Publication | Num. Conditions |
Brief Description | PubMed ID |
Barbara KE et al., 2007 | 12 | The transcription factor Gcr1 stimulates cell growth by participating in nutrient-responsive gene expression on a global level. (details) | 17124610 |
Simons V et al., 2006 | 12 | Dual effects of plant steroidal alkaloids on Saccharomyces cerevisiae. (details) | 16870766 |
Aragon AD et al., 2006 | 12 | Response of stationary phase cells to oxidative stress after RNAPII (rpb1-1) inactivation (details) | 16507144 |
Matsumoto R et al., 2005 | 12 | The stress response against denatured proteins in the deletion of cytosolic chaperones SSA1/2 is different from heat-shock response in Saccharomyces cerevisiae. (details) | 16209719 |
Chen JC et al., 2006 | 12 | Coordinate regulation of multiple and distinct biosynthetic pathways by TOR and PKA kinases in S. cerevisiae. (details) | 16397762 |
Gardner RG et al., 2005 | 12 | Degradation-mediated protein quality control in the nucleus. (details) | 15797381 |
Erlich RL et al., 2008 | 12 | Anc1, a protein associated with multiple transcription complexes, is involved in postreplication repair pathway in S. cerevisiae. (details) | 19005567 |
Abbott DA et al., 2008 | 12 | Physiological and transcriptional responses to high concentrations of lactic acid in anaerobic chemostat cultures of Saccharomyces cerevisiae. (details) | 18676708 |
Crosas E et al., 2015 | 12 | The yeast zeta-crystallin/NADPH:quinone oxidoreductase (Zta1p) is under nutritional control by the target of rapamycin pathway and is involved in the regulation of argininosuccinate lyase mRNA half-life. (details) | 25715111 |
Alhaj Sulaiman A et al., 2022 | 12 | The histone H2B Arg95 residue links the pheromone response pathway to rapamycin-induced G(1) arrest in yeast. (details) | 35705668 |
Hinkle KL et al., 2016 | 13 | Exposure to the lampricide 3-trifluoromethyl-4-nitrophenol results in increased expression of carbohydrate transporters in Saccharomyces cerevisiae. (details) | 26606276 |
Bloom-Ackermann Z et al., 2014 | 13 | A comprehensive tRNA deletion library unravels the genetic architecture of the tRNA pool. (details) | 24453985 |
de Kok S et al., 2011 | 13 | Increasing free-energy (ATP) conservation in maltose-grown Saccharomyces cerevisiae by expression of a heterologous maltose phosphorylase. (details) | 21684346 |
Aghajan M et al., 2010 | 13 | Chemical genetics screen for enhancers of rapamycin identifies a specific inhibitor of an SCF family E3 ubiquitin ligase. (details) | 20581845 |
Reyes LH et al., 2014 | 13 | Improving carotenoids production in yeast via adaptive laboratory evolution. (details) | 24262517 |
Leber JH et al., 2004 | 13 | Unfolded protein response andHAC1 transcription (details) | 15314654 |
Brauer MJ et al., 2005 | 13 | Diauxic shift time course (Batch1) (details) | 15758028 |
Haugen AC et al., 2004 | 13 | Role of transcription factors in adaptation to arsenic-induced stress (details) | 15575969 |
Cipollina C et al., 2008 | 13 | Steady-state expression in carbon-limited chemostat culture and after an anaerobic glucose pulse in an sfp1 deletion mutant; time course, 2 replicates (details) | 18524923 |
Cipollina C et al., 2008 | 13 | Steady-state expression in carbon-limited chemostat culture and after an anaerobic glucose pulse; time course, 2 replicates (details) | 18524923 |
van den Brink J et al., 2008 | 13 | New insights into the Saccharomyces cerevisiae fermentation switch: dynamic transcriptional response to anaerobicity and glucose-excess. (details) | 18304306 |
Benton MG et al., 2006 | 13 | Dose response to gamma radiation; 3 replicates (details) | 17140446 |
Pramila T et al., 2002 | 13 | Cell cycle-time course of a yox1 yhp1 double mutant, alpha factor synchronized (details) | 12464633 |
Pramila T et al., 2002 | 13 | Cell cycle-time course, alpha factor synchronized (details) | 12464633 |
Cary GA et al., 2015 | 14 | Proteomic Analysis of Dhh1 Complexes Reveals a Role for Hsp40 Chaperone Ydj1 in Yeast P-Body Assembly. (details) | 26392412 |
Nakamura T et al., 2014 | 14 | Identification of a gene, FMP21, whose expression levels are involved in thermotolerance in Saccharomyces cerevisiae. (details) | 25177541 |
Arana ME et al., 2012 | 14 | Transcriptional responses to loss of RNase H2 in Saccharomyces cerevisiae. (details) | 23079308 |
Ma M et al., 2010 | 14 | Comparative transcriptome profiling analyses during the lag phase uncover YAP1, PDR1, PDR3, RPN4, and HSF1 as key regulatory genes in genomic adaptation to the lignocellulose derived inhibitor HMF for Saccharomyces cerevisiae. (details) | 21106074 |
Mendes-Ferreira A et al., 2010 | 14 | Accumulation of non-superoxide anion reactive oxygen species mediates nitrogen-limited alcoholic fermentation by Saccharomyces cerevisiae. (details) | 20952643 |
Verwaal R et al., 2010 | 14 | Heterologous carotenoid production in Saccharomyces cerevisiae induces the pleiotropic drug resistance stress response. (details) | 20632327 |