Mapping ubiquitin modifications reveals new functions for the yeast nuclear pore complex.

Carlos A Niño, Akira Hayakawa, Catherine Dargemont, Anna Babour
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引用次数: 6

Abstract

Covalent attachment of ubiquitin to target proteins, or ubiquitylation, has emerged as one of the most prevalent posttranslational modifications (PTMs), regulating nearly every cellular pathway. The diversity of functions associated with this particular PTM stems from the myriad ways in which a target protein can be modified by ubiquitin, e.g., monoubiquitin, multi-monoubiquitin, and polyubiquitin linkages. In the current study, we took a systematic approach to analyze the ubiquitylation profiles of the yeast Saccharomyces cerevisiae nuclear pore complex (NPC) proteins or nucleoporins. We found the yeast NPC to be extensively modified by ubiquitin with highly variable ubiquitylation profiles, suggesting that dissection of these modifications may provide new insights into the regulation of NPC functions and reveal additional roles for nucleoporins beyond nuclear transport.

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绘制泛素修饰揭示酵母核孔复合物的新功能。
泛素与靶蛋白的共价附着,或泛素化,已成为最普遍的翻译后修饰(PTMs)之一,几乎调节所有细胞途径。与这种特殊PTM相关的功能多样性源于靶蛋白可以被泛素修饰的无数种方式,例如单泛素、多单泛素和多泛素连接。在本研究中,我们采用系统的方法分析了酵母核孔复合物(Saccharomyces cerevisiae nuclear pore complex, NPC)蛋白或核孔蛋白的泛素化谱。我们发现酵母鼻咽癌被泛素广泛修饰,具有高度可变的泛素化谱,这表明对这些修饰的剖析可能为鼻咽癌功能的调控提供新的见解,并揭示核孔蛋白在核运输之外的其他作用。
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