铁卟啉卡宾作为催化中间体:结构、穆斯堡尔谱和核磁共振光谱性质以及键合
Iron porphyrin carbenes as catalytic intermediates: structures, Mössbauer and NMR spectroscopic properties, and bonding.
作者信息
Khade Rahul L, Fan Wenchao, Ling Yan, Yang Liu, Oldfield Eric, Zhang Yong
机构信息
Department of Chemistry, Chemical Biology, and Biomedical, Engineering, Stevens Institute of Technology, Castle Point on Hudson, Hoboken, NJ 07030 (USA).
出版信息
Angew Chem Int Ed Engl. 2014 Jul 14;53(29):7574-8. doi: 10.1002/anie.201402472. Epub 2014 Jun 6.
Abstract
Iron porphyrin carbenes (IPCs) are thought to be intermediates involved in the metabolism of various xenobiotics by cytochrome P450, as well as in chemical reactions catalyzed by metalloporphyrins and engineered P450s. While early work proposed IPCs to contain Fe(II), more recent work invokes a double-bond description of the iron-carbon bond, similar to that found in Fe(IV) porphyrin oxenes. Reported herein is the first quantum chemical investigation of IPC Mössbauer and NMR spectroscopic properties, as well as their electronic structures, together with comparisons to ferrous heme proteins and an Fe(IV) oxene model. The results provide the first accurate predictions of the experimental spectroscopic observables as well as the first theoretical explanation of their electrophilic nature, as deduced from experiment. The preferred resonance structure is Fe(II)←{:C(X)Y}(0) and not Fe(IV)={C(X)Y}(2-), a result that will facilitate research on IPC reactivities in various chemical and biochemical systems.
摘要
铁卟啉卡宾(IPCs)被认为是细胞色素P450参与各种外源性物质代谢的中间体,以及金属卟啉和工程化P450催化的化学反应中的中间体。虽然早期的研究认为IPCs含有Fe(II),但最近的研究提出了铁-碳键的双键描述,类似于在Fe(IV)卟啉氧烯中发现的情况。本文报道了对IPCs穆斯堡尔和核磁共振光谱性质及其电子结构的首次量子化学研究,并与亚铁血红素蛋白和Fe(IV)氧烯模型进行了比较。结果首次对实验光谱观测值进行了准确预测,并首次从实验推导中对其亲电性质进行了理论解释。优选的共振结构是Fe(II)←{:C(X)Y}(0)而非Fe(IV)={C(X)Y}(2-),这一结果将有助于研究IPCs在各种化学和生化系统中的反应活性。
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