The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution

The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution

Membrane proteins are difficult to work with due to their insolubility in aqueous solution and quite often their poor stability in detergent micelles. Here, we present the peptidisc for their facile capture into water-soluble particles. Unlike the nanodisc, which requires scaffold proteins of differ...

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Main Authors: Michael Luke Carlson, John William Young, Zhiyu Zhao, Lucien Fabre, Daniel Jun, Jianing Li, Jun Li, Harveer Singh Dhupar, Irvin Wason, Allan T Mills, J Thomas Beatty, John S Klassen, Isabelle Rouiller, Franck Duong
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2018-08-01
Series:eLife
Subjects:
peptide
membrane protein
nanoparticles
structural biology
self-assembly
Online Access:https://elifesciences.org/articles/34085
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spelling doaj-0edeac83e53d4480a4c7cb9a8148089c2021-05-05T16:06:01ZengeLife Sciences Publications LtdeLife2050-084X2018-08-01710.7554/eLife.34085The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solutionMichael Luke Carlson0https://orcid.org/0000-0002-3807-6516John William Young1Zhiyu Zhao2Lucien Fabre3Daniel Jun4Jianing Li5Jun Li6Harveer Singh Dhupar7Irvin Wason8Allan T Mills9J Thomas Beatty10John S Klassen11https://orcid.org/0000-0002-3389-7112Isabelle Rouiller12Franck Duong13https://orcid.org/0000-0001-7328-6124Department of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Anatomy and Cell Biology, McGill University, Montreal, Canada; Department of Microbiology and Immunology, University of British Columbia, Vancouver, CanadaGlycomics Centre and Department of Chemistry, University of Alberta, Alberta, CanadaGlycomics Centre and Department of Chemistry, University of Alberta, Alberta, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaDepartment of Microbiology and Immunology, University of British Columbia, Vancouver, CanadaGlycomics Centre and Department of Chemistry, University of Alberta, Alberta, CanadaDepartment of Anatomy and Cell Biology, McGill University, Montreal, CanadaDepartment of Biochemistry and Molecular Biology, Faculty of Medicine, Life Sciences Institute, University of British Columbia, Vancouver, CanadaMembrane proteins are difficult to work with due to their insolubility in aqueous solution and quite often their poor stability in detergent micelles. Here, we present the peptidisc for their facile capture into water-soluble particles. Unlike the nanodisc, which requires scaffold proteins of different lengths and precise amounts of matching lipids, reconstitution of detergent solubilized proteins in peptidisc only requires a short amphipathic bi-helical peptide (NSPr) and no extra lipids. Multiple copies of the peptide wrap around to shield the membrane-exposed part of the target protein. We demonstrate the effectiveness of this ‘one size fits all’ method using five different membrane protein assemblies (MalFGK2, FhuA, SecYEG, OmpF, BRC) during ‘on-column’, ‘in-gel’, and ‘on-bead’ reconstitution embedded within the membrane protein purification protocol. The peptidisc method is rapid and cost-effective, and it may emerge as a universal tool for high-throughput stabilization of membrane proteins to advance modern biological studies.https://elifesciences.org/articles/34085peptidemembrane proteinnanoparticlesstructural biologyself-assembly
collection DOAJ
language English
format Article
sources DOAJ
author Michael Luke Carlson
John William Young
Zhiyu Zhao
Lucien Fabre
Daniel Jun
Jianing Li
Jun Li
Harveer Singh Dhupar
Irvin Wason
Allan T Mills
J Thomas Beatty
John S Klassen
Isabelle Rouiller
Franck Duong
spellingShingle Michael Luke Carlson
John William Young
Zhiyu Zhao
Lucien Fabre
Daniel Jun
Jianing Li
Jun Li
Harveer Singh Dhupar
Irvin Wason
Allan T Mills
J Thomas Beatty
John S Klassen
Isabelle Rouiller
Franck Duong
The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
eLife
peptide
membrane protein
nanoparticles
structural biology
self-assembly
author_facet Michael Luke Carlson
John William Young
Zhiyu Zhao
Lucien Fabre
Daniel Jun
Jianing Li
Jun Li
Harveer Singh Dhupar
Irvin Wason
Allan T Mills
J Thomas Beatty
John S Klassen
Isabelle Rouiller
Franck Duong
author_sort Michael Luke Carlson
title The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
title_short The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
title_full The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
title_fullStr The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
title_full_unstemmed The Peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
title_sort peptidisc, a simple method for stabilizing membrane proteins in detergent-free solution
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2018-08-01
description Membrane proteins are difficult to work with due to their insolubility in aqueous solution and quite often their poor stability in detergent micelles. Here, we present the peptidisc for their facile capture into water-soluble particles. Unlike the nanodisc, which requires scaffold proteins of different lengths and precise amounts of matching lipids, reconstitution of detergent solubilized proteins in peptidisc only requires a short amphipathic bi-helical peptide (NSPr) and no extra lipids. Multiple copies of the peptide wrap around to shield the membrane-exposed part of the target protein. We demonstrate the effectiveness of this ‘one size fits all’ method using five different membrane protein assemblies (MalFGK2, FhuA, SecYEG, OmpF, BRC) during ‘on-column’, ‘in-gel’, and ‘on-bead’ reconstitution embedded within the membrane protein purification protocol. The peptidisc method is rapid and cost-effective, and it may emerge as a universal tool for high-throughput stabilization of membrane proteins to advance modern biological studies.
topic peptide
membrane protein
nanoparticles
structural biology
self-assembly
url https://elifesciences.org/articles/34085
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