首页|Influence of the leaving group on the mechanism of hydrolysis of organophosphorus compounds by phosphotriesterase from bacterium Pseudomonas diminuta
Influence of the leaving group on the mechanism of hydrolysis of organophosphorus compounds by phosphotriesterase from bacterium Pseudomonas diminuta
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NSTL
Springer Nature
Full-atom molecular models of the phosphotriesterase dimer from the Pseudomonas diminuta bacterium with organophosphorus compounds bearing good and poor leaving groups, dibutyl p-nitrophenyl phosphate and dibutyl phenyl phosphate, respectively, were constructed. Molecular dynamic simulations with combined quantum mechanics/molecular mechanics (QM/MM) potentials depicted differences in the properties of intermediates of the hydrolysis reaction with pentacoordinated phosphorus for these substrates. In the case of a substrate with the good leaving group, the bond between the phosphorus and oxygen atoms of the leaving group is weaker than that between the phosphorus and oxygen atoms of the nucleophilic hydroxide anion, which leads to an almost barrierless formation of the reaction products from the intermediate. For the substrate with the poor leaving group, an opposite pattern is observed, which favors the return of the system from the intermediate to reactants. These conclusions were made on the basis of an analysis of the distributions of bond lengths along the trajectories, as well as from an analysis of the maps of the Laplacian of electron density in the reaction region.
NSTL
Springer Nature
