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Novel actions of inverse agonists on 5-HT(2C) receptor systems
Kelly A. Berg
, Brian D. Stout
, Jodie D. Cropper
, Saul Maayani
, William P. Clarke
Research output
:
Contribution to journal
›
Article
›
peer-review
97
Scopus citations
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Keyphrases
5-HT2C Receptor
100%
Receptor System
100%
Inverse Agonist
100%
Arachidonic Acid Release
37%
Inositol Phosphate Accumulation
37%
Receptor Downregulation
25%
5-HT2C
25%
G Protein
12%
Chinese Hamster Ovary Cells
12%
Prolonged Exposure
12%
Cell Systems
12%
Low Density
12%
Prolonged Treatment
12%
Acute Treatment
12%
Serotonin 5-HT
12%
5-hydroxytryptamine
12%
Receptor Activity
12%
Direct Target
12%
Ligand-independent
12%
Through Effect
12%
Enhancement Effect
12%
Competitive Antagonist
12%
Purinergic Receptors
12%
Neutral Antagonist
12%
Receptor Reserve
12%
Neuroscience
Serotonin
100%
Inverse Agonist
100%
Receptor
100%
Arachidonic Acid
33%
Inositol Phosphate
33%
Receptor Upregulation
22%
G Protein
11%
Agonist
11%
Protein G
11%
Purinergic Receptor
11%
Receptor Reserve
11%
Pharmacology, Toxicology and Pharmaceutical Science
Receptor
100%
Serotonin
100%
Inverse Agonist
100%
Arachidonic Acid
27%
Inositol Phosphate
27%
Chinese Hamster
9%
Guanine Nucleotide Binding Protein
9%
Long Term Exposure
9%
Protein G
9%
Competitive Antagonist
9%
Purinergic Receptor
9%
Receptor Reserve
9%