scholarly article | Q13442814 |
P2093 | author name string | Benjamin Pfeuty | |
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A computational model for the coordination of neural progenitor self-renewal and differentiation through Hes1 dynamics | Q47757021 | ||
Sonic hedgehog signaling switches the mode of division in the developing nervous system. | Q47924954 | ||
Neural fate decisions mediated by trans-activation and cis-inhibition in Notch signaling | Q48105377 | ||
Mash1 and neurogenin 2 enhance survival and differentiation of neural precursor cells after transplantation to rat brains via distinct modes of action. | Q48932717 | ||
RAS/ERK signaling controls proneural genetic programs in cortical development and gliomagenesis. | Q53135944 | ||
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The cell cycle of the pseudostratified ventricular epithelium of the embryonic murine cerebral wall | Q64117434 | ||
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Notch signaling induces rapid degradation of achaete-scute homolog 1. | Q24293622 | ||
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A role for proneural genes in the maturation of cortical progenitor cells | Q28508962 | ||
Generation of neurons by transient expression of neural bHLH proteins in mammalian cells | Q28588730 | ||
Cell-Fate Choice in Dictyostelium: Intrinsic Biases Modulate Sensitivity to DIF Signaling | Q29036100 | ||
Forced G1-phase reduction alters mode of division, neuron number, and laminar phenotype in the cerebral cortex. | Q30492178 | ||
Proliferative and transcriptional identity of distinct classes of neural precursors in the mammalian olfactory epithelium. | Q34081994 | ||
Strategic cell-cycle regulatory features that provide mammalian cells with tunable G1 length and reversible G1 arrest | Q34256351 | ||
Dynamical principles of cell-cycle arrest: reversible, irreversible, and mixed strategies | Q34419965 | ||
In vivo Atoh1 targetome reveals how a proneural transcription factor regulates cerebellar development | Q34602617 | ||
Cell-cycle control and cortical development | Q34630030 | ||
p27kip1 independently promotes neuronal differentiation and migration in the cerebral cortex | Q34666832 | ||
Dynamic Notch signaling in neural progenitor cells and a revised view of lateral inhibition | Q34867170 | ||
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 | ||
Ascl1 expression defines a subpopulation of lineage-restricted progenitors in the mammalian retina. | Q35128020 | ||
Cell cycle-regulated multi-site phosphorylation of Neurogenin 2 coordinates cell cycling with differentiation during neurogenesis | Q35208724 | ||
Reliable binary cell-fate decisions based on oscillations | Q35374323 | ||
Post-translational modification of Ngn2 differentially affects transcription of distinct targets to regulate the balance between progenitor maintenance and differentiation. | Q35893618 | ||
Gap 1 phase length and mouse embryonic stem cell self-renewal | Q36140649 | ||
The flexible evolutionary anchorage-dependent Pardee's restriction point of mammalian cells: how its deregulation may lead to cancer | Q36283957 | ||
Cell cycle and lineage progression of neural progenitors in the ventricular-subventricular zones of adult mice | Q36692971 | ||
Cell fate specification in the mammalian telencephalon | Q36828387 | ||
Neocortical neurogenesis: morphogenetic gradients and beyond | Q37301122 | ||
The cell-cycle state of stem cells determines cell fate propensity. | Q37504042 | ||
microRNA input into a neural ultradian oscillator controls emergence and timing of alternative cell states | Q37646650 | ||
Cell cycle control of mammalian neural stem cells: putting a speed limit on G1. | Q37691982 | ||
Initial cell type choice in Dictyostelium | Q37819572 | ||
P433 | issue | 1 | |
P304 | page(s) | e1095694 | |
P577 | publication date | 2015-11-13 | |
P1433 | published in | Neurogenesis (Austin, Tex.) | Q27726531 |
P1476 | title | Neuronal specification exploits the inherent flexibility of cell-cycle gap phases | |
P478 | volume | 2 |
Q37309769 | Stochasticity in the miR-9/Hes1 oscillatory network can account for clonal heterogeneity in the timing of differentiation | cites work | P2860 |
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