化学
硝基苯
苯胺
组合化学
亚硝基苯
反应性(心理学)
选择性
小学(天文学)
胺气处理
生物催化
催化作用
激进的
基质(水族馆)
芳香胺
活动站点
氧化剂
有机化学
反应机理
替代医学
医学
病理
地质学
物理
海洋学
天文
作者
Jie Chen,Fuquan Yao,Yiping Jiang,Xiangquan Qin,Mo Xian,Yingang Feng,Zhiqi Cong
出处
期刊:Advanced Science
[Wiley]
日期:2024-12-16
卷期号:12 (6): e2412100-e2412100
被引量:7
标识
DOI:10.1002/advs.202412100
摘要
Amine oxidation is an important organic reaction for the production of high-value N-containing compounds. However, it is still challenging to control the reactivity of active N-centered radicals to selectively access N-oxidation products. Herein, this study reports the engineering of cytochrome P450BM3 into multifunctional N-oxidizing enzymes with the assistance of dual-functional small molecules (DFSM) to selectively produce N-oxygenation (i.e., p-nitrosobenzene, p-nitrobenzene, and azoxybenzene) and one-electron oxidation products (i.e., oligomeric quinones and azobenzene) from aromatic amines. The best mutant, F87A/T268V/V78T/A82T, exclusively gives p-nitrosobenzene (up to 98% selectivity), whereas the selectivity for p-nitrobenzene is >99% using the mutant F87A/T268V/A82T/I263L. Crystal structure analysis reveals that key mutations and DFSM exert synergistic effects on catalytic promiscuity by controlling the substrate orientation in active center. This study highlights the potential of DFSM-facilitated P450 peroxygenase and peroxidase for the synthesis of N-containing compounds via the controllable oxidation of aromatic amines, substantially expanding the chemical space of P450 enzymes.
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