Probing the Bioinorganic Chemistry of Cu(I) with 111Ag Perturbed Angular Correlation (PAC) Spectroscopy

Victoria Karner, Attila Jancso, Lars Hemmingsen
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Abstract

The two most common oxidation states of copper in biochemistry are Cu(II) and Cu(I), and while Cu(II) lends itself to spectroscopic interrogation, Cu(I) is silent in most techniques. Ag(I) and Cu(I) are both closed-shell d10 monovalent ions, and to some extent share ligand and coordination geometry preferences. Therefore, Ag(I) may be applied to explore Cu(I) binding sites in biomolecules. Here, we review applications of 111Ag perturbed angular correlation (PAC) of γ-ray spectroscopy aimed to elucidate the chemistry of Cu(I) in biological systems. Examples span from small blue copper proteins such as plastocyanin and azurin (electron transport) over hemocyanin (oxygen transport) to CueR and BxmR (metal-ion-sensing proteins). Finally, possible future applications are discussed. 111Ag is a radionuclide which undergoes β-decay to 111Cd, and it is a γ-γ cascade of the 111Cd daughter nucleus, which is used in PAC measurements. 111Ag PAC spectroscopy may provide information on the coordination environment of Ag(I) and on the structural relaxation occurring upon the essentially instantaneous change from Ag(I) to Cd(II).
用111Ag摄动角相关(PAC)光谱研究Cu(I)的生物无机化学
在生物化学中,铜的两种最常见的氧化态是Cu(II)和Cu(I),虽然Cu(II)适合于光谱分析,但Cu(I)在大多数技术中是沉默的。Ag(I)和Cu(I)都是闭壳d10一价离子,在一定程度上具有配体和配位的几何偏好。因此,Ag(I)可以用于探索Cu(I)在生物分子中的结合位点。本文综述了111Ag摄动角相关(PAC) γ射线光谱技术在生物系统中Cu(I)化学研究中的应用。从小的蓝铜蛋白,如质体青素和蓝铜蛋白(电子传输)到血青素(氧传输),再到CueR和BxmR(金属离子感应蛋白)。最后,对未来可能的应用进行了讨论。111Ag是一种放射性核素,它经历β-衰变到111Cd,它是111Cd子核的γ-γ级联,用于PAC测量。Ag - PAC光谱可以提供Ag(I)的配位环境和从Ag(I)到Cd(II)发生的结构弛豫的信息。
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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