化学
模块化设计
工作流程
药物发现
自动化
计算机科学
纳米技术
程序设计语言
数据库
生物化学
机械工程
工程类
材料科学
作者
Jiexuan Chen,Mingfei Wu,Jun Mo,Ju-Eun Hong,Wei Wang,Yuheng Jin,Xinfei Mao,Xiang Liao,Kailin Li,Xiaoli Yu,Sikang Chen,Shenxin Zeng,Wenhai Huang,Hongxia Xu,Jian Wu,Ji Cao,Yubo Zhou,Meidan Ying,Cheng‐Liang Zhu,Qiaojun He
标识
DOI:10.1021/acs.jmedchem.4c02438
摘要
The tedious synthesis and limited throughput biological evaluation remain a great challenge for discovering new proteolysis targeting chimera (PROTAC). To rapidly identify potential PROTAC lead compounds, we report a platform named Auto-RapTAC. Based on the modular characteristic of the PROTAC molecule, a streamlined workflow that integrates lab automation with "click chemistry" joint building-block libraries was constructed. This facilitates the autonomous generation of a variety of PROTACs, each with distinct linkers and E3 ligase ligands, all stored in biocompatible solutions. The ready-for-screening (R4S) approach, when paired with fluorescence-based assays, enables the efficient assessment of the PROTAC degradation activity in a high-throughput manner. To further test the capability of the platform, we identify six new PROTACs that target CDK2, CDK12, and BCL6 within a mere 8-day time frame for each target. In all, this platform could find broad application not only in discovering new PROTACs but also in the rapid development of novel heterobifunctional modalities.
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