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Reference type: Journal
Authors: Caserta G, Zhang XR, Yarman A, Supala E, Wollenberger U, Gyurcsányi RE, Zebger I, Scheller FW
Article Title: Insights in electrosynthesis, target binding, and stability of peptide-imprinted polymer nanofilms.
Publication date: 2021
Journal: Electrochimica Acta
Volume: 381
Article Number: 138236.
DOI: 10.1016/j.electacta.2021.138236
Alternative URL: https://www.sciencedirect.com/science/article/pii/S0013468621005260

Abstract: Molecularly imprinted polymer (MIP) nanofilms have been successfully implemented for the recognition of different target molecules: however, the underlying mechanistic details remained vague. This paper provides new insights in the preparation and binding mechanism of electrosynthesized peptide-imprinted polymer nanofilms for selective recognition of the terminal pentapeptides of the ß-chains of human adult hemoglobin, HbA, and its glycated form HbA1c. To differentiate between peptides differing solely in a glucose adduct MIP nanofilms were prepared by a two-step hierarchical electrosynthesis that involves first the chemisorption of a cysteinyl derivative of the pentapeptide followed by electropolymerization of scopoletin. This approach was compared with a random single-step electrosynthesis using scopoletin/pentapeptide mixtures. Electrochemical monitoring of the peptide binding to the MIP nanofilms by means of redox probe gating revealed a superior affinity of the hierarchical approach with a Kd value of 64.6 nM towards the related target. Changes in the electrosynthesized non-imprinted polymer and MIP nanofilms during chemical, electrochemical template removal and rebinding were substantiated in situ by monitoring the characteristic bands of both target peptides and polymer with surface enhanced infrared absorption spectroscopy. This rational approach led to MIPs with excellent selectivity and provided key mechanistic insights with respect to electrosynthesis, rebinding and stability of the formed MIPs
Template and target information: peptide
Author keywords: SEIRA spectroelectrochemistry, Peptide imprinting, electrosynthesis, MIP, Glycated peptide


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