The ever increasing number of computer programs developed for phylogenetic research does not necessarily facilitate the construction of biologically relevant phylogenies. Regardless of the algorithm utilized by new software, the vast majority result in treelike graphs. We suggest that a new, more inclusive framework for phylogenetic studies needs to be developed, which includes trees as an alternative in the absence of conflicting signals in the sequence data set. Conflicts are caused by noisy phylogenetic signal deriving from hybridization, allopolyploidy and lateral gene transfer—biological processes that undermine the construction of simple dichotomic bifurcating graphs. A robust framework for determining biologically relevant phylogenet...
Relationships between species, genes and genomes have been printed as trees for over a century. Whil...
Building the Tree of Life (ToL) is a major challenge of modern biology, requiring advances in cyberi...
Phylogenetic analyses are central to many research areas in biology and typically involve the identi...
The ever increasing number of computer programs developed for phylogenetic research does not necessa...
Genomic data have had a profound impact on nearly every biological discipline. In systematics and ph...
Evolutionary trees have the assumption that evolution and phylogeny can be represented in a strictly...
The heterogeneity of signals in the genomes of diverse organisms poses challenges for traditional ph...
International audienceBACKGROUND: To effectively apply evolutionary concepts in genome-scale studies...
Background Comparative sequence analysis of the 16S rRNA gene is frequently used to characterize the...
This note outlines some of the key intellectual obstacles that stand in the way of creating a usable...
Recent studies suggested that network methods should supplant tree building as the basis of genealog...
Abstract Background The use of transcriptomic and gen...
Phylogenetic networks extend the phylogenetic tree structure and allow for modeling vertical and hor...
Interpretation of phylogenetic trees is fundamental in understanding the relationships between organ...
Should we build our own phylogenetic trees based on gene sequence data, or can we simply use availab...
Relationships between species, genes and genomes have been printed as trees for over a century. Whil...
Building the Tree of Life (ToL) is a major challenge of modern biology, requiring advances in cyberi...
Phylogenetic analyses are central to many research areas in biology and typically involve the identi...
The ever increasing number of computer programs developed for phylogenetic research does not necessa...
Genomic data have had a profound impact on nearly every biological discipline. In systematics and ph...
Evolutionary trees have the assumption that evolution and phylogeny can be represented in a strictly...
The heterogeneity of signals in the genomes of diverse organisms poses challenges for traditional ph...
International audienceBACKGROUND: To effectively apply evolutionary concepts in genome-scale studies...
Background Comparative sequence analysis of the 16S rRNA gene is frequently used to characterize the...
This note outlines some of the key intellectual obstacles that stand in the way of creating a usable...
Recent studies suggested that network methods should supplant tree building as the basis of genealog...
Abstract Background The use of transcriptomic and gen...
Phylogenetic networks extend the phylogenetic tree structure and allow for modeling vertical and hor...
Interpretation of phylogenetic trees is fundamental in understanding the relationships between organ...
Should we build our own phylogenetic trees based on gene sequence data, or can we simply use availab...
Relationships between species, genes and genomes have been printed as trees for over a century. Whil...
Building the Tree of Life (ToL) is a major challenge of modern biology, requiring advances in cyberi...
Phylogenetic analyses are central to many research areas in biology and typically involve the identi...