Motivation: We compare phylogenetic approaches for inferring functional gene links. The approaches detect independent instances of the correlated gain and loss of pairs of genes from species' genomes. We investigate the effect on results of basing evidence of correlations on two phylogenetic approaches, Dollo parsminony and maximum likelihood (ML). We further examine the effect of constraining the ML model by fixing the rate of gene gain at a low value, rather than estimating it from the data. Results: We detect correlated evolution among a test set of pairs of yeast (Saccharomyces cerevisiae) genes, with a case study of 21 eukaryotic genomes and test data derived from known yeast protein complexes. If the rate at which genes are gained is ...
© 2006 The authors. This article is published under the Creative Commons Attribution By license. For...
Contains fulltext : 58412.pdf (publisher's version ) (Open Access)Differences betw...
The availability of diverse genomes makes it possible to predict gene function based on shared evolu...
Motivation: We compare phylogenetic approaches for inferring functional gene links. The approaches d...
An important element of the developing field of proteomics is to understand protein-protein interact...
An important element of the developing field of proteomics is to understand protein-protein interact...
Genes are functional units in organisms' genomes that are believed to play an important role in how ...
Abstract Background Functional constraint through genomic architecture is suggested to be an importa...
Evolutionary knowledge is often used to facilitate computational attempts at gene function predictio...
The complement of genes found in the genome is a balance between gene gain and gene loss. Knowledge ...
Evolutionary knowledge is often used to facilitate computational attempts at gene function predictio...
Comparing the genetic material, the genomes, of many diverse eukaryotes can help us to understand eu...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
The complement of genes found in the genome is a balance between gene gain and gene loss. Knowledge ...
One of the outstanding challenges in comparative genomics is to interpret the evolutionary importanc...
© 2006 The authors. This article is published under the Creative Commons Attribution By license. For...
Contains fulltext : 58412.pdf (publisher's version ) (Open Access)Differences betw...
The availability of diverse genomes makes it possible to predict gene function based on shared evolu...
Motivation: We compare phylogenetic approaches for inferring functional gene links. The approaches d...
An important element of the developing field of proteomics is to understand protein-protein interact...
An important element of the developing field of proteomics is to understand protein-protein interact...
Genes are functional units in organisms' genomes that are believed to play an important role in how ...
Abstract Background Functional constraint through genomic architecture is suggested to be an importa...
Evolutionary knowledge is often used to facilitate computational attempts at gene function predictio...
The complement of genes found in the genome is a balance between gene gain and gene loss. Knowledge ...
Evolutionary knowledge is often used to facilitate computational attempts at gene function predictio...
Comparing the genetic material, the genomes, of many diverse eukaryotes can help us to understand eu...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
The complement of genes found in the genome is a balance between gene gain and gene loss. Knowledge ...
One of the outstanding challenges in comparative genomics is to interpret the evolutionary importanc...
© 2006 The authors. This article is published under the Creative Commons Attribution By license. For...
Contains fulltext : 58412.pdf (publisher's version ) (Open Access)Differences betw...
The availability of diverse genomes makes it possible to predict gene function based on shared evolu...