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Dynamic Vesicles Formed By Dissipative Self‐Assembly
Author(s) -
Wanzke Caren,
Jussupow Alexander,
Kohler Fabian,
Dietz Hendrik,
Kaila Ville R. I.,
Boekhoven Job
Publication year - 2020
Publication title -
chemsystemschem
Language(s) - English
Resource type - Journals
ISSN - 2570-4206
DOI - 10.1002/syst.201900044
Subject(s) - membrane , biological membrane , dissipative system , vesicle , function (biology) , biophysics , chemistry , microbiology and biotechnology , biochemistry , biology , physics , thermodynamics
Synthetic lipid membranes have served as important models for cellular membranes. However, these static membranes do not recapitulate the dynamic nature of the biological membranes which are frequently remodeled to support cellular function. An ideal membrane model would thus also display dynamic exchange of lipids. In this work, we achieve such a system by coupling the self‐assembly of peptides into membranes with a chemical reaction cycle. The reaction cycle activates and deactivates the peptides for self‐assembly at the expense of a chemical fuel. The resulting membranes are dynamically remodeled, and, over their 40 min lifetime, they emerge, grow, and are torn apart before they eventually decay.