OrthoFinder explained
OrthoFinder |
Author: | David Emms Steven Kelly |
Developer: | David Emms |
Released: | 2015 |
Programming Language: | Python |
Engines: | --> |
Operating System: | Linux |
Genre: | Bioinformatics |
License: | GNU GPL v3 |
OrthoFinder is a command-line software tool for comparative genomics.[1] [2] OrthoFinder determines the correspondence between genes in different organisms (also known as orthology analysis). This correspondence provides a framework for understanding the evolution of life on Earth, and enables the extrapolation and transfer of biological knowledge between organisms.
OrthoFinder takes FASTA files of protein sequences as input (one per species) and as output provides:
- Orthogroups
- Rooted Phylogenetic trees of all orthogroups
- A rooted species tree for the set of species included in the input dataset
- Hierarchical orthogroups for each node in the species tree
- Orthologs between all species
- Gene duplication events mapped to branches in the species tree
- Comparative genomic statistics
As of August 2021, the tool has been referenced by more than 1500 published studies.[3]
See also
References
- Emms. David M. Kelly Steven . 2015. OrthoFinder: solving fundamental biases in whole genome comparisons dramatically improves orthogroup inference accuracy. Genome Biology . 16 . 157. 157 . 26243257. 10.1186/s13059-015-0721-2. 4531804 . free .
- Emms. David M. Kelly Steven . 2019. OrthoFinder: phylogenetic orthology inference for comparative genomics. Genome Biology . 20 . 238. 238 . 31727128. 10.1186/s13059-019-1832-y. 6857279 . free .
- Web site: Citations for Emms & Kelly 2015. Google Scholar. 6 August 2021.