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Flavonoid Oxidation Potentials and Antioxidant Activities-Theoretical Models Based on Oxidation Mechanisms and Related Changes in Electronic Structure

Ante Miličević

2024International Journal of Molecular Sciences19 citationsDOIOpen Access PDF

Abstract

Herein, I will review our efforts to develop a comprehensive and robust model for the estimation of the first oxidation potential, Ep1, and antioxidant activity, AA, of flavonoids that would, besides enabling fast and cheap prediction of Ep1 and AA for a flavonoid of interest, help us explain the relationship between Ep1, AA and electronic structure. The model development went forward with enlarging the set of flavonoids and, that way, we had to learn how to deal with the structural peculiarities of some of the 35 flavonoids from the final calibration set, for which the Ep1 measurements were all made in our laboratory. The developed models were simple quadratic models based either on atomic spin densities or differences in the atomic charges of the species involved in any of the three main oxidation mechanisms. The best model takes into account all three mechanisms of oxidation, single electron transfer-proton transfer (SET-PT), sequential proton loss electron transfer (SPLET) and hydrogen atom transfer (HAT), yielding excellent statistics (R2 = 0.970, S.E. = 0.043).

Topics & Concepts

FlavonoidElectron transferChemistryAntioxidantProtonHydrogen atomSet (abstract data type)Biological systemAtom (system on chip)CalibrationQuadratic modelComputational chemistryComputer scienceMathematicsBiochemistryPhotochemistryPhysicsOrganic chemistryBiologyStatisticsChromatographyQuantum mechanicsResponse surface methodologyAlkylEmbedded systemProgramming languageFree Radicals and AntioxidantsPhytochemicals and Antioxidant ActivitiesGenomics, phytochemicals, and oxidative stress
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