New mechanistic insights into coupled binuclear copper monooxygenases from the recent elucidation of the ternary intermediate of tyrosinase

Tyrosinase is the most predominant member of the coupled binuclear copper (CBC) protein family. The recent trapping and spectroscopic definition of the elusive catalytic ternary intermediate (enzyme/O2/monophenol) of tyrosinase dictates a monooxygenation mechanism that revises previous proposals and...

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Bibliographic Details
Published in:FEBS letters 2022-10, Vol.597 (1)
Main Authors: Kipouros, Ioannis, Solomon, Edward I.
Format: Article
Language:English
Online Access:Get full text
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Summary:Tyrosinase is the most predominant member of the coupled binuclear copper (CBC) protein family. The recent trapping and spectroscopic definition of the elusive catalytic ternary intermediate (enzyme/O2/monophenol) of tyrosinase dictates a monooxygenation mechanism that revises previous proposals and involves cleavage of the μ‐η2:η2‐peroxide dicopper(II) O–O bond to accept the phenolic proton, followed by monophenolate coordination to copper concomitant with aromatic hydroxylation by the non‐protonated μ‐oxo. Here, we compare and contrast previously proposed and current mechanistic models for monophenol monooxygenation of tyrosinase. Next, we discuss how these recent insights provide new opportunities towards uncovering structure–function relationships in CBC enzymes, as well as understanding fundamental principles for O2 activation and reactivity by bioinorganic active sites.
ISSN:0014-5793
1873-3468