A new Markovian method for the prediction of phylogenetic trees has been developed earlier by the authors. Here, the method is illustrated and applied using mitochondrial DNA data for vertebrate species (and technicalities of the theory are avoided). Discussions include the sensitivity of the results to DNA alignment techniques and the inclusion of polytomy in tree structures. Several comparisons are made with tree structures in the literature which have been predicted using statistical techniques
<p>Posterior probabilities associated with major nodes are indicated in bold. Branch lengths represe...
This paper presents an exploratory analysis of the mitochondrial DNA (mtDNA) of 32 species in the su...
<p>The tree was constructed using the Maximum Likelihood method and pair-wise distances were calcula...
A new Markovian method for the prediction of phylogenetic trees has been developed earlier by the au...
A recently developed mathematical model for the analysis of phylogenetic trees is applied to compara...
Maximum likelihood methods are used to estimate the phylogenetic trees for a set of species. The pro...
Recently there has been renewed interest in phylogenetic inference methods based on phylogenetic inv...
This article is organized as follows: Section 2 opens with an introduction to the requisite terminol...
Molecular instruments are the most accurate methods in organisms ’ identification and characterizati...
Abstract: The probabilistic models used in the inference of phylogenetic trees from molecular data a...
(1) A mathematical theory for computing the probabilities of various nucleotide configurations is de...
The determination of evolutionary relationships is a fundamental problem in evolutionary biology. Ge...
The determination of evolutionary relationships is a fundamental problem in evolutionary biology. Ge...
<p>Twelve mitochondrial protein-coding genes (with the exception of <i>ND6</i>) were used for the ph...
Abstract—A phylogenetic or evolutionary tree is con-structed from a set of species or DNA sequences ...
<p>Posterior probabilities associated with major nodes are indicated in bold. Branch lengths represe...
This paper presents an exploratory analysis of the mitochondrial DNA (mtDNA) of 32 species in the su...
<p>The tree was constructed using the Maximum Likelihood method and pair-wise distances were calcula...
A new Markovian method for the prediction of phylogenetic trees has been developed earlier by the au...
A recently developed mathematical model for the analysis of phylogenetic trees is applied to compara...
Maximum likelihood methods are used to estimate the phylogenetic trees for a set of species. The pro...
Recently there has been renewed interest in phylogenetic inference methods based on phylogenetic inv...
This article is organized as follows: Section 2 opens with an introduction to the requisite terminol...
Molecular instruments are the most accurate methods in organisms ’ identification and characterizati...
Abstract: The probabilistic models used in the inference of phylogenetic trees from molecular data a...
(1) A mathematical theory for computing the probabilities of various nucleotide configurations is de...
The determination of evolutionary relationships is a fundamental problem in evolutionary biology. Ge...
The determination of evolutionary relationships is a fundamental problem in evolutionary biology. Ge...
<p>Twelve mitochondrial protein-coding genes (with the exception of <i>ND6</i>) were used for the ph...
Abstract—A phylogenetic or evolutionary tree is con-structed from a set of species or DNA sequences ...
<p>Posterior probabilities associated with major nodes are indicated in bold. Branch lengths represe...
This paper presents an exploratory analysis of the mitochondrial DNA (mtDNA) of 32 species in the su...
<p>The tree was constructed using the Maximum Likelihood method and pair-wise distances were calcula...