Glass Microsphere‐Supported Giant Vesicles for the Observation of Self‐Reproduction of Lipid Boundaries

Growth and division experiments on phospholipid boundaries were carried out using glass microsphere‐supported phospholipid (DOPC) giant vesicles (GVs) fed with a fatty acid solution (oleic acid) at two distinct feeding rates. Both fast and slow feeding methods produced daughter GVs. Under slow feeding conditions the membrane growth process (evagination, buds, filaments) was observed in detail by fluorescence microscopy. The density difference between supported mother vesicles and newly formed daughter vesicles allowed their easy separation. Mass spectrometric analysis of the resulting mother and daughter GVs showed that the composition of both vesicle types was a mixture of original supported phospholipids and added fatty acids reflecting the total composition of amphiphiles after the feeding process. Thus, self‐reproduction of phospholipid vesicles can take place under preservation of the lipid composition but different aggregate size. Growth and division (G&D) experiments of lipid boundaries were carried out using glass‐microsphere‐supported vesicles (1) fed with a fatty acid solution (2). Microscopic differences between the microsphere‐supported vesicles (3) and the newly formed vesicles (4) allowed the easy determination of their physicochemical properties.