Estimating viral timescales is fundamental in understanding the evolutionary biology of viruses. Molecular clocks are widely used to reveal the recent evolutionary histories of viruses but may severely underestimate their longer-term origins because of the inverse correlation between inferred rates of evolution and the timescale of their measurement. Here, we provide a predictive mechanistic model that readily explains the rate decay phenomenon over a wide range of timescales and recapitulates the ubiquitous power-law rate decay with a slope of −0.65. We show that standard substitution models fail to correctly estimate divergence times once the most rapidly evolving sites saturate, typically after hundreds of years in RNA viruses and thousa...
Abstract. The study of rates of nucleotide substitution in RNA viruses is central to our understandi...
BACKGROUND: Genetic analyses of DNA sequences make use of an increasingly complex set of nucleotide ...
Double-stranded (ds) DNA viruses are often described as evolving through long-term codivergent assoc...
Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and h...
Estimating the rate of nucleotide and amino acid substitutions is fundamental to our understanding o...
Estimating the rate of molecular evolution over time is crucial for understanding the processes and ...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Precise dating of viral subtype divergence enables researchers to correlate divergence with geograph...
Precise dating of viral subtype divergence enables researchers to correlate divergence with geograph...
Teasing apart the evolutionary forces responsible for biological phenomena is difficult in the absen...
Genome sequence data provide rich overlays of information on viral evolutionary history with wide te...
High-throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
High throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
For over half a century, it has been known that the rate of morphological evolution appears to vary ...
The need to estimate divergence times in evolutionary histories in the presence of various sources o...
Abstract. The study of rates of nucleotide substitution in RNA viruses is central to our understandi...
BACKGROUND: Genetic analyses of DNA sequences make use of an increasingly complex set of nucleotide ...
Double-stranded (ds) DNA viruses are often described as evolving through long-term codivergent assoc...
Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and h...
Estimating the rate of nucleotide and amino acid substitutions is fundamental to our understanding o...
Estimating the rate of molecular evolution over time is crucial for understanding the processes and ...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Precise dating of viral subtype divergence enables researchers to correlate divergence with geograph...
Precise dating of viral subtype divergence enables researchers to correlate divergence with geograph...
Teasing apart the evolutionary forces responsible for biological phenomena is difficult in the absen...
Genome sequence data provide rich overlays of information on viral evolutionary history with wide te...
High-throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
High throughput sequencing enables rapid genome sequencing during infectious disease outbreaks and p...
For over half a century, it has been known that the rate of morphological evolution appears to vary ...
The need to estimate divergence times in evolutionary histories in the presence of various sources o...
Abstract. The study of rates of nucleotide substitution in RNA viruses is central to our understandi...
BACKGROUND: Genetic analyses of DNA sequences make use of an increasingly complex set of nucleotide ...
Double-stranded (ds) DNA viruses are often described as evolving through long-term codivergent assoc...