Abstract Background Eukaryotic whole genome sequences are accumulating at an impressive rate. Effective methods for comparing multiple whole eukaryotic genomes on a large scale are needed. Most attempted solutions involve the production of large scale alignments, and many of these require a high stringency pre-screen for putative orthologs in order to reduce the effective size of the dataset and provide a reasonably high but unknown fraction of correctly aligned homologous sites for comparison. As an alternative, highly efficient methods that do not require the pre-alignment of operationally defined orthologs are also being explored. Results A non-alignment method based on the Singular Value Decomposition (SVD) was used to compare the predi...
The genome of budding yeast (Saccharomyces cerevisiae) contains approximately 5800 protein-encoding ...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
AbstractThe fast-growing number of complete genome sequences prompts the development of new phylogen...
Background Eukaryotic whole genome sequences are accumulating at an impressive rate. Effective metho...
In [13] we reported the genome sequences of S. paradoxus, S. mikatae and S. bayanus and compared the...
Abstract Background Reconstructing the evolutionary history of organisms using traditional phylogene...
Resolving the relationships between Metazoa and other eukaryotic groups as well as between metazoan ...
<p><b>Copyright information:</b></p><p>Taken from "An SVD-based comparison of nine whole eukaryotic ...
Resolving the relationships between Metazoa and other eukaryotic groups as well as between metazoan ...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
The field of comparative genomics allows us to elucidate the molecular mechanisms necessary for the ...
In Kellis et al. (2003), we reported the genome sequences of S. paradoxus, S. mikatae and S. bayanus...
Insights into the evolution of ancestral complexes and pathways are generally achieved through caref...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
Phylogenies based on entire genomes are a powerful tool for reconstructing the Tree of Life. Several...
The genome of budding yeast (Saccharomyces cerevisiae) contains approximately 5800 protein-encoding ...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
AbstractThe fast-growing number of complete genome sequences prompts the development of new phylogen...
Background Eukaryotic whole genome sequences are accumulating at an impressive rate. Effective metho...
In [13] we reported the genome sequences of S. paradoxus, S. mikatae and S. bayanus and compared the...
Abstract Background Reconstructing the evolutionary history of organisms using traditional phylogene...
Resolving the relationships between Metazoa and other eukaryotic groups as well as between metazoan ...
<p><b>Copyright information:</b></p><p>Taken from "An SVD-based comparison of nine whole eukaryotic ...
Resolving the relationships between Metazoa and other eukaryotic groups as well as between metazoan ...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
The field of comparative genomics allows us to elucidate the molecular mechanisms necessary for the ...
In Kellis et al. (2003), we reported the genome sequences of S. paradoxus, S. mikatae and S. bayanus...
Insights into the evolution of ancestral complexes and pathways are generally achieved through caref...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
Phylogenies based on entire genomes are a powerful tool for reconstructing the Tree of Life. Several...
The genome of budding yeast (Saccharomyces cerevisiae) contains approximately 5800 protein-encoding ...
Gene duplication is a key mechanism in evolution for generating new functionality, and it is known t...
AbstractThe fast-growing number of complete genome sequences prompts the development of new phylogen...