Keyphrases
Protective Effect
100%
N-methyl-D-aspartate Receptor (NMDAR)
100%
Heat Acclimation
100%
Heat Effect
100%
Glutamate Receptors
100%
Hypoxic Damage
100%
AMPA Receptor (AMPAR)
66%
Cross-tolerance
66%
Hypoxia
50%
GluN2A Subunit
50%
GluN2B
50%
Transcript Level
33%
Behavioral Tests
33%
Neuroprotection
33%
Frontal Cortex
33%
Calcium Permeability
33%
GluA2
33%
Tolerance Mechanisms
33%
Hypoxic Tolerance
33%
Ca2+
16%
Hippocampus
16%
Rat Model
16%
Cell Death
16%
Protein Level
16%
High Ratio
16%
Physiological Response
16%
Post-translational
16%
Channel Activity
16%
Calcium Influx
16%
Glutamate
16%
Metabolic State
16%
Cortex Neurons
16%
Hypoxic Stress
16%
Long-term Heat
16%
Ability to Cope
16%
Ischemic Changes
16%
GluN1
16%
Channel Permeability
16%
GluN1 Subunit
16%
Control Channel
16%
Low Calcium
16%
Gated Ion Channels
16%
Qualitative Index
16%
Pharmacology, Toxicology and Pharmaceutical Science
Hypoxia
100%
Cross-Tolerance
100%
Glutamate Receptor
100%
N Methyl Dextro Aspartic Acid
100%
N Methyl Dextro Aspartic Acid Receptor
50%
Alpha Amino 3 Hydroxy 5 Methyl 4 Isoxazolepropionic Acid
50%
AMPA Receptor
50%
Neuroprotection
50%
Glutamic Acid
25%
Rat Model
25%
Ion Channel
25%
Calcium Ion
25%
Messenger RNA
25%
Biochemistry, Genetics and Molecular Biology
Acclimatization
100%
Glutamate Receptor
100%
Cross Tolerance
100%
N-Methyl-D-Aspartic Acid
100%
Amino Methyl Phosphonic Acid
50%
AMPA Receptor
50%
NMDA Receptor
50%
Metabolic Pathway
25%
Rat Model
25%
Calcium Transport
25%
Cell Death
25%
Messenger RNA
25%
Ion Channel
25%
Glutamic Acid
25%
Neuroscience
N-Methyl-D-Aspartic Acid
100%
Glutamate Receptor
100%
NMDA Receptor
50%
AMPA
50%
AMPA Receptor
50%
Neuroprotection
50%
Frontal Lobe
50%
Metabolic Pathway
25%
Glutamic Acid
25%
Hippocampus
25%
Cell Death
25%
Calcium Transport
25%
Behavioral Test
25%
Ion Channel
25%
Messenger RNA
25%