Abstract
Molecular glues are powerful tools for the control of protein–protein interactions. Yet, the mechanisms underlying multi-component protein complex formation remain poorly understood. Native mass spectrometry (MS) detects multiple protein species simultaneously, providing an entry to elucidate these mechanisms. Here, for the first time, covalent molecular glue stabilization was kinetically investigated by combining native MS with biophysical and structural techniques. This approach elucidated the stoichiometry of a multi-component protein–ligand complex, the assembly order, and the contributions of covalent versus non-covalent binding events that govern molecular glue activity. Aldehyde-based molecular glue activity is initially regulated by cooperative non-covalent binding, followed by slow covalent ligation, further enhancing stabilization. This study provides a framework to investigate the mechanisms of covalent small molecule ligation and informs (covalent) molecular glue development.
Original language | English |
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Journal | Chemical Science |
Early online date | 31 May 2023 |
DOIs | |
Publication status | E-pub ahead of print - 31 May 2023 |
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Research data supporting the publication "Tracking the mechanism of covalent molecular glue stabilization using native mass spectrometry"
Kay, D. (Creator) & Leney, A. (Creator), University of Birmingham, 16 May 2023
DOI: https://doi.org/10.25500/edata.bham.00000951
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