Rapid prototyping of 3D DNA-origami shapes with caDNAno
Harvard University · Dana-Farber Cancer Institute · +1 more institution
Abstract
DNA nanotechnology exploits the programmable specificity afforded by base-pairing to produce self-assembling macromolecular objects of custom shape. For building megadalton-scale DNA nanostructures, a long 'scaffold' strand can be employed to template the assembly of hundreds of oligonucleotide 'staple' strands into a planar antiparallel array of cross-linked helices. We recently adapted this 'scaffolded DNA origami' method to producing 3D shapes formed as pleated layers of double helices constrained to a honeycomb lattice. However, completing the required design steps can be cumbersome and time-consuming. Here we present caDNAno, an open-source software package with a graphical user interface that aids in the…
Citation impact
- FWCI
- 9.58
- Percentile
- 100%
- References
- 20
Authors
6- SMShawn M. DouglasCorresponding
Harvard University, Dana-Farber Cancer Institute
- AMAdam Marblestone
Harvard University, Yale University, Dana-Farber Cancer Institute
- STSurat Teerapittayanon
Harvard University, Yale University, Dana-Farber Cancer Institute
- AVAlejandro Vázquez
Harvard University, Yale University, Dana-Farber Cancer Institute
- GMGeorge M. Church
Harvard University, Yale University, Dana-Farber Cancer Institute
Topics & keywords
- DNA origami
- Oligonucleotide
- Antiparallel (mathematics)
- Software
- DNA
- Rapid prototyping
- DNA nanotechnology
- Biology