适体
化学
核糖核酸
计算生物学
小分子
细胞内
指数富集配体系统进化
功能多样性
生物化学
生物
分子生物学
基因
生态学
作者
Jun Li,Pingping Yao,Ke Tang,Xuyang Zhao,Xiyang Liu,Qinguo Liu,Tan Wei,Hong Xuan,Shumin Bian,Ying Guo,Zhenjun Yang,Zhi‐Qi Zhang,Liqin Zhang
摘要
Over the last 30 years, despite considerable research and endeavors aimed at harnessing aptamers as pharmaceutical molecules, the progress in developing aptamer-based drugs has been falling short of expectations. Sequential steps of affinity molecule acquisition and functional screening are typically required for discovering affinity-based macromolecule therapeutics, which can be time-consuming and limiting in candidate selection. Additionally, aptamers often necessitate tedious postselection modifications to overcome pharmacokinetic limitations, which usually impede the binding affinity. Herein, we propose a novel in vitro screening platform termed Functional Aptamers in vitro Evolution (FAIVE), which integrates affinity molecule acquisition with functional screening and introduces chemical diversity during the process. This platform aims to rapidly generate functional aptamers capable of binding to target proteins and regulating their functions. Illustrated by targeting intranuclear RNA-protein interactions involving HIV-1 Tat protein and TAR RNA, FAIVE demonstrates a selection of functional aptamers with significant intracellular blocking effects. The study also explores lipid nanoparticle delivery systems to enhance intracellular delivery efficiency, expanding aptamer targeting potential to broader intracellular and intranuclear domains. This study emphasizes the potential of FAIVE to expedite the development of aptamer-based drugs and facilitate the creation of more versatile and effective therapeutics.
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