利用连接酶辅助选择富集响应性核酶(LigASERR)的核糖开关鉴定。

IF 2.6 Q2 BIOCHEMICAL RESEARCH METHODS
Synthetic biology (Oxford, England) Pub Date : 2019-07-08 eCollection Date: 2019-01-01 DOI:10.1093/synbio/ysz019
Matthew C Haines, Marko Storch, Diego A Oyarzún, Guy-Bart Stan, Geoff S Baldwin
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引用次数: 3

摘要

体外选择配体反应性核酶可以从大型文库中识别罕见的功能序列。虽然功能强大,但这种方法的关键警告包括冗长且苛刻的实验工作流程;不可预测的实验结果和体内富集序列的未知功能。为了解决第一个限制,我们开发了连接酶辅助选择富集响应性核酶(LigASERR)。与其他方法相比,LigASERR具有可扩展性,易于自动化,并且需要更少的时间来实现。为了提高实验的可预测性,我们对潜在的选择过程进行了建模,根据序列和种群参数预测实验结果。我们将这种新的方法和模型应用于从定制库中富集已知的体外选择序列。在实施选择之前,对大多数实验进行了条件优化和目标序列动态准确预测。除了丰富目标序列外,我们还鉴定了两种新的茶碱活化核酶。值得注意的是,所有三个序列都产生了在大肠杆菌中具有功能的核糖体开关,这表明LigASERR和类似的体外选择方法可用于在大肠杆菌中产生功能性核糖体开关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Riboswitch identification using Ligase-Assisted Selection for the Enrichment of Responsive Ribozymes (LigASERR).

In vitro selection of ligand-responsive ribozymes can identify rare, functional sequences from large libraries. While powerful, key caveats of this approach include lengthy and demanding experimental workflows; unpredictable experimental outcomes and unknown functionality of enriched sequences in vivo. To address the first of these limitations, we developed Ligase-Assisted Selection for the Enrichment of Responsive Ribozymes (LigASERR). LigASERR is scalable, amenable to automation and requires less time to implement compared to alternative methods. To improve the predictability of experiments, we modeled the underlying selection process, predicting experimental outcomes based on sequence and population parameters. We applied this new methodology and model to the enrichment of a known, in vitro-selected sequence from a bespoke library. Prior to implementing selection, conditions were optimized and target sequence dynamics accurately predicted for the majority of the experiment. In addition to enriching the target sequence, we identified two new, theophylline-activated ribozymes. Notably, all three sequences yielded riboswitches functional in Escherichia coli, suggesting LigASERR and similar in vitro selection methods can be utilized for generating functional riboswitches in this organism.

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