肌动蛋白丝释放磷酸盐的机制。

Mechanism of Phosphate Release from Actin Filaments.

作者信息

Wang Yihang, Wu Jiangbo, Zsolnay Vilmos, Pollard Thomas D, Voth Gregory A

机构信息

Department of Chemistry, Chicago Center for Theoretical Chemistry, Institute for Biophysical Dynamics and James Frank Institute, University of Chicago, Chicago, IL.

Graduate Program in Biophysical Sciences, University of Chicago, Chicago, IL.

出版信息

bioRxiv. 2024 May 12:2023.08.03.551904. doi: 10.1101/2023.08.03.551904.

DOI:10.1101/2023.08.03.551904

PMID:37577500

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10418243/

Abstract

After ATP-actin monomers assemble filaments, the ATP's γ-phosphate is hydrolyzed within seconds and dissociates over minutes. We used all-atom molecular dynamics simulations to sample the release of phosphate from filaments and study residues that gate release. Dissociation of phosphate from Mg is rate limiting and associated with an energy barrier of 20 kcal/mol, consistent with experimental rates of phosphate release. Phosphate then diffuses in an internal cavity toward a gate formed by R177 suggested in prior computational studies and cryo-EM structures. The gate is closed when R177 hydrogen bonds with N111 and is open when R177 forms a salt bridge with D179. Most of the time interactions of R177 with other residues occludes the phosphate release pathway. Machine learning analysis reveals that the occluding interactions fluctuate rapidly, underscoring the secondary role of backdoor gate opening in P release, in contrast with the previous hypothesis that gate opening is the primary event.

摘要

ATP - 肌动蛋白单体组装成细丝后，ATP的γ - 磷酸在数秒内水解，并在数分钟内解离。我们使用全原子分子动力学模拟来采样细丝中磷酸盐的释放，并研究控制释放的残基。磷酸盐从镁上解离是限速步骤，并且与20千卡/摩尔的能垒相关，这与实验测得的磷酸盐释放速率一致。然后，磷酸盐在内腔中朝着先前计算研究和低温电子显微镜结构中所提示的由R177形成的门扩散。当R177与N111形成氢键时，门关闭；当R177与D179形成盐桥时，门打开。大多数时候，R177与其他残基的相互作用会阻塞磷酸盐释放途径。机器学习分析表明，阻塞性相互作用迅速波动，这突出了后门门打开在磷释放中的次要作用；相比之下，先前的假设是门打开是主要事件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b221/11105859/8d2a7b15cd11/nihpp-2023.08.03.551904v3-f0001.jpg

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肌动蛋白丝释放磷酸盐的机制。

Mechanism of Phosphate Release from Actin Filaments.

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