Abstract
Artificial metalloenzymes have fed our understanding of how inorganic reactivities emerge, evolve, and diversify in protein environments. Herein, we created dinuclear copper oxidases by genetically encoding a metal-ligating unnatural amino acid (bpy-Ala) per protomer in the vicinity of the innate C2 rotational axis of a homo-oligomeric protein. The inherent protein symmetry allows the precise multiplication and placement of two Cu(bpy) species. Depending on the location of bpy-Ala, the tailor-made metalloenzymes exhibited electronically uncoupled or coupled dicopper sites. Consequently, they displayed various reactivities with dioxygen associated with multiple protons and electrons, illustrating a diverse chemical repertoire of artificial copper-dependent enzymes.
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