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Ensemble sensing using single-molecule DNA copolymers.

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While single-molecule sensing has offered ultimate mass sensitivity at the precision of individual molecules, it requires longer time to detect analytes at lower concentrations when analyte binding to single-molecule probes… Click to show full abstract

While single-molecule sensing has offered ultimate mass sensitivity at the precision of individual molecules, it requires longer time to detect analytes at lower concentrations when analyte binding to single-molecule probes becomes diffusion-limited. Here, we solved this accuracy problem in the concentration sensitivity determination by using single-molecule DNA homo-polymers, in which up to 473 identical sensing elements (DNA hairpins) were introduced by rolling circle amplification. Surprisingly, the DNA homopolymers containing as few as 10 tandem hairpins displayed ensemble unfolding/refolding transitions, which were exploited to recognize microRNAs (miRNAs) that populated unfolded hairpins. Within 20 mins, femtomolar detection limit for miRNAs was observed, 6 orders of magnitude better than standalone hairpins. By incorporating different hairpin probes in an alternating DNA copolymer, multiplex recognition of different miRNAs was demonstrated. These DNA co-polymers represent new materials for innovative sensing strategies that combine the single-molecule precision with the accuracy of ensemble assays to determine concentration sensitivities.

Keywords: molecule; single molecule; ensemble sensing; using single; molecule dna

Journal Title: Analytical chemistry
Year Published: 2020

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