通过从高通量实验推断取代效应来提高蛋白质稳定性。

Increasing protein stability by inferring substitution effects from high-throughput experiments.

机构信息

Linderstrøm-Lang Centre for Protein Science, Department of Biology, University of Copenhagen, 2200 Copenhagen N, Denmark.

Department of Biotechnology and Biomedicine, Technical University of Denmark, 2800 Kgs. Lyngby, Denmark.

出版信息

Cell Rep Methods. 2022 Nov 14;2(11):100333. doi: 10.1016/j.crmeth.2022.100333. eCollection 2022 Nov 21.

DOI:10.1016/j.crmeth.2022.100333

PMID:36452862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9701609/

Abstract

We apply a computational model, global multi-mutant analysis (GMMA), to inform on effects of most amino acid substitutions from a randomly mutated gene library. Using a high mutation frequency, the method can determine mutations that increase the stability of even very stable proteins for which conventional selection systems have reached their limit. As a demonstration of this, we screened a mutant library of a highly stable and computationally redesigned model protein using an genetic sensor for folding and assigned a stability effect to 374 of 912 possible single amino acid substitutions. Combining the top 9 substitutions increased the unfolding energy 47 to 69 kJ/mol in a single engineering step. Crystal structures of stabilized variants showed small perturbations in helices 1 and 2, which rendered them closer in structure to the redesign template. This case study illustrates the capability of the method, which is applicable to any screen for protein function.

摘要

我们应用一种计算模型，即全局多突变分析（GMMA），来研究随机突变基因文库中大多数氨基酸取代的影响。该方法使用高突变频率，可以确定增加稳定性的突变，即使是对常规选择系统已达到极限的非常稳定的蛋白质也是如此。作为该方法的一个演示，我们使用折叠遗传传感器筛选了一个高度稳定的、经过重新设计的模型蛋白质的突变文库，并对 912 种可能的单个氨基酸取代中的 374 种进行了稳定性评估。将前 9 个取代组合在一起，在单个工程步骤中使展开能增加了 47 至 69 kJ/mol。稳定变体的晶体结构显示，螺旋 1 和 2 有微小的扰动，使其结构更接近重新设计的模板。这个案例研究说明了该方法的能力，该方法适用于任何蛋白质功能筛选。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ac1/9701609/6497f0dde634/fx1.jpg

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通过从高通量实验推断取代效应来提高蛋白质稳定性。

Increasing protein stability by inferring substitution effects from high-throughput experiments.

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