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Mass photometry enables label-free tracking and mass measurement of single proteins on lipid bilayers

Eric D. Foley, Manish S. Kushwah, Gavin Young, Philipp Kukura

2021Nature Methods130 citationsDOIOpen Access PDF

Abstract

The quantification of membrane-associated biomolecular interactions is crucial to our understanding of various cellular processes. State-of-the-art single-molecule approaches rely largely on the addition of fluorescent labels, which complicates the quantification of the involved stoichiometries and dynamics because of low temporal resolution and the inherent limitations associated with labeling efficiency, photoblinking and photobleaching. Here, we demonstrate dynamic mass photometry, a method for label-free imaging, tracking and mass measurement of individual membrane-associated proteins diffusing on supported lipid bilayers. Application of this method to the membrane remodeling GTPase, dynamin-1, reveals heterogeneous mixtures of dimer-based oligomers, oligomer-dependent mobilities, membrane affinities and (dis)association of individual complexes. These capabilities, together with assay-based advances for studying integral membrane proteins, will enable the elucidation of biomolecular mechanisms in and on lipid bilayers.

Topics & Concepts

Lipid bilayerBiophysicsPhotobleachingMembraneGTPaseChemistryOligomerMembrane proteinFluorescence recovery after photobleachingDimerFluorescenceBiologyBiochemistryPhysicsOrganic chemistryQuantum mechanicsLipid Membrane Structure and BehaviorAdvanced Fluorescence Microscopy TechniquesCellular transport and secretion
Mass photometry enables label-free tracking and mass measurement of single proteins on lipid bilayers | Litcius