Ts 伸长因子直接促进大肠杆菌伸长因子 Tu·GTP·氨酰-tRNA 三元复合物的形成和解体。

Elongation factor Ts directly facilitates the formation and disassembly of the Escherichia coli elongation factor Tu·GTP·aminoacyl-tRNA ternary complex.

机构信息

Departments of Physiology and Biophysics, Weill Cornell Medical College, New York, New York 10065, USA.

出版信息

J Biol Chem. 2013 May 10;288(19):13917-28. doi: 10.1074/jbc.M113.460014. Epub 2013 Mar 28.

DOI:10.1074/jbc.M113.460014

PMID:23539628

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3650427/

Abstract

BACKGROUND

Aminoacyl-tRNA (aa-tRNA) enters the ribosome in a ternary complex with the G-protein elongation factor Tu (EF-Tu) and GTP.

RESULTS

EF-Tu·GTP·aa-tRNA ternary complex formation and decay rates are accelerated in the presence of the nucleotide exchange factor elongation factor Ts (EF-Ts).

CONCLUSION

EF-Ts directly facilitates the formation and disassociation of ternary complex.

SIGNIFICANCE

This system demonstrates a novel function of EF-Ts. Aminoacyl-tRNA enters the translating ribosome in a ternary complex with elongation factor Tu (EF-Tu) and GTP. Here, we describe bulk steady state and pre-steady state fluorescence methods that enabled us to quantitatively explore the kinetic features of Escherichia coli ternary complex formation and decay. The data obtained suggest that both processes are controlled by a nucleotide-dependent, rate-determining conformational change in EF-Tu. Unexpectedly, we found that this conformational change is accelerated by elongation factor Ts (EF-Ts), the guanosine nucleotide exchange factor for EF-Tu. Notably, EF-Ts attenuates the affinity of EF-Tu for GTP and destabilizes ternary complex in the presence of non-hydrolyzable GTP analogs. These results suggest that EF-Ts serves an unanticipated role in the cell of actively regulating the abundance and stability of ternary complex in a manner that contributes to rapid and faithful protein synthesis.

摘要

背景

氨酰基-tRNA（aa-tRNA）与 G 蛋白延伸因子 Tu（EF-Tu）和 GTP 形成三元复合物进入核糖体。

结果

核苷酸交换因子延伸因子 Ts（EF-Ts）的存在加速了 EF-Tu·GTP·aa-tRNA 三元复合物的形成和衰变速率。

结论

EF-Ts 直接促进三元复合物的形成和解离。

意义

该系统展示了 EF-Ts 的新功能。氨酰基-tRNA 与延伸因子 Tu（EF-Tu）和 GTP 形成三元复合物进入翻译核糖体。在这里，我们描述了批量稳态和预稳态荧光方法，使我们能够定量探索大肠杆菌三元复合物形成和衰变的动力学特征。获得的数据表明，这两个过程都受 EF-Tu 中核苷酸依赖性、速率决定构象变化的控制。出乎意料的是，我们发现这种构象变化被延伸因子 Ts（EF-Ts）加速，EF-Tu 的鸟苷核苷酸交换因子。值得注意的是，EF-Ts 降低了 EF-Tu 对 GTP 的亲和力，并在存在不可水解的 GTP 类似物时破坏三元复合物的稳定性。这些结果表明，EF-Ts 在细胞中发挥了意想不到的作用，以一种有助于快速和忠实的蛋白质合成的方式主动调节三元复合物的丰度和稳定性。

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