scholarly article | Q13442814 |
P50 | author | Eric Agius | Q57176553 |
Jacques Gautrais | Q57065482 | ||
P2093 | author name string | Fabienne Pituello | |
Frédéric Bonnet | |||
Angie Molina | |||
Sophie Bel-Vialar | |||
Manon Azais | |||
Mélanie Roussat | |||
P2860 | cites work | Cdc25B functions as a novel coactivator for the steroid receptors | Q24548253 |
Interkinetic nuclear migration generates and opposes ventricular-zone crowding: insight into tissue mechanics | Q26859279 | ||
Cdk1 Activates Pre-mitotic Nuclear Envelope Dynein Recruitment and Apical Nuclear Migration in Neural Stem Cells | Q27314720 | ||
The dorsal spinal cord and hindbrain: From developmental mechanisms to functional circuits | Q28076936 | ||
Selective lengthening of the cell cycle in the neurogenic subpopulation of neural progenitor cells during mouse brain development | Q28261372 | ||
Polycomb silencing mechanisms and the management of genomic programmes | Q28279277 | ||
Stochastic development of stem cells | Q72386137 | ||
Cell population kinetics in the intestinal epithelium of the mouse | Q78731053 | ||
Human embryonic stem cells exhibit increased propensity to differentiate during the G1 phase prior to phosphorylation of retinoblastoma protein | Q83641115 | ||
The cell biology of neurogenesis | Q28284165 | ||
MCPH1 regulates the neuroprogenitor division mode by coupling the centrosomal cycle with mitotic entry through the Chk1-Cdc25 pathway | Q28506694 | ||
The bHLH factor Olig3 coordinates the specification of dorsal neurons in the spinal cord | Q28591229 | ||
Cell cycle control by the CDC25 phosphatases | Q28611403 | ||
Maintenance of pluripotency in human and mouse embryonic stem cells through activation of Wnt signaling by a pharmacological GSK-3-specific inhibitor | Q29614622 | ||
Disruption of the glucocorticoid receptor gene in the nervous system results in reduced anxiety | Q29615160 | ||
A series of normal stages in the development of the chick embryo. 1951 | Q29618726 | ||
Forced G1-phase reduction alters mode of division, neuron number, and laminar phenotype in the cerebral cortex. | Q30492178 | ||
Kinesin 3 and cytoplasmic dynein mediate interkinetic nuclear migration in neural stem cells | Q30498808 | ||
Mitotic spindle orientation can direct cell fate and bias Notch activity in chick neural tube | Q30513949 | ||
Dlg1 controls planar spindle orientation in the neuroepithelium through direct interaction with LGN. | Q30587026 | ||
A Branching Process to Characterize the Dynamics of Stem Cell Differentiation | Q30661673 | ||
Cell cycle regulation of the murine cdc25B promoter: essential role for nuclear factor-Y and a proximal repressor element | Q30975349 | ||
A novel function of DELTA-NOTCH signalling mediates the transition from proliferation to neurogenesis in neural progenitor cells | Q33305437 | ||
Histone deacetylases 1 and 2 form a developmental switch that controls excitatory synapse maturation and function | Q33956241 | ||
A novel reporter of notch signalling indicates regulated and random Notch activation during vertebrate neurogenesis | Q34006424 | ||
Cellular heterogeneity: do differences make a difference? | Q34052445 | ||
HDAC3 controls gap 2/mitosis progression in adult neural stem/progenitor cells by regulating CDK1 levels | Q34218076 | ||
Stem cells and pattern formation in the nervous system: the possible versus the actual | Q34245281 | ||
Epigenetic regulation of neural stem cell fate during corticogenesis | Q34331353 | ||
Major transcriptome re-organisation and abrupt changes in signalling, cell cycle and chromatin regulation at neural differentiation in vivo | Q34341301 | ||
Coordination of progenitor specification and growth in mouse and chick spinal cord | Q34492117 | ||
Dynamics of DNA replication factories in living cells | Q34508274 | ||
Stochasticity and cell fate | Q34767687 | ||
Regulation of interkinetic nuclear migration by cell cycle-coupled active and passive mechanisms in the developing brain | Q35007103 | ||
Cyclin D1 promotes neurogenesis in the developing spinal cord in a cell cycle-independent manner | Q35105147 | ||
Hedgehog signaling and the retina: insights into the mechanisms controlling the proliferative properties of neural precursors | Q35106144 | ||
Mathematical modeling of cell population dynamics in the colonic crypt and in colorectal cancer | Q35676763 | ||
Phosphotyrosine Substrate Sequence Motifs for Dual Specificity Phosphatases | Q35753812 | ||
Conceptual models to understand tissue stem cell organization | Q35838134 | ||
Kizuna is a novel mitotic substrate for CDC25B phosphatase | Q36189477 | ||
Cell-Cycle Control of Bivalent Epigenetic Domains Regulates the Exit from Pluripotency | Q36200995 | ||
Morphogens in motion: growth control of the neural tube | Q36206016 | ||
KIF1A inhibition immortalizes brain stem cells but blocks BDNF-mediated neuronal migration | Q36515487 | ||
Initiation of stem cell differentiation involves cell cycle-dependent regulation of developmental genes by Cyclin D | Q36603861 | ||
A general role of hedgehog in the regulation of proliferation. | Q36716378 | ||
CDC25 phosphatases in cancer cells: key players? Good targets? | Q36849329 | ||
Regulation of neurogenesis by interkinetic nuclear migration through an apical-basal notch gradient | Q37066544 | ||
Response of small intestinal epithelial cells to acute disruption of cell division through CDC25 deletion | Q37139984 | ||
Myosin II is required for interkinetic nuclear migration of neural progenitors | Q37364161 | ||
Actomyosin is the main driver of interkinetic nuclear migration in the retina. | Q37470638 | ||
The cell-cycle state of stem cells determines cell fate propensity. | Q37504042 | ||
The strength of SMAD1/5 activity determines the mode of stem cell division in the developing spinal cord | Q37589354 | ||
Apical movement during interkinetic nuclear migration is a two-step process | Q37604378 | ||
Remote hot spots mediate protein substrate recognition for the Cdc25 phosphatase | Q37692795 | ||
Cdks and cyclins link G1 length and differentiation of embryonic, neural and hematopoietic stem cells | Q37740912 | ||
Cell cycle and cell fate in the developing nervous system: the role of CDC25B phosphatase. | Q38254753 | ||
Transcriptional role of cyclin D1 in development revealed by a genetic-proteomic screen. | Q38347118 | ||
Epigenome profiling and editing of neocortical progenitor cells during development. | Q38648105 | ||
Playing with the cell cycle to build the spinal cord | Q38776431 | ||
Centrosomes at M phase act as a scaffold for the accumulation of intracellular ubiquitinated proteins | Q39003157 | ||
Cycling through developmental decisions: how cell cycle dynamics control pluripotency, differentiation and reprogramming. | Q39023900 | ||
Deterministic Restriction on Pluripotent State Dissolution by Cell-Cycle Pathways. | Q40671579 | ||
Apical abscission alters cell polarity and dismantles the primary cilium during neurogenesis | Q40994303 | ||
Neural stem and progenitor cells shorten S-phase on commitment to neuron production | Q41963873 | ||
NEUROG2 drives cell cycle exit of neuronal precursors by specifically repressing a subset of cyclins acting at the G1 and S phases of the cell cycle. | Q42323235 | ||
Interkinetic nuclear movement may provide spatial clues to the regulation of neurogenesis | Q42527299 | ||
Interkinetic nuclear migration: cell cycle on the move | Q42739211 | ||
Dynein recruitment to nuclear pores activates apical nuclear migration and mitotic entry in brain progenitor cells | Q42910504 | ||
A short G1 phase is an intrinsic determinant of naïve embryonic stem cell pluripotency. | Q45981346 | ||
Stem cells as probabilistic self-producing entities | Q46748772 | ||
Sonic hedgehog signaling switches the mode of division in the developing nervous system. | Q47924954 | ||
Maternally expressed PGK-Cre transgene as a tool for early and uniform activation of the Cre site-specific recombinase | Q48022181 | ||
GSK3 temporally regulates neurogenin 2 proneural activity in the neocortex. | Q48481509 | ||
Cellular and subcellular imaging of motor protein-based behavior in embryonic rat brain | Q48958481 | ||
Multiplex cell and lineage tracking with combinatorial labels. | Q50623351 | ||
Control of planar divisions by the G-protein regulator LGN maintains progenitors in the chick neuroepithelium. | Q50661583 | ||
Shh-mediated centrosomal recruitment of PKA promotes symmetric proliferative neuroepithelial cell division. | Q51033060 | ||
Differential Routing of Mindbomb1 via Centriolar Satellites Regulates Asymmetric Divisions of Neural Progenitors. | Q51164022 | ||
FoxM1-driven cell division is required for neuronal differentiation in early Xenopus embryos. | Q51957533 | ||
Mitotic spindle orientation distinguishes stem cell and terminal modes of neuron production in the early spinal cord. | Q51987359 | ||
Specific regulation of cyclins D1 and D2 by FGF and Shh signaling coordinates cell cycle progression, patterning, and differentiation during early steps of spinal cord development. | Q52087920 | ||
Functional gene screening in embryonic stem cells implicates Wnt antagonism in neural differentiation. | Q52112079 | ||
Mitotic spindle asymmetry: a Wnt/PCP-regulated mechanism generating asymmetrical division in cortical precursors. | Q53073452 | ||
The CDC25B phosphatase shortens the G2 phase of neural progenitors and promotes efficient neuron production. | Q53186850 | ||
Differential mitotic degradation of the CDC25B phosphatase variants. | Q53544045 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P407 | language of work or name | English | Q1860 |
P577 | publication date | 2018-07-03 | |
P1433 | published in | eLife | Q2000008 |
P1476 | title | Neurogenic decisions require a cell cycle independent function of the CDC25B phosphatase | |
P478 | volume | 7 |
Q64099225 | Timing the spinal cord development with neural progenitor cells losing their proliferative capacity: a theoretical analysis | cites work | P2860 |
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