CORDIS Project
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This project focuses on developing interlocked double-stranded DNA structures that can be controlled for various applications in nanotechnology. It aims to create switchable DNA nanomachines that mimic biological functions and can be used in biosensing, self-assembly, and catalysis.
DNA-nanotechnology has created different topologies, including replicable ones, nanomachines, patterns, logic gates, or algorithmic assemblies.
Interlocked double-stranded (ds) DNA-architectures like catenanes or rotaxanes, wherein individual components can be set in motion in a controlled manner have not been accessible.
These molecules represent long-sought devices for nanorobotics and nanomechanics because they possess a unique mechanical bonding motif, not available to conventional building…
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