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.
[Methyl Parathion co-treated with decamethrin] results in decreased activity of ACHE protein; [Methyl Parathion co-treated with Parathion] results in decreased activity of ACHE protein Methyl Parathion results in decreased activity of ACHE protein [Methyl Parathion co-treated with Chlorpyrifos] results in decreased activity of ACHE protein; [Methyl Parathion co-treated with NADP] results in decreased activity of ACHE protein; [Methyl Parathion co-treated with pralidoxime co-treated with Atropine] results in decreased expression of ACHE protein; [Methyl Parathion co-treated with pralidoxime] results in decreased expression of ACHE protein; Atropine inhibits the reaction [Methyl Parathion results in decreased activity of ACHE protein]; CYP2B1 protein affects the reaction [Methyl Parathion results in decreased activity of ACHE protein]; CYP2B2 protein affects the reaction [Methyl Parathion results in decreased activity of ACHE protein]; Glutathione inhibits the reaction [Methyl Parathion results in decreased activity of ACHE protein]; Memantine inhibits the reaction [Methyl Parathion results in decreased activity of ACHE protein]; Phenobarbital inhibits the reaction [Methyl Parathion results in decreased activity of ACHE protein]
Methyl Parathion results in decreased expression of ADD3 mRNA Methyl Parathion affects the expression of ADD3 mRNA Methyl Parathion results in increased expression of ADD3 mRNA
Methyl Parathion results in increased activity of AKR1C1 protein AKR1C1 protein affects the susceptibility to [Benzo(a)pyrene co-treated with Methyl Parathion]; Benzo(a)pyrene promotes the reaction [Methyl Parathion results in increased activity of AKR1C1 protein]; Methyl Parathion promotes the reaction [Benzo(a)pyrene results in increased expression of AKR1C1 mRNA] Methyl Parathion results in increased expression of AKR1C1 mRNA
AKR1C2 protein affects the susceptibility to [Benzo(a)pyrene co-treated with Methyl Parathion]; Benzo(a)pyrene promotes the reaction [Methyl Parathion results in increased activity of AKR1C2 protein]; Methyl Parathion promotes the reaction [Benzo(a)pyrene results in increased expression of AKR1C2 mRNA] Methyl Parathion results in increased expression of AKR1C2 mRNA
Dihydrotestosterone inhibits the reaction [Methyl Parathion results in increased activity of AR protein]; Methyl Parathion inhibits the reaction [[6-fluorotestosterone co-treated with Norgestrel] binds to and results in increased activity of AR protein]; Methyl Parathion inhibits the reaction [Metribolone results in increased activity of AR protein] Methyl Parathion binds to AR protein
[Methyl Parathion co-treated with Parathion] results in decreased activity of BCHE protein [Methyl Parathion co-treated with Chlorpyrifos] results in decreased activity of BCHE protein; [Methyl Parathion co-treated with Diazinon] results in decreased activity of BCHE protein; [Methyl Parathion co-treated with pralidoxime co-treated with Atropine] results in decreased expression of BCHE protein; [Methyl Parathion co-treated with pralidoxime] results in decreased expression of BCHE protein Methyl Parathion results in decreased activity of BCHE protein
Methyl Parathion affects the expression of CCK mRNA Methyl Parathion results in decreased expression of CCK mRNA Methyl Parathion results in increased expression of CCK mRNA
Methyl Parathion results in increased expression of CYP1A1 mRNA Methyl Parathion inhibits the reaction [Benzo(a)pyrene results in increased expression of CYP1A1 mRNA]
Methyl Parathion results in increased activity of GPT protein Glutathione inhibits the reaction [Methyl Parathion results in increased activity of GPT protein]
GSTA1 protein affects the metabolism of and results in decreased alkylation of Methyl Parathion Methyl Parathion results in increased expression of GSTA1 mRNA; Methyl Parathion results in increased expression of GSTA1 protein
Methyl Parathion results in decreased activity of LCAT protein Methyl Parathion inhibits the reaction [[LCAT protein results in increased metabolism of Lecithins] which results in increased chemical synthesis of Cholesterol Esters]
Methyl Parathion results in decreased expression of and results in decreased activity of PON1 protein Methyl Parathion results in decreased expression of PON1 mRNA
Methyl Parathion results in decreased expression of SRSF5 mRNA Methyl Parathion affects the expression of SRSF5 mRNA Methyl Parathion results in increased expression of SRSF5 mRNA
Methyl Parathion affects the expression of ST14 mRNA Methyl Parathion results in decreased expression of ST14 mRNA Methyl Parathion results in increased expression of ST14 mRNA