Add to ORKGThe chemical reactivity, isomerization, and glutathione conjugation of quercetin o-quinone were investigated. Tyrosinase was used to generate the unstable quercetin o-quinone derivative which could be observed upon its subsequent scavenging by glutathione. Identification of the products revealed formation of 6-glutathionyl-quercetin and 8-glutathionyl-quercetin adducts. Thus, in particular, glutathione adducts in the A ring of quercetin were formed, a result which was not expected a priori. Quantum mechanical calculations support the possibility that the formation of these glutathione adducts can be explained by an isomerization of quercetin o-quinone to p-quinone methides. Surprisingly, additional experiments of this study reveal the adduc...
Flavonoids protect against oxidative stress by scavenging free radicals. During this protection flav...
Oxidized quercetin reacts with thiols rather than with ascorbate: implication for quercetin suppleme...
Alkylation of DNA by a variety of small molecules has been found to be both a cause of cancer and a ...
The chemical reactivity, isomerization, and glutathione conjugation of quercetin o-quinone were inve...
The oxidation of quercetin by horseradish peroxidase/H2O2 was studied in the absence but especially ...
During the scavenging of free radicals flavonoids are oxidized to electrophilic quinones. Glutathion...
Oxidation of flavonoids with a catechol structural motif in their B ring leads to formation of flavo...
In the present study, the formation of glutathionyl adducts from a series of 3',4'-dihydroxy flavono...
A structure-activity study on the quinone/quinone methide chemistry of a series of 3',4'-dihydroxyfl...
This study investigates the pro-oxidant activity of 3¿- and 4¿-O-methylquercetin, two relevant phase...
Quercetin is one of the most prominent dietary antioxidants. During its antioxidant activity, querce...
As one of the important dietary antioxidants, (-)-epicatechin is a potent reactive oxygen species (R...
Most studies on the antioxidant activity of flavonoids like Quercetin (Q) do not consider that it co...
Electronic perturbation of quinone methides (QM) greatly influences their stability and in turn alte...
Flavonoids protect against oxidative stress by scavenging free radicals. During this protection flav...
Oxidized quercetin reacts with thiols rather than with ascorbate: implication for quercetin suppleme...
Alkylation of DNA by a variety of small molecules has been found to be both a cause of cancer and a ...
The chemical reactivity, isomerization, and glutathione conjugation of quercetin o-quinone were inve...
The oxidation of quercetin by horseradish peroxidase/H2O2 was studied in the absence but especially ...
During the scavenging of free radicals flavonoids are oxidized to electrophilic quinones. Glutathion...
Oxidation of flavonoids with a catechol structural motif in their B ring leads to formation of flavo...
In the present study, the formation of glutathionyl adducts from a series of 3',4'-dihydroxy flavono...
A structure-activity study on the quinone/quinone methide chemistry of a series of 3',4'-dihydroxyfl...
This study investigates the pro-oxidant activity of 3¿- and 4¿-O-methylquercetin, two relevant phase...
Quercetin is one of the most prominent dietary antioxidants. During its antioxidant activity, querce...
As one of the important dietary antioxidants, (-)-epicatechin is a potent reactive oxygen species (R...
Most studies on the antioxidant activity of flavonoids like Quercetin (Q) do not consider that it co...
Electronic perturbation of quinone methides (QM) greatly influences their stability and in turn alte...
Flavonoids protect against oxidative stress by scavenging free radicals. During this protection flav...
Oxidized quercetin reacts with thiols rather than with ascorbate: implication for quercetin suppleme...
Alkylation of DNA by a variety of small molecules has been found to be both a cause of cancer and a ...