AI Article Synopsis
- Integral membrane proteins (IMPs) are important but difficult to study due to their need for a lipid-like environment, and this text discusses using mass photometry (MP) for analyzing IMPs and membrane-mimetic systems at the single-particle level.
- MP is applied to various amphipathic vehicles and demonstrates the ability to assess particle size, purity, and heterogeneity while eliminating detergent backgrounds for clearer studies of membrane-protein structures.
- The research reveals that the potassium channel KcsA forms a dimer of tetramers when extracted using native nanodiscs, contrary to findings from detergent methods, and MP is shown to differentiate functional from non-functional nanodisc assemblies.
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 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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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7815066 | PMC |
| http://dx.doi.org/10.1016/j.chempr.2020.11.011 | DOI Listing |
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