中气味氢键诱导的结构动态交叉相关性的分子动力学模拟分析。

IF 1.6 Q4 BIOPHYSICS
Biophysics and physicobiology Pub Date : 2024-01-18 eCollection Date: 2024-01-01 DOI:10.2142/biophysico.bppb-v21.0007
Chisato Okamoto, Koji Ando
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引用次数: 0

摘要

通过分子动力学(MD)模拟研究了小鼠丁香酚嗅觉受体(Olfr73)的结构波动和动态交叉相关性,以描述配体结合时蛋白质的动态响应。由于目前缺乏实验数据,我们使用人工智能工具 AlphaFold2 生成了初始结构。我们重点研究了臭味剂丁香酚与受体蛋白的 Ser113、Asn207 和 Tyr260 之间的氢键(H),之前的实验研究表明了该氢键的重要性。在对接模拟中没有观察到该 H 键,但在随后的 MD 模拟中,与 Ser113 的 H 键在 2-4 ns 内形成。H 键的寿命为 1-20 ns。在具有最稳定(20 ns)H 键的轨迹上,通过计算均方根波动、动态交叉相关图和随时间变化的动态交叉相关,研究了受体主链 α 碳原子的结构波动。分析表明,配体结合诱导的相关转移途径为 Ser113 → Phe182 → (Leu259 或 Tyr260) → Tyr291,时间尺度为 4-6 ns。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular dynamics simulation analysis of structural dynamic cross correlation induced by odorant hydrogen-bonding in mouse eugenol ol- factory receptor.

Structural fluctuations and dynamic cross-correlations in the mouse eugenol olfactory receptor (Olfr73) were studied by molecular dynamics (MD) simulation to characterize the dynamic response of the protein upon ligand binding. The initial structure was generated by the artificial intelligence tool AlphaFold2 due to the current lack of experimental data. We focused on the hydrogen (H) bond of the odorant eugenol to Ser113, Asn207, and Tyr260 of the receptor protein, the importance of which has been suggested by previous experimental studies. The H-bond was not observed in docking simulations, but in subsequent MD simulations the H-bond to Ser113 was formed in 2-4 ns. The lifetime of the H-bond was in the range of 1-20 ns. On the trajectory with the most stable (20 ns) H-bond, the structural fluctuation of the α-carbon atoms of the receptor main chain was studied by calculating the root mean square fluctuations, the dynamic cross-correlation map, and the time-dependent dynamic cross-correlation. The analysis suggested a correlation transfer pathway Ser113 → Phe182 → (Leu259 or Tyr260) → Tyr291 induced by the ligand binding with a time scale of 4-6 ns.

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