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II 类 sRNA MgrR 与匹配蛋白 Hfq 上的两个不同结合位点结合,使 Hfq 能够有效地进行竞争和退火到调节 mRNA。

The binding of Class II sRNA MgrR to two different sites on matchmaker protein Hfq enables efficient competition for Hfq and annealing to regulated mRNAs.

机构信息

Institute of Molecular Biology and Biotechnology, Faculty of Biology, Adam Mickiewicz University, 61-614 Poznań, Poland.

Institute of Cellular and Molecular Biology, University of Texas, Austin, Texas 78712, USA.

出版信息

RNA. 2018 Dec;24(12):1761-1784. doi: 10.1261/rna.067777.118. Epub 2018 Sep 14.

DOI:10.1261/rna.067777.118
PMID:30217864
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6239178/
Abstract

MgrR is an Hfq-dependent sRNA, whose transcription is controlled by the level of Mg ions in MgrR belongs to Class II sRNAs because its stability in the cell is affected by mutations in Hfq differently than canonical, Class I sRNAs. Here, we examined the effect of mutations in RNA binding sites of Hfq on the kinetics of the annealing of MgrR to two different target mRNAs, and , by global data fitting of the reaction kinetics monitored by gel electrophoresis of intermediates and products. The data showed that the mutation on the rim of the Hfq ring trapped MgrR on Hfq preventing the annealing of MgrR to either mRNA. The mutation in the distal face slowed the ternary complex formation and affected the release of MgrR-mRNA complexes from Hfq, while the mutation in the proximal face weakened the MgrR binding to Hfq and in this way affected the annealing. Moreover, competition assays established that MgrR bound to both faces of Hfq and competed against other sRNAs. Further studies showed that uridine-rich sequences located in less structurally stable regions served as Hfq binding sites in each mRNA. Overall, the data show that the binding of MgrR sRNA to both faces of the Hfq ring enables it to efficiently anneal to target mRNAs. It also confers on MgrR a competitive advantage over other sRNAs, which could contribute to efficient cellular response to changes in magnesium homeostasis.

摘要

MgrR 是一种依赖于 Hfq 的 sRNA,其转录受 MgrR 中镁离子水平的控制。MgrR 属于 II 类 sRNAs,因为其在细胞中的稳定性受 Hfq 突变的影响与经典的 I 类 sRNAs 不同。在这里,我们通过凝胶电泳监测中间产物和产物的反应动力学的全局数据拟合,研究了 Hfq 上 RNA 结合位点的突变对 MgrR 与两种不同靶 mRNA(和)退火动力学的影响。数据表明,Hfq 环边缘的突变会将 MgrR 固定在 Hfq 上,从而阻止 MgrR 与任何 mRNA 退火。在远端表面的突变会减缓三元复合物的形成并影响 MgrR-mRNA 复合物从 Hfq 的释放,而在近端表面的突变会削弱 MgrR 与 Hfq 的结合,并以这种方式影响退火。此外,竞争实验确定 MgrR 结合 Hfq 的两个面,并与其他 sRNA 竞争。进一步的研究表明,位于结构稳定性较低区域的富含尿嘧啶的序列在每个 mRNA 中充当 Hfq 结合位点。总体而言,数据表明 MgrR sRNA 与 Hfq 环的两个面的结合使其能够有效地与靶 mRNA 退火。它还赋予 MgrR 相对于其他 sRNA 的竞争优势,这有助于细胞有效应对镁稳态变化。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1af0/6239178/67c972c08319/1761f08.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1af0/6239178/9e6b848fba11/1761f09.jpg
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