ICM conversion to epiblast by FGF/ERK inhibition is limited in time and requires transcription and protein degradation
Published 2017 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
ICM conversion to epiblast by FGF/ERK inhibition is limited in time and requires transcription and protein degradation
Authors
Keywords
-
Journal
Scientific Reports
Volume 7, Issue 1, Pages -
Publisher
Springer Nature
Online
2017-09-19
DOI
10.1038/s41598-017-12120-0
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- G1 cyclins link proliferation, pluripotency and differentiation of embryonic stem cells
- (2017) Lijun Liu et al. NATURE CELL BIOLOGY
- Asynchronous fate decisions by single cells collectively ensure consistent lineage composition in the mouse blastocyst
- (2016) Néstor Saiz et al. Nature Communications
- Gata6 potently initiates reprograming of pluripotent and differentiated cells to extraembryonic endoderm stem cells
- (2015) Sissy E. Wamaitha et al. GENES & DEVELOPMENT
- DPPA5 Supports Pluripotency and Reprogramming by Regulating NANOG Turnover
- (2015) Xu Qian et al. STEM CELLS
- The first two cell-fate decisions of preimplantation mouse embryo development are not functionally independent
- (2015) Aleksandar I. Mihajlović et al. Scientific Reports
- Heterogeneities in Nanog Expression Drive Stable Commitment to Pluripotency in the Mouse Blastocyst
- (2015) Panagiotis Xenopoulos et al. Cell Reports
- A close look at the mammalian blastocyst: epiblast and primitive endoderm formation
- (2014) Jérôme Artus et al. CELLULAR AND MOLECULAR LIFE SCIENCES
- Gata6, Nanog and Erk signaling control cell fate in the inner cell mass through a tristable regulatory network
- (2014) S. Bessonnard et al. DEVELOPMENT
- GATA6 Levels Modulate Primitive Endoderm Cell Fate Choice and Timing in the Mouse Blastocyst
- (2014) Nadine Schrode et al. DEVELOPMENTAL CELL
- ERK1 phosphorylates Nanog to regulate protein stability and stem cell self-renewal
- (2014) Sung-Hyun Kim et al. Stem Cell Research
- NANOG Is Multiply Phosphorylated and Directly Modified by ERK2 and CDK1 In Vitro
- (2014) Justin Brumbaugh et al. Stem Cell Reports
- FGF4 is a limiting factor controlling the proportions of primitive endoderm and epiblast in the ICM of the mouse blastocyst
- (2013) Dayana Krawchuk et al. DEVELOPMENTAL BIOLOGY
- Allocation of inner cells to epiblast vs primitive endoderm in the mouse embryo is biased but not determined by the round of asymmetric divisions (8→16- and 16→32-cells)
- (2013) Magdalena Krupa et al. DEVELOPMENTAL BIOLOGY
- Cell-to-cell expression variability followed by signal reinforcement progressively segregates early mouse lineages
- (2013) Yusuke Ohnishi et al. NATURE CELL BIOLOGY
- The differential response to Fgf signalling in cells internalized at different times influences lineage segregation in preimplantation mouse embryos
- (2013) S. A. Morris et al. Open Biology
- FGF4 is required for lineage restriction and salt-and-pepper distribution of primitive endoderm factors but not their initial expression in the mouse
- (2012) M. Kang et al. DEVELOPMENT
- Bmi1 facilitates primitive endoderm formation by stabilizing Gata6 during early mouse development
- (2012) F. Lavial et al. GENES & DEVELOPMENT
- Fibroblast Growth Factor Receptor 2 Homodimerization Rapidly Reduces Transcription of the Pluripotency GeneNanogwithout Dissociation of Activating Transcription Factors
- (2012) Katherine E. Santostefano et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- Icy: an open bioimage informatics platform for extended reproducible research
- (2012) Fabrice de Chaumont et al. NATURE METHODS
- Differential plasticity of epiblast and primitive endoderm precursors within the ICM of the early mouse embryo
- (2011) J. B. Grabarek et al. DEVELOPMENT
- Primitive Endoderm Differentiates via a Three-Step Mechanism Involving Nanog and RTK Signaling
- (2011) Stephen Frankenberg et al. DEVELOPMENTAL CELL
- The RNA-Binding Protein Unr Prevents Mouse Embryonic Stem Cells Differentiation Toward the Primitive Endoderm Lineage
- (2011) Habiba Elatmani et al. STEM CELLS
- PEST Motif Sequence Regulating Human NANOG for Proteasomal Degradation
- (2011) Suresh Ramakrishna et al. STEM CELLS AND DEVELOPMENT
- FGF signal-dependent segregation of primitive endoderm and epiblast in the mouse blastocyst
- (2010) Y. Yamanaka et al. DEVELOPMENT
- The role of FGF/Erk signaling in pluripotent cells
- (2010) F. Lanner et al. DEVELOPMENT
- Resolution of Cell Fate Decisions Revealed by Single-Cell Gene Expression Analysis from Zygote to Blastocyst
- (2010) Guoji Guo et al. DEVELOPMENTAL CELL
- Phosphorylation stabilizes Nanog by promoting its interaction with Pin1
- (2010) M. Moretto-Zita et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo
- (2009) J. Nichols et al. DEVELOPMENT
- Active cell movements coupled to positional induction are involved in lineage segregation in the mouse blastocyst
- (2009) Sigolène M. Meilhac et al. DEVELOPMENTAL BIOLOGY
- Distinct sequential cell behaviours direct primitive endoderm formation in the mouse blastocyst
- (2008) B. Plusa et al. DEVELOPMENT
Create your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create NowBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started