Regenerable biosensor platform: a total internal reflection fluorescence cell with electrochemical control
Abstract
A new biosensor platform that provides simultaneous fluorescence detection and electrochemical control of biospecific binding has been developed and investigated using antibody-antigen and streptavidin-biotin interactions. Specifically, biotin was covalently bound to a transparent indium-tin oxide (ITO) working electrode, which also served as an integral part of a total internal reflection fluorescence (TIRF) flow cell. TIRF was used to monitor biospecific interactions, while electrochemical polarization was employed to control interactions between biotin and streptavidin or between biotin and anti-biotin antibodies. Both streptavidin and polyclonal anti-biotin antibodies bound kinetically irreversibly to the biotinylated surface. In the absence of electrochemical control, the assay exhibited an extremely slow release of the bound analytes, causing poor regeneration ability of the biosensor surface. However, electrochemical polarization was found to stimulate dissociation of kinetically irreversibly bound biotin-streptavidin and antibody-antigen complexes. A "square wave" polarization function stimulated dissociation more effectively than a "saw tooth" function over the same voltage range. Application of the square wave polariz...Continue Reading
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Modification of indium-tin oxide (ITO) glass with aziridine provides a surface of high amine density
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