Combination of DNA walker and Pb-specific DNAzyme-based signal amplification with a signal-off electrochemical DNA sensor for Staphylococcus aureus detection.

the accurate, reliable and specific analysis of foodborne pathogenic bacteria is vital for human health and safety. Staphylococcus aureus (S. aureus), as a common bacterium, is regularly found in food, water, and other biological samples. Herein, a signal-off electrochemical DNA sensor (E-DNA sensor) was designed for the sensitive detection ofS. aureusamplified withthecombination of a dna walker and pb-specific dnazyme. In this work, vancomycin functionalized gold nanoclusters (Van@Au NCs) and an aptamer strand as identification units were modified at the termini of two proximity probes. upon the addition of targetS. aureus, a dual-recognition binding-induced dna walker was driven by the formation of pba dual-recognition binding-induced dna walker was driven by the formation of pba dual-recognition binding-induced dna walker was driven by the formation of pba dual-recognition binding-induced dna walker was driven by the formation of pb-dependent dnazyme, achieving the conversion of oneS. aureus to many intermediate dna (t) strands. then, the released t strands hybridized with methylene blue-tagged hairpin dna (h-mb) on the electrode. consequently, the conformational alteration of t strands reduced the electron transfer efficiency of mb to the electrodeinterface (signal-off). therefore, sensitive analysis of S. aureus was readily acquired within a range of 10-10 CFU/mL and a low detection limit at 1 CFU/mL. Undoubtedly, dual recognition by aptamer and vancomycin in an integrated scheme brought about a good recognition performance of S. aureus in complex samples, as well as an efficient annihilation of harmful pathogenic bacteria during the experiment.