The Chemical Entities of Biological Interest (ChEBI) ontology is downloaded weekly from EMBL-EBI at http://www.ebi.ac.uk/chebi/. The data is made available under the Creative Commons License (CC BY 3.0, http://creativecommons.org/licenses/by/3.0/). For more information see: Degtyarenko et al. (2008) ChEBI: a database and ontology for chemical entities of biological interest. Nucleic Acids Res. 36, D344–D350.
A 6-methoxy-11-methyl-1,3,4,9,10,10a-hexahydro-2H-10,4a-(epiminoethano)phenanthrene in which the sterocenters at positions 4a, 10 and 10a have S-configuration. It is a prodrug of dextrorphan and used as an antitussive drug for suppressing cough.
Dizocilpine Maleate inhibits the reaction [Dextromethorphan results in increased expression of BAX protein]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased expression of BAX protein]
Dextromethorphan results in decreased expression of BCL2L1 protein Dizocilpine Maleate inhibits the reaction [Dextromethorphan results in decreased expression of BCL2L1 protein]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in decreased expression of BCL2L1 protein]
Dizocilpine Maleate inhibits the reaction [Dextromethorphan results in increased cleavage of CASP3 protein]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased cleavage of CASP3 protein]
CYP2D2 protein results in decreased methylation of Dextromethorphan CYP2D2 protein results in increased metabolism of Dextromethorphan [CYP2D2 protein results in increased metabolism of Dextromethorphan] which results in increased chemical synthesis of Dextrorphan
CYP2D6 polymorphism affects the metabolism of Dextromethorphan; CYP2D6 protein affects the metabolism of Dextromethorphan; CYP2D6 protein polymorphism affects the metabolism of Dextromethorphan CYP2D6 gene polymorphism results in increased susceptibility to Dextromethorphan [5-bromotryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-chlorotryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-fluoro-alpha-methyltryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-fluoro-alpha-methyltryptamine results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-fluorotryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-methoxy-N,N-diisopropyltryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [5-methyltryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [7-methyltryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [CYP2D6 mRNA results in increased metabolism of Dextromethorphan] which results in increased chemical synthesis of Dextrorphan; [CYP2D6 protein results in increased metabolism of Dextromethorphan] which results in increased chemical synthesis of Dextrorphan; [Fluoxetine results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [indopan analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [indopan results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [Methoxydimethyltryptamines analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [N,N-diallyl-5-methoxytryptamine results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [N,N-diisopropyltryptamine analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [Paroxetine results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [Quinidine results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; [Tryptamines analog results in decreased activity of CYP2D6 protein] which results in decreased metabolism of Dextromethorphan; Nicardipine inhibits the reaction [CYP2D6 protein results in decreased methylation of Dextromethorphan]; notopterol inhibits the reaction [[CYP2D6 protein results in increased metabolism of Dextromethorphan] which results in increased chemical synthesis of Dextrorphan]; notopterol inhibits the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan]; Paroxetine inhibits the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan]; Plant Extracts inhibits the reaction [CYP2D6 protein affects the metabolism of Dextromethorphan]; Quinidine inhibits the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan]; raubasine inhibits the reaction [CYP2D6 protein affects the metabolism of Dextromethorphan]; Resveratrol inhibits the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan]; sarpogrelate inhibits the reaction [CYP2D6 protein results in decreased methylation of Dextromethorphan]; sarpogrelate metabolite inhibits the reaction [CYP2D6 protein results in decreased methylation of Dextromethorphan]; serpentine (alkaloid) inhibits the reaction [CYP2D6 protein affects the metabolism of Dextromethorphan] Cimetidine inhibits the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan]; ozagrel promotes the reaction [CYP2D6 protein results in increased metabolism of Dextromethorphan] Dextromethorphan results in decreased activity of CYP2D6 protein CYP2D22 protein results in increased metabolism of Dextromethorphan [CYP2D22 protein results in increased metabolism of Dextromethorphan] which results in increased chemical synthesis of Dextrorphan; Ketoconazole inhibits the reaction [CYP2D22 protein results in increased metabolism of Dextromethorphan] CYP2D6 mRNA results in increased metabolism of Dextromethorphan; CYP2D6 protein results in increased metabolism of Dextromethorphan
CYP3A4 protein results in decreased methylation of Dextromethorphan CYP3A4 protein affects the metabolism of Dextromethorphan Dextromethorphan inhibits the reaction [[retrorsine co-treated with NADP] results in decreased activity of CYP3A4 protein] CYP3A4 protein results in increased metabolism of Dextromethorphan CYP3A4 protein results in increased oxidation of Dextromethorphan Dextromethorphan results in decreased activity of CYP3A4 protein
CYP3A5 protein affects the metabolism of Dextromethorphan CYP3A5 protein results in decreased methylation of Dextromethorphan CYP3A5 protein results in increased oxidation of Dextromethorphan
Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS mRNA]; Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS protein]; Dizocilpine Maleate inhibits the reaction [Dextromethorphan results in increased expression of FOS protein]; N-(2-(3,4-Dichlorphenyl)ethyl)-N,N',N'-trimethyl-1,2-ethandiamin inhibits the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS mRNA]]; N-(2-(3,4-Dichlorphenyl)ethyl)-N,N',N'-trimethyl-1,2-ethandiamin inhibits the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS protein]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS mRNA]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS protein]]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased expression of FOS protein] Dextromethorphan inhibits the reaction [3-Pyridinecarboxylic acid, 1,4-dihydro-2,6-dimethyl-5-nitro-4-(2-(trifluoromethyl)phenyl)-, Methyl ester results in increased expression of FOS]
Dextromethorphan affects the expression of GCLC mRNA PRKCD protein affects the reaction [Dextromethorphan affects the expression of GCLC mRNA]; rostafuroxin affects the reaction [Dextromethorphan affects the expression of GCLC mRNA]; rottlerin affects the reaction [Dextromethorphan affects the expression of GCLC mRNA]; traxoprodil mesylate affects the reaction [Dextromethorphan affects the expression of GCLC mRNA]
PRKCD protein affects the reaction [Dextromethorphan affects the expression of GCLM mRNA]; rostafuroxin affects the reaction [Dextromethorphan affects the expression of GCLM mRNA]; rottlerin affects the reaction [Dextromethorphan affects the expression of GCLM mRNA]; traxoprodil mesylate affects the reaction [Dextromethorphan affects the expression of GCLM mRNA]
Dextromethorphan inhibits the reaction [[lipopolysaccharide, Escherichia coli O111 B4 co-treated with Galactosamine] results in increased activity of GPT protein]
Dizocilpine Maleate inhibits the reaction [Dextromethorphan results in increased expression of GRIN2B protein]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased expression of GRIN2B protein] Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]; rostafuroxin inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; rostafuroxin inhibits the reaction [Dextromethorphan results in increased expression of GRIN2B protein]; rottlerin inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; traxoprodil mesylate inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased expression of GRIN2B protein]
Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN mRNA]; Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN protein]; N-(2-(3,4-Dichlorphenyl)ethyl)-N,N',N'-trimethyl-1,2-ethandiamin inhibits the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN mRNA]]; N-(2-(3,4-Dichlorphenyl)ethyl)-N,N',N'-trimethyl-1,2-ethandiamin inhibits the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN protein]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN mRNA]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN protein]] Dextromethorphan inhibits the reaction [3-Pyridinecarboxylic acid, 1,4-dihydro-2,6-dimethyl-5-nitro-4-(2-(trifluoromethyl)phenyl)-, Methyl ester results in increased expression of JUN]
Dextromethorphan results in increased phosphorylation of MAPK1 protein rostafuroxin inhibits the reaction [Dextromethorphan results in increased phosphorylation of MAPK1 protein]
MRGPRX2 protein affects the susceptibility to Dextromethorphan Dextromethorphan binds to MRGPRX2 protein MRGPRX2 protein affects the reaction [Dextromethorphan results in increased secretion of HEXB protein]
[PRKCD protein affects the susceptibility to Dextromethorphan] which affects the activity of and affects the localization of NFE2L2 protein; [rostafuroxin co-treated with Dextromethorphan] results in increased activity of and affects the localization of NFE2L2 protein; [rottlerin co-treated with Dextromethorphan] results in increased activity of and affects the localization of NFE2L2 protein; [traxoprodil mesylate co-treated with Dextromethorphan] results in increased activity of and affects the localization of NFE2L2 protein; Buthionine Sulfoximine inhibits the reaction [Dextromethorphan results in increased activity of NFE2L2 protein]; Dextromethorphan results in increased activity of and affects the localization of NFE2L2 protein
[Dextromethorphan binds to OPRD1 protein] which results in decreased uptake of Norepinephrine; [Dextromethorphan binds to OPRD1 protein] which results in decreased uptake of Serotonin
Dextromethorphan binds to OPRK1 protein [Dextromethorphan binds to OPRK1 protein] which results in decreased uptake of Norepinephrine; [Dextromethorphan binds to OPRK1 protein] which results in decreased uptake of Serotonin
[Dextromethorphan binds to OPRM1 protein] which results in decreased uptake of Norepinephrine; [Dextromethorphan binds to OPRM1 protein] which results in decreased uptake of Serotonin
[PRKCD protein affects the susceptibility to Dextromethorphan] which affects the activity of and affects the localization of NFE2L2 protein; Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]; Dextromethorphan results in increased expression of and results in increased phosphorylation of PRKCD protein; PRKCD protein affects the reaction [Dextromethorphan affects the expression of GCLC mRNA]; PRKCD protein affects the reaction [Dextromethorphan affects the expression of GCLM mRNA]; rostafuroxin inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; rostafuroxin inhibits the reaction [Dextromethorphan results in increased phosphorylation of PRKCD protein]; rottlerin inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; rottlerin inhibits the reaction [Dextromethorphan results in increased phosphorylation of PRKCD protein]; traxoprodil mesylate inhibits the reaction [Dextromethorphan promotes the reaction [PRKCD protein modified form binds to GRIN2B protein]]; traxoprodil mesylate inhibits the reaction [Dextromethorphan results in increased phosphorylation of PRKCD protein]
SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS mRNA]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of FOS protein]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN mRNA]]; SIGMAR1 protein affects the reaction [Dextromethorphan inhibits the reaction [Kainic Acid results in increased expression of JUN protein]] Dextromethorphan binds to SIGMAR1 protein
Dextromethorphan inhibits the reaction [[lipopolysaccharide, Escherichia coli O111 B4 co-treated with Galactosamine] results in increased activity of SORD protein]
Dextromethorphan results in decreased expression of TNF protein Dextromethorphan inhibits the reaction [[lipopolysaccharide, Escherichia coli O111 B4 co-treated with Galactosamine] results in increased expression of TNF protein]; Dextromethorphan inhibits the reaction [lipopolysaccharide, Escherichia coli O111 B4 results in increased secretion of TNF protein] Dextromethorphan results in increased secretion of TNF protein