| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1048338369 |
| P356 | DOI | 10.1186/1475-2859-9-82 |
| P932 | PMC publication ID | 2989305 |
| P698 | PubMed publication ID | 21047428 |
| P5875 | ResearchGate publication ID | 47675246 |
| P50 | author | Cândida Lucas | Q56037111 |
| Joana Tulha | Q61864303 | ||
| Célia Ferreira | Q56037110 | ||
| P2093 | author name string | Ana Lima | |
| P2860 | cites work | Fps1p controls the accumulation and release of the compatible solute glycerol in yeast osmoregulation | Q57247200 |
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| Osmoelastic coupling in biological structures: decrease in membrane fluidity and osmophobic association of phospholipid vesicles in response to osmotic stress | Q69352932 | ||
| Characterization of a glycerol/H+ symport in the halotolerant yeast Pichia sorbitophila | Q72197209 | ||
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| Contribution to the physiological characterization of glycerol active uptake in Saccharomyces cerevisiae | Q73940003 | ||
| Activation of the HOG pathway upon cold stress in Saccharomyces cerevisiae | Q83282152 | ||
| The transcriptional response of Saccharomyces cerevisiae to osmotic shock. Hot1p and Msn2p/Msn4p are required for the induction of subsets of high osmolarity glycerol pathway-dependent genes. | Q27932310 | ||
| Fps1p channel is the mediator of the major part of glycerol passive diffusion in Saccharomyces cerevisiae: artefacts and re-definitions. | Q27932366 | ||
| GUP1 and its close homologue GUP2, encoding multimembrane-spanning proteins involved in active glycerol uptake in Saccharomyces cerevisiae. | Q27933977 | ||
| Yeast adapt to near-freezing temperatures by STRE/Msn2,4-dependent induction of trehalose synthesis and certain molecular chaperones | Q27934443 | ||
| Glucose repression over Saccharomyces cerevisiae glycerol/H+ symporter gene STL1 is overcome by high temperature | Q27935863 | ||
| A member of the sugar transporter family, Stl1p is the glycerol/H+ symporter in Saccharomyces cerevisiae | Q27940125 | ||
| Progress in metabolic engineering of Saccharomyces cerevisiae | Q28757069 | ||
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| The freeze-thaw stress response of the yeast Saccharomyces cerevisiae is growth phase specific and is controlled by nutritional state via the RAS-cyclic AMP signal transduction pathway | Q39803112 | ||
| Role of growth phase and ethanol in freeze-thaw stress resistance of Saccharomyces cerevisiae. | Q39917900 | ||
| Roles of glycerol and glycerol-3-phosphate dehydrogenase (NAD+) in acquired osmotolerance of Saccharomyces cerevisiae. | Q39948045 | ||
| Fluidization of membrane lipids enhances the tolerance of Saccharomyces cerevisiae to freezing and salt stress | Q41823379 | ||
| The effect of osmotic pressure on the membrane fluidity of Saccharomyces cerevisiae at different physiological temperatures | Q43703838 | ||
| Intracellular glycerol influences resistance to freeze stress in Saccharomyces cerevisiae: analysis of a quadruple mutant in glycerol dehydrogenase genes and glycerol-enriched cells. | Q44883759 | ||
| Expression studies of GUP1 and GUP2, genes involved in glycerol active transport in Saccharomyces cerevisiae, using semi-quantitative RT-PCR. | Q44996361 | ||
| Deficiency in the glycerol channel Fps1p confers increased freeze tolerance to yeast cells: application of the fps1delta mutant to frozen dough technology. | Q44996385 | ||
| A downshift in temperature activates the high osmolarity glycerol (HOG) pathway, which determines freeze tolerance in Saccharomyces cerevisiae | Q46863312 | ||
| P921 | main subject | Saccharomyces cerevisiae | Q719725 |
| biotechnology | Q7108 | ||
| P304 | page(s) | 82 | |
| P577 | publication date | 2010-11-03 | |
| P1433 | published in | Microbial Cell Factories | Q15766995 |
| P1476 | title | Saccharomyces cerevisiae glycerol/H+ symporter Stl1p is essential for cold/near-freeze and freeze stress adaptation. A simple recipe with high biotechnological potential is given | |
| P478 | volume | 9 |
| Q36746945 | Alternative Glycerol Balance Strategies among Saccharomyces Species in Response to Winemaking Stress |
| Q36329657 | Alternative yeasts for winemaking: Saccharomyces non-cerevisiae and its hybrids. |
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| Q41901335 | Enhanced enzymatic activity of glycerol-3-phosphate dehydrogenase from the cryophilic Saccharomyces kudriavzevii |
| Q35984698 | Enhancement of the proline and nitric oxide synthetic pathway improves fermentation ability under multiple baking-associated stress conditions in industrial baker's yeast |
| Q39254926 | Functional relevance of water and glycerol channels in Saccharomyces cerevisiae. |
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| Q41345412 | Metabolic responses to Lactobacillus plantarum contamination or bacteriophage treatment in Saccharomyces cerevisiae using a GC-MS-based metabolomics approach |
| Q41086779 | Physiological and transcriptional responses of anaerobic chemostat cultures of Saccharomyces cerevisiae subjected to diurnal temperature cycles |
| Q93177178 | Proteins and RNA sequences required for the transition of the t-Utp complex into the SSU processome |
| Q51515780 | Role of CgHOG1 in Stress Responses and Glycerol Overproduction of Candida glycerinogenes. |
| Q50438382 | S. cerevisiae × S. eubayanus interspecific hybrid, the best of both worlds and beyond |
| Q38684261 | Sugar and Glycerol Transport in Saccharomyces cerevisiae |
| Q53619625 | The role of glycerol transporters in yeast cells in various physiological and stress conditions. |
| Q53621297 | Transcriptional response of Saccharomyces cerevisiae to low temperature during wine fermentation. |
| Q46272721 | Transcriptomic analysis of Saccharomyces cerevisiae x Saccharomyceskudriavzevii hybrids during low temperature winemaking. |
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