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Molecular Mechanism of Phosphorylation-Mediated Impacts on the Conformation Dynamics of GTP-Bound KRAS Probed by GaMD Trajectory-Based Deep Learning

Jianzhong Chen, Jian Wang, Wanchun Yang, Lu Zhao, Juan Zhao, Guodong Hu

2024Molecules32 citationsDOIOpen Access PDF

Abstract

The phosphorylation of different sites produces a significant effect on the conformational dynamics of KRAS. Gaussian accelerated molecular dynamics (GaMD) simulations were combined with deep learning (DL) to explore the molecular mechanism of the phosphorylation-mediated effect on conformational dynamics of the GTP-bound KRAS. The DL finds that the switch domains are involved in obvious differences in conformation contacts and suggests that the switch domains play a key role in the function of KRAS. The analyses of free energy landscapes (FELs) reveal that the phosphorylation of pY32, pY64, and pY137 leads to more disordered states of the switch domains than the wild-type (WT) KRAS and induces conformational transformations between the closed and open states. The results from principal component analysis (PCA) indicate that principal motions PC1 and PC2 are responsible for the closed and open states of the phosphorylated KRAS. Interaction networks were analyzed and the results verify that the phosphorylation alters interactions of GTP and magnesium ion Mg2+ with the switch domains. It is concluded that the phosphorylation pY32, pY64, and pY137 tune the activity of KRAS through changing conformational dynamics and interactions of the switch domains. We anticipated that this work could provide theoretical aids for deeply understanding the function of KRAS.

Topics & Concepts

PhosphorylationMolecular dynamicsKRASGTP'Molecular switchFunction (biology)ChemistryBiophysicsDynamics (music)Phosphorylation cascadeCell biologyBiologyMutationBiochemistryProtein phosphorylationPhysicsGeneComputational chemistryMoleculeProtein kinase AEnzymeOrganic chemistryAcousticsIon channel regulation and functionNitric Oxide and Endothelin EffectsProtein Kinase Regulation and GTPase Signaling