Increased capsid oligomerization is deleterious to dengue virus particle production.

The capsid protein (C) of dengue virus is required for viral infectivity as it packages viral RNA genome into infectious particles. C exists as a homodimer that forms via hydrophobic interactions between the α2 and α4 helices of monomers. To identify C region(s) important for virus particle production, a complementation system was employed in which single-round infectious particles are generated by -encapsidation of a viral C-deleted genome by recombinant C expressed in mosquito cells.

Enhanced production of infectious particles by adaptive modulation of C-prM processing and C-C interaction during propagation of dengue pseudoinfectious virus in stable CprME-expressing cells.

Dengue virus assembly involves the encapsidation of genomic RNA by the capsid protein (C) and the acquisition of an envelope comprising the premembrane (prM) and envelope (E) glycoproteins. This rapid process, lacking in detectable nucleocapsid intermediates, may impose authentic C-prM-E arrangement as a prerequisite for efficient particle assembly. A mosquito cell-based complementation system was employed in this study to investigate the possibility that expression of the three structural proteins in allows the efficient production of a partially C-deleted dengue virus as compared to the presence of C alone.