Phylogenetic inference is generally performed on the basis of multiple sequence alignments (MSA). Because errors in an alignment can lead to errors in tree estimation, there is a strong interest in identifying and removing unreliable parts of the alignment. In recent years several automated filtering approaches have been proposed, but despite their popularity, a systematic and comprehensive comparison of different alignment filtering methods on real data has been lacking. Here, we extend and apply recently introduced phylogenetic tests of alignment accuracy on a large number of gene families and contrast the performance of unfiltered versus filtered alignments in the context of single-gene phylogeny reconstruction. Based on multiple genome-...
Aligning sequences for phylogenetic analysis (multiple sequence alignment; MSA) is an important, but...
Abstract Background While full genome sequences are still only available for a handful of taxa, larg...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
Phylogenetic inference is generally performed on the basis of multiple sequence alignments (MSA). Be...
Phylogenetic inference is generally performed on the basis of multiple sequence alignments (MSA). Be...
The classic methodology of inferring a phylogenetic tree from sequence data is composed of two steps...
Background The alignment of biological sequences is of chief importance to most evolutionary and co...
International audienceMultiple sequence alignment (MSA) is a prerequisite for most phylogenetic anal...
Background: While full genome sequences are still only available for a handful of taxa, large collec...
This dissertation consists of a study of the effects of multiple-alignment method on phylogenetic an...
Multiple sequence alignment (MSA) is the heart of comparative sequence analysis. Recent studies demo...
Multiple sequence aligners typically work by progressively aligning the most closely related sequenc...
Highly accurate estimation of phylogenetic trees for large datasets is difficult, in part because mu...
Abstract Background Multiple Sequence Alignments (MSAs) are the starting point of molecular evolutio...
Aligning sequences for phylogenetic analysis (multiple sequence alignment; MSA) is an important, but...
Abstract Background While full genome sequences are still only available for a handful of taxa, larg...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
Phylogenetic inference is generally performed on the basis of multiple sequence alignments (MSA). Be...
Phylogenetic inference is generally performed on the basis of multiple sequence alignments (MSA). Be...
The classic methodology of inferring a phylogenetic tree from sequence data is composed of two steps...
Background The alignment of biological sequences is of chief importance to most evolutionary and co...
International audienceMultiple sequence alignment (MSA) is a prerequisite for most phylogenetic anal...
Background: While full genome sequences are still only available for a handful of taxa, large collec...
This dissertation consists of a study of the effects of multiple-alignment method on phylogenetic an...
Multiple sequence alignment (MSA) is the heart of comparative sequence analysis. Recent studies demo...
Multiple sequence aligners typically work by progressively aligning the most closely related sequenc...
Highly accurate estimation of phylogenetic trees for large datasets is difficult, in part because mu...
Abstract Background Multiple Sequence Alignments (MSAs) are the starting point of molecular evolutio...
Aligning sequences for phylogenetic analysis (multiple sequence alignment; MSA) is an important, but...
Abstract Background While full genome sequences are still only available for a handful of taxa, larg...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...