A Pilot Study of All-Computational Drug Design Protocol-From Structure Prediction to Interaction Analysis

Speeding up the drug discovery process is of great significance. To achieve that, high-efficiency methods should be exploited. The conventional wet-bench methods hardly meet the high-speed demand due to time-consuming experiments. Conversely, approaches are much more efficient for drug discovery and...

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Bibliographic Details
Published in:Frontiers in chemistry 2020-02, Vol.8, p.81-81
Main Authors: Wu, Yifei, Lou, Lei, Xie, Zhong-Ru
Format: Article
Language:English
Subjects:
binding site prediction
Chemistry
computational drug discovery
ligand-protein docking
molecular dynamics simulation
SK2
structural prediction
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Summary:Speeding up the drug discovery process is of great significance. To achieve that, high-efficiency methods should be exploited. The conventional wet-bench methods hardly meet the high-speed demand due to time-consuming experiments. Conversely, approaches are much more efficient for drug discovery and design. However, approaches usually serve as a supportive role in research processes. To fully exert the strength of computational methods, we propose a protocol which integrates various approaches, from protein structure prediction to ligand-protein interaction simulation. As a proof of concept, human SK2/calmodulin complex was used as a target for validation. First, we obtained a predicted structure of SK2/calmodulin and predicted binding sites which were consistent with the literature data. Then we investigated the ligand-protein interaction via virtual mutagenesis, flexible docking, and binding affinity calculation. As a result, the binding energies of mutants have similar trends compared with the EC values ( = 0.6 for NS309 in V481 mutants). The results indicate that our protocol can be applied to the drug design of structure unknown proteins. Our study also demonstrates that the integration of approaches is feasible and it facilitates the acceleration of new drug discovery.
ISSN:2296-2646
2296-2646
DOI:10.3389/fchem.2020.00081