Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis. - Wikidata - awgldk - TriplyDB

Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.

Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.

http://www.wikidata.org/entity/Q35926244

about

Reconstructing blood stem cell regulatory network models from single-cell molecular profiles Processing, visualising and reconstructing network models from single-cell data.Single-cell entropy for accurate estimation of differentiation potency from a cell's transcriptome Single-Cell-Based Analysis Highlights a Surge in Cell-to-Cell Molecular Variability Preceding Irreversible Commitment in a Differentiation Process.Computational methods for trajectory inference from single-cell transcriptomics.Advancing haematopoietic stem and progenitor cell biology through single-cell profiling.SCODE: an efficient regulatory network inference algorithm from single-cell RNA-Seq during differentiation.Systems Genetics as a Tool to Identify Master Genetic Regulators in Complex Disease.Gene Regulatory Network Inference from Single-Cell Data Using Multivariate Information Measures.SINCERITIES: Inferring gene regulatory networks from time-stamped single cell transcriptional expression profiles.SCENIC: single-cell regulatory network inference and clustering.A molecular roadmap of the AGM region reveals BMPER as a novel regulator of HSC maturation.Reverse-engineering of gene networks for regulating early blood development from single-cell measurements.Transcription Factor C/EBP Homologous Protein in Health and Diseases.Mapping gene regulatory networks from single-cell omics data.Evaluating methods of inferring gene regulatory networks highlights their lack of performance for single cell gene expression data.

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Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.

http://www.wikidata.org/entity/Q35926244

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Carsten Peterson

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Dapeng Wang

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Gillian May

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John Brown

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Yanping Guo

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P2860

CHOP is implicated in programmed cell death in response to impaired function of the endoplasmic reticulum

Cytoscape 2.8: new features for data integration and network visualization

Regulated expression and functional role of the transcription factor CHOP (GADD153) in erythroid growth and differentiation.

Transcriptional regulation of lineage commitment--a stochastic model of cell fate decisions.

Forcing cells to change lineages.

Transcription factor-mediated lineage switching reveals plasticity in primary committed progenitor cells.

Heterogeneity of astrocytes: from development to injury - single cell gene expression

Decoding the regulatory network of early blood development from single-cell gene expression measurements.

ER stress signalling through eIF2α and CHOP, but not IRE1α, attenuates adipogenesis in mice.

Dynamic analysis of gene expression and genome-wide transcription factor binding during lineage specification of multipotent progenitors.

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1503-1510

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