Chemistry of nitric oxide and related species

Chemistry of nitric oxide and related species

Nitric oxide (NO) has essential roles in a remarkable number of diverse biological processes. The reactivity of NO depends upon its physical properties, such as its small size, high diffusion rate, and lipophilicity (resulting in its accumulation in hydrophobic regions), and also on its facile but s...

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Bibliographic Details
Published in:Methods in enzymology Vol. 436; p. 3
Main Author: Hughes, Martin N
Format: Journal Article
Language:English
Published: United States 2008
Subjects:
Animals
Humans
Metals - metabolism
Nitric Oxide - chemistry
Nitric Oxide - metabolism
Nitrogen Dioxide - chemistry
Nitrogen Dioxide - metabolism
Nitrogen Oxides - chemistry
Nitrogen Oxides - metabolism
Nitrosation
Nitrous Acid - chemistry
Nitrous Acid - metabolism
Oxygen - metabolism
Peroxynitrous Acid - chemistry
Peroxynitrous Acid - metabolism
Reactive Nitrogen Species - chemistry
Reactive Nitrogen Species - metabolism
S-Nitrosothiols - chemistry
S-Nitrosothiols - metabolism
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Summary:Nitric oxide (NO) has essential roles in a remarkable number of diverse biological processes. The reactivity of NO depends upon its physical properties, such as its small size, high diffusion rate, and lipophilicity (resulting in its accumulation in hydrophobic regions), and also on its facile but selective chemical reactivity toward a variety of cellular targets. NO also undergoes reactions with oxygen, superoxide ions, and reducing agents to give products that themselves show distinctive reactivity toward particular targets, sometimes with the manifestation of toxic effects, such as nitrosative stress. These include nitroxyl (HNO), the oxides NO2/N2O4, and N2O3, peroxynitrite, and S-nitrosothiols (RSNO). HNO is attracting considerable attention due to its pharmacological properties, which appear to be distinct from those of NO, and that may be significant in the treatment of heart failure.
ISSN:0076-6879
DOI:10.1016/S0076-6879(08)36001-7