[Different patterns of molecular evolution of influenza A viruses in avian and human population].

Patterns of molecular evolution of the influenza virus proteins and genes are discussed. The subsets of all viral genes corresponding to statistically significant clusters on dendrogram were shown to fall into two distinct groups. The first group was characterized by the presence of an exact linear relationship between the year of the strain isolation and the evolutionary distance. The subsets of human influenza virus genes belong to this group. A method for eliminating the "frozen" strains from the subsets and for calculating the evolutionary rates without construction of phylogenetic trees has been elaborated. The substitution rates calculated according to this technique agreed with the data obtained previously. A linear relationship was not observed in the second group. This group was predominantly composed of avian influenza virus genes. The lack of linear correlation pointed to the cocirculation of a large amount of different influenza virus genomic segments in the avian population. An approach for an examination of the role of intragenic recombination in the development of the antigenic subtypes of hemagglutinin is suggested. Our results suggest that recombination did not play a considerable role in this process, and that all modern subtypes of this protein were probably formed before the introduction of the influenza viruses into the human population. These findings are consistent with the hypothesis that influenza viruses penetrated into human population from their pools in avian populations.