| Publication | Num. Conditions |
Brief Description | PubMed ID |
| Chang M et al., 2013 | 1 | Rck1 up-regulates Hog1 activity by down-regulating Slt2 activity in Saccharomyces cerevisiae. (details) | 24051094 |
| Buhligen F et al., 2013 | 8 | Sustainability of industrial yeast serial repitching practice studied by gene expression and correlation analysis. (details) | 24060829 |
| Sha W et al., 2013 | 48 | The genome-wide early temporal response of Saccharomyces cerevisiae to oxidative stress induced by cumene hydroperoxide. (details) | 24073228 |
| O'Doherty PJ et al., 2013 | 6 | Transcriptomic insights into the molecular response of Saccharomyces cerevisiae to linoleic acid hydroperoxide. (details) | 24074273 |
| Brion C et al., 2013 | 56 | Differential adaptation to multi-stressed conditions of wine fermentation revealed by variations in yeast regulatory networks. (details) | 24094006 |
| Moreno-Cermeno A et al., 2013 | 6 | Metabolic remodeling in frataxin-deficient yeast is mediated by Cth2 and Adr1. (details) | 24100161 |
| Bessonov K et al., 2013 | 14 | Functional analyses of NSF1 in wine yeast using interconnected correlation clustering and molecular analyses. (details) | 24130853 |
| Licursi V et al., 2014 | 2 | The COP9 signalosome is involved in the regulation of lipid metabolism and of transition metals uptake in Saccharomyces cerevisiae. (details) | 24164706 |
| Montefusco DJ et al., 2013 | 21 | Distinct signaling roles of ceramide species in yeast revealed through systematic perturbation and systems biology analyses. (details) | 24170935 |
| Kang HJ et al., 2014 | 2 | A novel protein, Pho92, has a conserved YTH domain and regulates phosphate metabolism by decreasing the mRNA stability of PHO4 in Saccharomyces cerevisiae. (details) | 24206186 |
| Hou J et al., 2014 | 12 | Management of the endoplasmic reticulum stress by activation of the heat shock response in yeast. (details) | 24237754 |
| Santos-Pereira JM et al., 2013 | 6 | The Npl3 hnRNP prevents R-loop-mediated transcription-replication conflicts and genome instability. (details) | 24240235 |
| Reyes LH et al., 2014 | 13 | Improving carotenoids production in yeast via adaptive laboratory evolution. (details) | 24262517 |
| Kozak BU et al., 2014 | 12 | Replacement of the Saccharomyces cerevisiae acetyl-CoA synthetases by alternative pathways for cytosolic acetyl-CoA synthesis. (details) | 24269999 |
| Lenstra TL et al., 2013 | 22 | The role of Ctk1 kinase in termination of small non-coding RNAs. (details) | 24324601 |
| Brice C et al., 2014 | 16 | Assessing the mechanisms responsible for differences between nitrogen requirements of saccharomyces cerevisiae wine yeasts in alcoholic fermentation. (details) | 24334661 |
| Ask M et al., 2013 | 12 | Pulsed addition of HMF and furfural to batch-grown xylose-utilizing Saccharomyces cerevisiae results in different physiological responses in glucose and xylose consumption phase. (details) | 24341320 |
| Park D et al., 2013 | 12 | Widespread misinterpretable ChIP-seq bias in yeast. (details) | 24349523 |
| Cai Y et al., 2013 | 4 | Effects of the yeast RNA-binding protein Whi3 on the half-life and abundance of CLN3 mRNA and other targets. (details) | 24386402 |
| Hackmann A et al., 2014 | 6 | Quality control of spliced mRNAs requires the shuttling SR proteins Gbp2 and Hrb1. (details) | 24452287 |
| Bloom-Ackermann Z et al., 2014 | 13 | A comprehensive tRNA deletion library unravels the genetic architecture of the tRNA pool. (details) | 24453985 |
| Chumnanpuen P et al., 2013 | 33 | Integrated analysis, transcriptome-lipidome, reveals the effects of INO-level (INO2 and INO4) on lipid metabolism in yeast. (details) | 24456840 |
| Bisschops MM et al., 2014 | 11 | To divide or not to divide: a key role of Rim15 in calorie-restricted yeast cultures. (details) | 24487068 |
| Yamane-Sando Y et al., 2014 | 1 | Fpk1/2 kinases regulate cellular sphingoid long-chain base abundance and alter cellular resistance to LCB elevation or depletion. (details) | 24510621 |
| Stovicek V et al., 2014 | 18 | Global changes in gene expression associated with phenotypic switching of wild yeast. (details) | 24533484 |
| Saint M et al., 2014 | 14 | The TAF9 C-terminal conserved region domain is required for SAGA and TFIID promoter occupancy to promote transcriptional activation. (details) | 24550006 |
| Gaillard H et al., 2014 | 11 | Cleavage factor I links transcription termination to DNA damage response and genome integrity maintenance in Saccharomyces cerevisiae. (details) | 24603480 |
| Hasin N et al., 2014 | 4 | Global transcript and phenotypic analysis of yeast cells expressing Ssa1, Ssa2, Ssa3 or Ssa4 as sole source of cytosolic Hsp70-Ssa chaperone activity. (details) | 24628813 |
| Lu S et al., 2014 | 27 | The cohesin acetyltransferase Eco1 coordinates rDNA replication and transcription. (details) | 24631914 |
| Herrera-Moyano E et al., 2014 | 9 | The yeast and human FACT chromatin-reorganizing complexes solve R-loop-mediated transcription-replication conflicts. (details) | 24636987 |
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