Keyphrases
Activity Analysis
10%
AMPA Receptor (AMPAR)
16%
AMPA-type Glutamate Receptor
11%
Amphoterin
10%
Axon
13%
Axon Regeneration
11%
Blood-brain Barrier Disruption
12%
Ca(II)
30%
Ca2+ Influx
20%
Ca2+ Migration
10%
Canonical Transient Receptor Potential Channel
10%
Catenin
12%
Cell Migration
11%
Cell Survival
10%
Central Nervous System
15%
Central Nervous System Trauma
10%
Cerebral Small Vessel Disease (cSVD)
15%
Endothelial Cells
12%
Functional Repair
10%
Glial Cells
10%
Golli
20%
Hypoxia-inducible factor-1α (HIF-1α)
10%
Interaction Potential
10%
Kinase Cascade
10%
Migraine Pathophysiology
10%
Morphological Analysis
10%
Multiple Sclerosis
11%
Myelin
16%
Myelin Basic Protein
33%
Myelin Damage
15%
Myelination
20%
Neural Stem Cells
10%
Neuronal Activity
17%
Olig2
10%
Oligodendrocyte
31%
Oligodendrocyte Differentiation
13%
Oligodendrocyte Lineage
11%
Oligodendrocyte Precursor Cells
66%
Oligodendroglial Progenitor Cells
10%
Open Reading Frame 3
10%
Opicinumab
10%
Potential Treatments
10%
Protein-coding Genes
11%
Putative Drug Targets
10%
Receptor Activation
10%
System Disease
10%
Transient Receptor Potential Channel 1
10%
Vascular Endothelial Growth Factor
11%
Voltage Dependence
10%
Voltage Gating
10%
Neuroscience
AMPA
12%
AMPA Receptor
10%
Axon
13%
Blood Brain Barrier
19%
Catenin
13%
Cell Function
7%
Cell Maturation
6%
Cell Migration
12%
Cell Survival
10%
Central Nervous System
21%
Cerebrovascular Disease
15%
Embryonic Stem Cell
10%
Excitotoxicity
10%
Glia
15%
Glial Cells
10%
Glutamate Receptor
12%
Glutamate Receptor 4
10%
High Mobility Group B1 Protein
10%
Kinase
10%
Mammalian Target of Rapamycin
10%
Microglia
10%
Myelin
29%
Myelin Basic Protein
30%
Myelinogenesis
25%
Nerve Fiber Regeneration
8%
Nervous System
11%
Nervous System Cell
5%
Nervous System Trauma
10%
Neural Stem Cell
10%
Neuronal Activity
15%
OLIG2
10%
Oligodendrocyte
100%
Oligodendrocyte Progenitor
32%
Open Reading Frame
10%
Phosphatase
5%
Progenitor Cell
39%
Proteochondroitin Sulfate
10%
Regulatory Region
5%
Remyelinization
6%
Tensin
5%
Tight Junction Protein
6%
Transient Receptor Potential Channel 1
10%