适体
指数富集配体系统进化
寡核苷酸
化学
二价(发动机)
小分子
结合位点
复式(建筑)
计算生物学
生物物理学
突变体
分子识别
碱基对
生物活性
合理设计
血浆蛋白结合
蛋白质工程
组合化学
分子结合
分子
细胞生物学
DNA
靶蛋白
结构-活动关系
基序列
生物
SELEX适体技术
结合选择性
生物化学
作者
Xi Zhang,Nan Zhang,Haojun Sun,Jing Sheng,Yiwei Li,Zhenhao Long,Xianjiao Ou,Dihua Shangguan
标识
DOI:10.1002/anie.202516203
摘要
Aptamers, single-stranded oligonucleotides selected via SELEX technology, exhibit high-affinity and selective binding to target molecules by folding into specific intramolecular tertiary structures. Importantly, aptamers can inhibit target biological functions when their binding disrupts the interaction between the target and its natural ligand. However, aptamers capable of activating target molecule functions remain rare. In this study, we performed molecular engineering on the c-MET aptamer HF3-58, previously identified as biologically inert. Through rational design, we successfully developed a series of bivalent double-stranded aptamers (BVDSApts) with enhanced c-MET binding, while their single-stranded counterparts failed to bind c-MET. By optimizing the central duplex length to 18, 20 and 22 base pairs (bp), these aptamers potently induced c-MET dimerization, phosphorylation, and downstream protein phosphorylation, while significantly enhancing cell migration and dispersion. The process of reconstructing biologically inert aptamers to obtain those with agonistic activity demonstrates that, with a thorough understanding of the binding mechanisms, it is possible to design new aptamers with novel functions through sequence engineering. Additionally, the BVDSApts obtained provide precursor molecules for the further development of HGF substitutes.
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