Drug Information

Drug General Information
Drug ID
D0NA2T
Former ID
DNC013520
Drug Name
(R)-(-)-N-propyl-2-methoxy-11-hydroxynoraporphine
Drug Type
Small molecular drug
Indication Discovery agent Investigative [529289]
Structure
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2D MOL

3D MOL
Formula
C20H23NO2
Canonical SMILES
CCCN1CCC2=C3C1CC4=C(C3=CC(=C2)OC)C(=CC=C4)O
InChI
1S/C20H23NO2/c1-3-8-21-9-7-14-10-15(23-2)12-16-19(14)17(21)11-13-5-4-6-18(22)20(13)16/h4-6,10,12,17,22H,3,7-9,11H2,1-2H3/t17-/m1/s1
InChIKey
PGKMOUOGPCFQTK-QGZVFWFLSA-N
PubChem Compound ID
24800688
Target and Pathway
Target(s) Dopamine D1 receptor Target Info Inhibitor [529289]
D(2) dopamine receptor Target Info Inhibitor [529289]
KEGG Pathway Calcium signaling pathway
cAMP signaling pathway
Neuroactive ligand-receptor interaction
Gap junction
Dopaminergic synapse
Parkinson's disease
Cocaine addiction
Amphetamine addiction
Morphine addiction
Alcoholismhsa04015:Rap1 signaling pathway
Alcoholism
PANTHER Pathway Dopamine receptor mediated signaling pathwayP00026:Heterotrimeric G-protein signaling pathway-Gi alpha and Gs alpha mediated pathway
Heterotrimeric G-protein signaling pathway-Gq alpha and Go alpha mediated pathway
Dopamine receptor mediated signaling pathway
Nicotine pharmacodynamics pathway
PathWhiz Pathway Dopamine Activation of Neurological Reward System
Reactome Dopamine receptors
G alpha (s) signalling eventsR-HSA-390651:Dopamine receptors
G alpha (i) signalling events
WikiPathways Hypothetical Network for Drug Addiction
Monoamine GPCRs
GPCRs, Class A Rhodopsin-like
Genes and (Common) Pathways Underlying Drug Addiction
GPCR ligand binding
GPCR downstream signalingWP666:Hypothetical Network for Drug Addiction
GPCR downstream signaling
Nicotine Activity on Dopaminergic Neurons
References
Ref 529289J Med Chem. 2008 Feb 28;51(4):983-7. Epub 2008 Feb 6.Synthesis and dopamine receptor affinities of N-alkyl-11-hydroxy-2-methoxynoraporphines: N-alkyl substituents determine D1 versus D2 receptor selectivity.
Ref 529289J Med Chem. 2008 Feb 28;51(4):983-7. Epub 2008 Feb 6.Synthesis and dopamine receptor affinities of N-alkyl-11-hydroxy-2-methoxynoraporphines: N-alkyl substituents determine D1 versus D2 receptor selectivity.

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