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DEAD 框解旋酶 eIF4A 的双链解旋和 ATP 酶活性通过 eIF4G 和 eIF4B 偶联。

Duplex unwinding and ATPase activities of the DEAD-box helicase eIF4A are coupled by eIF4G and eIF4B.

机构信息

Department of Molecular and Cellular Biology, College of Biological Sciences, University of California, Davis, CA 95616, USA.

出版信息

J Mol Biol. 2011 Sep 30;412(4):674-87. doi: 10.1016/j.jmb.2011.08.004. Epub 2011 Aug 5.

DOI:10.1016/j.jmb.2011.08.004
PMID:21840318
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3175293/
Abstract

Eukaryotic initiation factor (eIF) 4A is a DEAD-box helicase that stimulates translation initiation by unwinding mRNA secondary structure. The accessory proteins eIF4G, eIF4B, and eIF4H enhance the duplex unwinding activity of eIF4A, but the extent to which they modulate eIF4A activity is poorly understood. Here, we use real-time fluorescence assays to determine the kinetic parameters of duplex unwinding and ATP hydrolysis by these initiation factors. To ensure efficient duplex unwinding, eIF4B and eIF4G cooperatively activate the duplex unwinding activity of eIF4A. Our data reveal that eIF4H is much less efficient at stimulating eIF4A unwinding activity than eIF4B, implying that eIF4H is not able to completely substitute for eIF4B in duplex unwinding. By monitoring unwinding and ATPase assays under identical conditions, we demonstrate that eIF4B couples the ATP hydrolysis cycle of eIF4A with strand separation, thereby minimizing nonproductive unwinding events. Using duplex substrates with altered GC contents but similar predicted thermal stabilities, we further show that the rate of formation of productive unwinding complexes is strongly influenced by the local stability per base pair, in addition to the stability of the entire duplex. This finding explains how a change in the GC content of a hairpin is able to influence translation initiation while maintaining the overall predicted thermal stability.

摘要

真核起始因子 (eIF) 4A 是一种 DEAD-box 解旋酶,通过解开 mRNA 二级结构来刺激翻译起始。辅助蛋白 eIF4G、eIF4B 和 eIF4H 增强了 eIF4A 的双链解旋活性,但它们对 eIF4A 活性的调节程度知之甚少。在这里,我们使用实时荧光测定法来确定这些起始因子解双链和 ATP 水解的动力学参数。为了确保有效的双链解旋,eIF4B 和 eIF4G 协同激活 eIF4A 的双链解旋活性。我们的数据表明,eIF4H 刺激 eIF4A 解旋活性的效率远低于 eIF4B,这意味着 eIF4H 不能完全替代 eIF4B 进行双链解旋。通过在相同条件下监测解旋和 ATPase 测定,我们证明 eIF4B 将 eIF4A 的 ATP 水解循环与链分离偶联,从而最小化非生产性解旋事件。使用改变 GC 含量但具有相似预测热稳定性的双链底物,我们进一步表明,形成有生产性解旋复合物的速率除了整个双链的稳定性外,还强烈受到每个碱基对的局部稳定性的影响。这一发现解释了发夹 GC 含量的变化如何在保持整体预测热稳定性的同时影响翻译起始。

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本文引用的文献

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mRNA helicases: the tacticians of translational control.mRNA 解旋酶:翻译控制的战术家。
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Synergistic activation of eIF4A by eIF4B and eIF4G.eIF4A 通过 eIF4B 和 eIF4G 的协同激活。
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Value of Bioinformatics Models for Predicting Translational Control of Angiogenesis.生物信息学模型在预测血管生成翻译控制方面的价值。
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The DEAD-box helicase eIF4A1/2 acts as RNA chaperone during mitotic exit enabling chromatin decondensation.DEAD盒解旋酶eIF4A1/2在有丝分裂退出过程中作为RNA伴侣发挥作用,促进染色质解聚。
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Disordered regions of human eIF4B orchestrate a dynamic self-association landscape.人类 eIF4B 的无序区域协调动态的自组装景观。
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Mechanistic differences in eukaryotic initiation factor requirements for eIF4GI-driven cap-independent translation of structured mRNAs.真核生物起始因子对eIF4GI驱动的结构化mRNA非帽依赖性翻译的需求中的机制差异。
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eIF1 and eIF5 dynamically control translation start site fidelity.真核起始因子1(eIF1)和真核起始因子5(eIF5)动态控制翻译起始位点的准确性。
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