Electron microscopy of influenza A virus (IAV) and three-dimensional reconstruction of their interior by electron tomography, combined with genetic, biochemical and virology assays, has revealed that genome packaging of IAVs is a selective process, the molecular mechanisms of which start to be unveiled. The eight genomic viral RNAs (vRNAs) most likely form a supramolecular complex maintained by base-pairings within the strain-dependent packaging signals of each vRNA. Visualization of viral ribonucleoproteins inside cells also brought new insights about spatio-temporal assembly of the supramolecular complexes, prior to their incorporation into budding virions. Altogether, these data improve our understanding of the rules governing packaging of the IAV genome and offer clues for optimization of vaccine seeds production. Genetic reassortment events between different IAVs, which can lead to severe pandemics, are probably also affected by the rules that govern genome packaging.
Keywords: RNA/RNA interactions; influenza A virus; packaging; supramolecular complex.