Strategies and experimental tips for optimized quantitative single-molecule studies of membrane and membrane-associated proteins

Abstract

AbstractThe study of stoichiometry and supra-molecular organization of membrane (and membrane-associated) proteins plays a key role in understanding membrane structure and function. Single-molecule localization techniques (SML), besides providing imaging at unprecedented resolution, also offer quantitative tools such as stepwise photobleaching (SP) experiments and quantitative single-molecule localization (qSMLM). SML is becoming widely present in imaging core facilities but addressing biological problems by molecular counting experiments still remains not straightforward since experimental approaches for sample preparation require particular attention.We will focus on the experimental aspects that may prevent successful quantitative SML experiments of membrane-associated proteins.Depending on the specific experiment, to avoid artifacts and to miscount, fine-tuning of the expression levels and proper staining procedures are required, as well as optimized protocols and controls for counting.The work aims to highlight the crucial aspects that must be faced when quantitative single-molecule experiments are performed, helping to match the gap between sample preparation and the application of quantitative fluorescence microscopy techniques.