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DNA T-shaped crossover tiles for 2D tessellation and nanoring reconfiguration

Qi Yang, Xu Chang, Jung Yeon Lee, Minu Saji, Fei Zhang

2023Nature Communications19 citationsDOIOpen Access PDF

Abstract

DNA tiles serve as the fundamental building blocks for DNA self-assembled nanostructures such as DNA arrays, origami, and designer crystals. Introducing additional binding arms to DNA crossover tiles holds the promise of unlocking diverse nano-assemblies and potential applications. Here, we present one-, two-, and three-layer T-shaped crossover tiles, by integrating T junction with antiparallel crossover tiles. These tiles carry over the orthogonal binding directions from T junction and retain the rigidity from antiparallel crossover tiles, enabling the assembly of various 2D tessellations. To demonstrate the versatility of the design rules, we create 2-state reconfigurable nanorings from both single-stranded tiles and single-unit assemblies. Moreover, four sets of 4-state reconfiguration systems are constructed, showing effective transformations between ladders and/or rings with pore sizes spanning ~20 nm to ~168 nm. These DNA tiles enrich the design tools in nucleic acid nanotechnology, offering exciting opportunities for the creation of artificial dynamic DNA nanopores.

Topics & Concepts

CrossoverControl reconfigurationAntiparallel (mathematics)DNA origamiDNA nanotechnologyDNANanotechnologyNanoringMaterials scienceComputer scienceNanostructurePhysicsBiologyGeneticsArtificial intelligenceEmbedded systemQuantum mechanicsMagnetic fieldAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryBacteriophages and microbial interactions
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