scholarly article | Q13442814 |
review article | Q7318358 |
P6179 | Dimensions Publication ID | 1001699881 |
P356 | DOI | 10.1038/NRM1739 |
P3181 | OpenCitations bibliographic resource ID | 168294 |
P698 | PubMed publication ID | 16314867 |
P5875 | ResearchGate publication ID | 7453872 |
P50 | author | Magdalena Götz | Q1883780 |
Wieland B Huttner | Q88117952 | ||
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Cell lineage in the cerebral cortex of the mouse studied in vivo and in vitro with a recombinant retrovirus | Q68115148 | ||
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Radial and horizontal deployment of clonally related cells in the primate neocortex: relationship to distinct mitotic lineages | Q71988390 | ||
Migratory paths of neurons and glia in the embryonic chick spinal cord | Q72575529 | ||
Timing of CNS cell generation: a programmed sequence of neuron and glial cell production from isolated murine cortical stem cells | Q73211895 | ||
Accelerated evolution of the ASPM gene controlling brain size begins prior to human brain expansion | Q21092833 | ||
A role for the lissencephaly gene LIS1 in mitosis and cytoplasmic dynein function | Q24290458 | ||
Reduction of microtubule catastrophe events by LIS1, platelet-activating factor acetylhydrolase subunit. | Q24532866 | ||
Neurons arise in the basal neuroepithelium of the early mammalian telencephalon: a major site of neurogenesis | Q24624356 | ||
Expression of the antiproliferative gene TIS21 at the onset of neurogenesis identifies single neuroepithelial cells that switch from proliferative to neuron-generating division | Q24670425 | ||
The synaptic protein syntaxin1 is required for cellularization of Drosophila embryos | Q24679528 | ||
Mechanisms of intracellular protein transport | Q28131681 | ||
Subventricular zone astrocytes are neural stem cells in the adult mammalian brain | Q28137965 | ||
Mutations in ARFGEF2 implicate vesicle trafficking in neural progenitor proliferation and migration in the human cerebral cortex | Q28188407 | ||
In search of a function for the TIS21/PC3/BTG1/TOB family | Q28190978 | ||
Direct binding of cell polarity protein PAR-3 to cell-cell adhesion molecule nectin at neuroepithelial cells of developing mouse | Q28201973 | ||
Neurons derived from radial glial cells establish radial units in neocortex | Q28202112 | ||
The gene PC3(TIS21/BTG2), prototype member of the PC3/BTG/TOB family: regulator in control of cell growth, differentiation, and DNA repair? | Q28206741 | ||
Radial glia: multi-purpose cells for vertebrate brain development | Q28215679 | ||
EGF converts transit-amplifying neurogenic precursors in the adult brain into multipotent stem cells | Q28218637 | ||
Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases | Q28236938 | ||
Dual control of neurogenesis by PC3 through cell cycle inhibition and induction of Math1 | Q28253909 | ||
Selective lengthening of the cell cycle in the neurogenic subpopulation of neural progenitor cells during mouse brain development | Q28261372 | ||
Hes genes regulate size, shape and histogenesis of the nervous system by control of the timing of neural stem cell differentiation | Q28288889 | ||
Unique morphological features of the proliferative zones and postmitotic compartments of the neural epithelium giving rise to striate and extrastriate cortex in the monkey | Q28365826 | ||
Characterization of CNS precursor subtypes and radial glia | Q28508337 | ||
LRP2/megalin is required for patterning of the ventral telencephalon | Q28511442 | ||
Syntaxin 2 and endobrevin are required for the terminal step of cytokinesis in mammalian cells | Q28571407 | ||
Prominin, a novel microvilli-specific polytopic membrane protein of the apical surface of epithelial cells, is targeted to plasmalemmal protrusions of non-epithelial cells | Q28585056 | ||
Loss of cell polarity causes severe brain dysplasia in Lgl1 knockout mice | Q28586326 | ||
Association of ASIP/mPAR-3 with adherens junctions of mouse neuroepithelial cells | Q28589354 | ||
Structural abnormalities develop in the brain after ablation of the gene encoding nonmuscle myosin II-B heavy chain | Q28589563 | ||
Multiple dose-dependent effects of Lis1 on cerebral cortical development | Q28589891 | ||
Astrocytes give rise to new neurons in the adult mammalian hippocampus. | Q43732532 | ||
Dividing precursor cells of the embryonic cortical ventricular zone have morphological and molecular characteristics of radial glia. | Q43954502 | ||
Increased neuronal production, enlarged forebrains and cytoarchitectural distortions in beta-catenin overexpressing transgenic mice | Q44451911 | ||
beta-Catenin signals regulate cell growth and the balance between progenitor cell expansion and differentiation in the nervous system | Q44472635 | ||
An inhibition of cyclin-dependent kinases that lengthens, but does not arrest, neuroepithelial cell cycle induces premature neurogenesis | Q44660997 | ||
Expression of Cux-1 and Cux-2 in the subventricular zone and upper layers II-IV of the cerebral cortex | Q45081909 | ||
GFAP-expressing progenitors are the principal source of constitutive neurogenesis in adult mouse forebrain | Q45115346 | ||
Intrinsic polarity of mammalian neuroepithelial cells | Q46050711 | ||
Dynamics of Cux2 expression suggests that an early pool of SVZ precursors is fated to become upper cortical layer neurons. | Q47238132 | ||
Asymmetric production of surface-dividing and non-surface-dividing cortical progenitor cells | Q47401361 | ||
Regionalization and fate specification in neurospheres: the role of Olig2 and Pax6. | Q47775926 | ||
Radial glia serve as neuronal progenitors in all regions of the central nervous system | Q47874917 | ||
Role of beta-catenin in the developing cortical and hippocampal neuroepithelium | Q48155430 | ||
Sonic hedgehog is required for progenitor cell maintenance in telencephalic stem cell niches. | Q48199490 | ||
Cell cycle parameters and patterns of nuclear movement in the neocortical proliferative zone of the fetal mouse. | Q48339845 | ||
LeX/ssea-1 is expressed by adult mouse CNS stem cells, identifying them as nonependymal. | Q48472909 | ||
Fibroblast growth factor-2 (FGF-2) and platelet-derived growth factor AB (PDGF AB) promote adult SVZ-derived oligodendrogenesis in vivo. | Q48534083 | ||
Emx2 promotes symmetric cell divisions and a multipotential fate in precursors from the cerebral cortex. | Q48645300 | ||
Adult rodent neurogenic regions: the ventricular subependyma contains neural stem cells, but the dentate gyrus contains restricted progenitors. | Q48668711 | ||
AC133 antigen, CD133, prominin-1, prominin-2, etc.: prominin family gene products in need of a rational nomenclature. | Q48722555 | ||
The activity of microtubules and microfilaments in neurulation in the chick. | Q48733666 | ||
A PDGF-regulated immediate early gene response initiates neuronal differentiation in ventricular zone progenitor cells. | Q48739410 | ||
Cell fate specification and symmetrical/asymmetrical divisions in the developing cerebral cortex. | Q48765103 | ||
A unified hypothesis on the lineage of neural stem cells. | Q48930382 | ||
Clonal and population analyses demonstrate that an EGF-responsive mammalian embryonic CNS precursor is a stem cell. | Q49011276 | ||
Absence of the tight junctional protein AF-6 disrupts epithelial cell-cell junctions and cell polarity during mouse development. | Q52174756 | ||
Loss of occludin and functional tight junctions, but not ZO-1, during neural tube closure--remodeling of the neuroepithelium prior to neurogenesis. | Q52198071 | ||
Evidence for multiple precursor cell types in the embryonic rat cerebral cortex. | Q52208112 | ||
The hyh mutation uncovers roles for alpha Snap in apical protein localization and control of neural cell fate | Q28592768 | ||
Regulation of notch signaling activity | Q28610136 | ||
Membrane fusion and exocytosis | Q29614426 | ||
Regulation of cerebral cortical size by control of cell cycle exit in neural precursors | Q29615158 | ||
Neuronal replacement from endogenous precursors in the adult brain after stroke | Q29615772 | ||
Pax6, Tbr2, and Tbr1 are expressed sequentially by radial glia, intermediate progenitor cells, and postmitotic neurons in developing neocortex | Q29616194 | ||
ASPM is a major determinant of cerebral cortical size | Q29618492 | ||
Mitotic spindle rotation and mode of cell division in the developing telencephalon | Q30477646 | ||
Telencephalic neural progenitors appear to be restricted to regional and glial fates before the onset of neurogenesis. | Q30702693 | ||
Evidence of newly generated neurons in the human olfactory bulb | Q33204610 | ||
Radial arrangement of clonally related cells in the chicken optic tectum: lineage analysis with a recombinant retrovirus | Q33652705 | ||
Membrane traffic in polarized epithelial cells | Q33954492 | ||
Genetic dissection of cytokinesis | Q34088356 | ||
Asymmetric inheritance of radial glial fibers by cortical neurons | Q34092179 | ||
Glial cells generate neurons: the role of the transcription factor Pax6. | Q34118701 | ||
Cell cycle and cell fate in the nervous system. | Q34141459 | ||
Prominin: a story of cholesterol, plasma membrane protrusions and human pathology. | Q34180122 | ||
LDL Receptor‐Related Proteins in Neurodevelopment | Q34192711 | ||
Mechanism of action of cytochalasin B on actin | Q34272923 | ||
Asymmetric cell division during animal development | Q34286348 | ||
A small step for the cell, a giant leap for mankind: a hypothesis of neocortical expansion during evolution | Q34289050 | ||
Cleavage orientation and the asymmetric inheritance of Notch1 immunoreactivity in mammalian neurogenesis | Q34304333 | ||
Asymmetric cell division. | Q34326914 | ||
Intercellular junctions and cellular polarity: the PAR-aPKC complex, a conserved core cassette playing fundamental roles in cell polarity. | Q34360639 | ||
The leaving or Q fraction of the murine cerebral proliferative epithelium: a general model of neocortical neuronogenesis. | Q34398196 | ||
Animal cell cytokinesis | Q34425177 | ||
Asymmetric cell division in the Drosophila nervous system | Q34443636 | ||
Identification of a neural stem cell in the adult mammalian central nervous system | Q34492720 | ||
Designer skin: lineage commitment in postnatal epidermis | Q34616032 | ||
Radial glial cells as neuronal precursors: a new perspective on the correlation of morphology and lineage restriction in the developing cerebral cortex of mice | Q34657593 | ||
Lipoprotein receptors in the nervous system | Q34667437 | ||
A common progenitor for neurons and glia persists in rat retina late in development | Q34691194 | ||
Smooth, rough and upside-down neocortical development | Q34699435 | ||
Interkinetic nuclear movement in the vertebrate neuroepithelium: encounters with an old acquaintance. | Q34764141 | ||
Nuclear positioning: the means is at the ends | Q35041094 | ||
Diversifying neural cells through order of birth and asymmetry of division | Q35044529 | ||
Induction and patterning of neuronal development, and its connection to cell cycle control | Q35068973 | ||
Cell cycle and cell fate interactions in neural development | Q35068976 | ||
Neurons from radial glia: the consequences of asymmetric inheritance | Q35068980 | ||
Radial glia diversity: a matter of cell fate | Q35133543 | ||
Neurogenesis and the Cell Cycle | Q35558404 | ||
Glial Cells Generate Neurons—Master Control within CNS Regions: Developmental Perspectives on Neural Stem Cells | Q35568678 | ||
Asymmetric cell division during neurogenesis in Drosophila and vertebrates. | Q35586721 | ||
Regeneration of a germinal layer in the adult mammalian brain | Q35659097 | ||
Microdomains of distinctive glycoprotein composition in the kidney proximal tubule brush border | Q36210654 | ||
Glial-neuronal relationship in the developing central nervous system. A histochemical-electron microscope study of radial glial cell particulate glycogen in normal and reeler mice and the human fetus | Q36497643 | ||
Orientation of spindle axis and distribution of plasma membrane proteins during cell division in polarized MDCKII cells | Q36534977 | ||
Systematic widespread clonal organization in cerebral cortex | Q36690947 | ||
Microtubules, interkinetic nuclear migration and neurulation | Q39718354 | ||
Constructing the cerebral cortex: Neurogenesis and fate determination | Q40423295 | ||
Unique astrocyte ribbon in adult human brain contains neural stem cells but lacks chain migration | Q40530477 | ||
Retinal pigment epithelial cells exhibit unique expression and localization of plasma membrane syntaxins which may contribute to their trafficking phenotype | Q40692384 | ||
Retention of prominin in microvilli reveals distinct cholesterol-based lipid micro-domains in the apical plasma membrane. | Q40855892 | ||
A mammalian PAR-3-PAR-6 complex implicated in Cdc42/Rac1 and aPKC signalling and cell polarity | Q40862977 | ||
Asymmetric distribution of the apical plasma membrane during neurogenic divisions of mammalian neuroepithelial cells | Q40901854 | ||
Asymmetric division and polarity of neuroepithelial cells. | Q41353316 | ||
Neuroepithelial cells downregulate their plasma membrane polarity prior to neural tube closure and neurogenesis | Q41486628 | ||
Mitotic spindle fiber orientation in relation to cell migration in the neo-cortex of normal and reeler mouse | Q41702252 | ||
Protein-truncating mutations in ASPM cause variable reduction in brain size | Q41921770 | ||
Neuronal or glial progeny: regional differences in radial glia fate | Q42438070 | ||
Morphological asymmetry in dividing retinal progenitor cells | Q42443750 | ||
Pax6 controls radial glia differentiation in the cerebral cortex | Q42465397 | ||
A critical function of the pial basement membrane in cortical histogenesis. | Q42523813 | ||
Interkinetic nuclear movement may provide spatial clues to the regulation of neurogenesis | Q42527299 | ||
PC3 overexpression affects the pattern of cell division of rat cortical precursors. | Q42807902 | ||
Deregulation of dorsoventral patterning by FGF confers trilineage differentiation capacity on CNS stem cells in vitro | Q43420458 | ||
Beta1-class integrins regulate the development of laminae and folia in the cerebral and cerebellar cortex | Q43715204 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell biology | Q7141 |
neurogenesis | Q1456827 | ||
P304 | page(s) | 777-88 | |
P577 | publication date | 2005-10-01 | |
P1433 | published in | Nature Reviews Molecular Cell Biology | Q1573120 |
P1476 | title | The cell biology of neurogenesis | |
P478 | volume | 6 |
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Q37085475 | Cross-species Analyses Unravel the Complexity of H3K27me3 and H4K20me3 in the Context of Neural Stem Progenitor Cells. |
Q37030504 | Crucial Role of Rapgef2 and Rapgef6, a Family of Guanine Nucleotide Exchange Factors for Rap1 Small GTPase, in Formation of Apical Surface Adherens Junctions and Neural Progenitor Development in the Mouse Cerebral Cortex |
Q37217373 | Crucial roles of the Arp2/3 complex during mammalian corticogenesis. |
Q30513948 | Cyclin D2 in the basal process of neural progenitors is linked to non-equivalent cell fates. |
Q42146146 | CyclinD2 at the edge: splitting up cell fate |
Q30485002 | Cytokinesis of neuroepithelial cells can divide their basal process before anaphase |
Q42509415 | Cytological organization of the central gelatinosa in the turtle spinal cord |
Q51739178 | Cytoskeletal Associated Filamin A and RhoA Affect Neural Progenitor Specification During Mitosis. |
Q35238551 | Cytoskeletal proteins in cortical development and disease: actin associated proteins in periventricular heterotopia |
Q28585480 | DISC1-dependent switch from progenitor proliferation to migration in the developing cortex |
Q38763766 | DNA methylation dynamics in neurogenesis |
Q28512742 | DOCK7 interacts with TACC3 to regulate interkinetic nuclear migration and cortical neurogenesis |
Q40773653 | DYRK1A-mediated Cyclin D1 Degradation in Neural Stem Cells Contributes to the Neurogenic Cortical Defects in Down Syndrome |
Q38748572 | Decoding the ubiquitous role of microRNAs in neurogenesis |
Q41495770 | Deletion of RIC8A in neural precursor cells leads to altered neurogenesis and neonatal lethality of mouse |
Q92634454 | Derepression of sonic hedgehog signaling upon Gpr161 deletion unravels forebrain and ventricular abnormalities |
Q34175520 | Destroy to create: E3 ubiquitin ligases in neurogenesis |
Q37777403 | Development and regeneration of projection neuron subtypes of the cerebral cortex. |
Q37061975 | Development of the human cerebral cortex: Boulder Committee revisited |
Q38701682 | Developmental neurogenesis in mouse and Xenopus is impaired in the absence of Nosip |
Q37986550 | Developmental origin of neural stem cells: the glial cell that could |
Q31052469 | Developmental regulation and spatiotemporal redistribution of the sumoylation machinery in the rat central nervous system. |
Q28973606 | Differences and similarities between human and chimpanzee neural progenitors during cerebral cortex development |
Q36216947 | Differences in the Mechanical Properties of the Developing Cerebral Cortical Proliferative Zone between Mice and Ferrets at both the Tissue and Single-Cell Levels |
Q51030143 | Different reaction patterns of dopamine content to prenatal exposure to chlorpyrifos in different periods. |
Q37111721 | Differential subcellular localization of the glucocorticoid receptor in distinct neural stem and progenitor populations of the mouse telencephalon in vivo |
Q35190059 | Differential temporal expression of S100β in developing rat brain |
Q38854587 | Dimensionality of Rolled-up Nanomembranes Controls Neural Stem Cell Migration Mechanism |
Q30539951 | Direct visualization of cell division using high-resolution imaging of M-phase of the cell cycle |
Q34473862 | Discrete domains of gene expression in germinal layers distinguish the development of gyrencephaly. |
Q38627287 | Discs large 5 is required for polarization of citron kinase in mitotic neural precursors |
Q26252573 | Dishing out mini-brains: Current progress and future prospects in brain organoid research |
Q48463851 | Disrupted ERK signaling during cortical development leads to abnormal progenitor proliferation, neuronal and network excitability and behavior, modeling human neuro-cardio-facial-cutaneous and related syndromes. |
Q45377825 | Disruption of CDH2/N-cadherin-based adherens junctions leads to apoptosis of ependymal cells and denudation of brain ventricular walls |
Q21144903 | Disruption of mouse Cenpj, a regulator of centriole biogenesis, phenocopies Seckel syndrome |
Q28481503 | Distinct regulatory functions of calpain 1 and 2 during neural stem cell self-renewal and differentiation |
Q37457941 | Dividing cellular asymmetry: asymmetric cell division and its implications for stem cells and cancer |
Q52713614 | Downregulation of Notch mediates the seamless transition of individual Drosophila neuroepithelial progenitors into optic medullar neuroblasts during prolonged G1. |
Q51907600 | Draxin is involved in the proper development of the dI3 interneuron in chick spinal cord. |
Q84393849 | Drosha regulates neurogenesis by controlling neurogenin 2 expression independent of microRNAs |
Q35131090 | Drosophila twin spot clones reveal cell division dynamics in regenerating imaginal discs |
Q46477736 | Dusp16 Deficiency Causes Congenital Obstructive Hydrocephalus and Brain Overgrowth by Expansion of the Neural Progenitor Pool |
Q30494074 | Dynamic Force Generation by Neural Stem Cells. |
Q28507651 | Dynamic FoxG1 expression coordinates the integration of multipolar pyramidal neuron precursors into the cortical plate |
Q33745115 | Dynamic distribution of histone H4 arginine 3 methylation marks in the developing murine cortex |
Q38213653 | Dynamic expression and roles of Hes factors in neural development. |
Q42095386 | Dynamic expression of notch signaling genes in neural stem/progenitor cells |
Q40741925 | Dynamics and function of distal regulatory elements during neurogenesis and neuroplasticity. |
Q47571126 | Dynamics of RNA Polymerase II Pausing and Bivalent Histone H3 Methylation during Neuronal Differentiation in Brain Development |
Q91329903 | Dynamics of cortical progenitors and production of subcerebral neurons are altered in embryos of a maternal inflammation model for autism |
Q42910504 | Dynein recruitment to nuclear pores activates apical nuclear migration and mitotic entry in brain progenitor cells |
Q92493187 | Dysregulation of microRNA metabolism in motor neuron diseases: Novel biomarkers and potential therapeutics |
Q36439974 | Dystroglycan on radial glia end feet is required for pial basement membrane integrity and columnar organization of the developing cerebral cortex. |
Q42512858 | Dystroglycan regulates structure, proliferation and differentiation of neuroepithelial cells in the developing vertebrate CNS. |
Q90616642 | ECE2 regulates neurogenesis and neuronal migration during human cortical development |
Q34107070 | EGF transactivation of Trk receptors regulates the migration of newborn cortical neurons |
Q38677439 | EMT- and MET-related processes in nonepithelial tumors: importance for disease progression, prognosis, and therapeutic opportunities. |
Q36678793 | EVA1A/TMEM166 Regulates Embryonic Neurogenesis by Autophagy |
Q50422244 | Early emergence of cortical interneuron diversity in the mouse embryo. |
Q51191321 | Early evolution of radial glial cells in Bilateria. |
Q38675341 | Ect2, an ortholog of Drosophila Pebble, regulates formation of growth cones in primary cortical neurons |
Q28586505 | Ect2, an ortholog of Drosophila's pebble, negatively regulates neurite outgrowth in neuroblastoma × glioma hybrid NG108-15 cells |
Q36552314 | Effects of ethanol exposure in utero on Cajal-Retzius cells in the developing cortex |
Q42717876 | Efficient and Fast Differentiation of Human Neural Stem Cells from Human Embryonic Stem Cells for Cell Therapy |
Q30539221 | Elevated Id2 expression results in precocious neural stem cell depletion and abnormal brain development |
Q27344252 | Elucidating the Role of Injury-Induced Electric Fields (EFs) in Regulating the Astrocytic Response to Injury in the Mammalian Central Nervous System |
Q27321794 | Embryonic cerebrospinal fluid nanovesicles carry evolutionarily conserved molecules and promote neural stem cell amplification |
Q42352787 | Embryonic origin and lineage hierarchies of the neural progenitor subtypes building the zebrafish adult midbrain |
Q38331581 | Emergence of neuronal diversity from patterning of telencephalic progenitors. |
Q35307501 | Emergence of rich-club topology and coordinated dynamics in development of hippocampal functional networks in vitro |
Q28083150 | Emerging roles of Axin in cerebral cortical development |
Q38017628 | Emerging roles of neural stem cells in cerebral cortex development and evolution. |
Q35164097 | Endogenous gradients of resting potential instructively pattern embryonic neural tissue via Notch signaling and regulation of proliferation. |
Q42498876 | Enhanced Abventricular Proliferation Compensates Cell Death in the Embryonic Cerebral Cortex. |
Q41718120 | Ephrin-A2 regulates excitatory neuron differentiation and interneuron migration in the developing neocortex |
Q55292495 | Epigenetic Regulation by BAF Complexes Limits Neural Stem Cell Proliferation by Suppressing Wnt Signaling in Late Embryonic Development. |
Q55037574 | Epigenetic and Transcriptional Pre-patterning—An Emerging Theme in Cortical Neurogenesis. |
Q38873613 | Epigenetic mechanisms in neurogenesis |
Q52718722 | Epigenetics and epitranscriptomics in temporal patterning of cortical neural progenitor competence. |
Q38648105 | Epigenome profiling and editing of neocortical progenitor cells during development. |
Q33321684 | Er81 is a downstream target of Pax6 in cortical progenitors |
Q35685419 | Essential role of PDZ-RGS3 in the maintenance of neural progenitor cells |
Q48283634 | Essential roles of Notch signaling in maintenance of neural stem cells in developing and adult brains. |
Q37463169 | Establishment of axon-dendrite polarity in developing neurons. |
Q54974230 | Estradiol and the Development of the Cerebral Cortex: An Unexpected Role? |
Q36476127 | Ethanol induces cytostasis of cortical basal progenitors |
Q52348097 | Evolution and cell-type specificity of human-specific genes preferentially expressed in progenitors of fetal neocortex. |
Q37133547 | Evolutionary conservation of mechanisms for neural regionalization, proliferation and interconnection in brain development |
Q36808855 | Evolutionary forces shape the human RFPL1,2,3 genes toward a role in neocortex development |
Q49438347 | Exploring the Complexity of Cortical Development Using Single-Cell Transcriptomics. |
Q36837001 | Expression and subcellular distribution of imp13 are regulated in brain development |
Q34408296 | Expression of aromatase in radial glial cells in the brain of the Japanese eel provides insight into the evolution of the cyp191a gene in Actinopterygians |
Q91642100 | Expression of radial glial markers (GFAP, BLBP and GS) during telencephalic development in the catshark (Scyliorhinus canicula) |
Q35190520 | Expression patterns of astrocyte elevated gene-1 (AEG-1) during development of the mouse embryo |
Q26864155 | Extra-cell cycle regulatory functions of cyclin-dependent kinases (CDK) and CDK inhibitor proteins contribute to brain development and neurological disorders |
Q27014292 | Extracellular matrix and the neural stem cell niche |
Q90455014 | Extracellular matrix-inducing Sox9 promotes both basal progenitor proliferation and gliogenesis in developing neocortex |
Q47244719 | F3/Contactin acts as a modulator of neurogenesis during cerebral cortex development. |
Q90206200 | FAM19A5 Expression During Embryogenesis and in the Adult Traumatic Brain of FAM19A5-LacZ Knock-in Mice |
Q34481977 | FAT1 cadherin acts upstream of Hippo signalling through TAZ to regulate neuronal differentiation. |
Q42479857 | FGF signaling gradient maintains symmetrical proliferative divisions of midbrain neuronal progenitors |
Q47131782 | FOXP1 Promotes Embryonic Neural Stem Cell Differentiation by Repressing Jagged1 Expression |
Q49478610 | Failure of the PTEN/aPKC/Lgl Axis Primes Formation of Adult Brain Tumours in Drosophila. |
Q52722595 | Fat/Hippo pathway regulates the progress of neural differentiation signaling in the Drosophila optic lobe. |
Q43155204 | Fgf receptor 3 activation promotes selective growth and expansion of occipitotemporal cortex |
Q28589482 | Fgf10 regulates transition period of cortical stem cell differentiation to radial glia controlling generation of neurons and basal progenitors |
Q33983095 | Filamin A mediated Big2 dependent endocytosis: From apical abscission to periventricular heterotopia |
Q30492178 | Forced G1-phase reduction alters mode of division, neuron number, and laminar phenotype in the cerebral cortex. |
Q34949959 | Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke |
Q52691304 | Formin 2 Regulates Lysosomal Degradation of Wnt-Associated β-Catenin in Neural Progenitors. |
Q28078983 | From migration to settlement: the pathways, migration modes and dynamics of neurons in the developing brain |
Q64107940 | Functional Integration of Newborn Neurons in the Zebrafish Optic Tectum |
Q90464925 | Functional Roles of Protein Phosphatase 4 in Multiple Aspects of Cellular Physiology: A Friend and A Foe |
Q35564819 | Functions of GSK-3 Signaling in Development of the Nervous System. |
Q47635299 | Functions of Maternally-Derived Taurine in Fetal and Neonatal Brain Development |
Q35623850 | GRM7 regulates embryonic neurogenesis via CREB and YAP. |
Q37670059 | GSK-3 is a master regulator of neural progenitor homeostasis |
Q48481509 | GSK3 temporally regulates neurogenin 2 proneural activity in the neocortex. |
Q64977436 | Gangliosides in Nerve Cell Specification. |
Q49084439 | Gas1 is present in germinal niches of developing dentate gyrus and cortex. |
Q49158436 | Geminin regulates cortical progenitor proliferation and differentiation. |
Q84145900 | Generation and identification of rat fetal cerebral radial glia-like cells in vitro |
Q38811442 | Generation of improved human cerebral organoids from single copy DYRK1A knockout induced pluripotent stem cells in trisomy 21: hypothetical solutions for neurodevelopmental models and therapeutic alternatives in down syndrome |
Q93087881 | Genes and Mechanisms Involved in the Generation and Amplification of Basal Radial Glial Cells |
Q39285656 | Genetic and Molecular Approaches to Study Neuronal Migration in the Developing Cerebral Cortex |
Q35043947 | Genetic deletion of afadin causes hydrocephalus by destruction of adherens junctions in radial glial and ependymal cells in the midbrain |
Q47717598 | Genetic insights into the neurodevelopmental origins of schizophrenia |
Q42168352 | Genetic lineage tracing defines distinct neurogenic and gliogenic stages of ventral telencephalic radial glial development |
Q33576009 | Genetic mechanisms regulating stem cell self-renewal and differentiation in the central nervous system of Drosophila |
Q34604171 | Genetic mosaic dissection of Lis1 and Ndel1 in neuronal migration |
Q37808270 | Genetic regulation of human brain development: lessons from Mendelian diseases |
Q38042806 | Genetic visualization of notch signaling in mammalian neurogenesis |
Q28591740 | Genome-wide analysis of N1ICD/RBPJ targets in vivo reveals direct transcriptional regulation of Wnt, SHH, and hippo pathway effectors by Notch1 |
Q48850164 | Germinal zones in the developing cerebral cortex of ferret: ontogeny, cell cycle kinetics, and diversity of progenitors. |
Q38273296 | Give it a REST! |
Q58733466 | Gli3 controls the onset of cortical neurogenesis by regulating the radial glial cell cycle through expression |
Q28507310 | Gli3 is required for maintenance and fate specification of cortical progenitors |
Q38225513 | Glial cells as progenitors and stem cells: new roles in the healthy and diseased brain |
Q36822949 | Glutamate-mediated neuronal-glial transmission |
Q90543357 | Glycine Promotes the Survival of a Subpopulation of Neural Stem Cells |
Q48602731 | Go with the flow: signaling from the ventricle directs neuroblast migration. |
Q46943461 | Group I mGluR5 metabotropic glutamate receptors regulate proliferation of neuronal progenitors in specific forebrain developmental domains. |
Q33793899 | Growth of the developing cerebral cortex is controlled by microRNA-7 through the p53 pathway |
Q35691833 | Gα subunit coordinates with ephrin-B to balance self-renewal and differentiation in neural progenitor cells. |
Q39614219 | Haploinsufficiency of MeCP2-interacting transcriptional co-repressor SIN3A causes mild intellectual disability by affecting the development of cortical integrity. |
Q37853118 | Heads-up: new roles for the fragile X mental retardation protein in neural stem and progenitor cells |
Q36546951 | Hes4 controls proliferative properties of neural stem cells during retinal ontogenesis |
Q37503801 | Heterocellular Contacts with Mouse Brain Endothelial Cells Via Laminin and α6β1 Integrin Sustain Subventricular Zone (SVZ) Stem/Progenitor Cells Properties. |
Q43477019 | Heterogeneity and Fgf dependence of adult neural progenitors in the zebrafish telencephalon |
Q27334307 | Heterogenic final cell cycle by chicken retinal Lim1 horizontal progenitor cells leads to heteroploid cells with a remaining replicated genome |
Q28505706 | Hex homeobox gene controls the transition of the endoderm to a pseudostratified, cell emergent epithelium for liver bud development |
Q64074720 | High Hes1 expression and resultant Ascl1 suppression regulate quiescent vs. active neural stem cells in the adult mouse brain |
Q64986507 | Histamine Modulates Midbrain Dopamine Neuron Differentiation Through the Regulation of Epigenetic Marks. |
Q38024865 | Histamine in brain development |
Q48119260 | Histology Atlas of the Developing Prenatal and Postnatal Mouse Central Nervous System, with Emphasis on Prenatal Days E7.5 to E18.5. |
Q38774979 | Histone variant H3.3 orchestrates neural stem cell differentiation in the developing brain |
Q26739757 | Horizontal Cells, the Odd Ones Out in the Retina, Give Insights into Development and Disease |
Q64234093 | How the extracellular matrix shapes neural development |
Q41865122 | How to keep proliferative neural stem/progenitor cells: a critical role of asymmetric inheritance of cyclin D2 |
Q38270480 | How to make neurons--thoughts on the molecular logic of neurogenesis in the central nervous system |
Q93370163 | Human SPG11 cerebral organoids reveal cortical neurogenesis impairment |
Q30562410 | Human cerebral cortex development from pluripotent stem cells to functional excitatory synapses |
Q40223964 | Human cytomegalovirus infection dysregulates neural progenitor cell fate by disrupting Hes1 rhythm and down-regulating its expression. |
Q28595116 | Human iPSC-Derived Cerebral Organoids Model Cellular Features of Lissencephaly and Reveal Prolonged Mitosis of Outer Radial Glia |
Q40074530 | Human pluripotent stem cell-derived radial glia recapitulate developmental events and provide real-time access to cortical neurons and astrocytes |
Q60931384 | Human-specific induces hallmarks of neocortical expansion in developing ferret neocortex |
Q47762981 | Hypothalamic Dysfunction in Obesity and Metabolic Disorders |
Q34277772 | Identification and characterisation of the early differentiating cells in neural differentiation of human embryonic stem cells |
Q42112688 | Identification of Radial Glia Progenitors in the Developing and Adult Retina of Sharks. |
Q51818522 | Identification of a novel antagonist of the ErbB1 receptor capable of inhibiting migration of human glioblastoma cells. |
Q46693293 | Identification of midbrain floor plate radial glia-like cells as dopaminergic progenitors |
Q41436986 | Identification of novel radiation-induced p53-dependent transcripts extensively regulated during mouse brain development |
Q37372491 | Identity crisis for adult periventricular neural stem cells: subventricular zone astrocytes, ependymal cells or both? |
Q51889222 | Immunohistochemical analyses of NPAS3 expression in the developing human fetal brain. |
Q36707599 | Immunohistochemical markers of neural progenitor cells in the early embryonic human cerebral cortex |
Q26862299 | Impact of lipid nutrition on neural stem/progenitor cells |
Q40309459 | Impaired cortical neurogenesis in plexin-B1 and -B2 double deletion mutant. |
Q34597362 | Impaired neurogenesis and cardiovascular development in mice lacking the E3 ubiquitin ligases UBR1 and UBR2 of the N-end rule pathway. |
Q21091164 | Impaired terminal differentiation of hippocampal granule neurons and defective contextual memory in PC3/Tis21 knockout mice |
Q48261389 | In Utero Exposure to Valproic Acid Induces Neocortical Dysgenesis via Dysregulation of Neural Progenitor Cell Proliferation/Differentiation. |
Q39266820 | In Vitro, Ex Vivo and In Vivo Techniques to Study Neuronal Migration in the Developing Cerebral Cortex. |
Q35228912 | In utero gene therapy rescues microcephaly caused by Pqbp1-hypofunction in neural stem progenitor cells |
Q41854867 | In vitro differentiation of mouse embryonic stem cells into neurons of the dorsal forebrain |
Q35072024 | In vivo clonal analysis reveals self-renewing and multipotent adult neural stem cell characteristics |
Q33894884 | In vivo fate analysis reveals the multipotent and self-renewal features of embryonic AspM expressing cells. |
Q30488562 | In vivo imaging reveals a role for Cdc42 in spindle positioning and planar orientation of cell divisions during vertebrate neural tube closure |
Q41952591 | In vivo targeting of adult neural stem cells in the dentate gyrus by a split-cre approach |
Q30514531 | In vivo time-lapse imaging of cell proliferation and differentiation in the optic tectum of Xenopus laevis tadpoles |
Q39992164 | Inactivation of Cdc42 in embryonic brain results in hydrocephalus with ependymal cell defects in mice |
Q41932134 | Inactivation of mTORC1 in the developing brain causes microcephaly and affects gliogenesis. |
Q61806965 | Increased Anxiety-Related Behavior, Impaired Cognitive Function and Cellular Alterations in the Brain of Cend1-deficient Mice |
Q34435526 | Increasing our understanding of human cognition through the study of Fragile X Syndrome |
Q33358143 | Induction of Olig2 precursors by FGF involves BMP signalling blockade at the Smad level |
Q36740046 | Insights into neural stem cell biology from flies. |
Q26749079 | Insights into the Biology and Therapeutic Applications of Neural Stem Cells |
Q36423540 | Instructive role of aPKCzeta subcellular localization in the assembly of adherens junctions in neural progenitors |
Q42443565 | Insulinoma-associated 1 has a panneurogenic role and promotes the generation and expansion of basal progenitors in the developing mouse neocortex |
Q37596072 | Integrative mechanisms of oriented neuronal migration in the developing brain |
Q46083495 | Inter-individual variation in genes governing human hippocampal progenitor differentiation in vitro is associated with hippocampal volume in adulthood |
Q26859279 | Interkinetic nuclear migration generates and opposes ventricular-zone crowding: insight into tissue mechanics |
Q38004613 | Interkinetic nuclear migration: a mysterious process in search of a function. |
Q41934993 | Interkinetic nuclear movement in the ventricular zone of the cortex. |
Q30490142 | Intermediate neuronal progenitors (basal progenitors) produce pyramidal-projection neurons for all layers of cerebral cortex |
Q35861867 | Intermediate progenitors are increased by lengthening of the cell cycle through calcium signaling and p53 expression in human neural progenitors |
Q38655945 | Interneuron Transplantation as a Treatment for Epilepsy |
Q41850752 | Intralineage directional Notch signaling regulates self-renewal and differentiation of asymmetrically dividing radial glia |
Q97568080 | Investigating cellular and molecular mechanisms of neurogenesis in Capitella teleta sheds light on the ancestor of Annelida |
Q38016502 | Involvement of claudins in zebrafish brain ventricle morphogenesis. |
Q37218343 | Ischemic stroke and neurogenesis in the subventricular zone |
Q34098232 | Isolation of radial glia-like neural stem cells from fetal and adult mouse forebrain via selective adhesion to a novel adhesive peptide-conjugate |
Q47771280 | Junctional Adhesion Molecules (JAMs): Cell Adhesion Receptors With Pleiotropic Functions in Cell Physiology and Development. |
Q34258577 | Kaede-centrin1 labeling of mother and daughter centrosomes in mammalian neocortical neural progenitors |
Q30572804 | Kif11 dependent cell cycle progression in radial glial cells is required for proper neurogenesis in the zebrafish neural tube |
Q38166377 | LIS1 and DCX: Implications for Brain Development and Human Disease in Relation to Microtubules. |
Q34282245 | Laminin regulates postnatal oligodendrocyte production by promoting oligodendrocyte progenitor survival in the subventricular zone |
Q88938502 | Laminin β2 Chain Regulates Retinal Progenitor Cell Mitotic Spindle Orientation via Dystroglycan |
Q37442451 | Late origin of glia-restricted progenitors in the developing mouse cerebral cortex |
Q28307694 | Late-stage neuronal progenitors in the retina are radial Müller glia that function as retinal stem cells |
Q42003080 | Lengthening the G(1) phase of neural progenitor cells is concurrent with an increase of symmetric neuron generating division after stroke |
Q42262235 | Lessons from the embryonic neural stem cell niche for neural lineage differentiation of pluripotent stem cells |
Q28590088 | Lfc and Tctex-1 regulate the genesis of neurons from cortical precursor cells |
Q36120417 | Lhx2 regulates the timing of β-catenin-dependent cortical neurogenesis |
Q41276721 | Lhx2 selector activity specifies cortical identity and suppresses hippocampal organizer fate. |
Q28585893 | Lhx2 specifies regional fate in Emx1 lineage of telencephalic progenitors generating cerebral cortex |
Q28505388 | Lis1 and Ndel1 influence the timing of nuclear envelope breakdown in neural stem cells |
Q27301092 | Live imaging at the onset of cortical neurogenesis reveals differential appearance of the neuronal phenotype in apical versus basal progenitor progeny |
Q50034921 | Live imaging of neurogenesis in the adult mouse hippocampus. |
Q64954447 | Long noncoding RNA Sox2ot and transcription factor YY1 co-regulate the differentiation of cortical neural progenitors by repressing Sox2. |
Q42505393 | Loss of Cdk2 and Cdk4 induces a switch from proliferation to differentiation in neural stem cells. |
Q38703396 | Loss of Elp3 Impairs the Acetylation and Distribution of Connexin-43 in the Developing Cerebral Cortex |
Q38624956 | Loss of Usp9x disrupts cell adhesion, and components of the Wnt and Notch signaling pathways in neural progenitors |
Q37242518 | Low level methylmercury enhances CNTF-evoked STAT3 signaling and glial differentiation in cultured cortical progenitor cells |
Q41161172 | Low-density lipoprotein receptor-related protein 1 is a novel modulator of radial glia stem cell proliferation, survival, and differentiation. |
Q37683341 | Lysine Acetylation and Deacetylation in Brain Development and Neuropathies |
Q34308268 | MACF1 regulates the migration of pyramidal neurons via microtubule dynamics and GSK-3 signaling |
Q34467761 | MALS-3 regulates polarity and early neurogenesis in the developing cerebral cortex |
Q37295265 | MARCKS modulates radial progenitor placement, proliferation and organization in the developing cerebral cortex |
Q33360486 | MCPH1: a window into brain development and evolution |
Q90634984 | MEKK3 coordinates with FBW7 to regulate WDR62 stability and neurogenesis |
Q91642290 | MR diffusion changes in the perimeter of the lateral ventricles demonstrate periventricular injury in post-hemorrhagic hydrocephalus of prematurity |
Q34033818 | MRG15, a component of HAT and HDAC complexes, is essential for proliferation and differentiation of neural precursor cells |
Q33957193 | Maintaining genome stability in the nervous system |
Q66679187 | Malformations of Human Neocortex in Development - Their Progenitor Cell Basis and Experimental Model Systems |
Q34220987 | Mammalian neurogenesis requires Treacle-Plk1 for precise control of spindle orientation, mitotic progression, and maintenance of neural progenitor cells. |
Q50793409 | Mapping differentiation kinetics in the mouse retina reveals an extensive period of cell cycle protein expression in post-mitotic newborn neurons. |
Q35914616 | Math5 defines the ganglion cell competence state in a subpopulation of retinal progenitor cells exiting the cell cycle. |
Q52717091 | Mathematical Modeling of Cortical Neurogenesis Reveals that the Founder Population does not Necessarily Scale with Neurogenic Output. |
Q43066434 | Mathematical modeling supports substantial mouse neural progenitor cell death |
Q33819268 | Matrix regulators in neural stem cell functions |
Q27307671 | Mechanical model of geometric cell and topological algorithm for cell dynamics from single-cell to formation of monolayered tissues with pattern |
Q39182203 | Mechanism of Consistent Gyrus Formation: an Experimental and Computational Study |
Q38921961 | Mechanisms of circumferential gyral convolution in primate brains |
Q36020215 | Mediator subunit Med12 contributes to the maintenance of neural stem cell identity. |
Q37644511 | Meningeal retinoic acid contributes to neocortical lamination and radial migration during mouse brain development |
Q42323261 | MiR-30e and miR-181d control radial glia cell proliferation via HtrA1 modulation |
Q37145598 | MicroRNA cluster miR-17-92 regulates neural stem cell expansion and transition to intermediate progenitors in the developing mouse neocortex |
Q37168678 | MicroRNA function is required for neurite outgrowth of mature neurons in the mouse postnatal cerebral cortex |
Q34691394 | MicroRNA-15b promotes neurogenesis and inhibits neural progenitor proliferation by directly repressing TET3 during early neocortical development |
Q47725862 | MicroRNA-338 modulates cortical neuronal placement and polarity |
Q36154268 | MicroRNA-34/449 controls mitotic spindle orientation during mammalian cortex development |
Q41910545 | MicroRNA-9 reveals regional diversity of neural progenitors along the anterior-posterior axis |
Q38215233 | MicroRNA-dependent genetic networks during neural development |
Q38715102 | MicroRNA-independent functions of DGCR8 are essential for neocortical development and TBR1 expression. |
Q33905890 | MicroRNAs in neural cell differentiation |
Q36223983 | MicroRNAs tune cerebral cortical neurogenesis |
Q26744819 | MicroRNAs: Key Regulators in the Central Nervous System and Their Implication in Neurological Diseases |
Q28658258 | Microcephaly genes evolved adaptively throughout the evolution of eutherian mammals |
Q35156816 | Microinjection of membrane-impermeable molecules into single neural stem cells in brain tissue |
Q26766239 | Microtubule plus-end tracking proteins in neuronal development |
Q28589546 | Midbody and primary cilium of neural progenitors release extracellular membrane particles enriched in the stem cell marker prominin-1 |
Q48306474 | Midkine, a heparin-binding growth factor, is expressed in neural precursor cells and promotes their growth. |
Q26750389 | Migration of bone marrow progenitor cells in the adult brain of rats and rabbits |
Q30513949 | Mitotic spindle orientation can direct cell fate and bias Notch activity in chick neural tube |
Q51987359 | Mitotic spindle orientation distinguishes stem cell and terminal modes of neuron production in the early spinal cord. |
Q51733167 | Mob2 Insufficiency Disrupts Neuronal Migration in the Developing Cortex. |
Q42957146 | Modeling spatial population dynamics of stem cell lineage in tissue growth |
Q42158662 | Modeling spatial population dynamics of stem cell lineage in wound healing and cancerogenesis |
Q37601942 | Modes and regulation of glial migration in vertebrates and invertebrates |
Q36016745 | Modular reorganization of the global network of gene regulatory interactions during perinatal human brain development. |
Q42084630 | Modulated DISP3/PTCHD2 expression influences neural stem cell fate decisions |
Q90622910 | Molecular Markers in the Study of Non-model Vertebrates: Their Significant Contributions to the Current Knowledge of Tetrapod Glial Cells and Fish Olfactory Neurons |
Q90348642 | Molecular and cellular evolution of corticogenesis in amniotes |
Q37716073 | Molecular control of brain size: regulators of neural stem cell life, death and beyond |
Q26865469 | Molecular control of neurogenesis: a view from the mammalian cerebral cortex |
Q36787582 | Molecular mechanism of liver development and regeneration |
Q37030402 | Molecular pathways regulating cytoskeletal organization and morphological changes in migrating neurons. |
Q34257463 | Monoamine oxidases regulate telencephalic neural progenitors in late embryonic and early postnatal development |
Q35077279 | Morphological and functional aspects of progenitors perturbed in cortical malformations |
Q38799056 | Mouse inscuteable induces apical-basal spindle orientation to facilitate intermediate progenitor generation in the developing neocortex |
Q59127521 | Multiple origins and modularity in the spatiotemporal emergence of cerebellar astrocyte heterogeneity |
Q41897447 | Multiple roles of beta-catenin in controlling the neurogenic niche for midbrain dopamine neurons. |
Q46692344 | Multipotent neural stem cells generate glial cells of the central complex through transit amplifying intermediate progenitors in Drosophila brain development |
Q57274937 | Mutations du gèneEML1/Eml1, progéniteurs neuronaux et hétérotopies chez l’homme et la souris |
Q28589137 | Mutations in genes encoding the cadherin receptor-ligand pair DCHS1 and FAT4 disrupt cerebral cortical development |
Q41481489 | MyT1 Counteracts the Neural Progenitor Program to Promote Vertebrate Neurogenesis. |
Q37364161 | Myosin II is required for interkinetic nuclear migration of neural progenitors |
Q34039544 | Müller glia: Stem cells for generation and regeneration of retinal neurons in teleost fish |
Q48310418 | N-cadherin mediates cortical organization in the mouse brain. |
Q35931742 | N-cadherin specifies first asymmetry in developing neurons |
Q42381514 | N-cofilin is associated with neuronal migration disorders and cell cycle control in the cerebral cortex |
Q42976906 | NFIA controls telencephalic progenitor cell differentiation through repression of the Notch effector Hes1. |
Q37390226 | NFIX regulates neural progenitor cell differentiation during hippocampal morphogenesis |
Q37939016 | Ndel1, Nudel (Noodle): flexible in the cell? |
Q37158047 | Neocortical neurogenesis and neuronal migration |
Q37301122 | Neocortical neurogenesis: morphogenetic gradients and beyond |
Q100166231 | Nervous system development |
Q47137361 | Neural Progenitor Cell Polarity and Cortical Development |
Q55092080 | Neural Progenitors in the Developing Neocortex of the Northern Tree Shrew (Tupaia belangeri) Show a Closer Relationship to Gyrencephalic Primates Than to Lissencephalic Rodents. |
Q36580299 | Neural development is dependent on the function of specificity protein 2 in cell cycle progression |
Q38793343 | Neural progenitor cells and their role in the development and evolutionary expansion of the neocortex |
Q41963873 | Neural stem and progenitor cells shorten S-phase on commitment to neuron production |
Q24595273 | Neural stem cell specific fluorescent chemical probe binding to FABP7 |
Q37682597 | Neural stem cell systems: physiological players or in vitro entities? |
Q53757262 | Neural stem cell therapies and hypoxic-ischemic brain injury. |
Q38110960 | Neural stem cells as tools for drug discovery: novel platforms and approaches |
Q37085039 | Neural stem cells in the mammalian brain |
Q40177279 | Neural stem/progenitor cells express 20 tenascin C isoforms that are differentially regulated by Pax6. |
Q42467880 | Neural tube defects and impaired neural progenitor cell proliferation in Gbeta1-deficient mice |
Q27306719 | Neuregulin 1 Type II-ErbB Signaling Promotes Cell Divisions Generating Neurons from Neural Progenitor Cells in the Developing Zebrafish Brain |
Q42522587 | Neuroepithelial progenitors undergo LGN-dependent planar divisions to maintain self-renewability during mammalian neurogenesis. |
Q43072719 | Neuroepithelial stem cell proliferation requires LIS1 for precise spindle orientation and symmetric division. |
Q97646092 | Neurogenesis From Embryo to Adult - Lessons From Flies and Mice |
Q37183028 | Neurogenesis at the brain-cerebrospinal fluid interface |
Q37842603 | Neurogenesis in Alzheimer's disease |
Q47720809 | Neurogenesis in G minor |
Q92862290 | Neurogenesis in Neurodegenerative Diseases: Role of MFG-E8 |
Q37060311 | Neurogenesis in the Developing and Adult Brain-Similarities and Key Differences |
Q34579598 | Neurogenesis in the embryonic and adult brain: same regulators, different roles |
Q30538866 | Neurogenesis is required for behavioral recovery after injury in the visual system of Xenopus laevis |
Q41826040 | Neurogenesis requires TopBP1 to prevent catastrophic replicative DNA damage in early progenitors. |
Q56812374 | Neurogenic decisions require a cell cycle independent function of the CDC25B phosphatase |
Q39423411 | Neurogenic potential of hESC-derived human radial glia is amplified by human fetal cells |
Q29616182 | Neurogenic radial glia in the outer subventricular zone of human neocortex |
Q104069878 | Neuronal Hippo Signaling: From Development to Diseases |
Q27024970 | Neuronal migration and its disorders affecting the CA3 region |
Q29616190 | Neuronal subtype specification in the cerebral cortex |
Q42471204 | Neurons derive from the more apical daughter in asymmetric divisions in the zebrafish neural tube |
Q36254665 | Neuropathological sequelae of developmental exposure to antiepileptic and anesthetic drugs. |
Q37307355 | Neurorestorative therapies for stroke: underlying mechanisms and translation to the clinic |
Q96304807 | Neurotransmitters as Modulators of Neural Progenitor Cell Proliferation During Mammalian Neocortex Development |
Q38357019 | Neurovascular development uses VEGF-A signaling to regulate blood vessel ingression into the neural tube |
Q34975339 | Neurovascular development: The beginning of a beautiful friendship |
Q51889000 | New ependymal cells are born postnatally in two discrete regions of the mouse brain and support ventricular enlargement in hydrocephalus. |
Q38070254 | New insights into mechanisms of stem cell daughter fate determination in regenerative tissues. |
Q37135526 | New insights into purinergic receptor signaling in neuronal differentiation, neuroprotection, and brain disorders |
Q97639814 | New insights into the mechanism of dynein motor regulation by lissencephaly-1 |
Q37178169 | New insights into the molecular mechanisms specifying neuronal polarity in vivo |
Q63916938 | New tricks for an ancient system: Physiological and pathological roles of complement in the CNS |
Q33491268 | Niche-dependent development of functional neuronal networks from embryonic stem cell-derived neural populations |
Q30541458 | Ninein is essential for the maintenance of the cortical progenitor character by anchoring the centrosome to microtubules |
Q36261135 | Nitric Oxide Regulates Neurogenesis in the Hippocampus following Seizures. |
Q37683918 | Nkx2.1 regulates the generation of telencephalic astrocytes during embryonic development |
Q35579406 | Nkx2.1-derived astrocytes and neurons together with Slit2 are indispensable for anterior commissure formation |
Q34514308 | Non-canonical features of the Golgi apparatus in bipolar epithelial neural stem cells |
Q89725050 | Notch Signaling and Embryonic Development: An Ancient Friend, Revisited |
Q34080619 | Notch regulates the switch from symmetric to asymmetric neural stem cell division in the Drosophila optic lobe |
Q51893749 | Notch signaling regulates neuroepithelial stem cell maintenance and neuroblast formation in Drosophila optic lobe development. |
Q91776591 | Notch-mediated inhibition of neurogenesis is required for zebrafish spinal cord morphogenesis |
Q34796057 | Notch-regulated oligodendrocyte specification from radial glia in the spinal cord of zebrafish embryos |
Q92862310 | Novel Strategies for the Generation of Neuronal Diversity: Lessons From the Fly Visual System |
Q30494259 | Novel embryonic neuronal migration and proliferation defects in Dcx mutant mice are exacerbated by Lis1 reduction |
Q42165813 | Novel insights into mammalian embryonic neural stem cell division: focus on microtubules |
Q37318996 | Novel perspectives of neural stem cell differentiation: from neurotransmitters to therapeutics |
Q36846229 | Nuclear migration during retinal development |
Q28508056 | Nuclear pore composition regulates neural stem/progenitor cell differentiation in the mouse embryo |
Q36460476 | Nucleotide signaling in nervous system development |
Q28506397 | Numb and Numbl are required for maintenance of cadherin-based adhesion and polarity of neural progenitors |
Q41964186 | Numb is required for the production of terminal asymmetric cell divisions in the developing mouse retina. |
Q42470977 | OSVZ progenitors of human and ferret neocortex are epithelial-like and expand by integrin signaling |
Q47898518 | OTX1 regulates cell cycle progression of neural progenitors in the developing cerebral cortex |
Q38043462 | On the inscrutable role of Inscuteable: structural basis and functional implications for the competitive binding of NuMA and Inscuteable to LGN. |
Q35090315 | Ontogeny of CX3CR1-EGFP expressing cells unveil microglia as an integral component of the postnatal subventricular zone |
Q48433826 | Ontogeny of pioneer neurons in the antennal nervous system of the grasshopper Schistocerca gregaria. |
Q90675074 | Opposite Roles of Wnt7a and Sfrp1 in Modulating Proper Development of Neural Progenitors in the Mouse Cerebral Cortex |
Q37708281 | Optimizing neuronal differentiation from induced pluripotent stem cells to model ASD |
Q41874812 | Optix defines a neuroepithelial compartment in the optic lobe of the Drosophila brain |
Q63740160 | Organs to Cells and Cells to Organoids: The Evolution of Central Nervous System Modelling |
Q28270111 | Origin and progeny of reactive gliosis: A source of multipotent cells in the injured brain |
Q38924683 | Oxytocin and behavior: Lessons from knockout mice |
Q92556404 | P2X7 receptor signaling during adult hippocampal neurogenesis |
Q42735535 | PAF-AH Catalytic Subunits Modulate the Wnt Pathway in Developing GABAergic Neurons |
Q34082626 | PALS1 is essential for retinal pigment epithelium structure and neural retina stratification. |
Q39811653 | PAR-1 phosphorylates Mind bomb to promote vertebrate neurogenesis. |
Q36319259 | PAR1 specifies ciliated cells in vertebrate ectoderm downstream of aPKC. |
Q52689921 | PI3K regulates intraepithelial cell positioning through Rho GTP-ases in the developing neural tube. |
Q37148233 | PKC-dependent ERK phosphorylation is essential for P2X7 receptor-mediated neuronal differentiation of neural progenitor cells |
Q48363496 | Parkinson's disease-associated receptor GPR37 is an ER chaperone for LRP6. |
Q41878457 | Pathophysiological analyses of cortical malformation using gyrencephalic mammals |
Q92185693 | Patterning via local cell-cell interactions in developing systems |
Q40162177 | Patterns of laminins and integrins in the embryonic ventricular zone of the CNS. |
Q34256767 | Patterns of p57Kip2 expression in embryonic rat brain suggest roles in progenitor cell cycle exit and neuronal differentiation |
Q42834133 | Pax6 controls centriole maturation in cortical progenitors through Odf2. |
Q51999703 | Pax6 controls the proliferation rate of neuroepithelial progenitors from the mouse optic vesicle. |
Q34559489 | Pax6 interactions with chromatin and identification of its novel direct target genes in lens and forebrain |
Q38428260 | Pax6 mediates ß-catenin signaling for self-renewal and neurogenesis by neocortical radial glial stem cells |
Q47648858 | Perinatal Exposure to the Cyanotoxin β-N-Méthylamino-L-Alanine (BMAA) Results in Long-Lasting Behavioral Changes in Offspring-Potential Involvement of DNA Damage and Oxidative Stress. |
Q38166367 | Periventricular Heterotopia: Shuttling of Proteins through Vesicles and Actin in Cortical Development and Disease |
Q38919056 | Physiological functions and clinical implications of the N-end rule pathway |
Q38073822 | Physiology of the intrathecal bolus: the leptomeningeal route for macromolecule and particle delivery to CNS. |
Q52860108 | Pleiotropic Hes-1 Concomitant with its Differential Activation Mediates Neural Stem Cell Maintenance and Radial Glial Propensity in Developing Neocortex. |
Q61452256 | Polarity as a physiological modulator of cell function |
Q35145928 | Polarity transitions during neurogenesis and germinal zone exit in the developing central nervous system |
Q50738647 | Polarized neural stem cells derived from adult bone marrow stromal cells develop a rosette-like structure. |
Q47201484 | Positive selection on NIN, a gene involved in neurogenesis, and primate brain evolution |
Q34982823 | Post-proliferative immature radial glial cells female-specifically express aromatase in the medaka optic tectum |
Q38373387 | Postembryonic Fish Brain Proliferation Zones Exhibit Neuroepithelial-Type Gene Expression Profile |
Q41726190 | Postmitotic control of sensory area specification during neocortical development |
Q42427923 | Potentiation of temozolomide antitumor effect by purine receptor ligands able to restrain the in vitro growth of human glioblastoma stem cells |
Q38264470 | PrP(C) from stem cells to cancer. |
Q55341233 | Precise temporal regulation of alternative splicing during neural development. |
Q30455076 | Prenatal NMDA receptor antagonism impaired proliferation of neuronal progenitor, leading to fewer glutamatergic neurons in the prefrontal cortex |
Q96431868 | Prenatal stress causes intrauterine inflammation and serotonergic dysfunction, and long-term behavioral deficits through microbe- and CCL2-dependent mechanisms |
Q47632406 | Pretreatment with N-acetyl cysteine suppresses chronic reactive astrogliosis following maternal nanoparticle exposure during gestational period |
Q33629131 | Primary microcephaly: do all roads lead to Rome? |
Q35092621 | Primate-specific RFPL1 gene controls cell-cycle progression through cyclin B1/Cdc2 degradation. |
Q92524935 | Probing disrupted neurodevelopment in autism using human stem cell-derived neurons and organoids: An outlook into future diagnostics and drug development |
Q38241685 | Progenitor genealogy in the developing cerebral cortex |
Q47725901 | Progenitors in the Ependyma of the Spinal Cord: A Potential Resource for Self-Repair After Injury |
Q36612284 | Programming of neural cells by (endo)cannabinoids: from physiological rules to emerging therapies. |
Q37173865 | Progressive loss of PAX6, TBR2, NEUROD and TBR1 mRNA gradients correlates with translocation of EMX2 to the cortical plate during human cortical development |
Q26784363 | Proliferation control in neural stem and progenitor cells |
Q34081994 | Proliferative and transcriptional identity of distinct classes of neural precursors in the mammalian olfactory epithelium. |
Q35237532 | Prominin-1 (CD133) defines both stem and non-stem cell populations in CNS development and gliomas |
Q37422428 | Promotion of embryonic cortico-cerebral neuronogenesis by miR-124. |
Q64085816 | Promyelocytic leukemia zinc finger is involved in the formation of deep layer cortical neurons |
Q36742504 | Protection of neuronal diversity at the expense of neuronal numbers during nutrient restriction in the Drosophila visual system |
Q33314983 | Protein expression differs between neural progenitor cells from the adult rat brain subventricular zone and olfactory bulb |
Q35615414 | Protein expression profiles characterize distinct features of mouse cerebral cortices at different developmental stages |
Q24612598 | Protein tyrosine phosphatases expression during development of mouse superior colliculus |
Q28590734 | Pten coordinates retinal neurogenesis by regulating Notch signalling |
Q36863550 | Purinergic signalling in a latent stem cell niche of the rat spinal cord |
Q39836950 | Quantitative Phosphoproteomic Study Reveals that Protein Kinase A Regulates Neural Stem Cell Differentiation Through Phosphorylation of Catenin Beta-1 and Glycogen Synthase Kinase 3β. |
Q93088820 | Quantitative single-cell live imaging links HES5 dynamics with cell-state and fate in murine neurogenesis |
Q36583899 | RAB18, a protein associated with Warburg Micro syndrome, controls neuronal migration in the developing cerebral cortex. |
Q24656845 | RASSF7 is a member of a new family of RAS association domain-containing proteins and is required for completing mitosis |
Q41772077 | Rac1 deficiency in the forebrain results in neural progenitor reduction and microcephaly |
Q36215362 | Radial Glial Cell-Neuron Interaction Directs Axon Formation at the Opposite Side of the Neuron from the Contact Site |
Q38598854 | Radial Structure Scaffolds Convolution Patterns of Developing Cerebral Cortex. |
Q37158295 | Radial glia cells in the developing human brain |
Q28237232 | Radial glia: progenitor, pathway, and partner |
Q38199931 | Radial glial cell: critical functions and new perspective as a steroid synthetic cell |
Q38475231 | Reactive astrocytes as neural stem or progenitor cells: In vivo lineage, In vitro potential, and Genome-wide expression analysis |
Q26795531 | Real-time imaging of bHLH transcription factors reveals their dynamic control in the multipotency and fate choice of neural stem cells |
Q47155911 | Recapitulating cortical development with organoid culture in vitro and modeling abnormal spindle-like (ASPM related primary) microcephaly disease |
Q38132066 | Receptor tyrosine kinase (RTK) signalling in the control of neural stem and progenitor cell (NSPC) development |
Q91721059 | Reduced mTORC1-signalling in retinal progenitor cells leads to visual pathway dysfunction |
Q26744279 | Regeneration of Zebrafish CNS: Adult Neurogenesis |
Q24657707 | Regeneration of intervertebral disc by mesenchymal stem cells: potentials, limitations, and future direction |
Q39242350 | Regulation of Asymmetric Cell Division in Mammalian Neural Stem and Cancer Precursor Cells. |
Q93138954 | Regulation of active and quiescent somatic stem cells by Notch signaling |
Q38954776 | Regulation of adult neural progenitor cell functions by purinergic signaling |
Q34850564 | Regulation of cerebral cortex development by Rho GTPases: insights from in vivo studies. |
Q37587995 | Regulation of cerebral cortex size and folding by expansion of basal progenitors |
Q35007103 | Regulation of interkinetic nuclear migration by cell cycle-coupled active and passive mechanisms in the developing brain |
Q37092289 | Regulation of neural progenitor cell development in the nervous system |
Q36718369 | Regulation of neural progenitor cell state by ephrin-B |
Q43198871 | Regulation of neurocoel morphogenesis by Pard6 gamma b. |
Q38612196 | Regulation of neuronal migration, an emerging topic in autism spectrum disorders |
Q42380985 | Regulation of proliferation and histone acetylation in embryonic neural precursors by CREB/CREM signaling. |
Q30490012 | Regulation of radial glial survival by signals from the meninges. |
Q35606421 | Regulation of spindle orientation and neural stem cell fate in the Drosophila optic lobe |
Q37551644 | Relief of hypoxia by angiogenesis promotes neural stem cell differentiation by targeting glycolysis |
Q34585463 | Replication protein a links cell cycle progression and the onset of neurogenesis in Drosophila optic lobe development. |
Q41918825 | Retinoic acid controls early neurogenesis in the developing mouse cerebral cortex |
Q28592241 | Reverse engineering a mouse embryonic stem cell-specific transcriptional network reveals a new modulator of neuronal differentiation |
Q38008694 | Review: developmental origins of neural tumours: old idea, new approaches. |
Q36147929 | Rho GTPases in embryonic development |
Q37448289 | RhoG promotes neural progenitor cell proliferation in mouse cerebral cortex. |
Q93008084 | Robotic platform for microinjection into single cells in brain tissue |
Q39112166 | Robustness of differentiation cascades with symmetric stem cell division |
Q39186422 | Role for Lhx2 in corticogenesis through regulation of progenitor differentiation |
Q62485079 | Role of adherens junctions and apical-basal polarity of neural stem/progenitor cells in the pathogenesis of neurodevelopmental disorders: a novel perspective on congenital Zika syndrome |
Q37030395 | Role of intermediate progenitor cells in cerebral cortex development |
Q55071609 | Role of mTOR Complexes in Neurogenesis. |
Q51686800 | Role of mechanical factors in cortical folding development. |
Q28069656 | Role of miRNA-9 in Brain Development |
Q38171673 | Role of miRNAs and epigenetics in neural stem cell fate determination |
Q38935777 | Role of microglia in embryonic neurogenesis |
Q38185274 | Roles of chromatin remodeling BAF complex in neural differentiation and reprogramming |
Q37721761 | Roles of small regulatory RNAs in determining neuronal identity |
Q37224954 | S-phase duration is the main target of cell cycle regulation in neural progenitors of developing ferret neocortex |
Q35621518 | SAG/RBX2/ROC2 E3 ubiquitin ligase is essential for vascular and neural development by targeting NF1 for degradation |
Q42115041 | SRRM4-dependent neuron-specific alternative splicing of protrudin transcripts regulates neurite outgrowth. |
Q37308951 | SSEA-4 and YKL-40 positive progenitor subtypes in the subventricular zone of developing human neocortex |
Q28513877 | Scratch regulates neuronal migration onset via an epithelial-mesenchymal transition-like mechanism |
Q45346783 | Secretoneurin A regulates neurogenic and inflammatory transcriptional networks in goldfish (Carassius auratus) radial glia. |
Q46259034 | Sedative and anticonvulsant drugs suppress postnatal neurogenesis |
Q37786276 | Seeing beyond the average cell: branching process models of cell proliferation, differentiation, and death during mouse brain development |
Q38204950 | Self-organization of neural tissue architectures from pluripotent stem cells. |
Q28567530 | Self-renewing and differentiating properties of cortical neural stem cells are selectively regulated by basic fibroblast growth factor (FGF) signaling via specific FGF receptors |
Q48535125 | Sensory-specific modulation of adult neurogenesis in sensory structures is associated with the type of stem cell present in the neurogenic niche of the zebrafish brain. |
Q38073393 | Shaping our minds: stem and progenitor cell diversity in the mammalian neocortex |
Q51033060 | Shh-mediated centrosomal recruitment of PKA promotes symmetric proliferative neuroepithelial cell division. |
Q42471781 | Signal transducer and activator of transcription-3 maintains the stemness of radial glia at mid-neurogenesis. |
Q51961854 | Sirt1 contributes critically to the redox-dependent fate of neural progenitors. |
Q40854401 | Slit1b-Robo3 signaling and N-cadherin regulate apical process retraction in developing retinal ganglion cells. |
Q42151774 | Slowly dividing neural progenitors are an embryonic origin of adult neural stem cells |
Q33959953 | Small organelle, big responsibility: the role of centrosomes in development and disease |
Q33632312 | Smek promotes corticogenesis through regulating Mbd3's stability and Mbd3/NuRD complex recruitment to genes associated with neurogenesis |
Q28592695 | Snf2l regulates Foxg1-dependent progenitor cell expansion in the developing brain |
Q33838320 | Sonic hedgehog and notch signaling can cooperate to regulate neurogenic divisions of neocortical progenitors |
Q35521424 | Sox9 is critical for suppression of neurogenesis but not initiation of gliogenesis in the cerebellum |
Q33582688 | Sp8 and COUP-TF1 reciprocally regulate patterning and Fgf signaling in cortical progenitors. |
Q30842240 | Spatial distribution and characterization of non-apical progenitors in the zebrafish embryo central nervous system |
Q34749277 | Spatial distribution of prominin-1 (CD133)-positive cells within germinative zones of the vertebrate brain |
Q55456263 | Spatio-temporal neural stem cell behavior leads to both perfect and imperfect structural brain regeneration in adult newts. |
Q92661715 | Spatiotemporal Regulation of Rho GTPases in Neuronal Migration |
Q41102498 | Spatiotemporal analyses of neural lineages after embryonic and postnatal progenitor targeting combining different reporters |
Q28592118 | Spatiotemporal expression and transcriptional perturbations by long noncoding RNAs in the mouse brain |
Q47870648 | Specific Phospholipids Regulate the Acquisition of Neuronal and Astroglial Identities in Post-Mitotic Cells |
Q42461740 | Specific polar subpopulations of astral microtubules control spindle orientation and symmetric neural stem cell division |
Q50525123 | Spinal cord neuroepithelial progenitor cells display developmental plasticity when co-cultured with embryonic spinal cord slices at different stages of development. |
Q37428762 | Spindle orientation during asymmetric cell division |
Q36709998 | Spindle regulation in neural precursors of flies and mammals |
Q33557335 | Spliceosomal protein eftud2 mutation leads to p53-dependent apoptosis in zebrafish neural progenitors |
Q37374977 | Splicing factor TRA2B is required for neural progenitor survival |
Q29620450 | Stem cells and niches: mechanisms that promote stem cell maintenance throughout life |
Q37041593 | Stem cells expanded from the human embryonic hindbrain stably retain regional specification and high neurogenic potency |
Q47807921 | Stem cells in the adult zebrafish cerebellum: initiation and maintenance of a novel stem cell niche. |
Q91977175 | Stem cells in tissues, organoids, and cancers |
Q24653517 | Stem cells of ependymoma |
Q46859548 | Steroidogenic enzymes along the ventricular proliferative zone in the developing songbird brain. |
Q37309769 | Stochasticity in the miR-9/Hes1 oscillatory network can account for clonal heterogeneity in the timing of differentiation |
Q37237888 | Strabismus regulates asymmetric cell divisions and cell fate determination in the mouse brain |
Q30501220 | Strategies for analyzing neuronal progenitor development and neuronal migration in the developing cerebral cortex |
Q84978772 | Structural and functional analysis of chondroitin sulfate proteoglycans in the neural stem cell niche |
Q38232080 | Structure and function of the ependymal barrier and diseases associated with ependyma disruption |
Q38678232 | Supersize me-new insights into cortical expansion and gyration of the mammalian brain |
Q27347315 | Sustained Pax6 Expression Generates Primate-like Basal Radial Glia in Developing Mouse Neocortex |
Q54343794 | Sustained Wnt/β-catenin signalling causes neuroepithelial aberrations through the accumulation of aPKC at the apical pole. |
Q42464662 | Symmetrical and asymmetrical division analysis provides evidence for a hierarchy of prostate epithelial cell lineages |
Q39242330 | Symmetry Does not Come for Free: Cellular Mechanisms to Achieve a Symmetric Cell Division. |
Q42445220 | TAG-1-assisted progenitor elongation streamlines nuclear migration to optimize subapical crowding. |
Q28576686 | TBC1D24 regulates neuronal migration and maturation through modulation of the ARF6-dependent pathway |
Q47204000 | TBR2 antagonizes retinoic acid dependent neuronal differentiation by repressing ZFP423 during corticogenesis. |
Q34554936 | TGF-β1 promotes cerebral cortex radial glia-astrocyte differentiation in vivo |
Q37424094 | TRIM32-dependent transcription in adult neural progenitor cells regulates neuronal differentiation. |
Q48648082 | TRIP6 regulates neural stem cell maintenance in the postnatal mammalian subventricular zone. |
Q35667550 | Tangentially migrating transient glutamatergic neurons control neurogenesis and maintenance of cerebral cortical progenitor pools |
Q38769589 | Tauroursodeoxycholic Acid Enhances Mitochondrial Biogenesis, Neural Stem Cell Pool, and Early Neurogenesis in Adult Rats |
Q28593799 | Tbr2 directs conversion of radial glia into basal precursors and guides neuronal amplification by indirect neurogenesis in the developing neocortex |
Q34069396 | Tbr2-positive intermediate (basal) neuronal progenitors safeguard cerebral cortex expansion by controlling amplification of pallial glutamatergic neurons and attraction of subpallial GABAergic interneurons |
Q90317318 | Tead transcription factors differentially regulate cortical development |
Q33274777 | Temporal and epigenetic regulation of neurodevelopmental plasticity. |
Q33580904 | Temporal patterns of cortical proliferation of glial cell populations after traumatic brain injury in mice |
Q37045479 | Tenascin C in stem cell niches: redundant, permissive or instructive? |
Q50802082 | Tenascin C regulates proliferation and differentiation processes during embryonic retinogenesis and modulates the de-differentiation capacity of Müller glia by influencing growth factor responsiveness and the extracellular matrix compartment. |
Q89207617 | The ASD Living Biology: from cell proliferation to clinical phenotype |
Q39419536 | The Adaptability of Somatic Stem Cells: A Review |
Q48026564 | The Addiction-Related Protein ANKK1 is Differentially Expressed During the Cell Cycle in Neural Precursors. |
Q47290191 | The Basal Radial Glia Occurs in Marsupials and Underlies the Evolution of an Expanded Neocortex in Therian Mammals |
Q47989366 | The Cadherin Superfamily in Neural Circuit Assembly |
Q41927898 | The Expression of Tubb2b Undergoes a Developmental Transition in Murine Cortical Neurons |
Q90400899 | The Functional Role of Olfactory Bulb Granule Cell Subtypes Derived From Embryonic and Postnatal Neurogenesis |
Q92763215 | The Golgi Apparatus in Polarized Neuroepithelial Stem Cells and Their Progeny: Canonical and Noncanonical Features |
Q35084123 | The H(+) vacuolar ATPase maintains neural stem cells in the developing mouse cortex |
Q92028231 | The Mode of Stem Cell Division Is Dependent on the Differential Interaction of β-Catenin with the Kat3 Coactivators CBP or p300 |
Q47926946 | The Molecular Pathway Regulating Bergmann Glia and Folia Generation in the Cerebellum |
Q39381816 | The Multiple Roles of FGF Signaling in the Developing Spinal Cord. |
Q37402856 | The N-Myc-DLL3 cascade is suppressed by the ubiquitin ligase Huwe1 to inhibit proliferation and promote neurogenesis in the developing brain. |
Q37224598 | The Pak1 kinase: an important regulator of neuronal morphology and function in the developing forebrain |
Q36506026 | The REST remodeling complex protects genomic integrity during embryonic neurogenesis. |
Q35171639 | The RNA helicase DDX6 regulates cell-fate specification in neural stem cells via miRNAs |
Q28506128 | The Rho-GTPase cdc42 regulates neural progenitor fate at the apical surface |
Q55438744 | The Role of the Microtubule Cytoskeleton in Neurodevelopmental Disorders. |
Q41893157 | The Silencing Effect of microRNA miR-17 on p21 Maintains the Neural Progenitor Pool in the Developing Cerebral Cortex |
Q24569665 | The TRIM-NHL protein TRIM32 activates microRNAs and prevents self-renewal in mouse neural progenitors |
Q39417087 | The Tbr2 Molecular Network Controls Cortical Neuronal Differentiation Through Complementary Genetic and Epigenetic Pathways |
Q38722713 | The Therapeutic Potential of Cell Identity Reprogramming for the Treatment of Aging-Related Neurodegenerative Disorders |
Q43965445 | The UPF3B gene, implicated in intellectual disability, autism, ADHD and childhood onset schizophrenia regulates neural progenitor cell behaviour and neuronal outgrowth |
Q30494549 | The apical complex couples cell fate and cell survival to cerebral cortical development |
Q54576271 | The apical polarity determinant Crumbs 2 is a novel regulator of ESC-derived neural progenitors. |
Q30489680 | The apicobasal polarity kinase aPKC functions as a nuclear determinant and regulates cell proliferation and fate during Xenopus primary neurogenesis |
Q39170149 | The building of the neocortex with non-hyperpolarizing neurotransmitters. |
Q35955345 | The calcium: an early signal that initiates the formation of the nervous system during embryogenesis |
Q38215884 | The conserved miR-8/miR-200 microRNA family and their role in invertebrate and vertebrate neurogenesis |
Q26772147 | The cytoskeletal arrangements necessary to neurogenesis |
Q41957932 | The essential role of LIS1, NDEL1 and Aurora-A in polarity formation and microtubule organization during neurogensis |
Q24300703 | The essential role of centrosomal NDE1 in human cerebral cortex neurogenesis |
Q36497271 | The evolution of basal progenitors in the developing non-mammalian brain |
Q27023095 | The evolution of early neurogenesis |
Q38443193 | The extracellular matrix compartment of neural stem and glial progenitor cells |
Q33835818 | The genome-wide expression effects of escitalopram and its relationship to neurogenesis, hippocampal volume, and antidepressant response |
Q26827188 | The germline stem cell niche unit in mammalian testes |
Q24602498 | The glial nature of embryonic and adult neural stem cells |
Q36730830 | The harmonies played by TGF-β in stem cell biology |
Q35077232 | The inner CSF-brain barrier: developmentally controlled access to the brain via intercellular junctions. |
Q44621030 | The inner lining of the reptilian brain: a heterogeneous cellular mosaic |
Q37685394 | The intriguing links between prominin-1 (CD133), cholesterol-based membrane microdomains, remodeling of apical plasma membrane protrusions, extracellular membrane particles, and (neuro)epithelial cell differentiation. |
Q31046527 | The laser lesion of the mouse visual cortex as a model to study neural extracellular matrix remodeling during degeneration, regeneration and plasticity of the CNS. |
Q58801216 | The lysolipid transporter Mfsd2a regulates lipogenesis in the developing brain |
Q36971718 | The microenvironment of the embryonic neural stem cell: lessons from adult niches? |
Q37955145 | The multiple roles of the cyclin-dependent kinase inhibitory protein p57(KIP2) in cerebral cortical neurogenesis |
Q31088269 | The niche factor syndecan-1 regulates the maintenance and proliferation of neural progenitor cells during mammalian cortical development |
Q28589346 | The nystagmus-associated FRMD7 gene regulates neuronal outgrowth and development |
Q36536422 | The occurrence of intracranial rhabdoid tumours in mice depends on temporal control of Smarcb1 inactivation |
Q35604583 | The orchestration of mammalian tissue morphogenesis through a series of coherent feed-forward loops |
Q36110035 | The p53 co-activator Zac1 neither induces cell cycle arrest nor apoptosis in chicken Lim1 horizontal progenitor cells |
Q37050597 | The phosphatase PP4c controls spindle orientation to maintain proliferative symmetric divisions in the developing neocortex |
Q28508326 | The protomap is propagated to cortical plate neurons through an Eomes-dependent intermediate map |
Q36805936 | The radial edifice of cortical architecture: from neuronal silhouettes to genetic engineering |
Q35512942 | The role of BAF (mSWI/SNF) complexes in mammalian neural development |
Q39349477 | The role of MACF1 in nervous system development and maintenance |
Q37871914 | The role of Notch signaling in adult neurogenesis |
Q37871575 | The role of Pax6 in forebrain development. |
Q26775367 | The role of adult neurogenesis in psychiatric and cognitive disorders |
Q38803347 | The role of neurogenesis during development and in the adult brain |
Q26852860 | The role of targeted protein degradation in early neural development |
Q34013734 | The role of α-E-catenin in cerebral cortex development: radial glia specific effect on neuronal migration |
Q28681085 | The secondary loss of gyrencephaly as an example of evolutionary phenotypical reversal |
Q42486077 | The small GTPase RhoA is required to maintain spinal cord neuroepithelium organization and the neural stem cell pool. |
Q37830315 | The stem cell potential of glia: lessons from reactive gliosis |
Q37589354 | The strength of SMAD1/5 activity determines the mode of stem cell division in the developing spinal cord |
Q35497956 | The terminal basal mitosis of chicken retinal Lim1 horizontal cells is not sensitive to cisplatin-induced cell cycle arrest |
Q37883988 | The time of timing: how Polycomb proteins regulate neurogenesis |
Q21145865 | The timing of differentiation of adult hippocampal neurons is crucial for spatial memory |
Q33676928 | The transition from radial glial to intermediate progenitor cell is inhibited by FGF signaling during corticogenesis |
Q42447614 | The tumor suppressor Pml regulates cell fate in the developing neocortex |
Q38444916 | The tumour suppressor L(3)mbt inhibits neuroepithelial proliferation and acts on insulator elements |
Q28586506 | The ubiquitin ligase mLin41 temporally promotes neural progenitor cell maintenance through FGF signaling |
Q38636780 | Three-Dimensional Models of the Human Brain Development and Diseases |
Q34057992 | Three-dimensional regulation of radial glial functions by Lis1-Nde1 and dystrophin glycoprotein complexes |
Q46214130 | Thyroid hormone receptor subtype specificity for hormone-dependent neurogenesis in Xenopus laevis |
Q83226328 | Tight junction protein occludin regulates progenitor Self-Renewal and survival in developing cortex |
Q33877230 | Time-lapse live imaging of clonally related neural progenitor cells in the developing zebrafish forebrain |
Q37088433 | Toll-like receptor 3 is a negative regulator of embryonic neural progenitor cell proliferation |
Q34064658 | Toll-like receptor 3 regulates neural stem cell proliferation by modulating the Sonic Hedgehog pathway |
Q50444522 | Topological defects control collective dynamics in neural progenitor cell cultures. |
Q24289511 | Towards a unifying, systems biology understanding of large-scale cellular death and destruction caused by poorly liganded iron: Parkinson's, Huntington's, Alzheimer's, prions, bactericides, chemical toxicology and others as examples |
Q47103145 | Transcriptional and Post-Transcriptional Mechanisms of the Development of Neocortical Lamination |
Q37958900 | Transcriptional control of differentiation and neurogenesis in autonomic ganglia |
Q26998934 | Transcriptional control of vertebrate neurogenesis by the proneural factor Ascl1 |
Q49920753 | Transcriptional regulation of ependymal cell maturation within the postnatal brain. |
Q39103827 | Transcriptional regulation of intermediate progenitor cell generation during hippocampal development. |
Q37694046 | Transcriptome sequencing during mouse brain development identifies long non-coding RNAs functionally involved in neurogenic commitment |
Q34323832 | Transcriptomes of germinal zones of human and mouse fetal neocortex suggest a role of extracellular matrix in progenitor self-renewal |
Q37083910 | Transgenic Mouse Expressing Optical MicroRNA Reporter for Monitoring MicroRNA-124 Action during Development |
Q35001705 | Transient expression of Mnb/Dyrk1a couples cell cycle exit and differentiation of neuronal precursors by inducing p27KIP1 expression and suppressing NOTCH signaling |
Q42523788 | Transient expression of the conserved zinc finger gene INSM1 in progenitors and nascent neurons throughout embryonic and adult neurogenesis |
Q46039819 | Transplantation of GABAergic interneurons for cell-based therapy. |
Q38026794 | Tumor suppressive pathways in the control of neurogenesis. |
Q28504464 | Tumor suppressor Nf2 limits expansion of the neural progenitor pool by inhibiting Yap/Taz transcriptional coactivators |
Q37146662 | USP9X enhances the polarity and self-renewal of embryonic stem cell-derived neural progenitors |
Q41785743 | Uncovering the link between malfunctions in Drosophila neuroblast asymmetric cell division and tumorigenesis |
Q35948178 | Unique requirement for Rb/E2F3 in neuronal migration: evidence for cell cycle-independent functions |
Q26998460 | Unlocking epigenetic codes in neurogenesis |
Q51733172 | Untangling Cortical Complexity During Development. |
Q27015087 | Using human induced pluripotent stem cells to treat retinal disease |
Q36725029 | Vascular Influence on Ventral Telencephalic Progenitors and Neocortical Interneuron Production |
Q35289571 | Vascular endothelial growth factor (VEGF) isoform regulation of early forebrain development. |
Q42466026 | Vascular endothelial growth factor and its high-affinity receptor (VEGFR-2) are highly expressed in the human forebrain and cerebellum during development. |
Q24626523 | Visual activity regulates neural progenitor cells in developing xenopus CNS through musashi1 |
Q24301673 | WDR62 is associated with the spindle pole and is mutated in human microcephaly |
Q52732465 | Wnt-Notch signalling: an integrated mechanism regulating transitions between cell states. |
Q48568086 | Wnt/β-catenin signaling regulates sequential fate decisions of murine cortical precursor cells. |
Q39915491 | YAP regulates neural progenitor cell number via the TEA domain transcription factor |
Q94671532 | YAP1/TAZ drives ependymoma-like tumour formation in mice |
Q64053773 | Yin Yang 1 sustains biosynthetic demands during brain development in a stage-specific manner |
Q55282616 | Ythdf2-mediated m6A mRNA clearance modulates neural development in mice. |
Q28585788 | ZHX2 Interacts with Ephrin-B and regulates neural progenitor maintenance in the developing cerebral cortex |
Q42735227 | Zbtb20 modulates the sequential generation of neuronal layers in developing cortex |
Q47820676 | Zfp423/ZNF423 regulates cell cycle progression, the mode of cell division and the DNA-damage response in Purkinje neuron progenitors. |
Q26258575 | Zika Virus NS4A and NS4B Proteins Deregulate Akt-mTOR Signaling in Human Fetal Neural Stem Cells to Inhibit Neurogenesis and Induce Autophagy |
Q29168664 | Zika infection and the development of neurological defects |
Q38156657 | Zika-Virus-Encoded NS2A Disrupts Mammalian Cortical Neurogenesis by Degrading Adherens Junction Proteins |
Q39032069 | Zrf1 is required to establish and maintain neural progenitor identity |
Q53067139 | [Unveiling the role of endoplasmic reticulum stress and unfolded protein response in cortical neurogenesis]. |
Q27329520 | beta1 integrin maintains integrity of the embryonic neocortical stem cell niche |
Q34575955 | carboxypeptidase E-ΔN, a neuroprotein transiently expressed during development protects embryonic neurons against glutamate neurotoxicity |
Q34331161 | mRNA-Seq and microRNA-Seq whole-transcriptome analyses of rhesus monkey embryonic stem cell neural differentiation revealed the potential regulators of rosette neural stem cells. |
Q38891062 | mTOR kinase is needed for the development and stabilization of dendritic arbors in newly born olfactory bulb neurons |
Q37391606 | miR-219 regulates neural precursor differentiation by direct inhibition of apical par polarity proteins |
Q48724005 | miR-30c and semaphorin 3A determine adult neurogenesis by regulating proliferation and differentiation of stem cells in the subventricular zones of mouse. |
Q34324586 | miR379-410 cluster miRNAs regulate neurogenesis and neuronal migration by fine-tuning N-cadherin. |
Q24653722 | miRNAs are essential for survival and differentiation of newborn neurons but not for expansion of neural progenitors during early neurogenesis in the mouse embryonic neocortex |
Q37646650 | microRNA input into a neural ultradian oscillator controls emergence and timing of alternative cell states |
Q33757246 | p600 regulates spindle orientation in apical neural progenitors and contributes to neurogenesis in the developing neocortex. |
Q38271411 | p600/UBR4 in the central nervous system |
Q42587764 | p73 deficiency results in impaired self renewal and premature neuronal differentiation of mouse neural progenitors independently of p53. |
Q35679611 | p73 is an essential regulator of neural stem cell maintenance in embryonal and adult CNS neurogenesis |
Q28073716 | β-catenin-driven binary cell fate decisions in animal development |
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