Project description:The goal of the project was to study the response in transcription rates after 0.6M KCl addition genome wide. We used Genomic Run-On (GRO) experiment taking samples at 0, 8, 15, 30, and 45 minutes after salt addition in wild type and xrn1 mutant strains.
Project description:To determine the effects of inactivation of both the nosense-mediated mRNA decay pathway and the general 5' to 3' decay pathway on yeast mRNA decay, we compared the expression profiles of the wild-type, xrn1, xrn1 upf1, xrn1 nmd2, and xrn1 upf3 strains.
Project description:The goal of the project was to study the transcription rates and mRNA levels, genome-wide, in several mutants in Xrn1 defetive in nuclear import. We used Genomic Run-On (GRO) experiment in wild type and xrn1 mutant strains.
Project description:mRNA amount (RA) and Transcription rate (TR) analysis of W303-1a (wt) and hog1 mutant yeast strains growing in exponential phase in YPD subjected to osmotic stress This SuperSeries is composed of the SubSeries listed below.
Project description:mRNA amount (RA) and Transcription rate (TR) analysis of W303-1a (wt) and hog1 mutant yeast strains growing in exponential phase in YPD subjected to osmotic stress This SuperSeries is composed of the following subset Series: GSE13096: Transcription rate analysis of wild type strain subjected to osmotic stress GSE13097: mRNA amount analysis of wild type strain subjected to osmotic stress GSE13098: Transcription rate analysis of W303 hog1 mutant strain subjected to osmotic stress GSE13099: mRNA amount analysis of W303 hog1 mutant strain subjected to osmotic stress Refer to individual Series Transcriptomic and transcription rate analysis by means of GRO of three independent replicates the yeast strain growing in exponential phase. Each time point replicate has been hybridized on a different macroarray (F11-F24). A single DNA genomic hybridization from the same labeling reaction was done on the same microarrays for normalization.
Project description:To study the role of the exonuclease Xrn1 in gene expression dynamics under osmotic stress conditions, we performed RNA-seq in Xrn1-depleted cells. By using an auxin-inducible degron, we were able to study immediate effects of Xrn1 depletion in gene expression dynamics. Therefore, we could overcome experimental limitations associated to stable deletion mutants.
Project description:SWATH analysis of Yeast Proteome over time in response to Osmotic Stress. We sampled cell cultures in biological triplicates at six time points following the application of osmotic stress and acquired single injection DIA datasets on a high-resolution 5600 tripleTOF instrument operated in SWATH mode. Proteins were quantified by the targeted extraction and signal integration from the SWATH-MS datasets of peak groups representing proteotypic peptides for specific yeast proteins.
Project description:To define the translational landscape of Xrn1-sensitive lncRNAs in yeast, we performed Ribo-Seq in WT and upf1 mutant cells, in native conditions or upon treatment with translation elongation inhibitor (cycloheximide).
Project description:SWATH analysis of Yeast Proteome over time in response to Osmotic Stress. We sampled cell cultures in biological triplicates at six time points following the application of osmotic stress and acquired single injection DIA datasets on a high-resolution 5600 tripleTOF instrument operated in SWATH mode. Proteins were quantified by the targeted extraction and signal integration from the SWATH-MS datasets of peak groups representing proteotypic peptides for specific yeast proteins.
Project description:Transcription rate (TR) analysis of W303 hog1 mutant yeast strain growing in exponential phase in YPD subjected to osmotic stress Keywords: Time course