Litcius/Paper detail

Automated Synthesis of DNA Nanostructures

Patricia Islas, Casey M. Platnich, Yasser Gidi, Ryan Karimi, Lorianne Ginot, Daniel Saliba, Xin Luo, Gonzalo Cosa, Hanadi F. Sleiman

2024Advanced Materials19 citationsDOIOpen Access PDF

Abstract

DNA nanotechnology has revolutionized the ability to position matter at the nanoscale, but the preparation of DNA-based architectures remains laborious. To facilitate the formation of custom structures, a fully automated method is reported to produce sequence- and size-defined DNA nanotubes. By programming the sequential addition of desired building blocks, rigid DX-tile-based DNA nanotubes and flexible wireframe DNA structures are attained, where the total number of possible constructs increases as a power function of the number of different units available. Using single-molecule fluorescence imaging, the kinetics and yield of each synthetic step can be quantitatively determined, revealing differences in self-assembly dynamics as the nanotube is built up from the solid support and providing new insights into DNA self-assembly. The exploitation of automation for both assembly and analysis (through an ad-hoc developed K-means clustering algorithm) facilitates a workflow wherein the synthesis parameters may be iteratively improved upon, demonstrating how a single-molecule "assembly-analysis-optimization" sequence can be used to generate complex, noncovalent materials in good yield. The presented synthetic strategy is generalizable, making use of equipment already available in most standard laboratories and represents the first fully automated supramolecular assembly on a solid support.

Topics & Concepts

NanotechnologyMaterials scienceSupramolecular chemistryDNA origamiDNA nanotechnologyWorkflowNanotubeSelf-assemblyDNAAutomationNanostructureComputer scienceMoleculeCarbon nanotubeEngineeringChemistryMechanical engineeringBiochemistryDatabaseOrganic chemistryAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid ChemistrySupramolecular Self-Assembly in Materials