Background A birth and death process is frequently used for modeling the size of a gene family that may vary along the branches of a phylogenetic tree. Under the birth and death model, maximum likelihood methods have been developed to estimate the birth and death rate and the sizes of ancient gene families (numbers of gene copies at the internodes of the phylogenetic tree). This paper aims to provide a Bayesian approach for estimating parameters in the birth and death model. Results We develop a Bayesian approach for estimating the birth and death rate and other parameters in the birth and death model. In addition, a Bayesian hypothesis test is developed to identify the gene families that are unlikely under the birth and death process. S...
Bayesian statistics has been at the heart of phylogenetic inference over the last decade, particular...
Gene function annotation is important for a variety of downstream analyses of genetic data. But expe...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...
Motivation Inferring the rates of change of a population from a reconstructed phylogeny of genetic s...
Phylogenetic trees show the evolutionary relationships between individuals, populations or species a...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
Heterogeneous populations can lead to important differences in birth and death rates across a phylog...
The birth-death process has been used to study the evolution of a wide variety of biological entitie...
Thesis (Ph.D.)--University of Washington, 2021Phylogenetic trees are key objects for understanding e...
PublishedMotivation: Recent large-scale studies of individuals within a population have demonstrated...
Background: Phylogenetic birth-death models are opening a new window on the processes of genome evol...
In this chapter, we discuss recent advances in the field of Bayesian model testing and focus on meth...
Birth-death processes have given biologists a model-based framework to answer questions about change...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylogenetic trees describe the relationships between species in the evolutionary process, and provi...
Bayesian statistics has been at the heart of phylogenetic inference over the last decade, particular...
Gene function annotation is important for a variety of downstream analyses of genetic data. But expe...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...
Motivation Inferring the rates of change of a population from a reconstructed phylogeny of genetic s...
Phylogenetic trees show the evolutionary relationships between individuals, populations or species a...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
Heterogeneous populations can lead to important differences in birth and death rates across a phylog...
The birth-death process has been used to study the evolution of a wide variety of biological entitie...
Thesis (Ph.D.)--University of Washington, 2021Phylogenetic trees are key objects for understanding e...
PublishedMotivation: Recent large-scale studies of individuals within a population have demonstrated...
Background: Phylogenetic birth-death models are opening a new window on the processes of genome evol...
In this chapter, we discuss recent advances in the field of Bayesian model testing and focus on meth...
Birth-death processes have given biologists a model-based framework to answer questions about change...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylogenetic trees describe the relationships between species in the evolutionary process, and provi...
Bayesian statistics has been at the heart of phylogenetic inference over the last decade, particular...
Gene function annotation is important for a variety of downstream analyses of genetic data. But expe...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...