核核糖核蛋白家族成员FUS与RNA的结合阻止了R环RNA:DNA杂交结构。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105237
Valery F Thompson, Daniel R Wieland, Vivian Mendoza-Leon, Helen I Janis, Michelle A Lay, Lucas M Harrell, Jacob C Schwartz
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引用次数: 0

摘要

蛋白质FUS(肉瘤中的FUSed)是一种后生动物RNA结合蛋白,影响所有三种核聚合酶的RNA产生。FUS还结合新生转录物、RNA加工因子、RNA聚合酶和转录机制。在这里,我们探讨了FUS结合相互作用在转录过程中的作用。体外径流转录测定显示,FUS增强了由非真核生物聚合酶产生的RNA。该活性还减少了RNA产物与其DNA模板之间R环的形成。通过结构域突变和缺失的分析表明,活性需要RNA结合。我们解释说,FUS结合并螯合新生的转录物,以防止R环与附近的DNA形成。DRIP-seq分析表明,FUS的敲除增加了表达基因附近的R环富集。通过FUS与新生转录物结合来预防R环有可能影响任何RNA聚合酶的转录,这突出了FUS对细胞和疾病中RNA代谢的广泛影响。
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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Binding of the nuclear ribonucleoprotein family member FUS to RNA prevents R-loop RNA:DNA hybrid structures.

The protein FUS (FUSed in sarcoma) is a metazoan RNA-binding protein that influences RNA production by all three nuclear polymerases. FUS also binds nascent transcripts, RNA processing factors, RNA polymerases, and transcription machinery. Here, we explored the role of FUS binding interactions for activity during transcription. In vitro run-off transcription assays revealed FUS-enhanced RNA produced by a non-eukaryote polymerase. The activity also reduced the formation of R-loops between RNA products and their DNA template. Analysis by domain mutation and deletion indicated RNA-binding was required for activity. We interpret that FUS binds and sequesters nascent transcripts to prevent R-loops from forming with nearby DNA. DRIP-seq analysis showed that a knockdown of FUS increased R-loop enrichment near expressed genes. Prevention of R-loops by FUS binding to nascent transcripts has the potential to affect transcription by any RNA polymerase, highlighting the broad impact FUS can have on RNA metabolism in cells and disease.

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