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Ssd1 的核质穿梭决定了其结合 mRNA 的命运。

Nucleocytoplasmic shuttling of Ssd1 defines the destiny of its bound mRNAs.

机构信息

Department of Animal Biology and Mari Lowe Center for Comparative Oncology, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, PA 19104, USA.

出版信息

Mol Microbiol. 2011 Aug;81(3):831-49. doi: 10.1111/j.1365-2958.2011.07731.x. Epub 2011 Jul 18.

DOI:10.1111/j.1365-2958.2011.07731.x
PMID:21762218
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3195380/
Abstract

Mechanisms that control mRNA metabolism are critical for cell function, development and stress response. The Saccharomyces cerevisiae mRNA-binding protein Ssd1 has been implicated in mRNA processing, ageing, stress response and maintenance of cell integrity. Ssd1 is a substrate of the LATS/NDR tumour suppressor orthologue Cbk1 kinase. Previous data indicate that Ssd1 localizes to the cytoplasm; however, biochemical interactions suggest that Ssd1 at least transiently localizes to the nucleus. We therefore explored whether nuclear localization is important for Ssd1 cytoplasmic functions. We identified a functional NLS in the N-terminal domain of Ssd1. An Ssd1-derived NLS-GFP fusion protein and several C-terminally truncated Ssd1 proteins, which presumably lack nuclear export sequences, accumulate in the nucleus. Alanine substitution of the Ssd1 NLS prevents Ssd1 nuclear entry, mRNA binding and disrupts Srl1 mRNA localization. Moreover, Ssd1-NLS mutations abolish Ssd1 toxicity in the absence of Cbk1 phosphorylation and cause Ssd1 to localize prominently to cytoplasmic puncta. These data indicate that nuclear shuttling is critical for Ssd1 mRNA binding and Ssd1-mRNA localization in the cytoplasm. Collectively these data support the model that Ssd1 functions analogously to hnRNPs, which bind mRNA co-transcriptionally, are exported to the cytoplasm and target mRNAs to sites of localized translation and P-bodies.

摘要

控制 mRNA 代谢的机制对于细胞功能、发育和应激反应至关重要。酿酒酵母的 mRNA 结合蛋白 Ssd1 已被牵连到 mRNA 处理、衰老、应激反应和细胞完整性的维持中。Ssd1 是 LATS/NDR 肿瘤抑制物同源物 Cbk1 激酶的底物。先前的数据表明 Ssd1 定位于细胞质中;然而,生化相互作用表明 Ssd1 至少暂时定位于细胞核。因此,我们探讨了核定位是否对 Ssd1 细胞质功能很重要。我们在 Ssd1 的 N 端结构域中鉴定出一个功能性的核定位信号(NLS)。Ssd1 衍生的 NLS-GFP 融合蛋白和几个 C 端截断的 Ssd1 蛋白,推测缺乏核输出序列,积累在核内。Ssd1 NLS 的丙氨酸取代阻止 Ssd1 核进入、mRNA 结合并破坏 Srl1 mRNA 的定位。此外,Ssd1-NLS 突变在没有 Cbk1 磷酸化的情况下消除了 Ssd1 的毒性,并导致 Ssd1 主要定位于细胞质点状结构。这些数据表明核穿梭对于 Ssd1 的 mRNA 结合和 Ssd1-mRNA 在细胞质中的定位至关重要。总的来说,这些数据支持了 Ssd1 类似于 hnRNPs 的模型,hnRNPs 与共转录的 mRNA 结合,被输出到细胞质,并将 mRNAs 靶向局部翻译和 P 体的位点。

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本文引用的文献

1
The yeast Cbk1 kinase regulates mRNA localization via the mRNA-binding protein Ssd1.酵母 Cbk1 激酶通过 mRNA 结合蛋白 Ssd1 调节 mRNA 定位。
J Cell Biol. 2011 Feb 21;192(4):583-98. doi: 10.1083/jcb.201011061.
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Saccharomyces cerevisiae Ssd1p promotes CLN2 expression by binding to the 5'-untranslated region of CLN2 mRNA.酿酒酵母 Ssd1p 通过与 CLN2 mRNA 的 5'-非翻译区结合来促进 CLN2 的表达。
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Cotranscriptional recruitment of She2p by RNA pol II elongation factor Spt4-Spt5/DSIF promotes mRNA localization to the yeast bud.RNA 聚合酶 II 延伸因子 Spt4-Spt5/DSIF 通过共转录募集 She2p,促进 mRNA 定位于酵母芽。
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hnRNP C promotes APP translation by competing with FMRP for APP mRNA recruitment to P bodies.hnRNP C 通过与 FMRP 竞争 APP mRNA 招募到 P 体,从而促进 APP 的翻译。
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The distribution of active RNA polymerase II along the transcribed region is gene-specific and controlled by elongation factors.转录区域中活性 RNA 聚合酶 II 的分布具有基因特异性,并受延伸因子的控制。
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Cbk1 regulation of the RNA-binding protein Ssd1 integrates cell fate with translational control.Cbk1 通过调控 RNA 结合蛋白 Ssd1 将细胞命运与翻译调控相整合。
Curr Biol. 2009 Dec 29;19(24):2114-20. doi: 10.1016/j.cub.2009.10.071. Epub 2009 Dec 3.
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Flexible gates: dynamic topologies and functions for FG nucleoporins in nucleocytoplasmic transport.柔性门控:FG核孔蛋白在核质运输中的动态拓扑结构与功能
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m-TAG: a PCR-based genomic integration method to visualize the localization of specific endogenous mRNAs in vivo in yeast.m-TAG:一种基于聚合酶链式反应的基因组整合方法,用于在酵母体内可视化特定内源性信使核糖核酸的定位。
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Mutations in the Saccharomyces cerevisiae kinase Cbk1p lead to a fertility defect that can be suppressed by the absence of Brr1p or Mpt5p (Puf5p), proteins involved in RNA metabolism.酿酒酵母蛋白激酶 Cbk1p 的突变导致育性缺陷,该缺陷可被参与 RNA 代谢的 Brr1p 或 Mpt5p(Puf5p)蛋白缺失所抑制。
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