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Signal Amplification in Electrochemical DNA Biosensors Using Target-Capturing DNA Origami Tiles

Paul Williamson, Petteri Piskunen, Heini Ijäs, Adrian Butterworth, Veikko Linko, Damion K. Corrigan

2023ACS Sensors68 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Electrochemical DNA (e-DNA) biosensors are feasible tools for disease monitoring, with their ability to translate hybridization events between a desired nucleic acid target and a functionalized transducer, into recordable electrical signals. Such an approach provides a powerful method of sample analysis, with a strong potential to generate a rapid time to result in response to low analyte concentrations. Here, we report a strategy for the amplification of electrochemical signals associated with DNA hybridization, by harnessing the programmability of the DNA origami method to construct a sandwich assay to boost charge transfer resistance ( R CT ) associated with target detection. This allowed for an improvement in the sensor limit of detection by two orders of magnitude compared to a conventional label-free e-DNA biosensor design and linearity for target concentrations between 10 pM and 1 nM without the requirement for probe labeling or enzymatic support. Additionally, this sensor design proved capable of achieving a high degree of strand selectivity in a challenging DNA-rich environment. This approach serves as a practical method for addressing strict sensitivity requirements necessary for a low-cost point-of-care device.

Topics & Concepts

BiosensorAnalyteDetection limitDNADNA–DNA hybridizationLinearityTransducerHybridization probeMaterials scienceSensitivity (control systems)Computer scienceNanotechnologyBiological systemChemistryElectronic engineeringPhysicsChromatographyBiologyEngineeringBiochemistryAcousticsAdvanced biosensing and bioanalysis techniquesBiosensors and Analytical DetectionRNA Interference and Gene Delivery
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