Studies involving sample source:Yeast cells

Study ID Study Title Species Institute
ST000156Yeast glycolysis in normoxia and hypoxia (150107_pfk2)YeastUniversity of Michigan
ST000162Yeast glycolysis in normoxia and hypoxia (150121_pkf2)YeastUniversity of Michigan
ST000243Metabolomic-based investigation on the effects of antifungal agents in Candida albicansCandida albicansUniversity of Florida
ST000868Untargeted metabolomic profile of oak and wine yeast strainsYeastWashington University in St. Louis
ST000870Untargeted metabolomic profile of Saccharomyces cerevisiae (F2) hybrids (part II)YeastWashington University in St. Louis
ST000871Untargeted metabolomic profile of reciprocal hemizygotes (oak/win hybrid, genes AUA1, ARG82) (part III)YeastWashington University in St. Louis
ST001318Atg32-mediated mitophagy promotes heat stress tolerance in Saccharomyces cerevisiae by sustaining spermidine and nitric oxide levelsYeastUniversity of California, Davis
ST001350Extraction of high-resolution Metabolomics data of the Yeast Metabolic CycleYeastUniversity of Florida
ST001401Steady-state metabolomics time course of Saccharomyces cerevisiae mitochondrial fatty acid synthesis (mtFAS) mutantsYeastUniversity of Utah
ST001609Comparative metabolomics analysis of two Saccharomyces cerevisiae strains: the wild type and mtl1Δ, which carries a deletion of the mechanosensor Mtl1p (part-I)YeastUniversity of Puerto Rico, Medical Sciences Campus
ST001612Comparative metabolomics analysis of two Saccharomyces cerevisiae strains: the wild type and mtl1Δ, which carries a deletion of the mechanosensor Mtl1p (part-II)YeastUniversity of Puerto Rico, Medical Sciences Campus
ST001658Control of Topoisomerase II Activity and Chemotherapeutic Inhibition by TCA Cycle MetabolitesYeastJohns Hopkins University
ST001786Multi-omics analysis of glucose-mediated signaling by a moonlighting Gβ protein Asc1/RACK1YeastUniversity of North Carolina at Chapel Hill
ST001901Mitochondrial-Derived Compartments Facilitate Cellular Adaptation to Amino Acid StressYeastUniversity of Utah School of Medicine
ST001954A pathogenic role for histone H3 copper reductase activity in a yeast model of Friedreich’s AtaxiaYeastUniversity of California, Los Angeles
ST001982Lipidomic characterization of Candida albicans in response to Aureobasidin treatment in vitro.Candida albicansUniversity of Malaya
ST002232Steady-state metabolomics Saccharomyces cerevisiae mitochondrial fatty acid synthesis (mtFAS) mutants and CTP1 overexpressionYeastUniversity of Utah
ST002392Candida albicans NMR exometabolomeCandida albicansBioaster
ST002478The effect of prions on cellular metabolism: The metabolic impact of the [RNQ+] prion and the native role of Rnq1pYeastCanterbury Christ Church University
ST002541Methionine restriction constrains lipoylation and activates mitochondria for nitrogenic synthesis of amino acids (Part 1)YeastZheJiang University
ST002542Methionine restriction constrains lipoylation and activates mitochondria for nitrogenic synthesis of amino acids (Part 2)Yeast ZheJiang University
ST002730Multi-Omics profiling of Candida albicans from agar plate and suspension mediaCandida albicansUniversity of Sharjah
ST003420Analysis of lipid composition of control, YPR114w and YJR116w yeast mutants grown under exponential phaseYeastUniversity of Cambridge

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