量子细化不支持颗粒态甲烷单加氧酶晶体结构中的双核铜位点。
Quantum Refinement Does Not Support Dinuclear Copper Sites in Crystal Structures of Particulate Methane Monooxygenase.
机构信息
Department of Theoretical Chemistry, Lund University, Chemical Centre, P.O. Box 124, 22100, Lund, Sweden.
Departments of Molecular Biosciences and of Chemistry, Northwestern University, Evanston, IL, 60208, USA.
出版信息
Angew Chem Int Ed Engl. 2018 Jan 2;57(1):162-166. doi: 10.1002/anie.201708977. Epub 2017 Dec 8.
Abstract
Particulate methane monooxygenase (pMMO) is one of the few enzymes that can activate methane. The metal content of this enzyme has been highly controversial, with suggestions of a dinuclear Fe site or mono-, di-, or trinuclear Cu sites. Crystal structures have shown a mono- or dinuclear Cu site, but the resolution was low and the geometry of the dinuclear site unusual. We have employed quantum refinement (crystallographic refinement enhanced with quantum-mechanical calculations) to improve the structure of the active site. We compared a number of different mono- and dinuclear geometries, in some cases enhanced with more protein ligands or one or two water molecules, to determine which structure fits two sets of crystallographic raw data best. In all cases, the best results were obtained with mononuclear Cu sites, occasionally with an extra water molecule. Thus, we conclude that there is no crystallographic support for a dinuclear Cu site in pMMO.
摘要
颗粒态甲烷单加氧酶(pMMO)是少数能够激活甲烷的酶之一。该酶的金属含量一直存在很大争议,有双核 Fe 位或单核、双核或三核 Cu 位的说法。晶体结构显示出单核或双核 Cu 位,但分辨率较低,双核位的几何形状也不寻常。我们采用量子精修(晶体学精修与量子力学计算相结合)来改进活性位点的结构。我们比较了多种单核和双核的几何结构,在某些情况下,通过增加更多的蛋白质配体或一个或两个水分子来增强结构,以确定哪种结构最能拟合两组晶体学原始数据。在所有情况下,单核 Cu 位的结果最好,偶尔还有一个额外的水分子。因此,我们得出结论,pMMO 中没有双核 Cu 位的晶体学支持。
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