2010
DOI: 10.1039/c002137g
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A novel electrochemical DNAzyme sensor for the amplified detection of Pb2+ ions

Abstract: A novel amplification strategy based on DNAzyme functionalized gold nanoparticles was employed to enhance the sensitivity of an electrochemical sensor for detection of Pb2+. The detection limit is 0.028 nM, which is much lower than for other electrochemical DNAzyme sensors.

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Cited by 158 publications
(78 citation statements)
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“…With a large dynamic range (6 orders of magnitude), a detection limit down to 30 fM was obtained based on three times standard deviation of the blank, which is at least 500-fold lower than those of previously reported fluorescence methods. 22,[26][27][28][29] This sensitivity is also much higher than those of several electrochemical and electrochemiluminescence approaches 24,25,30,31 and is even comparable to the surface plasmon resonance-based biosensor. 32 The details are summarized in Table 1.…”
Section: Optimization Of Sensing Conditionsmentioning
confidence: 89%
“…With a large dynamic range (6 orders of magnitude), a detection limit down to 30 fM was obtained based on three times standard deviation of the blank, which is at least 500-fold lower than those of previously reported fluorescence methods. 22,[26][27][28][29] This sensitivity is also much higher than those of several electrochemical and electrochemiluminescence approaches 24,25,30,31 and is even comparable to the surface plasmon resonance-based biosensor. 32 The details are summarized in Table 1.…”
Section: Optimization Of Sensing Conditionsmentioning
confidence: 89%
“…Electrochemical sensors for Pb 2+ were reported using Pb 2+ -induced cleavage of nucleic acid substrates on AuNPs by 8-17 DNAzymes to enable the detachment (Fig. 7c) [249] or attachment [258] of AuNPs onto a DNAcoated electrode. The DNA on AuNPs permits attachment of large amounts of electrochemically active metal complexes, thus providing a large signal enhancement on the electrode in the presence of Pb 2+ [249,258].…”
Section: Nucleic Acid Cleaving/ligating Dnazymes and Aunps For Biosenmentioning
confidence: 99%
“…7c) [249] or attachment [258] of AuNPs onto a DNAcoated electrode. The DNA on AuNPs permits attachment of large amounts of electrochemically active metal complexes, thus providing a large signal enhancement on the electrode in the presence of Pb 2+ [249,258]. Graphene sheets decorated by DNAzyme-functionalized AuNPs were also used to detect L-histidine and Pb 2+ as the cofactors of two DNAzymes, respectively [261,278].…”
Section: Nucleic Acid Cleaving/ligating Dnazymes and Aunps For Biosenmentioning
confidence: 99%
“…Especially in developing electrochemical biosensors, highly selective detection strategy is the central research topic [1,2]. Mercury, a neurotoxicant, is considered to be one of highly toxic heavy metal ions and well known toxic contaminants in aquatic ecosystems.…”
Section: Introductionmentioning
confidence: 99%