在大肠杆菌中设计一种环状核糖核酸调节器。

Q2 Agricultural and Biological Sciences 生物设计研究(英文) Pub Date : 2020-09-12 eCollection Date: 2020-01-01 DOI:10.34133/2020/1916789
William Rostain, Shensi Shen, Teresa Cordero, Guillermo Rodrigo, Alfonso Jaramillo
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引用次数: 6

摘要

天然或合成的不同形状和大小的RNA可以调节原核生物和真核生物的基因表达。环状RNA最近似乎比以前认为的更广泛,但它们在原核生物中的作用仍然难以捉摸。在这里,通过在I组排列的内含子-外显子核酶中插入核糖调节序列,我们在大肠杆菌中产生了一种小的非编码RNA,它可以自我剪接产生环状核糖调节因子。我们发现,由此产生的核糖调节因子可以通过与顺式抑制的信使RNA相互作用来反式激活基因表达。我们用荧光报告子和抗生素耐药性标记物对该系统进行了表征,并对这种新的转录后机制进行了建模。这是第一个报道的环状RNA在大肠杆菌中调节基因表达的例子,增加了越来越多的RNA合成生物学部分,它强调了拓扑分子可以在原核调控中发挥作用。
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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Engineering a Circular Riboregulator in Escherichia coli.

RNAs of different shapes and sizes, natural or synthetic, can regulate gene expression in prokaryotes and eukaryotes. Circular RNAs have recently appeared to be more widespread than previously thought, but their role in prokaryotes remains elusive. Here, by inserting a riboregulatory sequence within a group I permuted intron-exon ribozyme, we created a small noncoding RNA that self-splices to produce a circular riboregulator in Escherichia coli. We showed that the resulting riboregulator can trans-activate gene expression by interacting with a cis-repressed messenger RNA. We characterized the system with a fluorescent reporter and with an antibiotic resistance marker, and we modeled this novel posttranscriptional mechanism. This first reported example of a circular RNA regulating gene expression in E. coli adds to an increasing repertoire of RNA synthetic biology parts, and it highlights that topological molecules can play a role in the case of prokaryotic regulation.

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CiteScore
3.90
自引率
0.00%
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审稿时长
12 weeks
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