通过插入融合到嗜热宿主蛋白实现蛋白质稳定化的分子决定因素

Molecular Determinants for Protein Stabilization by Insertional Fusion to a Thermophilic Host Protein.

作者信息

Pierre Brennal, Labonte Jason W, Xiong Tina, Aoraha Edwin, Williams Asher, Shah Vandan, Chau Edward, Helal Kazi Yasin, Gray Jeffrey J, Kim Jin Ryoun

机构信息

Othmer-Jacobs Department of Chemical and Biomolecular Engineering, New York University, 6 MetroTech Center, Brooklyn, NY, 11201, USA.

Department of Chemical and Biomolecular Engineering, Johns Hopkins University, 3400 North Charles Street, Baltimore, MD, 21218, USA.

出版信息

Chembiochem. 2015 Nov 2;16(16):2392-402. doi: 10.1002/cbic.201500310. Epub 2015 Sep 22.

DOI:10.1002/cbic.201500310

PMID:26391210

Abstract

A universal method that improves protein stability and evolution has thus far eluded discovery. Recently, however, studies have shown that insertional fusion to a protein chaperone stabilized various target proteins with minimal negative effects. The improved stability was derived from insertion into a hyperthermophilic protein, Pyrococcus furiosus maltodextrin-binding protein (PfMBP), rather than from changes to the target protein sequence. In this report, by evaluating the thermodynamic and kinetic stability of various inserted β-lactamase (BLA) homologues, we were able to examine the molecular determinants of stability realized by insertional fusion to PfMBP. Results indicated that enhanced stability and suppressed aggregation of BLA stemmed from enthalpic and entropic mechanisms. This report also suggests that insertional fusion to a stable protein scaffold has the potential to be a useful method for improving protein stability, as well as functional protein evolution.

摘要

迄今为止，尚未发现一种能提高蛋白质稳定性并促进其进化的通用方法。然而，最近的研究表明，与蛋白质伴侣进行插入融合可使多种靶蛋白稳定，且负面影响最小。稳定性的提高源自插入嗜热栖热菌麦芽糖糊精结合蛋白（PfMBP）这一嗜热蛋白，而非靶蛋白序列的改变。在本报告中，通过评估各种插入的β-内酰胺酶（BLA）同源物的热力学和动力学稳定性，我们得以研究通过与PfMBP插入融合实现的稳定性的分子决定因素。结果表明，BLA稳定性增强和聚集受到抑制源于焓和熵机制。本报告还表明，与稳定的蛋白质支架进行插入融合有可能成为提高蛋白质稳定性以及实现功能性蛋白质进化的有用方法。

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通过插入融合到嗜热宿主蛋白实现蛋白质稳定化的分子决定因素

Molecular Determinants for Protein Stabilization by Insertional Fusion to a Thermophilic Host Protein.

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