Quantifying the stabilizing effects of protein-ligand interactions in the gas phase.
Quantifying the stabilizing effects of protein-ligand interactions in the gas phase.
The effects of protein–ligand interactions on protein stability are typically monitored by a number of established solution-phase assays. Few translate readily to membrane proteins. We have developed an ion-mobility mass spectrometry approach, which discerns ligand binding to both soluble and membrane proteins directly via both changes in mass and ion mobility, and assesses the effects of these interactions on protein stability through measuring resistance to unfolding. Protein unfolding is induced through collisional activation, which causes changes in protein structure and consequently gas-phase mobility. This enables detailed characterization of the ligand-binding effects on the protein with unprecedented sensitivity. Here we describe the method and software required to extract from ion mobility data the parameters that enable a quantitative analysis of individual binding events. This methodology holds great promise for investigating biologically significant interactions between membrane proteins and both drugs and lipids that are recalcitrant to characterization by other means.
Allison, Timothy M
a70988e1-00fe-48e3-bc7b-f7b1429194a4
Reading, Eamonn
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Liko, Idlir
f28f7c78-abe5-4d15-b76a-37526e9d1b5a
Baldwin, Andrew J
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Laganowsky, Arthur
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Robinson, Carol V
46d5739a-f697-4f4c-9dec-8b27a4946ade
October 2015
Allison, Timothy M
a70988e1-00fe-48e3-bc7b-f7b1429194a4
Reading, Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Liko, Idlir
f28f7c78-abe5-4d15-b76a-37526e9d1b5a
Baldwin, Andrew J
1e88e9d1-6f95-48b9-8ef3-ae7122974ddc
Laganowsky, Arthur
2ffe8ede-3352-403e-8e4a-35ed2a5b1f17
Robinson, Carol V
46d5739a-f697-4f4c-9dec-8b27a4946ade
Allison, Timothy M, Reading, Eamonn, Liko, Idlir, Baldwin, Andrew J, Laganowsky, Arthur and Robinson, Carol V
(2015)
Quantifying the stabilizing effects of protein-ligand interactions in the gas phase.
Nature Communications, 6, [8551].
(doi:10.1038/ncomms9551).
Abstract
The effects of protein–ligand interactions on protein stability are typically monitored by a number of established solution-phase assays. Few translate readily to membrane proteins. We have developed an ion-mobility mass spectrometry approach, which discerns ligand binding to both soluble and membrane proteins directly via both changes in mass and ion mobility, and assesses the effects of these interactions on protein stability through measuring resistance to unfolding. Protein unfolding is induced through collisional activation, which causes changes in protein structure and consequently gas-phase mobility. This enables detailed characterization of the ligand-binding effects on the protein with unprecedented sensitivity. Here we describe the method and software required to extract from ion mobility data the parameters that enable a quantitative analysis of individual binding events. This methodology holds great promise for investigating biologically significant interactions between membrane proteins and both drugs and lipids that are recalcitrant to characterization by other means.
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Published date: October 2015
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Local EPrints ID: 478875
URI: http://eprints.soton.ac.uk/id/eprint/478875
ISSN: 2041-1723
PURE UUID: f57a972c-0237-4875-8e43-8e897337ce80
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Date deposited: 12 Jul 2023 16:36
Last modified: 17 Mar 2024 04:19
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Author:
Timothy M Allison
Author:
Eamonn Reading
Author:
Idlir Liko
Author:
Andrew J Baldwin
Author:
Arthur Laganowsky
Author:
Carol V Robinson
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