Sensitive electrochemical detection of hydroxyl radical with biobarcode amplification

By using biobarcode nanoparticles, we have successfully constructed a DNA-based biosensor for amplified electrochemical detection of hydroxyl radical (OH). Thiolated DNA1 (SH-DNA1) was firstly immobilized on the planar gold (Au) electrode. OH generated from Fenton reaction could induce serious oxidative damage of the DNA layer adsorbed on the electrode surface, which was monitored by an intercalating probe, methylene blue (MB). In order to enhance the sensitivity of the biosensor, DNA2-functionalized Au nanoparticles (DNA2-AuNPs) were used to amplify the response signal. The developed DNA-based biosensor could detect OH quantitatively with wide linear range up to 10 mM and low detection limit of 3 μM, and exhibited satisfactory selectivity. On the other hand, this electrochemical biosensor could have potential application in the evaluation of antioxidant capacity.

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► A DNA-based biosensor for amplified electrochemical detection of OH was developed.
► The sensor shows good analytical performance for sensitive detection of OH.
► The biosensor has potential application in the evaluation of antioxidant capacity.