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 member of the class of 1,3-benzoxazoles that is 1,3-benzoxazol-2-ol in which the hydrogen atom at position 5 is substituted by chlorine. A centrally acting muscle relaxant with sedative properties, it is used for the symptomatic treatment of painful muscle spasm.
CYP2E1 protein affects the hydroxylation of Chlorzoxazone CYP2E1 protein results in increased metabolism of Chlorzoxazone CYP2E1 protein results in increased hydroxylation of Chlorzoxazone [CYP2E1 protein results in increased metabolism of Chlorzoxazone] which results in increased abundance of 6-hydroxychlorzoxazone; [CYP2E1 protein results in increased metabolism of Chlorzoxazone] which results in increased chemical synthesis of 6-hydroxychlorzoxazone; Resveratrol inhibits the reaction [CYP2E1 protein results in increased metabolism of Chlorzoxazone] CYP2E1 mRNA results in increased metabolism of Chlorzoxazone; CYP2E1 protein results in increased metabolism of Chlorzoxazone CYP2E1 protein affects the metabolism of Chlorzoxazone [CYP2E1 protein results in increased metabolism of Chlorzoxazone] which results in increased chemical synthesis of 6-hydroxychlorzoxazone; Imidazoles inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Isoquinolines inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Pyridines inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Quinolines inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone] CYP2E1 protein results in increased oxidation of Chlorzoxazone [5-bromotryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [5-chlorotryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [5-fluoro-alpha-methyltryptamine results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [5-fluorotryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [5-methoxy-N,N-diisopropyltryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [5-methyltryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [7-methyltryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [Chlormethiazole results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [Chlorzoxazone results in decreased activity of CYP2E1 protein] which results in decreased degradation of vanoxerine; [CYP2E1 mRNA results in increased metabolism of Chlorzoxazone] which results in increased chemical synthesis of 6-hydroxychlorzoxazone; [CYP2E1 protein results in increased metabolism of Chlorzoxazone] which results in increased chemical synthesis of 6-hydroxychlorzoxazone; [indopan analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [indopan results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [Methoxydimethyltryptamines analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [N,N-diallyl-5-methoxytryptamine results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [N,N-diisopropyltryptamine analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; [Tryptamines analog results in decreased activity of CYP2E1 protein] which results in decreased metabolism of Chlorzoxazone; Carbaryl inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; chlorfluazuron inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Chlorpyrifos inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; CYB5A protein promotes the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; cypermethrin inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Disulfiram inhibits the reaction [[CYP2E1 protein results in increased metabolism of Chlorzoxazone] which results in increased chemical synthesis of 6-hydroxychlorzoxazone]; Disulfiram inhibits the reaction [CYP2E1 protein results in increased metabolism of Chlorzoxazone]; Fenitrothion inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; fenvalerate inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Fomepizole inhibits the reaction [CYP2E1 protein results in increased metabolism of Chlorzoxazone]; isoproturon inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; Malathion inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; perfluorooctane sulfonic acid inhibits the reaction [CYP2E1 protein results in increased oxidation of Chlorzoxazone]; phenthoate inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]; profenofos inhibits the reaction [CYP2E1 protein results in increased hydroxylation of Chlorzoxazone]