Project description:Background Microorganisms adapt their transcriptome by integrating multiple chemical and physical signals from their environment. Shake-flask cultivation does not allow precise manipulation of individual culture parameters and therefore precludes a quantitative analysis of the (combinatorial) influence of these parameters on transcriptional regulation. Steady-state chemostat cultures, which do enable accurate control, measurement and manipulation of individual cultivation parameters (e.g. specific growth rate, temperature, identity of the growth-limiting nutrient) appear to provide a promising experimental platform for such a combinatorial analysis. Results A microarray compendium of 170 steady-state chemostat cultures of the yeast Saccharomyces cerevisiae is presented and analyzed. The 170 microarrays encompass 55 unique conditions, which can be characterized by the combined settings of 10 different cultivation parameters. By applying a regression model to assess the impact of (combinations of) cultivation parameters on the transcriptome, most S. cerevisiae genes were shown to be influenced by multiple cultivation parameters, and in many cases by combinatorial effects of cultivation parameters. The inclusion of these combinatorial effects in the regression model led to higher explained variance of the gene expression patterns and resulted in higher function enrichment in subsequent analysis. We further demonstrate the usefulness of the compendium and regression analysis for interpretation of shake-flask-based transcriptome studies and for guiding functional analysis of (uncharacterized) genes and pathways. Conclusions Modeling the combinatorial effects of environmental parameters on the transcriptome is crucial for understanding transcriptional regulation. Chemostat cultivation offers a powerful tool for such an approach. Keywords: chemostat steady state samples

Project description:HAC1 protein arrays

Project description:Saccharomyces cerevisiae chemostat steady state microarray compendium

Project description:The inhibitors hydroxymethylfurfural (HMF) and furfural were added to the feed-medium of carbon-limited anaerobic chemostat cultures. Samples were taken for transcriptome analysis at steady-state from cultures with inhibitors and without inhibitors.

Project description:RNA-seq of chemostat grown yeast (Y11335 BY4742 )

Project description:Chemostat expression data of amylase producing yeast Saccharomyces cerevisiae

Project description:Yeast FAIRE_BY4741 on Oligo Arrays

Project description:Addition of 3 new arrays made from carbon limited chemostat of CENPK113-7D and 3 new arrays made from aerobic carbon limited chemostat of CENPK113-7D Complmentary data to the data of the serie GSE1723. Experiment Overall Design: GSM108368, GSM 108369 and GSM108370 are biological replicates Experiment Overall Design: GSM108392, 108393, 108394 are biological replicates Experiment Overall Design: Complmentary data to the data of the serie GSE1723.

Project description:Two-dimensional transcriptome analysis in chemostat cultures of S. cerevisiae

Project description:Saccharomyces cerevisiae IMS0002 which, after metabolic and evolutionary engineering, ferments the pentose sugar arabinose. Glucose and arabinose-limited anaerobic chemostat cultures of IMS0002 and its non-evolved ancestor IMS0001 were subjected to transcriptome analysis to identify key genetic changes contributing to efficient arabinose utilization by strain IMS0002.