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Showing 1–6 of 6 results

Advanced filters: Author: Enzo Kopperger Clear advanced filters

A synthetic tubular molecular transport system

DNA origami can be used to control the movement of nanoscale assemblies. Here the authors construct multiple-micrometer-long hollow DNA filaments through which DNA pistons move with micrometer-per-second speeds.

Pierre Stömmer
Henrik Kiefer
Hendrik Dietz
ResearchOpen Access20 Jul 2021
Nature Communications

Volume: 12, P: 1-10
Storage of mechanical energy in DNA nanorobotics using molecular torsion springs

The molecular joint of a nanorobotic arm can be wound up to store mechanical energy and then relaxed to drive the rotation of a DNA nanodevice.

Matthias Vogt
Martin Langecker
Jonathan List
Research20 Feb 2023
Nature Physics

Volume: 19, P: 741-751
Long-range movement of large mechanically interlocked DNA nanostructures

Rotaxanes are interlocked molecules that can undergo sliding and rotational movements and can be used in artificial molecular machines and motors. Here, Simmel and co-workers show a rigid rotaxane structures consisting of DNA origami subunits that can slide over several hundreds of nanometres.

Jonathan List
Elisabeth Falgenhauer
Friedrich C. Simmel
ResearchOpen Access05 Aug 2016
Nature Communications

Volume: 7, P: 1-7
A DNA origami rotary ratchet motor

A nanoscale rotary motor made of DNA origami, driven by ratcheting and powered by an external electric field, shows the ability to wind up a spring and has mechanical capabilities approaching those of biological motors.

Anna-Katharina Pumm
Wouter Engelen
Hendrik Dietz
ResearchOpen Access20 Jul 2022
Nature

Volume: 607, P: 492-498
DNA origami cryptography for secure communication

Biomolecular cyptography that exploits specific interactions could be used for data encryption. Here the authors use the folding of M13 DNA to encrypt information for secure communication.

Yinan Zhang
Fei Wang
Chunhai Fan
ResearchOpen Access29 Nov 2019
Nature Communications

Volume: 10, P: 1-8
Solving mazes with single-molecule DNA navigators

DNA-based nanodevices with decision-making and information-processing capabilities have been developed. Here, a DNA-based molecular navigation system that explores a DNA origami maze for all possible solutions is reported.

Jie Chao
Jianbang Wang
Chunhai Fan
Research05 Nov 2018
Nature Materials

Volume: 18, P: 273-279