95412-48-9Relevant academic research and scientific papers
Synthesis of biologically active bromine derivatives of quercetin
Nagimova,Zbusupova,Erzhanova
, p. 695 - 697 (1996)
The synthesis of a series of bromine derivatives of quercetin differing by the number of bromine atoms introduced is described. It has been shown that in the dynamics of the bromination process the deciding factors affecting the qualitative and quantitati
Synthesis of brominated quercetin derivatives using distinct brominating systems
Peng, Mei,Liu, Fengxian,Feng, Xin,Yang, Fan,Yang, Xiaoping
, p. 4701 - 4703 (2014)
6,8-Dibromoquercetin derivatives were obtained through reaction of quercetin with HBr-H2O2. On the other hand, quercetin reacted with bromine to synthesize poly brominated derivatives. The reaction procedures were monitored by either
Mild and Selective Method of Bromination of Flavonoids
Hurtová, Martina,Biedermann, David,Kuzma, Marek,K?en, Vladimír
, p. 3324 - 3331 (2020/11/30)
A new method was developed for the mild and selective bromination of simple aromatic compounds and flavonoids in good yields using α,β-dibromohydrocinnamic acid in the presence of a base. This procedure enables selective mono- or dibromination of compounds highly sensitive to oxidative or radical attack. New brominated derivatives of silymarin flavonolignans and related flavonoids were prepared. These brominated derivatives can be used as valuable synthetic intermediates in further synthesis.
Unveiling the chemistry behind bromination of quercetin: The 'violet chromogen'
Foti, Mario C.,Rocco, Concetta
supporting information, p. 1602 - 1607 (2014/03/21)
Bromination of quercetin with N-bromosuccinimide in neutral aqueous methanol occurs surprisingly in the electron-deficient A-ring only. Deprotonation of the acidic 7-OH is a major driver of this regioselective reaction. The increase of electron density ma
Structure and antioxidant activity of brominated flavonols and flavanones
Justino, Goncalo C.,Rodrigues, Margarida,Florencio, M. Helena,Mira, Lurdes
experimental part, p. 1459 - 1468 (2010/05/18)
Hypobromous acid (HOBr) produced by both eosinophil peroxidase (EPO) and myeloperoxidase (MPO) is a stronger oxidant than HOCl, and is also essential for optimal and efficient microbial killing. Considering the potential cytotoxic effect of HOBr, if it is formed outside the phagosome, it should be useful to scavenge it in order to protect the nearby tissues. In this study the ability of selected flavonoids to protect against HOBr mediated oxidation reactions was performed through a competitive reaction, and the resulting products identified by high performance liquid chromatography (HPLC) and electrospray ionization tandem mass spectrometry (ESI-MS/MS). Several structural features were found to be important to confer high antioxidant activity to flavonoids towards HOBr: the C2=C3 double bond and the 3-OH group in the C-ring, and the presence of both 5-OH and 7-OH groups in the A-ring. TheMS results showed that flavonoids are dibrominated in the A-ring, suggesting that (except for fisetin) bromination occurs at C6 and C8 positions, through an electrophilic aromatic substitution reaction. The chemical modifications achieved by bromination of flavonoids have changed their biological properties, presenting their brominated derivatives higher antioxidant activity, as radical scavengers, and higher lipophilicity, than the parent flavonoids. Brominated flavonoids may then diffuse easily through membranes increasing the intracellular concentration of the compounds. These locally formed metabolites may also interact with signaling cascades involving cytokines and regulatory transcription factors, thus playing a role in inflammation and in the regulation of immune response. Copyright
