Over the last decade, methods have been developed for the reconstruction of gene trees that take into account the species tree. Many of these methods have been based on the probabilistic duplication-loss model, which describes how a gene-tree evolves over a species-tree with respect to duplication and losses, as well as extension of this model, e.g., the DLRS (Duplication, Loss, Rate and Sequence evolution) model that also includes sequence evolution under relaxed molecular clock. A disjoint, almost as recent, and very important line of research has been focused on non protein-coding, but yet, functional DNA. For instance, DNA sequences being pseudogenes in the sense that they are not translated, may still be transcribed and the thereby pro...
Pseudogenes are defined as non-functional relatives of genes whose protein-coding abilities are lost...
Pseudogenes are fossil relatives of genes. Pseudogenes have long been thought of as "junk DNAs", sin...
Comparisons of gene trees and species trees are key to understanding major processes of genome evolu...
Evolution proceeds via gene duplication and modification; it is through their successive application...
Pseudogenes are relics of former genes that no longer possess biological functions. They are abundan...
Gene duplication is frequent within gene clusters and plays a fundamental role in evolution by provi...
Gene duplication is frequent within gene clusters and plays a fundamental role in evolution by provi...
Arising from either retrotransposition or genomic duplication of functional genes, pseudogenes are “...
A gene family tree is traditionally inferred from a multiple alignment of homologous sequences accor...
Gene duplication and loss are two evolutionary processes that occur across all three domains of life...
Arising from either retrotransposition or genomic duplication of functional genes, pseudogenes are "...
Gene duplication and loss is a dynamic and ongoing process during evolution and both play a signific...
International audienceThe discovery that pseudogenes are involved in important biological processes ...
A phylogenetic tree is used to model gene evolution and species evolution using molecular sequence d...
The historic relationship of species and genes are traditionally depicted using trees. However, not ...
Pseudogenes are defined as non-functional relatives of genes whose protein-coding abilities are lost...
Pseudogenes are fossil relatives of genes. Pseudogenes have long been thought of as "junk DNAs", sin...
Comparisons of gene trees and species trees are key to understanding major processes of genome evolu...
Evolution proceeds via gene duplication and modification; it is through their successive application...
Pseudogenes are relics of former genes that no longer possess biological functions. They are abundan...
Gene duplication is frequent within gene clusters and plays a fundamental role in evolution by provi...
Gene duplication is frequent within gene clusters and plays a fundamental role in evolution by provi...
Arising from either retrotransposition or genomic duplication of functional genes, pseudogenes are “...
A gene family tree is traditionally inferred from a multiple alignment of homologous sequences accor...
Gene duplication and loss are two evolutionary processes that occur across all three domains of life...
Arising from either retrotransposition or genomic duplication of functional genes, pseudogenes are "...
Gene duplication and loss is a dynamic and ongoing process during evolution and both play a signific...
International audienceThe discovery that pseudogenes are involved in important biological processes ...
A phylogenetic tree is used to model gene evolution and species evolution using molecular sequence d...
The historic relationship of species and genes are traditionally depicted using trees. However, not ...
Pseudogenes are defined as non-functional relatives of genes whose protein-coding abilities are lost...
Pseudogenes are fossil relatives of genes. Pseudogenes have long been thought of as "junk DNAs", sin...
Comparisons of gene trees and species trees are key to understanding major processes of genome evolu...