Complexes of sulfur-containing ligands. I. Factors influencing complex formation between d-penicillamine and copper(II) ion

Bioinorganic chemistry Pub Date : 1978-01-01 DOI:10.1016/S0006-3061(00)82005-0

Arthur Gergely, Imre Sóvágó

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引用次数: 27

Abstract

Complex formation and redox reactions between copper(II) ion and d-penicillamine were studied in detail as functions of the metal/-ligand ratio and the concentration of halide ions. It was established that a copper (I)-d-penicillamine polymeric complex of amphoteric character is formed when excess d-penicillamine is present. When the d-penicillamine/copper(II) ratio = 1.45 in the starting reaction mixture, a mixed valence complex with an intense red-violet color is formed. The formation of this compound, which contains 44% copper(II) ion, is greatly influenced by the experimental conditions, primarily by the concentration of halide ions. The main chemical and physical characteristics of the mixed valence complex were determined via magnetic and spectroscopic measurements. It was further established that a very intense blue complex is formed when the d-penicillamine/copper(II) ratio = 2 and halide ions are present. On the basis of the nature of the products formed under various conditions it was concluded that the copper(II)-d-penicillamine system may serve as a good model for studying the binding sites of copper-containing proteins.

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含硫配体的配合物。影响d-青霉胺与铜(II)离子形成络合物的因素

详细研究了铜(II)离子与d-青霉胺之间的络合物形成和氧化还原反应，以及金属/配体比和卤化物离子浓度的函数。当过量的d-青霉胺存在时，形成两性特征的铜(I)-d-青霉胺聚合物配合物。当开始反应混合物中d-青霉胺/铜(II)比= 1.45时，形成具有强烈红紫色的混合价络合物。该化合物含有44%的铜(II)离子，其形成受实验条件的影响很大，主要受卤化物离子浓度的影响。混合价络合物的主要化学和物理特性是通过磁性和光谱测量确定的。进一步证实，当d-青霉胺/铜(II)比= 2和卤化物离子存在时，形成非常强烈的蓝色络合物。根据不同条件下形成产物的性质，认为铜(II)-d-青霉胺体系可以作为研究含铜蛋白结合位点的良好模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bioinorganic chemistry

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