The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
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Sphingosine-1-Phosphate Receptor-2 Antagonists: Therapeutic Potential and Potential RisksReorganization of Intact Descending Motor Circuits to Replace Lost Connections After InjuryNogo limits neural plasticity and recovery from injurySphingosine 1-phosphate signaling pathway in inner ear biology. New therapeutic strategies for hearing loss?Nogo-B regulates endothelial sphingolipid homeostasis to control vascular function and blood pressureCell type-specific Nogo-A gene ablation promotes axonal regeneration in the injured adult optic nerveInsights into the physiological role of CNS regeneration inhibitorsAblation of Sphingosine 1-Phosphate Receptor Subtype 3 Impairs Hippocampal Neuron Excitability In vitro and Spatial Working Memory In vivoSphingosine 1-phosphate lyase ablation disrupts presynaptic architecture and function via an ubiquitin- proteasome mediated mechanism.Fingolimod Limits Acute Aβ Neurotoxicity and Promotes Synaptic Versus Extrasynaptic NMDA Receptor Functionality in Hippocampal NeuronsBile Acid-Mediated Sphingosine-1-Phosphate Receptor 2 Signaling Promotes Neuroinflammation during Hepatic Encephalopathy in Mice.Neutralization of Nogo-A enhances synaptic plasticity in the rodent motor cortex and improves motor learning in vivo.Axon growth inhibition by RhoA/ROCK in the central nervous system.Sphingosine-1-phosphate receptor inhibition prevents denervation-induced dendritic atrophyThe Neurite Outgrowth Inhibitory Nogo-A-Δ20 Region Is an Intrinsically Disordered Segment Harbouring Three Stretches with Helical Propensity.Comprehensive Corticospinal Labeling with mu-crystallin Transgene Reveals Axon Regeneration after Spinal Cord Trauma in ngr1-/- Mice.Oligodendrocyte- and Neuron-Specific Nogo-A Restrict Dendritic Branching and Spine Density in the Adult Mouse Motor Cortex.NgR1: A Tunable Sensor Regulating Memory Formation, Synaptic, and Dendritic PlasticityPlasticity Related Gene 3 (PRG3) overcomes myelin-associated growth inhibition and promotes functional recovery after spinal cord injury.Central nervous system regenerative failure: role of oligodendrocytes, astrocytes, and microglia.Function of Nogo-A/Nogo-A receptor in Alzheimer's disease.Attractive and repulsive factors act through multi-subunit receptor complexes to regulate nerve fiber growth.New Insights into the Roles of Nogo-A in CNS Biology and Diseases.Cellular and System Biology of Memory: Timing, Molecules, and Beyond.Nogo-A Antibodies for Progressive Multiple Sclerosis.Rewiring the spinal cord: Direct and indirect strategies.Nogo-A regulates vascular network architecture in the postnatal brain.The Involvement of the Myelin-Associated Inhibitors and Their Receptors in CNS Plasticity and Injury.Role of G Protein-Coupled Receptors in the Regulation of Structural Plasticity and Cognitive Function.Nogo-66 Restricts Synaptic Strengthening via Lingo1 and the ROCK2-Cofilin Pathway to Control Actin Dynamics.Nogo-A controls structural plasticity at dendritic spines by rapidly modulating actin dynamics.Sphingosine 1-phosphate receptor 1 is required for retinal ganglion cell survival after optic nerve trauma.Anti-Nogo-A Immunotherapy Does Not Alter Hippocampal Neurogenesis after Stroke in Adult Rats.S1P1 deletion in oligodendroglial lineage cells: Effect on differentiation and myelination.Sphingosine-1-Phosphate and the S1P3 Receptor Initiate Neuronal Retraction via RhoA/ROCK Associated with CRMP2 Phosphorylation.Improved functional outcome after chronic stroke with delayed anti-Nogo-A therapy: A clinically relevant intention-to-treat analysis.The Subventricular Zone Response to Stroke Is Not a Therapeutic Target of Anti-Nogo-A Immunotherapy.Nogo-A antibodies enhance axonal repair and remyelination in neuro-inflammatory and demyelinating pathology.Substrate properties of zebrafish Rtn4b/Nogo and axon regeneration in the zebrafish optic nerve.Anti-Nogo-A antibody: a treatment option for neurogenic lower urinary tract dysfunction?
P2860
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P2860
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
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2014 nî lūn-bûn
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2014 թուականի Յունուարին հրատարակուած գիտական յօդուած
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2014 թվականի հունվարին հրատարակված գիտական հոդված
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2014年の論文
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年學術文章
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The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@ast
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@en
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@nl
type
label
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@ast
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@en
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@nl
prefLabel
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@ast
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@en
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@nl
P2093
P2860
P50
P3181
P1433
P1476
The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity
@en
P2093
Andrea Delekate
Anissa Kempf
Bjoern Tews
Cristina Iobbi
Daniel Gygax
Franz J Obermair
Martin E Schwab
Martin Korte
Miriam Gullo
P2860
P304
P3181
P356
10.1371/JOURNAL.PBIO.1001763
P407
P577
2014-01-01T00:00:00Z