Project description:To test the role of Mpe1 in transcription termination we inserted a mini-auxin induced degron (mAID) at the C-terminal end of the endogenous MPE1 locus in the yeast Saccharomyces cerevisiae. We treated Mpe1-mAID cells (JRY101) or wild type cells (WT, YMK728) with 1 mM auxin for 30 minutes and labeled the nascent RNA with 4-thiouracil (4tU) for 6 minutes. The nascent RNA fraction was prepared by biotinylating the 4tU-labeled RNA followed purification with streptavidin beads. Nascent and total RNA fractions were depleted of ribosomal RNA and strand-specific libraries prepared. Libraries were single-end sequenced using an Ilummina HiSeq 4000 instrument.

Project description:Our structural and biochemical studies show that S. cerevisiae RNA Polymerase II (RNAPII) homodimerizes through the stalk domain (formed by the Rpb4-Rpb7 subunits). To explore the biological impact of disrupting this interaction we introduced a triple point mutation at the RNAPII dimerization interface in Rpb7 (Q96A, H97A, F109K). To test the impact of the dimerziation mutant on RNAPII occupancy, we performed ChIP-seq using a monoclonal antibody against the Rpb3 subunit (1Y26, abcam) of RNAPII, in WT and Rpb7-QHF cells.

Project description:During transcription initiation, the TFIIH-kinase Kin28/Cdk7 marks RNA polymerase II (Pol II) by phosphorylating the C-terminal domain (CTD) of its largest subunit. Here we describe a structure-guided chemical approach to covalently and specifically inactivate Kin28 kinase activity in vivo. This method of irreversible inactivation recapitulates both the lethal phenotype and the key molecular signatures that result from genetically disrupting Kin28 function in vivo. Inactivating Kin28 impacts promoter release to differing degrees and reveals a â??checkpointâ?? during the transition to productive elongation. While promoter-proximal pausing is not observed in budding yeast, inhibition of Kin28 attenuates elongation-licensing signals, resulting in Pol II accumulation at the +2 nucleosome and reduced transition to productive elongation. Furthermore, upon inhibition, global stabilization of mRNA masks different degrees of reduction in nascent transcription. This study resolves long-standing controversies on the role of Kin28 in transcription and provides a rational approach to irreversibly inhibit other kinases in vivo. Total RNA was collected from wild-type and analog-sensitive Kin28 strains treated with reversible inhibitor 1-NAPP-1, irreversible inhibitor CMK, and solvent control DMSO. Equivalent ratios of S. pombe : S. cerevisiae cells were added to each sample before RNA extraction for normalization of read counts after sequencing. Nascent RNA was purified from total RNA by 4-thiouracil labeling, biotinylation, and streptavidin-pulldown. As a negative control, nascent RNA was also extracted from total RNA from cells that had not been treated with 4-thiouracil.

Project description:Ribosome-footprint profiling provides genome-wide snapshots of translation, but technical challenges can confound its analysis. Here, we use improved methods to obtain ribosome-footprint profiles and mRNA abundances that more faithfully reflect gene expression in Saccharomyces cerevisiae. Our results support proposals that both the beginning of coding regions and codons matching rare tRNAs are more slowly translated. They also indicate that emergent polypeptides with as few as three basic residues within a 10-residue window tend to slow translation. With the improved mRNA measurements, the variation attributable to translational control in exponentially growing yeast was less than previously reported, and most of this variation could be predicted with a simple model that considered mRNA abundance, upstream open reading frames, cap-proximal structure and nucleotide composition, and lengths of the coding and 5'-untranslated regions. Collectively, our results provide a framework for executing and interpreting ribosome-profiling studies and reveal key features of translational control in yeast. Ribosome-footprint profiling and RNA-seq (total RNA, poly(A) selected, RiboMinus treated, or Ribo-Zero treated) from log-phase S. cerevisiae. The study includes a reanalysis of the two Samples from GSE53313. The reanalyzed data is linked to the Series record.

Project description:Goal: To define the digital transcriptome of three breast cancer subtypes (TNBC, Non-TNBC, and HER2-positive) using RNA-sequencing technology. To elucidate differentially expressed known and novel transcripts, alternatively spliced genes and differential isoforms and lastly expressed variants in our dataset. Method: Dr. Suzanne Fuqua (Baylor College of Medicine) provided the human breast cancer tissue RNA samples. All of the human samples were used in accordance with the IRB procedures of Baylor College of Medicine. The breast tumour types, TNBC, Non-TNBC and HER2-positive, were classified on the basis of immunohistochemical and RT-qPCR classification. Results: Comparative transcriptomic analyses elucidated differentially expressed transcripts between the three breast cancer groups, identifying several new modulators of breast cancer. We discovered subtype specific differentially spliced genes and splice isoforms not previously recognized in human transcriptome. Further, we showed that exon skip and intron retention are predominant splice events in breast cancer. In addition, we found that differential expression of primary transcripts and promoter switching are significantly deregulated in breast cancer compared to normal breast. We also report novel expressed variants, allelic prevalence and abundance, and coexpression with other variation, and splicing signatures. Additionally we describe novel SNPs and INDELs in cancer relevant genes with no prior reported association of point mutations with cancer mRNA profiles of 17 breast tumor samples of three different subtypes (TNBC, non-TNBC and HER2-positive) and normal human breast organoids (epithelium) samples (NBS) were sequenced using Illumina HiSeq.

Project description:RNA Pol II is a highly conserved and multisubunit protein complex composed of 12 different subunits. Rpb4 and Rpb7 are small subunits and uniquely present in RNA Pol II in eukaryotes. Rpb7 is essential and highly conserved protein among all eukaryotes. However, we have a limited understanding of the functions of Rpb7 subunit. Therefore, in the present study, we have used whole genome microarrays to compare the transcriptional response of S. pombe cells expressing low levels of rpb7+ with wild type cells.

Project description:Oxidative stress (OS) is caused by an imbalance between pro-oxidant and antioxidant reactions which leads to accumulation of reactive oxygen species (ROS) within cells. ROS can be harmful, due to their damaging effects on several cellular components, but are at the same time essential components of signaling cues. We investigate the effect of OS on the immediate early transcriptional response at a genomic level, by deep sequencing of nuclear and cytosolic RNA fractions, in in human fibroblasts treated for 30 or 120 minutes with sub-lethal doses of H2O2. In contrast to most of the protein-coding transcriptome, OS induces de novo transient transcription of thousands of previously uncharacterized genomic loci. We classify these stress induced long non coding RNAs (lncRNA) based on their genomic annotation and strand orientation relative to their nearest gene: distal, overlapping, terminal-associated or promoter-associated. The latter class of stress-induced promoter associated antisense lncRNAs (si-paancRNAs), is preferentially transcribed by PolII, which elongates from bidirectional promoters, enriched for specific transcription factor-binding sites (ZFP161, ZFX, MEF2A and divergent-FOS motives). Interestingly the associated sense-coding genes belong to specific functional categories (cellular response to stress and others). We finally demonstrate that a subset of si-paancRNAs associate better with the translation machinery, which is stalled, upon OS. Most studies to date have focused on the repertoire of lncRNAs present in physiological conditions. We here report the surprising result that thousands of lncRNAs are transcriptionally upregulated upon OS from specific loci possibly playing a role in physiological or pathological response to stress. RNA-Sequencing profiles of nuclear and cytosolic fractions of fibroblast cell lines after 0, 30 and 120 minutes of treatment with H2O2.

Project description:Int6/yin6 encodes the eIF3e subunits of the eukaryotic translation initiation factor 3 complex (eIF3). To assess the impact of eIF3e on the global transcriptome, RNA seq of total mRNA was performed. Total RNA was prepared from wildtype S. pombe (h- ura4-D18 leu1-32) and cells deleted for eif3e (int6, yin6, SPBC646.09c; h- int6::kanMX6 ura4-D18 leu1-32). Following rRNA depletion and library construction, samples were sequenced on the SOLID4 platform. Two replicates were analyzed and statistical analysis was performed to identify significant differences in mRNA levels.

Project description:In this study, we make used of mRNA-seq and its ability to reliably quantify isoforms, integrating this data with ribosome profiling and LC-MS/MS, to assign ribosome footprints and peptides at the isoform level. We leverage the principle that most cell types, and even tissues, predominantly express a single principal isoform to set isoform-level mRNA-seq quantifications as priors to guide and improve allocation of footprints or peptides to isoforms. Through tightly integrated mRNAseq, ribosome footprinting and/or LC-MS/MS proteomics we demonstrate that a principal isoform can be identified in over 80% of gene products in homogenous HEK293 cell culture and over 70% of proteins detected in complex human brain tissue. Defining isoforms in experiments with matched RNA-seq and translatomic/proteomic data increases the functional relevance of such datasets and will further broaden our understanding of multi-level control of gene expression. In this PRIDE submission you will find the raw files for the HEK293 cell proteomics. Files for the human brain proteomics can be found at PXD005445. We have also uploaded a zip file that contains the input files for our HEK293 cell analysis, and the isoform level output files – there is a separate folder within the zip files for these. The data used to create the manuscript figures is in the Rdata file. Code for assigning peptides and footprints to isoforms can be found on Github here: https://github.com/rkitchen/EMpire

Project description:adt12-01_uprt - plant rabt n°1 - Impact of RNA labeling by Plant RABT on plant transcriptome - Determine the incidence of RNA marking by the RABT method Plantation on the plants transcriptome. In several studies Clearly et al. have described a method referred as "4TU tagging" which can be use to study mRNA synthesis and decay either in a mixed population of cells or in a specific cell type (Cleary, Meiering et al. 2005, Zeiner, Cleary et al. 2008, Miller, Robinson et al. 2009, Rabani et al., 2011). Through the specific cell type expression in drosophila and mammalian cells of theToxoplasma gondii uracil PhosphoribosylTransferase activity and the metabolization of the uracil analog 4-thiouracil (4 TU), mRNA were selectively tagged, purified and used in microarray based analysis. 6 dye-swap - treated vs untreated comparison