核糖开关对环二鸟苷酸的识别通过掩盖远离适体结构域的核糖体结合位点来进行翻译抑制。

Recognition of cyclic-di-GMP by a riboswitch conducts translational repression through masking the ribosome-binding site distant from the aptamer domain.

作者信息

Inuzuka Saki, Kakizawa Hitoshi, Nishimura Kei-Ichiro, Naito Takuto, Miyazaki Katsushi, Furuta Hiroyuki, Matsumura Shigeyoshi, Ikawa Yoshiya

机构信息

Department of Chemistry, Graduate School of Science and Engineering, University of Toyama, Toyama, Japan.

Department of Chemistry and Biochemistry, Graduate School of Engineering, Kyushu University, Fukuoka, Japan.

出版信息

Genes Cells. 2018 Jun;23(6):435-447. doi: 10.1111/gtc.12586. Epub 2018 Apr 25.

DOI:10.1111/gtc.12586

PMID:29693296

Abstract

The riboswitch is a class of RNA-based gene regulatory machinery that is dependent on recognition of its target ligand by RNA tertiary structures. Ligand recognition is achieved by the aptamer domain, and ligand-dependent structural changes of the expression platform then usually mediate termination of transcription or translational initiation. Ligand-dependent structural changes of the aptamer domain and expression platform have been reported for several riboswitches with short (<40 nucleotides) expression platforms. In this study, we characterized structural changes of the Vc2 c-di-GMP riboswitch that represses translation of downstream open reading frames in a ligand-dependent manner. The Vc2 riboswitch has a long (97 nucleotides) expression platform, but its structure and function are largely unknown. Through mutational analysis and chemical probing, we identified its secondary structures that are possibly responsible for switch-OFF and switch-ON states of translational initiation.

摘要

核糖开关是一类基于RNA的基因调控机制，它依赖于RNA三级结构对其靶配体的识别。配体识别是通过适体结构域实现的，然后表达平台的配体依赖性结构变化通常介导转录终止或翻译起始。对于几种具有短（<40个核苷酸）表达平台的核糖开关，已经报道了适体结构域和表达平台的配体依赖性结构变化。在本研究中，我们表征了Vc2 c-二鸟苷酸核糖开关的结构变化，该开关以配体依赖性方式抑制下游开放阅读框的翻译。Vc2核糖开关具有长（97个核苷酸）的表达平台，但其结构和功能在很大程度上尚不清楚。通过突变分析和化学探针技术，我们确定了其可能负责翻译起始的关闭和开启状态的二级结构。

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Recognition of cyclic-di-GMP by a riboswitch conducts translational repression through masking the ribosome-binding site distant from the aptamer domain.核糖开关对环二鸟苷酸的识别通过掩盖远离适体结构域的核糖体结合位点来进行翻译抑制。

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核糖开关对环二鸟苷酸的识别通过掩盖远离适体结构域的核糖体结合位点来进行翻译抑制。

Recognition of cyclic-di-GMP by a riboswitch conducts translational repression through masking the ribosome-binding site distant from the aptamer domain.

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