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Mn 2+ , and Zn 2+ 1:1 complexes with biochemically significant thioether carboxylic acids and some of the sulfoxide and sulfone derivatives
Authors:R Griesser  M G Hayes  D B McCormick
Affiliation:Section of Biochemistry and Molecular Biology, Division of Biological Sciences, and Graduate School of Nutrition, Cornell University, Savage Hall, Ithaca, New York 14850 USA; Institute of Inorganic Chemistry, University of Basel, Spitalstrasse 51, CH-4000 Basel, Switzerland
Abstract:The 1:1 complexes of Mn2+, Cu2+, and Zn2+ with S-carboxymethyl alkyl and S-carboxymethyl aryl mercaptans were studied in water containing 50% dioxane (I = 0.1; t = 25 °). The determination of the stability constants and a comparison with simple carboxylate complexes reveals that the complexes of Cu2+ (and slightly also of Zn2+) with the S-carboxymethyl alkyl mercaptans are more stable than expected from only basicity of the carboxylate groups. This suggests that the thioether group participates in complex formation, i.e., chelates are formed. The Mn2+ complexes of both kinds of ligands, and the Cu2+ or Zn2+ complexes with S-carboxymethyl aryl mercaptans have the stability expected according to the basicity of the carboxylate groups. NMR experiments with S-carboxymethyl ethyl mercaptan confirm the formation of chelates with Cu2+ and suggest simple carboxylate complexes with Mn2+. Analogous experiments with (S-carboxymethyl phenyl mercaptan do not allow an unequivocal statement about the distribution between simple carboxylate complexes and chelates for both metal ions. Also, as the thioether acids are biologically oxidized, the complex stabilities of several of such oxidized derivatives were measured.
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