Add to ORKGInfluenza A (H3N2) offers a well-studied, yet not fully understood, disease in terms of the interactions between pathogen population dynamics, epidemiology and genetics. A major open question is why the virus population is globally dominated by a single and very recently diverged (2-8 years) lineage. Classically, this has been modeled by limiting the generation of new successful antigenic variants, such that only a small subset of progeny acquire the necessary mutations to evade host immunity. An alternative approach was recently suggested by Recker et al. in which a limited number of antigenic variants are continuously generated, but most of these are suppressed by pre-existing host population immunity. Here we develop a framework spanning...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
ABSTRACT The seasonal influenza A virus undergoes rapid evolution to escape human immune response. A...
Influenza A (H3N2) offers a well-studied, yet not fully understood, disease in terms of the interact...
<div><p>Influenza A (H3N2) offers a well-studied, yet not fully understood, disease in terms of the ...
In this paper we explore the consequences of a heterogeneous immune response in individuals on the e...
Influenza viruses undergo continual antigenic evolution allowing mutant viruses to evade host immuni...
Abstract Background Since its emergence in 1968, infl...
Influenza viruses undergo continual antigenic evolution allowing mutant viruses to evade host immuni...
Seasonal influenza viruses create a persistent global disease burden by evolving to escape immunity ...
Most studies on seasonal influenza A/H3N2 virus adaptation have focused on the main antigenic gene, ...
Host-pathogen interactions, especially those involving RNA viruses and bacteria, are often character...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
Understanding the evolutionary dynamics of influenza A virus is central to its surveillance and cont...
It is commonly believed that influenza epidemics arise through the incremental accumulation of viral...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
ABSTRACT The seasonal influenza A virus undergoes rapid evolution to escape human immune response. A...
Influenza A (H3N2) offers a well-studied, yet not fully understood, disease in terms of the interact...
<div><p>Influenza A (H3N2) offers a well-studied, yet not fully understood, disease in terms of the ...
In this paper we explore the consequences of a heterogeneous immune response in individuals on the e...
Influenza viruses undergo continual antigenic evolution allowing mutant viruses to evade host immuni...
Abstract Background Since its emergence in 1968, infl...
Influenza viruses undergo continual antigenic evolution allowing mutant viruses to evade host immuni...
Seasonal influenza viruses create a persistent global disease burden by evolving to escape immunity ...
Most studies on seasonal influenza A/H3N2 virus adaptation have focused on the main antigenic gene, ...
Host-pathogen interactions, especially those involving RNA viruses and bacteria, are often character...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
Understanding the evolutionary dynamics of influenza A virus is central to its surveillance and cont...
It is commonly believed that influenza epidemics arise through the incremental accumulation of viral...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
ABSTRACT The seasonal influenza A virus undergoes rapid evolution to escape human immune response. A...