Highly Sensitive Resonance Scattering Detection of DNA Hybridization Using Aptamer-Modified Gold Nanopaticle as Catalyst

Gold nanoparticle particles in size of 10 nm were used to label the thiol-modified single-stranded DNA aptamer (SH-ssDNA) to obtain an aptamer-modified gold nanoparticle probe (AussDNA) for target DNA (tDNA). In pH 7.4 NaH₂PO₄–Na₂HPO₄ buffer solution, the hybridization reaction between AussDNA and tDNA took place to form larger aptamer-modified gold nanoparticle cluster complex. The excess aptamer-modified gold nanoparticle probe in the supernatant solutions was obtained by centrifuging and can be used as nanocatalyst for the 0.276 mmol/L CuSO₄-65.4 mmol/L potassium-sodium tartrate-0.37 mmol/L glucose system at 70 °C. The cubic Cu₂O particles generated by the nanocatalytic reducing exhibit a strong resonance scattering (RS) peak at 620 nm. In the selected conditions, the RS intensity at 620 nm decreased with addition of tDNA, and the decreased intensity ΔI _{620 nm} is proportional to tDNA concentration (C _tDNA) from 0.12 to 72 pM, with regress equation of ΔI _620 nm = 1.29C _tDNA + 4.05, correlation coefficient of 0.9917, and detection limit of 0.084 pM tDNA.