Insights into the stability of engineered mini-proteins from their dynamic electronic properties

IF 2.9 Q3 CHEMISTRY, PHYSICAL Electronic Structure Pub Date : 2022-08-24 DOI:10.1088/2516-1075/ac8c73
A. Steeves, H. Kulik
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引用次数: 1

Abstract

An understanding of protein stability requires capturing dynamic rearrangements and coupled properties over long lengthscales. Nevertheless, the extent of coupling in these systems has typically only been studied for classical degrees of freedom. To understand the potential benefit of extending such analysis to the coupling of electronic structure properties, we have carried out extensive semi-empirical quantum mechanical molecular dynamics of two Trp-cage variants. Small differences in the sequence of the two peptides lead to differences in their thermal stability that are revealed through electronic structure coupling analysis. In comparison, we find limited evidence that geometric coupling can distinguish the behavior of the two peptides. We show that Asp1 in the more stable variant shows significantly enhanced coupling to both sequence-adjacent and more sequence-distant residues. Non-nearest-neighbor couplings are stronger in the more stable variant, indicating a network of residues that help stabilize the protein. Our study highlights the complementary benefit of charge coupling analysis to interpret protein structure-function relationships.
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从动态电子特性深入了解工程微型蛋白的稳定性
对蛋白质稳定性的理解需要捕获长长度尺度上的动态重排和耦合特性。然而,这些系统的耦合程度通常只对经典自由度进行了研究。为了了解将这种分析扩展到电子结构特性耦合的潜在好处,我们对两种Trp-cage变体进行了广泛的半经验量子力学分子动力学研究。通过电子结构耦合分析,揭示了两种肽序列的微小差异导致其热稳定性的差异。相比之下,我们发现有限的证据表明几何耦合可以区分两个肽的行为。我们发现,在更稳定的变异中,Asp1与序列邻近和更远的残基的偶联性显著增强。非最近邻偶联在更稳定的变体中更强,表明残基网络有助于稳定蛋白质。我们的研究强调了电荷耦合分析在解释蛋白质结构-功能关系方面的互补优势。
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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