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In Situ Quantification of Lipids in Live Cells by Using Lipid-Binding Domain-Based Biosensors.

Yusi HuRui-Qiao ZhangZhi-Gang WangShu-Lin Liu
Published in: Bioconjugate chemistry (2022)
Lipid molecules contribute to a large extent to the regulation of cellular signaling, as cellular signals are generated primarily through the selective interaction of various cellular proteins with lipids in the plasma membrane. Hence the location, concentration, and duration of lipids on the cell membrane are critical for the selection of proteins and the initiation of signaling. To monitor the concentration and location of lipid molecules on the cell membrane, researchers have developed a variety of lipid biosensors that allow quantitative in situ visualization of lipid molecules in living cells based on lipid-binding domains with high specificity, sensitivity, and biocompatibility, providing a powerful tool for the study of cellular signaling mechanisms involving lipid molecules. In this review, we first introduced the emergence of lipid-binding domains and then focused on the practical considerations on how to implement the lipid sensor, including probe selection, modification, characterization, and imaging techniques. We then described experimental observables and the relevant physicochemical parameters in the context of single-molecule studies in cells. Finally, we presented our views on the future development of lipid sensors and methods for lipid quantification.
Keyphrases
  • fatty acid
  • living cells
  • single molecule
  • high resolution
  • oxidative stress
  • cell death
  • binding protein
  • quantum dots