4.8 Article

Surface Passivation with a Perfluoroalkane Brush Improves the Precision of Single-Molecule Measurements

Journal

ACS APPLIED MATERIALS & INTERFACES
Volume 14, Issue 44, Pages 49604-49616

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsami.2c16647

Keywords

single-molecule approaches; interferometric scattering microscopy; mass photometry; surface passivation; polymer brushes; nanofabrication; protein complexes

Funding

  1. Biotechnology and Biological Sciences Research Council [BB/N016734/1, BB/T000627/1]
  2. Leverhulme Trust [RPG-2018-149]
  3. Engineering and Physical Sciences Research Council [EP/V030515/1]

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Single-molecule imaging is important for studying the behavior and interactions of biological molecules. However, the irreversible adsorption of components onto surfaces poses a challenge for precise sampling. Interferometric scattering microscopy (iSCAT) can detect the adsorption and desorption of unlabeled proteins on glass surfaces. A surface passivation method using high-density perfluoroalkane brushes allows for continuous monitoring of protein adsorption and desorption without irreversible binding.
Single-molecule imaging is invaluable for investigating the heterogeneous behavior and interactions of biological molecules. However, an impediment to precise sampling of single molecules is the irreversible adsorption of components onto the surfaces of cover glasses. This causes continuous changes in the concentrations of different molecules dissolved or suspended in the aqueous phase from the moment a sample is dispensed, which will shift, over time, the position of chemical equilibria between monomeric and multimeric components. Interferometric scattering microscopy (iSCAT) is a technique in the single-molecule toolkit that has the capability to detect unlabeled proteins and protein complexes both as they adsorb onto and desorb from a glass surface. Here, we examine the reversible and irreversible interactions between a number of different proteins and glass via analysis of the adsorption and desorption of protein at the single-molecule level. Furthermore, we present a method for surface passivation that virtually eliminates irreversible adsorption while still ensuring the residence time of molecules on surfaces is sufficient for detection of adsorption by iSCAT. By grafting high-density perfluoroalkane brushes on cover-glass surfaces, we observe approximately equal numbers of adsorption and desorption events for proteins at the measurement surface (+/- 1%). The fluorous-aqueous interface also prevents the kinetic trapping of protein complexes and assists in establishing a thermodynamic equilibrium between monomeric and multimeric components. This surface passivation approach is valuable for in vitro single-molecule experiments using iSCAT microscopy because it allows for continuous monitoring of adsorption and desorption of protein without either a decline in detection events or a change in sample composition due to the irreversible binding of protein to surfaces.

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