Targeting intractable proteins remains a key challenge in drug discovery, as these proteins often lack well-defined binding pockets or possess shallow surfaces not readily addressed by traditional drug design. Covalent chemistry has emerged as a powerful solution for accessing protein sites in difficult to ligand regions. By leveraging activity-based protein profiling (ABPP) and LC-MS/MS technologies, academic groups and industry have identified cysteine-reactive ligands that enable selective targeting of challenging protein sites to modulate previously inaccessible biological pathways. Cysteines within a protein are rare, however, and developing covalent ligands that target additional residues hold great promise for further expanding the ligandable proteome. This review highlights recent advancements in targeting amino acids beyond cysteine binding with an emphasis on tyrosine- and lysine-directed covalent ligands and their applications in chemical biology and therapeutic development. We outline the process of developing covalent ligands using chemical proteomic methodology, highlighting recent successful examples and discuss considerations for future expansion to additional amino acid sites on proteins.
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Design, synthesis and biological evaluation of the activity-based probes for FGFR covalent inhibitorDandan Zhu, Zijian Zheng, Huixin Huang, Xiaojuan Chen, Shuhong Zhang, Zhuchu Chen, Ting Liu, Guangyu Xu, Ying Fu, Yongheng Chen, European Jo...
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DOI Ansgar Oberheide, Maxime van den Oetelaar, Jakob Scheele, Jan Borggräfe, Semmy Engelen, Michael Sattler, Christian Ottmann, ...
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Nafizul Haque Kazi, Nikolas Klink, Kai Gallant, Gian-Marvin Kipka & Malte Gersch Nat Struct Mol Biol , 2025 https://doi.org/10.1038/s415...
