An amplified logic gate driven by in situ synthesis of silver nanoclusters for identification of biomarkers

Abstract

An amplified DNA logic sensor was constructed for the identification of multiple biomarkers, in which the inputs of targets triggered the disassembly of a V-shaped probe (VSP) structure by a strand displacement reaction, leading to the synthesis of silver nanoclusters (AgNCs) for electrocatalytic reduction of H₂O₂. The sensing platform achieved sensitive detection of methylated DNA and microRNA 122 with detection limits down to 3.4 and 4.1 fM, respectively, and can be used for the assay of clinical serum samples from healthy volunteers and liver injury patients with satisfactory results. The DNA logic sensor exhibited the advantages of convenience, low cost, and versatility without the involvement of electroactive label modification, which is helpful for disease diagnosis as well as the fundamental investigation of interfacial electrochemistry and molecular biology.