High-throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and provides an opportunity to quantify the evolutionary dynamics of pathogens in near real-time. One difficulty of undertaking evolutionary analyses over short timescales is the dependency of the inferred evolutionary parameters on the timespan of observation. Crucially, there are an increasing number of molecular clock analyses using external evolutionary rate priors to infer evolutionary parameters. However, it is not clear which rate prior is appropriate for a given time window of observation due to the time-dependent nature of evolutionary rate estimates. Here, we characterize the molecular evolutionary dynamics of SARS-CoV-2 and 2009 pandemi...
Establishing the timeframe when a particular virus was circulating in a population could be useful i...
Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and h...
Monitoring changes in influenza A virus genomes is crucial to understand its rapid evolution and ada...
High throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
Estimating the rate of nucleotide and amino acid substitutions is fundamental to our understanding o...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Early characterization of the epidemiology and evolution of a pandemic is essential for determining ...
The ongoing SARS-CoV-2 outbreak marks the first time that large amounts of genome sequence data have...
Estimating viral timescales is fundamental in understanding the evolutionary biology of viruses. Mol...
Estimating the rate of molecular evolution over time is crucial for understanding the processes and ...
Various factors determine the rate at which mutations are generated and fixed in viral genomes. Vira...
<div><p>With the emergence of analytical software for the inference of viral evolution, a number of ...
Various factors determine the rate at which mutations are generated and fixed in viral genomes. Vira...
The swine-origin H1N1 influenza A pandemic virus (A(H1N1)pdm09) was detected in the human populatio...
Genome sequence data provide rich overlays of information on viral evolutionary history with wide te...
Establishing the timeframe when a particular virus was circulating in a population could be useful i...
Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and h...
Monitoring changes in influenza A virus genomes is crucial to understand its rapid evolution and ada...
High throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
Estimating the rate of nucleotide and amino acid substitutions is fundamental to our understanding o...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Early characterization of the epidemiology and evolution of a pandemic is essential for determining ...
The ongoing SARS-CoV-2 outbreak marks the first time that large amounts of genome sequence data have...
Estimating viral timescales is fundamental in understanding the evolutionary biology of viruses. Mol...
Estimating the rate of molecular evolution over time is crucial for understanding the processes and ...
Various factors determine the rate at which mutations are generated and fixed in viral genomes. Vira...
<div><p>With the emergence of analytical software for the inference of viral evolution, a number of ...
Various factors determine the rate at which mutations are generated and fixed in viral genomes. Vira...
The swine-origin H1N1 influenza A pandemic virus (A(H1N1)pdm09) was detected in the human populatio...
Genome sequence data provide rich overlays of information on viral evolutionary history with wide te...
Establishing the timeframe when a particular virus was circulating in a population could be useful i...
Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and h...
Monitoring changes in influenza A virus genomes is crucial to understand its rapid evolution and ada...