The molecular logic of Nanog-induced self-renewal in mouse embryonic stem cells
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Title
The molecular logic of Nanog-induced self-renewal in mouse embryonic stem cells
Authors
Keywords
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Journal
Nature Communications
Volume 10, Issue 1, Pages -
Publisher
Springer Nature
Online
2019-03-07
DOI
10.1038/s41467-019-09041-z
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Note: Only part of the references are listed.- Phenotypic Convergence: Distinct Transcription Factors Regulate Common Terminal Features
- (2018) Nikolaos Konstantinides et al. CELL
- Esrrb Complementation Rescues Development of Nanog -Null Germ Cells
- (2018) Man Zhang et al. Cell Reports
- The pioneer factor OCT4 requires the chromatin remodeller BRG1 to support gene regulatory element function in mouse embryonic stem cells
- (2017) Hamish W King et al. eLife
- LIF-activated Jak signaling determines Esrrb expression during late-stage reprogramming
- (2017) Delun Huang et al. Biology Open
- Functional Antagonism between OTX2 and NANOG Specifies a Spectrum of Heterogeneous Identities in Embryonic Stem Cells
- (2017) Dario Acampora et al. Stem Cell Reports
- Ground State Conditions Induce Rapid Reorganization of Core Pluripotency Factor Binding before Global Epigenetic Reprogramming
- (2015) Christina Galonska et al. Cell Stem Cell
- Cell signaling and transcription factors regulating cell fate during formation of the mouse blastocyst
- (2015) Tristan Frum et al. TRENDS IN GENETICS
- Tgif1 Counterbalances the Activity of Core Pluripotency Factors in Mouse Embryonic Stem Cells
- (2015) Bum-Kyu Lee et al. Cell Reports
- A Protein-Tagging System for Signal Amplification in Gene Expression and Fluorescence Imaging
- (2014) Marvin E. Tanenbaum et al. CELL
- Reorganization of Enhancer Patterns in Transition from Naive to Primed Pluripotency
- (2014) Christa Buecker et al. Cell Stem Cell
- NANOG Amplifies STAT3 Activation and They Synergistically Induce the Naive Pluripotent Program
- (2014) Hannah T. Stuart et al. CURRENT BIOLOGY
- Nanog Is Dispensable for the Generation of Induced Pluripotent Stem Cells
- (2014) Benjamin A. Schwarz et al. CURRENT BIOLOGY
- Rational design of highly active sgRNAs for CRISPR-Cas9–mediated gene inactivation
- (2014) John G Doench et al. NATURE BIOTECHNOLOGY
- Transcriptional enhancers: from properties to genome-wide predictions
- (2014) Daria Shlyueva et al. NATURE REVIEWS GENETICS
- From blastocyst to gastrula: gene regulatory networks of embryonic stem cells and early mouse embryogenesis
- (2014) D.-E. Parfitt et al. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
- Nanog-Independent Reprogramming to iPSCs with Canonical Factors
- (2014) Ava C. Carter et al. Stem Cell Reports
- Master Transcription Factors and Mediator Establish Super-Enhancers at Key Cell Identity Genes
- (2013) Warren A. Whyte et al. CELL
- DNA targeting specificity of RNA-guided Cas9 nucleases
- (2013) Patrick D Hsu et al. NATURE BIOTECHNOLOGY
- FISH-quant: automatic counting of transcripts in 3D FISH images
- (2013) Florian Mueller et al. NATURE METHODS
- Reprogramming to Pluripotency Using Designer TALE Transcription Factors Targeting Enhancers
- (2013) Xuefei Gao et al. Stem Cell Reports
- Esrrb Is a Direct Nanog Target Gene that Can Substitute for Nanog Function in Pluripotent Cells
- (2012) Nicola Festuccia et al. Cell Stem Cell
- Otx2 is an intrinsic determinant of the embryonic stem cell state and is required for transition to a stable epiblast stem cell condition
- (2012) D. Acampora et al. DEVELOPMENT
- OCT4/SOX2-independentNanogautorepression modulates heterogeneousNanoggene expression in mouse ES cells
- (2012) Pablo Navarro et al. EMBO JOURNAL
- Fast gapped-read alignment with Bowtie 2
- (2012) Ben Langmead et al. NATURE METHODS
- Identifying ChIP-seq enrichment using MACS
- (2012) Jianxing Feng et al. Nature Protocols
- Transcription factors: from enhancer binding to developmental control
- (2012) François Spitz et al. NATURE REVIEWS GENETICS
- Phf19 links methylated Lys36 of histone H3 to regulation of Polycomb activity
- (2012) Cecilia Ballaré et al. NATURE STRUCTURAL & MOLECULAR BIOLOGY
- RSEM: accurate transcript quantification from RNA-Seq data with or without a reference genome
- (2011) Bo Li et al. BMC BIOINFORMATICS
- Polycomb complexes act redundantly to repress genomic repeats and genes
- (2010) M. Leeb et al. GENES & DEVELOPMENT
- Nanog Is the Gateway to the Pluripotent Ground State
- (2009) Jose Silva et al. CELL
- Uncovering Early Response of Gene Regulatory Networks in ESCs by Systematic Induction of Transcription Factors
- (2009) Akira Nishiyama et al. Cell Stem Cell
- A parallel circuit of LIF signalling pathways maintains pluripotency of mouse ES cells
- (2009) Hitoshi Niwa et al. NATURE
- An embryonic stem cell chromatin remodeling complex, esBAF, is an essential component of the core pluripotency transcriptional network
- (2009) L. Ho et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Connecting microRNA Genes to the Core Transcriptional Regulatory Circuitry of Embryonic Stem Cells
- (2008) Alexander Marson et al. CELL
- Integration of External Signaling Pathways with the Core Transcriptional Network in Embryonic Stem Cells
- (2008) Xi Chen et al. CELL
- An Extended Transcriptional Network for Pluripotency of Embryonic Stem Cells
- (2008) Jonghwan Kim et al. CELL
- The ground state of embryonic stem cell self-renewal
- (2008) Qi-Long Ying et al. NATURE
- Molecular Coupling of Xist Regulation and Pluripotency
- (2008) P. Navarro et al. SCIENCE
- SWI/SNF-Brg1 Regulates Self-Renewal and Occupies Core Pluripotency-Related Genes in Embryonic Stem Cells
- (2008) Benjamin L. Kidder et al. STEM CELLS
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