Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/8491

TitleComparative genomics of yeast strains isolated from diverse ecological niches unveils important genome diversity
Author(s)Eiriz, Maria Francisca
Carreto, Laura
Gomes, Ana Catarina
Pereira, Patrícia
Schuller, Dorit Elisabeth
Santos, Manuel A. S.
KeywordsGenome variability
Saccharomyces cerevisiae
Comparative genome hybridization
aCGH
Ty-element insertion
Intraspecific genome diversity
Issue date4-Nov-2008
JournalBMC Genomics
Citation"BMC Genomics". ISSN 14712164. 9 (Nov. 2008) 524.
Abstract(s)Background: Genome variability generates phenotypic heterogeneity and is of relevance for adaptation to environmental change, but the extent of such variability in natural populations is still poorly understood. For example, selected Saccharomyces cerevisiae strains are variable at the ploidy level, have gene amplifications, changes in chromosome copy number, and gross chromosomal rearrangements. This suggests that genome plasticity provides important genetic diversity upon which natural selection mechanisms can operate. Results: In this study, we have used wild-type S. cerevisiae (yeast) strains to investigate genome variation in natural and artificial environments. We have used comparative genome hybridization on array (aCGH) to characterize the genome variability of 16 yeast strains, of laboratory and commercial origin, isolated from vineyards and wine cellars, and from opportunistic human infections. Interestingly, sub-telomeric instability was associated with the clinical phenotype, while Ty element insertion regions determined genomic differences of natural wine fermentation strains. Copy number depletion of ASP3 and YRF1 genes was found in all wild-type strains. Other gene families involved in transmembrane transport, sugar and alcohol metabolism or drug resistance had copy number changes, which also distinguished wine from clinical isolates. Conclusion: We have isolated and genotyped more than 1000 yeast strains from natural environments and carried out an aCGH analysis of 16 strains representative of distinct genotype clusters. Important genomic variability was identified between these strains, in particular in subtelomeric regions and in Ty-element insertion sites, suggesting that this type of genome variability is the main source of genetic diversity in natural populations of yeast. The data highlights the usefulness of yeast as a model system to unravel intraspecific natural genome diversity and to elucidate how natural selection shapes the yeast genome.
TypeArticle
URIhttp://hdl.handle.net/1822/8491
Publisher versionhttp://www.biomedcentral.com/content/pdf/1471-2164-9-524.pdf
Peer-Reviewedyes
AccessOpen access
Appears in Collections:DBio - Artigos/Papers

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