双链适配体家族配体结合图谱的全面分析揭示了广泛存在的诱导契合现象。

Comprehensive profiling of the ligand binding landscapes of duplexed aptamer families reveals widespread induced fit.

作者信息

Munzar Jeffrey D, Ng Andy, Juncker David

机构信息

McGill University and Genome Quebec Innovation Centre, McGill University, Montreal, H3A 0G1, Quebec, Canada.

Department of Biomedical Engineering, McGill University, Montreal, H3A 2B4, Quebec, Canada.

出版信息

Nat Commun. 2018 Jan 24;9(1):343. doi: 10.1038/s41467-017-02556-3.

DOI:10.1038/s41467-017-02556-3

PMID:29367662

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5783947/

Abstract

Duplexed aptamers (DAs) are ligand-responsive constructs engineered by hybridizing an aptamer with an aptamer-complementary element (ACE, e.g., a DNA oligonucleotide). Although DAs are commonly deployed, the binding dynamics of ternary ACE-aptamer-ligand systems remain underexplored, having been conventionally described by a conformational selection framework. Here we introduce aptamer-complementary element scanning (ACE-Scan) as a method to generate comprehensive hybridization, spontaneous off-rate, and induced fit ligand-binding landscapes for entire DA families. ACE-Scan reveals induced fit in DAs engineered from small molecule- and protein-binding DNA and RNA aptamers, as well as DAs engineered from the natural add riboswitch aptamer. To validate ACE-Scan, we engineer solution-phase ATP-specific DAs from 5 ACEs with varying spontaneous and induced fit off-rates, generating aptasensors with 8-fold differences in dynamic range consistent with ACE-Scan. This work demonstrates that ACE-Scan can readily map induced fit in DAs, empowering aptamers in biosensing, synthetic biology, and DNA nanomachines.

摘要

双链适配体（DAs）是通过将适配体与适配体互补元件（ACE，例如DNA寡核苷酸）杂交而构建的配体响应性结构。尽管DAs已被广泛应用，但三元ACE-适配体-配体系统的结合动力学仍未得到充分研究，传统上是用构象选择框架来描述的。在这里，我们引入适配体互补元件扫描（ACE-Scan）作为一种方法，用于生成整个DA家族的全面杂交、自发解离速率和诱导契合配体结合图谱。ACE-Scan揭示了从小分子和蛋白质结合DNA及RNA适配体工程改造而来的DAs以及从天然add核糖开关适配体工程改造而来的DAs中的诱导契合。为了验证ACE-Scan，我们从5种具有不同自发和诱导契合解离速率的ACEs构建了溶液相ATP特异性DAs，生成了动态范围相差8倍的适体传感器，这与ACE-Scan一致。这项工作表明，ACE-Scan可以轻松地绘制DAs中的诱导契合图谱，为生物传感、合成生物学和DNA纳米机器中的适配体提供助力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e471/5783947/d7d08740662e/41467_2017_2556_Fig1_HTML.jpg

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双链适配体家族配体结合图谱的全面分析揭示了广泛存在的诱导契合现象。

Comprehensive profiling of the ligand binding landscapes of duplexed aptamer families reveals widespread induced fit.

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