Genomic Exploration of the Hemiascomycetous Yeasts: 20. Evolution of gene redundancy compared to Saccharomyces cerevisiae

Genomic Exploration of the Hemiascomycetous Yeasts: 20. Evolution of gene redundancy compared to Saccharomyces cerevisiae

We have evaluated the degree of gene redundancy in the nuclear genomes of 13 hemiascomycetous yeast species. Saccharomyces cerevisiae singletons and gene families appear generally conserved in these species as singletons and families of similar size, respectively. Variations of the number of homolog...

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Veröffentlicht in:FEBS letters 2000-12, Vol.487 (1), p.122-133
Hauptverfasser: Llorente, Bertrand, Durrens, Pascal, Malpertuy, Alain, Aigle, Michel, Artiguenave, François, Blandin, Gaëlle, Bolotin-Fukuhara, Monique, Bon, Elisabeth, Brottier, Philippe, Casaregola, Serge, Dujon, Bernard, de Montigny, Jacky, Lépingle, Andrée, Neuvéglise, Cécile, Ozier-Kalogeropoulos, Odile, Potier, Serge, Saurin, William, Tekaia, Fredj, Toffano-Nioche, Claire, Wésolowski-Louvel, Micheline, Wincker, Patrick, Weissenbach, Jean, Souciet, Jean-Luc, Gaillardin, Claude
Format: Artikel
Sprache:eng
Schlagworte:
Ascomycota - genetics
Base Sequence
Cellular Biology
Conserved Sequence
Evolution, Molecular
Gene deletion
Gene duplication
Genes, Fungal
Genetic Variation
Genome evolution
Genome, Fungal
Life Sciences
Models, Genetic
Multigene Family
Orthologue
Paralogue
Saccharomyces cerevisiae - genetics
Telomere - genetics
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Zusammenfassung:We have evaluated the degree of gene redundancy in the nuclear genomes of 13 hemiascomycetous yeast species. Saccharomyces cerevisiae singletons and gene families appear generally conserved in these species as singletons and families of similar size, respectively. Variations of the number of homologues with respect to that expected affect from 7 to less than 24% of each genome. Since S. cerevisiae homologues represent the majority of the genes identified in the genomes studied, the overall degree of gene redundancy seems conserved across all species. This is best explained by a dynamic equilibrium resulting from numerous events of gene duplication and deletion rather than by a massive duplication event occurring in some lineages and not in others.
ISSN:0014-5793
1873-3468
DOI:10.1016/S0014-5793(00)02291-2