RNA结合蛋白TET/FET家族中的RGG框在功能上是不同的。

RGG boxes within the TET/FET family of RNA-binding proteins are functionally distinct.

作者信息

Chau Bess Ling, Ng King Pan, Li Kim K C, Lee Kevin A W

机构信息

a Division of Life Science , The Hong Kong University of Science & Technology, Clear Water Bay , Kowloon , Hong Kong S.A.R. , China.

出版信息

Transcription. 2016 Aug 7;7(4):141-51. doi: 10.1080/21541264.2016.1183071. Epub 2016 May 9.

DOI:10.1080/21541264.2016.1183071

PMID:27159574

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4984686/

Abstract

The multi-functional TET (TAF15/EWS/TLS) or FET (FUS/EWS/TLS) protein family of higher organisms harbor a transcriptional-activation domain (EAD) and an RNA-binding domain (RBD). The transcriptional activation function is, however, only revealed in oncogenic TET-fusion proteins because in native TET proteins it is auto-repressed by RGG-boxes within the TET RBD. Auto-repression is suggested to involve direct cation-pi interactions between multiple Arg residues within RGG boxes and EAD aromatics. Via analysis of TET transcriptional activity in different organisms, we report herein that repression is not autonomous but instead requires additional trans-acting factors. This finding is not supportive of a proposed model whereby repression occurs via a simple intramolecular EAD/RGG-box interaction. We also show that RGG-boxes present within reiterated YGGDRGG repeats that are unique to TAF15, are defective for repression due to the conserved Asp residue. Thus, RGG boxes within TET proteins can be functionally distinguished. While our results show that YGGDRGG repeats are not involved in TAF15 auto-repression, their remarkable number and conservation strongly suggest that they may confer specialized properties to TAF15 and thus contribute to functional differentiation within the TET/FET protein family.

摘要

高等生物的多功能TET（TAF15/EWS/TLS）或FET（FUS/EWS/TLS）蛋白家族含有一个转录激活结构域（EAD）和一个RNA结合结构域（RBD）。然而，转录激活功能仅在致癌性TET融合蛋白中得以体现，因为在天然TET蛋白中，它会被TET RBD内的RGG框自动抑制。据推测，自动抑制涉及RGG框内多个精氨酸残基与EAD芳香族之间的直接阳离子-π相互作用。通过分析不同生物体中的TET转录活性，我们在此报告，抑制并非自主发生，而是需要额外的反式作用因子。这一发现并不支持通过简单的分子内EAD/RGG框相互作用发生抑制的模型。我们还表明，TAF15特有的重复YGGDRGG重复序列中存在的RGG框，由于保守的天冬氨酸残基，在抑制方面存在缺陷。因此，TET蛋白中的RGG框在功能上可以区分。虽然我们的结果表明YGGDRGG重复序列不参与TAF15的自动抑制，但其数量众多且保守，强烈表明它们可能赋予TAF15特殊性质，从而有助于TET/FET蛋白家族内的功能分化。

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