In biology, shape and function are related. Therefore, it is important to understand how membrane shape is generated, stabilised and sensed by proteins and how this relates to organelle function. Here we present an assay that can detect curvature preference and membrane remodelling using free-floating liposomes using protein concentrations in a physiologically relevant ranges. The assay reproduced known curvature preferences of BAR domains and allowed the discovery of high curvature preference for the PH domain of AKT and the FYVE domain of HRS. In addition, our method reproduced the membrane vesiculation activity of the ENTH domain of Epsin1 and showed similar activity for the ANTH domains of PiCALM and Hip1R. Finally, we found that the curvature sensitivity of the N-BAR domain of Endophilin inversely correlates to membrane charge and that deletion of its N-terminal amphipathic helix increased its curvature specificity. Thus, our method is a generally applicable qualitative method for assessing membrane curvature sensing and remodelling by proteins.
Keywords: Endophilin; Membrane curvature preference; Membrane remodeling; Single particle analysis.
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