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.
Atropine inhibits the reaction [ABCB11 protein results in increased transport of Taurocholic Acid] Atropine results in decreased activity of ABCB11 protein
Atropine inhibits the reaction [[Organophosphorus Compounds results in decreased activity of ACHE protein] which results in increased abundance of Acetylcholine]; Atropine inhibits the reaction [Carbachol results in increased metabolism of and results in increased secretion of ACHE protein]; Atropine inhibits the reaction [Paraoxon results in increased expression of ACHE protein] [Atropine co-treated with Obidoxime Chloride] inhibits the reaction [Paraoxon results in decreased activity of ACHE protein]; [Methyl Parathion co-treated with pralidoxime co-treated with Atropine] results in decreased expression of ACHE protein; [Paraoxon co-treated with pralidoxime co-treated with Atropine] results in decreased activity of ACHE protein; [pralidoxime co-treated with Atropine] inhibits the reaction [Dichlorvos results in decreased activity of ACHE protein]; [tariquidar co-treated with asoxime chloride co-treated with Atropine] inhibits the reaction [Soman results in decreased activity of ACHE protein]; Atropine inhibits the reaction [Methyl Parathion results in decreased activity of ACHE protein]; Obidoxime Chloride inhibits the reaction [[Paraoxon co-treated with pralidoxime co-treated with Atropine] results in decreased activity of ACHE protein]; pralidoxime promotes the reaction [[Atropine co-treated with Curcumin] inhibits the reaction [Dichlorvos results in decreased activity of ACHE protein]] [1-(4-hydroxyiminomethylpyridinium)-3-(carbamoylpyridinium) propane dibromide co-treated with Atropine] inhibits the reaction [Sarin results in decreased activity of ACHE protein]; [[1-(4-hydroxyiminomethylpyridinium)-3-(carbamoylpyridinium) propane dibromide co-treated with cucurbit(7)uril] co-treated with Atropine] inhibits the reaction [Sarin results in decreased activity of ACHE protein]; Atropine inhibits the reaction [Sarin results in decreased activity of ACHE protein]; Atropine promotes the reaction [Dichlorvos results in increased phosphorylation of ACHE protein]; Atropine promotes the reaction [haloxon results in increased phosphorylation of ACHE protein]; Atropine promotes the reaction [Paraoxon results in increased phosphorylation of ACHE protein]
Atropine inhibits the reaction [[oxotremorine M co-treated with wortmannin] inhibits the reaction [oxophenylarsine results in increased phosphorylation of BCAR1 protein]]
[Atropine co-treated with pralidoxime] results in decreased expression of BCHE protein; [Methyl Parathion co-treated with pralidoxime co-treated with Atropine] results in decreased expression of BCHE protein [BCHE protein co-treated with asoxime chloride co-treated with pro-diazepam co-treated with Atropine] results in decreased susceptibility to VX
[Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of CCL5 mRNA]; [Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of CCL5 protein]
Atropine binds to and results in decreased activity of CHRM1 protein; Atropine inhibits the reaction [[Carbachol results in increased activity of CHRM1 protein] which results in increased abundance of Calcium] Atropine results in decreased activity of CHRM1 protein Atropine affects the reaction [muscarinic toxin 7 binds to CHRM1 protein]
Atropine binds to and results in decreased activity of CHRM3 protein; Atropine inhibits the reaction [Carbachol results in increased activity of CHRM3 protein] Atropine results in decreased activity of CHRM3 protein
Atropine promotes the reaction [Acetylcholine affects the activity of [CHRNA4 protein binds to CHRNB2 protein]] Atropine binds to [CHRNA4 protein binds to CHRNB2 protein] Atropine promotes the reaction [Mecamylamine inhibits the reaction [Paraoxon results in decreased expression of CHRNA4 mRNA]]; Atropine promotes the reaction [Mecamylamine inhibits the reaction [Paraoxon results in decreased expression of CHRNA4 protein]]
Atropine binds to [CHRNA4 protein binds to CHRNB2 protein] Atropine promotes the reaction [Mecamylamine inhibits the reaction [Paraoxon results in decreased expression of CHRNB2 mRNA]]; Atropine promotes the reaction [Mecamylamine inhibits the reaction [Paraoxon results in decreased expression of CHRNB2 protein]] Atropine promotes the reaction [Acetylcholine affects the activity of [CHRNA4 protein binds to CHRNB2 protein]]
Atropine inhibits the reaction [acephate results in increased expression of CRH mRNA]; Atropine inhibits the reaction [acephate results in increased secretion of CRH protein]; Atropine inhibits the reaction [methamidophos results in increased expression of CRH mRNA]; Atropine inhibits the reaction [methamidophos results in increased secretion of CRH protein] [Atropine co-treated with SR 140333 co-treated with SR 48968] results in decreased activity of CRH protein
Atropine inhibits the reaction [Parathion results in increased expression of CTNNB1 protein mutant form]; Atropine inhibits the reaction [Parathion results in increased expression of CTNNB1 protein]
[Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of CXCL1 mRNA]; [Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of CXCL1 protein]
[Paraoxon co-treated with Atropine co-treated with Obidoxime Chloride] results in decreased expression of F2 mRNA; [Paraoxon co-treated with Atropine co-treated with Obidoxime Chloride] results in increased activity of F2 protein
Atropine results in increased expression of FOS protein [asoxime chloride co-treated with Atropine co-treated with Diazepam] affects the reaction [Soman results in increased expression of FOS protein]; Atropine inhibits the reaction [Pilocarpine results in increased expression of FOS mRNA] Atropine inhibits the reaction [Paraoxon results in increased expression of FOS mRNA]
Atropine inhibits the reaction [[Pentobarbital co-treated with L-pyroglutamyl-L-histidyl-3,3-dimethylprolinamide] results in increased expression of GHRL protein]
Atropine inhibits the reaction [[Carbachol results in increased activity of [GRM4 protein binds to KCNJ3 protein]] which results in increased import of Thallium]
[Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of ICAM1 mRNA]; [Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of ICAM1 protein]
[Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of IL1B mRNA]; [Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of IL1B protein]
[Atropine co-treated with Ketamine] inhibits the reaction [Soman results in increased expression of IL6 mRNA]; [Atropine co-treated with Ketamine] inhibits the reaction [Soman results in increased expression of IL6 protein]
Atropine inhibits the reaction [[Carbachol results in increased activity of [GRM4 protein binds to KCNJ3 protein]] which results in increased import of Thallium]
[asoxime chloride co-treated with Atropine co-treated with Diazepam] affects the reaction [Soman results in increased phosphorylation of MAPK1 protein]
[asoxime chloride co-treated with Atropine co-treated with Diazepam] affects the reaction [Soman results in increased phosphorylation of MAPK14 protein]
[asoxime chloride co-treated with Atropine co-treated with Diazepam] affects the reaction [Soman results in increased phosphorylation of MAPK3 protein]
[asoxime chloride co-treated with Atropine co-treated with Diazepam] affects the reaction [Soman results in increased phosphorylation of MAPK8 protein]
Atropine inhibits the reaction [Indomethacin results in increased activity of NOS2 protein]; Atropine inhibits the reaction [Indomethacin results in increased expression of NOS2 mRNA]
Atropine inhibits the reaction [Malathion results in increased expression of PCNA]; Atropine inhibits the reaction [Parathion results in increased expression of PCNA]
[Atropine co-treated with Glucose] binds to PPARA protein; Atropine inhibits the reaction [Glucose inhibits the reaction [Palmitoyl Coenzyme A analog binds to PPARA protein]]
Atropine affects the reaction [Indomethacin results in increased expression of PTGS2]; Atropine inhibits the reaction [Indomethacin results in increased expression of PTGS2 mRNA]; Atropine inhibits the reaction [Indomethacin results in increased expression of PTGS2]; Atropine inhibits the reaction [SC 560 results in increased expression of PTGS2 mRNA]
Atropine inhibits the reaction [oxotremorine M inhibits the reaction [[wortmannin co-treated with lysophosphatidic acid] results in increased phosphorylation of PTK2 protein]]; Atropine inhibits the reaction [oxotremorine M inhibits the reaction [[wortmannin co-treated with oxophenylarsine] results in increased phosphorylation of PTK2 protein]]; Atropine inhibits the reaction [oxotremorine M promotes the reaction [[Tetradecanoylphorbol Acetate co-treated with wortmannin] results in increased phosphorylation of PTK2 protein]]
Atropine inhibits the reaction [[oxotremorine M co-treated with wortmannin] inhibits the reaction [oxophenylarsine results in increased phosphorylation of PXN protein]]
Atropine inhibits the reaction [SLC22A1 protein results in increased transport of 1-Methyl-4-phenylpyridinium]; Atropine inhibits the reaction [SLC22A1 protein results in increased uptake of 1-Methyl-4-phenylpyridinium]
Atropine inhibits the reaction [SLC22A2 protein results in increased transport of 1-Methyl-4-phenylpyridinium]; Atropine inhibits the reaction [SLC22A2 protein results in increased uptake of 4-(4-dimethylaminostyryl)-1-methylpyridinium]; Atropine inhibits the reaction [SLC22A2 protein results in increased uptake of Tetraethylammonium]
SLC22A3 protein results in increased uptake of Atropine Atropine inhibits the reaction [SLC22A3 protein results in increased transport of 1-Methyl-4-phenylpyridinium]
[Atropine co-treated with Obidoxime Chloride co-treated with Diazepam] inhibits the reaction [Dichlorvos results in increased expression of TAT protein]
[Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of TNF mRNA]; [Ketamine co-treated with Atropine] inhibits the reaction [Soman results in increased expression of TNF protein]
Atropine inhibits the reaction [Malathion results in increased expression of TP53 protein]; Atropine inhibits the reaction [Parathion results in increased expression of TP53 protein]
[Ketamine co-treated with Midazolam co-treated with Valproic Acid] inhibits the reaction [[Sarin co-treated with [Atropine co-treated with trimethylene-bis(4-hydroxyiminomethylpyridinium)]] results in increased expression of TSPO protein]; [Sarin co-treated with [Atropine co-treated with trimethylene-bis(4-hydroxyiminomethylpyridinium)]] results in increased expression of TSPO protein
pralidoxime binds to and results in decreased activity of ACHE protein; pralidoxime inhibits the reaction [malaoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Malathion results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [tabun results in decreased activity of ACHE protein] pralidoxime binds to 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; [Paraoxon co-treated with pralidoxime co-treated with Atropine] results in decreased activity of ACHE protein; [pralidoxime co-treated with Atropine] inhibits the reaction [Dichlorvos results in decreased activity of ACHE protein]; Obidoxime Chloride inhibits the reaction [[Paraoxon co-treated with pralidoxime co-treated with Atropine] results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Paraoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Sarin analog results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Sarin results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [VX analog results in decreased activity of ACHE protein]; pralidoxime promotes the reaction [[Atropine co-treated with Curcumin] inhibits the reaction [Dichlorvos results in decreased activity of ACHE protein]] pralidoxime inhibits the reaction [Chlorfenvinphos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Chlorpyrifos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Cholinesterase Inhibitors binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [cyclohexyl methylphosphonofluoridate binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [cyclohexyl methylphosphonofluoridate results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Diazinon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Dichlorvos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [dicrotophos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Dimethoate results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [dimethoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [ethylparaoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [heptenophos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Isoflurophate results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [leptophos oxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [malaoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Malathion results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [methamidophos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [methyl demeton results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [methylparaoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Mevinphos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Monocrotophos results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Obidoxime Chloride results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Organophosphates binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Organophosphorus Compounds results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Paraoxon binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Paraoxon results in decreased activity of ACHE protein mutant form]; pralidoxime inhibits the reaction [Paraoxon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Phosphamidon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [S-(N,N-diethylaminoethyl) isobutyl methylphosphothiolate results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Sarin analog results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Sarin binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Sarin results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Soman results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [tabun binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [tabun results in decreased activity of ACHE protein mutant form]; pralidoxime inhibits the reaction [tabun results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [Trichlorfon results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [VX analog results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [VX binds to and results in decreased activity of ACHE protein]; pralidoxime inhibits the reaction [VX results in decreased activity of ACHE protein]; pralidoxime metabolite inhibits the reaction [Sarin results in decreased activity of ACHE protein]; pralidoxime metabolite inhibits the reaction [VX results in decreased activity of ACHE protein]; pralidoxime promotes the reaction [Carbaryl results in decreased activity of ACHE protein]; pralidoxime promotes the reaction [Propoxur results in decreased activity of ACHE protein]
pralidoxime binds to and results in decreased activity of BCHE protein [Atropine co-treated with pralidoxime] results in decreased expression 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; pralidoxime affects the reaction [4-nitrophenyl 2-propylmethylphosphonate results in decreased activity of BCHE protein]; pralidoxime affects the reaction [ethyl 4-nitrophenyl methylphosphonate results in decreased activity of BCHE protein] BCHE protein binds to pralidoxime pralidoxime binds to and affects the activity of BCHE protein; pralidoxime inhibits the reaction [Chlorpyrifos results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Cholinesterase Inhibitors binds to and results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Dichlorvos results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Isoflurophate inhibits the reaction [BCHE protein results in increased hydrolysis of Butyrylthiocholine]]; pralidoxime inhibits the reaction [Isoflurophate results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Organophosphates binds to and results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Paraoxon results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [quinalphos results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Sarin analog inhibits the reaction [BCHE protein results in increased hydrolysis of Butyrylthiocholine]]; pralidoxime inhibits the reaction [Sarin analog results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [Trichlorfon results in decreased activity of BCHE protein]; pralidoxime inhibits the reaction [VX analog results in decreased activity of BCHE protein]