三甲基胺 N-氧化物对蛋白质骨架的影响：寡聚甘氨酸模型。

Trimethylamine N-oxide influence on the backbone of proteins: an oligoglycine model.

机构信息

Graduate Program in Structural and Computational Biology and Molecular Biophysics, Baylor College of Medicine, Houston, Texas, USA.

出版信息

Proteins. 2010 Feb 15;78(3):695-704. doi: 10.1002/prot.22598.

DOI:10.1002/prot.22598

PMID:19790265

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2805780/

Abstract

The study of organic osmolytes has been pivotal in demonstrating the role of solvent effects on the protein backbone in the folding process. Although a thermodynamic description of the interactions between the protein backbone and osmolyte has been well defined, the structural analysis of the effect of osmolyte on the protein backbone has been incomplete. Therefore, we have performed simulations of a peptide backbone model, glycine(15), in protecting osmolyte trimethylamine N-oxide (TMAO) solution, in order to determine the effect of the solution structure on the conformation of the peptide backbone. We show that the models chosen show that the ensemble of backbone structures shifts toward a more collapsed state in TMAO solution as compared with pure water solution. The collapse is consistent with preferential exclusion of the osmolyte caused by unfavorable interactions between osmolyte and peptide backbone. The exclusion is caused by strong triplet correlations of osmolyte, water, and peptide backbone. This provides a clear mechanism showing that even a modest concentration of TMAO forces the protein backbone to adopt a more collapsed structure in the absence of side chain effects.

摘要

有机渗透物的研究对于证明溶剂效应对蛋白质骨架在折叠过程中的作用至关重要。尽管已经很好地定义了蛋白质骨架与渗透物之间相互作用的热力学描述，但渗透物对蛋白质骨架的结构分析还不完整。因此，我们对甘氨酸（15）肽骨架模型进行了模拟，以研究保护渗透物三甲胺 N-氧化物（TMAO）溶液中的肽骨架，以确定溶液结构对肽骨架构象的影响。我们表明，所选择的模型表明，与纯水溶液相比，肽骨架结构的整体向更折叠的状态转移。这种折叠与渗透物和肽骨架之间的不利相互作用导致渗透物的优先排斥一致。排斥是由渗透物、水和肽骨架的强三重相关引起的。这提供了一个明确的机制，表明即使 TMAO 的浓度适中，也会迫使蛋白质骨架在没有侧链效应的情况下采用更折叠的结构。

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