Duvignaud Jean-Baptiste, Bédard Mikaël, Nagata Takashi, Muto Yutaka, Yokoyama Shigeyuki, Gagné Stéphane M, Vincent Michel
RIKEN Center for Life Science Technologies , Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan.
Faculty of Pharmacy and Research Institute of Pharmaceutical Science, Musashino University , Nishitokyo-shi, Tokyo 202-8585, Japan.
Biochemistry. 2016 May 10;55(18):2553-66. doi: 10.1021/acs.biochem.5b01240. Epub 2016 Apr 26.
p54(nrb)/NonO is a nuclear RNA-binding protein involved in many cellular events such as pre-mRNA processing, transcription, and nuclear retention of hyper-edited RNAs. In particular, it participates in the splicing process by directly binding the 5' splice site of pre-mRNAs. The protein also concentrates in a nuclear body called paraspeckle by binding a G-rich segment of the ncRNA NEAT1. The N-terminal section of p54(nrb)/NonO contains tandem RNA recognition motifs (RRMs) preceded by an HQ-rich region including a threonine residue (Thr15) whose phosphorylation inhibits its RNA binding ability, except for G-rich RNAs. In this work, our goal was to understand the rules that characterize the binding of the p54(nrb)/NonO RRMs to their RNA target. We have done in vitro RNA binding experiments which revealed that only the first RRM of p54(nrb)/NonO binds to the 5' splice site RNA. We have then determined the structure of the p54(nrb)/NonO RRM1 by liquid-state NMR which revealed the presence of a canonical fold (β1α1β2β3α2β4) and the conservation of aromatic amino acids at the protein surface. We also investigated the dynamics of this domain by NMR. The p54(nrb)/NonO RRM1 displays some motional properties that are typical of a well-folded protein with some regions exhibiting more flexibility (loops and β-strands). Furthermore, we determined the affinity of p54(nrb)/NonO RRM1 interaction to the 5' splice site RNA by NMR and fluorescence quenching and mapped its binding interface by NMR, concluding in a classical nucleic acid interaction. This study provides an improved understanding of the molecular basis (structure and dynamics) that governs the binding of the p54(nrb)/NonO RRM1 to one of its target RNAs.
p54(nrb)/NonO是一种核RNA结合蛋白,参与许多细胞活动,如前体mRNA加工、转录以及超编辑RNA的核内滞留。特别地,它通过直接结合前体mRNA的5'剪接位点参与剪接过程。该蛋白还通过结合非编码RNA NEAT1的富含G的片段聚集在一种称为副斑点的核体中。p54(nrb)/NonO的N端部分包含串联的RNA识别基序(RRMs),其前面是一个富含HQ的区域,该区域包括一个苏氨酸残基(Thr15),其磷酸化会抑制其RNA结合能力,但富含G的RNA除外。在这项工作中,我们的目标是了解表征p54(nrb)/NonO RRMs与其RNA靶标结合的规则。我们进行了体外RNA结合实验,结果表明只有p54(nrb)/NonO的第一个RRM与5'剪接位点RNA结合。然后,我们通过液相核磁共振确定了p54(nrb)/NonO RRM1的结构,该结构揭示了一个典型的折叠(β1α1β2β3α2β4)以及蛋白质表面芳香族氨基酸的保守性。我们还通过核磁共振研究了该结构域的动力学。p54(nrb)/NonO RRM1表现出一些典型的折叠良好的蛋白质的运动特性,一些区域表现出更大的灵活性(环和β链)。此外,我们通过核磁共振和荧光猝灭确定了p54(nrb)/NonO RRM1与5'剪接位点RNA相互作用的亲和力,并通过核磁共振绘制了其结合界面,得出了经典的核酸相互作用。这项研究有助于更好地理解控制p54(nrb)/NonO RRM1与其靶标RNA之一结合的分子基础(结构和动力学)。
