核仁控制细胞应激下的蛋白质运输。

Molecular and cellular pharmacology Pub Date : 2010-01-01
Narasimharao Nalabothula, Fred E Indig, France Carrier
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引用次数: 0

摘要

核仁是一个高度动态的核亚结构,最初被描述为核糖体生物发生的地方。随着蛋白质组学分析的出现,目前已经鉴定出超过4500种核仁相关蛋白,其中只有约30%与核糖体发生有关(1)。大量与传统上公认的核仁功能无关的核仁蛋白表明核仁在其他细胞功能中发挥作用,如有丝分裂、细胞周期进程、细胞增殖和多种形式的应激反应,包括DNA修复(2)。最近的一些综述已经解决了核仁在细胞应激反应中的关键作用(1,3,4)。在这里,我们将重点关注核仁的两个主要成分核仁蛋白和核磷蛋白在基因毒性应激反应中的作用。由于篇幅限制,只引用了有限数量的研究。因此,我们向所有在这里没有引用我们作品的同事道歉。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Nucleolus Takes Control of Protein Trafficking Under Cellular Stress.

The Nucleolus Takes Control of Protein Trafficking Under Cellular Stress.

The Nucleolus Takes Control of Protein Trafficking Under Cellular Stress.

The Nucleolus Takes Control of Protein Trafficking Under Cellular Stress.

The nucleolus is a highly dynamic nuclear substructure that was originally described as the site of ribosome biogenesis. The advent of proteomic analysis has now allowed the identification of over 4500 nucleolus associated proteins with only about 30% of them associated with ribogenesis (1). The great number of nucleolar proteins not associated with traditionally accepted nucleolar functions indicates a role for the nucleolus in other cellular functions such as mitosis, cell-cycle progression, cell proliferation and many forms of stress response including DNA repair (2). A number of recent reviews have addressed the pivotal role of the nucleolus in the cellular stress response (1, 3, 4). Here, we will focus on the role of Nucleolin and Nucleophosmin, two major components of the nucleolus, in response to genotoxic stress. Due to space constraint only a limited number of studies are cited. We thus apologize to all our colleagues whose works are not referenced here.

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