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1
Medulloblastoma-associated mutations in the DEAD-box RNA helicase DDX3X/DED1 cause specific defects in translation.DDX3X/DED1 解旋酶基因突变与髓母细胞瘤相关,导致翻译特异性缺陷。
J Biol Chem. 2021 Jan-Jun;296:100296. doi: 10.1016/j.jbc.2021.100296. Epub 2021 Jan 16.
2
Single-Molecule Imaging Reveals Translation of mRNAs Localized to Stress Granules.单分子成像揭示定位于应激颗粒的 mRNAs 的翻译。
Cell. 2020 Dec 23;183(7):1801-1812.e13. doi: 10.1016/j.cell.2020.11.010. Epub 2020 Dec 11.
3
Pharmacological inhibition of DEAD-Box RNA Helicase 3 attenuates stress granule assembly.药理学抑制 DEAD-Box RNA 解旋酶 3 可减轻应激颗粒组装。
Biochem Pharmacol. 2020 Dec;182:114280. doi: 10.1016/j.bcp.2020.114280. Epub 2020 Oct 10.
4
General and Target-Specific DExD/H RNA Helicases in Eukaryotic Translation Initiation.真核翻译起始中通用和靶标特异性 DExD/H RNA 解旋酶。
Int J Mol Sci. 2020 Jun 20;21(12):4402. doi: 10.3390/ijms21124402.
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Mechanisms and Regulation of RNA Condensation in RNP Granule Formation.RNA 凝聚的机制与调控在 RNP 颗粒形成中的作用。
Trends Biochem Sci. 2020 Sep;45(9):764-778. doi: 10.1016/j.tibs.2020.05.002. Epub 2020 May 11.
6
Distinct interactions of eIF4A and eIF4E with RNA helicase Ded1 stimulate translation in vivo.eIF4A 和 eIF4E 与 RNA 解旋酶 Ded1 的独特相互作用刺激体内翻译。
Elife. 2020 May 29;9:e58243. doi: 10.7554/eLife.58243.
7
Condensation of Ded1p Promotes a Translational Switch from Housekeeping to Stress Protein Production.Ded1p 凝聚促进了从管家蛋白到应激蛋白生产的翻译转换。
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8
DEAD-box ATPases are global regulators of phase-separated organelles.DEAD-box ATPases 是相分离细胞器的全局调节因子。
Nature. 2019 Sep;573(7772):144-148. doi: 10.1038/s41586-019-1502-y. Epub 2019 Aug 21.
9
The DEAD-box RNA helicase Ded1 has a role in the translational response to TORC1 inhibition.DEAD-box RNA 解旋酶 Ded1 在 TORC1 抑制的翻译反应中起作用。
Mol Biol Cell. 2019 Aug 1;30(17):2171-2184. doi: 10.1091/mbc.E18-11-0702. Epub 2019 May 29.
10
Translational Control under Stress: Reshaping the Translatome.应激状态下的翻译调控:重塑翻译组。
Bioessays. 2019 May;41(5):e1900009. doi: 10.1002/bies.201900009.

RNA 解旋酶 Ded1 在细胞应激反应的多个阶段调节翻译和颗粒形成。

The RNA Helicase Ded1 Regulates Translation and Granule Formation during Multiple Phases of Cellular Stress Responses.

机构信息

Department of Molecular and Cellular Biology, University of Arizonagrid.134563.6, Tucson, Arizona, USA.

出版信息

Mol Cell Biol. 2022 Jan 20;42(1):e0024421. doi: 10.1128/MCB.00244-21. Epub 2021 Nov 1.

DOI:10.1128/MCB.00244-21
PMID:34723653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8773058/
Abstract

Ded1 is a conserved RNA helicase that promotes translation initiation in steady-state conditions. Ded1 has also been shown to regulate translation during cellular stress and affect the dynamics of stress granules (SGs), accumulations of RNA and protein linked to translation repression. To better understand its role in stress responses, we examined Ded1 function in two different models: overexpression and oxidative stress. overexpression inhibits growth and promotes the formation of SGs. A mutant lacking the low-complexity C-terminal region (), which mediates Ded1 oligomerization and interaction with the translation factor eIF4G1, suppressed these phenotypes, consistent with other stresses. During oxidative stress, a mutant was defective in growth and in SG formation compared to wild-type cells, although SGs were increased rather than decreased in these conditions. Unlike stress induced by direct TOR inhibition, the phenotypes in both models were only partially dependent on eIF4G1 interaction, suggesting an additional contribution from Ded1 oligomerization. Furthermore, examination of the growth defects and translational changes during oxidative stress suggested that Ded1 plays a role during recovery from stress. Integrating these disparate results, we propose that Ded1 controls multiple aspects of translation and RNP dynamics in both initial stress responses and during recovery.

摘要

Ded1 是一种保守的 RNA 解旋酶,可在稳态条件下促进翻译起始。Ded1 还被证明可在细胞应激期间调节翻译,并影响应激颗粒 (SGs) 的动态,这些颗粒与翻译抑制有关的 RNA 和蛋白质的积累。为了更好地了解其在应激反应中的作用,我们在两种不同模型中检查了 Ded1 的功能:过表达和氧化应激。过表达抑制生长并促进 SG 的形成。缺乏低复杂度 C 末端区域 () 的突变体,该区域介导 Ded1 寡聚化和与翻译因子 eIF4G1 的相互作用,抑制了这些表型,与其他应激一致。在氧化应激期间,与野生型细胞相比,突变体在生长和 SG 形成方面存在缺陷,尽管在这些条件下 SG 增加而不是减少。与直接抑制 TOR 诱导的应激不同,两种模型中的表型仅部分依赖于 eIF4G1 相互作用,表明 Ded1 寡聚化的额外贡献。此外,在氧化应激期间检查生长缺陷和翻译变化表明,Ded1 在应激后恢复过程中发挥作用。综合这些不同的结果,我们提出 Ded1 控制初始应激反应和恢复过程中翻译和 RNP 动态的多个方面。