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2
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3
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Nat Commun. 2016 Feb 24;7:10794. doi: 10.1038/ncomms10794.

分子动力学和伞状抽样模拟阐明肌钙蛋白 C 异构体和突变疏水区暴露的差异。

Molecular Dynamics and Umbrella Sampling Simulations Elucidate Differences in Troponin C Isoform and Mutant Hydrophobic Patch Exposure.

机构信息

Department of Chemistry and Biochemistry , Ohio State University , Columbus , Ohio 43210 , United States.

出版信息

J Phys Chem B. 2018 Aug 16;122(32):7874-7883. doi: 10.1021/acs.jpcb.8b05435. Epub 2018 Aug 2.

DOI:10.1021/acs.jpcb.8b05435
PMID:30070845
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6098415/
Abstract

Troponin C (TnC) facilitates muscle contraction through calcium-binding within its N-terminal region (NTnC). As previously observed using molecular dynamics (MD) simulations, this calcium-binding event leads to an increase in the dynamics of helices lining a hydrophobic patch on TnC. Simulation times of multiple microseconds were required to even see a partial opening of the hydrophobic patch, limiting the ability to thoroughly and quantitatively investigate these rare events. Here we describe the application of umbrella sampling to probe the TnC hydrophobic patch opening in a more targeted and quantitative fashion. Umbrella sampling was utilized to investigate the differences in the free energy of opening between cardiac (cTnC) and fast skeletal TnC (sTnC). We found that, in agreement with previous reports, holo (calcium-bound) sTnC had a lower free energy of opening compared with holo cTnC. Additionally, differences in the free energy of opening of hypertrophic (HCM) and dilated cardiomyopathy (DCM) cTnC systems were investigated. MD simulations and umbrella sampling revealed a lower free energy of opening for the HCM mutations A8V and A31S, as well as the calcium-sensitizing mutation L48Q. The DCM mutations, Y5H, Q50R, and E59D/D75Y, all exhibited a higher free energy of opening. An umbrella sampling simulation of cTnI-bound holo cTnC exhibited the lowest free energy in the open configuration, in agreement with experimental data. In conclusion, this study presents a novel and successful protocol for applying umbrella sampling simulations to quantitatively study the molecular basis of muscle contraction and proposes a mechanism by which HCM and DCM-associated mutations influence contraction.

摘要

肌钙蛋白 C(TnC)通过其 N 端区域(NTnC)与钙结合来促进肌肉收缩。如先前使用分子动力学(MD)模拟所观察到的,这种钙结合事件导致排列在 TnC 疏水性斑块上的螺旋的动力学增加。即使看到疏水性斑块的部分打开,也需要多个微秒的模拟时间,从而限制了彻底和定量研究这些罕见事件的能力。在这里,我们描述了应用伞状采样以更有针对性和定量的方式探测 TnC 疏水性斑块打开的情况。伞状采样用于研究心脏(cTnC)和快速骨骼肌 TnC(sTnC)之间打开的自由能差异。我们发现,与先前的报道一致,与 holo(钙结合)sTnC 相比,holo cTnC 的打开自由能更低。此外,还研究了肥厚性心肌病(HCM)和扩张型心肌病(DCM)cTnC 系统的打开自由能差异。MD 模拟和伞状采样揭示了 HCM 突变 A8V 和 A31S 以及钙敏化突变 L48Q 的打开自由能更低。DCM 突变 Y5H、Q50R 和 E59D/D75Y 均表现出更高的打开自由能。cTnI 结合的 holo cTnC 的伞状采样模拟显示了打开构象中的最低自由能,与实验数据一致。总之,本研究提出了一种新颖且成功的方案,用于应用伞状采样模拟来定量研究肌肉收缩的分子基础,并提出了 HCM 和 DCM 相关突变影响收缩的机制。