BACKGROUND: Phylogenetic analysis of DNA from modern and ancient samples allows the reconstruction of important demographic and evolutionary processes. A critical component of these analyses is the estimation of evolutionary rates, which can be calibrated using information about the ages of the samples. However, the reliability of these rate estimates can be negatively affected by among-lineage rate variation and non-random sampling. Using a simulation study, we compared the performance of three phylogenetic methods for inferring evolutionary rates from time-structured data sets: regression of root-to-tip distances, least-squares dating, and Bayesian inference. We also applied these three methods to time-structured mitogenomic data sets fro...
Dating the divergence in a phylogenetic tree is a fundamental step in evolutionary analysis. Some ex...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Evolutionary processes, including selection, can be indirectly inferred based on patterns of genomic...
Abstract Background Phylogenetic analysis of DNA from modern and ancient samples allows the reconstr...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
In recent years, ancient DNA has increasingly been used for estimating molecular timescales, particu...
The increasing ability to extract and sequence DNA from non-contemporaneous tissue offers biologists...
Studies of molecular evolutionary rates have yielded a wide range of rate estimates for various gene...
This work aims to explore the use of genetic sequences sampled serially through time (heterochronous...
Ancient DNA has revolutionised our ability to study past evolutionary processes by enabling direct o...
Bayesian molecular dating is widely used to study evolutionary timescales. This procedure usually in...
Molecular dating of phylogenetic trees is a growing discipline using sequence data to co-estimate th...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Evolutionary and biogeographic studies increasingly rely on calibrated molecular clocks to date key ...
Dating the divergence in a phylogenetic tree is a fundamental step in evolutionary analysis. Some ex...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Evolutionary processes, including selection, can be indirectly inferred based on patterns of genomic...
Abstract Background Phylogenetic analysis of DNA from modern and ancient samples allows the reconstr...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
In recent years, ancient DNA has increasingly been used for estimating molecular timescales, particu...
The increasing ability to extract and sequence DNA from non-contemporaneous tissue offers biologists...
Studies of molecular evolutionary rates have yielded a wide range of rate estimates for various gene...
This work aims to explore the use of genetic sequences sampled serially through time (heterochronous...
Ancient DNA has revolutionised our ability to study past evolutionary processes by enabling direct o...
Bayesian molecular dating is widely used to study evolutionary timescales. This procedure usually in...
Molecular dating of phylogenetic trees is a growing discipline using sequence data to co-estimate th...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Evolutionary and biogeographic studies increasingly rely on calibrated molecular clocks to date key ...
Dating the divergence in a phylogenetic tree is a fundamental step in evolutionary analysis. Some ex...
Many factors complicate the estimation of time scales for phylogenetic histories, requiring increasi...
Evolutionary processes, including selection, can be indirectly inferred based on patterns of genomic...