计算生物学
药物发现
化学
相扑蛋白
DNA
组合化学
寡核苷酸
纳米技术
配体(生物化学)
小分子
泛素
生物化学
生物
基因
受体
材料科学
作者
Yu Zhou,Chen Li,Jianzhao Peng,Liangxu Xie,Ling Meng,Qingrong Li,Jianfu Zhang,Xiang Li,Xiang Li,Xin Li,Xin Li,Xuhui Huang,Xiaoyu Li,Xiaoyu Li
摘要
Dynamic combinatorial library (DCL) has emerged as an efficient tool for ligand discovery and become an important discovery modality in biomedical research. However, the applications of DCLs have been significantly hampered by low library diversity and limited analytical methods capable of processing large libraries. Here, we report a strategy that has addressed this limitation and can select cooperatively binding small-molecule pairs from large-scale dynamic libraries. Our approach is based on DNA-mediated dynamic hybridization, DNA-encoding, and a photo-cross-linking-based decoding scheme. To demonstrate the generality and performance of this approach, a 10 000-member DNA-encoded dynamic library has been prepared and selected against six protein targets. Specific binders have been identified for each target, and we have validated the biological activities of selected ligands for the targets that are implicated in important cellular functions including protein deacetylation and sumoylation. Notably, a series of novel and selective sirtuin-3 inhibitors have been developed. Our study has circumvented a major obstacle in DCL and may provide a broadly applicable method for ligand discovery against biological targets.
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