The role of the detergent micelle in preserving the structure of membrane proteins in the gas phase

Eamonn Reading; Idlir Liko; Timothy M. Allison; Justin L.P. Benesch; Arthur Laganowsky; Carol V. Robinson

doi:10.1002/anie.201411622

The role of the detergent micelle in preserving the structure of membrane proteins in the gas phase

Eamonn Reading, Idlir Liko, Timothy M. Allison, Justin L.P. Benesch, Arthur Laganowsky, Carol V. Robinson

Chemistry

Research output: Contribution to journal › Article › peer-review

104 Citations (Scopus)

Abstract

Despite the growing importance of the mass spectrometry of membrane proteins, it is not known how their transfer from solution into vacuum affects their stability and structure. To address this we have carried out a systematic investigation of ten membrane proteins solubilized in different detergents and used mass spectrometry to gain physicochemical insight into the mechanism of their ionization and desolvation. We show that the chemical properties of the detergents mediate the charge state, both during ionization and detergent removal. Using ion mobility mass spectrometry, we monitor the conformations of membrane proteins and show how the surface charge density dictates the stability of folded states. We conclude that the gas-phase stability of membrane proteins is increased when a greater proportion of their surface is lipophilic and is consequently protected by the physical presence of the micelle.

Original language	English
Pages (from-to)	4577-4581
Number of pages	5
Journal	ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
Volume	54
Issue number	15
Early online date	18 Feb 2015
DOIs	https://doi.org/10.1002/anie.201411622
Publication status	Published - 1 Apr 2015

Keywords

Aquaporins/chemistry
Detergents/chemistry
Escherichia coli/chemistry
Escherichia coli Proteins/chemistry
Gases/chemistry
Humans
Mass Spectrometry/methods
Membrane Proteins/chemistry
Micelles
Models, Molecular
Protein Conformation
Protein Stability

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10.1002/anie.201411622

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title = "The role of the detergent micelle in preserving the structure of membrane proteins in the gas phase",

abstract = "Despite the growing importance of the mass spectrometry of membrane proteins, it is not known how their transfer from solution into vacuum affects their stability and structure. To address this we have carried out a systematic investigation of ten membrane proteins solubilized in different detergents and used mass spectrometry to gain physicochemical insight into the mechanism of their ionization and desolvation. We show that the chemical properties of the detergents mediate the charge state, both during ionization and detergent removal. Using ion mobility mass spectrometry, we monitor the conformations of membrane proteins and show how the surface charge density dictates the stability of folded states. We conclude that the gas-phase stability of membrane proteins is increased when a greater proportion of their surface is lipophilic and is consequently protected by the physical presence of the micelle. ",

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author = "Eamonn Reading and Idlir Liko and Allison, {Timothy M.} and Benesch, {Justin L.P.} and Arthur Laganowsky and Robinson, {Carol V.}",

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language = "English",

volume = "54",

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T1 - The role of the detergent micelle in preserving the structure of membrane proteins in the gas phase

AU - Reading, Eamonn

AU - Liko, Idlir

AU - Allison, Timothy M.

AU - Benesch, Justin L.P.

AU - Laganowsky, Arthur

AU - Robinson, Carol V.

PY - 2015/4/1

Y1 - 2015/4/1

N2 - Despite the growing importance of the mass spectrometry of membrane proteins, it is not known how their transfer from solution into vacuum affects their stability and structure. To address this we have carried out a systematic investigation of ten membrane proteins solubilized in different detergents and used mass spectrometry to gain physicochemical insight into the mechanism of their ionization and desolvation. We show that the chemical properties of the detergents mediate the charge state, both during ionization and detergent removal. Using ion mobility mass spectrometry, we monitor the conformations of membrane proteins and show how the surface charge density dictates the stability of folded states. We conclude that the gas-phase stability of membrane proteins is increased when a greater proportion of their surface is lipophilic and is consequently protected by the physical presence of the micelle.

AB - Despite the growing importance of the mass spectrometry of membrane proteins, it is not known how their transfer from solution into vacuum affects their stability and structure. To address this we have carried out a systematic investigation of ten membrane proteins solubilized in different detergents and used mass spectrometry to gain physicochemical insight into the mechanism of their ionization and desolvation. We show that the chemical properties of the detergents mediate the charge state, both during ionization and detergent removal. Using ion mobility mass spectrometry, we monitor the conformations of membrane proteins and show how the surface charge density dictates the stability of folded states. We conclude that the gas-phase stability of membrane proteins is increased when a greater proportion of their surface is lipophilic and is consequently protected by the physical presence of the micelle.

KW - Aquaporins/chemistry

KW - Detergents/chemistry

KW - Escherichia coli/chemistry

KW - Escherichia coli Proteins/chemistry

KW - Gases/chemistry

KW - Humans

KW - Mass Spectrometry/methods

KW - Membrane Proteins/chemistry

KW - Micelles

KW - Models, Molecular

KW - Protein Conformation

KW - Protein Stability

U2 - 10.1002/anie.201411622

DO - 10.1002/anie.201411622

M3 - Article

C2 - 25693501

SN - 1433-7851

VL - 54

SP - 4577

EP - 4581

JO - ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

JF - ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

IS - 15

ER -

The role of the detergent micelle in preserving the structure of membrane proteins in the gas phase

Abstract

Keywords

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