Issue 9, 2022

Improving the robustness of a catalyzed hairpin assembly with a three-arm nanostructure for nonenzymatic signal amplification

Abstract

Kinetically trapped hairpin DNA has great potential to dynamically build nanostructures, which can be initiated by sequence-specific nucleic acids. The branched junction, which has a multi-arm structure, is a representative nanostructure of DNA. In this study, we report a nonenzymatic and isothermal signal amplification accompanied by building a 3-arm structure based on a catalyzed hairpin DNA assembly (3-CHA). We improved the signal-to-background ratio of the 3-CHA by suppressing the leakage pathway of 3-CHA, thus eliminating unfavorable reaction sites exposed in the single-stranded region of hairpin DNAs. Background and amplified signals were analyzed with gel electrophoresis and real-time fluorescence monitoring. The limit of detection of the developed 3-CHA was estimated to be 29.3 pM for catalyst DNA at room temperature. Supported by the reduced leakage signal, the implemented 3-CHA showed great potential for detecting low concentrations of target DNA.

Graphical abstract: Improving the robustness of a catalyzed hairpin assembly with a three-arm nanostructure for nonenzymatic signal amplification

Supplementary files

Article information

Article type
Paper
Submitted
03 Feb 2022
Accepted
16 Mar 2022
First published
16 Mar 2022

Analyst, 2022,147, 1899-1905

Improving the robustness of a catalyzed hairpin assembly with a three-arm nanostructure for nonenzymatic signal amplification

E. Kim, J. Xu, J. Kim and H. Chun, Analyst, 2022, 147, 1899 DOI: 10.1039/D2AN00209D

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