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Abstract
The epitope imprinting approach applies exposed peptides as templates to synthesize Molecularly Imprinted Polymers (MIPs) for the recognition of the parent protein. While generally the template protein binding to such MIPs is considered to occur via the epitope-shaped cavities, unspecific interactions of the analyte with non-imprinted polymer as well as the detection method used may add to the complexity and interpretation of the target rebinding. To get new insights on the effects governing the rebinding of analytes, we electrosynthesized two epitope-imprinted polymers using the N-terminal pentapeptide VHLTP-amide of human hemoglobin (HbA) as the template. MIPs were prepared either by single-step electrosynthesis of scopoletin/pentapeptide mixtures or electropolymerization was performed after chemisorption of the cysteine extended VHLTP peptide. Rebinding of the target peptide and the parent HbA protein to the MIP nanofilms was quantified by square wave voltammetry using a redox probe gating, surface enhanced infrared absorption spectroscopy, and atomic force microscopy. While binding of the pentapeptide shows large influence of the amino acid sequence, all three methods revealed strong non-specific binding of HbA to both polyscopoletin-based MIPs with even higher affinities than the target peptides.
Highlights
Hemoglobin (HbA) is a heme-containing tetrameric protein which acts in the reduced state as the oxygen carrier in blood [1]
We have recently reported the successful synthesis of two types of peptide imprinted nanofilms for the recognition of the N-terminal HbA
Electrochemical Characterization of HbA Binding to the Molecularly Imprinted Polymers (MIPs) and Cross-Reactivity Studies
Summary
Hemoglobin (HbA) is a heme-containing tetrameric protein which acts in the reduced state as the oxygen carrier in blood [1]. It consists of two α and two ß subunits. Each subunit contains one non-covalently bound heme group as oxygen binding site [2]. The normal concentration of the tetrameric HbA in blood is 2.3 mM [3]. Determination of HbA in blood is one of the most frequently used analyses in the clinical laboratory. Decreased concentrations are indicative for anaemia [4]. Traces of HbA in faeces are indicators of injuries of the colon, e.g., due to colon carcinomas [5].
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