Laura Marín-Vinader, Siebe T. van Genesen, Nicolette H. Lubsen
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引用次数: 8
Abstract
To determine whether mRNA synthesized during a heat shock is translated at least once in spite of the strong inhibition of translation by heat shock, we used nonsense-mediated decay (NMD) as an assay since NMD requires a round of translation. As NMD substrate we used the human ψγE-crystallin gene, which contains a premature termination codon, and as control, its close relative, the human γD-crystallin gene, both placed under control of the Hsp70 promoter. We show that no spliced ψγE-crystallin mRNA can be detected in heat shocked cells, suggesting that NMD resumes as soon as splicing is restored. We further show that newly synthesized mRNAs co-sediment with the 40S ribosomal subunits, indicating that the transcripts are recruited to the translation machinery but are stalled at the translation initiation stage. Using fluorescence loss in photobleaching (FLIP) we show that cytoplasmic EGFP-CBP20 is immobile in heat shocked cells. CBP20 is part of the cap binding complex which is thought to direct the first round of translation. Together our data suggest that all mRNAs made during heat shock enter the pioneer round of translation.
为了确定在热休克过程中合成的mRNA是否至少被翻译一次,尽管热休克对翻译有很强的抑制作用,我们使用无义介导的衰变(NMD)作为实验,因为NMD需要一轮翻译。我们将含有一个过早终止密码子的人γ γ e -crystallin基因作为NMD底物,将其近亲人γD-crystallin基因作为对照,两者都置于Hsp70启动子的控制之下。我们发现在热休克细胞中没有检测到剪接的ψγE-crystallin mRNA,这表明一旦剪接恢复,NMD就会恢复。我们进一步发现,新合成的mrna与40S核糖体亚基共同沉积,表明转录本被招募到翻译机制中,但在翻译起始阶段被停滞。利用光漂白中的荧光损失(FLIP),我们发现细胞质EGFP-CBP20在热休克细胞中是不动的。CBP20是帽结合复合体的一部分,它被认为指导了第一轮翻译。我们的数据表明,所有在热休克过程中产生的mrna都进入了翻译的先驱阶段。
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