Abstract
Several DNA templates with the sequence 5′-T n TAACCCCTAACCCCT-3′ (n = 0, 15, 30, and 45) were used to prepare DNA template–silver nanoclusters (DNA–Ag NCs). The T n sequence acts as a recognition element for Hg2+, while the rest of the sequence acts as a template for DNA–Ag NCs. At pH 3.0, the fluorescence intensity of DNA–Ag NCs is enhanced by ATP, and the enhanced fluorescence is quenched by Hg2+. The length of polyT shows a slight effect on the sensitivity for the detection of Hg2+ but almost no effect on the optical properties of DNA–Ag NCs. The fluorescence response of DNA–Ag NCs (T15-DNA–Ag NCs) vs. Hg2+ concentration shows two linear ranges over 10–100 and 100–1000 nM, mainly because of the fluorescence quenching due to DNA conformational changes through T–Hg2+–T coordination and the formation of an amalgam with Ag NCs, respectively. The sensitivity of the T15-DNA–Ag NC probe was validated through the analysis of Hg2+ in spiked pond water. Based on the switch-on and switch-off fluorescence properties of T15-DNA–Ag NCs, an IMPLICATION logic gate was fabricated using the concentrations of ATP and Hg2+ as inputs and the fluorescence intensity at 585 nm as output.
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