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Mechanistic Investigation on C–C Bond Cleavage of Anthraquinone Catalyzed by an Atypical Nonheme Iron-Dependent Dioxygenase BTG13

Zhiwei Deng, Hao Su, Xiaodong Hou, Huibin Xu, Zhenbo Yuan, Xiang Sheng, Yijian Rao

2024ACS Catalysis12 citationsDOI

Abstract

An atypical nonheme iron-dependent dioxygenase BTG13 with a rare iron coordination of four histidine residues and a carboxylated-lysine (Kcx) was recently reported to catalyze the C 4a –C 10 bond cleavage of anthraquinone. However, the reaction mechanism of BTG13 remains elusive. Herein, the detailed mechanism of BTG13 is studied using molecular dynamics simulations and density functional theory calculations. The comprehensive mechanistic study shows that the most favorable pathway for the C–C bond cleavage of anthraquinone involves two unusual steps: (1) a hydrogen atom abstraction (HAA) from an sp 3 -hybridized carbon of the substrate by Fe III –O 2 •– and (2) an oxygen rebound to the substrate radical via homolytic O–O bond cleavage, which activates Fe III –OOH to form Fe IV ═O species. Furthermore, our results reveal that Kcx could increase the electron-donating ability of the ferrous iron, thereby boosting the activation of dioxygen to form Fe III –O 2 •– species and facilitating the following HAA and O–O bond cleavage processes. This study advances the current knowledge of reactions catalyzed by iron-dependent oxygenases.

Topics & Concepts

ChemistryDioxygenaseBond cleavageCatalysisCleavage (geology)PhotochemistryHydrogen atom abstractionStereochemistryReaction mechanismRadicalOrganic chemistryEnzymeFracture (geology)Geotechnical engineeringEngineeringMetal-Catalyzed Oxygenation MechanismsCO2 Reduction Techniques and CatalystsSynthesis and Catalytic Reactions
Mechanistic Investigation on C–C Bond Cleavage of Anthraquinone Catalyzed by an Atypical Nonheme Iron-Dependent Dioxygenase BTG13 | Litcius