Dynamic DNA devices and assemblies formed by shape-complementary, non–base pairing 3D components

Gerling, Thomas; Wagenbauer, Klaus F.; Neuner, Andrea M.; Dietz, Hendrik

doi:10.1126/science.aaa5372

articleScienceMar 27, 2015Closed access

Dynamic DNA devices and assemblies formed by shape-complementary, non–base pairing 3D components

TGThomas Gerling KFKlaus F. Wagenbauer AMAndrea M. Neuner HDHendrik Dietz

Schott (Germany) · Technical University of Munich

PubMed

Indexed incrossrefpubmed

Abstract

We demonstrate that discrete three-dimensional (3D) DNA components can specifically self-assemble in solution on the basis of shape-complementarity and without base pairing. Using this principle, we produced homo- and heteromultimeric objects, including micrometer-scale one- and two-stranded filaments and lattices, as well as reconfigurable devices, including an actuator, a switchable gear, an unfoldable nanobook, and a nanorobot. These multidomain assemblies were stabilized via short-ranged nucleobase stacking bonds that compete against electrostatic repulsion between the components' interfaces. Using imaging by electron microscopy, ensemble and single-molecule fluorescence resonance energy transfer…

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685

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FWCI: 28.46
Percentile: 100%
References: 32

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Topics & keywords

Topics

Keywords

Chemical physics
Förster resonance energy transfer
Pairing
Nucleobase
Stacking
Base pair
Nanotechnology
DNA nanotechnology

UN Sustainable Development Goals

Affordable and clean energy

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