The DFG motif at the beginning of the activation loop of the MAPK p38alpha undergoes a local structural reorganization upon binding of allosteric type-II and type-III inhibitors, which causes the residue F169 to move from a buried conformation (defined as DFG-in) to a solvent exposed conformation (defined as DFG-out). Although both experimental and computer simulation studies had been performed with the aim of unveiling the details of the DFG-in to DFG-out transition, the molecular mechanism is still far from being unequivocally depicted. Here, the accelerated molecular dynamics (AMD) technique has been applied to model the active loop flexibility of p38alpha and sample special protein conformations which can be accessible only in some conditions or time periods. Starting from the assumption of an experimentally known initial and final state of the protein, the study allowed the description of the interaction network and the structural intermediates which lead the protein to change its loop conformation and active site accessibility. Besides a few important hydrogen bond interactions, a primary role seems to be played by cation-pi interactions, involving the DFG-loop residue F(169), which participate in the stabilization of an intermediate conformation and in its consequent transition to the DFG-out conformation. From this study, insights which may prove useful for inhibitor design and/or site directed mutagenesis studies are derived.
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