AI Article Synopsis
- Laccase from Trametes hirsuta was covalently bound to modified graphite electrodes, enabling effective direct electron transfer for oxygen reduction to water.
- Current densities reached 0.5mA/cm² without redox mediators, indicating a favorable enzyme orientation towards the electrode.
- The study found that chloride ions did not inhibit direct electron transfer, while fluoride ions hindered both direct and mediated transfer, highlighting different inhibitory effects of halides on laccase activity.
Article Abstract
Laccase from Trametes hirsuta basidiomycete has been covalently bound to graphite electrodes electrochemically modified with phenyl derivatives as a way to attach the enzyme molecules with an adequate orientation for direct electron transfer (DET). Current densities up to 0.5mA/cm(2) of electrocatalytic reduction of O(2) to H(2)O were obtained in absence of redox mediators, suggesting preferential orientation of the T1 Cu centre of the laccase towards the electrode. The covalent attachment of the laccase molecules to the functionalized electrodes permitted remarkable operational stability. Moreover, O(2) bioelectroreduction based on DET between the laccase and the electrode was not inhibited by chloride ions, whereas mediated bioelectrocatalysis was. In contrast, fluoride ions inhibited both direct and mediated electron transfers-based bioelectrocatalytic reduction of O(2). Thus, two different modes of laccase inhibition by halides are discussed.
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| http://dx.doi.org/10.1016/j.bios.2008.05.002 | DOI Listing |
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