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PTEN degradation after ischemic stroke: A double-edged sword
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Dive into the research topics of 'PTEN degradation after ischemic stroke: A double-edged sword'. Together they form a unique fingerprint.
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Keyphrases
Activity Inhibition
6%
Acute Phase
6%
Astrocyte Activation
6%
Astrocytes
13%
Astrocytic
13%
Astrogliosis
6%
Cerebral Ischemia
13%
Cerebral Ischemia-reperfusion Injury
6%
Cognitive Impairment
6%
Double-edged Sword
100%
Functional Recovery
6%
GABAA Receptor (GABAAR)
26%
Ischemia
6%
Ischemic Damage
13%
Ischemic Stroke
100%
Neuronal Activity
6%
Neuroprotection
6%
Neuroprotective
6%
Neurotoxicity
6%
Partial Deletion
6%
Penumbra Area
6%
Phosphatase
100%
Receptor 2
13%
Receptor Current
6%
Rodent Models
6%
S-nitrosylation
6%
Signaling Pathway
6%
Spatiotemporal
6%
Stroke Treatment
6%
Tensin Homolog
100%
Tumor Suppressor
6%
Vascular Cognitive Impairment
6%
Neuroscience
Astrocyte
20%
Astrogliosis
6%
Brain Ischemia
100%
Cell Signaling
6%
Cerebral Ischemia-Reperfusion Injury
6%
Cerebrovascular Accident
20%
Cognitive Disorders
13%
Excitotoxicity
6%
GABAA Receptor
26%
Ischemia
6%
Neuronal Activity
6%
Neuroprotection
6%
Neuroprotective Agent
6%
Phosphatase
100%
Tensin
100%
Tumor Suppressor Protein
6%