铕(III)和钆(III)在模型金属酶磷酸三酯酶活性位点的单核结合和催化活性。

IF 2.6 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Callum W Breeze, Yuji Nakano, Eleanor C Campbell, Rebecca L Frkic, David W Lupton, Colin J Jackson
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引用次数: 0

摘要

镧系离子具有理想的催化化学特性,如硬路易斯酸性、快速配体交换动力学、高配位数偏好和低几何配位要求。因此,文献中描述了许多小分子镧系催化剂。然而,尽管酶能够在温和的条件下催化高度立体选择性的反应,但很少有人研究过镧系酶。在这项工作中,利用分辨率分别为 1.78 和 1.61 Å 的 X 射线晶体学,描述了铕(III)和钆(III)与磷酸三酯酶模型突变体活性位点的单核结合。研究还表明,尽管配位了单个非天然金属阳离子,PTE-R18 突变体仍能保持酯酶活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mononuclear binding and catalytic activity of europium(III) and gadolinium(III) at the active site of the model metalloenzyme phosphotriesterase.

Mononuclear binding and catalytic activity of europium(III) and gadolinium(III) at the active site of the model metalloenzyme phosphotriesterase.

Lanthanide ions have ideal chemical properties for catalysis, such as hard Lewis acidity, fast ligand-exchange kinetics, high coordination-number preferences and low geometric requirements for coordination. As a result, many small-molecule lanthanide catalysts have been described in the literature. Yet, despite the ability of enzymes to catalyse highly stereoselective reactions under gentle conditions, very few lanthanoenzymes have been investigated. In this work, the mononuclear binding of europium(III) and gadolinium(III) to the active site of a mutant of the model enzyme phosphotriesterase are described using X-ray crystallography at 1.78 and 1.61 Å resolution, respectively. It is also shown that despite coordinating a single non-natural metal cation, the PTE-R18 mutant is still able to maintain esterase activity.

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来源期刊
Acta Crystallographica. Section D, Structural Biology
Acta Crystallographica. Section D, Structural Biology BIOCHEMICAL RESEARCH METHODSBIOCHEMISTRY &-BIOCHEMISTRY & MOLECULAR BIOLOGY
CiteScore
4.50
自引率
13.60%
发文量
216
期刊介绍: Acta Crystallographica Section D welcomes the submission of articles covering any aspect of structural biology, with a particular emphasis on the structures of biological macromolecules or the methods used to determine them. Reports on new structures of biological importance may address the smallest macromolecules to the largest complex molecular machines. These structures may have been determined using any structural biology technique including crystallography, NMR, cryoEM and/or other techniques. The key criterion is that such articles must present significant new insights into biological, chemical or medical sciences. The inclusion of complementary data that support the conclusions drawn from the structural studies (such as binding studies, mass spectrometry, enzyme assays, or analysis of mutants or other modified forms of biological macromolecule) is encouraged. Methods articles may include new approaches to any aspect of biological structure determination or structure analysis but will only be accepted where they focus on new methods that are demonstrated to be of general applicability and importance to structural biology. Articles describing particularly difficult problems in structural biology are also welcomed, if the analysis would provide useful insights to others facing similar problems.
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