Mass Photometry of Membrane Proteins
Olerinyova, Anna; Sonn-Segev, Adar; Gault, Joseph; Eichmann, Cédric; Schimpf, Johannes; Kopf, Adrian H.; Rudden, Lucas S.P.; Ashkinadze, Dzmitry; Bomba, Radoslaw; Frey, Lukas; Greenwald, Jason; Degiacomi, Matteo T.; Steinhilper, Ralf; Killian, J. Antoinette; Friedrich, Thorsten; Riek, Roland; Struwe, Weston B.; Kukura, Philipp
(2021) Chem, volume 7, issue 1, pp. 224 - 236
(Article)
Abstract
Integral membrane proteins (IMPs) are biologically highly significant but challenging to study because they require maintaining a cellular lipid-like environment. Here, we explore the application of mass photometry (MP) to IMPs and membrane-mimetic systems at the single-particle level. We apply MP to amphipathic vehicles, such as detergents and amphipols, as
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well as to lipid and native nanodiscs, characterizing the particle size, sample purity, and heterogeneity. Using methods established for cryogenic electron microscopy, we eliminate detergent background, enabling high-resolution studies of membrane-protein structure and interactions. We find evidence that, when extracted from native membranes using native styrene-maleic acid nanodiscs, the potassium channel KcsA is present as a dimer of tetramers-in contrast to results obtained using detergent purification. Finally, using lipid nanodiscs, we show that MP can help distinguish between functional and non-functional nanodisc assemblies, as well as determine the critical factors for lipid nanodisc formation.
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Keywords: amphipol, detergent micelle, label-free, mass photometry, membrane proteins, nanodisc, SDG3: Good health and well-being, single-molecule, General Chemistry, Biochemistry, Environmental Chemistry, General Chemical Engineering, Biochemistry, medical, Materials Chemistry
ISSN: 2451-9308
Publisher: Cell Press
Note: Funding Information: The datasets supporting this study are available through the Oxford Research Archive at https://doi.org/10.5287/bodleian:5zNMEZY0G.P.K. is supported by an ERC Consolidator grant (PHOTOMASS 819593). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen's College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1. W.B.S. was supported by Refeyn Ltd. The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202. We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Concept, W.B.S. and P.K.; Methodology, A.O. A.S.S. J. Gault, W.B.S. P.K.; Investigation, A.O. A.S.S. J. Greenwald, D.A. R.B. C.E. J.S. A.H.K. L.S.P.R. M.T.D. and L.F.; Formal Analysis, A.O. and A.S.S.; Writing ? Original Draft, W.B.S. and P.K.; Writing ? Review & Editing, all authors; Visualization, A.O. A.S.S. W.B.S. and P.K.; Supervision: J. Gault, J.A.K. T.F. A.S.S. R.R. W.B.S. and P.K. P.K. is a director, founder, and shareholder in Refeyn Ltd. W.B.S. is a shareholder and consultant to Refeyn Ltd. All other authors declare no conflict of interest. Funding Information: P.K. is supported by an ERC Consolidator grant ( PHOTOMASS 819593 ). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen’s College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1 . W.B.S. was supported by Refeyn Ltd . The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202 . We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Publisher Copyright: © 2020 The Authors
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