化学
生物无机化学
血红素蛋白
血红素
硝基
肌红蛋白
一氧化氮
腿血红蛋白
亚硝酸盐
亚硝酸盐还原酶
反硝化
固氮酶
固氮
氮气
无机化学
硝酸盐
有机化学
酶
根瘤
作者
Murugaeson R. Kumar,Jon M. Fukuto,Katrina M. Miranda,Patrick J. Farmer
出处
期刊:Inorganic Chemistry
[American Chemical Society]
日期:2010-07-12
卷期号:49 (14): 6283-6292
被引量:65
摘要
The formation and interconversion of nitrogen oxides has been of interest in numerous contexts for decades. Early studies focused on gas-phase reactions, particularly with regard to industrial and atmospheric environments, and on nitrogen fixation. Additionally, investigation of the coordination chemistry of nitric oxide (NO) with hemoglobin dates back nearly a century. With the discovery in the early 1980s that NO is biosynthesized as a molecular signaling agent, the literature has been focused on the biological effects of nitrogen oxides, but the original concerns remain relevant. For instance, hemoglobin has long been known to react with nitrite, but this reductase activity has recently been considered to be important to produce NO under hypoxic conditions. The association of nitrosyl hydride (HNO; also commonly referred to as nitroxyl) with heme proteins can also produce NO by reductive nitrosylation. Furthermore, HNO is considered to be an intermediate in bacterial denitrification, but conclusive identification has been elusive. The authors of this article have approached the bioinorganic chemistry of HNO from different perspectives, which have converged because heme proteins are important biological targets of HNO.
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