Keyphrases
Constitutive Behavior
100%
Dorsal Root Ganglion Neurons
100%
μ-opioid Receptor
100%
β-arrestin2
100%
C-Src
100%
μ Receptor
70%
Voltage-gated Ca2+ Channels
40%
G Protein-coupled Receptor
20%
Endocytosis
20%
Enkephalin
20%
Morphine
20%
Agonist Efficacy
20%
Inhibitory Coupling
20%
β-arrestin
20%
Naltrexone
20%
Cellular Phenotype
10%
Amino
10%
Constitutively Active
10%
Receptor Function
10%
Receptor Signaling
10%
Cell Surface
10%
Complex Role
10%
Receptor Expression
10%
Inverse Agonist
10%
Functional Change
10%
Receptor Desensitization
10%
Receptor Activity
10%
Tert-butyl
10%
Reduced Activation
10%
Neutral Antagonist
10%
Mu Agonist
10%
Signaling Events
10%
Receptor Tyrosine Kinase
10%
Complex Phenotypes
10%
Pyrimidine
10%
Src Inhibitor
10%
Chlorophenyl
10%
Functional Contribution
10%
Pyrazolo
10%
Src Signaling
10%
Maximum Inhibition
10%
CTAP
10%
Biochemistry, Genetics and Molecular Biology
Agonist
100%
Opioid Receptor
100%
Oncogene Src
100%
Voltage-Gated Calcium Channels
80%
Endocytosis
40%
G Protein Coupled Receptor
40%
Arrestin
40%
Enkephalin
40%
Naltrexone
40%
Receptor Tyrosine Kinase
20%
Tyrosine Kinase
20%
Receptor down Regulation
20%
Internalization
20%
Inverse Agonist
20%
Arginine
20%
Neuroscience
μ-Opioid Receptor
100%
Dorsal Root Ganglion
100%
Oncogene Src
100%
Agonist
62%
Calcium Channel
50%
Endocytosis
25%
G Protein Coupled Receptor
25%
Morphine
25%
Enkephalin
25%
Naltrexone
25%
Beta Arrestin
25%
Receptor Expression
12%
Tyrosine Kinase
12%
Receptor Tyrosine Kinase
12%
Inverse Agonist
12%
Arginine
12%
Internalization
12%
Receptor down Regulation
12%
Immunology and Microbiology
Agonist
100%
Ganglion
100%
Dorsal Root
100%
Oncogene Src
100%
Voltage-Gated Calcium Channels
66%
Endocytosis
33%
Retina S Antigen
33%
Cell Surface
16%
Internalization
16%
Receptor down Regulation
16%
Pharmacology, Toxicology and Pharmaceutical Science
μ-Opioid Receptor
100%
Calcium Channel
50%
G Protein Coupled Receptor
25%
Morphine
25%
Naltrexone
25%
Enkephalin
25%
Beta Arrestin
25%
Receptor
12%
Protein Kinase C
12%
Arginine
12%
Desensitization
12%
Inverse Agonist
12%
Mu Opiate Receptor Agonist
12%
Protein Tyrosine Kinase
12%
Dextro Phenylalanylcysteinyltyrosyl Dextro Tryptophylarginylthreonylpenicillaminylthreoninamide 2,7 Disulfide
12%