血红素加氧酶与铁：从细菌到人类

Heme oxygenase and iron: from bacteria to humans.

作者信息

Li Cheng, Stocker Roland

机构信息

Centre for Vascular Research, School of Medical Sciences (Pathology) and Bosch Institute, University of Sydney, Sydney, New South Wales, Australia.

出版信息

Redox Rep. 2009;14(3):95-101. doi: 10.1179/135100009X392584.

DOI:10.1179/135100009X392584

PMID:19490750

Abstract

Iron and iron-containing prosthetic groups are involved in many fundamental processes that constitute life. One of the biologically most important iron-containing groups is heme, in which an iron atom is co-ordinated to a protoporphyrin ring. Heme proteins have a wide range of functions, participating in a vast repertoire of biochemical reactions. Due to its abundance, heme also serves as an important source of iron. Enzymatic degradation of heme usually involves its oxidative cleavage by heme oxygenase. Not surprisingly, heme oxygenase activity is present in organisms across different domains and kingdoms. This review summarises the current knowledge in the dynamic relationship between heme oxygenase and iron in metabolism and in the clinical context.

摘要

铁及含铁辅基参与构成生命的许多基本过程。生物学上最重要的含铁基团之一是血红素，其中一个铁原子与原卟啉环配位。血红素蛋白具有广泛的功能，参与大量的生化反应。由于其含量丰富，血红素也是铁的重要来源。血红素的酶促降解通常涉及血红素加氧酶对其进行氧化裂解。毫不奇怪，血红素加氧酶活性存在于不同领域和界的生物体中。本综述总结了目前关于血红素加氧酶与铁在代谢及临床背景下动态关系的知识。

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血红素加氧酶与铁：从细菌到人类

Heme oxygenase and iron: from bacteria to humans.

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