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Genetic Basis of Ammonium Toxicity Resistance in a Sake Strain of Yeast: A Mendelian Case

Title: Genetic Basis of Ammonium Toxicity Resistance in a Sake Strain of Yeast: A Mendelian Case
Authors: Reisser, Cyrielle; Dick, Cynthia; Kruglyak, Leonid; Botstein, David; Schacherer, Joseph; Hess, David C
Source: G3: Genes, Genomes, Genetics, vol 3, iss 4
Publisher Information: eScholarship, University of California
Publication Year: 2013
Collection: University of California: eScholarship
Subject Terms: 31 Biological Sciences (for-2020); 3105 Genetics (for-2020); Genetics (rcdc); 0604 Genetics (for); 3101 Biochemistry and cell biology (for-2020); 4905 Statistics (for-2020)
Subject Geographic: 733 - 740
Description: High concentrations of ammonium at physiological concentrations of potassium are toxic for the standard laboratory strain of Saccharomyces cerevisiae In the original description of this metabolic phenotype, we focused on the standard laboratory strains of Saccharomyces In this study, we screened a large collection of S. cerevisiae natural isolates and identified one strain that is resistant to high concentrations of ammonium. This strain, K12, was isolated in sake breweries. When the K12 strain was crossed to the standard laboratory strain (FY4), the resulting tetrads displayed 2:2 segregation of the resistance phenotype, suggesting a single gene trait. Using a bulk segregant analysis strategy, we mapped this trait to a 150-kb region on chromosome X containing the TRK1 gene. This gene encodes a transporter required for high-affinity potassium transport in S. cerevisiae Data from reciprocal hemizygosity experiments with TRK1 deletion strains in K12 and BY backgrounds, as well as analysis of the deletion of this gene in the K12 strain, demonstrate that the K12 allele of TRK1 is responsible for ammonium toxicity resistance. Furthermore, we determined the minimal amount of potassium required for both the K12 and laboratory strain needed for growth. These results demonstrate that the gene encoded by the K12 allele of TRK1 has a greater affinity for potassium than the standard allele of TRK1 found in Saccharomyces strains. We hypothesize that this greater-affinity allele of the potassium transporter reduces the flux of ammonium into the yeast cells under conditions of ammonium toxicity. These findings further refine our understanding of ammonium toxicity in yeast and provide an example of using natural variation to understand cellular processes.
Document Type: article in journal/newspaper
File Description: application/pdf
Language: unknown
Relation: qt42x0k0pk; https://escholarship.org/uc/item/42x0k0pk; https://escholarship.org/content/qt42x0k0pk/qt42x0k0pk.pdf
DOI: 10.1534/g3.113.005884
Availability: https://escholarship.org/uc/item/42x0k0pk; https://escholarship.org/content/qt42x0k0pk/qt42x0k0pk.pdf; https://doi.org/10.1534/g3.113.005884
Rights: CC-BY
Accession Number: edsbas.67CEEC81
Database: BASE