Project description:We analyed the nucleosome positions by using 2 concentrations of micrococcal nuclease of yeast strains that were grown in raffinose and galactose containing media (synthetic complete).

Project description:Yeast lacking the H3 or H4 amino termini, and corresponding wild type strains, were grown in synthetic media. These conditions induce Gcn4-activated transcription. Experiment Overall Design: Three replicates of the H4del(2-26) and corresponding wild type strains, and four replicates of the H3del(1-28) and corresponding wild type strains, were performed. Note the strains are congenic, but differ in whether the histones were present on TRP1 marked (H4) or LEU2 marked (H3) plasmids. Samples were analysed using Affymetrix S98 microarrays.

Project description:Signal intensity data for rpd3 delete, H3delta(1-28), H3(K4,9,14,18,23,27Q), H4delta(2-26), H4(K5,8,12,16Q), rpd3 delete H3delta(1-28), and rpd3 delete H4(K5,8,12,16Q) yeast grown in rich (YPD) media Keywords = histones Keywords = chromatin Keywords = rpd3 Keywords = HDAC Keywords = histone deacetylase Keywords = yeast Keywords: other

Project description:Signal intensity data for rpd3 delete, H3delta(1-28), H3(K4,9,14,18,23,27Q), H4delta(2-26), H4(K5,8,12,16Q), rpd3 delete H3delta(1-28), and rpd3 delete H4(K5,8,12,16Q) yeast grown in rich (YPD) media

Project description:In this study we investigated the transcriptional response of the yeast Saccharomyces cerevisiae to potassium starvation. To this end yeast cells were grown for 60 min in media without potassium or in media with a standard potassium concnetration (50 mM KCl). Using Serial Analysis of Gene Expression (SAGE)-tag sequencing the effect of potassium starvation on the transcriptome was determined.

Project description:We analyed the nucleosome positions by using 2 concentrations of micrococcal nuclease of haploid yeast strains that were grown in galactose containing synthetic complete media. Strains contained AID-tags at the endogeous TOP1 and TOP2 genes. One strain contained OsTIR1 and these cells were either untreated or treated for 60 min with 500 uM auxin.

Project description:Iron is an essential cofactor for enzymes involved in numerous cellular processes. We analyzed the metabolomes and transcriptomes of yeast grown in iron-rich and iron-poor media to determine which biosynthetic processes are altered when iron availability falls.

Project description:We analyed the nucleosome positions by using 2 concentrations of micrococcal nuclease on yeast strains that were grown in raffinose or galactose containing media (synthetic complete). Strains contained FRB-tags to Sth1, Swi2, Sth1 & Swi2 or Sth1 and TBP, where TBP was tagged on one of two alleles in a diploid strain. Cells were treated for 60 min either with 7.5 uM rapamycin or the same volume of DMSO.

Project description:Yeast lacking the H3 or H4 amino termini, and corresponding wild type strains, were grown in synthetic media. These conditions induce Gcn4-activated transcription. Keywords: Genetic modification

Project description:Reprogramming a non-methylotrophic industrial host, such as Saccharomyces cerevisiae, to a synthetic methylotroph reprents a huge challenge due to the complex regulation in yeast. Through TMC strategy together with ALE strategy, we completed a strict synthetic methylotrophic yeast that could use methanol as the sole carbon source. However, how cells respond to methanol and remodel cellular metabolic network on methanol were not clear. Therefore, genome-scale transcriptional analysis was performed to unravel the cellular reprograming mechanisms underlying the improved growth phenotype.