MOTIVATION: The determination of gene orthology is a prerequisite for mining and utilizing the rapidly increasing amount of sequence data for genome-scale phylogenetics and comparative genomic studies. Until now, most researchers use pairwise distance comparisons algorithms, such as BLAST, COG, RBH, RSD and INPARANOID, to determine gene orthology. In contrast, orthology determination within a character-based phylogenetic framework has not been utilized on a genomic scale owing to the lack of efficiency and automation. RESULTS: We have developed OrthologID, a Web application that automates the labor-intensive procedures of gene orthology determination within a character-based phylogenetic framework, thus making character-based orthology determination on a genomic scale possible. In addition to generating gene family trees and determining orthologous gene sets for complete genomes, OrthologID can also identify diagnostic characters that define each orthologous gene set, as well as diagnostic characters that are responsible for classifying query sequences from other genomes into specific orthology groups. The OrthologID database currently includes several complete plant genomes, including Arabidopsis thaliana, Oryza sativa, Populus trichocarpa, as well as a unicellular outgroup, Chlamydomonas reinhardtii. To improve the general utility of OrthologID beyond plant species, we plan to expand our sequence database to include the fully sequenced genomes of prokaryotes and other non-plant eukaryotes. AVAILABILITY: http://nypg.bio.nyu.edu/orthologid/
MOTIVATION: The determination of gene orthology is a prerequisite for mining and utilizing the rapidly increasing amount of sequence data for genome-scale phylogenetics and comparative genomic studies. Until now, most researchers use pairwise distance comparisons algorithms, such as BLAST, COG, RBH, RSD and INPARANOID, to determine gene orthology. In contrast, orthology determination within a character-based phylogenetic framework has not been utilized on a genomic scale owing to the lack of efficiency and automation. RESULTS: We have developed OrthologID, a Web application that automates the labor-intensive procedures of gene orthology determination within a character-based phylogenetic framework, thus making character-based orthology determination on a genomic scale possible. In addition to generating gene family trees and determining orthologous gene sets for complete genomes, OrthologID can also identify diagnostic characters that define each orthologous gene set, as well as diagnostic characters that are responsible for classifying query sequences from other genomes into specific orthology groups. The OrthologID database currently includes several complete plant genomes, including Arabidopsis thaliana, Oryza sativa, Populus trichocarpa, as well as a unicellular outgroup, Chlamydomonas reinhardtii. To improve the general utility of OrthologID beyond plant species, we plan to expand our sequence database to include the fully sequenced genomes of prokaryotes and other non-plant eukaryotes. AVAILABILITY: http://nypg.bio.nyu.edu/orthologid/
Authors: Sebastian Proost; Michiel Van Bel; Lieven Sterck; Kenny Billiau; Thomas Van Parys; Yves Van de Peer; Klaas Vandepoele Journal: Plant Cell Date: 2009-12-29 Impact factor: 11.277
Authors: Paul J Planet; Lorena Diaz; Sergios-Orestis Kolokotronis; Apurva Narechania; Jinnethe Reyes; Galen Xing; Sandra Rincon; Hannah Smith; Diana Panesso; Chanelle Ryan; Dylan P Smith; Manuel Guzman; Jeannete Zurita; Robert Sebra; Gintaras Deikus; Rathel L Nolan; Fred C Tenover; George M Weinstock; D Ashley Robinson; Cesar A Arias Journal: J Infect Dis Date: 2015-06-05 Impact factor: 5.226
Authors: Angélica Cibrián-Jaramillo; Jose E De la Torre-Bárcena; Ernest K Lee; Manpreet S Katari; Damon P Little; Dennis W Stevenson; Rob Martienssen; Gloria M Coruzzi; Rob DeSalle Journal: Genome Biol Evol Date: 2010-07-12 Impact factor: 3.416