Detailed analysis of the genetic evolution of influenza virus during the course of an epidemic

A. LAVENU; M. LERUEZ-VILLE; M.-L. CHAIX; P.-Y. BOELLE; S. ROGEZ; F. FREYMUTH; A. HAY; C. ROUZIOUX; F. CARRAT

doi:10.1017/S0950268805005686

Abstract

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The genetic variability of influenza virus is usually studied with sequences selected over numerous years and countries, and rarely within a single season. Here we examined the viral evolution and the correlation between genetic and clinical features during an epidemic. From a French prospective household-based study in 1999–2000, 99 infected patients were randomly selected. The HA1 genomic domain was sequenced. Phylogenetic analysis showed the existence of two groups of A/H3N2 viruses. We found no distinct pattern of genomic evolution within either group according to time. A spatial correlation with the nucleotide distances was shown. The average nucleotide diversity was 3·4×10−3 nucleotides per site, and did not differ between the groups. A lower number of segregating sites was observed in patients who experienced influenza-like symptoms during the previous epidemic. These results suggest that the influenza virus undergoes regular HA1 nucleotide changes, but without clonal expansion of mutant strains within a single epidemic.

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Detailed analysis of the genetic evolution of influenza virus during the course of an epidemic

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