OrthologID: automation of genome-scale ortholog identification within a parsimony framework | Zendy

Joanna C. Chiu | Zendy; Ernest K. Lee | Zendy; Mary G. Egan | Zendy; Indra Neil Sarkar | Zendy; Gloria M. Coruzzi | Zendy; Rob DeSalle | Zendy

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OrthologID: automation of genome-scale ortholog identification within a parsimony framework

Author(s) -

Joanna C. Chiu,

Ernest K. Lee,

Mary G. Egan,

Indra Neil Sarkar,

Gloria M. Coruzzi,

Rob DeSalle

Publication year - 2006

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btk040

Subject(s) - biology , genome , orthologous gene , phylogenetic tree , computational biology , phylogenetics , gene , genetics , phylogenomics , synteny , comparative genomics , gene prediction , genomics , clade

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.

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