In vitro Selection and in vivo Testing of Riboswitch-inspired Aptamers.

Michael G Mohsen, Ronald R Breaker
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Abstract

Engineered aptamers for new compounds are typically produced by using in vitro selection methods. However, aptamers that are developed in vitro might not function as expected when introduced into complex cellular environments. One approach that addresses this concern is the design of initial RNA pools for selection that contain structural scaffolds from naturally occurring riboswitch aptamers. Here, we provide guidance on design and experimental principles for developing riboswitch-inspired aptamers for new ligands. The in vitro selection protocol (based on Capture-SELEX) is generalizable to diverse RNA scaffold types and amenable to multiplexing of ligand candidates. We discuss strategies to avoid propagation of selfish sequences that can easily dominate the selection. We also detail the identification of aptamer candidates using next-generation sequencing and bioinformatics, and subsequent biochemical validation of aptamer candidates. Finally, we describe functional testing of aptamer candidates in bacterial cell culture. Key features Develop riboswitch-inspired aptamers for new ligands using in vitro selection. Ligand candidates can be multiplexed to conserve time and resources. Test aptamer candidates in bacterial cells by grafting the aptamer back onto its expression platform.

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核糖体开关诱导核酸适体的体外选择和体内检测。
新化合物的工程适体通常是通过体外选择方法产生的。然而,体外开发的适体在引入复杂的细胞环境时可能无法发挥预期的功能。解决这一问题的一种方法是设计用于选择的初始RNA池,其中包含天然存在的核糖开关适体的结构支架。在这里,我们为开发新的配体的核糖体开关启发的适配体提供了设计和实验原理的指导。体外选择方案(基于Capture-SELEX)可推广到不同的RNA支架类型,并适用于候选配体的多路复用。我们讨论了避免容易支配选择的自私序列传播的策略。我们还详细介绍了使用下一代测序和生物信息学鉴定适体候选体,以及随后对适体候选体的生化验证。最后,我们描述了适体候选体在细菌细胞培养中的功能测试。开发核糖体开关启发的核酸适体,用于体外选择新的配体。候选配体可以复用以节省时间和资源。通过将适体移植回其表达平台,在细菌细胞中测试适体候选体。
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