Folding of copper proteins: role of the metal?

IF 7.2 2区生物学 Q1 BIOPHYSICS

Quarterly Reviews of Biophysics Pub Date : 2018-01-01 DOI:10.1017/S0033583518000021

Candan Ariöz, Pernilla Wittung-Stafshede

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引用次数: 17

Abstract

Copper is a redox-active transition metal ion required for the function of many essential human proteins. For biosynthesis of proteins coordinating copper, the metal may bind before, during or after folding of the polypeptide. If the metal binds to unfolded or partially folded structures of the protein, such coordination may modulate the folding reaction. The molecular understanding of how copper is incorporated into proteins requires descriptions of chemical, thermodynamic, kinetic and structural parameters involved in the formation of protein-metal complexes. Because free copper ions are toxic, living systems have elaborate copper-transport systems that include particular proteins that facilitate efficient and specific delivery of copper ions to target proteins. Therefore, these pathways become an integral part of copper protein folding in vivo. This review summarizes biophysical-molecular in vitro work assessing the role of copper in folding and stability of copper-binding proteins as well as protein-protein copper exchange reactions between human copper transport proteins. We also describe some recent findings about the participation of copper ions and copper proteins in protein misfolding and aggregation reactions in vitro.

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铜蛋白的折叠:金属的作用?

铜是一种具有氧化还原活性的过渡金属离子，是许多人体必需蛋白质的功能所必需的。对于配位铜的蛋白质的生物合成，金属可以在多肽折叠之前、期间或之后结合。如果金属与未折叠或部分折叠的蛋白质结构结合，这种配位可以调节折叠反应。要从分子层面理解铜是如何融入蛋白质的，就需要对蛋白质-金属复合物形成过程中涉及的化学、热力学、动力学和结构参数进行描述。由于游离铜离子是有毒的，生命系统有复杂的铜运输系统，其中包括一些特殊的蛋白质，这些蛋白质可以促进铜离子向目标蛋白质的高效和特异性传递。因此，这些途径成为体内铜蛋白折叠的重要组成部分。本文综述了铜在铜结合蛋白折叠和稳定性中的作用以及人体铜转运蛋白之间的蛋白-蛋白铜交换反应的生物物理-分子体外研究。我们还介绍了铜离子和铜蛋白参与体外蛋白质错误折叠和聚集反应的一些最新发现。

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

Quarterly Reviews of Biophysics 生物-生物物理

CiteScore

12.90

自引率

1.60%

发文量

期刊介绍： Quarterly Reviews of Biophysics covers the field of experimental and computational biophysics. Experimental biophysics span across different physics-based measurements such as optical microscopy, super-resolution imaging, electron microscopy, X-ray and neutron diffraction, spectroscopy, calorimetry, thermodynamics and their integrated uses. Computational biophysics includes theory, simulations, bioinformatics and system analysis. These biophysical methodologies are used to discover the structure, function and physiology of biological systems in varying complexities from cells, organelles, membranes, protein-nucleic acid complexes, molecular machines to molecules. The majority of reviews published are invited from authors who have made significant contributions to the field, who give critical, readable and sometimes controversial accounts of recent progress and problems in their specialty. The journal has long-standing, worldwide reputation, demonstrated by its high ranking in the ISI Science Citation Index, as a forum for general and specialized communication between biophysicists working in different areas. Thematic issues are occasionally published.