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具有双核铁-羟基金属中心的人工金属蛋白。

Artificial Metalloproteins with Dinuclear Iron-Hydroxido Centers.

机构信息

Department of Chemistry, 1102 Natural Sciences II, University of California, Irvine, California 92697, United States.

Department of Chemistry, Carnegie Mellon University, 4400 Fifth Avenue, Pittsburgh, Pennsylvania 15213, United States.

出版信息

J Am Chem Soc. 2021 Feb 10;143(5):2384-2393. doi: 10.1021/jacs.0c12564. Epub 2021 Feb 2.

DOI:10.1021/jacs.0c12564
PMID:33528256
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7895470/
Abstract

Dinuclear iron centers with a bridging hydroxido or oxido ligand form active sites within a variety of metalloproteins. A key feature of these sites is the ability of the protein to control the structures around the Fe centers, which leads to entatic states that are essential for function. To simulate this controlled environment, artificial proteins have been engineered using biotin-streptavidin (Sav) technology in which Fe complexes from adjacent subunits can assemble to form [Fe-(μ-OH)-Fe] cores. The assembly process is promoted by the site-specific localization of the Fe complexes within a subunit through the designed mutation of a tyrosinate side chain to coordinate the Fe centers. An important outcome is that the Sav host can regulate the Fe···Fe separation, which is known to be important for function in natural metalloproteins. Spectroscopic and structural studies from X-ray diffraction methods revealed uncommonly long Fe···Fe separations that change by less than 0.3 Å upon the binding of additional bridging ligands. The structural constraints imposed by the protein host on the di-Fe cores are unique and create examples of active sites having entatic states within engineered artificial metalloproteins.

摘要

具有桥连羟(氧)基配体的双核铁中心在多种金属蛋白中形成活性位点。这些位点的一个关键特征是蛋白质控制铁中心周围结构的能力,这导致了为功能所必需的紧张状态。为了模拟这种受控环境,已经使用生物素-链霉亲和素(Sav)技术工程化了人工蛋白,其中来自相邻亚基的 Fe 配合物可以组装形成 [Fe-(μ-OH)-Fe] 核。组装过程通过将色氨酸侧链设计突变以配位 Fe 中心来促进亚基内 Fe 配合物的位点特异性定位。一个重要的结果是,Sav 宿主可以调节 Fe···Fe 分离,这对于天然金属蛋白中的功能是很重要的。来自 X 射线衍射方法的光谱和结构研究揭示了不常见的长 Fe···Fe 分离,其在结合额外的桥连配体时变化小于 0.3 Å。蛋白质宿主对双 Fe 核施加的结构约束是独特的,并在工程人工金属蛋白中创建了具有紧张状态的活性位点的实例。