Enzymatic oxidation of methane.
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This Current Topic review article focuses on the overall architectures, active site structures, substrate reactivities, protein-protein interactions, and chemical mechanisms of both MMOs, with an emphasis on fundamental aspects.Abstract:
Methane monooxygenases (MMOs) are enzymes that catalyze the oxidation of methane to methanol in methanotrophic bacteria. As potential targets for new gas-to-liquid methane bioconversion processes, MMOs have attracted intense attention in recent years. There are two distinct types of MMO, a soluble, cytoplasmic MMO (sMMO) and a membrane-bound, particulate MMO (pMMO). Both oxidize methane at metal centers within a complex, multisubunit scaffold, but the structures, active sites, and chemical mechanisms are completely different. This Current Topic review article focuses on the overall architectures, active site structures, substrate reactivities, protein–protein interactions, and chemical mechanisms of both MMOs, with an emphasis on fundamental aspects. In addition, recent advances, including new details of interactions between the sMMO components, characterization of sMMO intermediates, and progress toward understanding the pMMO metal centers are highlighted. The work summarized here provides a guide for th...read more
Citations
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References
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Journal Article
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Biologically inspired oxidation catalysis
Lawrence Que,William B. Tolman +1 more
TL;DR: The development of processes for selective hydrocarbon oxidation is a goal that has long been pursued, and extensive studies have revealed the key chemical principles that underlie their efficacy as catalysts for aerobic oxidations.
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Crystal structure of a bacterial non-haem iron hydroxylase that catalyses the biological oxidation of methane
TL;DR: The 2.2 & Aring; crystal structure of the 251K α2β2γ2 dimeric hydroxylase protein of methane mono-oxygenase from Methylococcus capsulatus (Bath) reveals the geometry of the catalytic di-iron core.