Identification of new biologically active synthetic molecules: comparative experimental and theoretical studies on the structure-antioxidant activity relationship of cyclic 1,3-ketoamides

Antioxidant agent is a chemical that prevents the oxidation of other chemical substances. Its use is the most effective means of protecting the organism by neutralizing the harmful effects of free radicals caused by oxidative stress. In the present work, a series of β-ketoamides containing a variety...

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Published in:Journal of molecular modeling 2021-04, Vol.27 (4), p.109-109, Article 109
Main Authors: Kerbadou, Riad Mustapha, Hadjadj Aoul, Ratiba, Benmaati, Aouicha, Taleb, Assya, Hacini, Salih, Habib Zahmani, Hadjira
Format: Article
Language:English
Subjects:
Affinity
Antioxidants
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Computer Appl. in Life Sciences
Computer Applications in Chemistry
Density functional theory
Electron transfer
Enthalpy
Ethanol
Free radicals
Hydrogen bonds
Ionization potentials
Molecular Medicine
Original Paper
Oxidation
Selectivity
Theoretical and Computational Chemistry
Vapor phases
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cited_by cdi_FETCH-LOGICAL-c375t-b20b860a2d985699a631b7eee64a38dcc15037a1021e5ab8bbca834034b253903
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creator Kerbadou, Riad Mustapha
Hadjadj Aoul, Ratiba
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description Antioxidant agent is a chemical that prevents the oxidation of other chemical substances. Its use is the most effective means of protecting the organism by neutralizing the harmful effects of free radicals caused by oxidative stress. In the present work, a series of β-ketoamides containing a variety of monosubstituted amide groups were synthesized and tested as antioxidant agents. In order to establish a possible structure-antioxidant activity relationship, we are presenting a systematic theoretical study of these molecules with the aim of clarifying the active sites. In particular, we discuss the selectivity resulting from the choice of a free radical/antioxidant system. The theoretical study of these molecules was carried out using density functional theory (DFT) calculations at the B3LYP/6-311G (d,p) level of theory. In order to shed light on the antioxidant properties of β-ketoamides, O–H bond dissociation enthalpies (BDEs), ionization potentials (IPs), electron affinities (EAs), proton affinities (PAs), and electron transfer enthalpies (ETEs) are performed in the gas phase and in ethanol. The results obtained show that the HAT mechanism is thermodynamically more favored in the gas phase, while the SPLET is preferred in the polar solvent.
doi_str_mv 10.1007/s00894-021-04705-4
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subjects Affinity
Antioxidants
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Computer Appl. in Life Sciences
Computer Applications in Chemistry
Density functional theory
Electron transfer
Enthalpy
Ethanol
Free radicals
Hydrogen bonds
Ionization potentials
Molecular Medicine
Original Paper
Oxidation
Selectivity
Theoretical and Computational Chemistry
Vapor phases
title Identification of new biologically active synthetic molecules: comparative experimental and theoretical studies on the structure-antioxidant activity relationship of cyclic 1,3-ketoamides
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