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Two-state reactivity mechanisms of hydroxylation and epoxidation by cytochrome P-450 revealed by theory

✍ Scribed by Sason Shaik; Samuël P de Visser; François Ogliaro; Helmut Schwarz; Detlef Schröder

Book ID
104414703
Publisher
Elsevier Science
Year
2002
Tongue
English
Weight
199 KB
Volume
6
Category
Article
ISSN
1367-5931

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✦ Synopsis

Recent computational studies of alkane hydroxylation and alkene epoxidation by a model active species of the enzyme cytochrome P-450 reveal a two-state reactivity (TSR) scenario in which the information content of the product distribution is determined jointly by two states. TSR is used to reconcile the dilemma of the consensus 'rebound mechanism' of alkane hydroxylation, which emerged from experimental studies of ultra-fast radical clocks. The dilemma, stated succinctly as 'radicals are both present and absent and the rebound mechanism is both right and wrong', is simply understood once one is cognizant that the mechanism operates by two states, one low-spin (LS) the other high-spin (HS). In both states, bond activation proceeds in a manner akin to the rebound mechanism, but the LS mechanism is effectively concerted, whereas the HS is stepwise with incursion of radical intermediates.

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Two-State Reactivity in the Rebound Step
Two-State Reactivity in the Rebound Step of Alkane Hydroxylation by Cytochrome P-450: Origins of Free Radicals with Finite Lifetimes
✍ Nathan Harris; Shimrit Cohen; Michael Filatov; François Ogliaro; Sason Shaik 📂 Article 📅 2000 🏛 John Wiley and Sons 🌐 English ⚖ 119 KB 👁 1 views

Alkane hydroxylation [1] by cytochrome P-450 poses tantalizing mechanistic questions. The consensus rebound mechanism, Scheme 1, [2] involves hydrogen abstraction from the Scheme 1. Schematic representation of the rebound mechanism.