原核生物和真核生物中天然 RNA 适体的全基因组鉴定。

Genome-wide identification of natural RNA aptamers in prokaryotes and eukaryotes.

机构信息

Stem Cell and Development Biology, Genome Institute of Singapore, Singapore, 138672, Singapore.

Computational and Systems Biology, Genome Institute of Singapore, Singapore, 138672, Singapore.

出版信息

Nat Commun. 2018 Mar 29;9(1):1289. doi: 10.1038/s41467-018-03675-1.

DOI:10.1038/s41467-018-03675-1

PMID:29599443

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5876405/

Abstract

RNAs are well-suited to act as cellular sensors that detect and respond to metabolite changes in the environment, due to their ability to fold into complex structures. Here, we introduce a genome-wide strategy called PARCEL that experimentally identifies RNA aptamers in vitro, in a high-throughput manner. By applying PARCEL to a collection of prokaryotic and eukaryotic organisms, we have revealed 58 new RNA aptamers to three key metabolites, greatly expanding the list of natural RNA aptamers. The newly identified RNA aptamers exhibit significant sequence conservation, are highly structured and show an unexpected prevalence in coding regions. We identified a prokaryotic precursor tmRNA that binds vitamin B2 (FMN) to facilitate its maturation, as well as eukaryotic mRNAs that bind and respond to FMN, suggesting FMN as the second RNA-binding ligand to affect eukaryotic expression. PARCEL results show that RNA-based sensing and gene regulation is more widespread than previously appreciated in different organisms.

摘要

RNAs 非常适合作为细胞传感器，因为它们能够折叠成复杂的结构，从而能够检测和响应环境中的代谢物变化。在这里，我们引入了一种称为 PARCEL 的全基因组策略，该策略通过体外高通量的方式实验性地鉴定 RNA 适体。通过将 PARCEL 应用于一系列原核生物和真核生物，我们发现了 58 种新的 RNA 适体，它们能够与三种关键代谢物结合，极大地扩展了天然 RNA 适体的列表。新鉴定的 RNA 适体表现出显著的序列保守性、高度结构化，并且在编码区域中出人意料地普遍存在。我们鉴定了一种原核前体 tmRNA，它结合维生素 B2（FMN）以促进其成熟，以及结合并响应 FMN 的真核 mRNA，表明 FMN 是影响真核表达的第二种 RNA 结合配体。PARCEL 的结果表明，基于 RNA 的传感和基因调控在不同的生物体中比以前认为的更为普遍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0a6/5876405/78547dcfa615/41467_2018_3675_Fig1_HTML.jpg

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原核生物和真核生物中天然 RNA 适体的全基因组鉴定。

Genome-wide identification of natural RNA aptamers in prokaryotes and eukaryotes.

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