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Abstract
RNA is a key biochemical marker yet its chemical instability and complex secondary structure hamper its integration into DNA nanotechnology-based sensing platforms. Relying on the denaturation of native RNA structure using urea, we show that restructured DNA/RNA hybrids can readily be prepared at room temperature. Using solid-state na-nopore sensing, we demonstrate that the structures of our DNA/RNA hybrids conform to design at the single-molecule level. Employing this chemical annealing procedure, we mitigate RNA self-cleavage, enabling the direct detection of restructured RNA molecules for biosensing applications.
Supplementary materials
Title
Supporting Information
Description
AGE data, nanopore data, oligonucleotide sequences, materials, and methods.
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