Abstract
The chemistry of Type 2 copper depleted T2D Rhus laccase has been investigated with regard to the binding of peroxide, and the ability of the enzyme to undergo reduction and reoxidation. Although the peroxide affinity is diminished in the T2D enzyme (10 4 M −1) relative to the holo-enzyme ((⩾ 10 8 M −1) the actual mode of binding as a Type 3 μ-peroxo complex remains, as indicated by absorption and CD spectral measurements. Anaerobic reductive and reoxidative titrations with hydroquinone and hydrogen peroxide respectively revealed that the Type 3 copper pairwise interaction is disrupted during reduction but can be restored on reoxidation. The concept of separate Type 2 and Type 3 copper redox centers is suggested to be inadequate in view of the loss of functional integrity by the Type 3 site on removal of Type 2 copper.
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