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Synthetic DNA analogues are of great interest for their application in information storage, therapeutics, and nanostructured materials, yet are often limited in scalability. Vinyl sulfonamide click nucleic acids (VS-CNAs) have… Click to show full abstract
Synthetic DNA analogues are of great interest for their application in information storage, therapeutics, and nanostructured materials, yet are often limited in scalability. Vinyl sulfonamide click nucleic acids (VS-CNAs) have been developed to overcome this limitation using the highly efficient thiol-Michael 'click' reaction. Utilizing all four nucleobases, sequence-defined click nucleic acids (CNAs) were synthesized using a simple and scalabale solution-phase approach. Employing a polyethylene glycol (PEG) support, synthesis of the CNA sequence, GATTACA, was achieved in high yields. CNA crosslinked hydrogels were assembled using multiarm PEG-CNAs resulting in materials that dynamically respond to temperature, strain, and competitive sequences.
Journal Title: Chemical communications
Year Published: 2020
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