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Light-Modulated Self-Assembly of Synthetic Nanotubes

Mahdi Dizani, Siddharth Agarwal, Dino Osmanović, Elisa Franco

2025Nano Letters9 citationsDOI

Abstract

Artificial biomolecular polymers with the capacity to respond to stimuli are emerging as a key component to the development of living materials and synthetic cells. Here, we demonstrate artificial DNA tubular nanostructures that form in response to light in a dose-dependent manner. These nanotubes assemble from programmable DNA tile motifs that are engineered to include a UV-responsive domain so that UV irradiation activates nanotube self-assembly. We demonstrate that the nanotube formation speed can be tuned by adjusting the UV dose. We then couple the light-dependent activation of tiles with RNA transcription, making it possible to control nanotube formation via concurrent physical and biochemical stimuli. Finally, we illustrate how UV activation effectively controls nanotube assembly in confinement as a rudimentary stimulus-responsive cytoskeletal system that can achieve various conformations in a minimal synthetic cell. This study contributes new tile designs that are immediately useful to building biomolecular scaffolds with controllable dynamics in response to multiple stimuli.

Topics & Concepts

NanotechnologyMaterials scienceSelf-assemblyAdvanced biosensing and bioanalysis techniquesSupramolecular Self-Assembly in MaterialsBiosensors and Analytical Detection
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