Nitrogen Oxidation in Ferrihaemoglobin Formation
- 1 January 1971
- journal article
- research article
- Published by Taylor & Francis in Xenobiotica
- Vol. 1 (4-5) , 553-562
- https://doi.org/10.3109/00498257109041529
Abstract
1. N-Hydroxyarylamines, N-hydroxy-N-alkylarylamines, and N,N-dialkyl-arylamine-N-oxides form ferrihaemoglobin in the presence of oxygen; none of the compounds oxidizes ferrohaemoglobin directly.2. The hydroxylamines produce ferrihaemoglobin in a ‘coupled oxidation’ of the hydroxylamine of ferrohaemoglobin. This begins with the oxidation of the hydroxylamine by oxyhaemoglobin and, in a series of reactions, transforms oxyhaemoglobin as well as deoxyhaemoglobin into ferrihaemoglobin and phenylhydroxylamine into nitrosobenzene.3. In red cells nitrosobenzene is reduced to phenylhydroxylamine by NADPH-specific diaphorases. Thus a cycle is started which with each mole of phenylhydroxylamine or nitrosobenzene entering the red cell transforms many equivalents of ferrohaemoglobin to ferrihaemoglobin.4. The formation of ferrihaemoglobin by N,N-dimethylaniline-N-oxide shows an autocatalytic increase in rate, ferrihaemoglobin being the catalyst. In addition to inactive products like formaldehyde, N-methylanili...This publication has 52 references indexed in Scilit:
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