Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects

Procyanidins are highly hydroxylated polymers known as antioxidant compounds, thereby exhibiting beneficial effects. These compounds are protective agents against oxidative stress and the damage induced by free radicals in membranes and nucleic acids. This paper describes a study of the conformation...

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Autores principales: Bentz, E.N., Pomilio, A.B., Lobayan, R.M.
Formato: JOUR
Materias:
(4α→6″, 2α→O→1″)- phenylflavans
Antioxidants
Aqueous solvent effect
Atoms in molecules
Density functional theory
Molecular polarizability
Natural bond orbital analysis
PCM model
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_16102940_v22_n8_p_Bentz
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_16102940_v22_n8_p_Bentz2023-10-03T16:27:54Z Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects Bentz, E.N. Pomilio, A.B. Lobayan, R.M. (4α→6″, 2α→O→1″)- phenylflavans Antioxidants Aqueous solvent effect Atoms in molecules Density functional theory Molecular polarizability Natural bond orbital analysis PCM model Procyanidins are highly hydroxylated polymers known as antioxidant compounds, thereby exhibiting beneficial effects. These compounds are protective agents against oxidative stress and the damage induced by free radicals in membranes and nucleic acids. This paper describes a study of the conformational space of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH as part of a larger study of similar structures with different substitutions. The relationships between aqueous solution–vacuum variations of some properties were studied, as well as the stabilization and reactivity of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=H, R′=H, R=OH, R′=R=OH, and (+)-catechin. The variations in geometric parameters and electronic properties due to conformational changes, as well as the effects of substituents and polar solvents, were evaluated and analyzed. Bader’s theory of atoms in molecules was applied to characterize intramolecular interactions, along with a natural bond orbital analysis for each conformer described. The molecular electrostatic potential was rationalized by charge delocalization mechanisms and interatomic intramolecular interactions, relating them to the structural changes and topological properties of the electron charge density. Molecular polarizability and permanent electric dipole moment values were estimated. The results show the importance of a knowledge of the conformational space, and values for each conformer. Based on our previous results, we showed the existence of electron charge delocalization mechanisms acting cooperatively as “delocalization routes”, showing interactions between different rings not even sharing the same plane. These “delocalization routes” were more effective for (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH than for (+)-catechin, and are proposed as adding insight into the structure–antioxidant activity relationship of flavans. © 2016, Springer-Verlag Berlin Heidelberg. Fil:Pomilio, A.B. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_16102940_v22_n8_p_Bentz
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic (4α→6″, 2α→O→1″)- phenylflavans
Antioxidants
Aqueous solvent effect
Atoms in molecules
Density functional theory
Molecular polarizability
Natural bond orbital analysis
PCM model
spellingShingle (4α→6″, 2α→O→1″)- phenylflavans
Antioxidants
Aqueous solvent effect
Atoms in molecules
Density functional theory
Molecular polarizability
Natural bond orbital analysis
PCM model
Bentz, E.N.
Pomilio, A.B.
Lobayan, R.M.
Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
topic_facet (4α→6″, 2α→O→1″)- phenylflavans
Antioxidants
Aqueous solvent effect
Atoms in molecules
Density functional theory
Molecular polarizability
Natural bond orbital analysis
PCM model
description Procyanidins are highly hydroxylated polymers known as antioxidant compounds, thereby exhibiting beneficial effects. These compounds are protective agents against oxidative stress and the damage induced by free radicals in membranes and nucleic acids. This paper describes a study of the conformational space of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH as part of a larger study of similar structures with different substitutions. The relationships between aqueous solution–vacuum variations of some properties were studied, as well as the stabilization and reactivity of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=H, R′=H, R=OH, R′=R=OH, and (+)-catechin. The variations in geometric parameters and electronic properties due to conformational changes, as well as the effects of substituents and polar solvents, were evaluated and analyzed. Bader’s theory of atoms in molecules was applied to characterize intramolecular interactions, along with a natural bond orbital analysis for each conformer described. The molecular electrostatic potential was rationalized by charge delocalization mechanisms and interatomic intramolecular interactions, relating them to the structural changes and topological properties of the electron charge density. Molecular polarizability and permanent electric dipole moment values were estimated. The results show the importance of a knowledge of the conformational space, and values for each conformer. Based on our previous results, we showed the existence of electron charge delocalization mechanisms acting cooperatively as “delocalization routes”, showing interactions between different rings not even sharing the same plane. These “delocalization routes” were more effective for (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH than for (+)-catechin, and are proposed as adding insight into the structure–antioxidant activity relationship of flavans. © 2016, Springer-Verlag Berlin Heidelberg.
format JOUR
author Bentz, E.N.
Pomilio, A.B.
Lobayan, R.M.
author_facet Bentz, E.N.
Pomilio, A.B.
Lobayan, R.M.
author_sort Bentz, E.N.
title Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
title_short Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
title_full Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
title_fullStr Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
title_full_unstemmed Z-Isomers of (4α→6″, 2α→O→1″)-phenylflavan substituted with R′=R=OH. Conformational properties, electronic structure and aqueous solvent effects
title_sort z-isomers of (4α→6″, 2α→o→1″)-phenylflavan substituted with r′=r=oh. conformational properties, electronic structure and aqueous solvent effects
url http://hdl.handle.net/20.500.12110/paper_16102940_v22_n8_p_Bentz
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AT pomilioab zisomersof4a62ao1phenylflavansubstitutedwithrrohconformationalpropertieselectronicstructureandaqueoussolventeffects
AT lobayanrm zisomersof4a62ao1phenylflavansubstitutedwithrrohconformationalpropertieselectronicstructureandaqueoussolventeffects
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