The Genome-Packaging Signal of the Influenza A Virus Genome Comprises a Genome Incorporation Signal and a Genome-Bundling Signal

Abstract

The influenza A virus genome comprises eight single-stranded negative-sense RNA segments (vRNAs). All eight vRNAs are selectively packaged into each progeny virion via so-called segment-specific genome-packaging signal sequences that are located in the noncoding and terminal coding regions of both the 3' and the 5' ends of the vRNAs. However, it remains unclear how these signals ensure that eight different vRNAs are packaged. Here, by using a reverse genetics system, we demonstrated that, in the absence of the other seven vRNAs, a recombinant NP vRNA bearing only a reporter gene flanked by the noncoding NP regions was incorporated into virus-like particles (VLPs) as efficiently as a recombinant NP vRNA bearing the reporter gene flanked by the complete NP packaging signals (i.e., the noncoding sequences and the terminal coding regions). Viruses that comprised a recombinant NP vRNA whose packaging signal was disrupted, and the remaining seven authentic vRNAs, did not undergo multiple cycles of replication; however, a recombinant NP vRNA with only the noncoding regions was readily incorporated into VLPs, suggesting that the packaging signal as currently defined is not necessarily essential for the packaging of the vRNA in which it resides; rather, it is required for the packaging of the full set of vRNAs. We propose that the 3' and 5' noncoding regions of each vRNA bear a virion incorporation signal for that vRNA and that the terminal coding regions serve as a bundling signal that ensures the incorporation of the complete set of eight vRNAs into the virion.