Abstract
We discovered a cascade vesicle division system driven by osmotic inflation. Binary giant unilamellar vesicles (GUVs) composed of sodium bis(2-ethylhexyl)sulfosuccinate (AOT) and cholesterol (Chol) were subjected to an osmotic pressure difference by encapsulating membrane-impermeable osmolytes (typically sucrose) in an external aqueous solution containing membrane-permeable osmolytes (typically fructose). This simple setup enabled the mother GUVs to repeatedly form small membrane buds and subsequently undergo divisions over several hundred seconds, resulting in the production of approximately 30-300 daughter GUVs from a single mother GUV. The observed morphological change of GUVs is well described by the mechanical balance between membrane bending, membrane tension, and osmotic pressure difference based on the spontaneous curvature model. This "osmotic spawning" behavior of GUVs does not rely on chemical reactions or functional macromolecules. Therefore, this cascade division system is compatible with various chemical systems and has the potential to implement proliferation ability in artificial cells, drug delivery systems, and protocells simply by modifying their membrane compartments and osmolytes.
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