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Predicting the structural basis of targeted protein degradation by integrating molecular dynamics simulations with structural mass spectrometry

Nat Commun. 2022-10; 
Tom Dixon, Derek MacPherson, Barmak Mostofian, Taras Dauzhenka, Samuel Lotz, Dwight McGee, Sharon Shechter, Utsab R Shrestha, Rafal Wiewiora, Zachary A McDargh, Fen Pei, Rajat Pal, João V Ribeiro, Tanner Wilkerson, Vipin Sachdeva, Ning Gao, Shourya Jain, Samuel Sparks, Yunxing Li, Alexander Vinitsky, Xin Zhang, Asghar M Razavi, István Kolossváry, Jason Imbriglio, Artem Evdokimov, Louise Bergeron, Wenchang Zhou, Jagat Adhikari, Benjamin Ruprecht, Alex Dickson, Huafeng Xu, Woody Sherman, Jesus A Izaguirre
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摘要

Targeted protein degradation (TPD) is a promising approach in drug discovery for degrading proteins implicated in diseases. A key step in this process is the formation of a ternary complex where a heterobifunctional molecule induces proximity of an E3 ligase to a protein of interest (POI), thus facilitating ubiquitin transfer to the POI. In this work, we characterize 3 steps in the TPD process. (1) We simulate the ternary complex formation of SMARCA2 bromodomain and VHL E3 ligase by combining hydrogen-deuterium exchange mass spectrometry with weighted ensemble molecular dynamics (MD). (2) We characterize the conformational heterogeneity of the ternary complex using Hamiltonian replica exchange simulations and s... More

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