Application of linear-sweep voltammetry to the determination of nucleic acids using crystal violet as an electrochemical probe

Abstract

A new linear-sweep voltammetric assay of nucleic acids (NAs) based on their interaction with crystal violet (CV) is proposed. In a pH 3.5 Britton—Robinson (B-R) buffer solution, CV had an irreversible voltammetric reductive peak at −0.77 V and the peak current greatly decreased by the addition of NAs. Under the experimental conditions, the decrease in the peak current was used for the NAs assay 0.5–18.0 μg/mL of fish sperm DNA, 0.6–15.0 μg/mL of calf thymus DNA, and 0.8–12.0 μg/mL of yeast RNA. The detection limits (3σ) were 0.32, 0.47, and 0.61 μg/mL for fsDNA, ctDNA, and yRNA, respectively. The binding reaction can be completed after mixing DNA with CV within 10 min and the electrochemical response is stable for 2 h. There are seldom interferences in this method and three synthetic samples were analyzed with satisfactory results. The stoichiometry of the supramolecular complex with the binding number 3 and the binding constant 2.78 × 1014 is calculated using electrochemical data.