RESUMEN
It is desirable for influenza vaccine virus strains to have phenotypes that include good growth and hemagglutinin (HA) protein yield. The quality of these characteristics varies among the vaccine viruses and is usually due to multigenic effects. Many influenza A virus vaccine viruses are made as reassortants of the high yield virus A/Puerto Rico/8/34 (PR/8) and a circulating seasonal virus. Co-infection of eggs with the two viruses, and selection of reassortants with the HA and neuraminidase (NA) segments from the seasonal virus, can result in viruses that contain a mixture of internal genes derived from both the high yield virus and the circulating virus. Segment 2 (PB1), which encodes the RNA-dependent RNA polymerase, frequently cosegregates with the seasonal HA and NA segments. We asked whether mutations based on the seasonal PB1 genes could improve vaccine virus strains. Here we report that mutations to the PR/8 PB1 gene, based on differences observed between seasonal and PR/8 PB1 genes, accelerate egg and cell culture based replication for a reassortant virus containing HA and NA segments from the low yield A/Wyoming/03/2003 (H3N2) vaccine virus.