Bio-inspired Catalysts

With the aim of complementing well-established catalytic strategies for enantioselective catalysis, the field of artificial metalloenzymes has attracted increasing interest in the past decade. Artificial metalloenzymes result from the incorporation of a catalytically active organometallic moiety within a macromolecular host. Localization of the competent metal is ensured either by covalent, dative or supramolecular anchoring in either DNA or a protein scaffold. The properties of the resulting hybrid catalysts combine attractive features of both homogeneous and enzymatic catalysis. In particular, the optimization of such systems can be achieved both by chemical and genetic means. The book, consisting of five chapters written by leading experts, critically summarizes the state of the art in enantioselective epoxidation, sulfoxidation, fluorination, hydrogenation, allylic alkylation, Diels-Alder cycloadditions as well as Michael additions catalyzed by artificial metalloenzymes. This timely review unambiguously demonstrates the compatibility and complementarity of organometallic and enzymatic catalysis.

With the aim of complementing well-established catalytic strategies for enantioselective catalysis, the field of artificial metalloenzymes has attracted increasing interest in the past decade. Artificial metalloenzymes result from the incorporation of a catalytically active organometallic moiety within a macromolecular host. Localization of the competent metal is ensured either by covalent, dative or supramolecular anchoring in either DNA or a protein scaffold. The properties of the resulting hybrid catalysts combine attractive features of both homogeneous and enzymatic catalysis. In particular, the optimization of such systems can be achieved both by chemical and genetic means. The book, consisting of five chapters written by leading experts, critically summarizes the state of the art in enantioselective epoxidation, sulfoxidation, fluorination, hydrogenation, allylic alkylation, Diels-Alder cycloadditions as well as Michael additions catalyzed by artificial metalloenzymes. This timely review unambiguously demonstrates the compatibility and complementarity of organometallic and enzymatic catalysis.