Quinones as free-radical fragmentation inhibitors in biologically important molecules

Quinones as free-radical fragmentation inhibitors in biologically important molecules

Effects of a number of quinones and diphenols of various structures on free-radical fragmentation processes taking place in alpha-diols, glycerol, 2-aminoethanol, glycero-1-phosphate, ethylene glycol monobutyrate, maltose, and some lipids were investigated. Quinone additions have been found to chang...

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Bibliographic Details
Published in:Free radical research Vol. 36; no. 8; p. 859
Main Authors: Shadyro, O I, Glushonok, G K, Glushonok, T G, Edimecheva, I P, Moroz, A G, Sosnovskaya, A A, Yurkova, I L, Polozov, G I
Format: Journal Article
Language:English
Published: England 01-08-2002
Subjects:
DNA Fragmentation
Free Radicals - chemistry
Glycerol - chemistry
Liposomes - metabolism
Models, Chemical
Oxygen - metabolism
Phenols
Quinones - pharmacology
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Summary:Effects of a number of quinones and diphenols of various structures on free-radical fragmentation processes taking place in alpha-diols, glycerol, 2-aminoethanol, glycero-1-phosphate, ethylene glycol monobutyrate, maltose, and some lipids were investigated. Quinone additions have been found to change the direction of free-radical transformations of the compounds cited above by inhibiting formation of the respective fragmentation products owing to oxidation of radicals of the starting compounds. The results obtained and literature data available allow a suggestion to be made that the system quinone/diphenol is able to not only deactivate or generate such active species as O2.- but also control the realization probability of free-radical processes of peroxidation and fragmentation in biologically important molecules.
ISSN:1071-5762
DOI:10.1080/1071576021000005294