GEO DataSets

(Submitter supplied) In the earliest step of spliceosome assembly, the two splice sites flanking an intron are brought into proximity by U1 snRNP and U2AF. The mechanism that facilitates this intron looping is poorly understood. Using a CRISPR interference-based approach to halt RNA polymerase II transcription in the middle of introns, we discovered that the 5 splice site base pairs with a U1 snRNA that is tethered to RNA polymerase II during intron synthesis. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL11154

1 Sample

Download data: TXT

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

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL11154

18 Samples

Download data: BEDGRAPH, BW, TXT

(Submitter supplied) In the earliest step of spliceosome assembly, the two splice sites flanking an intron are brought into proximity by U1 snRNP and U2AF. The mechanism that facilitates this intron looping is poorly understood. Using a CRISPR interference-based approach to halt RNA polymerase II transcription in the middle of introns, we discovered that the 5 splice site base pairs with a U1 snRNA that is tethered to RNA polymerase II during intron synthesis. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL11154

10 Samples

Download data: BEDGRAPH, BW

(Submitter supplied) In the earliest step of spliceosome assembly, the two splice sites flanking an intron are brought into proximity by U1 snRNP and U2AF. The mechanism that facilitates this intron looping is poorly understood. Using a CRISPR interference-based approach to halt RNA polymerase II transcription in the middle of introns, we discovered that the 5 splice site base pairs with a U1 snRNA that is tethered to RNA polymerase II during intron synthesis. more...

Organism:

Homo sapiens

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL11154

7 Samples

Download data: BW

(Submitter supplied) Removal of introns during pre-mRNA splicing, which is central to gene expression, initiates by base pairing of U1 snRNA with a 5' splice site (5'SS). In mammals, many introns contain weak 5'SSs that are not efficiently recognized by the canonical U1 snRNP, suggesting alternative mechanisms exist. Here, we develop a cross-linking immunoprecipitation coupled to a high-throughput sequencing method, BCLIP-seq, to identify NRDE2 (Nuclear RNAi defective-2) and CCDC174 (Coiled-Coil Domain-Containing 174) as novel RNA-binding proteins in mouse ES cells that associate with U1 snRNA and unspliced 5'SSs. more...

Organism:

Mus musculus

Type:

Other

Platform:

GPL17021

48 Samples

Download data: BIGWIG, BW, TXT

(Submitter supplied) Pervasive transcription in the mammalian genome produces thousands of long noncoding RNAs (lncRNAs) and promoter- or enhancer-associated unstable transcripts. They preferentially locate to chromatin, at which some regulate chromatin structure, transcription and RNA processing. While several RNA sequences responsible for nuclear localization have been identified, such as repeats in the lncRNA Xist and Alu-like elements for long RNAs, how lncRNAs as a class are enriched on chromatin remains elusive. more...

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing; Other; Non-coding RNA profiling by high throughput sequencing

Platform:

GPL21273

112 Samples

Download data: BED, BW, TXT

(Submitter supplied) RNA subcellular localization often correlates with its function and regulation. For many long noncoding RNAs (lncRNAs) and some isoforms of coding genes, their transcripts are preferentially retained on the chromatin. However, the mechanisms controlling the chromatin retention of lncRNAs and mRNA transcripts remain largely unknown. We hypothesize that embedded RNA sequences and interacting proteins may be the cis and trans regulators governing RNA subcellular localization, respectively. more...

Organism:

Homo sapiens; Mus musculus

Type:

Other

Platforms:

GPL20795 GPL21273

12 Samples

Download data: TXT

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Other

Platform:

GPL21697

6 Samples

Download data: XLSX

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Other

Platform:

GPL20795

4 Samples

Download data: XLSX

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28975

2 Samples

Download data: GTF, TXT

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Other

Platform:

GPL16791

2 Samples

Download data: CSV

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Other

Platform:

GPL16791

1 Sample

Download data: BED

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL16791

8 Samples

Download data: XLSX

(Submitter supplied) The coupled activities of RNA polymerase and the spliceosome are responsible for the abundance and isoform composition of mRNA in human cells. However, the dynamics of these megadalton enzymatic complexes working in concert on endogenous genes have not been described. Here, we establish a quasi-genome-scale platform for observing synthesis and processing kinetics of single nascent RNA molecules in real time. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing; Other

4 related Platforms

23 Samples

Download data: BED, CSV

(Submitter supplied) Alternative splicing diversifies mRNA transcripts in human cells. While the spliceosome pairs exons with a high degree of accuracy, the rates of rare aberrant and non-canonical pre-mRNA splicing have not been evaluated at the nucleotide level to determine the quantity and identity of these events across splice junctions. Using ultra-deep sequencing the frequency of aberrant and non-canonical splicing events for three splice junctions flanking exon 7 of SMN1 were determined at single nucleotide resolution. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL11154

1 Sample

Download data: TXT

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

Organism:

Homo sapiens; Mus musculus

Type:

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

Platforms:

GPL24247 GPL13112 GPL24676

52 Samples

Download data

(Submitter supplied) The expansion of introns within mammalian genomes poses a challenge for the production of full-length messenger RNAs (mRNA)s, with increasing evidence that these long AT-rich sequences present obstacles to transcription. Here, we investigate RNAPII elongation in mammalian cells at high resolution and demonstrate that RNAPII transcribes faster across introns. Moreover, we find that this acceleration is mediated by the association of U1 snRNP (U1) with the elongation complex at 5’ splice sites. more...

Organism:

Mus musculus

Type:

Other

Platforms:

GPL13112 GPL24247

17 Samples

Download data: BEDGRAPH

(Submitter supplied) The expansion of introns within mammalian genomes poses a challenge for the production of full-length messenger RNAs (mRNA)s, with increasing evidence that these long AT-rich sequences present obstacles to transcription. Here, we investigate RNAPII elongation in mammalian cells at high resolution and demonstrate that RNAPII transcribes faster across introns. Moreover, we find that this acceleration is mediated by the association of U1 snRNP (U1) with the elongation complex at 5’ splice sites. more...

Organism:

Homo sapiens; Mus musculus

Type:

Other

Platforms:

GPL24676 GPL24247

10 Samples

Download data: BEDGRAPH

(Submitter supplied) The expansion of introns within mammalian genomes poses a challenge for the production of full-length messenger RNAs (mRNA)s, with increasing evidence that these long AT-rich sequences present obstacles to transcription. Here, we investigate RNAPII elongation in mammalian cells at high resolution and demonstrate that RNAPII transcribes faster across introns. Moreover, we find that this acceleration is mediated by the association of U1 snRNP (U1) with the elongation complex at 5’ splice sites. more...

Organism:

Mus musculus; Homo sapiens

Type:

Other

Platforms:

GPL24676 GPL24247

10 Samples

Download data: BEDGRAPH

(Submitter supplied) The expansion of introns within mammalian genomes poses a challenge for the production of full-length messenger RNAs (mRNA)s, with increasing evidence that these long AT-rich sequences present obstacles to transcription. Here, we investigate RNAPII elongation in mammalian cells at high resolution and demonstrate that RNAPII transcribes faster across introns. Moreover, we find that this acceleration is mediated by the association of U1 snRNP (U1) with the elongation complex at 5’ splice sites. more...

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL24247

3 Samples

Download data: BEDGRAPH