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FULL-MDS: Fluorescent Universal Lipid Labeling for Microfluidic Diffusional Sizing.

Jasmin BaronLena BauernhoferSean R A DevenishSebastian FiedlerAlison IlsleySabrina RiedlDagmar ZweytickDavid GlueckAriane PessentheinerGrégory DurandSandro Keller
Published in: Analytical chemistry (2022)
Microfluidic diffusional sizing (MDS) is a recent and powerful method for determining the hydrodynamic sizes and interactions of biomolecules and nanoparticles. A major benefit of MDS is that it can report the size of a fluorescently labeled target even in mixtures with complex, unpurified samples. However, a limitation of MDS is that the target itself has to be purified and covalently labeled with a fluorescent dye. Such covalent labeling is not suitable for crude extracts such as native nanodiscs directly obtained from cellular membranes. In this study, we introduce fluorescent universal lipid labeling for MDS (FULL-MDS) as a sparse, noncovalent labeling method for determining particle size. We first demonstrate that the inexpensive and well-characterized fluorophore, Nile blue, spontaneously partitions into lipid nanoparticles without disrupting their structure. We then highlight the key advantage of FULL-MDS by showing that it yields robust size information on lipid nanoparticles in crude cell extracts that are not amenable to other sizing methods. Furthermore, even for synthetic nanodiscs, FULL-MDS is faster, cheaper, and simpler than existing labeling schemes.
Keyphrases
  • single cell
  • quantum dots
  • fatty acid
  • living cells
  • label free
  • high throughput
  • computed tomography
  • circulating tumor cells
  • stem cells
  • bone marrow
  • fluorescent probe
  • single molecule
  • pet ct