Article ID Journal Published Year Pages File Type
443366 Journal of Molecular Graphics and Modelling 2013 7 Pages PDF
Abstract

•A “filter” for MP reversible inhibitor screening was setup.•Three reversible inhibitors of MP were found.•The mechanisms of reversible inhibition of MP and its three reversible inhibitors were clarified preliminary.•Give some insight into the reversible inhibitor studies for MP.

Marine alkaline protease (MP,2 accession no. ACY25898) is produced by a marine bacterium strain isolated from Yellow Sea sediment in China. Previous research has shown that this protease is a cold-adapted enzyme with antioxidant activity that could be used as a detergent additive. Owing to its instability in the liquid state, MP's application in liquid detergents was limited. Therefore, the discovery of reversible MP inhibitors to stabilize the protease was imperative. Here, we used the X-ray structure of MP and recompiled AutoDock 4.2 with refined Zn2+ characters to screen the free chemical database ZINC. After completing the docking procedure, we applied strategies including the “initial filter”, consensus scoring and pharmocophore model to accelerate the process and improve the virtual screening success rate. The “initial filter” was built based on the docking results of boronic acid derivatives validated as reversible inhibitors of MP by our previous studies. Finally, ten compounds were purchased or synthetized to test their binding affinity for MP. Three of the compounds could reversibly inhibit MP with apparent Ki values of 0.8–1.2 mmol. These active compounds and their binding modes provide useful information for understanding the molecular mechanism of reversible MP inhibition. The results may also serve as the foundation for further screening and design of reversible MP inhibitors.

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Related Topics
Physical Sciences and Engineering Chemistry Physical and Theoretical Chemistry
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