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W3096736124 startingPage "238" @default.
W3096736124 abstract "Heme peroxidases oxidize a diverse array of substrates using hydrogen peroxide as the terminal oxidant. The catalytic cycle involves the transient formation of compound I and compound II, iconic ferryl intermediates that appear across a diverse group of heme enzymes, including cytochrome P450s, nitric oxide synthases and the terminal oxidases. This article is designed to cover the modern developments in the peroxidase field and is not intended as a comprehensive review. We will highlight a new generation of structural methods, including neutron diffraction and X-ray free electron lasers that avoid photoreduction of the iron center and allow the precise chemical nature of ferryl intermediates to be determined. The introduction of non-canonical axial heme ligands using an expanded genetic code has led to peroxidases with augmented properties and has allowed new structure-activity relationships to be conducted directly in enzyme active sites, revealing new insights into the factors governing ferryl heme reactivity. Finally, advances in protein design and engineering have led to the development of highly efficient de novo heme peroxidases with interesting catalytic properties. We anticipate that the emerging strategies for metalloenzyme design, engineering and characterization outlined in this chapter will continue to play key roles in driving our understanding of bioinorganic chemistry." @default.
W3096736124 created "2020-11-09" @default.
W3096736124 creator A5004151092 @default.
W3096736124 creator A5042290896 @default.
W3096736124 creator A5045772980 @default.
W3096736124 creator A5072785162 @default.
W3096736124 creator A5074254221 @default.
W3096736124 date "2021-01-01" @default.
W3096736124 modified "2023-09-27" @default.
W3096736124 title "Recent Advances in Understanding, Enhancing and Creating Heme Peroxidases" @default.
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W3096736124 doi "https://doi.org/10.1016/b978-0-08-102688-5.00021-0" @default.
W3096736124 hasPublicationYear "2021" @default.
W3096736124 type Work @default.