The structure of the high-affinity nickel-binding site in the Ni,Zn-HypA•UreE2 complex.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-03-06 DOI:10.1093/mtomcs/mfad003
Barbara Zambelli, Priyanka Basak, Heidi Hu, Mario Piccioli, Francesco Musiani, Valquiria Broll, Lionel Imbert, Jerome Boisbouvier, Michael J Maroney, Stefano Ciurli
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Abstract

The maturation pathway for the nickel-dependent enzyme urease utilizes the protein UreE as a metallochaperone to supply Ni(II) ions. In Helicobacter pylori urease maturation also requires HypA and HypB, accessory proteins that are commonly associated with hydrogenase maturation. Herein we report on the characterization of a protein complex formed between HypA and the UreE2 dimer. Nuclear magnetic resonance (NMR) coupled with molecular modelling show that the protein complex apo, Zn-HypA•UreE2, forms between the rigorously conserved Met-His-Glu (MHE motif) Ni-binding N-terminal sequence of HypA and the two conserved His102A and His102B located at the dimer interface of UreE2. This complex forms in the absence of Ni(II) and is supported by extensive protein contacts that include the use of the C-terminal sequences of UreE2 to form additional strands of β-sheet with the Ni-binding domain of HypA. The Ni-binding properties of apo, Zn-HypA•UreE2 and the component proteins were investigated by isothermal titration calorimetry using a global fitting strategy that included all of the relevant equilibria, and show that the Ni,Zn-HypA•UreE2 complex contains a single Ni(II)-binding site with a sub-nanomolar KD. The structural features of this novel Ni(II) site were elucidated using proteins produced with specifically deuterated amino acids, protein point mutations, and the analyses of X-ray absorption spectroscopy, hyperfine shifted NMR features, as well as molecular modeling coupled with quantum-mechanical calculations. The results show that the complex contains a six-coordinate, high-spin Ni(II) site with ligands provided by both component proteins.

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Ni,Zn-HypA-UreE2 复合物中高亲和力镍结合位点的结构。
镍依赖酶脲酶的成熟途径是利用蛋白质 UreE 作为金属伴侣来提供 Ni(II)离子。幽门螺旋杆菌脲酶的成熟还需要 HypA 和 HypB,它们是通常与氢化酶成熟相关的附属蛋白。在此,我们报告了 HypA 与 UreE2 二聚体之间形成的蛋白复合物的特征。核磁共振(NMR)和分子建模显示,蛋白复合物 apo、Zn-HypA-UreE2 形成于 HypA 与 Ni 结合的 N 端序列的严格保守的 Met-His-Glu(MHE 基序)和位于 UreE2 二聚体界面的两个保守的 His102A 和 His102B 之间。这种复合物在没有 Ni(II)的情况下形成,并由广泛的蛋白质接触支持,其中包括利用 UreE2 的 C 端序列与 HypA 的 Ni 结合域形成额外的β-片状链。通过等温滴定量热法研究了apo、Zn-HypA-UreE2 和各组成蛋白的镍结合特性,采用的全局拟合策略包括了所有相关的平衡,结果表明,Ni,Zn-HypA-UreE2 复合物包含一个镍(II)结合位点,其 KD 值低于纳摩尔。利用特异性氚化氨基酸生产的蛋白质、蛋白质点突变、X 射线吸收光谱分析、超细位移核磁共振特征以及分子建模和量子力学计算,阐明了这种新型 Ni(II)结合位点的结构特征。结果表明,该复合物包含一个六配位高自旋镍(II)位点,配体由两个组成蛋白质提供。
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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来源期刊
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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