Amphipathic DNA origami nanoparticles to scaffold and deform lipid membrane vesicles.
We report a synthetic biology-inspired approach for the engineering of amphipathic DNA origami structures as membrane-scaffolding tools. The structures have a flat membrane-binding interface decorated with cholesterol-derived anchors. Sticky oligonucleotide overhangs on their side facets enable lateral interactions leading to the formation of ordered arrays on the membrane. Such a tight and regular arrangement makes our DNA origami capable of deforming free-standing lipid membranes, mimicking the biological activity of coat-forming proteins, for example, from the I-/F-BAR family.
- Angew. Chem. Int. Ed. Engl. 2015 May 26;54(22):6501-5
- 2015
- Biophysics
- 25882792
- PubMed
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