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.
Any of a group of compounds, both naturally occurring and synthetic, that induce cell elongation in plant stems (from Greek alphaupsilonxialphanuomega, 'to grow').
2,4,5-Trichlorophenoxyacetic Acid results in increased expression of ABCC2 mRNA; 2,4,5-Trichlorophenoxyacetic Acid results in increased expression of ABCC2 protein Alpha-Amanitin inhibits the reaction [2,4,5-Trichlorophenoxyacetic Acid results in increased expression of ABCC2 mRNA]
2,4,5-Trichlorophenoxyacetic Acid results in increased expression of GCLC mRNA 2,4,5-Trichlorophenoxyacetic Acid results in increased expression of GCLC; 2,4,5-Trichlorophenoxyacetic Acid results in increased expression of GCLC mRNA
3,4-Dihydroxyphenylacetic Acid analog binds to ACTB protein Catechin inhibits the reaction [3,4-Dihydroxyphenylacetic Acid analog binds to ACTB protein]; epicatechin gallate inhibits the reaction [3,4-Dihydroxyphenylacetic Acid analog binds to ACTB protein]; Quercetin inhibits the reaction [3,4-Dihydroxyphenylacetic Acid analog binds to ACTB protein]
[3,4-Dihydroxyphenylacetic Acid co-treated with Glucose] results in increased phosphorylation of AKT1 protein 3,4-Dihydroxyphenylacetic Acid results in increased phosphorylation of AKT1 protein
COMT protein results in increased methylation of 3,4-Dihydroxyphenylacetic Acid [tolcapone results in decreased activity of COMT protein] which results in increased abundance of 3,4-Dihydroxyphenylacetic Acid
3,4-Dihydroxyphenylacetic Acid inhibits the reaction [Glucose results in increased phosphorylation of GYS1 protein] 3,4-Dihydroxyphenylacetic Acid results in decreased phosphorylation of GYS1 protein
3,4-Dihydroxyphenylacetic Acid inhibits the reaction [Glucose results in decreased expression of and results in decreased phosphorylation of INSR protein]; 3,4-Dihydroxyphenylacetic Acid results in increased expression of and results in increased phosphorylation of INSR protein
[beta-funaltrexamine binds to and results in decreased activity of OPRM1 protein] inhibits the reaction [Morphine results in increased abundance of 3,4-Dihydroxyphenylacetic Acid]
[PARP1 protein results in increased susceptibility to 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine] which results in increased abundance of 3,4-Dihydroxyphenylacetic Acid
2,4-Dichlorophenoxyacetic Acid results in increased expression of ABCB4 mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ABCB4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ACOT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ADGRF4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ALDH1L2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ALDH3B3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ALPK3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of AOC1 mRNA
[Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of APAF1 mRNA; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of APAF1 protein 2,4-Dichlorophenoxyacetic Acid results in decreased expression of APAF1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of APAF1 protein
2,4-Dichlorophenoxyacetic Acid inhibits the reaction [Androgens binds to AR protein]; 2,4-Dichlorophenoxyacetic Acid promotes the reaction [Dihydrotestosterone results in increased localization of and results in increased activity of AR protein] [2,4-Dichlorophenoxyacetic Acid co-treated with Glyphosate co-treated with lard co-treated with Cholesterol co-treated with Glucose co-treated with Sucrose co-treated with Fructose] results in decreased expression of AR protein; [Sucrose co-treated with Dietary Fats co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of AR mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ASPG mRNA
[Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of AXIN2 mRNA 2,4-Dichlorophenoxyacetic Acid results in increased expression of AXIN2 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of AXIN2 protein
lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 protein] lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CACNA1S mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased cleavage of CASP1 protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased cleavage of CASP1 protein]
2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein; 2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein modified form 2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of CASP3 mRNA]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein modified form]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein modified form]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein] [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of CASP3 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP3 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP3 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein modified form]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein]
2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein; 2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein modified form FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein modified form]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein modified form]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein] [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] affects the reaction [Ethanol results in increased expression of CASP8 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP8 mRNA; Ethanol affects the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP8 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein modified form]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein]
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of CASP9 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP9 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CASP9 mRNA]
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in decreased activity of CAT protein]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in decreased activity of CAT protein; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in decreased activity of CAT protein] 2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of CAT mRNA]
2,4-Dichlorophenoxyacetic Acid results in increased expression of CCL2 protein [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] affects the reaction [Ethanol results in increased expression of CCL2 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CCL2 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CCL2 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CD40LG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CD5 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of CDK6 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of CDK6 protein [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CDK6 mRNA; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CDK6 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of CELSR3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of CIMAP1C mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of CLDN1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of CLDN1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CNTNAP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of COL6A5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of COL6A6 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of CREB1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of CREB1 protein PPARB protein affects the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CREB1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CREB3L3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of CST6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of CYP26B1 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of CYP2E1 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CYP2E1 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of CYP2E1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of DBP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of DOK7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of DUSP5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of IGKV8-24 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of FADD protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FADD protein] FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FADD protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FADD protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of FAM163A mRNA
FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased secretion of INHBB protein]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein modified form]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP3 protein]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein modified form]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CASP8 protein]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FADD protein]; FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FASL protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FAS protein] FAS protein results in increased susceptibility to 2,4-Dichlorophenoxyacetic Acid
2,4-Dichlorophenoxyacetic Acid results in increased expression of FASLG protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FASLG protein] FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FASL protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FASL protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of FBXO48 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of FENDRR mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of FFAR3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of FHAD1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of FLG mRNA
PPARB protein affects the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FOXO1 mRNA] 2,4-Dichlorophenoxyacetic Acid results in increased expression of FOXO1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of FOXO1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GALNT16 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of GALNT2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of GCSAM mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GLI2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of GNA15 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GOLT1A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GP5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of GP6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GPR151 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of GPR171 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of GPT protein]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of GPT protein; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of GPT protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of GUCY2E mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of HAMP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of HAPLN1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of HCRT mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of HHIPL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of HMOX1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of HSF2BP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of IGFN1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of IGKV1-133 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of IL12B mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 protein]
2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B protein [aminomethylphosphonic acid (AMPA) co-treated with 2,4-Dichlorophenoxyacetic Acid metabolite co-treated with Ethylenethiourea co-treated with desethylatrazine] results in decreased expression of IL1B protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B protein]
2,4-Dichlorophenoxyacetic Acid results in increased expression of IL4 protein 2,4-Dichlorophenoxyacetic Acid results in increased secretion of IL4 protein
2,4-Dichlorophenoxyacetic Acid results in increased expression of IL6 protein 2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of IL6 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL6 protein]
2,4-Dichlorophenoxyacetic Acid results in decreased secretion of INHBB protein FAS protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased secretion of INHBB protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased secretion of INHBB protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ISLR2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ISM2 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of ITGB1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of ITGB1 protein [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ITGB1 mRNA; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of ITGB1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of KCNIP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of KCNMA1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of KRT20 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of LAX1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of LCA5L mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of LDHA mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of LDHA protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of LIN7B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of LLCFC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of LRCH4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of LRRTM1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of MAOB mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of MAP1LC3B mRNA lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid affects the localization of MAP1LC3B protein]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of MAP1LC3B mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of MAP1LC3B mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of MTHFD2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of NANP mRNA
[Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of NFKB1 mRNA; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of NFKB1 protein 2,4-Dichlorophenoxyacetic Acid results in increased expression of NFKB1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of NFKB1 protein
2,4-Dichlorophenoxyacetic Acid results in increased expression of NLRP3 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of NLRP3 protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of NLRP3 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of BECN1 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in decreased expression of MAP1LC3B mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL18 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of IL1B protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 protein] lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of NLRP3 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of NLRP3 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of NOBOX mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of NRG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of NT5C1A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of NTM mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of NXPH4 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of PARP1 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of PARP1 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of PARP1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PCDH10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of PCDHGA8 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of PCNA mRNA 2,4-Dichlorophenoxyacetic Acid results in decreased expression of PCNA protein [2,4-Dichlorophenoxyacetic Acid co-treated with Glyphosate] promotes the reaction [[lard co-treated with Cholesterol co-treated with Glucose co-treated with Sucrose co-treated with Fructose] results in decreased expression of PCNA protein]; [2,4-Dichlorophenoxyacetic Acid co-treated with Glyphosate] results in decreased expression of PCNA protein; [2,4-Dichlorophenoxyacetic Acid co-treated with lard co-treated with Cholesterol co-treated with Glucose co-treated with Sucrose co-treated with Fructose] results in decreased expression of PCNA protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of PCSK2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PENK mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of PER3 mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of PFKM mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of PFKM protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PHGDH mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PLXDC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of PNPLA3 mRNA
PPARB protein affects the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of CREB1 mRNA]; PPARB protein affects the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of FOXO1 mRNA] 2,4-Dichlorophenoxyacetic Acid results in increased expression of PPARB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PROK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of PRR33 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of PTGS2 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of PTGS2 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of PTGS2 mRNA]
2,4-Dichlorophenoxyacetic Acid results in increased expression of PYCARD protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of PYCARD protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of R3HDML mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of RASL12 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of RBPJL mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of RD3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of RECQL4 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of RELA mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of RELA mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of RELA mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of RMI2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of RPTN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of SBSN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of SCARNA17 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of SIK1 mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of SLC16A3 mRNA 2,4-Dichlorophenoxyacetic Acid results in increased expression of SLC16A3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of SLC22A3 mRNA
SLC22A6 protein results in increased uptake of 2,4-Dichlorophenoxyacetic Acid p-Aminohippuric Acid inhibits the reaction [SLC22A6 protein results in increased uptake of 2,4-Dichlorophenoxyacetic Acid]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of SLC26A3 mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased expression of SLC2A3 mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of SLC2A3 protein 2,4-Dichlorophenoxyacetic Acid results in increased expression of SLC2A3 mRNA
2,4-Dichlorophenoxyacetic Acid results in decreased activity of SOD1 protein 2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of SOD1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of SPP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of SPTA1 mRNA
lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 protein] 2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 protein lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 protein]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 mRNA]; NLRP3 protein promotes the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of SQSTM1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of STX19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of TBX15 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of TDRD9 mRNA
[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] affects the reaction [Ethanol results in increased expression of TGFB1 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TGFB1 mRNA; Ethanol affects the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TGFB1 mRNA]
2,4-Dichlorophenoxyacetic Acid results in decreased expression of TJP1 mRNA; 2,4-Dichlorophenoxyacetic Acid results in decreased expression of TJP1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of TLCD2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TMEM232 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of TMEM52 mRNA
2,4-Dichlorophenoxyacetic Acid results in increased expression of TNF; 2,4-Dichlorophenoxyacetic Acid results in increased expression of TNF protein 2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of TNF mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of TNF protein] [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of TNF mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TNF mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TNF mRNA]; lycium barbarum polysaccharide inhibits the reaction [2,4-Dichlorophenoxyacetic Acid results in increased expression of TNF protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TNFSF14 mRNA
2,4-Dichlorophenoxyacetic Acid inhibits the reaction [[Sucrose co-treated with Dietary Fats] results in increased expression of TP53 mRNA]; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TRP53 mRNA; [Lipopolysaccharides co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TRP53 protein [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] promotes the reaction [Ethanol results in increased expression of TP53 mRNA]; [2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TP53 mRNA; Ethanol promotes the reaction [[2,4-dichlorophenoxyacetic acid isooctyl ester results in increased abundance of 2,4-Dichlorophenoxyacetic Acid] which results in increased expression of TP53 mRNA] 2,4-Dichlorophenoxyacetic Acid results in increased expression of TRP53 mRNA; 2,4-Dichlorophenoxyacetic Acid results in increased expression of TRP53 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TRP73 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of TPSB2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of TSKU mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of UGT1A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of UGT1A2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of UPP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in increased expression of VASH2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of VWA1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with 2,4-Dichlorophenoxyacetic Acid] results in decreased expression of ZFAND4 mRNA
3-(1H-indol-3-yl)propanoic acid inhibits the reaction [indoxyl sulfate increases expression of mRNA, protein] in HK-2 human kidney proximal tubule cell line
3-(1H-indol-3-yl)propanoic acid inhibits the reaction [indoxyl sulfate increases expression of mRNA, protein] in HK-2 human kidney proximal tubule cell line
3-(1H-indol-3-yl)propanoic acid inhibits the reaction [indoxyl sulfate increases expression of mRNA, protein] in HK-2 human kidney proximal tubule cell line
3-(1H-indol-3-yl)propanoic acid inhibits the reaction [indoxyl sulfate increases expression and increases phosphorylation of Stat3] in HK-2 human kidney proximal tubule cell line
3-(1H-indol-3-yl)propanoic acid inhibits the reaction [indoxyl sulfate increases expression of mRNA, protein] in HK-2 human kidney proximal tubule cell line
[[CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 4'-hydroxydiclofenac
GSTP1 protein results in increased glutathionylation of 4'-hydroxydiclofenac [[CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [[CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 4'-hydroxydiclofenac; [CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 4'-hydroxydiclofenac; NQO1 protein inhibits the reaction [GSTP1 protein results in increased glutathionylation of 4'-hydroxydiclofenac]; Sulfaphenazole inhibits the reaction [[CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 4'-hydroxydiclofenac]
4'-hydroxydiclofenac promotes the reaction [[Hydrogen Peroxide co-treated with MPO protein co-treated with Glutathione] results in increased glutathionylation of 5,5-dimethyl-1-pyrroline-1-oxide]; 4'-hydroxydiclofenac promotes the reaction [Hydrogen Peroxide results in increased activity of MPO protein]; [Hydrogen Peroxide results in increased activity of MPO protein] which results in increased oxidation of and results in increased susceptibility to 4'-hydroxydiclofenac
TNF protein results in increased susceptibility to 4'-hydroxydiclofenac 4'-hydroxydiclofenac affects the reaction [[Ionomycin co-treated with Tetradecanoylphorbol Acetate] results in increased secretion of TNF protein]
[[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 5-hydroxydiclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; Ketoconazole inhibits the reaction [[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac]
[[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 5-hydroxydiclofenac; [CYP2B6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; [CYP2C18 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; [CYP2C19 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; [CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; [CYP3A5 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac; Ketoconazole inhibits the reaction [[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of 5-hydroxydiclofenac]
[Hydrogen Peroxide results in increased activity of MPO protein] which results in increased oxidation of and results in increased susceptibility to 5-hydroxydiclofenac
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-agent
[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 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 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 Atropine inhibits the reaction [Paraoxon results in increased expression of FOS mRNA] [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 [[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
Dicamba inhibits the reaction [[Dexamethasone co-treated with Rosiglitazone co-treated with 1-Methyl-3-isobutylxanthine co-treated with INS protein] results in increased expression of and results in increased secretion of ADIPOQ protein]
Dicamba inhibits the reaction [[Dexamethasone co-treated with Rosiglitazone co-treated with 1-Methyl-3-isobutylxanthine co-treated with INS protein] results in increased expression of and results in increased secretion of ADIPOQ protein]
Diclofenac inhibits the reaction [ABCB11 protein results in increased transport of Taurocholic Acid] [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of ABCB11 mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of ABCB11 mRNA] Diclofenac results in decreased activity of ABCB11 protein
Diclofenac results in increased expression of ABCB1B mRNA ABCB1A gene mutant form results in decreased susceptibility to Diclofenac Diclofenac results in decreased activity of ABCB1A protein
Diclofenac results in decreased activity of ABCC2 protein Diclofenac results in increased expression of ABCC2 mRNA ABCC2 protein results in increased transport of and results in increased metabolism of and results in increased susceptibility to Diclofenac
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of ACTL9 mRNA
Diclofenac affects the expression of ACVR1B mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ACVR1B mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of AKR1B7 mRNA
Diclofenac binds to ALB protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of ALB protein Diclofenac results in decreased secretion of ALB protein [Ranitidine co-treated with Diclofenac] results in decreased expression of ALB protein; Quercetin inhibits the reaction [[Ranitidine co-treated with Diclofenac] results in decreased expression of ALB protein] Diclofenac results in decreased expression of ALB protein Diclofenac results in increased expression of ALB mRNA
Diclofenac results in increased expression of ALOX15 mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ALOX15 mRNA
Diclofenac results in increased expression of AMH mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of AMH mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ANXA8 mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of APCS protein Diclofenac results in increased expression of APCS mRNA; Diclofenac results in increased expression of APCS protein
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ARID4A mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ARRB1 mRNA
Diclofenac affects the expression of ATF4 mRNA Diclofenac results in decreased expression of ATF4 mRNA Diclofenac results in increased expression of ATF4 mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of ATP5F1A protein Diclofenac results in increased expression of ATP5F1A protein
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of ATP5F1B protein Diclofenac results in increased expression of ATP5F1B protein
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of ATP5PF protein Diclofenac results in increased expression of ATP5PF protein
Diclofenac results in increased activity of BAX protein Diclofenac results in increased expression of BAX mRNA Diclofenac affects the localization of BAX protein
1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid inhibits the reaction [Diclofenac results in increased activity of BID protein] Diclofenac affects the expression of BID mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of BRCA2 mRNA
diacerein inhibits the reaction [Diclofenac results in increased cleavage of CASP1 protein]; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased cleavage of CASP1 protein]
Diclofenac inhibits the reaction [Thapsigargin results in increased activity of CASP2 protein]; Diclofenac inhibits the reaction [Tunicamycin results in increased activity of CASP2 protein] Diclofenac affects the expression of CASP2 mRNA
Diclofenac results in increased activity of CASP3 protein 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [Diclofenac results in increased activity of CASP3 protein]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [IFNG protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 2-aminoethoxydiphenyl borate inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 2-aminoethoxydiphenyl borate inhibits the reaction [TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; [TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]; Diclofenac inhibits the reaction [Thapsigargin results in increased activity of CASP3 protein]; Diclofenac inhibits the reaction [Tunicamycin results in increased activity of CASP3 protein]; IFNG protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]; TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein] 2,3-dimethoxy-5-methyl-6-decyl-1,4-benzoquinone inhibits the reaction [Diclofenac results in increased activity of CASP3 protein]; [Water deficiency co-treated with Diclofenac] results in increased expression of CASP3 protein; alpha-Tocopherol inhibits the reaction [Diclofenac results in increased activity of CASP3 protein]; Cyclosporine inhibits the reaction [Diclofenac results in increased activity of CASP3 protein]; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in increased expression of CASP3 protein]; Thiourea analog inhibits the reaction [Diclofenac results in increased activity of CASP3 protein]
Diclofenac results in increased activity of CASP8 protein Diclofenac affects the expression of CASP8 mRNA [Diclofenac co-treated with Hyaluronic Acid] results in increased activity of CASP8 protein; [TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein; Acetylcysteine inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein]; Acetylcysteine inhibits the reaction [Diclofenac results in increased activity of CASP8 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [Diclofenac results in increased activity of CASP8 protein]
[TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein; Acetylcysteine inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein]; Acetylcysteine inhibits the reaction [Diclofenac results in increased activity of CASP9 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [Diclofenac results in increased activity of CASP9 protein]; Diclofenac inhibits the reaction [Thapsigargin results in increased activity of CASP9 protein]; Diclofenac inhibits the reaction [Tunicamycin results in increased activity of CASP9 protein] Diclofenac results in increased expression of CASP9 mRNA
Diclofenac results in increased activity of CAT protein Diclofenac results in decreased activity of CAT protein Ondansetron promotes the reaction [Diclofenac results in decreased activity of CAT protein] [Water deficiency co-treated with Diclofenac] results in decreased activity of CAT protein; Acetylcysteine inhibits the reaction [Diclofenac results in decreased activity of CAT protein]; Diclofenac inhibits the reaction [Freund's Adjuvant results in decreased activity of CAT protein]; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in decreased activity of CAT protein]; Silymarin inhibits the reaction [Diclofenac results in decreased activity of CAT protein]
[Water deficiency co-treated with Diclofenac] results in increased expression of CCL2 protein; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CCL2 mRNA]; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in increased expression of CCL2 protein] Diclofenac analog results in increased secretion of CCL2 protein SB 203580 inhibits the reaction [Diclofenac analog results in increased expression of CCL2 mRNA]; U 0126 inhibits the reaction [Diclofenac analog results in increased expression of CCL2 mRNA] Diclofenac results in increased expression of CCL2 protein Diclofenac affects the expression of CCL2 mRNA Diclofenac results in increased expression of CCL2 mRNA
Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CCL3 mRNA] Diclofenac results in decreased expression of CCL3 mRNA
Diclofenac inhibits the reaction [TNF protein results in increased expression of CCND1 protein] Diclofenac affects the expression of CCND1 mRNA Diclofenac results in decreased expression of CCND1 mRNA Diclofenac results in increased expression of CCND1 mRNA Diclofenac results in decreased expression of CCND1 protein
Diclofenac results in increased expression of CDH1 protein Diclofenac affects the expression of CDH1 mRNA Diclofenac results in decreased expression of CDH1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of CFAP97D1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of CHCHD1 mRNA
Diclofenac inhibits the reaction [TNF protein results in increased activity of CHUK protein] Diclofenac inhibits the reaction [Freund's Adjuvant results in increased phosphorylation of CHUK protein]
Diclofenac results in increased expression of CLU protein [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of CLU protein
Diclofenac results in decreased expression of COL3A1 mRNA [Water deficiency co-treated with Diclofenac] results in increased expression of COL3A1 protein; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in increased expression of COL3A1 protein]
[Water deficiency co-treated with Diclofenac] results in decreased expression of CR1L protein; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in decreased expression of CR1L protein]
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of CRP protein; Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CRP protein]; lipopolysaccharide, E coli O55-B5 inhibits the reaction [Diclofenac results in decreased expression of CRP protein] Diclofenac inhibits the reaction [TNF protein results in increased expression of CRP mRNA]; Diclofenac inhibits the reaction [TNF protein results in increased secretion of CRP protein]
Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CXCL1 mRNA]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CXCL1 protein]
Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of CXCL2 mRNA] Diclofenac results in increased expression of CXCL2 mRNA; Diclofenac results in increased expression of CXCL2 protein
Diclofenac results in increased expression of CXCL1 mRNA; Diclofenac results in increased expression of CXCL1 protein Diclofenac results in decreased expression of CXCL1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of CYP19A1 mRNA
Diclofenac results in increased expression of CYP1A1 mRNA; Diclofenac results in increased expression of CYP1A1 protein Diclofenac results in decreased activity of CYP1A1 protein
Diclofenac results in increased expression of CYP1A2 mRNA; Diclofenac results in increased expression of CYP1A2 protein Diclofenac metabolite results in decreased activity of CYP1A2 protein [CYP1A2 protein co-treated with CYP2C9 protein co-treated with CYP3A4 protein co-treated with CYP2D6 protein co-treated with CYP2C19 protein] affects the susceptibility to Diclofenac
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of CYP26B1 mRNA
[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of CYP27A1 mRNA; [Sodium Selenite co-treated with Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of CYP27A1 mRNA
CYP2C6 protein results in increased hydroxylation of Diclofenac Diclofenac results in decreased activity of CYP2C29 protein CYP2C19 protein results in increased susceptibility to Diclofenac [CYP1A2 protein co-treated with CYP2C9 protein co-treated with CYP3A4 protein co-treated with CYP2D6 protein co-treated with CYP2C19 protein] affects the susceptibility to Diclofenac; [CYP2C19 protein co-treated with CYP2C9 protein] results in increased hydroxylation of Diclofenac CYP2C19 protein results in increased hydroxylation of Diclofenac
[[CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [CYP1A2 protein co-treated with CYP2C9 protein co-treated with CYP3A4 protein co-treated with CYP2D6 protein co-treated with CYP2C19 protein] affects the susceptibility to Diclofenac; [CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac
Diclofenac metabolite results in decreased activity of CYP3A4 protein; Diclofenac results in decreased activity of CYP3A4 protein CYP3A4 protein results in increased metabolism of Diclofenac Diclofenac results in increased expression of CYP3A4 mRNA [[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 5-hydroxydiclofenac; [CYP1A2 protein co-treated with CYP2C9 protein co-treated with CYP3A4 protein co-treated with CYP2D6 protein co-treated with CYP2C19 protein] affects the susceptibility to Diclofenac; [CYP3A4 protein co-treated with CYP2C9 protein co-treated with UGT2B7 protein] results in increased susceptibility to Diclofenac; [CYP3A4 protein co-treated with CYP2C9 protein] results in increased susceptibility to Diclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of Diclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac CYP3A4 protein results in increased susceptibility to Diclofenac
Diclofenac results in increased expression of CYP7A1 mRNA; Diclofenac results in increased expression of CYP7A1 protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of CYP7A1 mRNA; Sodium Selenite inhibits the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of CYP7A1 mRNA]
DDIT3 results in increased susceptibility to Diclofenac Diclofenac results in decreased expression of DDIT3 mRNA Diclofenac results in increased expression of DDIT3 mRNA; Diclofenac results in increased expression of DDIT3 protein
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of DNAAF2 mRNA
Diclofenac results in increased expression of EGR1 mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of EGR1 mRNA Diclofenac affects the expression of EGR1 mRNA
Diclofenac affects the expression of EIF2AK3 mRNA Diclofenac results in increased expression of EIF2AK3 mRNA Diclofenac results in increased phosphorylation of EIF2AK3 protein 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [Diclofenac results in increased phosphorylation of EIF2AK3 protein]; 2-aminoethoxydiphenyl borate inhibits the reaction [Diclofenac results in increased phosphorylation of EIF2AK3 protein]; Calcium promotes the reaction [Diclofenac results in increased phosphorylation of EIF2AK3 protein] Diclofenac results in increased activity of EIF2AK3 protein
Diclofenac results in increased expression of EIF4EBP1 mRNA Diclofenac results in decreased expression of EIF4EBP1 mRNA Diclofenac affects the expression of EIF4EBP1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of ERBB4 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of FABP3 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of FAM209 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of FASTK mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of FASTKD2 mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of FGB protein Diclofenac results in increased expression of FGB mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of FGG protein; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of FGG protein]; lipopolysaccharide, E coli O55-B5 promotes the reaction [Diclofenac results in decreased expression of FGG protein]
Diclofenac results in increased expression of FOS mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of FOS mRNA Diclofenac affects the expression of FOS mRNA
Diclofenac results in increased expression of GADD45A mRNA Diclofenac results in decreased expression of GADD45A mRNA Diclofenac affects the expression of GADD45A mRNA
[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of GAPDH mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of GAPDH mRNA]
Diclofenac results in decreased expression of GCLC mRNA Diclofenac affects the expression of GCLC mRNA GCLC protein affects the susceptibility to Diclofenac
[lipopolysaccharide, E coli O55-B5 co-treated with Diclofenac] results in increased activity of GPT protein; Diclofenac promotes the reaction [endotoxin, Escherichia coli results in increased activity of GPT protein]; Heparin inhibits the reaction [Diclofenac promotes the reaction [endotoxin, Escherichia coli results in increased activity of GPT protein]] Diclofenac results in increased secretion of GPT protein Diclofenac results in increased expression of GPT protein Diclofenac results in increased activity of GPT protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of GPT protein; eritoran inhibits the reaction [Diclofenac results in increased expression of GPT protein]; Sodium Selenite inhibits the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of GPT protein]
Diclofenac results in increased expression of GPX1 mRNA; Diclofenac results in increased expression of GPX1 protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of GPX1 mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of GPX1 mRNA]
[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of GPX3 mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of GPX3 mRNA]
[Sodium Selenite co-treated with Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of GPX4 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of GRID2 mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of GSTA5 protein Diclofenac results in increased expression of GSTA5 protein
[[CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [[CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 4'-hydroxydiclofenac; [[CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac] which results in increased abundance of 5-hydroxydiclofenac; [CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac; [CYP2C9 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased metabolism of Diclofenac; [CYP2D6 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased abundance of Diclofenac; [CYP3A4 protein co-treated with GSTP1 protein co-treated with Glutathione] results in increased hydroxylation of Diclofenac Diclofenac affects the activity of GSTP1 protein GSTP1 protein affects the metabolism of Diclofenac metabolite; GSTP1 protein polymorphism affects the metabolism of Diclofenac metabolite
Diclofenac results in increased expression of HAVCR1 mRNA diacerein inhibits the reaction [Diclofenac results in increased secretion of HAVCR1 protein]
Diclofenac affects the expression of HBEGF mRNA Diclofenac results in decreased expression of HBEGF mRNA Diclofenac results in increased expression of HBEGF mRNA
Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of HMGB1 protein] Diclofenac results in increased expression of HMGB1 mRNA; Diclofenac results in increased expression of HMGB1 protein Diclofenac affects the expression of HMGB1 mRNA
[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of HMGCR mRNA; Sodium Selenite inhibits the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of HMGCR mRNA]
1-aminobenzotriazole inhibits the reaction [[Diclofenac co-treated with Buthionine Sulfoximine] results in increased expression of HMOX1 mRNA]; Buthionine Sulfoximine promotes the reaction [Diclofenac results in increased expression of HMOX1 mRNA] Diclofenac results in decreased expression of HMOX1 protein Diclofenac results in increased expression of HMOX1 mRNA; Diclofenac results in increased expression of HMOX1 protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of HMOX1 mRNA; [Sodium Selenite co-treated with Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of HMOX1 mRNA; Acetylcysteine inhibits the reaction [Diclofenac results in increased expression of HMOX1 protein]; Buthionine Sulfoximine promotes the reaction [Diclofenac results in increased expression of HMOX1 protein]; Diclofenac promotes the reaction [Buthionine Sulfoximine results in increased expression of HMOX1 protein] Acetylcysteine inhibits the reaction [Diclofenac results in increased expression of HMOX1 mRNA]; Dactinomycin inhibits the reaction [Diclofenac results in increased expression of HMOX1 mRNA]; diacerein inhibits the reaction [Diclofenac results in decreased expression of HMOX1 protein]; Diclofenac promotes the reaction [Poly I-C results in increased expression of HMOX1 mRNA]; Ketoconazole inhibits the reaction [Diclofenac results in increased expression of HMOX1 mRNA]; Sulfaphenazole inhibits the reaction [Diclofenac results in increased expression of HMOX1 mRNA]; Tranylcypromine inhibits the reaction [Diclofenac results in increased expression of HMOX1 mRNA] Diclofenac affects the expression of HMOX1 protein
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of HOATZ mRNA
Diclofenac results in increased activity of HPGD protein [Diclofenac co-treated with NAD] binds to HPGD protein Diclofenac results in increased expression of HPGD mRNA
Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of HSPA1A mRNA] [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of HSPA1A mRNA Diclofenac results in increased expression of HSPA1A mRNA Diclofenac affects the expression of HSPA1A mRNA
Diclofenac results in increased expression of HSPA1B mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of HSPA1B mRNA
Diclofenac results in increased expression of HSPA5 mRNA [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of HSPA5 protein
Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of HSPA8 mRNA] Diclofenac results in increased expression of HSPA8 mRNA
Amlodipine inhibits the reaction [Diclofenac results in decreased expression of ICAM1 protein] Diclofenac results in decreased expression of ICAM1 mRNA Diclofenac results in increased expression of ICAM1 mRNA Diclofenac affects the expression of ICAM1 mRNA
3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IFNG protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in decreased expression of NFKBIA protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased abundance of Nitric Oxide]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased phosphorylation of RELA protein]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IFNG mRNA]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IFNG protein]; RELA mutant form inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; SN50 peptide inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]] 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [IFNG protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 2-aminoethoxydiphenyl borate inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; 2-aminoethoxydiphenyl borate inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; [Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein; [TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac affects the abundance of Calcium]; [TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]; Calcium promotes the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; IFNG protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]; pyrazolanthrone inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein] Diclofenac results in decreased expression of IFNG mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of IGF2R mRNA
IL10 gene polymorphism results in increased susceptibility to Diclofenac [Gum Arabic co-treated with Water deficiency co-treated with Diclofenac] results in increased expression of IL10 protein; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IL10 protein]
Diclofenac results in increased expression of IL17A protein Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of IL17A protein]
[IL6 protein co-treated with IL1A protein co-treated with TNF protein co-treated with lipopolysaccharide, Escherichia coli O111 B4] results in increased susceptibility to Diclofenac Diclofenac results in increased expression of IL1A mRNA
Diclofenac inhibits the reaction [IL1B protein results in increased activity of PTGS2 protein] Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of IL1B protein] Diclofenac results in increased expression of IL1B mRNA Diclofenac results in increased expression of IL1B mRNA; Diclofenac results in increased expression of IL1B protein 3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; [Water deficiency co-treated with Diclofenac] results in increased expression of IL1B protein; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; diacerein inhibits the reaction [Diclofenac results in increased expression of IL1B protein]; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of IL1B protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in decreased expression of NFKBIA protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased abundance of Nitric Oxide]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased phosphorylation of RELA protein]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IL1B mRNA]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IL1B protein]; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in increased expression of IL1B protein]; RELA mutant form inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; SN50 peptide inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]
Diclofenac results in increased expression of IL1RN mRNA Diclofenac results in decreased expression of IL1RN mRNA Diclofenac results in increased secretion of IL1RN protein Lipopolysaccharides inhibits the reaction [Diclofenac results in increased secretion of IL1RN protein]
[IL6 protein co-treated with IL1A protein co-treated with TNF protein co-treated with lipopolysaccharide, Escherichia coli O111 B4] results in increased susceptibility to Diclofenac; Diclofenac affects the reaction [[Ionomycin co-treated with Tetradecanoylphorbol Acetate] results in increased secretion of IL6 protein]; Diclofenac inhibits the reaction [Mustard Gas results in increased secretion of IL6 protein]; lipopolysaccharide, Escherichia coli O111 B4 inhibits the reaction [Diclofenac results in increased expression of IL6 protein] Diclofenac results in increased expression of IL6 mRNA Diclofenac results in decreased expression of IL6 mRNA; Diclofenac results in decreased expression of IL6 protein Diclofenac results in increased expression of IL6 mRNA; Diclofenac results in increased expression of IL6 protein Diclofenac inhibits the reaction [Carrageenan results in increased expression of IL6 protein]; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of IL6 protein]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IL6 mRNA]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of IL6 protein]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of INSL3 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of INSL6 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of IQCF1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of JADE2 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of JADE3 mRNA
Diclofenac results in increased expression of KNG1 protein [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of KNG1 protein; lipopolysaccharide, E coli O55-B5 promotes the reaction [Diclofenac results in increased expression of KNG1 protein]
Diclofenac results in increased expression of LBP protein Diclofenac results in decreased expression of LBP mRNA Diclofenac affects the expression of LBP mRNA
Diclofenac results in increased expression of LCN2 mRNA Diclofenac results in increased secretion of LCN2 protein diacerein inhibits the reaction [Diclofenac results in increased secretion of LCN2 protein]; Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of LCN2 protein]; Diclofenac promotes the reaction [Buthionine Sulfoximine results in increased expression of LCN2 mRNA]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MALSU1 mRNA
1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK1 protein]; 2-aminoethoxydiphenyl borate inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK1 protein]; Calcium promotes the reaction [Diclofenac results in increased phosphorylation of MAPK1 protein]; pyrazolanthrone inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK1 protein] Diclofenac analog results in increased phosphorylation of MAPK1 protein; Diclofenac results in increased phosphorylation of MAPK1 protein
1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK3 protein]; 2-aminoethoxydiphenyl borate inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK3 protein]; Calcium promotes the reaction [Diclofenac results in increased phosphorylation of MAPK3 protein]; pyrazolanthrone inhibits the reaction [Diclofenac results in increased phosphorylation of MAPK3 protein] Diclofenac analog results in increased phosphorylation of MAPK3 protein; Diclofenac results in increased phosphorylation of MAPK3 protein
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MEIG1 mRNA
Diclofenac results in decreased expression of MFN1 protein AICA ribonucleotide inhibits the reaction [Diclofenac results in decreased expression of MFN1 protein]
Diclofenac results in decreased expression of MFN2 protein AICA ribonucleotide inhibits the reaction [Diclofenac results in decreased expression of MFN2 protein]
Diclofenac inhibits the reaction [Carrageenan results in increased activity of MPO protein]; sodium nitrate inhibits the reaction [Diclofenac results in increased activity of MPO protein] Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of MPO protein] Diclofenac results in increased expression of MPO mRNA [Hydrogen Peroxide results in increased activity of MPO protein] which results in increased oxidation of and results in increased susceptibility to Diclofenac
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL15 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL20 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL32 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL36 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL52 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL54 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPL57 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS11 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS14 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS16 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS18C mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS22 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of MRPS33 mRNA
Diclofenac results in increased expression of MT1 mRNA [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of MT1 mRNA; [Sodium Selenite co-treated with Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of MT1 mRNA
Diclofenac results in increased expression of MT2 mRNA [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of MT2 mRNA; [Sodium Selenite co-treated with Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of MT2 mRNA
Diclofenac results in increased expression of MYC mRNA Diclofenac results in decreased expression of MYC mRNA Diclofenac affects the expression of MYC mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of NCOA1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of NDUFA7 mRNA
Diclofenac results in increased stability of NFE2L2 protein Diclofenac results in decreased expression of NFE2L2 protein diacerein inhibits the reaction [Diclofenac results in decreased expression of NFE2L2 protein] NFE2L2 protein affects the reaction [Diclofenac results in increased expression of SRXN1 mRNA]
Diclofenac inhibits the reaction [TNF protein results in increased activity of [NFKB1 protein binds to RELA protein]]; Diclofenac inhibits the reaction [TNF protein results in increased activity of NFKB1 protein] Diclofenac results in decreased expression of NFKB1 mRNA
Diclofenac inhibits the reaction [TNF protein results in increased degradation of NFKBIA protein] Diclofenac inhibits the reaction [Freund's Adjuvant results in increased phosphorylation of NFKBIA protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in decreased expression of NFKBIA protein] Diclofenac results in decreased expression of NFKBIA mRNA
3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [Poly I-C results in increased expression of NOS2 mRNA]; RELA mutant form inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; SN50 peptide inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; sodium nitrate inhibits the reaction [Diclofenac results in increased expression of NOS2 mRNA] Diclofenac results in decreased expression of NOS2 mRNA
Diclofenac results in increased activity of NQO1 protein Diclofenac inhibits the reaction [NQO1 protein results in increased reduction of 2,6-Dichloroindophenol] Diclofenac affects the expression of NQO1 mRNA Diclofenac results in increased expression of NQO1 mRNA
Diclofenac results in increased expression of NR1D1 mRNA [Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of NR1D1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of OOSP1 mRNA
Diclofenac results in decreased expression of OPA1 mRNA Diclofenac results in decreased expression of OPA1 protein AICA ribonucleotide inhibits the reaction [Diclofenac results in decreased expression of OPA1 protein]
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of ORM1 protein Diclofenac results in increased expression of ORM1 mRNA
Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of P2RX7 protein] Diclofenac results in increased expression of P2RX7 mRNA
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of P4HB protein Diclofenac results in increased expression of P4HB protein
[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of PFKL mRNA; Sodium Selenite inhibits the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of PFKL mRNA]
Diclofenac results in increased expression of PKLR mRNA [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of PKLR mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of PKLR mRNA]
[pyrrolidine analog binds to Palladium binds to Diclofenac] which results in decreased activity of PON1 protein; [pyrrolidine analog binds to Platinum binds to Diclofenac] which results in decreased activity of PON1 protein
Diclofenac affects the expression of PPARG mRNA Diclofenac inhibits the reaction [Rosiglitazone results in increased activity of PPARG protein] Diclofenac results in increased activity of PPARG protein
Diclofenac results in decreased expression of PTGES mRNA [Diclofenac results in decreased expression of PTGES mRNA] which results in decreased abundance of Dinoprostone
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of PTGES2 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of PTGIS mRNA
Diclofenac analog results in decreased activity of PTGS1 protein; Diclofenac results in decreased activity of PTGS1 protein [thymoquinone co-treated with Diclofenac] results in decreased expression of PTGS1 protein Diclofenac results in decreased expression of PTGS1 protein Diclofenac results in increased expression of PTGS1 mRNA
Diclofenac inhibits the reaction [IL1B protein results in increased activity of PTGS2 protein]; Diclofenac inhibits the reaction [TNF protein results in increased expression of PTGS2 protein] Diclofenac results in decreased expression of PTGS2 mRNA Diclofenac results in increased expression of PTGS2 mRNA Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of PTGS2 mRNA] Diclofenac results in decreased activity of PTGS2 protein Diclofenac results in increased expression of PTGS2 mRNA; Diclofenac results in increased expression of PTGS2 protein Acetaminophen inhibits the reaction [Diclofenac results in increased expression of PTGS2 protein]; Diclofenac binds to and results in decreased activity of PTGS2 protein; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of PTGS2 protein]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of RABL2 mRNA
Diclofenac inhibits the reaction [TNF protein results in increased activity of [NFKB1 protein binds to RELA protein]]; Diclofenac inhibits the reaction [TNF protein results in increased activity of RELA protein] Diclofenac results in increased expression of RELA protein Diclofenac affects the expression of RELA mRNA diacerein inhibits the reaction [Diclofenac results in increased expression of RELA protein]; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased phosphorylation of RELA protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased phosphorylation of RELA protein]; RELA mutant form inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of ROPN1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SELENOF mRNA
Diclofenac results in decreased expression of SELP protein Enalapril inhibits the reaction [Diclofenac results in decreased expression of SELP protein]
[Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of SERPINA3N protein Diclofenac results in increased expression of SERPINA3N mRNA
Diclofenac promotes the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of SERPINE1 mRNA] Diclofenac results in increased expression of SERPINE1 mRNA Diclofenac affects the expression of SERPINE1 mRNA
Diclofenac results in decreased activity of SLC22A7 protein Diclofenac inhibits the reaction [SLC22A7 protein results in increased transport of Tetracycline]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SLIRP mRNA
Diclofenac results in increased secretion of SOD1 protein [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of SOD1 mRNA; Sodium Selenite promotes the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in decreased expression of SOD1 mRNA] Diclofenac results in decreased activity of SOD1 protein Acetylcysteine inhibits the reaction [Diclofenac results in decreased activity of SOD1 protein]; Silymarin inhibits the reaction [Diclofenac results in decreased activity of SOD1 protein] Diclofenac results in increased expression of SOD1 mRNA
Diclofenac results in increased expression of SOD2 mRNA; Diclofenac results in increased expression of SOD2 protein [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of SOD2 protein; Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of SOD2 mRNA]; rebamipide promotes the reaction [Diclofenac results in increased expression of SOD2 protein] Diclofenac affects the expression of SOD2 mRNA
Acetylcysteine inhibits the reaction [Diclofenac results in increased secretion of SORD protein]; Buthionine Sulfoximine promotes the reaction [Diclofenac results in increased secretion of SORD protein]
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SPATA17 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SPATA19 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SPATA25 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SPEM1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SPINK2 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TEX43 mRNA
Diclofenac results in increased expression of SREBF2 mRNA [Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of SREBF2 mRNA; Sodium Selenite inhibits the reaction [[Cadmium co-treated with Arsenic co-treated with Mercury co-treated with Diclofenac co-treated with flumequine] results in increased expression of SREBF2 mRNA]
Diclofenac results in increased expression of SRXN1 mRNA Diclofenac results in increased expression of SRXN1 protein NFE2L2 protein affects the reaction [Diclofenac results in increased expression of SRXN1 mRNA]
Diclofenac results in decreased expression of STAT1 mRNA 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; 2-aminoethoxydiphenyl borate inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; [Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein; Calcium promotes the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein]; pyrazolanthrone inhibits the reaction [[Diclofenac co-treated with IFNG protein] results in increased phosphorylation of STAT1 protein] Diclofenac affects the expression of STAT1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SULT1E1 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SYCE3 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of SYCP3 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TARBP2 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TBC1D21 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TEKT4 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TEX12 mRNA
Diclofenac results in increased expression of TNF mRNA 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid acetoxymethyl ester inhibits the reaction [TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 2-aminoethoxydiphenyl borate inhibits the reaction [[TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; 2-aminoethoxydiphenyl borate inhibits the reaction [TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein]]; [IL6 protein co-treated with IL1A protein co-treated with TNF protein co-treated with lipopolysaccharide, Escherichia coli O111 B4] results in increased susceptibility to Diclofenac; [TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein; [TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein; [TNF protein co-treated with Diclofenac] results in increased phosphorylation of EIF2S1 protein; [TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac affects the abundance of Calcium]; [TNF protein co-treated with IFNG protein] promotes the reaction [Diclofenac results in increased activity of CASP3 protein]; Acetylcysteine inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein]; Acetylcysteine inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP8 protein]; benzyloxycarbonyl-leucyl-glutamyl-histidyl-aspartic acid fluoromethyl ketone inhibits the reaction [[TNF protein co-treated with Diclofenac] results in increased activity of CASP9 protein]; Diclofenac affects the reaction [[Ionomycin co-treated with Tetradecanoylphorbol Acetate] results in increased secretion of TNF protein]; Diclofenac inhibits the reaction [TNF protein results in increased activity of [NFKB1 protein binds to RELA protein]]; Diclofenac inhibits the reaction [TNF protein results in increased activity of CHUK protein]; Diclofenac inhibits the reaction [TNF protein results in increased activity of NFKB1 protein]; Diclofenac inhibits the reaction [TNF protein results in increased activity of RELA protein]; Diclofenac inhibits the reaction [TNF protein results in increased degradation of NFKBIA protein]; Diclofenac inhibits the reaction [TNF protein results in increased expression of CCND1 protein]; Diclofenac inhibits the reaction [TNF protein results in increased expression of CRP mRNA]; Diclofenac inhibits the reaction [TNF protein results in increased expression of CXCL8 mRNA]; Diclofenac inhibits the reaction [TNF protein results in increased expression of ITGB3 protein]; Diclofenac inhibits the reaction [TNF protein results in increased expression of PTGS2 protein]; Diclofenac inhibits the reaction [TNF protein results in increased secretion of CRP protein]; Diclofenac inhibits the reaction [TNF protein results in increased secretion of CXCL8 protein]; Diclofenac promotes the reaction [Mustard Gas results in increased secretion of TNF protein]; TNF protein promotes the reaction [Diclofenac results in increased activity of CASP3 protein] TNF protein results in increased susceptibility to Diclofenac Diclofenac results in increased expression of TNF mRNA; Diclofenac results in increased expression of TNF protein 3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; [Water deficiency co-treated with Diclofenac] results in increased expression of TNF protein; Acetylcysteine inhibits the reaction [Diclofenac results in increased expression of TNF mRNA]; Acetylcysteine inhibits the reaction [Diclofenac results in increased expression of TNF protein]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; benzyloxycarbonylleucyl-leucyl-leucine aldehyde inhibits the reaction [Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of TNF protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in decreased expression of NFKBIA protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased abundance of Nitric Oxide]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased phosphorylation of RELA protein]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; Diclofenac promotes the reaction [[TNF protein co-treated with IL1B protein co-treated with IFNG protein] results in increased expression of NOS2 protein]; Gum Arabic inhibits the reaction [[Water deficiency co-treated with Diclofenac] results in increased expression of TNF protein]; RELA mutant form inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]]; Silymarin inhibits the reaction [Diclofenac results in increased expression of TNF mRNA]; Silymarin inhibits the reaction [Diclofenac results in increased expression of TNF protein]; SN50 peptide inhibits the reaction [Diclofenac promotes the reaction [[IL1B protein co-treated with TNF protein co-treated with IFNG protein] results in increased expression of NOS2 mRNA]] [Diclofenac co-treated with Lipopolysaccharides] results in increased secretion of TNF protein; Diclofenac inhibits the reaction [Freund's Adjuvant results in increased expression of TNF protein]
Diclofenac promotes the reaction [Doxorubicin results in increased expression of TRP53 protein] Diclofenac results in increased expression of TP53 mRNA Diclofenac results in increased expression of TP53 mRNA; Diclofenac results in increased expression of TP53 protein Diclofenac affects the expression of TP53 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of TPPP2 mRNA
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in increased expression of TRRAP mRNA
Diclofenac results in increased expression of TXN mRNA [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of TXN1 protein; Diclofenac inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of TXN1 mRNA]; Diclofenac inhibits the reaction [Poly I-C results in increased expression of TXN1 mRNA]
Diclofenac affects the expression of TXNRD1 mRNA [Diclofenac co-treated with lipopolysaccharide, E coli O55-B5] results in increased expression of TXNRD1 protein
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of UBE2B mRNA
Diclofenac results in increased expression of UGT1A1 mRNA Diclofenac inhibits the reaction [[UGT1A1 protein results in increased glucuronidation of Hymecromone] which results in increased chemical synthesis of 4-methylumbelliferyl glucuronide]; Diclofenac inhibits the reaction [UGT1A1 protein results in increased glucuronidation of Hymecromone] Diclofenac results in decreased expression of UGT1A1 mRNA Diclofenac results in decreased activity of UGT1A1 protein
Diclofenac inhibits the reaction [[UGT1A6 protein results in increased glucuronidation of Hymecromone] which results in increased chemical synthesis of 4-methylumbelliferyl glucuronide]; Diclofenac inhibits the reaction [UGT1A6 protein results in increased glucuronidation of 1-naphthol]; Diclofenac inhibits the reaction [UGT1A6 protein results in increased glucuronidation of Hymecromone]
UGT1A9 protein results in increased glucuronidation of Diclofenac Diclofenac inhibits the reaction [[UGT1A9 protein results in increased glucuronidation of Hymecromone] which results in increased chemical synthesis of 4-methylumbelliferyl glucuronide]; Diclofenac inhibits the reaction [UGT1A9 protein results in increased glucuronidation of Hymecromone]
[CYP3A4 protein co-treated with CYP2C9 protein co-treated with UGT2B7 protein] results in increased susceptibility to Diclofenac; [UGT2B7 protein polymorphism affects the glucuronidation of Diclofenac] which affects the chemical synthesis of 1-O-(2-((2',6'-dichlorophenyl)amino)phenylacetyl)glucopyranuronic acid; Diclofenac inhibits the reaction [UGT2B7 protein results in increased chemical synthesis of aldosterone 18-glucuronide]; Diclofenac inhibits the reaction [UGT2B7 protein results in increased glucuronidation of Aldosterone]; Diclofenac inhibits the reaction [UGT2B7 protein results in increased glucuronidation of denopamine] UGT2B7 protein polymorphism affects the susceptibility to Diclofenac UGT2B7 protein results in increased metabolism of Diclofenac UGT2B7 protein results in increased glucuronidation of Diclofenac
[Ibuprofen co-treated with hydroxyibuprofen co-treated with Diclofenac co-treated with Ethinyl Estradiol] results in decreased expression of UQCC2 mRNA
[beta-funaltrexamine binds to and results in decreased activity of OPRM1 protein] inhibits the reaction [Morphine results in increased abundance of Homovanillic Acid]
[PARP1 protein results in increased susceptibility to 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine] which results in increased abundance of Homovanillic Acid
2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid affects the localization of AHR protein]; AHR protein affects the reaction [indoleacetic acid affects the localization of NFKB1 protein]; AHR protein affects the reaction [indoleacetic acid results in increased expression of F3 mRNA]; AHR protein affects the reaction [indoleacetic acid results in increased expression of F3 protein]; indoleacetic acid promotes the reaction [AHR protein binds to CYP1A1 promoter]; indoleacetic acid promotes the reaction [AHR protein binds to CYP1B1 promoter]; indoleacetic acid results in increased activity of [AHR protein binds to ARNT protein]
indoleacetic acid inhibits the reaction [Diethylnitrosamine results in decreased activity of CAT protein]; indoleacetic acid inhibits the reaction [Diethylnitrosamine results in decreased expression of CAT mRNA] indoleacetic acid results in decreased expression of CAT protein
2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid results in increased expression of CYP1A1 mRNA]; indoleacetic acid promotes the reaction [AHR protein binds to CYP1A1 promoter]
indoleacetic acid results in increased expression of CYP1B1 mRNA 2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid results in increased expression of CYP1B1 mRNA]; indoleacetic acid promotes the reaction [AHR protein binds to CYP1B1 promoter]
2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid results in increased expression of F3 mRNA]; 2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid results in increased expression of F3 protein]; 3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [indoleacetic acid results in increased expression of F3 mRNA]; 3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [indoleacetic acid results in increased expression of F3 protein]; AHR protein affects the reaction [indoleacetic acid results in increased expression of F3 mRNA]; AHR protein affects the reaction [indoleacetic acid results in increased expression of F3 protein]; bisindolylmaleimide I inhibits the reaction [indoleacetic acid results in increased expression of F3 mRNA]; bisindolylmaleimide I inhibits the reaction [indoleacetic acid results in increased expression of F3 protein]; Dactinomycin inhibits the reaction [indoleacetic acid results in increased expression of F3 mRNA]; SB 203580 inhibits the reaction [indoleacetic acid results in increased expression of F3 mRNA]; SB 203580 inhibits the reaction [indoleacetic acid results in increased expression of F3 protein] indoleacetic acid results in increased expression of F3 mRNA; indoleacetic acid results in increased expression of F3 protein
indoleacetic acid affects the localization of NFKB1 protein indoleacetic acid results in increased expression of NFKB1 mRNA 2-methyl-2H-pyrazole-3-carboxylic acid (2-methyl-4-o-tolylazophenyl)amide inhibits the reaction [indoleacetic acid affects the localization of NFKB1 protein]; 3-(4-methylphenylsulfonyl)-2-propenenitrile inhibits the reaction [indoleacetic acid affects the localization of NFKB1 protein]; AHR protein affects the reaction [indoleacetic acid affects the localization of NFKB1 protein]; SB 203580 inhibits the reaction [indoleacetic acid affects the localization of NFKB1 protein]
4-hydroxy-2-nonenal inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; [Ascorbic Acid co-treated with Copper Sulfate] inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; [Ascorbic Acid co-treated with ferrous sulfate] inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; Arachidonic Acid inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; Hydrogen Peroxide inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; Linoleic Acid inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid]; Pyruvaldehyde inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid] PON1 protein affects the metabolism of phenylacetic acid; PON1 protein polymorphism affects the metabolism of phenylacetic acid fluvastatin inhibits the reaction [PON1 protein results in increased hydrolysis of phenylacetic acid] PON1 promoter SNP results in decreased hydrolysis of phenylacetic acid
Picloram results in decreased expression of FOXO1 mRNA arginyl-2,'6'-dimethyltyrosyl-lysyl-phenylalaninamide promotes the reaction [Picloram results in decreased expression of FOXO1 mRNA]
Picloram results in decreased expression of GRIN1 mRNA arginyl-2,'6'-dimethyltyrosyl-lysyl-phenylalaninamide promotes the reaction [Picloram results in decreased expression of GRIN1 mRNA]
Picloram results in decreased expression of COX1 mRNA arginyl-2,'6'-dimethyltyrosyl-lysyl-phenylalaninamide promotes the reaction [Picloram results in decreased expression of COX1 mRNA]
Picloram results in decreased expression of PRDX5 mRNA arginyl-2,'6'-dimethyltyrosyl-lysyl-phenylalaninamide inhibits the reaction [Picloram results in decreased expression of PRDX5 mRNA]
kangshuai yizhi inhibits the reaction [Scopolamine results in increased activity of ACHE protein] Scopolamine results in increased expression of ACHE mRNA; Scopolamine results in increased expression of ACHE protein Scopolamine affects the activity of ACHE protein Scopolamine results in decreased activity of ACHE protein Ascorbic Acid inhibits the reaction [Scopolamine results in decreased activity of ACHE protein]; Canagliflozin inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Galantamine inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; stevioside inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Vitamin E inhibits the reaction [Scopolamine results in decreased activity of ACHE protein] Scopolamine results in decreased expression of ACHE protein 7-fluoro-1,3-diphenylisoquinoline-1-amine inhibits the reaction [Scopolamine results in increased expression of ACHE protein]; acanthoside B inhibits the reaction [Scopolamine results in increased expression of ACHE protein]; ajoene inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; chong-myung-tang inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; dihydroactinidiolide inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Donepezil inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; mangiferin inhibits the reaction [Scopolamine results in decreased expression of ACHE protein]; Piracetam inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Plant Extracts affects the reaction [Scopolamine affects the activity of ACHE protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased expression of ACHE mRNA]; polygalacic acid inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; protopanaxadiol inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Serotonin analog inhibits the reaction [Scopolamine results in increased activity of ACHE protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of ACHE protein] ACHE affects the susceptibility to Scopolamine ACHE protein results in increased susceptibility to Scopolamine
[N(6)-(3-iodobenzyl)-5'-N-methylcarboxamidoadenosine binds to and results in increased activity of ADORA3 protein] which results in decreased susceptibility to Scopolamine
[[[AVP binds to and results in increased activity of AVPR1A protein] which results in increased abundance of Calcium] which results in increased activity of CHRM1 protein] which results in decreased susceptibility to Scopolamine
[[[AVP binds to and results in increased activity of AVPR1A protein] which results in increased abundance of Calcium] which results in increased activity of CHRM1 protein] which results in decreased susceptibility to Scopolamine
Scopolamine results in increased expression of BAX mRNA; Scopolamine results in increased expression of BAX protein Galantamine inhibits the reaction [Scopolamine results in increased expression of BAX protein]; intybin inhibits the reaction [Scopolamine results in increased expression of BAX protein] dihydroactinidiolide inhibits the reaction [Scopolamine results in increased expression of BAX protein]; Donepezil inhibits the reaction [Scopolamine results in increased expression of BAX protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased expression of BAX mRNA]
Scopolamine results in decreased expression of BCL2 mRNA; Scopolamine results in decreased expression of BCL2 protein Galantamine inhibits the reaction [Scopolamine results in decreased expression of BCL2 protein]; intybin inhibits the reaction [Scopolamine results in decreased expression of BCL2 protein] dihydroactinidiolide inhibits the reaction [Scopolamine results in decreased expression of BCL2 protein]; Donepezil inhibits the reaction [Scopolamine results in decreased expression of BCL2 protein]
Scopolamine inhibits the reaction [Dizocilpine Maleate affects the expression of BDNF mRNA]; Scopolamine inhibits the reaction [Pilocarpine results in increased expression of BDNF mRNA] Scopolamine results in decreased expression of BDNF mRNA; Scopolamine results in decreased expression of BDNF protein [acanthoside B co-treated with Scopolamine] results in increased expression of BDNF protein; [Tacrine co-treated with Scopolamine] results in increased expression of BDNF protein; Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of BDNF mRNA]; Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of BDNF protein]; dihydroactinidiolide inhibits the reaction [Scopolamine results in decreased expression of BDNF mRNA]; Donepezil inhibits the reaction [Scopolamine results in decreased expression of BDNF mRNA]; Melatonin inhibits the reaction [Scopolamine results in decreased expression of BDNF protein]; Plant Extracts inhibits the reaction [Scopolamine results in decreased expression of BDNF mRNA]; Serotonin analog inhibits the reaction [Scopolamine results in decreased expression of BDNF protein]; Tacrine inhibits the reaction [Scopolamine results in decreased expression of BDNF protein]
Scopolamine results in increased expression of CASP3 mRNA; Scopolamine results in increased expression of CASP3 protein Scopolamine results in increased cleavage of CASP3 protein Galantamine inhibits the reaction [Scopolamine results in increased cleavage of CASP3 protein]; intybin inhibits the reaction [Scopolamine results in increased cleavage of CASP3 protein] Scopolamine results in increased activity of CASP3 protein dihydroactinidiolide inhibits the reaction [Scopolamine results in increased activity of CASP3 protein]; Donepezil inhibits the reaction [Scopolamine results in increased activity of CASP3 protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased expression of CASP3 mRNA]
acanthoside B inhibits the reaction [Scopolamine results in decreased activity of CAT protein]; chong-myung-tang inhibits the reaction [Scopolamine results in decreased activity of CAT protein]; dihydroactinidiolide inhibits the reaction [Scopolamine results in decreased activity of CAT protein]; Donepezil inhibits the reaction [Scopolamine results in decreased activity of CAT protein]; Piracetam inhibits the reaction [Scopolamine results in increased activity of CAT protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased activity of CAT protein]; Tacrine inhibits the reaction [Scopolamine results in decreased activity of CAT protein] Galantamine inhibits the reaction [Scopolamine results in decreased activity of CAT protein]; intybin inhibits the reaction [Scopolamine results in decreased activity of CAT protein]
Scopolamine results in decreased activity of CHAT protein protopanaxadiol inhibits the reaction [Scopolamine results in decreased activity of CHAT protein]; Serotonin analog inhibits the reaction [Scopolamine results in decreased activity of CHAT protein] kangshuai yizhi inhibits the reaction [Scopolamine results in decreased activity of CHAT protein]
[[[AVP binds to and results in increased activity of AVPR1A protein] which results in increased abundance of Calcium] which results in increased activity of CHRM1 protein] which results in decreased susceptibility to Scopolamine; Canagliflozin affects the reaction [Scopolamine results in decreased expression of CHRM1 protein] Scopolamine results in increased expression of CHRM1 mRNA 7-fluoro-1,3-diphenylisoquinoline-1-amine inhibits the reaction [Scopolamine results in decreased expression of CHRM1 protein]; Plant Extracts inhibits the reaction [Scopolamine results in increased expression of CHRM1 mRNA]
Scopolamine binds to [CHRNA4 protein binds to CHRNB2 protein] Scopolamine promotes the reaction [Acetylcholine affects the activity of [CHRNA4 protein binds to CHRNB2 protein]]
Scopolamine binds to [CHRNA4 protein binds to CHRNB2 protein] Scopolamine promotes the reaction [Acetylcholine affects the activity of [CHRNA4 protein binds to CHRNB2 protein]]
Scopolamine results in decreased phosphorylation of CREB1 protein acanthoside B inhibits the reaction [Scopolamine results in decreased phosphorylation of CREB1 protein]; Serotonin analog inhibits the reaction [Scopolamine results in decreased phosphorylation of CREB1 protein]; Tacrine inhibits the reaction [Scopolamine results in decreased phosphorylation of CREB1 protein]
[Scopolamine co-treated with 2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine] results in increased expression of EGR1 mRNA; Scopolamine affects the reaction [SK&F 82958 results in increased expression of EGR1 mRNA] Donepezil inhibits the reaction [Scopolamine results in decreased expression of EGR1 protein]; protopanaxadiol inhibits the reaction [Scopolamine results in decreased expression of EGR1 protein] Scopolamine results in decreased expression of EGR1 mRNA
[Scopolamine co-treated with 2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine] results in increased expression of FOS mRNA; Physostigmine inhibits the reaction [Scopolamine promotes the reaction [SK&F 82958 results in increased expression of FOS mRNA]]; Ro4368554 inhibits the reaction [Scopolamine results in increased expression of FOS protein]; Scopolamine affects the reaction [SK&F 82958 results in increased expression of FOS mRNA]; Scopolamine inhibits the reaction [Haloperidol results in increased expression of FOS protein]; Scopolamine promotes the reaction [SK&F 82958 results in increased expression of FOS mRNA] Donepezil inhibits the reaction [Scopolamine results in decreased expression of FOS protein]; protopanaxadiol inhibits the reaction [Scopolamine results in decreased expression of FOS protein] Scopolamine results in decreased expression of FOS mRNA
Scopolamine results in decreased expression of GAP43 protein Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of GAP43 protein]; withanone inhibits the reaction [Scopolamine results in decreased expression of GAP43 protein]
Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of GFAP mRNA]; Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of GFAP protein]; withanone inhibits the reaction [Scopolamine results in decreased expression of GFAP protein] Scopolamine results in decreased expression of GFAP mRNA; Scopolamine results in decreased expression of GFAP protein
Scopolamine inhibits the reaction [[Carbachol results in increased activity of [GRM4 protein binds to KCNJ3 protein]] which results in increased import of Thallium]
Scopolamine results in decreased activity of GSR protein Serotonin analog inhibits the reaction [Scopolamine results in decreased activity of GSR protein]; Tacrine inhibits the reaction [Scopolamine results in decreased activity of GSR protein]
[Histamine binds to and results in increased activity of HRH1 protein] which results in decreased susceptibility to Scopolamine; Pyrilamine inhibits the reaction [[Histamine binds to and results in increased activity of HRH1 protein] which results in decreased susceptibility to Scopolamine]
[[thioperamide results in increased abundance of Histamine] which results in increased activity of HRH2 protein] which results in decreased susceptibility to Scopolamine; Cimetidine inhibits the reaction [[Histamine binds to and results in increased activity of HRH2 protein] which results in decreased susceptibility to Scopolamine]
[4-(benzodioxan-5-yl)-1-(indan-2-yl)piperazine binds to and results in increased activity of HTR1A] which results in decreased susceptibility to Scopolamine; N-(2-(4-(2-methoxyphenyl)-1-piperazinyl)ethyl)-N-(2-pyridinyl)cyclohexanecarboxamide inhibits the reaction [[4-(benzodioxan-5-yl)-1-(indan-2-yl)piperazine binds to and results in increased activity of HTR1A] which results in decreased susceptibility to Scopolamine] Scopolamine increases expression of Htr1a mRNA in amygdala, hippocampal formation; Scopolamine increases expression of Htr1a protein in amygdala, hippocampal formation
Scopolamine results in decreased expression of IL10 protein acanthoside B inhibits the reaction [Scopolamine results in decreased expression of IL10 protein]; polygalacic acid inhibits the reaction [Scopolamine results in decreased expression of IL10 protein]; Tacrine inhibits the reaction [Scopolamine results in decreased expression of IL10 protein]
Scopolamine results in increased expression of IL1B mRNA; Scopolamine results in increased expression of IL1B protein Fatty Acids, Unsaturated deficiency promotes the reaction [Scopolamine results in increased expression of IL1B mRNA] acanthoside B inhibits the reaction [Scopolamine results in increased expression of IL1B protein]; polygalacic acid inhibits the reaction [Scopolamine results in increased expression of IL1B protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of IL1B protein]; timosaponin AIII inhibits the reaction [Scopolamine results in increased expression of IL1B protein]
Fatty Acids, Unsaturated deficiency promotes the reaction [Scopolamine results in increased expression of IL6 mRNA]; Scopolamine promotes the reaction [Fatty Acids, Unsaturated deficiency results in increased expression of IL6 mRNA] acanthoside B inhibits the reaction [Scopolamine results in increased expression of IL6 protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of IL6 protein] Scopolamine results in increased expression of IL6 mRNA; Scopolamine results in increased expression of IL6 protein
Physostigmine inhibits the reaction [Scopolamine promotes the reaction [SK&F 82958 results in increased expression of JUN mRNA]]; Scopolamine promotes the reaction [SK&F 82958 results in increased expression of JUN mRNA] Scopolamine results in decreased expression of JUN protein Donepezil inhibits the reaction [Scopolamine results in decreased expression of JUN protein]; protopanaxadiol inhibits the reaction [Scopolamine results in decreased expression of JUN protein]
Scopolamine inhibits the reaction [[Carbachol results in increased activity of [GRM4 protein binds to KCNJ3 protein]] which results in increased import of Thallium]
Scopolamine results in decreased expression of MAP2 protein Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of MAP2 protein]; withanone inhibits the reaction [Scopolamine results in decreased expression of MAP2 protein]
Scopolamine results in decreased expression of MBP protein Melatonin inhibits the reaction [Scopolamine results in decreased expression of MBP protein]
Ashwagandha inhibits the reaction [Scopolamine results in decreased expression of NEFH protein]; withanone inhibits the reaction [Scopolamine results in decreased expression of NEFH protein]
7-fluoro-1,3-diphenylisoquinoline-1-amine inhibits the reaction [Scopolamine results in decreased expression of NFE2L2 protein] Galantamine inhibits the reaction [Scopolamine results in decreased expression of NFE2L2 protein]; intybin inhibits the reaction [Scopolamine results in decreased expression of NFE2L2 protein]
NGF protein results in decreased susceptibility to Scopolamine Scopolamine results in decreased secretion of NGF protein Galantamine promotes the reaction [Scopolamine results in decreased secretion of NGF protein]; intybin inhibits the reaction [Scopolamine results in decreased secretion of NGF protein]; Scopolamine inhibits the reaction [Pilocarpine results in increased expression of NGF mRNA] NGF protein results in increased susceptibility to Scopolamine
acanthoside B inhibits the reaction [Scopolamine results in increased expression of NOS2 protein]; Serotonin analog inhibits the reaction [Scopolamine results in increased expression of NOS2 protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of NOS2 protein]
Scopolamine inhibits the reaction [Pilocarpine results in increased expression of NTRK2 mRNA] Scopolamine results in decreased expression of NTRK2 protein [acanthoside B co-treated with Scopolamine] results in increased phosphorylation of NTRK2 protein; [Tacrine co-treated with Scopolamine] results in increased phosphorylation of NTRK2 protein; Melatonin inhibits the reaction [Scopolamine results in decreased expression of NTRK2 protein]
PDYN protein modified form results in decreased susceptibility to Scopolamine MR 2266 inhibits the reaction [PDYN protein modified form results in decreased susceptibility to Scopolamine] Scopolamine results in increased expression of PDYN mRNA
PREP protein results in increased susceptibility to Scopolamine Scopolamine results in increased expression of PREP protein Piracetam inhibits the reaction [Scopolamine results in increased expression of PREP protein]
Scopolamine results in increased expression of PTGS2 protein acanthoside B inhibits the reaction [Scopolamine results in increased expression of PTGS2 protein]; Serotonin analog inhibits the reaction [Scopolamine results in increased expression of PTGS2 protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of PTGS2 protein]
mangiferin inhibits the reaction [Scopolamine results in increased phosphorylation of and results in increased activity of RELA protein]; Scopolamine results in increased phosphorylation of and results in increased activity of RELA protein; timosaponin AIII inhibits the reaction [Scopolamine results in increased phosphorylation of and results in increased activity of RELA protein]
[2-(4-morpholino)ethyl-1-phenylcyclohexane-1-carboxylate binds to and results in increased activity of SIGMAR1 protein] which results in decreased susceptibility to Scopolamine; [igmesine binds to and results in increased activity of SIGMAR1 protein] which results in decreased susceptibility to Scopolamine
cyclo-L-glycyl-L-2-allylproline inhibits the reaction [Scopolamine results in increased expression of SYP protein] dihydroactinidiolide inhibits the reaction [Scopolamine results in decreased expression of SYP mRNA]; Donepezil inhibits the reaction [Scopolamine results in decreased expression of SYP mRNA]
acanthoside B inhibits the reaction [Scopolamine results in increased expression of TNF protein]; mangiferin inhibits the reaction [Scopolamine results in increased expression of TNF protein]; Tacrine inhibits the reaction [Scopolamine results in increased expression of TNF protein]; timosaponin AIII inhibits the reaction [Scopolamine results in increased expression of TNF protein] Scopolamine results in increased expression of TNF mRNA Scopolamine results in increased expression of TNF mRNA; Scopolamine results in increased expression of TNF protein
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-agent
[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 co-treated with SR 140333 co-treated with SR 48968] results in decreased activity of CRH 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 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
[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 results in increased expression of FOS protein
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]
Atropine inhibits the reaction [SLC22A3 protein results in increased transport of 1-Methyl-4-phenylpyridinium] SLC22A3 protein results in increased uptake of Atropine
[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
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