An assignment of colors to objects induces a natural integer weight on each tree that has these objects as leaves. This weight is called "parsimony length" in biostatistics, and is the basis of the "maximum parsimony" technique for reconstructing evolutionary trees. Equations for the average value (over all binary trees) of the parsimony length of both fixed and random colorations are derived using generating function techniques. This leads to asymptotic results that extend earlier results confined to just two colors. A potential application to DNA sequence analysis is outlined briefly
International audiencePhylogenetic networks are used to display the relationship among different spe...
Background: Phylogenetic networks are generalizations of phylogenetic trees, that are used to model ...
Abstract Background Phylogenetic networks are generalizations of phylogenetic trees, that are used t...
In phylogenetic analysis it is useful to study the distribution of parsimony length of a tree, under...
Abstract. Applying a method to reconstruct a phylogenetic tree from random data pro-vides a way to d...
<p>Maximum parsimony tree representing relatedness of DNA from the <i>msp2</i> gene of 91 pseudogene...
Abstract. Gene duplication and gene loss as well as other biological events can result in multiple c...
First published in BioConsensus, DIMACS Series in Discrete Mathematics and Theoretical Computer Scie...
Phylogenetics, the study of evolutionary relationships among species, bridges numerous disciplines,...
The maximum parsimony (MP) method for inferring phylogenies is widely used, but little is known abou...
Ever since Darwin’s first sketch of a phylogenetic tree, such trees are the model of choice for most...
Abstract. One of the core classical problems in computational biology is that of constructing the mo...
<p>(a) The phylogenetic tree. Node support is indicated with MP, NJ and ML bootstrap values and Baye...
Abstract. Phylogenetic networks are used to display the relationship of different species whose evol...
Phylogenetic networks are used to display the relationship among different species whose evolution i...
International audiencePhylogenetic networks are used to display the relationship among different spe...
Background: Phylogenetic networks are generalizations of phylogenetic trees, that are used to model ...
Abstract Background Phylogenetic networks are generalizations of phylogenetic trees, that are used t...
In phylogenetic analysis it is useful to study the distribution of parsimony length of a tree, under...
Abstract. Applying a method to reconstruct a phylogenetic tree from random data pro-vides a way to d...
<p>Maximum parsimony tree representing relatedness of DNA from the <i>msp2</i> gene of 91 pseudogene...
Abstract. Gene duplication and gene loss as well as other biological events can result in multiple c...
First published in BioConsensus, DIMACS Series in Discrete Mathematics and Theoretical Computer Scie...
Phylogenetics, the study of evolutionary relationships among species, bridges numerous disciplines,...
The maximum parsimony (MP) method for inferring phylogenies is widely used, but little is known abou...
Ever since Darwin’s first sketch of a phylogenetic tree, such trees are the model of choice for most...
Abstract. One of the core classical problems in computational biology is that of constructing the mo...
<p>(a) The phylogenetic tree. Node support is indicated with MP, NJ and ML bootstrap values and Baye...
Abstract. Phylogenetic networks are used to display the relationship of different species whose evol...
Phylogenetic networks are used to display the relationship among different species whose evolution i...
International audiencePhylogenetic networks are used to display the relationship among different spe...
Background: Phylogenetic networks are generalizations of phylogenetic trees, that are used to model ...
Abstract Background Phylogenetic networks are generalizations of phylogenetic trees, that are used t...