GEO DataSets

(Submitter supplied) In budding yeast, the nuclear RNA surveillance system is active on all pre-mRNA transcripts and modulated by nutrient availability. To test the role of nuclear surveillance in reprograming gene expression, we identified transcriptome-wide binding sites for RNA polymerase II (Pol II) and the exosome cofactors Mtr4 (TRAMP complex) and Nab3 (NNS complex) by UV-crosslinking immediately following glucose withdrawal (0, 4, and 8 minutes). more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by high throughput sequencing; Other

Platform:

GPL13821

24 Samples

Download data: BEDGRAPH, BW

(Submitter supplied) RNAPII is responsible for transcription of protein-coding genes and short, regulatory RNAs. In Saccharomyces cerevisiae, termination of RNAPII-transcribed RNAs ≤1000 bases requires the NNS complex (comprised of Nrd1, Nab3, and Sen1) processing by the exosome, and the nuclear specific catalytic subunit, Rrp6. It has been shown that Rrp6 interacts directly with Nrd1, but whether or not Rrp6 is required for NNS-dependent termination is unclear. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by high throughput sequencing

Platform:

GPL18621

8 Samples

Download data: TXT

(Submitter supplied) The Ccr4-Not complex is a major regulator of stress responses that controls gene expression at multiple levels, from transcription to mRNA decay. Ccr4, a core subunit of the complex, is the main cytoplasmic deadenylase in Saccharomyces cerevisiae, however its mRNA targets have not been mapped on a genome-wide scale. Here we describe a genome-wide approach, RNA immunoprecipitation-high throughput sequencing (RIP-seq), to identify the RNAs bound to Ccr4, and two proteins that associate with it, Dhh1 and Puf5. more...

Organism:

Saccharomyces cerevisiae

Type:

Other

Platform:

GPL15263

14 Samples

Download data: TXT

(Submitter supplied) We report here the transcriptome-wide distribution of yeast Rpb2, Sen1, Nrd1 and Nab3 binding sites. These data sets provide highresolution definition of non-poly(A) terminators, identify novel genes regulated by attenuation of nascent transcripts close to the promoter, and demonstrate the widespread occurrence of Nrd1-bound 3'-antisense transcripts on genes that are poorly expressed. In addition, we show that Sen1 does not cross-link to many expected ncRNAs but surprisingly binds to pre-mRNA transcripts suggesting a role in 3' end formation and/or termination.

Organism:

Saccharomyces cerevisiae

Type:

Other

Platform:

GPL13272

6 Samples

Download data: WIG

(Submitter supplied) Nrd1 and Nab3 are two yeast RNA binding proteins which have been shown to be involved in transcription termination of non poly(A) genes. We have used expression profiling of a Nab3 mutant to discover novel RNA targets of the Nrd1 and Nab3 transcription termination pathway. Failure to terminate RNA polymerase II by Nab3 leads to continued transcription well beyond the correct termination sites, altering the expression of adjacent downstream genes. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array

Dataset:

GDS2079

Platform:

GPL90

4 Samples

Download data

Analyis of nab3 temperature sensitive mutants subjected to the non-permissive temperature of 37 degrees C to inactivate Nab3. Nab3 is an RNA-binding protein involved in the transcription termination of nonpolyadenylated transcripts.

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array, count, 2 genotype/variation, 2 temperature sets

Platform:

GPL90

Series:

GSE4657

4 Samples

Download data

(Submitter supplied) Transcription termination in Saccharomyces cerevisiae can be performed by at least two distinct pathways and is directed by the phosphorylation status of the carboxy-terminal domain (CTD) of RNA polymerase II (Pol II). Late termination of mRNAs is performed by the CPF/CF complex and requires CTD-Ser2 phosphorylation. Early termination of shorter cryptic unstable transcripts (CUTs) and small nucleolar RNAs (snoRNAs) is preformed by the Nrd1 complex, and requires CTD-Ser5 phosphorylation. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array

Platform:

GPL11232

22 Samples

Download data: TXT

(Submitter supplied) Proper formation of messenger RNA-protein complexes (mRNPs) is critical for accurate gene expression and requires temporal regulation of mRNA structures. RNA helicases are major players that control mRNP/mRNA structures throughout the life of mRNAs. Our group has shown that the DEAD-box RNA helicase Dbp2 in S. cerevisiae is a bona fide RNA helicase in vitro that is required for proper transcription termination and assembly of RNA-binding proteins onto poly(A)+ RNA in vivo. more...

Organism:

Saccharomyces cerevisiae

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL17143

12 Samples

Download data: TXT

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Saccharomyces cerevisiae

Type:

Other; Genome binding/occupancy profiling by high throughput sequencing

Platforms:

GPL17143 GPL17342

28 Samples

Download data: TXT

(Submitter supplied) Accurate gene expression requires the coordination of RNA processing with assembly of messenger RNA-protein (mRNP) complex. RNA helicases are a class of enzymes that unwind RNA duplexes in vitro and have been are proposed to remodel RNA structure in vivo. Herein, we provide evidence that the DEAD-box protein Dbp2 remodels RNA structure to facilitate efficient pre-mRNA processing in S. cerevisiae. First, we find that Dbp2 associates with the 3’ ends and 3’ splice-sites of mRNAs genome-wide. more...

Organism:

Saccharomyces cerevisiae

Type:

Other

Platform:

GPL17342

10 Samples

Download data: TXT

(Submitter supplied) Accurate gene expression requires the coordination of RNA processing with assembly of messenger RNA-protein (mRNP) complex. RNA helicases are a class of enzymes that unwind RNA duplexes in vitro and have been are proposed to remodel RNA structure in vivo. Herein, we provide evidence that the DEAD-box protein Dbp2 remodels RNA structure to facilitate efficient pre-mRNA processing in S. cerevisiae. First, we find that Dbp2 associates with the 3’ ends and 3’ splice-sites of mRNAs genome-wide. more...

Organism:

Saccharomyces cerevisiae

Type:

Other

Platform:

GPL17342

6 Samples

Download data: BEDGRAPH

(Submitter supplied) RNA-binding proteins play a key role in shaping gene expression profiles during stress, however, little is known about the dynamic nature of these interactions and how this influences the kinetics of gene expression. To address this, we developed kinetic χCRAC, a UV cross-linking method that enabled us to quantitatively measure the dynamics of protein-RNA interactions in vivo on a minute time-scale. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by high throughput sequencing; Other

Platforms:

GPL17143 GPL17342 GPL21656

88 Samples

Download data: FA, GTF, TXT

(Submitter supplied) This study involves the role of yeast mRNA decay factors in transcription. The experiment included here are the ChIP-exo results of three decay factors: Xrn1, Dcp2 & Lsm1.

Organism:

Saccharomyces cerevisiae

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL13821

4 Samples

Download data: BEDGRAPH, TAB, WIG

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array; Genome binding/occupancy profiling by array

Platform:

GPL16503

22 Samples

Download data

(Submitter supplied) Determination of 3' or 5' intragenic RNA pol II occupancy. Maintaining the proper mRNA levels is a key aspect in the regulation of gene expression. The balance between mRNA synthesis and decay determines these levels. Using a whole-genome analysis, we demonstrate that most yeast mRNAs are degraded by the 5'-to-3' pathway (the "decaysome"), as proposed previously. Unexpectedly, the level of these mRNAs is highly robust to perturbations in this major pathway, as defects in various decaysome components lead to transcription down-regulation. more...

Organism:

Saccharomyces cerevisiae

Type:

Genome binding/occupancy profiling by array

Platform:

GPL16503

10 Samples

Download data

(Submitter supplied) Determination of the 3' or 5' intragenic nascent transcriptional rate. Maintaining the proper mRNA levels is a key aspect in the regulation of gene expression. The balance between mRNA synthesis and decay determines these levels. Using a whole-genome analysis, we demonstrate that most yeast mRNAs are degraded by the 5'-to-3' pathway (the "decaysome"), as proposed previously. Unexpectedly, the level of these mRNAs is highly robust to perturbations in this major pathway, as defects in various decaysome components lead to transcription down-regulation. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array

Platform:

GPL16503

12 Samples

Download data

(Submitter supplied) Maintaining the proper mRNA levels is a key aspect in the regulation of gene expression. The balance between mRNA synthesis and decay determines these levels. Using a whole-genome analysis, we demonstrate that most yeast mRNAs are degraded by the 5'-to-3' pathway (the "decaysome"), as proposed previously. Unexpectedly, the level of these mRNAs is highly robust to perturbations in this major pathway, as defects in various decaysome components lead to transcription down-regulation. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by array

Platform:

GPL13620

9 Samples

Download data: TXT

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by high throughput sequencing; Other; Genome binding/occupancy profiling by genome tiling array

Platforms:

GPL17342 GPL24876

192 Samples

Download data: GPR

(Submitter supplied) Transcription termination is key to gene regulation as it prevents transcription interference with neighboring genes. In Saccharomyces cerevisiae, termination at protein-coding genes is coupled to the cleavage of the nascent transcript, while most non-coding RNA transcription relies on a cleavage-independent termination pathway involving Nrd1, Nab3 and the helicase Sen1 (NNS pathway). In both pathways, the recruitment of termination factors involves phosphorylated forms of the RNA polymerase II C-terminal domain (CTD) but the contribution of individual CTD residues was never systematically investigated. more...

Organism:

Saccharomyces cerevisiae

Type:

Genome binding/occupancy profiling by genome tiling array

Platform:

GPL24876

188 Samples

Download data: BED, GPR

(Submitter supplied) Transcription termination is key to gene regulation as it prevents transcription interference with neighboring genes. In Saccharomyces cerevisiae, termination at protein-coding genes is coupled to the cleavage of the nascent transcript, while most non-coding RNA transcription relies on a cleavage-independent termination pathway involving Nrd1, Nab3 and the helicase Sen1 (NNS pathway). In both pathways, the recruitment of termination factors involves phosphorylated forms of the RNA polymerase II C-terminal domain (CTD) but the contribution of individual CTD residues was never systematically investigated. more...

Organism:

Saccharomyces cerevisiae

Type:

Expression profiling by high throughput sequencing; Other

Platform:

GPL17342

4 Samples

Download data: BIGWIG