Rational creation of chiral multinuclear and metallosupramolecular compounds from thiol-containing amino acids

• Published in: Dalton transactions : an international journal of inorganic chemistry Vol. 40; no. 28; pp. 7249 - 7263
• Main Authors: Igashira-Kamiyama, Asako, Konno, Takumi
• Format: Journal Article
• Language: English
• Published: England 28.07.2011
• Subjects: Amines; Amino acids; Amino Acids - chemistry; Atomic structure; Chelating Agents - chemistry; Coordination Complexes - chemical synthesis; Coordination Complexes - chemistry; Gold; Ions - chemistry; Ligands; Metal ions; Metals - chemistry; Models, Molecular; Molecular Structure; Penicillamine - chemistry; Prints; Stereoisomerism; Sulfhydryl Compounds - chemistry; Transition metals
• ISSN: 1477-9226; 1477-9234; 1477-9234
• DOI: 10.1039/c0dt01660h

Developments in the rational creation of chiral multinuclear and metallosupramolecular compounds based on linear-type metal complexes with penicillaminate (pen), as well as their functionality as a multidentate chiral metalloligand, is the main subject of this paper. The reactions of a mononuclear Au(I) complex, [Au(d-pen)(2)](3-), in which two d-pen ligands bind to an Au(I) center through thiolato S atoms, with transition metal ions afford a variety of S-bridged heterobimetallic multinuclear complexes, the structures and properties of which are highly dependent on the nature of reacting metal ions. The created multinuclear complexes still act as a metalloligand when they possess free amine and/or carboxylate groups, leading to the formation of heterotrimetallic supramolecular structures by reacting with third metal ions. While the Au-S bonds in [Au(d-pen)(2)](3-) are generally retained in the course of the reactions with metal ions, this is not the case for the Hg-S bonds in the corresponding Hg(II) complex, [Hg(d-pen)(2)](2-). A remarkable chiral behavior of multinuclear complexes composed of [Au(l-cys)(2)](3-) (cys = cysteinate), which is opposite to that composed of [Au(l-pen)(2)](3-), is also presented.