Computational Design of Self-Assembling Protein Nanomaterials with Atomic Level Accuracy
University of Washington · Howard Hughes Medical Institute · +3 more institutions
Abstract
We describe a general computational method for designing proteins that self-assemble to a desired symmetric architecture. Protein building blocks are docked together symmetrically to identify complementary packing arrangements, and low-energy protein-protein interfaces are then designed between the building blocks in order to drive self-assembly. We used trimeric protein building blocks to design a 24-subunit, 13-nm diameter complex with octahedral symmetry and a 12-subunit, 11-nm diameter complex with tetrahedral symmetry. The designed proteins assembled to the desired oligomeric states in solution, and the crystal structures of the complexes revealed that the resulting materials closely match the design…
Citation impact
- FWCI
- 48.46
- Percentile
- 100%
- References
- 61
Authors
9Topics & keywords
- Tetrahedron
- Protein subunit
- Biomolecule
- Self-assembly
- Symmetry (geometry)
- Nanomaterials
- Nanotechnology
- Protein design