DNA nanosensors based on the use of single gold nanowire electrodes and Methylene Blue as an intercalator.

The authors describe an electrochemical DNA nanosensor based on the use of single gold nanowire electrodes (AuNWEs). The probe DNA is immobilized on the AuNWE via Au-S bonds that are formed between thiol-terminated DNA and the gold surface. Single AuNWEs were prepared by an improved laser-assisted pulling method and hydrofluoric acid etching. The nanoelectrodes were characterized by cyclic voltammetry and COMSOL simulation. Square wave voltammetry was used to monitor the DNA hybridization event between probe DNA and target DNA by using Methylene Blue (MB) as an intercalator of dsDNA. Under optimal conditions, the peak current for MB (best measured at a potential of -0.2 V vs. Ag/AgCl) increases linearly with the logarithm of the analyte concentration in the 1.0 f. to 10 nM range, with a 0.48 fmM detection limit at an S/N ratio of 3. The assay is highly selective, reproducible and stable. Considering the small overall dimensions and high sensitivity, this nanoelectrode potentially can be applied to in-vivo sensing of DNA inside living cells Graphical abstract Schematic presentation of an electrochemical DNA nanosensor using single gold nanowire electrodes and based on the interaction of thiol-terminated DNA and gold surface. It was used to detect complementary DNA with high selectivity and sensitivity.