活性氮物种
一氧化氮
活性氧
化学
硝化作用
氮氧化物
氮氧化物
氧气
亚硝化
氮气
后遗症
氧化物
生物化学
氮氧化物
有机化学
医学
工程类
精神科
废物管理
燃烧
作者
Michael Graham Espey,Katrina M. Miranda,Douglas D. Thomas,Sandhya Xavier,Deborah E. Citrin,Michael P. Vitek,David A. Wink
标识
DOI:10.1111/j.1749-6632.2002.tb04068.x
摘要
Nitric oxide (nitrogen monoxide, NO) plays a veritable cornucopia of regulatory roles in normal physiology. In contrast, NO has also been implicated in the etiology and sequela of numerous neurodegenerative diseases that involve reactive oxygen species (ROS) and nitrogen oxide species (RNOS). In this setting, NO is often viewed solely as pathogenic; however, the chemistry of NO can also be a significant factor in lessening injury mediated by both ROS and RNOS. The relationship between NO and oxidation, nitrosation, and nitration reactions is summarized. The salient factors that determine whether NO promotes, abates, or interconnects these chemistries are emphasized. From this perspective of NO chemistry, the type, magnitude, location, and duration of either ROS or RNOS reactions may be predicted.
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