Uip4p modulates nuclear pore complex function in Saccharomyces cerevisiae.

Pallavi Deolal, Imlitoshi Jamir, Krishnaveni Mishra
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引用次数: 2

Abstract

A double membrane bilayer perforated by nuclear pore complexes (NPCs) governs the shape of the nucleus, the prominent distinguishing organelle of a eukaryotic cell. Despite the absence of lamins in yeasts, the nuclear morphology is stably maintained and shape changes occur in a regulated fashion. In a quest to identify factors that contribute to regulation of nuclear shape and function in Saccharomyces cerevisiae, we used a fluorescence imaging based approach. Here we report the identification of a novel protein, Uip4p, that is required for regulation of nuclear morphology. Loss of Uip4 compromises NPC function and loss of nuclear envelope (NE) integrity. Our localization studies show that Uip4 localizes to the NE and endoplasmic reticulum (ER) network. Furthermore, we demonstrate that the localization and expression of Uip4 is regulated during growth, which is crucial for NPC distribution.

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Uip4p调控酿酒酵母核孔复合物功能。
由核孔复合物(NPCs)穿孔的双层膜控制着核的形状,核是真核细胞中突出的区分细胞器。尽管在酵母中没有层板,但核形态是稳定维持的,形状变化以一种受调节的方式发生。在一个探索,以确定有助于调节核形状和功能在酿酒酵母的因素,我们使用了荧光成像为基础的方法。在这里,我们报告鉴定了一种新的蛋白,Uip4p,这是核形态调节所必需的。Uip4的缺失损害了NPC功能和核包膜完整性的丧失。我们的定位研究表明,Uip4定位于NE和内质网(ER)网络。此外,我们还证明了在生长过程中,Uip4的定位和表达受到调控,这对NPC的分布至关重要。
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