Hsin-Yung Yen
Electrospray ionization of native membrane proteins proceeds via a charge equilibration step
Yen, Hsin-Yung; Abramsson, Mia L.; Agasid, Mark T.; Lama, Dilraj; Gault, Joseph; Liko, Idlir; Kaldmäe, Margit; Saluri, Mihkel; Qureshi, Abdul Aziz; Suades, Albert; Drew, David; Degiacomi, Matteo T.; Marklund, Erik G.; Allison, Timothy M.; Robinson, Carol V.; Landreh, Michael
Authors
Mia L. Abramsson
Mark T. Agasid
Dilraj Lama
Joseph Gault
Idlir Liko
Margit Kaldmäe
Mihkel Saluri
Abdul Aziz Qureshi
Albert Suades
David Drew
Matteo Degiacomi matteo.t.degiacomi@durham.ac.uk
Part Time Teacher
Erik G. Marklund
Timothy M. Allison
Carol V. Robinson
Michael Landreh
Abstract
Electrospray ionization mass spectrometry is increasingly applied to study the structures and interactions of membrane protein complexes. However, the charging mechanism is complicated by the presence of detergent micelles during ionization. Here, we show that the final charge of membrane proteins can be predicted by their molecular weight when released from the non-charge reducing saccharide detergents. Our data indicate that PEG detergents lower the charge depending on the number of detergent molecules in the surrounding micelle, whereas fos-choline detergents may additionally participate in ion–ion reactions after desolvation. The supercharging reagent sulfolane, on the other hand, has no discernible effect on the charge of detergent-free membrane proteins. Taking our observations into the context of protein-detergent interactions in the gas phase, we propose a charge equilibration model for the generation of native-like membrane protein ions. During ionization of the protein-detergent complex, the ESI charges are distributed between detergent and protein according to proton affinity of the detergent, number of detergent molecules, and surface area of the protein. Charge equilibration influenced by detergents determines the final charge state of membrane proteins. This process likely contributes to maintaining a native-like fold after detergent release and can be harnessed to stabilize particularly labile membrane protein complexes in the gas phase.
Citation
Yen, H.-Y., Abramsson, M. L., Agasid, M. T., Lama, D., Gault, J., Liko, I., Kaldmäe, M., Saluri, M., Qureshi, A. A., Suades, A., Drew, D., Degiacomi, M. T., Marklund, E. G., Allison, T. M., Robinson, C. V., & Landreh, M. (2022). Electrospray ionization of native membrane proteins proceeds via a charge equilibration step. RSC Advances, 12(16), 9671-9680. https://doi.org/10.1039/d2ra01282k
| Journal Article Type | Article |
|---|---|
| Acceptance Date | Mar 21, 2022 |
| Online Publication Date | Apr 1, 2022 |
| Publication Date | 2022 |
| Deposit Date | Apr 6, 2022 |
| Publicly Available Date | Jun 30, 2022 |
| Journal | RSC Advances |
| Publisher | Royal Society of Chemistry |
| Peer Reviewed | Peer Reviewed |
| Volume | 12 |
| Issue | 16 |
| Pages | 9671-9680 |
| DOI | https://doi.org/10.1039/d2ra01282k |
| Public URL | https://durham-repository.worktribe.com/output/1209137 |
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This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence.
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