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Links from GEO DataSets

Items: 20

1.

Gene expression analyses of HB9-GFP D2 mMN cultures following Pbx1 exon 7 inclusion

(Submitter supplied) PTBP1 and PTBP2 control alternative splicing programs during neuronal development, but the cellular functions of most PTBP1/2-regulated isoforms remain unknown. We show that PTBP1 guides developmental gene expression by regulating the transcription factor Pbx1. We identify exons that are differentially spliced when mouse embryonic stem cells (ESCs) differentiate into neuronal progenitor cells (NPCs) and neurons, and transition from PTBP1 to PTBP2 expression. more...
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL13112
8 Samples
Download data: FPKM_TRACKING
Series
Accession:
GSE70883
ID:
200070883
2.

The splicing regulator PTBP1 controls the activity of the transcription factor Pbx1 during neuronal differentiation

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing; Other
Platform:
GPL13112
30 Samples
Download data: BED, TXT
Series
Accession:
GSE71179
ID:
200071179
3.

Ptpb1 iCLIP in 46C mESCs and mNPCs

(Submitter supplied) PTBP1 and PTBP2 control alternative splicing programs during neuronal development, but the cellular functions of most PTBP1/2-regulated isoforms remain unknown. We show that PTBP1 guides developmental gene expression by regulating the transcription factor Pbx1. We identify exons that are differentially spliced when mouse embryonic stem cells (ESCs) differentiate into neuronal progenitor cells (NPCs) and neurons, and transition from PTBP1 to PTBP2 expression. more...
Organism:
Mus musculus
Type:
Other
Platform:
GPL13112
2 Samples
Download data: BED
Series
Accession:
GSE71178
ID:
200071178
4.

Splicing analyses of mESCs, mNPCs, and mMNs

(Submitter supplied) PTBP1 and PTBP2 control alternative splicing programs during neuronal development, but the cellular functions of most PTBP1/2-regulated isoforms remain unknown. We show that PTBP1 guides developmental gene expression by regulating the transcription factor Pbx1. We identify exons that are differentially spliced when mouse embryonic stem cells (ESCs) differentiate into neuronal progenitor cells (NPCs) and neurons, and transition from PTBP1 to PTBP2 expression. more...
Organism:
Mus musculus
Type:
Other
Platform:
GPL13112
3 Samples
Download data: TXT
Series
Accession:
GSE71079
ID:
200071079
5.

Splicing analyses of 46C mNPCs following PTBP depletion

(Submitter supplied) PTBP1 and PTBP2 control alternative splicing programs during neuronal development, but the cellular functions of most PTBP1/2-regulated isoforms remain unknown. We show that PTBP1 guides developmental gene expression by regulating the transcription factor Pbx1. We identify exons that are differentially spliced when mouse embryonic stem cells (ESCs) differentiate into neuronal progenitor cells (NPCs) and neurons, and transition from PTBP1 to PTBP2 expression. more...
Organism:
Mus musculus
Type:
Other
Platform:
GPL13112
8 Samples
Download data: TXT
Series
Accession:
GSE70985
ID:
200070985
6.

Alternative splicing of a chromatin modifier alters the transcriptional regulatory programs of embryonic stem cell maintenance and neuronal differentiation [ChIP-seq]

(Submitter supplied) Maintenance of embryonic stem cells (ESCs) and their differentiation to neuronal lineages requires complex genetic regulation of transcription, splicing, and translation, but the interconnections of these processes is not well understood. We found that the splicing regulator polypyrimidine tract binding protein 1 (PTBP1) alters the neuronal transcriptional program. Transcripts for DPF2, a subunit of the BRG1/BRM-associated factor (BAF) chromatin remodeling complex, contain an additional exon (exon 7) in brain. more...
Organism:
Mus musculus
Type:
Genome binding/occupancy profiling by high throughput sequencing
Platform:
GPL21493
20 Samples
Download data: BW
Series
Accession:
GSE241379
ID:
200241379
7.

Alternative splicing of a chromatin modifier alters the transcriptional regulatory programs of embryonic stem cell maintenance and neuronal differentiation.

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.
Organism:
Mus musculus
Type:
Genome binding/occupancy profiling by high throughput sequencing; Expression profiling by high throughput sequencing
Platforms:
GPL24247 GPL21493
36 Samples
Download data
Series
Accession:
GSE241378
ID:
200241378
8.

Alternative splicing of a chromatin modifier alters the transcriptional regulatory programs of embryonic stem cell maintenance and neuronal differentiation [RNA-seq]

(Submitter supplied) Maintenance of embryonic stem cells (ESCs) and their differentiation to neuronal lineages requires complex genetic regulation of transcription, splicing, and translation, but the interconnections of these processes is not well understood. We found that the splicing regulator polypyrimidine tract binding protein 1 (PTBP1) alters the neuronal transcriptional program. Transcripts for DPF2, a subunit of the BRG1/BRM-associated factor (BAF) chromatin remodeling complex, contain an additional exon (exon 7) in brain. more...
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL24247
18 Samples
Download data: TXT
Series
Accession:
GSE241377
ID:
200241377
9.

Alternative splicing of a chromatin modifier alters the transcriptional regulatory programs of embryonic stem cell maintenance and neuronal differentiation[ATAC-seq]

(Submitter supplied) Maintenance of embryonic stem cells (ESCs) and their differentiation to neuronal lineages requires complex genetic regulation of transcription, splicing, and translation, but the interconnections of these processes is not well understood. We found that the splicing regulator polypyrimidine tract binding protein 1 (PTBP1) alters the neuronal transcriptional program. Transcripts for DPF2, a subunit of the BRG1/BRM-associated factor (BAF) chromatin remodeling complex, contain an additional exon (exon 7) in brain. more...
Organism:
Mus musculus
Type:
Genome binding/occupancy profiling by high throughput sequencing
Platform:
GPL21493
18 Samples
Download data: BW
Series
Accession:
GSE241376
ID:
200241376
10.

Identification of PTBPs RNA binding sites in mouse brain

(Submitter supplied) PTBP1 and PTBP2 are RNA-binding proteins that control RNA processings, including alternative pre-mRNA splicing. The sequential down-regulation of the two proteins is necessary for neuronal maturation. However, their binding substrates in neural tissues have not been examined.
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL13112
6 Samples
Download data: GFF
Series
Accession:
GSE85165
ID:
200085165
11.

Transcriptome of the mouse neocortices

(Submitter supplied) Derive alternative splicing regulatory networks of PTBP1 and PTBP2
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL13112
7 Samples
Download data: XLSX
Series
Accession:
GSE84803
ID:
200084803
12.

The MicroRNA miR-124 Promotes Neuronal Differentiation by Triggering Brain-Specific Alternative Pre-mRNA Splicing

(Submitter supplied) Both microRNAs and alternative pre-mRNA splicing have been implicated in the development of the nervous system (NS), but functional interactions between these two pathways are poorly understood. We demonstrate that the neuron-specific microRNA miR-124a directly targets PTBP1/PTB/hnRNPI mRNA, which encodes a global repressor of alternative pre-mRNA splicing in non-neuronal cells. Among the targets of PTBP1 is a critical cassette exon in the pre-mRNA of PTBP2/nPTB/brPTB, an NS-enriched PTBP1 homolog. more...
Organism:
Mus musculus
Type:
Expression profiling by array
Dataset:
GDS2846
Platform:
GPL1261
6 Samples
Download data: CEL
Series
Accession:
GSE8498
ID:
200008498
13.
Full record GDS2846

MicroRNA miR-124 expression effect on neuronal cell line

Analysis of neuroblastoma CAD cells expressing neuron-specific microRNA miR-124. MicroRNAs have been implicated in the development of the nervous system (NS). Results provide insight into the function of miR-124 in neuronal cells.
Organism:
Mus musculus
Type:
Expression profiling by array, transformed count, 2 protocol sets
Platform:
GPL1261
Series:
GSE8498
6 Samples
Download data: CEL
14.

Ptbp2 represses adult-specific splicing to regulate the generation of neuronal precursors in the embryonic brain

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.
Organism:
Mus musculus
Type:
Other; Expression profiling by array
Platforms:
GPL11002 GPL6193 GPL8940
22 Samples
Download data: CEL
Series
Accession:
GSE47567
ID:
200047567
15.

Wild type vs. Ptbp2 KO mouse embryonic cortex RNA

(Submitter supplied) To assess the requirement of Ptbp2 for alternative processing of RNA in mouse brain
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL8940
6 Samples
Download data: CEL
Series
Accession:
GSE47566
ID:
200047566
16.

Wild type vs. Ptbp2 KO mouse E18.5 cortex RNA

(Submitter supplied) To assess the requirement of Ptbp2 for alternative mRNA expression in mouse brain
Organism:
Mus musculus
Type:
Expression profiling by array
Platform:
GPL6193
8 Samples
Download data: CEL
Series
Accession:
GSE47565
ID:
200047565
17.

Ptbp2 represses adult-specific splicing to regulate the generation of neuronal precursors in the embryonic brain [HITS-CLIP]

(Submitter supplied) Two polypyrimidine tract RNA-binding proteins (PTBs), one near-ubiquitously expressed (Ptbp1) and another highly tissue-restricted (Ptbp2), regulate RNA in interrelated but incompletely understood ways. Ptbp1, a splicing regulator, is replaced in the brain and differentiated neuronal cell lines by Ptbp2. To define the roles of Ptbp2 in the nervous system, we generated two independent Ptbp2-null strains, unexpectedly revealing that Ptbp2 is expressed in neuronal progenitors and is essential for postnatal survival. more...
Organism:
Mus musculus
Type:
Other
Platform:
GPL11002
8 Samples
Download data: BED, WIG
Series
Accession:
GSE47564
ID:
200047564
18.

Cell type-specific alternative splicing of cytoskeletal domains governs cell fate in the developing cerebral cortex

(Submitter supplied) Alternative splicing regulates over 90% of multiexon mammlian genes, but its role in specifying neural progenitor cell (NPC) fates has not been explored. Our analyses of purified mouse NPCs and neurons from developing cerebral cortices revealed hundreds of conserved and differentially spliced exons that add or remove key protein domains, especially in genes regulating the cytoskeleton.
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL13112
4 Samples
Download data: FPKM_TRACKING
Series
Accession:
GSE76198
ID:
200076198
19.

The PTBP1-associated long noncoding RNA Pnky regulates embryonic and postnatal neural stem cells

(Submitter supplied) While thousands of long noncoding RNAs (lncRNAs) have been identified, few lncRNAs that control neural stem cell (NSC) behavior are known. Here, we identify Pinky (Pnky) as a novel, neural-specific lncRNA that regulates neurogenesis from NSCs in the embryonic and postnatal brain. In postnatal NSCs, Pnky knockdown potentiates neuronal lineage commitment and expands the transit-amplifying cell population, increasing neuron production several-fold. more...
Organism:
Mus musculus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL17021
6 Samples
Download data: DIFF, TXT
Series
Accession:
GSE65542
ID:
200065542
20.

Altered expression of genes in lncRNA-LBCS, hnRNPK and PTBP1 knockdown

(Submitter supplied) We identify a lncRNA which low expresses and regulates self-renewal of bladder cancer stem cell. So we named it lncRNA-LBCS (low expresses in bladder cancer stem cell). Further study finds that lncRNA-LBCS bind to hnRNPK and PTBP1. To investigate the genes regulated by these, we knockdown lncRNA-LBCS, hnRNPK and PTBP1 by siRNA, respectively, and perform high-throughput sequence. So we identify a series of genes regulated by lncRNA-LBCS, hnRNPK and PTBP1, respectively.
Organism:
Homo sapiens
Type:
Expression profiling by high throughput sequencing
Platform:
GPL16791
4 Samples
Download data: TXT
Series
Accession:
GSE79832
ID:
200079832
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