Design of coiled-coil protein-origami cages that self-assemble in vitro and in vivo
Ljubetic, Ajasja; Lapenta, Fabio; Gradisar, Helena; Drobnak, Igor; Aupic, Jana; Strmsek, Ziga; Lainscek, Dusko; Hafner-Bratkovic, Iva; Majerle, Andreja; Krivec, Nusa; Bencina, Mojca; Pisanski, Tomaz; Velickovic, Tanja Cirkovic; Round, Adam; Maria Carazo, J
NATURE BIOTECHNOLOGY
2017
VL / 35 - BP / 1094 - EP / +
abstract
Polypeptides and polynucleotides are natural programmable biopolymers that can self-assemble into complex tertiary structures. We describe a system analogous to designed DNA nanostructures in which protein coiled-coil (CC) dimers serve as building blocks for modular de novo design of polyhedral protein cages that efficiently self-assemble in vitro and in vivo. We produced and characterized >20 single-chain protein cages in three shapes-tetrahedron, four-sided pyramid, and triangular prism-with the largest containing >700 amino-acid residues and measuring 11 nm in diameter. Their stability and folding kinetics were similar to those of natural proteins. Solution small-angle X-ray scattering (SAXS), electron microscopy (EM), and biophysical analysis confirmed agreement of the expressed structures with the designs. We also demonstrated self-assembly of a tetrahedral structure in bacteria, mammalian cells, and mice without evidence of inflammation. A semi-automated computational design platform and a toolbox of CC building modules are provided to enable the design of protein cages in any polyhedral shape.
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