AbstractEpidemic modeling of infectious diseases has a long history in both theoretical and empirical research. However the recent explosion of genetic data has revealed the rapid rate of evolution that many populations of infectious agents undergo and has underscored the need to consider both evolutionary and ecological processes on the same time scale. Mathematical epidemiology has applied dynamical models to study infectious epidemics, but these models have tended not to exploit – or take into account – evolutionary changes and their effect on the ecological processes and population dynamics of the infectious agent. On the other hand, statistical phylogenetics has increasingly been applied to the study of infectious agents. This approach...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Rapidly evolving pathogens, such as viruses and bacteria, accumulate genetic change at a similar tim...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
AbstractEpidemic modeling of infectious diseases has a long history in both theoretical and empirica...
Epidemic modeling of infectious diseases has a long history in both theoretical and empirical resear...
Phylodynamics has become an increasingly popular statistical framework to extract evolutionary and e...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
<p>In this dissertation, I present a general statistical framework for phylodynamic inference that c...
The recent years have witnessed a rapid increase in the quantity and quality of genomic data collec...
Phylogenetic trees can be used to study the evolution of any sequence that evolves, including viruse...
Phylodynamics requires an interdisciplinary understanding of phylogenetics, epidemiology, and statis...
Phylodynamics has become an increasingly popular statistical framework to extract evolutionary and e...
Phylogenies have been increasingly used in studying the spatial and temporal dynamics of infectious ...
Infectious diseases represent a substantial and growing burden on global public health. Bayesian phy...
In the last decade, the phylogenetic approach is recurrent in molecular evolutionary analysis. On 12...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Rapidly evolving pathogens, such as viruses and bacteria, accumulate genetic change at a similar tim...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
AbstractEpidemic modeling of infectious diseases has a long history in both theoretical and empirica...
Epidemic modeling of infectious diseases has a long history in both theoretical and empirical resear...
Phylodynamics has become an increasingly popular statistical framework to extract evolutionary and e...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
<p>In this dissertation, I present a general statistical framework for phylodynamic inference that c...
The recent years have witnessed a rapid increase in the quantity and quality of genomic data collec...
Phylogenetic trees can be used to study the evolution of any sequence that evolves, including viruse...
Phylodynamics requires an interdisciplinary understanding of phylogenetics, epidemiology, and statis...
Phylodynamics has become an increasingly popular statistical framework to extract evolutionary and e...
Phylogenies have been increasingly used in studying the spatial and temporal dynamics of infectious ...
Infectious diseases represent a substantial and growing burden on global public health. Bayesian phy...
In the last decade, the phylogenetic approach is recurrent in molecular evolutionary analysis. On 12...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Rapidly evolving pathogens, such as viruses and bacteria, accumulate genetic change at a similar tim...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...