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Cell reports (Cambridge), ISSN 2211-1247, 2016, Volume 16, Issue 10, pp. 2576 - 2592
The mechanisms underlying Zika virus (ZIKV)-related microcephaly and other neurodevelopment defects remain poorly understood. Here, we describe the derivation... 
NEURAL PROGENITORS | LONG-TERM | HUMAN BRAIN | ADAPTER | CENTRAL-NERVOUS-SYSTEM | INFECTION | MICE | BINDING KINASE 1 | ORGANOIDS | INNATE IMMUNITY | CELL BIOLOGY | Neocortex - pathology | Neurons - pathology | Transcription, Genetic - drug effects | Brain - embryology | Neuroglia - ultrastructure | Neuroglia - pathology | Humans | Brain - virology | Centrosome - drug effects | Gene Expression Profiling | Microcephaly - virology | Neural Stem Cells - ultrastructure | Zika Virus Infection - virology | Neural Stem Cells - immunology | Neuroepithelial Cells - immunology | Neuroprotective Agents - pharmacology | Spinal Cord - pathology | Microcephaly - pathology | Neuroepithelial Cells - virology | Nucleosides - pharmacology | Fetus - virology | Cell Death - drug effects | Phosphorylation - drug effects | Neurons - drug effects | Protein-Serine-Threonine Kinases - metabolism | Zika Virus - pathogenicity | Proto-Oncogene Proteins - metabolism | Zika Virus - ultrastructure | Neurons - virology | Virus Replication - drug effects | Neuroepithelial Cells - ultrastructure | Immunity, Innate - drug effects | Zika Virus Infection - pathology | Neural Stem Cells - virology | Zika Virus - physiology | Zika Virus - drug effects | Mitochondria - metabolism | Mitochondria - drug effects | Receptor Protein-Tyrosine Kinases - metabolism | Neural Stem Cells - enzymology | Centrosome - metabolism | Mitosis - drug effects | Brain - pathology | Protein Kinase Inhibitors - pharmacology | Neuroglia - virology | Neuroepithelial Cells - drug effects | Neurons/pathology | Zika Virus/pathogenicity | Mitochondria/metabolism | Virus Replication/drug effects | Microcephaly/pathology | Neurons/drug effects | Protein-Serine-Threonine Kinases/metabolism | Neural Stem Cells/immunology | Neuroglia/ultrastructure | Neuroepithelial Cells/drug effects | Neuroepithelial Cells/virology | Life Sciences | Brain/pathology | Zika Virus/drug effects | Brain/embryology | Mitochondria/drug effects | Fetus/virology | Neocortex/pathology | Neuroglia/pathology | Cell Death/drug effects | Mitosis/drug effects | Transcription, Genetic/drug effects | Nucleosides/pharmacology | Neural Stem Cells/enzymology | Neural Stem Cells/ultrastructure | Neuroepithelial Cells/ultrastructure | Receptor Protein-Tyrosine Kinases/metabolism | Microcephaly/virology | Proto-Oncogene Proteins/metabolism | Neuroprotective Agents/pharmacology | Zika Virus/ultrastructure | Neuroepithelial Cells/immunology | Brain/virology | Immunity, Innate/drug effects | Spinal Cord/pathology | Zika Virus/physiology | Neuroglia/virology | Microbiology and Parasitology | Zika Virus Infection/pathology | Neurons/virology | Zika Virus Infection/virology | Neural Stem Cells/virology | Centrosome/drug effects | Protein Kinase Inhibitors/pharmacology | Centrosome/metabolism | Phosphorylation/drug effects
Journal Article
Neuron, ISSN 0896-6273, 2005, Volume 47, Issue 6, pp. 817 - 831
The molecular mechanisms controlling the differentiation of neural progenitors into distinct subtypes of neurons during neocortical development are unknown.... 
AREA IDENTITY | MIGRATION | CELL FATE SPECIFICATION | IN-VIVO | MOUSE | CENTRAL-NERVOUS-SYSTEM | ZINC-FINGER GENE | SUBVENTRICULAR ZONE | EXPRESSION | NEUROSCIENCES | CEREBRAL-CORTEX | Membrane Glycoproteins - metabolism | Embryo, Mammalian | Homeodomain Proteins - metabolism | Nerve Tissue Proteins - deficiency | S100 Proteins - genetics | POU Domain Factors - genetics | Forkhead Transcription Factors - metabolism | In Situ Hybridization - methods | Repressor Proteins - metabolism | Gene Expression Regulation, Developmental - physiology | POU Domain Factors - metabolism | Animals, Newborn | DNA-Binding Proteins - physiology | Motor Neurons - physiology | Tumor Suppressor Proteins - metabolism | Membrane Proteins - genetics | Cell Cycle Proteins - metabolism | S100 Proteins - metabolism | In Situ Nick-End Labeling - methods | Apoptosis Regulatory Proteins - metabolism | Mice, Knockout | Immunohistochemistry - methods | Annexin A2 - genetics | Cell Death - physiology | Green Fluorescent Proteins - biosynthesis | Mice | Annexin A2 - metabolism | Age Factors | Phosphopyruvate Hydratase - metabolism | Cell Movement - physiology | DNA-Binding Proteins - deficiency | DNA-Binding Proteins - metabolism | Amino Acids - metabolism | Motor Neurons - cytology | Tumor Suppressor Proteins - genetics | Cell Cycle Proteins - genetics | Membrane Proteins - metabolism | Bromodeoxyuridine - metabolism | Cell Differentiation - physiology | Pyramidal Tracts - physiology | Nerve Tissue Proteins - physiology | Neocortex - growth & development | Nuclear Proteins - metabolism | DNA-Binding Proteins - genetics | Dopamine and cAMP-Regulated Phosphoprotein 32 - metabolism | Nerve Tissue Proteins - genetics | Homeodomain Proteins - genetics | Membrane Glycoproteins - genetics | Nerve Tissue Proteins - metabolism | Carrier Proteins - genetics | Animals | Carrier Proteins - metabolism | Cell Count - methods | Neocortex - cytology | Receptors, Antigen, T-Cell, alpha-beta - metabolism | Neurosciences | Neurons | Developmental biology | Stem cells | Studies | Brain | Ultrasonic imaging | Transcription factors | Hybridization | Neurogenesis
Journal Article
Proceedings of the National Academy of Sciences - PNAS, ISSN 0027-8424, 2012, Volume 109, Issue 47, pp. 19071 - 19078
Neurons within each layer in the mammalian cortex have Stereotypic projections. Four genes—Fezf2, Ctip2, Tbr1, and Satb2—regulate these projection identities.... 
Axons | Brain | Mesencephalon | Neurons | Thalamus | Genetic loci | Gene expression regulation | Pyramidal tracts | Repression | Identity | Cerebral cortex | Cell fate | Axon guidance | Transcription factor | transcription factor | CALLOSAL | cell fate | MULTIDISCIPLINARY SCIENCES | AUTISM SPECTRUM DISORDER | TBR1 | GUIDANCE | SPECIFICATION | DEVELOPING CEREBRAL-CORTEX | cerebral cortex | NEURON IDENTITY | CORTICOSPINAL TRACT | NETRIN-1 | DIFFERENTIATION | axon guidance | Axons - enzymology | Thalamus - metabolism | Alkaline Phosphatase - metabolism | Genetic Loci - genetics | Receptor, EphA4 - metabolism | Gene Regulatory Networks | Cerebral Cortex - metabolism | DNA-Binding Proteins - metabolism | Neocortex - metabolism | Basic Helix-Loop-Helix Transcription Factors - metabolism | Gene Expression Regulation, Developmental | Isoenzymes - metabolism | Cell Adhesion Molecules, Neuronal - metabolism | Neurons - metabolism | Netrin Receptors | Repressor Proteins - metabolism | Tumor Suppressor Proteins - metabolism | Neocortex - growth & development | Receptors, Cell Surface - metabolism | Repressor Proteins - genetics | Nuclear Proteins - metabolism | DNA-Binding Proteins - genetics | Mutation - genetics | GPI-Linked Proteins - metabolism | Nerve Tissue Proteins - metabolism | Animals | Protein Binding | Mice | Physiological aspects | Genetic aspects | Gene mutations | Neocortex | Biological Sciences
Journal Article
Glia, ISSN 0894-1491, 01/2016, Volume 64, Issue 1, pp. 90 - 104
The glycosphingolipid SSEA‐4 and the glycoprotein YKL‐40 have both been associated with human embryonic and neural stem cell differentiation. We investigated... 
human neural stem cells | cerebral cortex | corticogenesis | development | astrocytes | Development | Cerebral cortex | Corticogenesis | Astrocytes | Human neural stem cells | HUMAN TELENCEPHALON | LISSENCEPHALIC PRIMATE | RADIAL GLIA | NEUROSCIENCES | IN-VITRO | HUMAN FOREBRAIN | MAMMALIAN CEREBRAL-CORTEX | GLYCOPROTEIN YKL-40 | EMBRYONIC STEM-CELLS | BRAIN BARRIERS | PRECURSOR CELLS | Immunohistochemistry | Neocortex - embryology | Antigens, Nuclear - metabolism | Microtubule-Associated Proteins - metabolism | Humans | Calbindins - metabolism | Neurons - cytology | Neural Stem Cells - cytology | Antigens, CD - metabolism | Chitinase-3-Like Protein 1 | DNA-Binding Proteins - metabolism | Lectins - metabolism | Neocortex - metabolism | Neuroglia - cytology | Stage-Specific Embryonic Antigens - metabolism | Basic Helix-Loop-Helix Transcription Factors - metabolism | Neurons - metabolism | Tumor Suppressor Proteins - metabolism | Fatty Acid-Binding Protein 7 | Neuropeptides - metabolism | S100 Proteins - metabolism | Adipokines - metabolism | Oligodendrocyte Transcription Factor 2 | T-Box Domain Proteins - metabolism | Nerve Tissue Proteins - metabolism | Nestin - metabolism | Carrier Proteins - metabolism | Antigens, Differentiation, Myelomonocytic - metabolism | Neocortex - cytology | Neuroglia - metabolism | Stem Cell Niche - physiology | Neural Stem Cells - metabolism | Localization | Rodents | Stem cells
Journal Article
Nature (London), ISSN 1476-4687, 2011, Volume 476, Issue 7359, pp. 228 - 231
Journal Article
Cell stem cell, ISSN 1934-5909, 2013, Volume 12, Issue 5, pp. 559 - 572
Journal Article
PLoS biology, ISSN 1545-7885, 2014, Volume 12, Issue 1, p. e1001747
Journal Article
Journal Article
Journal Article
Proceedings of the National Academy of Sciences - PNAS, ISSN 1091-6490, 2014, Volume 111, Issue 36, pp. E3815 - E3824
Journal Article
The Journal of neuroscience, ISSN 1529-2401, 2013, Volume 33, Issue 10, pp. 4216 - 4233
Neurogenesis must be properly regulated to ensure that cell production does not exceed the requirements of the growing cerebral cortex, yet our understanding... 
HUMAN NEOCORTEX | BRAIN TRAUMA | RADIAL GLIAL-CELLS | HYPOXIA-ISCHEMIA | ADULT HIPPOCAMPAL NEUROGENESIS | SPINAL-CORD | ACTIVATED MICROGLIA | DENTATE GYRUS | NEUROSCIENCES | INTERMEDIATE PROGENITOR CELLS | PREFRONTAL CORTEX | Age Factors | Embryo, Mammalian | Minocycline - pharmacology | Cell Count | Male | Cerebral Cortex - cytology | Lipopolysaccharide Receptors - metabolism | Indoles - metabolism | Microglia - physiology | Cerebral Ventricles - growth & development | Female | Macaca | Microfilament Proteins - metabolism | Cerebral Ventricles - embryology | HLA-DR Antigens - metabolism | Animals, Newborn | Calcium-Binding Proteins - metabolism | Lipopolysaccharides - toxicity | Neural Stem Cells - drug effects | Phagocytosis - physiology | Neural Stem Cells - physiology | Rats | Cerebral Cortex - transplantation | T-Box Domain Proteins - metabolism | Nerve Tissue Proteins - metabolism | Pregnancy | Microscopy, Confocal | Animals | Analysis of Variance | Cerebral Cortex - embryology | Neurogenesis - physiology | Cerebral Cortex - growth & development | Luminescent Proteins - genetics | Cerebral Ventricles - cytology | Proliferating Cell Nuclear Antigen - metabolism | Prenatal Exposure Delayed Effects - chemically induced | Prenatal Exposure Delayed Effects - pathology | Luminescent Proteins - metabolism | Nitric Oxide Synthase Type II - metabolism
Journal Article