将极性核心引入从头设计的蛋白质Top7中。

Introduction of a polar core into the de novo designed protein Top7.

作者信息

Basanta Benjamin, Chan Kui K, Barth Patrick, King Tiffany, Sosnick Tobin R, Hinshaw James R, Liu Gaohua, Everett John K, Xiao Rong, Montelione Gaetano T, Baker David

机构信息

Department of Biochemistry, University of Washington, Seattle, Washington, 98195.

Institute for Protein Design, University of Washington, Seattle, Washington, 98195.

出版信息

Protein Sci. 2016 Jul;25(7):1299-307. doi: 10.1002/pro.2899. Epub 2016 Mar 7.

DOI:10.1002/pro.2899

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4918430/

Abstract

Design of polar interactions is a current challenge for protein design. The de novo designed protein Top7, like almost all designed proteins, has an entirely nonpolar core. Here we describe the replacing of a sizable fraction (5 residues) of this core with a designed polar hydrogen bond network. The polar core design is expressed at high levels in E. coli, has a folding free energy of 10 kcal/mol, and retains the multiphasic folding kinetics of the original Top7. The NMR structure of the design shows that conformations of three of the five residues, and the designed hydrogen bonds between them, are very close to those in the design model. The remaining two residues, which are more solvent exposed, sample a wide range of conformations in the NMR ensemble. These results show that hydrogen bond networks can be designed in protein cores, but also highlight challenges that need to be overcome when there is competition with solvent.

摘要

极性相互作用的设计是当前蛋白质设计面临的一项挑战。从头设计的蛋白质Top7与几乎所有设计的蛋白质一样，具有完全非极性的核心。在此，我们描述了用设计的极性氢键网络取代该核心中相当一部分（5个残基）的情况。极性核心设计在大肠杆菌中能高水平表达，具有10千卡/摩尔的折叠自由能，并保留了原始Top7的多相折叠动力学。该设计的核磁共振结构表明，五个残基中的三个残基的构象以及它们之间设计的氢键与设计模型中的非常接近。其余两个残基更易暴露于溶剂中，在核磁共振系综中呈现出广泛的构象。这些结果表明，可以在蛋白质核心中设计氢键网络，但也凸显了在与溶剂存在竞争时需要克服的挑战。

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