Project description:Effect of FLO8 or MSS11 deletion and -overexpression on yeast transcript profiles compared to wild type in laboratory yeast strains Σ1278b and S288c.
Project description:In this study, we used Saccharomyces cerevisiae to investigate the effects of GRX deletion on yeast chronological life span (CLS). Deletion of Grx1 or Grx2 shortened yeast CLS. Quantitative proteomics revealed that GRX deletion increased cellular ROS levels to activate Ras/PKA signal pathway. Our results provided new insights into mechanisms underlying aging process.
Project description:Changes in RNA levels during osmotic stress were investigated. Total RNA was extracted from a wild-type yeast strain before and after treatment with 0.4 M NaCl and the corresponding cDNAs were hybridazed on Tiling arrays. In particular, for all the intron-containing genes, the changes in the levels of intron signal in stressed cells related to the intron signal in the non-stressed cells, and the changes in the levels of exon signal in stresses cells related to the exon signal in non-stressed cells were investigated. The supplementary bar file contains the ratios between stress signals respect to non-stress signals, using the average of the 3 biological replicas.
Project description:New1 is not an essential gene but its deletion shows a cold-sensitive phenotype in yeast Saccharomyces cerevisiae. In this study, we compare the NEW1 knockout effect on translation using Ribo-Seq and RNA-Seq analyses.
Project description:We performed massive screening of the genes in yeast that were involved in the tolerance to isopropanol using the non-essential genes deleted yeast collection, and identified sixty-five disruptants that grew slower than the wild type strain in the presence of isopropanol. The isopropanol sensitive mutants were tested to know their behaviour under other alcohol stresses. Besides, we conducted microarray analysis to reveal the transcriptional response to isopropanol stress in yeast. Our results certainly provide new insights into yeast response to C3 alcohol isopropanol.