Examination of the chemical behavior of the quercetin radical cation towards some bases (CROSBI ID 191831)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Marković, Zoran ; Amić, Dragan ; Milenković, Dejan ; Dimitrić Marković, Jasmina ; Marković, Svetlana
engleski
Examination of the chemical behavior of the quercetin radical cation towards some bases
It has been generally accepted that, due to high ionization potential values, single electron transfer followed by proton transfer (SET-PT) is not a plausible mechanism of antioxidant action in flavonoids. In this paper the SET-PT mechanism of quercetin (Q) was examined by revealing possible reaction paths of once formed quercetin radical cation (Q+•) at the M0-52X/6311+G(d, p) level of theory. The deprotonation of Q+• was simulated by examining its chemical behavior in the presence of three bases: methylamine (representative of neutral bases), MeS anion (CH3S-) and hydroxide anion (representatives of anionic bases). It was found that Q+• will spontaneously be transformed into Q in the presence of bases whose HOMO energies are higher than the SOMO energy of Q+• in a given medium, implying that Q cannot undergo the SET-PT mechanism in such environment. In the reaction with MeS anion in both gaseous and aqueous phases and hydroxide anion in the gaseous phase Q+• accepts an electron from the base, and so-formed Q undergoes the hydrogen atom transfer mechanism. On the other hand, SET-PT is a plausible mechanism of Q in the presence of bases whose HOMO energies are lower than the SOMO energy of Q+• in a given medium. In such cases Q+• spontaneously donates a proton to the base, with energetic stabilization of the system. Our investigation showed that Q conforms to the SET-PT mechanism in the presence of methylamine, in both gaseous and aqueous phases, and in the presence of hydroxide anion, in the aqueous solution.
flavonoids ; quercetin ; radical cation ; SET-PT
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Podaci o izdanju
15 (19)
2013.
7370-7378
objavljeno
1463-9076
10.1039/C3CP44605K