AbstractStochastic models that allow site substitutions, insertions, and deletions provide a useful framework for a statistical approach to DNA sequence evolution. Such a model, and recursions to calculate the probability of evolving two sequences, have been known for almost a decade. In this paper we show how the pairwise recursions can be generalised to a three-sequence tree, and more generally to an r-sequence star-shaped tree
Models of the evolution of DNA sequences typically assume that each position of the sequence evolves...
Models of DNA sequence evolution and methods for estimating evolutionary distances are needed for st...
AbstractThe statistical approach to DNA sequence evolution involves the stochastic modelling of the ...
Stochastic models that allow site substitutions, insertions, and deletions provide a useful framewor...
Stochastic models that allow site substitutions, insertions and deletions provide a useful framework...
AbstractStochastic models that allow site substitutions, insertions, and deletions provide a useful ...
Phylogenetics is the study of evolution of organisms. Evolution occurs due to mutations of DNA seque...
AbstractThe variations between homologous nucleotide sequences representative of various species are...
This paper studies gene trees in subdivided populations which are constructed as perfect phylogenies...
For a sequence of colors independently evolving on a tree under a simple Markov model, we consider c...
Motivation: A biological sequence usually has many sites whose evolution depends on other positions ...
Study of the evolution of species or organisms is essential for various biological applications. Evo...
The non-homogeneous model of nucleotide substitution proposed by Barry and Hartigan (Stat Sci, 2: 19...
Abstract—Under a stochastic model of molecular sequence evolution the probability of each possible p...
The historic relationship of species and genes are traditionally depicted using trees. However, not ...
Models of the evolution of DNA sequences typically assume that each position of the sequence evolves...
Models of DNA sequence evolution and methods for estimating evolutionary distances are needed for st...
AbstractThe statistical approach to DNA sequence evolution involves the stochastic modelling of the ...
Stochastic models that allow site substitutions, insertions, and deletions provide a useful framewor...
Stochastic models that allow site substitutions, insertions and deletions provide a useful framework...
AbstractStochastic models that allow site substitutions, insertions, and deletions provide a useful ...
Phylogenetics is the study of evolution of organisms. Evolution occurs due to mutations of DNA seque...
AbstractThe variations between homologous nucleotide sequences representative of various species are...
This paper studies gene trees in subdivided populations which are constructed as perfect phylogenies...
For a sequence of colors independently evolving on a tree under a simple Markov model, we consider c...
Motivation: A biological sequence usually has many sites whose evolution depends on other positions ...
Study of the evolution of species or organisms is essential for various biological applications. Evo...
The non-homogeneous model of nucleotide substitution proposed by Barry and Hartigan (Stat Sci, 2: 19...
Abstract—Under a stochastic model of molecular sequence evolution the probability of each possible p...
The historic relationship of species and genes are traditionally depicted using trees. However, not ...
Models of the evolution of DNA sequences typically assume that each position of the sequence evolves...
Models of DNA sequence evolution and methods for estimating evolutionary distances are needed for st...
AbstractThe statistical approach to DNA sequence evolution involves the stochastic modelling of the ...