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Codeposition Enhances the Performance of Electrochemical Aptamer-Based Sensors

Yuyang Wu, Jinyuan Shi, Tod E. Kippin, Kevin W. Plaxco

2024Langmuir10 citationsDOIOpen Access PDF

Abstract

Electrochemical aptamer-based (EAB) sensors, a minimally invasive means of performing high-frequency, real-time measurement of drugs and biomarkers in situ in the body, have traditionally been fabricated by depositing their target-recognizing aptamer onto an interrogating gold electrode using a "sequential" two-step method involving deposition of the thiol-modified oligonucleotide (typically for 1 h) followed by incubation in mercaptohexanol solution (typically overnight) to complete the formation of a stable, self-assembled monolayer. Here we use EAB sensors targeting vancomycin, tryptophan, and phenylalanine to show that "codeposition", a less commonly employed EAB fabrication method in which the thiol-modified aptamer and the mercaptohexanol diluent are deposited on the electrode simultaneously and for as little as 1 h, improves the signal gain (relative change in signal upon the addition of high concentrations of the target) of the vancomycin and tryptophan sensors without significantly reducing their stability. In contrast, the gain of the phenylalanine sensor is effectively identical irrespective of the fabrication approach employed. This sensor, however, appears to employ binding-induced displacement of the redox reporter rather than binding-induced folding as its signal transduction mechanism, suggesting in turn a mechanism for the improvement observed for the other two sensors. Codeposition thus not only provides a more convenient means of fabricating EAB sensors but also can improve their performance.

Topics & Concepts

AptamerElectrodeFabricationChemistryMonolayerFolding (DSP implementation)NanotechnologySIGNAL (programming language)ElectrochemistryMaterials scienceCombinatorial chemistryComputer scienceElectrical engineeringEngineeringMedicinePhysical chemistryAlternative medicineProgramming languageBiologyGeneticsPathologyAdvanced biosensing and bioanalysis techniquesElectrochemical Analysis and ApplicationsMolecular Junctions and Nanostructures
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