Epochal evolution shapes the phylodynamics of interpandemic influenza A (H3N2) in humans
- PMID: 17185596
- DOI: 10.1126/science.1132745
Epochal evolution shapes the phylodynamics of interpandemic influenza A (H3N2) in humans
Abstract
Human influenza A (subtype H3N2) is characterized genetically by the limited standing diversity of its hemagglutinin and antigenically by clusters that emerge and replace each other within 2 to 8 years. By introducing an epidemiological model that allows for differences between the genetic and antigenic properties of the virus's hemagglutinin, we show that these patterns can arise from cluster-specific immunity alone. Central to the formulation is a genotype-to-phenotype mapping, based on neutral networks, with antigenic phenotypes, not genotypes, determining the degree of strain cross-immunity. The model parsimoniously explains well-known, as well as previously unremarked, features of interpandemic influenza dynamics and evolution. It captures the observed boom-and-bust pattern of viral evolution, with periods of antigenic stasis during which genetic diversity grows, and with episodic contraction of this diversity during cluster transitions.
Comment in
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Epidemiology. Influenza escapes immunity along neutral networks.Science. 2006 Dec 22;314(5807):1884-6. doi: 10.1126/science.1137300. Science. 2006. PMID: 17185589 No abstract available.
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