In 2009, a swine-origin H1N1 influenza virus caused the first pandemic of the 21st century. To understand the molecular basis of pandemic influenza virus adaptation to new host species, we serially passaged the pandemic (H1N1) 2009 virus strain A/California/04/09 in mouse lungs. After ten passages, the virus became lethal to mice. We found eight amino acid differences between the wild-type and mouse-adapted viruses: one in PB1, three in PA, three in HA, and one in NP. By using reverse genetics to generate mutant viruses, we determined that the amino acid substitutions in PA (at positions 21 and 616), HA (at positions 127 and 222), and NP (at position 375) play independent roles in the increased pathogenicity in mice. Among these five substitutions, an aspartic acid-to-glutamic acid substitution at position 127 in HA contributed to efficient viral replication in mouse lungs. Our results suggest the importance of the viral polymerase complex and of HA in viral adaption to a new host.
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