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Ion-molecule interactions of biological importance. A vibrational spectroscopic study of magnesium complexes with hydroxylated quinones; Interactions ions-molecules d'interet biologique. Etude par spectrometrie de vibrations de la complexation du magnesium avec des molecules quinoniques hydroxylees

Thesis/Dissertation:

Abstract

Luteoskyrin and rugulosin are two naturally occurring yellow pigments with hydroxylated bis-anthraquinonic structures. They cause serious liver disorders in man due to the formation of complexes of the type pigment-Mg{sup 2+}-DNA. In order to elucidate the structure of these complexes we have studied the vibrational spectra of some model systems, namely 1-hydroxy- and 1,4-dihydroxyanthraquinone, their magnesium chelate complexes, and a series of simpler complexes as the acetylacetonates of some divalent metals. Complete vibrational assignment are proposed for anthraquinone-9,10, the two hydroxylated and deureroxylated derivatives and their magnesium complexes. The substitution of {sup 26}Mg in place of {sup 24}Mg in these complexes enabled us to assign the Mg-O vibrations; their number corresponds to a hexa-coordinated metal in the acetylacetonate case and to a tetra-coordinated structure in the anthraquinone-olates complexes. The position of the ν C=0 and ν C-0 vibrations bands in the complexes shows that the bonds in the chelated ring of Mg(1-O-AQ){sub 2} retains their single and double bond characteristic whereas in the CMg(1,4-O{sub 2},-AQ){sub n} a resonating structure appears in the ring. The study of the IR and R spectra of the complexes enabled a tetrahedral structure to be proposed for the oxygens around the magnesium. Finally it was  More>>
Publication Date:
Jun 14, 1976
Product Type:
Thesis/Dissertation
Report Number:
CEA-N-1909
Resource Relation:
Other Information: 150 refs.; Available from the INIS Liaison Officer for France, see the 'INIS contacts' section of the INIS website for current contact and E-mail addresses: http://www.iaea.org/inis/Contacts/; These Docteur Es-Sciences Physiques
Subject:
37 INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY; 60 APPLIED LIFE SCIENCES; ABSORPTION SPECTROSCOPY; ATOMS; BIOLOGICAL EFFECTS; CHELATES; CONFIGURATION INTERACTION; HEPATITIS; HYDROXYL RADICALS; ION-MOLECULE COLLISIONS; MAGNESIUM; MAGNESIUM 24; MAGNESIUM 26; MAGNESIUM COMPLEXES; MAGNESIUM OXIDES; MOLECULAR STRUCTURE; MOLECULES; PIGMENTS; QUINONES; STRUCTURAL CHEMICAL ANALYSIS; STRUCTURE-ACTIVITY RELATIONSHIPS; VIBRATIONAL STATES
OSTI ID:
22216235
Research Organizations:
Universite Pierre et Marie Curie, Paris 6 (France); Centre d'Etudes Nucleaires de Saclay, Division de Chimie, Departement de Recherche et Analyse, Section des Recherches et de l'Interaction du Rayonnement avec la Matiere, Laboratoire d'Optique (France); Laboratoire de Chimie Physique du C.N.R.S., Thiais (France); Departement de Biologie, Centre d'Etudes Nucleaires de Saclay (France)
Country of Origin:
France
Language:
French
Other Identifying Numbers:
TRN: FR1400736037198
Availability:
Available from INIS in electronic form
Submitting Site:
INIS
Size:
166 page(s)
Announcement Date:
Apr 12, 2014

Thesis/Dissertation:

Citation Formats

Kirszenbaum, Marek. Ion-molecule interactions of biological importance. A vibrational spectroscopic study of magnesium complexes with hydroxylated quinones; Interactions ions-molecules d'interet biologique. Etude par spectrometrie de vibrations de la complexation du magnesium avec des molecules quinoniques hydroxylees. France: N. p., 1976. Web.
Kirszenbaum, Marek. Ion-molecule interactions of biological importance. A vibrational spectroscopic study of magnesium complexes with hydroxylated quinones; Interactions ions-molecules d'interet biologique. Etude par spectrometrie de vibrations de la complexation du magnesium avec des molecules quinoniques hydroxylees. France.
Kirszenbaum, Marek. 1976. "Ion-molecule interactions of biological importance. A vibrational spectroscopic study of magnesium complexes with hydroxylated quinones; Interactions ions-molecules d'interet biologique. Etude par spectrometrie de vibrations de la complexation du magnesium avec des molecules quinoniques hydroxylees." France.
@misc{etde_22216235,
title = {Ion-molecule interactions of biological importance. A vibrational spectroscopic study of magnesium complexes with hydroxylated quinones; Interactions ions-molecules d'interet biologique. Etude par spectrometrie de vibrations de la complexation du magnesium avec des molecules quinoniques hydroxylees}
author = {Kirszenbaum, Marek}
abstractNote = {Luteoskyrin and rugulosin are two naturally occurring yellow pigments with hydroxylated bis-anthraquinonic structures. They cause serious liver disorders in man due to the formation of complexes of the type pigment-Mg{sup 2+}-DNA. In order to elucidate the structure of these complexes we have studied the vibrational spectra of some model systems, namely 1-hydroxy- and 1,4-dihydroxyanthraquinone, their magnesium chelate complexes, and a series of simpler complexes as the acetylacetonates of some divalent metals. Complete vibrational assignment are proposed for anthraquinone-9,10, the two hydroxylated and deureroxylated derivatives and their magnesium complexes. The substitution of {sup 26}Mg in place of {sup 24}Mg in these complexes enabled us to assign the Mg-O vibrations; their number corresponds to a hexa-coordinated metal in the acetylacetonate case and to a tetra-coordinated structure in the anthraquinone-olates complexes. The position of the ν C=0 and ν C-0 vibrations bands in the complexes shows that the bonds in the chelated ring of Mg(1-O-AQ){sub 2} retains their single and double bond characteristic whereas in the CMg(1,4-O{sub 2},-AQ){sub n} a resonating structure appears in the ring. The study of the IR and R spectra of the complexes enabled a tetrahedral structure to be proposed for the oxygens around the magnesium. Finally it was noted that the Mg-O bonds possessed a high degree of covalent character. (author) [French] La luteoskyrine et la rugulosine, deux pigments jaunes de structure de bis-anthraquinones hydroxylees, provoquent des troubles hepatiques graves par la formation des complexes pigment-Mg{sup 2+}-ADN. Dans le but d'eclaircir la structure de ces complexes nous avons etudie, par spectrometrie de vibrations, les systemes-modeles suivants: la 1-hydroxy- et la 1,4-dihydroxyanthraquinones, leurs complexes magnesies et une serie des complexes plus simples, tels que les acetylacetonates. de metaux divalents. Nous avons propose une attribution complete des vibrations de l'anthraquinone-9,10, de ses deux derives hydroxyles et deuteroxyles et de complexes magnesies. Une etude des complexes substitues au {sup 24}Mg et {sup 26}Mg nous a permis d'attribuer les vibrations Mg-O; leur nombre correspondant au metal hexacoordonne pour l'acetylacetonate de magnesium et tetracoordonne pour les anthraquinone-olates de magnesium. La position des bandes de vibrations ν C=O et ν C-O des complexes montre que les liaisons du cycle chelate du Mg(1-O-AQ){sub 2} gardent leur caractere des liaisons simple et double, alors que dans le [Mg(1,4-O{sub 2}-AQ]{sub n} il y a une resonance des liaisons de ce cycle. L'etude des spectres IR et R des complexes a permis egalement de proposer la structure tetraedrique des oxygenes autour du magnesium. Nous avons remarque, de plus, que les liaisons Mg-O presentent un caractere covalent important. (auteur)}
place = {France}
year = {1976}
month = {Jun}
}