Autoregulation of TRF2 through G-Quadruplex-Specific Interaction between the Gene and N-Terminal Domain of the Protein.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Xiaojuan Xu, Tao Wang
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引用次数: 0

Abstract

Telomere repeat-binding factor 2 (TRF2) is a key component of the shelterin complex which guards the integrity of the telomere. Most of the TRF2 discussed previously was focused on the telomere, and relatively less is discussed on aspects other than that. It is proved that TRF2 also localizes to other potential G-quadruplex-forming sequences among the whole genome besides the telomere. Therefore, it may participate in regulating genes generally except for the well-known function of protecting telomeres. Here, we demonstrate that the N-terminal basic domain of TRF2 (TRF2B) can interact with the G-quadruplex formed by the 5'-UTR sequence of its gene. Subsequently, this interaction was identified as G-quadruplex-specific. Using a reporter gene system, we proved that the translation of the reporter gene was dramatically reduced, triggered by the interaction between TRF2B and the G-quadruplex. Altogether, we propose that TRF2 can be "auto-regulated" through the G-quadruplex formed by its own gene sequence. This finding indicates a potential feedback mechanism in the regulation of the TRF2 gene. Additionally, it suggests a common mode in gene regulation involving the cooperation of TRF2 and the G-quadruplex.

端粒重复结合因子2(TRF2)是保护端粒完整性的庇护素复合体的一个关键组成部分。以前对TRF2的讨论大多集中在端粒上,对端粒之外的其他方面的讨论相对较少。事实证明,除了端粒之外,TRF2 还定位在全基因组中其他潜在的 G-四叠体形成序列上。因此,除了众所周知的保护端粒的功能外,它还可能参与一般基因的调控。在这里,我们证明了TRF2(TRF2B)的N端基本结构域可以与其基因的5'-UTR序列形成的G-四联体相互作用。随后,这种相互作用被确定为G-四叠体特异性相互作用。利用报告基因系统,我们证明了报告基因的翻译在 TRF2B 与 G-quadruplex 相互作用的触发下显著减少。总之,我们认为TRF2可以通过其自身基因序列形成的G-四联体进行 "自动调节"。这一发现表明 TRF2 基因的调控存在潜在的反馈机制。此外,它还表明了一种涉及 TRF2 和 G-四叠体合作的基因调控共同模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biochemistry Biochemistry
Biochemistry Biochemistry 生物-生化与分子生物学
CiteScore
5.50
自引率
3.40%
发文量
336
审稿时长
1-2 weeks
期刊介绍: Biochemistry provides an international forum for publishing exceptional, rigorous, high-impact research across all of biological chemistry. This broad scope includes studies on the chemical, physical, mechanistic, and/or structural basis of biological or cell function, and encompasses the fields of chemical biology, synthetic biology, disease biology, cell biology, nucleic acid biology, neuroscience, structural biology, and biophysics. In addition to traditional Research Articles, Biochemistry also publishes Communications, Viewpoints, and Perspectives, as well as From the Bench articles that report new methods of particular interest to the biological chemistry community.
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