Publications by authors named "Sang Hyeok Jeong"
Model membrane systems have emerged as essential platforms for investigating membrane-associated processes in controlled environments, mimicking biological membranes without the complexity of cellular systems. However, integrating these model systems with single-molecule techniques remains challenging due to the fluidity of lipid membranes, including undulations and the lateral mobility of lipids and proteins. This mini-review explores the evolution of various model membranes ranging from black lipid membranes to nanodiscs and giant unilamellar vesicles as they adapt to accommodate electrophysiology, force spectroscopy, and fluorescence microscopy.
View Article and Find Full Text PDFMembrane-bound vesicles such as extracellular vesicles (EVs) can function as biochemical effectors on target cells. Docking of the vesicles onto recipient plasma membranes depends on their interaction with cell-surface proteins, but a generalizable technique that can quantitatively observe these vesicle-protein interactions (VPIs) is lacking. Here, we describe a fluorescence microscopy that measures VPIs between single vesicles and cell-surface proteins, either in a surface-tethered or in a membrane-embedded state.
View Article and Find Full Text PDFArticle Synopsis
- Fluorescent labeling enables precise imaging and tracking of vesicles at the single-particle level, with lipid membrane staining being a popular method due to its minimal interference with vesicle contents.
- Incorporating lipophilic dyes into vesicle membranes in water is typically inefficient, but a new, quick procedure is proposed that enhances dye integration significantly.
- By adjusting the ionic strength of the staining buffer with NaCl, researchers were able to increase DiI dye incorporation into vesicles by 290 times and effectively remove excess dye to prevent off-target labeling.