To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologically important regions. The host’s immune system responds by generating new memory cells recognizing the mutated viral strains. Despite recent advances in data collection and analysis, it remains conceptually unclear how epidemiology, immune response, and evolutionary factors interact to produce the observed speed of evolution and the incidence of infection. Here we establish a general and simple relationship between long-term cross-immunity, genetic diversity, speed of evolution, and incidence. We develop an analytic method fusing the standard epidemiological susceptible-infected-recovered approach and the modern virus evolution theory. The ...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...
Antigenic sites in viral pathogens exhibit distinctive evolutionary dynamics due to their role in ev...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
Measuring selective pressures shaping the evolution of viral populations is important for preventing...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
The evolution of viruses to escape prevailing host immunity involves selection at multiple integrati...
The evolution of viruses to escape prevailing host immunity involves selection at multiple integrati...
In this paper we explore the consequences of a heterogeneous immune response in individuals on the e...
The evolution of many microbes and pathogens, including circulating viruses such as seasonal influen...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...
Antigenic sites in viral pathogens exhibit distinctive evolutionary dynamics due to their role in ev...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
To escape immune recognition in previously infected hosts, viruses evolve genetically in immunologic...
Measuring selective pressures shaping the evolution of viral populations is important for preventing...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
We use a mathematical model to study the evolution of influenza A during the epidemic dynamics of a ...
The evolution of viruses to escape prevailing host immunity involves selection at multiple integrati...
The evolution of viruses to escape prevailing host immunity involves selection at multiple integrati...
In this paper we explore the consequences of a heterogeneous immune response in individuals on the e...
The evolution of many microbes and pathogens, including circulating viruses such as seasonal influen...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...
Antigenic sites in viral pathogens exhibit distinctive evolutionary dynamics due to their role in ev...
The enigmatic observation that the rapidly evolving influenza A (H3N2) virus exhibits, at any given ...