Modular assembly of a protein nanotriangle using orthogonally interacting coiled coils

NanoProduct Lab Members in Authors

Mostafa Bedewy
Group Leader and Principal Investigator (PI)

Download PDF

Disclaimer: This PDF document is provided for educational and personal purposes only and may be subject to copyrights of the publisher

Modular assembly of a protein nanotriangle using orthogonally interacting coiled coils

Won Min Park, Mostafa Bedewy, Karl K. Berggren, and Amy E. Keating

Scientific Reports

Year
2017
Volume
7
Pages
10577

Abstract

Synthetic protein assemblies that adopt programmed shapes would support many applications in nanotechnology. We used a rational design approach that exploits the modularity of orthogonally interacting coiled coils to create a self-assembled protein nanotriangle. Coiled coils have frequently been used to construct nanoassemblies and materials, but rarely with successful prior specification of the resulting structure. We designed a heterotrimer from three pairs of heterodimeric coiled coils that mediate specific interactions while avoiding undesired crosstalk. Non-associating pairs of coiled-coil units were strategically fused to generate three chains that were predicted to preferentially form the heterotrimer, and a rational annealing process led to the desired oligomer. Extensive biophysical characterization and modeling support the formation of a molecular triangle, which is a shape distinct from naturally occurring supramolecular nanostructures. Our approach can be extended to design more complex nanostructures using additional coiled-coil modules, other protein parts, or templated surfaces.


Category:   Journal Publications