An intra-stimuli resonance energy transfer-based electrochemiluminescence biosensor for DNA methylation detection

Aberrant DNA methylation, as one of the promising biomarkers, is intimately connected to a variety of genetic and tumor diseases. Herein, we constructed an innovative intra-stimuli electrochemiluminescence resonance energy transfer (ECL-RET) biosensor for methylated DNA detection with high sensitivity and accuracy. Glucose oxidase (GOD) was modified at the terminal of assist DNA as functional conjugation (assist DNA-GOD), which then hybridized with methylated target DNA and hairpin DNA to form Y-shaped DNA ternary conjugate. Ru(bpy)32+ encapsulated silica nanospheres (RuSiO2 NPs) were uniformly coated with silver nanoparticles (Ag NPs) and the formed RuSiO2@Ag nanocomposites were introduced to the terminal of hairpin DNA via amide bond. The combination of the ECL donor (RuSiO2 NPs) and acceptor (Ag NPs) on one nanostructure yielded an intra-molecular ECL-RET. Afterward, the presence of H2O2 as the product of GOD catalyzing glucose induced the etching of Ag NPs and subsequent recovery of ECL signal from RuSiO2 NPs. Thus, due to the dependence of the ECL enhancement on the target concentration, this method achieved the quantitative analysis of methylated target DNA with good selectivity, repeatability, and practical utility.