Lead ion (Pb(2+), a heavy metal ion existed every aspect of life) is one of the most important hazards for environment and human health. Herein we design an in-situ amplified electronic monitoring system for sensitive determination of Pb(2+) on Pb(2+)-specific DNAzyme-modified sensing interface. The assay consists of target-triggered cleavage of Pb(2+)-specific DNAzyme, initiator strand-induced DNA hybridization chain reaction, formation of hemin/G-quadruplex -based DNAzyme and its automatically catalyzed polymerization of aniline monomer along the double-stranded DNA. Experimental results indicated that the catalytic currents of the as-produced polyaniline were linearly dependent on target Pb(2+) concentrations from 0.05 to 50nM with a detection limit (LOD) of 32pM. Such a synergistic effect of hybridization chain reaction with DNAzyme-catalyzed polymerization provided a universal platform for sensitive screening of target Pb(2+), thereby holding great promise for application in practice.
Keywords: DNA self-assembly; Electrochemical biosensor; Hemin/G-quadruplex; Lead ion; Polyaniline; Polymerization.
Copyright © 2015 Elsevier B.V. All rights reserved.