2016
DOI: 10.1021/acs.analchem.6b01899
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Mechanochemical Sensing of Single and Few Hg(II) Ions Using Polyvalent Principles

Abstract: Sensitivity of biosensors is set by the dissociation constant (K) between analytes and probes. Although potent amplification steps can be accommodated between analyte recognition and signal transduction in a sensor to improve the sensitivity 4-6 orders of magnitude below K, they compromise temporal resolution. Here, we demonstrated mechanochemical sensing that broke the K limit by 9 orders of magnitude for Hg detection without amplifications. Analogous to trawl fishing, we introduced multiple Hg binding units … Show more

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Cited by 8 publications
(9 citation statements)
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“…In addition, the proximity effect in the dual recognition can reduce the entropic penalty due to the formation of the bound complex. Similar effect has been observed in the polyvalent binding that has significantly increased binding affinity relative to the monomeric recognitions (19,20).…”
Section: Introductionsupporting
confidence: 75%
“…In addition, the proximity effect in the dual recognition can reduce the entropic penalty due to the formation of the bound complex. Similar effect has been observed in the polyvalent binding that has significantly increased binding affinity relative to the monomeric recognitions (19,20).…”
Section: Introductionsupporting
confidence: 75%
“…The DNA constructs for single-molecule mechanochemical sensing (SMMS) were prepared as described in the previous report . The sensing element was contained inside the DNA hairpin (see DNA sequences in Table S1) sandwiched between two long dsDNA handles .…”
Section: Methodsmentioning
confidence: 99%
“…The DNA constructs for single-molecule mechanochemical sensing (SMMS) 19 were prepared as described in the previous report. 21 The sensing element was contained inside the DNA hairpin (see DNA sequences in Table S1) sandwiched between two long dsDNA handles. 22 Briefly, the digoxigenin labeled 2690 bp dsDNA handle was prepared by digesting pEGFP (Clontech, Mountain View, CA) plasmid with SacI (NEB) and EagI (NEB).…”
mentioning
confidence: 99%
“…Screened by in vitro selection method, SELEX, 27 these secondary structures are also involved in DNA aptamers to bind analytes with nanomolar K d , achieving high specificities. 34 1 fM (20 min) 1 fM−100 pM Hg(II) fast detection complicated preparation materials inefficiency Poly(T) repeats 40 3 pM (20 min) 3 pM−10 μM Melamine fast detection multistep preparation (RCA) high-throughput material efficiency DNA origami 3 10 pM (10 min) 10 pM−50 nM PDGF fast detection low/medium throughput multiplexing material inefficiency Multiple DNA hairpins 43 1 fM (20 min) high signal-to-noise ratios. Most of the SMMS use force and extension as reporting signals.…”
Section: Single-molecule Probes For Chemical Bindingmentioning
confidence: 99%