利用纳米圆盘抗体噬菌体展示技术进行膜蛋白结构研究的构象伴侣蛋白

Conformational Chaperones for Structural Studies of Membrane Proteins Using Antibody Phage Display with Nanodiscs.

作者信息

Dominik Pawel K, Borowska Marta T, Dalmas Olivier, Kim Sangwoo S, Perozo Eduardo, Keenan Robert J, Kossiakoff Anthony A

机构信息

Department of Biochemistry and Molecular Biology, The University of Chicago, 929 East 57th Street, Chicago, IL 60637, USA.

出版信息

Structure. 2016 Feb 2;24(2):300-9. doi: 10.1016/j.str.2015.11.014. Epub 2015 Dec 31.

DOI:10.1016/j.str.2015.11.014

PMID:26749445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4740257/

Abstract

A major challenge in membrane biophysics is to define the mechanistic linkages between a protein's conformational transitions and its function. We describe a novel approach to stabilize transient functional states of membrane proteins in native-like lipid environments allowing for their structural and biochemical characterization. This is accomplished by combining the power of antibody Fab-based phage display selection with the benefits of embedding membrane protein targets in lipid-filled nanodiscs. In addition to providing a stabilizing lipid environment, nanodiscs afford significant technical advantages over detergent-based formats. This enables the production of a rich pool of high-performance Fab binders that can be used as crystallization chaperones, as fiducial markers for single-particle cryoelectron microscopy, and as probes of different conformational states. Moreover, nanodisc-generated Fabs can be used to identify detergents that best mimic native membrane environments for use in biophysical studies.

摘要

膜生物物理学中的一个主要挑战是确定蛋白质构象转变与其功能之间的机制联系。我们描述了一种新方法，可在类似天然的脂质环境中稳定膜蛋白的瞬时功能状态，以便对其进行结构和生化表征。这是通过将基于抗体Fab的噬菌体展示筛选的强大功能与将膜蛋白靶标嵌入脂质填充的纳米圆盘的优势相结合来实现的。除了提供稳定的脂质环境外，纳米圆盘还具有优于基于去污剂形式的显著技术优势。这使得能够产生大量高性能的Fab结合物，这些结合物可用作结晶伴侣、单颗粒冷冻电子显微镜的基准标记以及不同构象状态的探针。此外，纳米圆盘产生的Fab可用于鉴定最能模拟天然膜环境用于生物物理研究的去污剂。

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