幼虫-蛋白酶体系统中的标签循环对饥饿条件下的分枝杆菌生存至关重要

IF 2.6 2区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Molecular Microbiology Pub Date : 2024-10-01 Epub Date: 2024-09-05 DOI:10.1111/mmi.15312
Erez Zerbib, Roni Levin, Eyal Gur
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引用次数: 0

摘要

许多细菌都拥有蛋白酶体和一种在功能上类似于泛素系统的标记系统。在这个系统中,标记蛋白 Pup 会标记蛋白酶体降解的蛋白质目标。尽管与泛素系统类似,泛素标签会被回收利用,但鉴于细菌蛋白酶体不包括去淀粉酶,Pup 是否会被类似地回收利用仍不清楚。我们之前在体外研究中发现,由于 Pup 缺乏有效的蛋白酶体降解位点,因此它在目标降解后会从蛋白酶体中释放出来,与降解片段连接,然后再进行去巯基化。在这里,我们利用能被蛋白酶体有效降解的 Pup 突变体,在分枝杆菌中测试了这一模型。我们的研究结果表明,Pup 循环不仅在体内发生,而且对于维持正常的蛹体水平和支持细菌在饥饿条件下生存也是必不可少的。因此,Pup 循环是分枝杆菌 Pup 蛋白酶体系统中的一个重要过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tag Recycling in the Pup-Proteasome System is Essential for Mycobacterium smegmatis Survival Under Starvation Conditions.

Many bacteria possess proteasomes and a tagging system that is functionally analogous to the ubiquitin system. In this system, Pup, the tagging protein, marks protein targets for proteasomal degradation. Despite the analogy to the ubiquitin system, where the ubiquitin tag is recycled, it remained unclear whether Pup is similarly recycled, given how the bacterial proteasome does not include a depupylase. We previously showed in vitro that as Pup lacks effective proteasome degradation sites, it is released from the proteasome following target degradation, remaining conjugated to a degradation fragment that can be later depupylated. Here, we tested this model in Mycobacterium smegmatis, using a Pup mutant that is effectively degraded by the proteasome. Our findings indicate that Pup recycling not only occurs in vivo but is also essential to maintain normal pupylome levels and to support bacterial survival under starvation conditions. Accordingly, Pup recycling is an essential process in the mycobacterial Pup-proteasome system.

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来源期刊
Molecular Microbiology
Molecular Microbiology 生物-生化与分子生物学
CiteScore
7.20
自引率
5.60%
发文量
132
审稿时长
1.7 months
期刊介绍: Molecular Microbiology, the leading primary journal in the microbial sciences, publishes molecular studies of Bacteria, Archaea, eukaryotic microorganisms, and their viruses. Research papers should lead to a deeper understanding of the molecular principles underlying basic physiological processes or mechanisms. Appropriate topics include gene expression and regulation, pathogenicity and virulence, physiology and metabolism, synthesis of macromolecules (proteins, nucleic acids, lipids, polysaccharides, etc), cell biology and subcellular organization, membrane biogenesis and function, traffic and transport, cell-cell communication and signalling pathways, evolution and gene transfer. Articles focused on host responses (cellular or immunological) to pathogens or on microbial ecology should be directed to our sister journals Cellular Microbiology and Environmental Microbiology, respectively.
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