金黄色葡萄球菌I型信号肽酶的动态性质

IF 3.2 3区生物学 Q2 BIOPHYSICS

Biophysical journal Pub Date : 2025-07-10 DOI:10.1016/j.bpj.2025.07.008

Jesper J. Madsen, Wenqi Yu

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引用次数: 0

摘要

利用分子动力学模拟研究了金黄色葡萄球菌I型信号肽酶SpsA和SpsB的动态特性，包括SpsB的P29S突变的影响。波动和可塑性-刚性特性在蛋白质之间变化，特别是在细胞外结构域。有趣的是，P29S突变影响了SpsB对阿霉素抗生素的敏感性，从而影响了SpsB的机械耦合运动。活性位点的完整性对于催化能力至关重要，并且样品中蛋白质结构构象的变化与两种SpsB变体中不同的肽酶能力一致。我们还探索了蛋白质与金黄色葡萄球菌模型膜之间复杂的相互作用。观察到，在残基50 （50s）和c端环周围的环中，某些膜插入残基超出了跨膜结构域，与双层膜中的脂质直接相互作用。我们的研究结果在关于这些信号肽酶的功能知识的背景下进行了讨论，提供了与一些细胞过程相关的动态方面的额外理解，对药物靶向策略和未来的实验验证具有潜在的影响。

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Dynamic Nature of Staphylococcus aureus Type I Signal Peptidases

Molecular dynamics simulations are used to interrogate the dynamic nature of Staphylococcus aureus Type I signal peptidases, SpsA and SpsB, including the impact of the P29S mutation of SpsB. Fluctuations and plasticity- rigidity characteristics vary among the proteins, particularly in the extracellular domain. Intriguingly, the P29S mutation, which influences susceptibility to arylomycin antibiotics, affects the mechanically coupled motions in SpsB. The integrity of the active site is crucial for catalytic competency, and variations in sampled structural conformations among the proteins are consistent with diverse peptidase capabilities among the two SpsB variants. We also explored the intricate interactions between the proteins and the model S. aureus membrane. It was observed that certain membrane-inserted residues in the loop around residue 50 (50s) and C-terminal loops, beyond the transmembrane domain, give rise to direct interactions with lipids in the bilayer membrane. Our findings are discussed in the context of functional knowledge about these signal peptidases, offering additional understanding of dynamic aspects relevant to some cellular processes with potential implications for drug targeting strategies and future experimental validation.

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来源期刊

Biophysical journal 生物-生物物理

CiteScore

6.10

自引率

5.90%

发文量

3090

审稿时长

2 months

期刊介绍： BJ publishes original articles, letters, and perspectives on important problems in modern biophysics. The papers should be written so as to be of interest to a broad community of biophysicists. BJ welcomes experimental studies that employ quantitative physical approaches for the study of biological systems, including or spanning scales from molecule to whole organism. Experimental studies of a purely descriptive or phenomenological nature, with no theoretical or mechanistic underpinning, are not appropriate for publication in BJ. Theoretical studies should offer new insights into the understanding ofexperimental results or suggest new experimentally testable hypotheses. Articles reporting significant methodological or technological advances, which have potential to open new areas of biophysical investigation, are also suitable for publication in BJ. Papers describing improvements in accuracy or speed of existing methods or extra detail within methods described previously are not suitable for BJ.