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Copper-Binding Motifs: Structural and Theoretical Aspects

✍ Scribed by Amy Kaufman Katz; Liat Shimoni-Livny; Oshrit Navon; Nadav Navon; Charles W. Bock; Jenny P. Glusker

Publisher
John Wiley and Sons
Year
2003
Tongue
German
Weight
191 KB
Volume
86
Category
Article
ISSN
0018-019X

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✦ Synopsis

Abstract

In this paper, we report the results of a study involving the coordination geometries of Cu^I^, Cu^II^, and Cu^III^ crystal structures in the Cambridge Structural Database, and on Cu binding sites in proteins taken from the Protein Data Bank. The motifs used to bind two bridged Cu ions are also described. In addition, we report the results of ab initio molecular‐orbital calculations performed on a variety of model Cu^I^/Cu^II^ complexes (Cu^I^/Cu^II^⋅X~n~Y~m~ (X, Y=NH~3~, SH~2~); n+m=4; n=0–4) to provide data on the structural and energetic changes that occur in isolated complexes when the oxidation state of the Cu ion is changed from II to I while the coordination number is conserved. The use of such simple ligands in these calculations eliminates constraints on the geometric changes that may be imposed by more‐complicated ligands.

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