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Computational models reveal genotype-phenotype associations in Saccharomyces cerevisiae

Ricardo Franco-Duarte and Ines Mendes and Lan Umek and Joao Drumonde-Neves and Blaz Zupan and Dorit Schuller (2014) Computational models reveal genotype-phenotype associations in Saccharomyces cerevisiae. Yeast, 31 . pp. 265-277.

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    Abstract

    Genome sequencing is essential to understand individual variation and to study the mechanisms that explain relations between genotype and phenotype. The accumulated knowledge from large-scale genome sequencing projects of Saccharomyces cerevisiae isolates is being used to study the mechanisms that explain such relations. Our objective was to undertake genetic characterization of 172 S. cerevisiae strains from different geographical origins and technological groups, using 11 polymorphic microsatellites, and computationally relate these data with the results of 30 phenotypic tests. Genetic characterization revealed 280 alleles, with the microsatellite ScAAT1 contributing most to intrastrain variability, together with alleles 20, 9 and 16 from the microsatellites ScAAT4, ScAAT5 and ScAAT6. These microsatellite allelic profiles are characteristic for both the phenotype and origin of yeast strains. We confirm the strength of these associations by construction and cross-validation of computational models that can pre- dict the technological application and origin of a strain from the microsatellite allelic profile. Associations between microsatellites and specific phenotypes were scored using information gain ratios, and significant findings were confirmed by permutation tests and estimation of false discovery rates. The phenotypes associated with higher number of alleles were the capacity to resist to sulphur dioxide (tested by the capacity to grow in the presence of potassium bisulphite) and the presence of galactosidase activity. Our study demonstrates the utility of computational modelling to estimate a strain techno- logical group and phenotype from microsatellite allelic combinations as tools for pre- liminary yeast strain selection.

    Item Type: Article
    Keywords: microsatellite; phenotypic characterization; data mining
    Institution: University of Ljubljana
    Department: Faculty of Computer and Information Science
    Divisions: Faculty of Computer and Information Science > Bioinformatics Laboratory
    Item ID: 2865
    Date Deposited: 20 Nov 2014 10:20
    Last Modified: 29 Jan 2015 18:31
    URI: http://eprints.fri.uni-lj.si/id/eprint/2865

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