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1984, ISBN 0127752307, xi, 392 p., [5] p. of plates
Book
The Lancet Neurology, ISSN 1474-4422, 07/2019, Volume 18, Issue 7, pp. 628 - 628
Journal Article
Journal Article
Journal Article
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 11/2018, Volume 115, Issue 46, pp. 11832 - 11837
The speed of impulse transmission is critical for optimal neural circuit function, but it is unclear how the appropriate conduction velocity is established in... 
Node of Ranvier | Neurofascin 155 | Thrombin | Spike-time–dependent plasticity | Myelin plasticity | AXONS | myelin plasticity | RANVIER | thrombin | neurofascin 155 | spike-time-dependent plasticity | NEUROFASCIN | MULTIDISCIPLINARY SCIENCES | GLIAL-CELLS | node of Ranvier | FIBERS | MULTIPLE-SCLEROSIS | CENTRAL-NERVOUS-SYSTEM | PROTEASE NEXIN-1 | DOMAIN ORGANIZATION | BRAIN | Myelin Sheath - physiology | Vesicle-Associated Membrane Protein 2 | Humans | Axons - metabolism | Mice, Transgenic | Neural Conduction - physiology | Structure-Activity Relationship | Ranvier's Nodes - metabolism | Myelin Sheath - metabolism | Astrocytes - physiology | Animals | Nerve Fibers, Myelinated - physiology | Neuroglia - metabolism | Mice | Optic Nerve - metabolism | Physiological aspects | Physiological research | Research | Biological control systems | Astrocytes | Myelin proteins | Conduction | Central nervous system | Nervous system | Tetanus toxin | Glial cells | Exocytosis | Cell adhesion molecules | Acuity | Nerve conduction | Transfection | Sheaths | Proteolysis | Cell adhesion | Visual effects | Nodes of Ranvier | Optic nerve | Neurons | Myelin | Transgenic mice | Visual acuity | Proteinase inhibitors | Velocity | Nodes | Corpus callosum | Neurology | Axons | Protease inhibitors | Morphology | Tetanus | Index Medicus | Biological Sciences | spike-time–dependent plasticity
Journal Article
Glia, ISSN 0894-1491, 12/2010, Volume 58, Issue 16, pp. 1949 - 1960
Journal Article
Muscle & Nerve, ISSN 0148-639X, 04/2017, Volume 55, Issue 4, pp. 544 - 554
Journal Article
Journal Article
Experimental Neurology, ISSN 0014-4886, 01/2012, Volume 233, Issue 1, pp. 534 - 542
Autoantibodies against gangliosides GM1 or GD1a are associated with acute motor axonal neuropathy (AMAN) and acute motor-sensory axonal neuropathy (AMSAN),... 
Acute motor axonal neuropathy | Node of Ranvier | Autoantibody | Acute sensory ataxic neuropathy | Ganglioside | NERVE-FIBERS | ANTI-GM1 ANTIBODIES | GUILLAIN-BARRE-SYNDROME | SENSORY ATAXIC NEUROPATHY | HIGH-AFFINITY | RABBIT MODEL | CONDUCTION BLOCK | NEUROSCIENCES | SODIUM-CHANNEL CLUSTERS | IMMUNE NEUROPATHIES | MOTOR AXONAL NEUROPATHY | Gangliosidosis, GM1 - immunology | Ranvier's Nodes - metabolism | Choline O-Acetyltransferase - metabolism | Ranvier's Nodes - ultrastructure | Polyneuropathies - chemically induced | Time Factors | Spinal Cord - pathology | Injections, Subcutaneous | Statistics, Nonparametric | Sciatic Nerve - cytology | Neural Conduction - drug effects | Sciatic Nerve - drug effects | Spectrin - metabolism | Disease Models, Animal | Microscopy, Electron, Transmission | Rabbits | Acute Disease | Complement C3 - metabolism | Rats | Neural Conduction - physiology | Antibodies - adverse effects | Ganglia, Spinal - ultrastructure | Ranvier's Nodes - drug effects | Polyneuropathies - physiopathology | Rats, Sprague-Dawley | Gangliosides - immunology | Animals | Ganglia, Spinal - drug effects | Ganglia, Spinal - metabolism | Autoimmunity | Biological products | Gangliosides | Analysis | Immunoglobulin G | Invisibility | Index Medicus | autoantibody | acute sensory ataxic neuropathy | acute motor axonal neuropathy | node of Ranvier | ganglioside
Journal Article
Stroke, ISSN 0039-2499, 02/2016, Volume 47, Issue 2, pp. 542 - 547
BACKGROUND AND PURPOSE—Chronic cerebral hypoperfusion can lead to ischemic white matter injury resulting in vascular dementia. To characterize white matter... 
Dementia, vascular | Cilostazol | Models, animal | White matter | white matter | NODES | models, animal | RANVIER | dementia, vascular | cilostazol | PERIPHERAL VASCULAR DISEASE | DYSFUNCTION | BRAIN | CLINICAL NEUROLOGY | IMPAIRMENT | Oligodendroglia - metabolism | Tetrazoles - pharmacology | Rats, Wistar | White Matter - metabolism | Brain Ischemia - metabolism | Dementia, Vascular - metabolism | Hippocampus - drug effects | Ranvier's Nodes - metabolism | Carotid Stenosis - metabolism | Neuroprotective Agents - pharmacology | Oligodendroglia - drug effects | Myelin Basic Protein - drug effects | Behavior, Animal - drug effects | Dementia, Vascular - pathology | Disease Models, Animal | Leukoencephalopathies - pathology | Myelin Basic Protein - metabolism | Rats | White Matter - drug effects | Hippocampus - pathology | Inflammation | Leukoencephalopathies - metabolism | Ranvier's Nodes - drug effects | Brain Ischemia - etiology | Carotid Stenosis - pathology | Cognition - drug effects | Carotid Stenosis - complications | Diffusion Tensor Imaging | White Matter - pathology | Neuropsychological Tests | Oligodendroglia - pathology | Hippocampus - metabolism | Animals | Brain Ischemia - pathology | Dementia, Vascular - etiology | Leukoencephalopathies - etiology | Ranvier's Nodes - pathology | Chronic Disease | Index Medicus
Journal Article
Journal Article
The Journal of Cell Biology, ISSN 0021-9525, 9/2003, Volume 162, Issue 6, pp. 1161 - 1172
Myelination results in a highly segregated distribution of axonal membrane proteins at nodes of Ranvier. Here, we show the role in this process of TAG-1, a... 
COS cells | Molecules | Neuroscience | Neurons | Neuroglia | Nerves | Schwann cells | Antibodies | Cell membranes | Potassium channels | Protein 4.1B | TAG-1/axonin-1/contactin-2 | Nodes of Ranvier | Paranodin/Caspr/NCP-1 | CELL-ADHESION MOLECULE | PARANODAL JUNCTIONS | PROTEIN CASPR | paranodin/Caspr/NCP-1 | AXONAL GLYCOPROTEIN TAG-1 | CELL BIOLOGY | PERIPHERAL-NERVE | nodes of Ranvier | NEURITE OUTGROWTH | potassium channels | protein 4.1B | CENTRAL-NERVOUS-SYSTEM | GLIA INTERACTIONS | K+ CHANNELS | Cytoskeletal Proteins | Nervous System - metabolism | Nervous System - ultrastructure | Neuropeptides | Cell Membrane - genetics | Nerve Fibers, Myelinated - ultrastructure | Ranvier's Nodes - metabolism | Ranvier's Nodes - ultrastructure | Brain - metabolism | Cell Adhesion Molecules, Neuronal - deficiency | Potassium Channels - metabolism | Neuroglia - cytology | Contactin 2 | Brain - ultrastructure | Cell Membrane - metabolism | Membrane Proteins - metabolism | Nerve Fibers, Myelinated - metabolism | Neural Conduction - genetics | Cell Communication - genetics | Microscopy, Electron | Mutation - genetics | Nerve Tissue Proteins - genetics | Cell Adhesion Molecules, Neuronal - genetics | Macromolecular Substances | Mice, Knockout | Potassium Channels - genetics | Nerve Tissue Proteins - metabolism | Animals | Neuroglia - metabolism | Mice | Shaker Superfamily of Potassium Channels | COS Cells | Proteins | Myelination | Cell adhesion | Cytology | Physiological aspects | Research | Membrane proteins | Nervous system | Cellular biology | Index Medicus | TAG-1 | axonin-1 | NCP-1; potassium channels; protein 4.1B; nodes of Ranvier | Caspr | contactin-2; paranodin
Journal Article