Reverse transcription as key step in RNA in vitro evolution with unnatural base pairs†

IF 4.2 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY RSC Chemical Biology Pub Date : 2024-04-23 DOI:10.1039/D4CB00084F
Eva S. Hoffmann, Mareike C. De Pascali, Lukas Neu, Christof Domnick, Alice Soldà and Stephanie Kath-Schorr
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Abstract

Unnatural base pairs (UBPs) augment the chemical diversity of artificial nucleic acids and can thus enable the generation of new aptamers and catalytic nucleic acids by in vitro selection. However, owing to a lack of methodologies, the reverse transcription of UBPs, a key step in RNA aptamer selection, has not been sufficiently characterized. Here, we present a series of versatile assays to investigate the reverse transcription of the TPT3:NaM base pair as a representative for hydrophobic unnatural base pairs. We determine the fidelity and retention of the UBP for four different reverse transcriptases (RT) in the context of RNA in vitro evolution. The retention of the TPT3:NaM pair during the RNA in vitro selection process was investigated using a novel click-chemistry based electromobility shift assay. Real-time monitoring of reverse transcription kinetics revealed considerable differences in polymerase activity processing the TPT3:NaM base pair. Our findings identified SuperScript IV RT as the most efficient RT for processing the TPT3:NaM pair. Our approach can be applied universally to study newly developed UBPs, not only at the reverse transcription level, but also during PCR and in vitro transcription.

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反转录是具有非天然碱基对的 RNA 体外进化的关键步骤
非天然碱基对(UBPs)增加了人工核酸的化学多样性,因此可以通过体外选择产生新的适配体和催化核酸。然而,由于缺乏方法,作为 RNA 合体选择的关键步骤,UBPs 的反转录尚未得到充分表征。在这里,我们介绍了一系列多功能检测方法,以研究作为疏水性非天然碱基对代表的 TPT3:NaM 碱基对的反转录。在 RNA 体外进化的背景下,我们确定了四种不同反转录酶(RT)对 UBP 的保真度和保留率。在 RNA 体外选择过程中,我们使用一种基于点击化学的新型电迁移测定法研究了 TPT3:NaM 对的保留情况。对反转录动力学的实时监测显示,处理 TPT3:NaM 碱基对的聚合酶活性存在很大差异。我们的研究结果表明,SuperScript IV RT 是处理 TPT3:NaM 碱基对最有效的 RT。我们的方法可普遍用于研究新开发的 UBPs,不仅在反转录水平上,而且在 PCR 和体外转录过程中也是如此。
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来源期刊
CiteScore
6.10
自引率
0.00%
发文量
128
审稿时长
10 weeks
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