Symposia
Identifieur interne : 000533 ( Main/Exploration ); précédent : 000532; suivant : 000534Symposia
Auteurs :Source :
- Glia [ 0894-1491 ] ; 2009-10.
English descriptors
- Teeft :
- Action potentials, Activation, Adult brain, Adult mice, Adult neurogenesis, Agonist, Allele, Ampa, Ampa receptors, Amyloid, Amyotrophic, Animal model, Animal models, Aquaporin, Astrocyte, Astrocytic, Astroglial, Autoimmune, Autoimmune encephalomyelitis, Axon, Axonal, Brain injury, Cajal, Cannabinoid receptors, Cell, Cell adhesion molecules, Cell biology, Cell death, Cell plasticity, Cell type, Cerebral cortex, Chronic pwmi, Clinical disease, Complete loss, Connective tissue, Contact inhibition, Corpus callosum, Cranial, Cranial crest, Cytokine, Degeneration, Demyelinated, Demyelinated axons, Demyelinated lesions, Demyelinating, Demyelinating diseases, Demyelination, Derivative, Differentiation, Directional migration, Dorsal, Dorsal olps, Ectomesenchymal, Embryonic, Embryonic brain, Endogenous, Endogenous regulation, Endothelial, Endothelial cells, Erbb, Excitatory synapses, Expression levels, Extracellular, Functional recovery, Functional role, Ganglion, Gene, Gene expression, Glia, Glial, Glial cells, Glioma, Gliotransmitters, Glutamate, Glutamate receptors, Grps, Heterotypic channels, Hindbrain, Hippocampal, Hyaluronan, Immune, Immune cells, Immune system, Important role, Inserm, Intracellular, Kinase, Knockout, Knockout mice, Lesion, Lesion environment, Lesion volume, Ligand, Lineage, Locomotion, Major role, Mash1, Mature oligodendrocytes, Mediator, Metabotropic glutamate receptors, Microglia, Microglia activation, Microglial, Microglial activation, Microglial cells, Microglial responses, Migration rate, Mirnas, Molecular mechanisms, Motor neuron death, Motor neuron degeneration, Motor neuron survival, Motor neurons, Mouse, Mouse model, Mrna, Mtor, Multiple sclerosis, Mutant, Mutant mice, Mutant sod1, Mutation, Myelin, Myelin formation, Myelin sheath, Myelinating, Myelinating glia, Myelinating oligodendrocytes, Myelinating schwann cells, Myelination, Myeloid, Nadph, Nadph oxidase, Nadph oxidase activity, National institute, Ndings, Nerve injury, Nervous system, Neural, Neural cells, Neural crest cells, Neural tube, Neurodegeneration, Neurogenesis, Neurological, Neuron, Neuronal, Neuronal repair, Neuronal survival, Neuroprotection, Neuroprotective, Neurosci, Neurotransmitter, Nfkb, Nmda, Nmda receptors, Node, Node formation, Oecs, Olfactory, Olfactory epithelium, Olig2, Oligodendrocyte, Oligodendrocyte development, Oligodendrocyte differentiation, Oligodendrocyte lineage cells, Oligodendrocyte maturation, Oligodendrocyte precursor cells, Oligodendrocyte progenitor cells, Oligodendrogenesis, Olps, Opcs, Oregon health science university, Other hand, Overexpression, Oxidase, Oxidative injury, Pathogenesis, Pathway, Peripheral nerves, Periventricular, Periventricular leukomalacia, Pharmacological inhibition, Phenotype, Polydendrocytes, Postnatal, Precursor, Precursor cells, Presynaptic, Progenitor, Progenitor cells, Proteolipid protein, Pwmi, Pyramidal neurons, Ranvier, Reactive, Reactive astrocytes, Recent data, Recent evidence, Recent studies, Receptor, Regeneration, Regulator, Remyelination, Reporter gene expression, Rumpshaker, Schwann, Schwann cells, Sclerosis, Sod1, Sodium channels, Sonic hedgehog, Spinal, Spinal cord, Spinal cord injury, States microglia, Symposia abstracts, Synapse, Synaptic, Synaptic transmission, Tlr2, Transcription, Transcription factor, Transcription factors, Transcriptional, Transgenic, Transgenic mice, Transmitter release, Transplantation, University college london, Ventral, Vesicle, Vivo, White matter, Wild type.
Url:
DOI: 10.1002/glia.20914
Affiliations:
Links toward previous steps (curation, corpus...)
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Le document en format XML
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type="ISSN">0894-1491</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Action potentials</term><term>Activation</term><term>Adult brain</term><term>Adult mice</term><term>Adult neurogenesis</term><term>Agonist</term><term>Allele</term><term>Ampa</term><term>Ampa receptors</term><term>Amyloid</term><term>Amyotrophic</term><term>Animal model</term><term>Animal models</term><term>Aquaporin</term><term>Astrocyte</term><term>Astrocytic</term><term>Astroglial</term><term>Autoimmune</term><term>Autoimmune encephalomyelitis</term><term>Axon</term><term>Axonal</term><term>Brain injury</term><term>Cajal</term><term>Cannabinoid receptors</term><term>Cell</term><term>Cell adhesion molecules</term><term>Cell biology</term><term>Cell death</term><term>Cell plasticity</term><term>Cell type</term><term>Cerebral cortex</term><term>Chronic pwmi</term><term>Clinical disease</term><term>Complete loss</term><term>Connective tissue</term><term>Contact inhibition</term><term>Corpus callosum</term><term>Cranial</term><term>Cranial crest</term><term>Cytokine</term><term>Degeneration</term><term>Demyelinated</term><term>Demyelinated axons</term><term>Demyelinated lesions</term><term>Demyelinating</term><term>Demyelinating diseases</term><term>Demyelination</term><term>Derivative</term><term>Differentiation</term><term>Directional migration</term><term>Dorsal</term><term>Dorsal olps</term><term>Ectomesenchymal</term><term>Embryonic</term><term>Embryonic brain</term><term>Endogenous</term><term>Endogenous regulation</term><term>Endothelial</term><term>Endothelial cells</term><term>Erbb</term><term>Excitatory synapses</term><term>Expression levels</term><term>Extracellular</term><term>Functional recovery</term><term>Functional role</term><term>Ganglion</term><term>Gene</term><term>Gene expression</term><term>Glia</term><term>Glial</term><term>Glial cells</term><term>Glioma</term><term>Gliotransmitters</term><term>Glutamate</term><term>Glutamate receptors</term><term>Grps</term><term>Heterotypic channels</term><term>Hindbrain</term><term>Hippocampal</term><term>Hyaluronan</term><term>Immune</term><term>Immune cells</term><term>Immune system</term><term>Important role</term><term>Inserm</term><term>Intracellular</term><term>Kinase</term><term>Knockout</term><term>Knockout mice</term><term>Lesion</term><term>Lesion environment</term><term>Lesion volume</term><term>Ligand</term><term>Lineage</term><term>Locomotion</term><term>Major role</term><term>Mash1</term><term>Mature oligodendrocytes</term><term>Mediator</term><term>Metabotropic glutamate receptors</term><term>Microglia</term><term>Microglia activation</term><term>Microglial</term><term>Microglial activation</term><term>Microglial cells</term><term>Microglial responses</term><term>Migration rate</term><term>Mirnas</term><term>Molecular mechanisms</term><term>Motor neuron death</term><term>Motor neuron degeneration</term><term>Motor neuron survival</term><term>Motor neurons</term><term>Mouse</term><term>Mouse model</term><term>Mrna</term><term>Mtor</term><term>Multiple sclerosis</term><term>Mutant</term><term>Mutant mice</term><term>Mutant sod1</term><term>Mutation</term><term>Myelin</term><term>Myelin formation</term><term>Myelin sheath</term><term>Myelinating</term><term>Myelinating glia</term><term>Myelinating oligodendrocytes</term><term>Myelinating schwann cells</term><term>Myelination</term><term>Myeloid</term><term>Nadph</term><term>Nadph oxidase</term><term>Nadph oxidase activity</term><term>National institute</term><term>Ndings</term><term>Nerve injury</term><term>Nervous system</term><term>Neural</term><term>Neural cells</term><term>Neural crest cells</term><term>Neural tube</term><term>Neurodegeneration</term><term>Neurogenesis</term><term>Neurological</term><term>Neuron</term><term>Neuronal</term><term>Neuronal repair</term><term>Neuronal survival</term><term>Neuroprotection</term><term>Neuroprotective</term><term>Neurosci</term><term>Neurotransmitter</term><term>Nfkb</term><term>Nmda</term><term>Nmda receptors</term><term>Node</term><term>Node formation</term><term>Oecs</term><term>Olfactory</term><term>Olfactory epithelium</term><term>Olig2</term><term>Oligodendrocyte</term><term>Oligodendrocyte development</term><term>Oligodendrocyte differentiation</term><term>Oligodendrocyte lineage cells</term><term>Oligodendrocyte maturation</term><term>Oligodendrocyte precursor cells</term><term>Oligodendrocyte progenitor cells</term><term>Oligodendrogenesis</term><term>Olps</term><term>Opcs</term><term>Oregon health science university</term><term>Other hand</term><term>Overexpression</term><term>Oxidase</term><term>Oxidative injury</term><term>Pathogenesis</term><term>Pathway</term><term>Peripheral nerves</term><term>Periventricular</term><term>Periventricular leukomalacia</term><term>Pharmacological inhibition</term><term>Phenotype</term><term>Polydendrocytes</term><term>Postnatal</term><term>Precursor</term><term>Precursor cells</term><term>Presynaptic</term><term>Progenitor</term><term>Progenitor cells</term><term>Proteolipid protein</term><term>Pwmi</term><term>Pyramidal neurons</term><term>Ranvier</term><term>Reactive</term><term>Reactive astrocytes</term><term>Recent data</term><term>Recent evidence</term><term>Recent studies</term><term>Receptor</term><term>Regeneration</term><term>Regulator</term><term>Remyelination</term><term>Reporter gene expression</term><term>Rumpshaker</term><term>Schwann</term><term>Schwann cells</term><term>Sclerosis</term><term>Sod1</term><term>Sodium channels</term><term>Sonic hedgehog</term><term>Spinal</term><term>Spinal cord</term><term>Spinal cord injury</term><term>States microglia</term><term>Symposia abstracts</term><term>Synapse</term><term>Synaptic</term><term>Synaptic transmission</term><term>Tlr2</term><term>Transcription</term><term>Transcription factor</term><term>Transcription factors</term><term>Transcriptional</term><term>Transgenic</term><term>Transgenic mice</term><term>Transmitter release</term><term>Transplantation</term><term>University college london</term><term>Ventral</term><term>Vesicle</term><term>Vivo</term><term>White matter</term><term>Wild type</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader></TEI><affiliations><list></list><tree></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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