衰老依赖性硫醇氧化揭示了具有核心蛋白稳态功能的蛋白质的早期氧化。

IF 3.3 2区 生物学 Q1 BIOLOGY
Katarzyna Jonak, Ida Suppanz, Julian Bender, Agnieszka Chacinska, Bettina Warscheid, Ulrike Topf
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引用次数: 0

摘要

蛋白质硫醇的翻译后氧化修饰被公认为是一种容易发生的蛋白质改变,它可以改变蛋白质的功能,从而控制细胞过程。能够在整个蛋白质组范围内对蛋白质硫醇氧化的特定位点进行评估的技术的发展,大大增加了已知对氧化敏感的蛋白质硫醇的数量。然而,目前还缺乏有关老化过程中蛋白质氧化还原状态的大规模数据,而老化是一个伴随着内源性氧化剂水平增加的生理过程。在这里,我们以时间依赖的方式展示了野生型酿酒酵母中蛋白质硫醇氧化的情况。我们的数据确定了管理蛋白质从头生成、蛋白质折叠和降解的关键生物过程中的早期氧化目标,并指出了受可逆氧化还原修饰影响的细胞反应层次。通过与酵母、线虫、果蝇和小鼠的现有数据集进行比较,我们发现这些氧化靶标在进化过程中保持不变。为了便于访问,我们将跨物种比较整合到了新开发的 OxiAge 数据库中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ageing-dependent thiol oxidation reveals early oxidation of proteins with core proteostasis functions.
Oxidative post-translational modifications of protein thiols are well recognized as a readily occurring alteration of proteins, which can modify their function and thus control cellular processes. The development of techniques enabling the site-specific assessment of protein thiol oxidation on a proteome-wide scale significantly expanded the number of known oxidation-sensitive protein thiols. However, lacking behind are large-scale data on the redox state of proteins during ageing, a physiological process accompanied by increased levels of endogenous oxidants. Here, we present the landscape of protein thiol oxidation in chronologically aged wild-type Saccharomyces cerevisiae in a time-dependent manner. Our data determine early-oxidation targets in key biological processes governing the de novo production of proteins, protein folding, and degradation, and indicate a hierarchy of cellular responses affected by a reversible redox modification. Comparison with existing datasets in yeast, nematode, fruit fly, and mouse reveals the evolutionary conservation of these oxidation targets. To facilitate accessibility, we integrated the cross-species comparison into the newly developed OxiAge Database.
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来源期刊
Life Science Alliance
Life Science Alliance Agricultural and Biological Sciences-Plant Science
CiteScore
5.80
自引率
2.30%
发文量
241
审稿时长
10 weeks
期刊介绍: Life Science Alliance is a global, open-access, editorially independent, and peer-reviewed journal launched by an alliance of EMBO Press, Rockefeller University Press, and Cold Spring Harbor Laboratory Press. Life Science Alliance is committed to rapid, fair, and transparent publication of valuable research from across all areas in the life sciences.
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