
pmid: 17081743
Bioelectrocatalytic oxidation of theophylline was studied at gold and graphite electrodes modified with microbial theophylline oxidase (ThOx), a multi-cofactor redox enzyme capable of selective oxidation of theophylline. Gold electrodes were additionally modified with self-assembled monolayers (SAMs) of (-OH)- and (-NH(2))-terminated alkanethiols of different chain lengths, to achieve compatibility between ThOx and the electrode surface. On graphite, ThOx was either physically co-adsorbed with a surfactant didodecyldimethylammonium bromide (DDAB), or entrapped within an Os-redox-polymer film. At all electrodes, ThOx was bioelectrocatalytically active; direct electrochemistry of ThOx in the absence of theophylline was followed only at the SAM-modified gold electrodes. Direct electrochemistry of ThOx correlated with redox transformations of the heme domain of ThOx, with a E(o/)of -110+/-2 mV versus Ag|AgCl, at pH 7. Bioelectrocatalytic oxidation of theophylline was optimal at mixed (-OH)/(-NH(2))-terminated SAMs; co-adsorption of ThOx with DDAB improved the bioelectrocatalytic performance of the ThOx-electrode. In both cases, the response to theophylline was within the mM range. Alternatively, a reagentless ThOx-electrode based on ThOx cross-linked within the Os-redox-polymer matrix demonstrated a linear response to theophylline within the physiologically important 0.02-0.6mM (3.6-72 mg l(-1)) concentration range with a sensitivity of 52.1+/-7.8 mA cm(-2)M(-1).
Coated Materials, Biocompatible, Theophylline, Electrochemistry, Reproducibility of Results, Biosensing Techniques, Enzymes, Immobilized, Oxidoreductases, Microelectrodes, Sensitivity and Specificity, Catalysis
Coated Materials, Biocompatible, Theophylline, Electrochemistry, Reproducibility of Results, Biosensing Techniques, Enzymes, Immobilized, Oxidoreductases, Microelectrodes, Sensitivity and Specificity, Catalysis
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