Etery Sharon scite author profile

The zinc(II)-protoporphyrin IX (ZnPPIX) fluorophore binds to G-quadruplexes, and this results in the enhanced fluorescence of the fluorophore. This property enabled the development of DNA sensors, aptasensors, and a sensor following telomerase activity. The DNA sensor is based on the design of a hairpin structure that includes a "caged" inactive G-quadruplex sequence. Upon opening the hairpin by the analyte DNA, the resulting fluorescence of the ZnPPIX/G-quadruplex provides the readout signal for the sensing event (detection limit 5 nM). Addition of Exonuclease III to the system allows the recycling of the analyte and its amplified analysis (detection limit, 200 pM). The association of the ZnPPIX to G-quadruplex aptamer-substrate complexes allowed the detection of adenosine-5'-triphosphate (ATP, detection limit 10 μM). Finally, the association of ZnPPIX to the G-quadruplex repeat units of telomers allowed the detection of telomerase activity originating from 380 ± 20 cancer 293T cell extract.

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Supramolecular Cocaine−Aptamer Complexes Activate Biocatalytic Cascades

Freeman

et al. 2009

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The anti-cocaine aptamer was fragmented into two nucleic acids, (1) and (2). The nucleic acid (1) was tethered at its 5'-end to aminoethyl nicotinamide adenine dinucleotide, amino-NAD(+), or to horseradish peroxidase, HRP. The nucleic acid (2) was functionalized at its 3'-end with alcohol dehydrogenase, AlcDH, or with glucose oxidase, GOx. In the presence of cocaine, the supramolecular NAD(+)/AlcDH/cocaine-aptamer complex is formed, and the biocatalytic oxidation of ethanol is activated. Similarly, in the presence of cocaine, the GOx/HRP/cocaine-aptamer complex is formed, and this activates the biocatalytic cascade where glucose is oxidized by GOx to yield gluconic acid and H(2)O(2), and the resulting hydrogen peroxide activates the HRP-biocatalyzed oxidation of 2,2'-azinobis-(3-ethylbenzthiazoline-6-sulfonate), ABTS(2-). The systems may be considered as biomimetic prototypes for systems biology.

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Self-assembly of supramolecular aptamer structures for optical or electrochemical sensing

Freeman

Tel‐Vered

et al. 2009

Analyst

124

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The self-assembly of labeled aptamer sub-units in the presence of their substrates provides a method for the optical (fluorescence) or electrochemical detection of the substrate. One of the sub-units is linked to CdSe/ZnS quantum dots (QDs), and the self-assembly of the dye-functionalized second sub-unit with the modified QDs, in the presence of cocaine, stimulates fluorescence resonance energy transfer (FRET). This enables the detection of cocaine with a detection limit corresponding to 1 x 10(-6) M. Alternatively, the aptamer fragments are modified with pyrene units. The formation of a supramolecular aptamer-substrate complex allosterically stabilizes the formation of excimer supramolecular structure, and its characteristic emission is observed. In addition, the thiolated aptamer sub-unit is assembled on an Au electrode. The Methylene Blue-labeled sub-unit binds to the surface-confined fragment in the presence of cocaine. The amperometric response of the system allows the detection of cocaine with a detection limit of 1 x 10(-5) M. The approach is generic and can be applied to other substrates, e.g. adenosine triphosphate.

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CdSe/ZnS Quantum Dots-G-Quadruplex/Hemin Hybrids as Optical DNA Sensors and Aptasensors

2010

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Ag Nanocluster/DNA Hybrids: Functional Modules for the Detection of Nitroaromatic and RDX Explosives

et al. 2014

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Luminescent Ag nanoclusters (NCs) stabilized by nucleic acids are implemented as optical labels for the detection of the explosives picric acid, trinitrotoluene (TNT), and hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX). The sensing modules consist of two parts, a nucleic acid with the nucleic acid-stabilized Ag NCs and a nucleic acid functionalized with electron-donating units, including L-DOPA, L-tyrosine and 6-hydroxy-L-DOPA, self-assembled on a nucleic acid scaffold. The formation of donor-acceptor complexes between the nitro-substituted explosives, exhibiting electron-acceptor properties, and the electron-donating sites, associated with the sensing modules, concentrates the explosives in close proximity to the Ag NCs. This leads to the electron-transfer quenching of the luminescence of the Ag NCs by the explosive molecule. The quenching of the luminescence of the Ag NCs provides a readout signal for the sensing process. The sensitivities of the analytical platforms are controlled by the electron-donating properties of the donor substituents, and 6-hydroxy-L-DOPA was found to be the most sensitive donor. Picric acid, TNT, and RDX are analyzed with detection limits corresponding to 5.2 × 10(-12) M, 1.0 × 10(-12) M, and 3.0 × 10(-12) M, respectively, using the 6-hydroxy-L-DOPA-modified Ag NCs sensing module.

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Etery Sharon

Fluorescence Detection of DNA, Adenosine-5′-Triphosphate (ATP), and Telomerase Activity by Zinc(II)-Protoporphyrin IX/G-Quadruplex Labels

Supramolecular Cocaine−Aptamer Complexes Activate Biocatalytic Cascades

Self-assembly of supramolecular aptamer structures for optical or electrochemical sensing

CdSe/ZnS Quantum Dots-G-Quadruplex/Hemin Hybrids as Optical DNA Sensors and Aptasensors

Ag Nanocluster/DNA Hybrids: Functional Modules for the Detection of Nitroaromatic and RDX Explosives

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