Title
Covalently-assembled single-chain protein nanostructures with ultra-high stability
Author
Wenqin Bai, Cameron J. Sargent, Jeong-Mo Choi, Rohit V. Pappu, Fuzhong Zhang
Year
2019
Journal
Nature Communications
Abstract
Protein nanostructures with precisely defined geometries have many potential applications in catalysis, sensing, signal processing, and drug delivery. While many de novo protein nanostructures have been assembled via non-covalent intramolecular and intermolecular interactions, a largely unexplored strategy is to construct nanostructures by covalently linking multiple individually folded proteins through site-specific ligations. Here, we report the synthesis of single-chain protein nanostructures with triangular and square shapes made using multiple copies of a three-helix bundle protein and split intein chemistry. Coarse-grained simulations confirm the experimentally observed flexibility of these nanostructures, which is optimized to produce triangular structures with high regularity. These single-chain nanostructures also display ultra-high thermostability, resist denaturation by chaotropes and organic solvents, and have applicability as scaffolds for assembling materials with nanometer resolution. Our results show that site-specific covalent ligation can be used to assemble individually folded proteins into single-chain nanostructures with bespoke architectures and high stabilities.
Instrument
J-810
Keywords
Circular dichroism, Secondary structure, Protein folding, Thermal stability, Nanostructures, Materials, Biochemistry