An exonuclease-assisted amplification electrochemical aptasensor of thrombin coupling “signal on/off” strategy

• MB and Fc were labeled on two oligonucleotides separately to produce dual signals.
• Coupling “signal-on” and “signal-off” strategies.
• Exonuclease-catalyzed target recycling amplified two signals significantly.

In this work, a dual-signaling electrochemical aptasensor based on exonuclease-catalyzed target recycling was developed for thrombin detection. The proposed aptasensor coupled “signal-on” and “signal-off” strategies. As to the construction of the aptasensor, ferrocene (Fc) labeled thrombin binding aptamer (TBA) could perfectly hybridize with the methylene blue (MB) modified thiolated capture DNA to form double-stranded structure, hence emerged two different electrochemical signals. In the presence of thrombin, TBA could form a G-quadruplex structure with thrombin, leading to the dissociation of TBA from the duplex DNA and capture DNA formed hairpin structure. Exonuclease could selectively digest single-stranded TBA in G-quadruplex structure and released thrombin to realize target recycling. As a consequence, the electrochemical signal of MB enhanced significantly, which realized “signal on” strategy, meanwhile, the deoxidization peak current of Fc decreased distinctly, which realized “signal off” strategy. The employment of exonuclease and superposition of two signals significantly improved the sensitivity of the aptasensor. In this way, an aptasensor with high sensitivity, good stability and selectivity for quantitative detection of thrombin was constructed, which exhibited a good linear range from 5 pM to 50 nM with a detection limit of 0.9 pM (defined as S/N = 3). In addition, this design strategy could be applied to the detection of other proteins and small molecules.

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