Molecular Counting with DNA Origami - Verification and Validation Towards Biological Applicationsdoi:10.1016/j.bpj.2018.11.969Daniel F. NinoDaniel DjarkarsanaAnton ZilmanJoshua MilsteinBiophysical Journal
Over the past decade, rapid prototyping via computer-aided design and the rich toolbox for the site-selective functionalization led to a myriad of folded DNA architectures (DNA origami [87]), nanodevices, and sensors. In the context of synthetic biology, it can be used to either assemble pre...
DNA origami nanotechnology offers a promising path forward with unparalleled control over complex nanoscale geometry and functionalization, programmed dynamic and mechanical properties, stimulus response to local or externally applied triggers, and capability of assembly into higher-order 1D, 2D, or 3D ...
DNA Origami Nanoantennas with over 5000-Fold Fluorescence Enhancement and Single-Molecule Detection at 25 Μm. Nano Lett. 2015, 15, 8354–8359. [Google Scholar] [CrossRef] Kumar, A.; Kim, S.; Nam, J.M. Plasmonically Engineered Nanoprobes for Biomedical Applications. J. Am. Chem. Soc. ...
DNA oligonucleotides were the first nucleic acid-based NPs that served as the foundation of DNA origami technology, but nowadays, RNA oligonucleotide nanotechnology is an important alternative to DNA technology [49]. DNA and RNA have operational differences because of their different structural ...