Mrp和SufT:参与Fe-S簇生物发生的真核CIA因子的两个细菌同源物

Inorganics (Basel) Pub Date : 2023-11-03 DOI:10.3390/inorganics11110431

Corinne Aubert, Pierre Mandin, Béatrice Py

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摘要

Fe-S簇是多种金属蛋白活性的重要辅助因子，在呼吸、光合作用、固氮、基因表达调控和许多代谢途径(包括其他蛋白质辅助因子的生物合成)中发挥重要作用。铁和硫原子组装成一个簇，然后插入多肽链，是一个复杂的过程，由多蛋白质系统保证。真核生物经过进化，从细菌中获得了两种内共生的Fe-S蛋白生物生成系统。这些系统，ISC和SUF，分别被划分在线粒体和质体中。真核Fe-S蛋白生物生成系统(CIA)致力于胞质和核Fe-S蛋白的生物生成。虽然CIA系统在细菌中不存在，但至少有两个组分与细菌Fe-S蛋白生物发生因子Mrp和SufT具有同源性。在这里，我们概述了Mrp和SufT在细菌中Fe-S蛋白生物发生中的作用，旨在提出它们与真核CIA对应物的特定特征和共同特征。

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Mrp and SufT, Two Bacterial Homologs of Eukaryotic CIA Factors Involved in Fe-S Clusters Biogenesis

Fe-S clusters are essential cofactors for the activity of a large variety of metalloproteins that play important roles in respiration, photosynthesis, nitrogen fixation, regulation of gene expression, and numerous metabolic pathways, including biosynthesis of other protein cofactors. Assembly of iron and sulfur atoms into a cluster, followed by its insertion into the polypeptide chain, is a complex process ensured by multiproteic systems. Through evolution, eukaryotes have acquired two Fe-S protein biogenesis systems by endosymbiosis from bacteria. These systems, ISC and SUF, are compartmentalized in mitochondria and plastids, respectively. The eukaryotic Fe-S protein biogenesis system (CIA) is dedicated to the biogenesis of cytosolic and nuclear Fe-S proteins. While the CIA system is absent in bacteria, at least two of its components share homologies with bacterial Fe-S protein biogenesis factors, Mrp and SufT. Here, we provide an overview of the role of Mrp and SufT in Fe-S protein biogenesis in bacteria, aiming to put forward specific but also common features with their eukaryotic CIA counterparts.

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Inorganics (Basel)

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