Shu Zhang Lachlan J. Gibson Alexander B. Stilgoe Timo A. Nieminen Halina Rubinsztein‐Dunlop
Exploring the rheological properties of intracellular materials is essential for understanding cellular and subcellular processes. Optical traps have been widely used for physical manipulation of micro‐ and nano‐objects within fluids enabling studies of biological systems. However, experiments remain challenging as it is unclear how the probe particle’s mobility is influenced by the nearby membranes and organelles. We use liposomes (unilamellar lipid vesicles) as a simple biomimetic model of living cells, together with a trapped particle rotated by optical tweezers to study mechanical and rheological properties inside a liposome both theoretically and experimentally. Here we demonstrate that this system has the capacity to predict the hydrodynamic interaction between three‐dimensional (3D) spatial membranes and internal probe particles within submicron distances, and it has the potential to aid in the design of high resolution optical micro/nanorheology techniques to be used inside living cells.
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