调节配体结合亲和力的竞争性适配体开关

Derek Puyat , Sung Won Oh , Shiming Liu , Jinglin Fu Ph.D
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引用次数: 1

摘要

适配子是选择性结合靶分子的短单链DNA或RNA分子。适体-互补双链体(ACD)通常用于设计分子开关,该分子开关能够在适体与靶标结合时产生可检测信号或触发结构变化。然而,由于互补双链体的能垒,这种适体开关通常面临增加的解离常数(Kd)。我们报道了一种竞争性杂交机制来调节ACD与靶腺苷的结合亲和力。使用计算引导设计,我们计算了从11nt到15nt的双链长度的适体折叠能,并通过实验测量了这些扩展的双链导致的表观Kd值的增加。使用一组链与ACD杂交竞争,它降低了适体折叠能,以促进适体转换,表观Kd值降低,范围从没有竞争链的400μM以上到有竞争链的-30μM。这种竞争性适体开关也被发现对竞争链的单核苷酸突变敏感。我们的工作提供了一种调节适体-补体双链体结合亲和力和敏感性的方法,这可能在基于核酸的传感和纳米医学中有用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Competitive aptamer switch for modulating ligand binding affinity

Aptamers are short, single-stranded DNA or RNA molecules that selectively bind to a target molecule. Aptamer-complement duplex (ACD) is often used to design molecular switches capable of producing a detectable signal or triggering a structural change upon aptamer binding to a target. However, such aptamer switch generally faces an increased dissociation constant (Kd) due to the energy barrier of the complementary duplex. We reported a competitive hybridization mechanism to modulate the binding affinity of an ACD to a target adenosine. Using the computation-guided design, we calculated the aptamer folding energy for the duplex length from 11-nt to 15-nt, and experimentally measured increased apparent Kd values resulted from these extended duplexes. Using a set of strands to compete with the ACD hybridization, it reduced the aptamer folding energy to facilitate aptamer switches with decreased apparent Kd values ranging from over 400 μM without a competing strand to ∼30 μM with a competing strand. This competitive aptamer switch was also found sensitive to single-nucleotide mutations of a competing strand. Our work provides an approach to modulate the binding affinity and the sensitivity of aptamer-complement duplexes, which could be useful in the nucleic acids-based sensing and nanomedicine.

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CiteScore
3.50
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