Comprehensive Epigenomic Analysis Reveals Dynamic ... (ID 284540) - BioProject

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Accession: PRJNA284540 ID: 284540

Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development

This SuperSeries is composed of the SubSeries listed below. Overall design: Refer to individual Series

Accession	PRJNA284540; GEO: GSE69101
Type	Umbrella project
Publications	Lie-A-Ling M et al., "Regulation of RUNX1 dosage is crucial for efficient blood formation from hemogenic endothelium.", Development, 2018 Mar 12;145(5) Goode DK et al., "Dynamic Gene Regulatory Networks Drive Hematopoietic Specification and Differentiation.", Dev Cell, 2016 Mar 7;36(5):572-87
Submission	Registration date: 20-May-2015 School of Molecular and Cellular Biology, University of Leeds
Relevance	Superseries

Project Data:

Parameter	Value
Data volume, Supplementary Mbytes	13801

Parameter	Value
Data volume, Gbases	169
Data volume, Tbytes	0.11

Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development encompasses the following 4 sub-projects:

Project Type

Number of Projects

Epigenomics

BioProject accession	Organism	Title
PRJNA284539	Mus musculus	Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development (TF ChIP-seq) (School of Molecular and Cellular...)
PRJNA284527	Mus musculus	Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development (ChIP-seq) (School of Molecular and Cellular...)
PRJNA284525	Mus musculus	Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development (Dnase-Hypersensitivity) (School of Molecular and Cellular...)

Transcriptome or Gene expression

BioProject accession	Organism	Title
PRJNA284510	Mus musculus	Comprehensive Epigenomic Analysis Reveals Dynamic Regulatory Programs Of Blood Development (RNA-seq) (School of Molecular and Cellular...)