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Mu-Opioid Receptor Desensitization in Ventral Tegmental Neurones: Cellular Mechanisms and Functional Consequences
Bailey, Chris
(PI)
Department of Life Sciences
Project
:
Research council
Overview
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Research output
(2)
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Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
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Neuroscience
Heroin
16%
Intracellular Signaling
16%
Met-Enkephalin
8%
Morphine
50%
Neuron
100%
Opiate
100%
Opiate Abuse
16%
Opioid Dependence
16%
Opioid Peptide
8%
Protein Subunit
16%
Receptor down Regulation
100%
Receptor Phosphorylation
8%
Signaling Mechanism
33%
Somatostatin
8%
μ-Opioid Receptor
100%
Pharmacology, Toxicology and Pharmaceutical Science
4 Aminobutyric Acid Receptor
7%
Death
7%
Desensitization
100%
Enkephalin[2 Dextro Alanine 4 Methylphenylalanine 5 Glycine]
15%
Functional Selectivity
100%
Metenkephalin
15%
Morphine
7%
Mouse
100%
Opiate
7%
Opiate Receptor
100%
Receptor
7%