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Synthetic DNA-based Swimmers Driven by Enzyme Catalysis

Tania Patiño Padial, Erica Del Grosso, Serena Gentile, Lorena Baranda Pellejero, Rafael Mestre, Lars Paffen, Samuel Sánchez, Francesco Ricci

2024Journal of the American Chemical Society31 citationsDOIOpen Access PDF

Abstract

Here, we report DNA-based synthetic nanostructures decorated with enzymes (hereafter referred to as DNA–enzyme swimmers) that self-propel by converting the enzymatic substrate to the product in solution. The DNA–enzyme swimmers are obtained from tubular DNA structures that self-assemble spontaneously by the hybridization of DNA tiles. We functionalize these DNA structures with two different enzymes, urease and catalase, and show that they exhibit concentration-dependent movement and enhanced diffusion upon addition of the enzymatic substrate (i.e., urea and H 2 O 2 ). To demonstrate the programmability of such DNA-based swimmers, we also engineer DNA strands that displace the enzyme from the DNA scaffold, thus acting as molecular “brakes” on the DNA swimmers. These results serve as a first proof of principle for the development of synthetic DNA-based enzyme-powered swimmers that can self-propel in fluids.

Topics & Concepts

ChemistryDNAEnzymeSubstrate (aquarium)BiochemistryBiophysicsBiologyEcologyAdvanced biosensing and bioanalysis techniquesMicro and Nano RoboticsMolecular Communication and Nanonetworks
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