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Creators/Authors contains:
"Zhou, Guangfeng"
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Zhou, Guangfeng; Rusnac, Domnita-Valeria; Park, Hahnbeom; Canzani, Daniele; Nguyen, Hai_Minh; Stewart, Lance; Bush, Matthew_F; Nguyen, Phuong_Tran; Wulff, Heike; Yarov-Yarovoy, Vladimir; et al (, Nature Communications)Abstract Structure-based virtual screening is a key tool in early drug discovery, with growing interest in the screening of multi-billion chemical compound libraries. However, the success of virtual screening crucially depends on the accuracy of the binding pose and binding affinity predicted by computational docking. Here we develop a highly accurate structure-based virtual screen method, RosettaVS, for predicting docking poses and binding affinities. Our approach outperforms other state-of-the-art methods on a wide range of benchmarks, partially due to our ability to model receptor flexibility. We incorporate this into a new open-source artificial intelligence accelerated virtual screening platform for drug discovery. Using this platform, we screen multi-billion compound libraries against two unrelated targets, a ubiquitin ligase target KLHDC2 and the human voltage-gated sodium channel NaV1.7. For both targets, we discover hit compounds, including seven hits (14% hit rate) to KLHDC2 and four hits (44% hit rate) to NaV1.7, all with single digit micromolar binding affinities. Screening in both cases is completed in less than seven days. Finally, a high resolution X-ray crystallographic structure validates the predicted docking pose for the KLHDC2 ligand complex, demonstrating the effectiveness of our method in lead discovery.more » « less
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Liang, Hai; Zhou, Guangfeng; Ge, Yunhui; D'Ambrosio, Elizabeth A.; Eidem, Tess M.; Blanchard, Catlyn; Shehatou, Cindy; Chatare, Vijay K.; Dunman, Paul M.; Valentine, Ann M.; et al (, Bioorganic & Medicinal Chemistry)
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Solinski, Amy E.; Koval, Alexander B.; Brzozowski, Richard S.; Morrison, Kelly R.; Fraboni, Americo J.; Carson, Carrie E.; Eshraghi, Anisa R.; Zhou, Guangfeng; Quivey, Robert G.; Voelz, Vincent A.; et al (, Journal of the American Chemical Society)
