Mutations in the dimer interfaces of the dengue virus capsid protein affect structural stability and impair RNA-capsid interaction.

The dengue virus 2 capsid protein (DENV2C) plays a primary structural role in the protection of the viral genome and is crucial for nucleocapsid assembly. In this study, we generated single mutants of DENV2C at L50 and L54 residues of the α2 helix, which was shown to interfere with the integration of the capsid into lipid droplets, and at residues L81 and I88 located in the α4 helix, which was shown to affect viral assembly. We demonstrated that the oligomeric states of DENV2C and its mutants exist primarily in the dimeric state in solution. All single-point mutations introduced in DENV2C promoted reduction in protein stability, an effect that was more pronounced for the L81N and I88N mutants, but not protein unfolding. All the single-point mutations affected the ability of DEN2C to interact with RNA. We concluded that mutations in the α2-α2' and α4-α4' dimer interfaces of DENV2C affect the structural stability of the protein and impair RNA-capsid interaction. These effects were more pronounced for mutations at the L81 and I88 residues in the α4 helix. These results indicate the importance of the α4-α4' dimer interface, which could be studied as a potential target for drug design in the future.