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Purification of molecular machines and nanomotors using phage-derived monoclonal antibody fragments

Abstract

Molecular machines and nanomotors are sophisticated biological assemblies that convert potential energy stored either in transmembrane ion gradients or in ATP into kinetic energy. Studying these highly dynamic biological devices by X-ray crystallography is challenging, as they are difficult to produce, purify, and crystallize. Phage display technology allows us to put a handle on these molecules in the form of highly specific antibody fragments that can also stabilize conformations and allow versatile labelling for electron microscopy, immunohistochemistry, and biophysics experiments.Here, we describe a widely applicable protocol for selecting high-affinity monoclonal antibody fragments against a complex molecular machine, the A-type ATPase from T. thermophilus that allows fast and simple purification of this transmembrane rotary motor from its wild-type source. The approach can be readily extended to other integral membrane proteins and protein complexes as well as to soluble molecular machines and nanomotors.

Type Journal
ISBN 1940-6029 (Electronic) 1064-3745 (Linking)
Authors Esteban, O.; Christ, D.; Stock, D.;
Publisher Name Methods in Molecular Biology
Published Date 2013-04-01
Published Volume 996
Published Pages 203-17
Status Published in-print
URL link to publisher's version http://www.ncbi.nlm.nih.gov/pubmed/23504426