Ding J~Bakalinsky AT, 2013

Pubmed ID 23828602
Title Acetic acid inhibits nutrient uptake in Saccharomyces cerevisiae: auxotrophy confounds the use of yeast deletion libraries for strain improvement.
Authors Jun Ding, Jan Bierma, Mark R Smith, Eric Poliner, Carole Wolfe, Alex N Hadduck, Severino Zara, Mallori Jirikovic, Kari van Zee, Michael H Penner, Jana Patton-Vogt, Alan T Bakalinsky
Abstract Acetic acid inhibition of yeast fermentation has a negative impact in several industrial processes. As an initial step in the construction of a Saccharomyces cerevisiae strain with increased tolerance for acetic acid, mutations conferring resistance were identified by screening a library of deletion mutants in a multiply auxotrophic genetic background. Of the 23 identified mutations, 11 were then introduced into a prototrophic laboratory strain for further evaluation. Because none of the 11 mutations was found to increase resistance in the prototrophic strain, potential interference by the auxotrophic mutations themselves was investigated. Mutants carrying single auxotrophic mutations were constructed and found to be more sensitive to growth inhibition by acetic acid than an otherwise isogenic prototrophic strain. At a concentration of 80 mM acetic acid at pH 4.8, the initial uptake of uracil, leucine, lysine, histidine, tryptophan, phosphate, and glucose was lower in the prototrophic strain than in a non-acetic acid-treated control. These findings are consistent with two mechanisms by which nutrient uptake may be inhibited. Intracellular adenosine triphosphate (ATP) levels were severely decreased upon acetic acid treatment, which likely slowed ATP-dependent proton symport, the major form of transport in yeast for nutrients other than glucose. In addition, the expression of genes encoding some nutrient transporters was repressed by acetic acid, including HXT1 and HXT3 that encode glucose transporters that operate by facilitated diffusion. These results illustrate how commonly used genetic markers in yeast deletion libraries complicate the effort to isolate strains with increased acetic acid resistance.
Citation Appl. Microbiol. Biotechnol. 2013; 97:7405-16

Datasets

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Paper Phenotype Condition Medium Collection Tested mutants Data Details
Ding J~Bakalinsky AT, 2013 growth (pooled CFU) acetic acid [122.5 mM] SD + His + Leu + Lys + Trp + Ura (pH 4.8) hap alpha 4,773 Discrete

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