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One-Dimensional Assemblies of a DNA Tetrahedron: Manipulations on the Structural Conformation and Single-Molecule Behaviors.

Liying WangZhentong ZhuBingling LiFangwei Shao
Published in: ACS applied bio materials (2019)
DNA nanotechnology can construct various nanostructures with diverse functionalities. However, conformation fluctuations due to the structural flexibility of duplex DNA compromise the efficiency to realize the functionality and reactivity of DNA nanostructures. To understand and control the structural deviation from the design represents a major challenge as well as an opportunity for DNA nanotechnology. In the present work, two series of one-dimensional assemblies of DNA tetrahedrons (DTHs) were fabricated and applied to demonstrate the manipulations of conformation dynamics of a one-dimensional DTH assembly by simple variation on linkage styles at single-molecule resolution. A stepwise strategy allows both nanoassembly with a high fidelity in the number and sequence of DTH units to be assembled with a minimum number of linkage sequences. The characterization for these nanostructures with atomic force microscope (AFM) and a solid-state nanopore technique indicates the difference in conformation dynamics and bending stiffness between two analogous nanoassemblies both in the immobilized state on the surface and free state in solution. This work showed the power of fine-tuning the dynamic conformation of the nanostructures and could see the applications in single-molecule biosensing and functionalization of DNA nanostructures.
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