A. G. Vitenberg scite author profile

Oxidation of quercetin by air oxygen takes place in water and aqueous ethanol solutions under mild conditions, namely in moderately-basic media (pH ∼ 8-10) at ambient temperature and in the absence of any radical initiators, without enzymatic catalysis or irradiation of the reaction media by light. The principal reaction products are typical of other oxidative degradation processes of quercetin, namely 3,4-dihydroxy-benzoic (protocatechuic) and 2,4,6-trihydroxybenzoic (phloroglucinic) acids, as well as the decarboxylation product of the latter -1,3,5-trihydroxybenzene (phloroglucinol). In accordance with the literature data, this process involves the cleavage of the γ-pyrone fragment (ring C) of the quercetin molecule by oxygen, with primary formation of 4,6-dihydroxy-2-(3,4-dihydroxybenzoyloxy)benzoic acid (depside). However under such mild conditions the accepted mechanism of this reaction (oxidative decarbonylation with formation of carbon monoxide, CO) should be reconsidered as preferably an oxidative decarboxylation with formation of carbon dioxide, CO 2 . Direct head-space analysis of the gaseous components formed during quercetin oxidation in aqueous solution at ambient temperature indicates that the ratio of carbon dioxide/carbon monoxide in the gas phase after acidification of the reaction media is ca. 96:4 %. Oxidation under these mild conditi- Molecules, 2007, 12 655ons is typical for other flavonols having OH groups at C 3 (e.g., kaempferol), but it is completely suppressed if this hydroxyl group is substituted by a glycoside fragment (as in rutin), or a methyl substituent. An alternative oxidation mechanism involving the direct cleavage of the C 2 -C 3 bond in the diketo-tautomer of quercetin is proposed.

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Determination of gas-liquid partition coefficients by means of gas chromatographic analysis

Vitenberg

Ioffe

Dimitrova

et al. 1975

Journal of Chromatography A

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Determination of distribution coefficients of volatile sulfur-containing compounds among aqueous solutions and gas phase by continuous gas extraction

Dobryakov

Vitenberg

2006

Russ J Appl Chem

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Application of head-space analysis to the study of volatile organic impurity concentrates

Ioffe

Vitenberg

Tsibul'skaya

1979

Journal of Chromatography A

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Application of phase equilibria to gas chromatographic trace analysis

1974

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A. G. Vitenberg

Identification of the Products of Oxidation of Quercetin by Air Oxygenat Ambient Temperature

Determination of gas-liquid partition coefficients by means of gas chromatographic analysis

Determination of distribution coefficients of volatile sulfur-containing compounds among aqueous solutions and gas phase by continuous gas extraction

Application of head-space analysis to the study of volatile organic impurity concentrates

Application of phase equilibria to gas chromatographic trace analysis

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