通过计算和实验确定trpzip1及其突变体的相对稳定性。

The relative stability of trpzip1 and its mutants determined by computation and experiment.

作者信息

Bureau Hailey R, Quirk Stephen, Hernandez Rigoberto

机构信息

Department of Chemistry, Johns Hopkins University Baltimore MD 21218 USA

Kimberly-Clark Corporation Atlanta GA 30076-2199 USA.

出版信息

RSC Adv. 2020 Feb 12;10(11):6520-6535. doi: 10.1039/d0ra00920b. eCollection 2020 Feb 7.

DOI:10.1039/d0ra00920b

PMID:35495997

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9049704/

Abstract

Six mutants of the tryptophan zipper peptide trpzip1 have been computationally and experimentally characterized. We determine the varying roles in secondary structure stability of specific residues through a mutation assay. Four of the mutations directly effect the Trp-Trp interactions and two of the mutations target the salt bridge between Glu5 and Lys8. CD spectra and thermal unfolding are used to determine the secondary structure and stability of the mutants compared to the wildtype peptide. Adaptive steered molecular dynamics has been used to obtain the energetics of the unfolding pathways of the mutations. The hydrogen bonding patterns and side-chain interactions over the course of unfolding have also been calculated and compared to wildtype trpzip1. The key finding from this work is the importance of a stabilizing non-native salt bridge pair present in the K8L mutation.

摘要

已通过计算和实验对色氨酸拉链肽trpzip1的六个突变体进行了表征。我们通过突变试验确定特定残基在二级结构稳定性中的不同作用。其中四个突变直接影响色氨酸-色氨酸相互作用，另外两个突变针对Glu5和Lys8之间的盐桥。与野生型肽相比，利用圆二色谱（CD）光谱和热变性来确定突变体的二级结构和稳定性。采用自适应引导分子动力学来获得突变体展开途径的能量学信息。还计算了展开过程中的氢键模式和侧链相互作用，并与野生型trpzip1进行了比较。这项工作的关键发现是K8L突变中存在的稳定非天然盐桥对的重要性。

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通过计算和实验确定trpzip1及其突变体的相对稳定性。

The relative stability of trpzip1 and its mutants determined by computation and experiment.

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