Rapid Chiral Assembly of Rigid DNA Building Blocks for Molecular Nanofabrication
University of Oxford · Vrije Universiteit Amsterdam
Abstract
Practical components for three-dimensional molecular nanofabrication must be simple to produce, stereopure, rigid, and adaptable. We report a family of DNA tetrahedra, less than 10 nanometers on a side, that can self-assemble in seconds with near-quantitative yield of one diastereomer. They can be connected by programmable DNA linkers. Their triangulated architecture confers structural stability; by compressing a DNA tetrahedron with an atomic force microscope, we have measured the axial compressibility of DNA and observed the buckling of the double helix under high loads.
Citation impact
- FWCI
- 11.12
- Percentile
- 100%
- References
- 19
Authors
7- RPRussell P. Goodman
University of Oxford, Vrije Universiteit Amsterdam
- IAIwan A.T. Schaap
University of Oxford, Vrije Universiteit Amsterdam
- CTCatherine Tardin
University of Oxford, Vrije Universiteit Amsterdam
- CEChristoph Erben
University of Oxford, Vrije Universiteit Amsterdam
- RMRichard M. Berry
University of Oxford, Vrije Universiteit Amsterdam
Topics & keywords
- Tetrahedron
- Nanolithography
- DNA
- Nanotechnology
- DNA origami
- Helix (gastropod)
- Nanometre
- Chemistry