Phylogenomics aims to infer the evolutionary relationships of organisms, and their genomes, genes, and proteins, from genomic data. Understanding the evolution of these components can provide clues about their biological functions. Here we describe minimal protocols for inferring families of genes (and the proteins they encode), and using them in phylogenomic analyses to infer species trees
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The branching pattern of ancestor–descendant relationships among “taxa” (eg, species or their genes)...
Phylogenomics aims to infer the evolutionary relationships of organisms, and their genomes, genes, a...
The genomic era has been transformative for many fields, including our understanding of the phylogen...
Els fongs són el grup d'espècies eucariotes amb un major nombre de genomes completament seqüenciats....
Our ability to predict gene function for newly sequenced fungal genomes is based to a large extent o...
Phylogenomic studies using genome-scale amounts of data have greatly improved understanding of the t...
Historically, fungal multigene phylogenies have been reconstructed based on a small number of common...
The kingdom Fungi comprises species that inhabit nearly all ecosystems. Fungi exist as both free-liv...
We have used three independent phylogenomic approaches (concatenated alignments, single-, and multi-...
Fungi are possibly the most diverse eukaryotic kingdom, with over a million member species and an ev...
Fungi belong to one of the largest and most diverse kingdoms of living organisms. The evolutionary k...
fungal comparative genomics; phylogenomics; evolution; fungal tree of life. Our understanding of the...
Historically, fungal multigene phylogenies have been reconstructed based on a small number of common...
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The branching pattern of ancestor–descendant relationships among “taxa” (eg, species or their genes)...
Phylogenomics aims to infer the evolutionary relationships of organisms, and their genomes, genes, a...
The genomic era has been transformative for many fields, including our understanding of the phylogen...
Els fongs són el grup d'espècies eucariotes amb un major nombre de genomes completament seqüenciats....
Our ability to predict gene function for newly sequenced fungal genomes is based to a large extent o...
Phylogenomic studies using genome-scale amounts of data have greatly improved understanding of the t...
Historically, fungal multigene phylogenies have been reconstructed based on a small number of common...
The kingdom Fungi comprises species that inhabit nearly all ecosystems. Fungi exist as both free-liv...
We have used three independent phylogenomic approaches (concatenated alignments, single-, and multi-...
Fungi are possibly the most diverse eukaryotic kingdom, with over a million member species and an ev...
Fungi belong to one of the largest and most diverse kingdoms of living organisms. The evolutionary k...
fungal comparative genomics; phylogenomics; evolution; fungal tree of life. Our understanding of the...
Historically, fungal multigene phylogenies have been reconstructed based on a small number of common...
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sc...
The branching pattern of ancestor–descendant relationships among “taxa” (eg, species or their genes)...