血红素加氧酶，引导双加氧激活以实现血红素羟基化。

Heme oxygenase, steering dioxygen activation toward heme hydroxylation.

作者信息

Rivera Mario, Zeng Yuhong

机构信息

Department of Chemistry, University of Kansas, Lawrence, KS 66045-7582, USA.

出版信息

J Inorg Biochem. 2005 Jan;99(1):337-54. doi: 10.1016/j.jinorgbio.2004.09.016.

DOI:10.1016/j.jinorgbio.2004.09.016

PMID:15598511

Abstract

The activation of dioxygen by heme oxygenase proceeds via formation of an obligatory ferric hydroperoxide intermediate (FeIII-OOH), as is the case in the activation of dioxygen by monooxygenase enzymes. This review summarizes current understanding of the structural and dynamic properties in heme oxygenase that channel the reactivity of the FeIII-OOH intermediate toward heme hydroxylation rather than oxoferryl formation. In addition, structural and electronic factors dictating the regiospecificity of heme oxygenation are analyzed in the context of recent X-ray and NMR spectroscopic studies. Differences in mechanism between heme hydroxylation, as carried out by heme oxygenase, and the coupled oxidation process, are also addressed.

摘要

与单加氧酶激活双原子氧的情况一样，血红素加氧酶激活双原子氧是通过形成一个必不可少的铁氢过氧化物中间体（FeIII-OOH）来进行的。本综述总结了目前对血红素加氧酶结构和动力学性质的理解，这些性质引导FeIII-OOH中间体的反应性朝着血红素羟基化而非氧合铁（IV）中间体形成的方向发展。此外，结合最近的X射线和核磁共振光谱研究，分析了决定血红素氧合区域特异性的结构和电子因素。同时也讨论了血红素加氧酶进行的血红素羟基化与偶联氧化过程在机制上的差异。

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血红素加氧酶，引导双加氧激活以实现血红素羟基化。

Heme oxygenase, steering dioxygen activation toward heme hydroxylation.

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