Abstract

Nucleic acid aptamers, which are short single-stranded RNA or DNA molecules, undergo conformational changes upon recognizing small molecules. However, their structural characterization is challenging due to the flexibility of single-stranded oligonucleotides. Nanopores provide a sensitive method for single-molecule analysis of molecular conformational changes as they transport through the pore. In this study, we employed α-hemolysin (α-HL) nanopore with high spatiotemporal resolution to investigate the conformational changes of DNA aptamer (ADO-23) upon binding to adenosine (Ado) molecules. Unlike the events generated by the aptamer alone, the DNA-Ado complex produced two distinct new characteristic events, indicating the formation of two unique secondary structures. By analyzing current events, the structures formed by the DNA-Ado complex were speculated to be hairpin DNA and G-quadruplex (G4) DNA. Furthermore, we demonstrated the potential of the aptamer as a chiral selector within the nanopore. The results showed that the aptamer specifically bound to D-Ado and not to L-Ado. Finally, we realized specific and sensitive detection of small molecule Ado by α-HL pore, with a detection limit as low as 10.5 nM, and successfully applied it to the detection of real human serum samples. The nanopore platform provides a powerful tool for studying small molecule-biomolecule conformational changes, and we constructed sensors for detecting adenosine through the aptamer. This work also offers a promising new approach to the recognition of enantiomers at the single-molecule level.

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