Homobivalent Dopamine D2 Receptor Ligands Modulate the Dynamic Equilibrium of D2 Monomers and Homo- and Heterodimers
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Homobivalent Dopamine D2 Receptor Ligands Modulate the Dynamic Equilibrium of D2 Monomers and Homo- and Heterodimers
Amphetamine facilitates D2R dimerization and the expression of
NTS1R-D2R bivalent ligand induced calcium release in HT22 cells. (a)
Homobivalent Dopamine D2 Receptor Ligands Modulate the Dynamic Equilibrium of D2 Monomers and Homo- and Heterodimers
Optical Control of Dopamine D2-like Receptors with Cell-Specific Fast-Relaxing Photoswitches
Homobivalent Dopamine D2 Receptor Ligands Modulate the Dynamic Equilibrium of D2 Monomers and Homo- and Heterodimers
Frontiers Modulating brain integrative actions as a new perspective on pharmacological approaches to neuropsychiatric diseases
Illustration of the complexity of the balance between A2A–D2R
Schematic representation of wild type dopamine D 2 and D 3 receptors
Biphasic competition-binding curves indicate a bivalent binding mode.
Schematic model, showing possible downstream signaling by (transient)
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