Paper Report for: Benson_2014_J.Chem.Theory.Comput_10_5206
Reference
Title: Solvent Flux Method (SFM): A Case Study of Water Access to Candida antarctica Lipase B Benson SP, Pleiss J Ref: J Chem Theory Comput, 10:5206, 2014 : PubMed
The solvent flux method (SFM) was developed to comprehensively characterize the influx of solvent molecules from the solvent environment into the active site of a protein in the framework of molecular dynamics simulations. This was achieved by introducing a solvent concentration gradient as well as partially reorienting and rescaling the velocity vector of all solvent molecules contained within a spherical volume enclosing the protein, thus inducing an accelerated solvent influx toward the active site. In addition to the detection of solvent access pathway within the protein structure, it is hereby possible to identify potential amino acid positions relevant to solvent-related enzyme engineering with high statistical significance. The method is particularly aimed at improving the reverse hydrolysis reaction rates in nonaqueous media. Candida antarctica lipase B (CALB) binds to a triglyceride-water interface with its substrate entrance channel oriented toward the hydrophobic substrate interface. The lipase-triglyceride-water system served as a model system for SFM to evaluate the influx of water molecules to the active site. As a proof of principle for SFM, a previously known water access pathway in CALB was identified as the primary water channel. In addition, a secondary water channel and two pathways for water access which contribute to water leakage between the protein and the triglyceride-water interface were identified.
        
Related information
Citations formats
Benson SP, Pleiss J (2014) Solvent Flux Method (SFM): A Case Study of Water Access to Candida antarctica Lipase B J Chem Theory Comput10: 5206-14
Benson SP, Pleiss J (2014) J Chem Theory Comput10: 5206-14