Virology Journal (Sep 2009)

Genetic diversity and evolution of human metapneumovirus fusion protein over twenty years

  • Liem Alexis,
  • Chu Marla,
  • Lintao Linda D,
  • Piyaratna Rohith,
  • Tollefson Sharon J,
  • Wang Chiaoyin K,
  • Yang Chin-Fen,
  • Mark Mary,
  • Spaete Richard R,
  • Crowe James E,
  • Williams John V

DOI
https://doi.org/10.1186/1743-422X-6-138
Journal volume & issue
Vol. 6, no. 1
p. 138

Abstract

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Abstract Background Human metapneumovirus (HMPV) is an important cause of acute respiratory illness in children. We examined the diversity and molecular evolution of HMPV using 85 full-length F (fusion) gene sequences collected over a 20-year period. Results The F gene sequences fell into two major groups, each with two subgroups, which exhibited a mean of 96% identity by predicted amino acid sequences. Amino acid identity within and between subgroups was higher than nucleotide identity, suggesting structural or functional constraints on F protein diversity. There was minimal progressive drift over time, and the genetic lineages were stable over the 20-year period. Several canonical amino acid differences discriminated between major subgroups, and polymorphic variations tended to cluster in discrete regions. The estimated rate of mutation was 7.12 × 10-4 substitutions/site/year and the estimated time to most recent common HMPV ancestor was 97 years (95% likelihood range 66-194 years). Analysis suggested that HMPV diverged from avian metapneumovirus type C (AMPV-C) 269 years ago (95% likelihood range 106-382 years). Conclusion HMPV F protein remains conserved over decades. HMPV appears to have diverged from AMPV-C fairly recently.