Surface plasmon resonance detection of silver ions and cysteine using DNA intercalator-based amplification

We report the development of a surface plasmon resonance sensor based on the silver ion (Ag + )-induced conformational change of a cytosine-rich, single-stranded DNA for the detection of Ag + and cysteine (Cys) in aqueous solutions. In the free state, single-stranded oligonucleotides fold into double-helical structures through the addition of Ag + to cytosine–cytosine (C–C) mismatches. However, in the presence of Cys, which competitively binds to Ag + , the formation of the C–Ag + –C assembly is inhibited, resulting in free-state, single-stranded oligonucleotides. To enhance sensitivity, the DNA intercalator, daunorubicin, was employed to achieve signal enhancement. The detection limit for Ag + was 10 nM with a measurement range of 50–2,000 nM, and the detection limit for Cys was 50 nM with a measurement range of 50–2,000 nM. This simple assay was also used to individually determine the spiked Ag + concentration in water samples and Cys concentrations in biological fluid samples.