This SuperSeries is composed of the SubSeries listed below.
Overall design: Refer to individual Series
| Accession | PRJNA289446; GEO: GSE70724 |
| Type | Umbrella project |
| Publications | von Meyenn F et al., "Impairment of DNA Methylation Maintenance Is the Main Cause of Global Demethylation in Naive Embryonic Stem Cells.", Mol Cell, 2016 Jun 16;62(6):848-861 |
| Submission | Registration date: 10-Jul-2015
Molecular Biology, Radboud University |
| Relevance | Superseries |
Project Data:
| Resource Name | Number
of Links |
|---|
| Sequence data |
| SRA Experiments | 21 |
| Publications |
| PubMed | 1 |
| PMC | 1 |
| Other datasets |
| BioSample | 21 |
| GEO DataSets | 4 |
Impairment of DNA methylation maintenance is the main cause of global demethylation in naïve ES cells encompasses the following 3 sub-projects:
| Project Type | Number of Projects |
| Epigenomics | 2 |
BioProject
accession | Organism | Title |
|---|
| PRJNA289448 | Mus musculus | De novo DNA methyltransferases DNMT3A and DNMT3B are essential of global DNA methylation maintenance [BS-Seq] (Molecular Biology, Radboud...) | | PRJNA289453 | Mus musculus | De novo DNA methyltransferases DNMT3A and DNMT3B are essential of global DNA methylation maintenance [TAB-Seq] (Molecular Biology, Radboud...) |
|
| Transcriptome or Gene expression | 1 |
BioProject
accession | Organism | Title |
|---|
| PRJNA289454 | Mus musculus | De novo DNA methyltransferases DNMT3A and DNMT3B are essential of global DNA methylation maintenance [RNA-Seq] (Molecular Biology, Radboud...) |
|