Abstract

Dengue virus (DENV) and Zika virus (ZIKV) are both positive sense single-stranded RNA viruses. They are packaged within the virion with a capsid (C) protein to form the nucleocapsid. Based on cryo-electron microscopy imaging, the nucleocapsid has been described as lacking symmetry, whilst there is distinguishable separation of the C proteins from the viral RNA (vRNA) genome. Here, to elucidate the architecture of the nucleocapsid of DENV serotype 2 and ZIKV, we used a nuclease digestion assay and next-generation sequencing to map the respective vRNA genome wide association with the C protein in vitro. The C protein exhibited non-uniform binding along the vRNA, and as C protein concentration increased, the normalized read counts also increased. A saturation point of 1:100 (vRNA:C protein monomers) was found, and binding regions showed variable saturation patterns. We also observed that C protein had a preference for G-rich sequences for both viruses. Taken together, we demonstrate that the DENV 2 and ZIKV C proteins bind vRNA in a non-uniform manner with distinct patterns of association.\n\nSingificance StatementOur study demonstrates that flavivirus capsid proteins associate with the viral genome at specific sites rather than in a uniform manner as commonly expected. We estimate the number of capsid proteins binding to a single genomic RNA. We proceed to locate the capsid binding sites along the viral genomes of Dengue and Zika viruses. We characterize the binding sites in terms of affinity and analyze the nucleotide composition and sequence motifs at binding sites. We cross-reference binding sites against SHAPE reactivity data corresponding to local RNA secondary structure, which allows us to identify structural motifs of capsid binding sites. As capsid proteins are essential for viral packaging, these interactions may form attractive targets for therapeutic intervention.