Decarboxylation of orotidine 5'-monophosphate (Omp) to uridine 5'-monophosphate by orotidine 5'-monophosphate decarboxylase (ODCase) is currently the object of vivid debate. Here, we clarify its enzymatic activity with long time scale classical molecular dynamics and hybrid ab initio Car-Parrinello/molecular mechanics simulations. The lack of structural (experimental) information on the ground state of ODCase/Omp complex is overcome by a careful construction of the model and the analysis of three different strains of the enzyme. We find that the ODCase/substrate complex is characterized by a very stable charged network Omp-Lys-Asp-Lys-Asp, which is incompatible with the previously proposed direct decarboxylation driven by a ground-state destabilization. A direct decarboxylation induced by a transition-state electrostatic stabilization is consistent with our findings. The calculated activation free energy for the direct decarboxylation with the formation of a C6 carboanionic intermediate yields an overall rate enhancement by the enzyme (k(cat)/k(wat) = 3.5 x 10(16)) in agreement with experiments (k(cat)/k(wat) = 1.7 x 10(17)). The decarboxylation is accompanied by the movement of a fully conserved lysine residue toward the developing negative charge at the C6 position.
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