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.
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of A2M mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of ABCA17 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ABCA17 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
Fructose results in decreased expression of ABCC2 mRNA; Fructose results in decreased expression of ABCC2 protein Ascorbic Acid inhibits the reaction [Fructose results in decreased expression of ABCC2 mRNA]; Ascorbic Acid inhibits the reaction [Fructose results in decreased expression of ABCC2 protein]; geraniol inhibits the reaction [Fructose results in decreased expression of ABCC2 mRNA]; geraniol inhibits the reaction [Fructose results in decreased expression of ABCC2 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ABCD2 mRNA
FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; Phenylbutyrates inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; Triolein inhibits the reaction [SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACA mRNA]]; Triolein promotes the reaction [Fructose results in increased expression of ACACA mRNA] [Fructose co-treated with Palmitic Acid] results in decreased expression of ACACA protein modified form; [Fructose co-treated with Palmitic Acid] results in increased expression of ACACA protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of ACACA protein modified form]; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased expression of ACACA protein] Fructose results in decreased phosphorylation of ACACA protein [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; bisphenol A promotes the reaction [Fructose results in increased expression of ACACA mRNA]; Fructose inhibits the reaction [Streptozocin results in decreased activity of ACACA protein]; Fructose inhibits the reaction [Streptozocin results in decreased expression of ACACA mRNA]; Fructose promotes the reaction [bisphenol A results in increased expression of ACACA mRNA]; Rotenone inhibits the reaction [Fructose results in increased expression of ACACA mRNA]
Fructose results in decreased expression of ACACB mRNA FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACB mRNA]
[Fructose co-treated with bisphenol A] results in increased expression of ACADVL protein; [Fructose co-treated with Copper deficiency] results in decreased expression of ACADVL mRNA
Fructose results in increased expression of ACE mRNA [bisphenol A co-treated with Fructose] results in increased expression of ACE mRNA; APLN protein modified form inhibits the reaction [Fructose results in increased expression of ACE mRNA]
[Fructose co-treated with Streptozocin] results in increased expression of ACHE protein; Metformin inhibits the reaction [[Fructose co-treated with Streptozocin] results in increased expression of ACHE protein]; vanillin inhibits the reaction [[Fructose co-treated with Streptozocin] results in increased expression of ACHE 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 ACOT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of ACSBG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ACSM3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ACTA1 mRNA
Fructose results in increased expression of ACTA2 protein [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of ACTA2 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of ACTA2 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of ACTA2 mRNA [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of ACTA2 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of ACTA2 protein; [Streptozocin co-treated with Fructose] results in increased expression of ACTA2 protein; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of ACTA2 protein]; Genistein inhibits the reaction [Fructose results in increased expression of ACTA2 protein]; Metformin promotes the reaction [dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of ACTA2 protein]]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of ADAM19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of ADAM32 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of ADAM7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ADAM8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ADGRA1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ADGRB1 mRNA
[gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of ADGRE1 mRNA Fructose results in increased expression of ADGRE1 protein Ethanol promotes the reaction [Fructose results in increased expression of ADGRE1 protein]; Fructose promotes the reaction [Ethanol results in increased expression of ADGRE1 mRNA]; Fructose promotes the reaction [Ethanol results in increased expression of ADGRE1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ADGRE4 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 Herbicides] results in increased expression of ADGRG4 mRNA
[Particulate Matter co-treated with Ozone] promotes the reaction [Fructose results in decreased expression of ADIPOQ mRNA]; bisphenol A promotes the reaction [Fructose results in decreased expression of ADIPOQ protein]; Curcumin inhibits the reaction [Fructose results in decreased expression of ADIPOQ protein]; Fructose promotes the reaction [bisphenol A results in decreased expression of ADIPOQ protein]; geraniol inhibits the reaction [Fructose results in decreased secretion of ADIPOQ protein]; Metformin inhibits the reaction [Fructose results in decreased expression of ADIPOQ protein]; Ozone promotes the reaction [Fructose results in decreased expression of ADIPOQ mRNA]; Particulate Matter promotes the reaction [Fructose results in decreased expression of ADIPOQ mRNA]; Pioglitazone inhibits the reaction [Fructose results in decreased secretion of ADIPOQ protein]; Resveratrol inhibits the reaction [Fructose results in decreased expression of ADIPOQ mRNA]; Resveratrol inhibits the reaction [Fructose results in decreased expression of ADIPOQ protein]; sapropterin inhibits the reaction [Fructose results in decreased expression of ADIPOQ mRNA]; sapropterin inhibits the reaction [Fructose results in decreased expression of ADIPOQ protein]; TNF protein affects the reaction [Fructose results in increased expression of ADIPOQ protein] Fructose results in increased secretion of ADIPOQ protein Fructose results in decreased expression of ADIPOQ mRNA; Fructose results in decreased expression of ADIPOQ protein Fructose results in increased expression of ADIPOQ mRNA; Fructose results in increased expression of ADIPOQ protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ADRB3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of AGBL4 mRNA
Fructose results in increased expression of AGER protein Genistein inhibits the reaction [Fructose results in increased expression of AGER protein]; geraniol inhibits the reaction [Fructose results in increased expression of AGER protein]; Pioglitazone inhibits the reaction [Fructose results in increased expression of AGER protein]
Fructose results in increased expression of AGT mRNA; Fructose results in increased expression of AGT protein; Fructose results in increased expression of AGT protein modified form APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT mRNA]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT protein modified form]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT protein]
Fructose results in increased expression of AGTR1A mRNA Fructose results in increased expression of AGTR1 mRNA APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGTR1A mRNA]; INS protein inhibits the reaction [Fructose results in increased expression of AGTR1A mRNA]
Fructose results in increased expression of AGTR2 mRNA APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGTR2 mRNA]
[Dietary Fats co-treated with Fructose] results in increased expression of AHR mRNA; AHR protein results in increased susceptibility to [Dietary Fats co-treated with Fructose]; NR0B2 protein inhibits the reaction [AHR protein results in increased susceptibility to [Dietary Fats co-treated with Fructose]]; PEMT protein promotes the reaction [AHR protein results in increased susceptibility to [Dietary Fats co-treated with Fructose]]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of AIF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of AIRN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of AKR1C18 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of AKR1C6 mRNA
Fructose results in decreased phosphorylation of AKT1 protein Fructose results in increased phosphorylation of AKT1 protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of AKT1 protein]; [Fructose co-treated with Dietary Fats] results in decreased expression of and results in decreased phosphorylation of AKT1 protein; [Fructose co-treated with Oleanolic Acid] results in increased expression of AKT1 mRNA; NOS3 protein inhibits the reaction [Fructose results in decreased phosphorylation of AKT1 protein]; Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of AKT1 protein]; Quercetin inhibits the reaction [Fructose results in increased phosphorylation of AKT1 protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of AKT1 protein]
[Fructose co-treated with Glucose] results in increased glycation of ALB protein; pimagedine inhibits the reaction [[Fructose co-treated with Glucose] results in increased glycation of ALB protein]; ursonic acid inhibits the reaction [[Fructose co-treated with Glucose] results in increased glycation of ALB 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 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
Fructose results in increased expression of ALDOB mRNA FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ALDOB mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of ALDOA mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ALK 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] results in increased expression of AMER2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ANKS1B 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; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of AOC1 mRNA
[Fructose co-treated with Dietary Fats] results in increased expression of APAF1 mRNA; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of APAF1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of APCS mRNA
APLN protein modified form inhibits the reaction [Fructose results in decreased activity of CAT protein]; APLN protein modified form inhibits the reaction [Fructose results in decreased expression of APLNR mRNA]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of ACE mRNA]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT mRNA]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT protein modified form]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGT protein]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGTR1A mRNA]; APLN protein modified form inhibits the reaction [Fructose results in increased expression of AGTR2 mRNA]
Fructose results in decreased expression of APLNR mRNA APLN protein modified form inhibits the reaction [Fructose results in decreased expression of APLNR mRNA]
Fructose results in increased expression of APOA1 mRNA; Fructose results in increased expression of APOA1 protein Plant Preparations inhibits the reaction [Fructose results in decreased expression of APOA1 protein] [bisphenol A co-treated with Fructose] results in increased expression of APOA1 protein
[Fructose co-treated with Copper deficiency] results in decreased expression of APOB mRNA; Atorvastatin inhibits the reaction [Fructose results in increased expression of APOB protein]; gadolinium chloride promotes the reaction [[Fructose co-treated with Copper deficiency] results in decreased expression of APOB mRNA] [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in decreased expression of APOB mRNA; Plant Preparations inhibits the reaction [Fructose results in increased expression of APOB protein] Fructose results in increased expression of APOB mRNA; Fructose results in increased expression of APOB protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of APOE mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of APOL9A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of APOL6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of AQP5 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of AQP5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of AQP8 mRNA
[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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of AREG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of ARL5C mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of ARSJ mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ASCL1 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of ASPN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ATF3 mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of ATF6 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of ATF6 protein; [Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of ATF6 protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of ATF6 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of ATF6 protein]
[Fructose co-treated with Dietary Fats] results in decreased expression of ATP2A2 mRNA; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of ATP2A2 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of B2M mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of B3GNT6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of B4GALNT4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of BARX2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of BATF2 mRNA
Fructose results in increased expression of BAX protein Plant Extracts inhibits the reaction [Fructose results in increased expression of BAX protein] [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of BAX protein; [Fructose co-treated with Dietary Fats] results in increased expression of BAX mRNA; [Fructose co-treated with Dietary Fats] results in increased expression of BAX protein; Plant Preparations inhibits the reaction [Fructose results in increased expression of BAX protein]; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of BAX mRNA]; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of BAX protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of BCL11A mRNA
Fructose results in decreased expression of BCL2 protein Fructose results in increased expression of BCL2 mRNA Fructose results in increased expression of BCL2 protein [Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 protein]; [Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 protein; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 protein]; Kangen-karyu inhibits the reaction [Fructose results in increased expression of BCL2 protein] [Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 mRNA; [Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 protein; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 mRNA]; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of BCL2 protein]
Fructose results in decreased expression of BCL2L1 protein Plant Extracts inhibits the reaction [Fructose results in decreased expression of BCL2L1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of BCO1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of BEGAIN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of BHMT mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of BMPER mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of BST2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of BTBD17 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of C3 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of C3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of C4B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of HC mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of HC mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of C5AR1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of CAR3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of CABP4 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 CACNA1S mRNA
Fructose results in increased expression of CALCA mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CALCA mRNA
[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of CANX protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of CANX protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of CANX protein]
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CASP1 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of CASP1 protein; Allopurinol inhibits the reaction [Fructose results in increased expression of CASP1 protein modified form]; Allopurinol inhibits the reaction [Fructose results in increased expression of CASP1 protein]; dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CASP1 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of CASP1 protein modified form]; Quercetin inhibits the reaction [Fructose results in increased expression of CASP1 protein]; Rutin inhibits the reaction [Fructose results in increased expression of CASP1 protein] Fructose results in increased expression of CASP1 protein; Fructose results in increased expression of CASP1 protein modified form
[Fructose co-treated with Dietary Fats] results in increased expression of CASP3 mRNA; [Fructose co-treated with Dietary Fats] results in increased expression of CASP3 protein; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CASP3 mRNA]; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CASP3 protein] Fructose results in decreased cleavage of CASP3 protein [Fructose co-treated with Palmitic Acid] results in increased activity of CASP3 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased activity of CASP3 protein] Fructose results in decreased expression of CASP3 mRNA imoxin inhibits the reaction [Fructose results in increased expression of CASP3 protein]; Plant Extracts inhibits the reaction [Fructose results in decreased cleavage of CASP3 protein]
[Streptozocin co-treated with Fructose] results in increased expression of CASP7 protein; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of CASP7 protein]; dapagliflozin promotes the reaction [Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of CASP7 protein]]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of CASP7 protein]; Metformin promotes the reaction [dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of CASP7 protein]]
[Fructose co-treated with Dietary Fats] results in increased expression of CASP9 mRNA; [Fructose co-treated with Dietary Fats] results in increased expression of CASP9 protein; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CASP9 mRNA]; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CASP9 protein] Fructose results in decreased cleavage of CASP9 protein Plant Extracts inhibits the reaction [Fructose results in decreased cleavage of CASP9 protein]
Fructose results in decreased expression of CAT mRNA; Fructose results in decreased expression of CAT protein [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in decreased expression of CAT protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in decreased expression of CAT protein; [Fructose co-treated with Dietary Fats] results in decreased activity of CAT protein; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased activity of CAT protein] [Fructose co-treated with Streptozocin] results in decreased activity of CAT protein; [Hydrochlorothiazide co-treated with Fructose] results in decreased activity of CAT protein; APLN protein modified form inhibits the reaction [Fructose results in decreased activity of CAT protein]; Metformin inhibits the reaction [[Fructose co-treated with Streptozocin] results in decreased activity of CAT protein]; vanillin inhibits the reaction [[Fructose co-treated with Streptozocin] results in decreased activity of CAT protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CCDC169 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of CCDC190 mRNA
[Fructose co-treated with Uric Acid] results in increased secretion of CCL2 protein; acetovanillone inhibits the reaction [Fructose results in increased secretion of CCL2 protein]; Acetylcysteine inhibits the reaction [Fructose results in increased secretion of CCL2 protein]; Allopurinol inhibits the reaction [[Fructose co-treated with Uric Acid] results in increased secretion of CCL2 protein]; Allopurinol inhibits the reaction [Fructose results in increased secretion of CCL2 protein]; Glucose inhibits the reaction [Fructose results in increased secretion of CCL2 protein]; KHK protein promotes the reaction [Fructose results in increased secretion of CCL2 protein]; Mn(III) 5,10,15,20-tetrakis(N-methylpyridinium-2-yl)porphyrin inhibits the reaction [Fructose results in increased secretion of CCL2 protein]; Superoxides affects the reaction [Fructose results in increased secretion of CCL2 protein] Fructose results in increased expression of CCL2 protein Fructose results in increased expression of CCL2 mRNA [Dietary Fats co-treated with Fructose] results in increased expression of CCL2 protein; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of CCL2 mRNA; [Fructose co-treated with Ethanol] 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 Glyphosate] 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] results in increased expression of CCL2 mRNA; sarpogrelate inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CCL2 protein] [Copper deficiency co-treated with Fructose] results in increased expression of CCL2 protein; [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CCL2 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of CCL2 protein; [Fructose co-treated with Copper deficiency] results in increased expression of CCL2 protein; [Lipopolysaccharides co-treated with Fructose co-treated with Copper deficiency] results in increased expression of CCL2 protein; [Particulate Matter co-treated with Ozone] promotes the reaction [Fructose results in increased expression of CCL2 mRNA]; [Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of CCL2 protein; Acarbose inhibits the reaction [Fructose results in increased expression of CCL2 mRNA]; Acarbose inhibits the reaction [Fructose results in increased expression of CCL2 protein]; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of CCL2 protein]; Deferiprone inhibits the reaction [[Lipopolysaccharides co-treated with Fructose co-treated with Copper deficiency] results in increased expression of CCL2 protein]; Deferoxamine inhibits the reaction [[Lipopolysaccharides co-treated with Fructose co-treated with Copper deficiency] results in increased expression of CCL2 protein]; Fish Oils inhibits the reaction [Fructose results in increased expression of CCL2 protein]; gadolinium chloride inhibits the reaction [[Fructose co-treated with Copper deficiency] results in increased expression of CCL2 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of CCL2 protein]; Ozone promotes the reaction [Fructose results in increased expression of CCL2 mRNA]; Particulate Matter promotes the reaction [Fructose results in increased expression of CCL2 mRNA] Fructose results in increased expression of CCL2 mRNA; Fructose results in increased expression of CCL2 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CCL9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CCL28 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CCL7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CCNB1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CCR6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CCR7 mRNA
[gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of CD163 mRNA [Fructose co-treated with Ethanol] results in increased expression of CD163 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD163 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of CD19 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CD19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CD226 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CD247 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD300A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CD300LB mRNA
Fructose results in decreased expression of CD36 protein [Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CD36 protein]; [Fructose co-treated with Dietary Fats] results in increased expression of CD36 protein; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CD36 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CD3E 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] results in increased expression of CD44 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD48 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD52 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD6 mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of CD68 mRNA; [gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of CD68 mRNA; [gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of CD68 protein [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of CD68 mRNA; [Fructose co-treated with Ethanol] results in increased expression of CD68 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CD74 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CD8B1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CD96 mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of CDH1 protein]; [Dietary Fats co-treated with Fructose] results in decreased expression of CDH1 protein; dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of CDH1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CDK1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CDK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CEACAM19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of CELF3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CELF4 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 CELSR3 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CELSR3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CENPF mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of CES2H mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CFAP74 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of CFAP97D1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CFD mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CHGB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CHRDL2 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CHRDL2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CHRNA2 mRNA
Fructose results in increased phosphorylation of CHUK protein Quercetin inhibits the reaction [Fructose results in increased phosphorylation of CHUK protein]
Fructose results in decreased expression of CIDEA mRNA [Ozone co-treated with Fructose] results in decreased expression of CIDEA mRNA; [Particulate Matter co-treated with Fructose] results in decreased expression of CIDEA mRNA; [Particulate Matter co-treated with Ozone co-treated with Fructose] results in decreased expression of CIDEA 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CKAP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CLEC2H mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CLEC4E mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CLEC4N mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CLHC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CLIC6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CLSPN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CLSTN3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CMA1 mRNA
Fructose results in increased expression of CNR1 mRNA [Fructose co-treated with Streptozocin] results in decreased expression of CNR1 mRNA; Ghrelin inhibits the reaction [[Fructose co-treated with Streptozocin] results in decreased expression of CNR1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CNTN4 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 CNTNAP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of CNTNAP5A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of COL19A1 mRNA
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in decreased expression of COL1A1 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of COL1A1 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of COL1A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of COL27A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of COL5A2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of COL6A4 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] results in decreased 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; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of COL6A6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of COL8A2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of COX6A2 mRNA
[Fructose co-treated with Copper deficiency] results in decreased activity of CP protein; Fructose promotes the reaction [Copper deficiency results in decreased expression of CP protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CPE mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of CPT1A mRNA; [Fructose co-treated with Copper deficiency] results in decreased expression of CPT1A mRNA; [Fructose co-treated with Dietary Fats] results in decreased expression of CPT1A protein
Fructose results in increased expression of CREB1 mRNA; Fructose results in increased expression of CREB1 protein rosiglitazone inhibits the reaction [Fructose results in increased expression of CREB1 mRNA]; rosiglitazone inhibits the reaction [Fructose results in increased expression of CREB1 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 CREB3L3 mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of CRP mRNA; Curcumin inhibits the reaction [Fructose results in increased expression of CRP protein]; Metformin inhibits the reaction [Fructose results in increased expression of CRP protein]; resveratrol inhibits the reaction [Fructose results in increased expression of CRP protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CRTAC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CRYAA mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CRYAA mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CRYBG2 mRNA
[Streptozocin co-treated with Fructose] results in increased expression of CST3 protein; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of CST3 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 CST6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CTSW mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CXCL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CXCL10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of CXCL9 mRNA
[Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of CYCS protein]; [Fructose co-treated with Dietary Fats] results in increased expression of CYCS protein; Plant Extracts inhibits the reaction [Fructose results in increased expression of CYCS protein] [Fructose co-treated with Palmitic Acid] results in increased expression of CYCS protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased expression of CYCS protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CYM mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of CYP1A2 mRNA; alpha-Tocopherol inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP1A2 mRNA]; tetrahydrocurcumin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP1A2 mRNA]
[Dietary Fats co-treated with Fructose] results in increased expression of CYP1B1 mRNA; [Dietary Fats co-treated with Fructose] results in increased expression of CYP1B1 protein; tetrahydrocurcumin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP1B1 mRNA]; tetrahydrocurcumin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP1B1 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 CYP26B1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CYP27B1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CYP2A5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CYP2B10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CYP2C38 mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of CYP2C29 mRNA; [Dietary Fats co-treated with Fructose] results in increased expression of CYP2C29 protein; alpha-Tocopherol inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP2C29 protein]; tetrahydrocurcumin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP2C29 mRNA]; tetrahydrocurcumin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of CYP2C29 protein]
Fructose results in decreased expression of CYP2E1 protein [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of CYP2E1 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of CYP2E1 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of CYP2E1 mRNA; Ethanol promotes the reaction [Fructose results in increased expression of CYP2E1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of CYP3A13 mRNA
[Fructose co-treated with Copper deficiency] results in decreased expression of CYP4A1 mRNA; gadolinium chloride promotes the reaction [[Fructose co-treated with Copper deficiency] results in decreased expression of CYP4A1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of CYP7B1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of CYP7B1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of CYSRT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of DALIR 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] results in increased expression of DBP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of DCLK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of DDIAS mRNA
[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of DDIT3 protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of DDIT3 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of DEFB19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of DEPP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of DERL3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of DEUP1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of DEUP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of DHRS9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of DHX58 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of DIAPH3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of DIRAS2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of DISC1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of DISC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of DLK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of DNASE1L3 mRNA
[Fructose co-treated with Palmitic Acid] results in increased expression of DNM1L protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased expression of DNM1L protein] [Tribulus extract co-treated with Fructose] results in decreased expression of DNM1L protein modified form
[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
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of DPP4 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of DPP4 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of DPP4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of DPP6 mRNA
[Ozone co-treated with Fructose] results in decreased expression of DPT mRNA; [Particulate Matter co-treated with Fructose] results in decreased expression of DPT mRNA; Fructose affects the reaction [[Ozone co-treated with Particulate Matter] results in decreased expression of DPT mRNA] Fructose results in decreased expression of DPT mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of DSCAML1 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of EDARADD mRNA
Fructose results in increased susceptibility to EDN1 protein Fructose results in increased expression of EDN1 mRNA; Fructose results in increased expression of EDN1 protein modified form KLK1 protein inhibits the reaction [Fructose results in increased expression of EDN1 mRNA]; Metformin inhibits the reaction [Fructose results in increased expression of EDN1 protein]; resveratrol inhibits the reaction [Fructose results in increased expression of EDN1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of EFHC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of EGR1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of EGR2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of EHHADH mRNA
Fructose results in increased phosphorylation of EIF2AK3 protein [Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of EIF2AK3 protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of EIF2AK3 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of EIF2AK3 protein] Phenylbutyrates inhibits the reaction [Fructose results in increased phosphorylation of EIF2AK3 protein]
Fructose results in increased phosphorylation of EIF2S1 protein Phenylbutyrates inhibits the reaction [Fructose results in increased phosphorylation of EIF2S1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of EMC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ENKUR mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ENTPD4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of EPB42 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of EPOP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of EPPK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of EPSTI1 mRNA
[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of ERN1 protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of ERN1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ERN2 mRNA
bisphenol A promotes the reaction [Fructose results in decreased expression of ESR1 protein]; Fructose promotes the reaction [bisphenol A results in decreased expression of ESR1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of F13A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of F7 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 FAM163A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FAM163B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FAM167A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of FAM178B mRNA
Fructose results in decreased expression of FAS mRNA Fructose results in increased expression of FAS protein Plant Extracts inhibits the reaction [Fructose results in increased expression of FAS protein]
Fructose results in increased expression of FASLG mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of FASL mRNA
[Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of FASN protein]; [Copper deficiency co-treated with Fructose] results in increased expression of FASN protein; [Fenofibrate co-treated with Resveratrol] inhibits the reaction [Fructose results in increased expression of FASN mRNA]; [Fructose co-treated with Dietary Fats] results in increased expression of FASN protein; [gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of FASN mRNA; Atorvastatin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of FASN protein]; bisphenol A promotes the reaction [Fructose results in increased expression of FASN mRNA]; bisphenol A promotes the reaction [Fructose results in increased expression of FASN protein]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of FASN protein]; Fenofibrate inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Resveratrol inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Rosiglitazone inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Tea inhibits the reaction [Fructose results in increased expression of FASN mRNA] [Fructose co-treated with Palmitic Acid] results in increased expression of FASN protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased expression of FASN protein] FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Phenylbutyrates inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Plant Preparations inhibits the reaction [Fructose results in increased expression of FASN protein]; SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of FASN mRNA]; Triolein inhibits the reaction [SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of FASN mRNA]]; Triolein promotes the reaction [Fructose results in increased expression of FASN mRNA] Fructose results in increased expression of FASN mRNA; Fructose results in increased expression of FASN protein Fructose results in increased activity of FASN protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of FAT3 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FAT3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FAXC mRNA
Fructose results in increased activity of FBP1 protein Fructose results in increased expression of FBP1 mRNA Vanadates inhibits the reaction [Fructose results in increased activity of FBP1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of FBXO47 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 FBXO48 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased 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 Glyphosate] results in increased expression of FCGR4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of FCRLB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of FEN1 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] results in decreased expression of FFAR3 mRNA
Fructose results in increased secretion of FGF21 protein Fructose results in increased expression of FGF21 mRNA [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in decreased abundance of Blood Glucose; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in decreased expression of APOB mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in decreased expression of DGAT2 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of CCL2 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of CCL3 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of CD68 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of DGAT1 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of MMP2 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of TGFB1 mRNA; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of TGFB2 mRNA; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ACACB mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of ALDOB mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of FASN mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of KHK mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of MLXIPL mRNA alternative form]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of MTTP mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of PKLR mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of SCD1 mRNA]; FGF21 gene mutant form inhibits the reaction [Fructose results in increased secretion of very low density lipoprotein triglyceride]; MLXIPL gene mutant form inhibits the reaction [Fructose results in increased expression of FGF21 mRNA]; MLXIPL gene mutant form inhibits the reaction [Fructose results in increased secretion of FGF21 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FGG 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
[Fructose co-treated with Palmitic Acid] results in increased expression of FIS1 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in increased expression of FIS1 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 FLG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of FMO3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of FOXA3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FOXF2 mRNA
Fructose results in increased expression of and affects the localization of FOXO1 protein; Fructose results in increased expression of and results in increased phosphorylation of FOXO1 protein; Quercetin inhibits the reaction [Fructose results in increased expression of and affects the localization of FOXO1 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of and results in increased phosphorylation of FOXO1 protein]; rosiglitazone inhibits the reaction [Fructose results in increased expression of FOXO1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FRMD3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of FRMPD3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of FSBP mRNA
[Streptozocin co-treated with Fructose] results in decreased expression of FSHB protein; Acetates inhibits the reaction [[Streptozocin co-treated with Fructose] results in decreased expression of FSHB protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of FSIP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of FUT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of FUT2 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of FUT2 mRNA
Rosiglitazone inhibits the reaction [Fructose results in increased expression of G6PC1 mRNA]; Rosiglitazone inhibits the reaction [Fructose results in increased expression of G6PC1 protein] Fructose results in increased expression of G6PC1 mRNA; Fructose results in increased expression of G6PC1 protein
Fructose results in increased activity of G6PD protein Fructose results in decreased expression of G6PD protein Glutamine inhibits the reaction [Fructose results in decreased expression of G6PD protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GABBR2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of GABRP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GABRQ 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 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 Glyphosate] results in increased expression of GALNT6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of GAPDH mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GBP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GBP3 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GBP4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GBP7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of GC mRNA
Fructose results in increased activity of GCK protein [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of GCK 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 Glyphosate] results in increased expression of GDAP1L1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GDF7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GHRHR mRNA
[Dietary Fats co-treated with Fructose] results in decreased expression of GJA1 protein; Atorvastatin promotes the reaction [dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of GJA1 protein]]; dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of GJA1 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 GLI2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GLIPR1 mRNA
[Fructose co-treated with Streptozocin] results in decreased expression of GLP1R mRNA; Ghrelin inhibits the reaction [[Fructose co-treated with Streptozocin] results in decreased expression of GLP1R mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of GLT8D2 mRNA
Fructose results in decreased expression of GLUL protein Allopurinol inhibits the reaction [Fructose results in decreased expression of GLUL protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of GLUL 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 GNA15 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GNAT2 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] results in decreased expression of GP9 mRNA
[Folic Acid affects the susceptibility to Fructose] which affects the expression of GPAM mRNA; Atorvastatin inhibits the reaction [Fructose results in increased expression of GPAM mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of GPC5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of GPHA2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of GPNMB 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GPR85 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of GPR87 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of GPRIN1 mRNA
Fructose results in increased activity of GPT protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of GPT protein]; [Fructose co-treated with Dietary Fats] results in increased expression of GPT protein; Atorvastatin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of GPT protein]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of GPT protein] [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of GPT protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of GPT protein; [Fructose co-treated with Ethanol] results in increased expression of GPT protein; Plant Preparations inhibits the reaction [Fructose results in increased activity 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 Glyphosate] results in increased expression of GRAP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of GREM1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of GREM2 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 GUCY2E mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of GZMB mRNA
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of H2AX mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of H2AX mRNA
[Fructose co-treated with Copper deficiency] results in decreased expression of HAMP 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 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
[Streptozocin co-treated with Fructose] results in increased expression of HAVCR1 protein; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of HAVCR1 protein]; dapagliflozin promotes the reaction [Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of HAVCR1 protein]]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of HAVCR1 protein]; Metformin promotes the reaction [dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of HAVCR1 protein]] [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of HAVCR1 mRNA
Fructose promotes the reaction [Glucose binds to HBB protein]; geraniol inhibits the reaction [Fructose promotes the reaction [Glucose binds to HBB protein]]; Pioglitazone inhibits the reaction [Fructose promotes the reaction [Glucose binds to HBB 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 HCRT mRNA
[Streptozocin co-treated with Fructose] results in increased expression of HDAC5 protein; Acetates inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of HDAC5 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of HDC 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 Herbicides] results in decreased expression of HIPK4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of HK3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-M2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-DMA mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-DMB1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-AB1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-M3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of H2-Q5 mRNA
[6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]; Rotenone inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]; Tea inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]
[Fructose co-treated with Copper deficiency] results in decreased expression of HMGCS2 mRNA; gadolinium chloride promotes the reaction [[Fructose co-treated with Copper deficiency] results in decreased expression of HMGCS2 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of HMMR mRNA
[Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of HMOX1 protein]; [Curcumin co-treated with Fructose] results in increased expression of HMOX1 protein; [Fructose co-treated with Dietary Fats] results in decreased expression of HMOX1 protein; [Hemin co-treated with Fructose] results in increased expression of HMOX1 protein; Atorvastatin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of HMOX1 protein]; caffeic acid phenethyl ester inhibits the reaction [Fructose results in increased expression of HMOX1 protein]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of HMOX1 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 HMOX1 mRNA Fructose results in increased expression of HMOX1 mRNA
Cerulenin inhibits the reaction [Fructose results in decreased expression of HNF4A mRNA] Fructose results in decreased expression of HNF4A mRNA; Fructose results in decreased expression of HNF4A protein Berberine inhibits the reaction [Fructose results in decreased expression of HNF4A mRNA]; Berberine inhibits the reaction [Fructose results in decreased expression of HNF4A protein]; rosiglitazone inhibits the reaction [Fructose results in decreased expression of HNF4A mRNA]
[Fructose co-treated with bisphenol A] results in increased expression of HNRNPA2B1 protein Fructose results in decreased expression of HNRNPA2B1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of HOXA2 mRNA
Fructose results in decreased expression of HOXC9 mRNA [Ozone co-treated with Fructose] results in decreased expression of HOXC9 mRNA; [Particulate Matter co-treated with Ozone co-treated with Fructose] results in decreased expression of HOXC9 mRNA; Fructose affects the reaction [Particulate Matter results in decreased expression of HOXC9 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of HP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of HRG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of HS6ST2 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] results in decreased expression of HSPA1L mRNA
Fructose results in increased expression of HSPA5 mRNA; Fructose results in increased expression of HSPA5 protein [Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of HSPA5 protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of HSPA5 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of HSPA5 protein] Phenylbutyrates inhibits the reaction [Fructose results in increased expression of HSPA5 protein]
Amlodipine inhibits the reaction [Fructose results in increased expression of HSPD1 protein]; rosiglitazone inhibits the reaction [Fructose results in increased expression of HSPD1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of HTRA3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of HYAL4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of HYDIN mRNA
2,2'-(hydroxynitrosohydrazono)bis-ethanamine inhibits the reaction [Fructose results in increased expression of ICAM1 protein]; Adenosine Triphosphate inhibits the reaction [Fructose results in increased expression of ICAM1 protein] Metformin inhibits the reaction [Fructose results in increased expression of ICAM1 protein modified form]; resveratrol inhibits the reaction [Fructose results in increased expression of ICAM1 protein modified form] Fructose results in increased expression of ICAM1 mRNA; Fructose results in increased expression of ICAM1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IDI1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFI204 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFI27L2A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFIT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFIT2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFIT3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IGF2BP1 mRNA
[Fructose co-treated with Ozone co-treated with Particulate Matter] results in decreased expression of IGFBP3 mRNA; [Fructose co-treated with Ozone] results in decreased expression of IGFBP3 mRNA; [Particulate Matter co-treated with Fructose] results in decreased expression of IGFBP3 mRNA; Fructose affects the reaction [Particulate Matter results in decreased expression of IGFBP3 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 Glyphosate] results in decreased expression of IGHM 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 IGHV10-1 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 Herbicides] results in increased expression of IGLC2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of IGLV2 mRNA
Fructose results in increased phosphorylation of IKBKB protein Allopurinol inhibits the reaction [Fructose results in increased phosphorylation of IKBKB protein]; Quercetin inhibits the reaction [Fructose results in increased phosphorylation of IKBKB protein]
Fructose results in decreased expression of IL10 mRNA [Fructose co-treated with Ozone co-treated with Particulate Matter] results in decreased expression of IL10 mRNA; Fructose affects the reaction [Ozone results in decreased expression of IL10 mRNA]; Fructose affects the reaction [Particulate Matter results in decreased expression of IL10 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IL12RB2 mRNA
Fructose promotes the reaction [bisphenol A results in increased expression of IL17A protein] Fructose results in increased expression of IL17A protein
Allopurinol inhibits the reaction [Fructose results in increased expression of IL18 protein]; Felodipine inhibits the reaction [Fructose results in increased expression of IL18 mRNA]; Felodipine inhibits the reaction [Fructose results in increased expression of IL18 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of IL18 protein]; Rutin inhibits the reaction [Fructose results in increased expression of IL18 protein] Fructose results in increased expression of IL18 mRNA; Fructose results in increased expression of IL18 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IL18RAP mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IL18RAP mRNA
Fructose results in increased expression of IL1B protein Fructose results in increased secretion of IL1B protein [Fructose co-treated with Ethanol] results in increased expression of IL1B mRNA [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of IL1B protein]; [Dietary Fats co-treated with Fructose] results in increased expression of IL1B protein; [gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of IL1B mRNA; Allopurinol inhibits the reaction [Fructose results in increased expression of IL1B protein]; geraniol inhibits the reaction [Fructose results in increased expression of IL1B protein]; geraniol inhibits the reaction [Fructose results in increased secretion of IL1B protein]; Pioglitazone inhibits the reaction [Fructose results in increased secretion of IL1B protein]; PTMA protein inhibits the reaction [Fructose results in increased expression of IL1B protein]; Quercetin inhibits the reaction [Fructose results in increased expression of IL1B protein]; Rutin inhibits the reaction [Fructose results in increased expression of IL1B protein]; tributylhexadecylphosphonium bromide inhibits the reaction [Fructose results in increased expression of IL1B protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of IL1RN mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IL27 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IL31RA mRNA
[gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of IL6 mRNA; Allopurinol inhibits the reaction [Fructose results in increased expression of IL6 protein]; galangin inhibits the reaction [Fructose results in increased expression of IL6 protein]; Genistein inhibits the reaction [Fructose results in increased expression of IL6 protein]; geraniol inhibits the reaction [Fructose results in increased expression of IL6 protein]; Metformin inhibits the reaction [Fructose results in increased expression of IL6 protein]; PTMA protein inhibits the reaction [Fructose results in increased expression of IL6 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of IL6 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of IL6 protein]; Rutin inhibits the reaction [Fructose results in increased expression of IL6 protein]; tributylhexadecylphosphonium bromide inhibits the reaction [Fructose results in increased expression of IL6 protein] [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of IL6 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of IL6 protein Fructose results in decreased expression of IL6 mRNA; Fructose results in decreased expression of IL6 protein
Fructose results in decreased susceptibility to INS protein Fructose results in increased secretion of INS protein Fructose results in increased expression of INS protein; Fructose results in increased expression of INS2 mRNA Curcumin inhibits the reaction [Fructose results in increased expression of INS protein]; Hemin inhibits the reaction [Fructose results in increased expression of INS protein]; INS protein inhibits the reaction [Fructose results in increased expression of AGTR1A mRNA]; Quercetin inhibits the reaction [Fructose results in increased expression of INS2 mRNA]
Fructose results in increased secretion of INS1 protein Fructose results in increased expression of INS1 mRNA; Fructose results in increased expression of INS1 protein Ethanol inhibits the reaction [Fructose results in increased expression of INS1 protein]; Fructose inhibits the reaction [Ethanol results in increased expression of INS1 protein] Fructose results in decreased expression of INS1 protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of INS1 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of INS1 protein; [Dietary Fats co-treated with Fructose] results in increased secretion of INS1 protein; [Fructose co-treated with Dietary Fats] results in increased expression of INS1 protein; [Fructose co-treated with Propylthiouracil] results in increased expression of INS1 protein; [Streptozocin co-treated with Fructose] results in increased expression of INS1 protein; Acetates inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of INS1 protein]; Acetylcysteine inhibits the reaction [Fructose results in increased expression of INS1 protein]; Allopurinol inhibits the reaction [Fructose results in increased expression of and results in increased phosphorylation of INS1 protein]; Allopurinol inhibits the reaction [Fructose results in increased expression of INS1 protein]; betanin inhibits the reaction [Fructose results in increased expression of INS1 protein]; bisphenol A diglycidyl ether inhibits the reaction [chrysin inhibits the reaction [Fructose results in increased expression of INS1 protein]]; Carnitine inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased secretion of INS1 protein]; caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of INS1 protein]; chrysin inhibits the reaction [Fructose results in increased expression of INS1 protein]; dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of INS1 protein]; Fatty Acids, Omega-3 inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased secretion of INS1 protein]; Fenofibrate inhibits the reaction [Fructose results in increased secretion of INS1 protein]; Fructose promotes the reaction [bisphenol A results in increased expression of INS1 protein]; Genistein inhibits the reaction [Fructose results in increased expression of INS1 protein]; iodopravadoline inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of INS1 protein]]; Luteolin inhibits the reaction [Fructose results in increased expression of INS1 protein]; Metformin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased secretion of INS1 protein]; Metformin inhibits the reaction [Fructose results in increased secretion of INS1 protein]; Oleanolic Acid inhibits the reaction [Fructose results in increased expression of INS1 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of INS1 mRNA]; Quercetin inhibits the reaction [Fructose results in increased expression of INS1 protein]; Quercetin inhibits the reaction [Fructose results in increased secretion of INS1 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of INS1 protein]; royal jelly inhibits the reaction [Fructose results in increased expression of INS1 protein]; Rutin inhibits the reaction [Fructose results in increased expression of INS1 protein]
Fructose results in decreased expression of INSIG1 protein Fructose results in increased expression of INSIG1 mRNA Phenylbutyrates inhibits the reaction [Fructose results in decreased expression of INSIG1 protein]
Fructose results in decreased expression of INSR mRNA; Fructose results in decreased expression of INSR protein [Fructose co-treated with Oleanolic Acid] results in increased expression of INSR mRNA; [Fructose co-treated with Sodium Chloride, Dietary deficiency] results in decreased expression of INSR mRNA; [Fructose co-treated with Sodium Chloride, Dietary deficiency] results in decreased expression of INSR protein; Allopurinol inhibits the reaction [Fructose results in decreased phosphorylation of INSR protein]; Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of INSR protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of INSR protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of IP6K3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IRF1 mRNA
[Fructose co-treated with Ethanol] results in increased expression of IRF3 protein; Fructose promotes the reaction [Ethanol results in increased expression of IRF3 mRNA]
[Fructose co-treated with Ethanol] results in increased expression of IRF7 protein; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IRF7 mRNA Fructose results in increased expression of IRF7 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IRGM1 mRNA
Fructose results in decreased expression of IRS1 mRNA; Fructose results in decreased expression of IRS1 protein Fructose results in increased phosphorylation of IRS1 protein Fructose results in decreased phosphorylation of IRS1 protein [Fructose co-treated with Oleanolic Acid] results in increased expression of IRS1 mRNA; [Fructose co-treated with Oleanolic Acid] results in increased expression of IRS1 protein; [Fructose co-treated with resveratrol] results in increased expression of IRS1 mRNA; Allopurinol inhibits the reaction [Fructose results in decreased phosphorylation of IRS1 protein]; Curcumin inhibits the reaction [Fructose affects the phosphorylation of IRS1 protein]; NOS3 protein inhibits the reaction [Fructose results in decreased expression of IRS1 protein]; Oleanolic Acid inhibits the reaction [Fructose results in increased phosphorylation of IRS1 protein]; Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of IRS1 protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of IRS1 protein]
Fructose results in decreased expression of IRS2 mRNA; Fructose results in decreased expression of IRS2 protein NOS3 protein inhibits the reaction [Fructose results in decreased expression of IRS2 protein]; resveratrol inhibits the reaction [Fructose results in decreased expression of IRS2 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 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; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ISM2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ITIH2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of IZUMO1 mRNA
Fructose results in decreased phosphorylation of JAK2 protein Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of JAK2 protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of JAK2 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of KCNG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of KCNG3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of KCNH1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of KCNH1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of KCNH6 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 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] results in decreased expression of KCNMB3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of KCTD8 mRNA
KHK protein promotes the reaction [Fructose results in decreased abundance of Adenosine Triphosphate]; KHK protein promotes the reaction [Fructose results in increased abundance of Reactive Oxygen Species]; KHK protein promotes the reaction [Fructose results in increased secretion of CCL2 protein] Atorvastatin inhibits the reaction [Fructose results in increased expression of KHK protein] Fructose results in increased expression of KHK mRNA; Fructose results in increased expression of KHK protein FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of KHK mRNA]; Fructose results in increased expression of and results in increased activity of KHK protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of KIF19B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of KIF20B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of KIF27 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of KIF4 mRNA
KLK1 protein inhibits the reaction [Fructose results in increased expression of AGTR1B mRNA]; KLK1 protein inhibits the reaction [Fructose results in increased expression of EDN1 mRNA]; KLK1 protein inhibits the reaction [Fructose results in increased expression of EDNRA mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of KLRD1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of KLRG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of KNL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of KRT17 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of KRT17 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] results in increased expression of KRT20 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of KRT5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of KYNU 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
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of LCN2 protein]; [Fructose co-treated with Dietary Fats] results in increased expression of LCN2 protein; [Streptozocin co-treated with Fructose] results in increased expression of LCN2 protein; Atorvastatin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of LCN2 protein]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of LCN2 protein]; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of LCN2 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of LCN2 protein] [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of LCN2 mRNA
Fructose results in increased secretion of LEP protein [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of LEP mRNA Fructose results in increased expression of LEP mRNA; Fructose results in increased expression of LEP protein [Fenofibrate co-treated with Resveratrol] inhibits the reaction [Fructose results in increased expression of LEP mRNA]; [Ozone co-treated with Fructose] results in increased expression of LEP mRNA; [Particulate Matter co-treated with Fructose] results in increased expression of LEP mRNA; [Particulate Matter co-treated with Ozone co-treated with Fructose] results in increased expression of LEP mRNA; Allopurinol inhibits the reaction [Fructose results in increased expression of LEP protein]; Atorvastatin affects the reaction [Fructose results in increased expression of LEP protein]; Fenofibrate inhibits the reaction [Fructose results in increased expression of LEP mRNA]; Quercetin inhibits the reaction [Fructose results in increased expression of LEP protein]; Quercetin inhibits the reaction [Fructose results in increased secretion of LEP protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of LEP mRNA]; Rutin inhibits the reaction [Fructose results in increased expression of LEP protein]
Allopurinol inhibits the reaction [Fructose results in increased expression of and results in increased phosphorylation of LEPR protein]; Fructose results in increased expression of and results in increased phosphorylation of LEPR protein; Quercetin inhibits the reaction [Fructose results in increased expression of and results in increased phosphorylation of LEPR protein]; Rutin inhibits the reaction [Fructose results in increased expression of and results in increased phosphorylation of LEPR protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of LGALS3BP mRNA
Allopurinol inhibits the reaction [Fructose results in decreased expression of LGALS9 mRNA]; Allopurinol inhibits the reaction [Fructose results in decreased expression of LGALS9 protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of LGALS9 mRNA]; Quercetin inhibits the reaction [Fructose results in decreased expression of LGALS9 protein]; Rutin inhibits the reaction [Fructose results in decreased expression of LGALS9 mRNA]; Rutin inhibits the reaction [Fructose results in decreased expression of LGALS9 protein] Fructose results in decreased expression of LGALS9 mRNA; Fructose results in decreased expression of LGALS9 protein
[Streptozocin co-treated with Fructose] results in decreased expression of LHB protein; Acetates inhibits the reaction [[Streptozocin co-treated with Fructose] results in decreased expression of LHB 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
Fructose results in decreased expression of LIPE mRNA; Fructose results in decreased expression of LIPE protein bisphenol A promotes the reaction [Fructose results in decreased expression of LIPE mRNA]; bisphenol A promotes the reaction [Fructose results in decreased expression of LIPE protein]; Fructose promotes the reaction [bisphenol A results in decreased expression of LIPE mRNA]; Fructose promotes the reaction [bisphenol A results in decreased expression of LIPE 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 LLCFC1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased 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 Herbicides] results in decreased expression of LMOD3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of LPL 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] results in increased expression of LRRC26 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of LRRC3B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of LRRN2 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 Glyphosate] results in increased expression of LST1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MALL 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; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MAOB mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased lipidation of MAP1LC3B protein]; [Dietary Fats co-treated with Fructose] results in increased lipidation of MAP1LC3B protein
Fructose results in increased phosphorylation of MAPK1 protein Fructose results in decreased phosphorylation of MAPK1 protein Curcumin inhibits the reaction [Fructose results in increased phosphorylation of MAPK1 protein]; Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of MAPK1 protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of MAPK1 protein]
Fructose results in increased phosphorylation of MAPK3 protein Fructose results in decreased phosphorylation of MAPK3 protein Curcumin inhibits the reaction [Fructose results in increased phosphorylation of MAPK3 protein]; Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of MAPK3 protein]; Rutin inhibits the reaction [Fructose results in decreased phosphorylation of MAPK3 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MCUB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MEIG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MEIOB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MESP2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MFAP4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MFAP5 mRNA
[Fructose co-treated with Palmitic Acid] results in decreased expression of MFN2 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of MFN2 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MFSD2A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MIAT mRNA
[Fructose co-treated with Streptozocin] results in increased expression of MIR33A mRNA; Ghrelin inhibits the reaction [[Fructose co-treated with Streptozocin] results in increased expression of MIR33A mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MIR99A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MKI67 mRNA
Atorvastatin inhibits the reaction [Fructose affects the localization of and results in increased activity of MLXIPL protein]; Atorvastatin inhibits the reaction [Fructose results in increased expression of MLXIPL protein]; Fructose affects the localization of and results in increased activity of MLXIPL protein; N-(2-(4-bromocinnamylamino)ethyl)-5-isoquinolinesulfonamide inhibits the reaction [Atorvastatin inhibits the reaction [Fructose results in increased activity of MLXIPL protein]] Fructose results in decreased expression of MLXIPL mRNA Fructose results in increased expression of MLXIPL mRNA alternative form FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of MLXIPL mRNA alternative form]; MLXIPL gene mutant form inhibits the reaction [Fructose results in increased expression of FGF21 mRNA]; MLXIPL gene mutant form inhibits the reaction [Fructose results in increased secretion of FGF21 protein] Fructose results in increased expression of MLXIPL mRNA; Fructose results in increased expression of MLXIPL protein
[Fenofibrate co-treated with resveratrol] inhibits the reaction [Fructose results in decreased expression of MLYCD mRNA]; Fenofibrate inhibits the reaction [Fructose results in decreased expression of MLYCD mRNA]; resveratrol inhibits the reaction [Fructose results in decreased expression of MLYCD mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MMP12 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MMP19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MMP25 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MMP7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MOGAT2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MPV17L mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MRAP mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of MRO mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MRO mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of MS4A1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MS4A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MS4A6C mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MSH4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MSR1 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
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of and results in increased phosphorylation of MTOR protein]; [Dietary Fats co-treated with Fructose] results in increased expression of and results in increased phosphorylation of MTOR protein
[Fructose co-treated with Copper deficiency] results in decreased expression of MTTP mRNA FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of MTTP mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MUC16 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of MUC19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of MX1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MYH1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of MYH15 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MYO5A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of MYOM3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of NALCN 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NCAPG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NCF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of NCF4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NCR1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of NEK2 mRNA
Fructose results in increased expression of NFATC4 protein tributylhexadecylphosphonium bromide inhibits the reaction [Fructose results in increased expression of NFATC4 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NFE2 mRNA
Fructose results in increased expression of NFE2L2 protein [Fructose co-treated with Palmitic Acid] results in decreased expression of NFE2L2 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of NFE2L2 protein] [Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of NFE2L2 protein]; [Fructose co-treated with Dietary Fats] results in increased expression of NFE2L2 protein; Atorvastatin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of NFE2L2 protein]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of NFE2L2 protein] Fructose promotes the reaction [PPARD gene mutant form results in increased phosphorylation of NFE2L2 protein]; Plant Preparations inhibits the reaction [Fructose results in increased expression of NFE2L2 protein]
Fructose results in increased degradation of NFKBIA protein Fructose results in decreased expression of NFKBIA protein Fructose results in increased phosphorylation of NFKBIA protein Allopurinol inhibits the reaction [Fructose results in increased phosphorylation of NFKBIA protein]; bisphenol A promotes the reaction [Fructose results in decreased expression of NFKBIA protein]; Curcumin inhibits the reaction [Fructose results in increased degradation of NFKBIA protein]; Fructose promotes the reaction [bisphenol A results in decreased expression of NFKBIA protein]; Quercetin inhibits the reaction [Fructose results in increased phosphorylation of NFKBIA protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NFKBID mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NKG7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of NKPD1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NLRC5 mRNA
Fructose results in increased expression of NLRP3 protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of NLRP3 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of NLRP3 protein; Allopurinol inhibits the reaction [Fructose results in increased expression of NLRP3 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of NLRP3 protein]; Rutin inhibits the reaction [Fructose 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 Herbicides] results in decreased expression of NOG mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of NOS2 protein; [Fructose results in increased expression of NOS2 protein] which results in increased chemical synthesis of Nitric Oxide; bisphenol A diglycidyl ether inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of NOS2 protein]]; caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of NOS2 protein]; iodopravadoline inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of NOS2 protein]]; Pioglitazone inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of NOS2 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of NOS2 mRNA]; Resveratrol inhibits the reaction [Fructose results in increased expression of NOS2 protein] Fructose results in increased expression of INOS mRNA; Fructose results in increased expression of INOS protein; Fructose results in increased expression of NOS2 mRNA; Fructose results in increased expression of NOS2 protein
[bisphenol A co-treated with Fructose] results in increased expression of NOS3 mRNA; [Dietary Fats co-treated with Fructose] results in decreased expression of NOS3 protein; [Resveratrol co-treated with Fructose] results in increased expression of NOS3 mRNA; bisphenol A diglycidyl ether inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of NOS3 protein]]; caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of NOS3 protein]; Fish Oils inhibits the reaction [Fructose results in decreased expression of NOS3 mRNA]; Fish Oils inhibits the reaction [Fructose results in decreased expression of NOS3 protein]; iodopravadoline inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of NOS3 protein]]; Metformin inhibits the reaction [Fructose results in decreased phosphorylation of NOS3 protein]; NOS3 protein inhibits the reaction [Fructose results in decreased expression of IRS1 protein]; NOS3 protein inhibits the reaction [Fructose results in decreased expression of IRS2 protein]; NOS3 protein inhibits the reaction [Fructose results in decreased phosphorylation of AKT1 protein]; Pioglitazone inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of NOS3 protein]; Resveratrol inhibits the reaction [Fructose results in decreased expression of NOS3 mRNA]; Resveratrol inhibits the reaction [Fructose results in decreased expression of NOS3 protein]; Resveratrol inhibits the reaction [Fructose results in decreased phosphorylation of NOS3 protein] Fructose results in decreased expression of NOS3 mRNA; Fructose results in decreased expression of NOS3 protein Fructose results in decreased activity of NOS3 protein
[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of NPPB protein; Chlorogenic Acid inhibits the reaction [[Streptozocin co-treated with Dietary Fats co-treated with Fructose] results in increased expression of NPPB protein]
Fructose results in decreased expression of NPY mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of NPY mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of NPY6R mRNA
NR0B2 protein inhibits the reaction [AHR protein results in increased susceptibility to [Dietary Fats co-treated with Fructose]]; NR0B2 protein results in decreased susceptibility to [Dietary Fats co-treated with Fructose]
[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 Herbicides] results in decreased expression of NRON 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] results in decreased expression of NT5DC2 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] results in decreased expression of NTM mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of NUDT8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of NUF2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of NXNL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of NXPE3 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of OAS1G mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of OAS2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of OASL1 mRNA
Fructose inhibits the reaction [Cyclic AMP results in increased activity of OAT protein]; Fructose inhibits the reaction [Cyclic AMP results in increased expression of OAT mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of OBSCN mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of OBSCN mRNA
[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of OGA protein; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of OGA protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of OGA protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of OLFML1 mRNA
[Fructose co-treated with Palmitic Acid] results in decreased expression of OPA1 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of OPA1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of IFIT3B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of OTOP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of OVOL3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of P2RX2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of P2RY10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PABPC1L mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PAPPA2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PARP14 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PAX5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of PAX6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PBK mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PBX4 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
rosiglitazone inhibits the reaction [Fructose results in increased expression of PCK1 mRNA]; rosiglitazone inhibits the reaction [Fructose results in increased expression of PCK1 protein] Fructose results in increased expression of PCK1 mRNA; Fructose results in increased expression of PCK1 protein Fructose results in increased activity of PCK1 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 lard co-treated with Cholesterol co-treated with Glucose co-treated with Sucrose co-treated with Fructose] results in decreased expression of PCNA protein; [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 PCNA protein; [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 Herbicides] results in increased expression of PCSK9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PDE11A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PDK4 mRNA
Quercetin inhibits the reaction [Fructose results in increased expression of PDX1 protein] Fructose results in increased expression of PDX1 mRNA; Fructose results in increased expression of PDX1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PEG10 mRNA
[Dietary Fats co-treated with Fructose] results in increased expression of PEMT mRNA; PEMT protein promotes the reaction [AHR protein results in increased susceptibility to [Dietary Fats co-treated with Fructose]]
[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] results in decreased 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of PHF11 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PHF19 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 PHGDH mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PI16 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PIANP 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 PILRB2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PIMREG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PJVK mRNA
Fructose results in increased expression of PKLR mRNA Atorvastatin inhibits the reaction [Fructose results in increased expression of PKLR mRNA]; GCG protein affects the reaction [Fructose affects the degradation of PKLR mRNA] Fructose affects the expression of PKLR mRNA FGF21 gene mutant form inhibits the reaction [Fructose results in increased expression of PKLR mRNA]; lactisole inhibits the reaction [Fructose results in increased expression of PKLR mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PLA2G12B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PLG mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PLIN1 mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of PLIN2 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of PLIN2 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 PLXDC1 mRNA
Fructose results in increased expression of PNPLA2 protein bisphenol A promotes the reaction [Fructose results in decreased expression of PNPLA2 mRNA]; Fructose promotes the reaction [bisphenol A results in decreased expression of PNPLA2 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of POPDC3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of POU4F1 mRNA
Fructose results in increased expression of PPARA protein fructose decreases expression of ppara mRNA in hepatocytes [Plant Preparations co-treated with Fructose] results in increased expression of PPARA protein Fructose results in decreased expression of PPARA protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of PPARA protein]; [Fructose co-treated with Dietary Fats] results in decreased expression of PPARA protein; Allopurinol inhibits the reaction [Fructose results in decreased expression of PPARA protein]; Atorvastatin inhibits the reaction [Fructose results in increased expression of PPARA protein]; Fenofibrate inhibits the reaction [Fructose results in decreased expression of and results in decreased activity of PPARA protein]; Fructose results in decreased expression of and results in decreased activity of PPARA protein; Quercetin inhibits the reaction [Fructose results in decreased expression of PPARA protein]; Rutin inhibits the reaction [Fructose results in decreased expression of PPARA protein]
[PPARD mRNA results in decreased susceptibility to Fructose] which results in decreased expression of VLDLR mRNA; Fructose inhibits the reaction [PPARD mRNA results in decreased expression of VLDLR mRNA]; Fructose promotes the reaction [PPARD gene mutant form results in increased expression of VLDLR mRNA]; Fructose promotes the reaction [PPARD gene mutant form results in increased expression of VLDLR protein]; Fructose promotes the reaction [PPARD gene mutant form results in increased phosphorylation of NFE2L2 protein]
Fructose results in increased expression of PPARG mRNA [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of PPARG mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of PPARG protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of PPARG mRNA Fructose results in decreased activity of PPARG protein [Dietary Fats co-treated with Fructose] results in decreased expression of PPARG protein; Carnitine inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of PPARG protein]; Fatty Acids, Omega-3 inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of PPARG protein]; geraniol inhibits the reaction [Fructose results in decreased activity of PPARG protein]; Metformin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of PPARG protein]; Pioglitazone inhibits the reaction [Fructose results in decreased activity of PPARG protein]; Rosiglitazone promotes the reaction [Fructose results in increased expression of PPARG mRNA]
Fructose results in decreased expression of PPARGC1A mRNA [Fructose co-treated with Palmitic Acid] results in decreased expression of PPARGC1A protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of PPARGC1A protein] Fructose results in increased expression of PPARGC1A mRNA; Fructose results in increased expression of PPARGC1A protein [Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of PPARGC1A protein]; [Fructose co-treated with Dietary Fats] results in decreased expression of PPARGC1A protein; [Ozone co-treated with Fructose] results in decreased expression of PPARGC1A mRNA; [Particulate Matter co-treated with Fructose] results in decreased expression of PPARGC1A mRNA; [Particulate Matter co-treated with Ozone co-treated with Fructose] results in decreased expression of PPARGC1A mRNA; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of PPARGC1A protein]; Rosiglitazone inhibits the reaction [Fructose results in increased expression of PPARGC1A protein]
[Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of and results in increased phosphorylation of PRKCA protein]; [Fructose co-treated with Dietary Fats] results in increased expression of and results in increased phosphorylation of PRKCA protein
[Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of PRKCZ protein]; [Fructose co-treated with Dietary Fats] results in decreased expression of PRKCZ protein; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of PRKCZ protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of PRLR 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] results in decreased expression of PROK1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PRR11 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PRR32 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PRRG4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of PRRT3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PRSS30 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of PRTN3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of PSD2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PSMB10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PSMB8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of PSORS1C2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PTAFR mRNA
Fructose results in increased expression of PTGS2 mRNA; Fructose results in increased expression of PTGS2 protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of PTGS2 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of PTGS2 protein; Curcumin inhibits the reaction [Fructose results in increased expression of PTGS2 protein]; Kangen-karyu inhibits the reaction [Fructose results in increased expression of PTGS2 protein]; tributylhexadecylphosphonium bromide inhibits the reaction [Fructose results in increased expression of PTGS2 protein]
PTMA protein inhibits the reaction [Fructose results in increased expression of IL1B protein]; PTMA protein inhibits the reaction [Fructose results in increased expression of IL6 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of PTPN7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of PTPRH mRNA
Allopurinol inhibits the reaction [Fructose results in increased expression of PYCARD protein]; Quercetin inhibits the reaction [Fructose results in increased expression of PYCARD protein]; Rutin inhibits the reaction [Fructose 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 Herbicides] results in increased expression of RAB42 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of RAD51B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of RANBP17 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of RARRES2 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] results in increased 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
Fructose affects the localization of RELA protein Fructose results in increased expression of RELA protein Fructose results in increased phosphorylation of RELA protein Fructose results in decreased activity of RELA protein [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of RELA protein]; [Dietary Fats co-treated with Fructose] results in increased expression of RELA protein; Allopurinol inhibits the reaction [Fructose results in increased phosphorylation of RELA protein]; Betaine inhibits the reaction [Fructose results in decreased activity of RELA protein]; bisphenol A promotes the reaction [Fructose results in increased expression of RELA protein]; Fructose promotes the reaction [bisphenol A results in increased expression of RELA protein]; Fructose results in increased expression of and results in increased phosphorylation of RELA protein; galangin inhibits the reaction [Fructose affects the localization of RELA protein]; Genistein inhibits the reaction [Fructose affects the localization of RELA protein]; Metformin inhibits the reaction [Fructose results in increased phosphorylation of RELA protein]; Quercetin inhibits the reaction [Fructose results in increased phosphorylation of RELA protein]; Resveratrol inhibits the reaction [Fructose results in increased phosphorylation of RELA protein]
Fructose results in decreased expression of RETN mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of RETN mRNA Metformin inhibits the reaction [Fructose results in increased expression of RETN protein]; resveratrol inhibits the reaction [Fructose results in increased expression of RETN protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of RHD mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of RHOX6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of RIBC2 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] results in decreased expression of RNF180 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of RNF24 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] results in increased expression of RTN4RL2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of RTP4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of RUBCNL mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of RUNX3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of S100A14 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of S100A14 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of S100B mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SAA4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SAMD15 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of SASH3 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 Glyphosate] results in decreased expression of SCAMP4 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
Fructose results in increased expression of SCD mRNA; Fructose results in increased expression of SCD1 mRNA [Fructose co-treated with Copper deficiency] results in decreased expression of SCD1 mRNA; Atorvastatin inhibits the reaction [Fructose results in increased expression of SCD1 mRNA]; gadolinium chloride promotes the reaction [[Fructose co-treated with Copper deficiency] results in decreased expression of SCD1 mRNA]; Tea inhibits the reaction [Fructose results in increased expression of SCD1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SCN4A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SEC14L3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SEC14L4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of SERPINC1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SERPINC1 mRNA
Fructose results in increased secretion of SERPINE1 protein Fructose results in increased expression of SERPINE1 mRNA; Fructose results in increased expression of SERPINE1 protein Atorvastatin inhibits the reaction [Fructose results in increased expression of SERPINE1 mRNA]; Metformin inhibits the reaction [Fructose results in increased expression of SERPINE1 protein]; Progesterone inhibits the reaction [Fructose results in increased expression of SERPINE1 mRNA]; Progesterone inhibits the reaction [Fructose results in increased expression of SERPINE1 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of SERPINE1 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SERPINF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SFRP2 mRNA
Cerulenin inhibits the reaction [Fructose results in decreased expression of SHBG protein]; Fructose affects the reaction [NR2F1 protein binds to SHBG promoter]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of SHC3 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SHC3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SHCBP1L mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SHISAL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SIGLEC1 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
SIRT1 protein affects the reaction [Fructose results in increased expression of MYH6 mRNA] [Fructose co-treated with Palmitic Acid] results in decreased expression of SIRT1 protein; Fenofibrate inhibits the reaction [[Fructose co-treated with Palmitic Acid] results in decreased expression of SIRT1 protein] Fructose results in decreased expression of SIRT1 mRNA; Fructose results in decreased expression of SIRT1 protein [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased abundance of Cholesterol]; [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased abundance of Glucose]; [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]; [6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide results in decreased activity of SIRT1 protein] which results in decreased susceptibility to Fructose; [dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of SIRT1 protein]; [Dietary Fats co-treated with Fructose] results in decreased expression of SIRT1 protein; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased abundance of Cholesterol]; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased abundance of Glucose]; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of ACACA mRNA]; [Niacinamide results in decreased activity of SIRT1 protein] inhibits the reaction [Fructose results in increased expression of HMGCR mRNA]; [Niacinamide results in decreased activity of SIRT1 protein] which results in decreased susceptibility to Fructose; Fructose results in increased expression of and results in increased activity of SIRT1 protein; Metformin inhibits the reaction [Fructose results in decreased expression of SIRT1 protein]; Resveratrol inhibits the reaction [Fructose results in decreased expression of SIRT1 mRNA]; Resveratrol inhibits the reaction [Fructose results in decreased expression of SIRT1 protein] Fructose results in increased expression of SIRT1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SIT1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLAMF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of SLAMF8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC16A14 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC17A2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of SLC17A8 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC17A8 mRNA
Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A1 mRNA]; Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A1 protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A1 mRNA]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A1 protein]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A1 mRNA]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A1 protein] Fructose results in decreased expression of SLC22A1 mRNA; Fructose results in decreased expression of SLC22A1 protein
Allopurinol inhibits the reaction [Fructose results in increased expression of SLC22A12 mRNA]; Allopurinol inhibits the reaction [Fructose results in increased expression of SLC22A12 protein]; Quercetin inhibits the reaction [Fructose results in increased expression of SLC22A12 mRNA]; Quercetin inhibits the reaction [Fructose results in increased expression of SLC22A12 protein]; Rutin inhibits the reaction [Fructose results in increased expression of SLC22A12 mRNA]; Rutin inhibits the reaction [Fructose results in increased expression of SLC22A12 protein] Fructose results in increased expression of SLC22A12 mRNA; Fructose results in increased expression of SLC22A12 protein
Fructose results in decreased expression of SLC22A2 mRNA; Fructose results in decreased expression of SLC22A2 protein Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A2 mRNA]; Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A2 protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A2 mRNA]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A2 protein]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A2 mRNA]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A2 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 SLC22A3 mRNA
Fructose results in decreased expression of SLC22A5 protein Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A5 protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A5 protein]
Fructose results in decreased expression of SLC22A6 mRNA; Fructose results in decreased expression of SLC22A6 protein Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A6 mRNA]; Allopurinol inhibits the reaction [Fructose results in decreased expression of SLC22A6 protein]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A6 mRNA]; Quercetin inhibits the reaction [Fructose results in decreased expression of SLC22A6 protein]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A6 mRNA]; Rutin inhibits the reaction [Fructose results in decreased expression of SLC22A6 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC22A7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC22A19 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 SLC26A3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC26A6 mRNA
Fructose inhibits the reaction [SLC2A2 protein results in increased transport of Deoxyglucose]; Glucose inhibits the reaction [SLC2A2 protein results in increased transport of Fructose]; Maltose inhibits the reaction [SLC2A2 protein results in increased transport of Fructose] Fructose results in increased expression of SLC2A2 mRNA Dactinomycin inhibits the reaction [Fructose results in increased expression of SLC2A2 mRNA] Fructose results in increased expression of and affects the localization of SLC2A2 protein
Fructose results in decreased expression of SLC2A4 mRNA [Dietary Fats co-treated with Fructose] results in decreased expression of SLC2A4 protein; Carnitine inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of SLC2A4 protein]; Fatty Acids, Omega-3 inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of SLC2A4 protein]; Metformin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of SLC2A4 protein] Fructose results in increased expression of SLC2A4 mRNA
[Fructose results in increased abundance of Cyclic AMP] which results in increased stability of SLC2A5 mRNA; Colforsin promotes the reaction [Fructose results in increased expression of SLC2A5 mRNA]; Fructose promotes the reaction [PAIP2 protein binds to SLC2A5 3' UTR] Fructose results in increased activity of SLC2A5 protein SLC2A5 protein results in increased transport of Fructose Fructose results in increased expression of SLC2A5 mRNA; Fructose results in increased expression of SLC2A5 protein SLC2A5 protein results in increased uptake of Fructose Fructose affects the expression of SLC2A5 mRNA Fructose analog results in increased expression of SLC2A5 mRNA; Fructose results in increased expression of SLC2A5 mRNA; Fructose results in increased expression of SLC2A5 protein 1-((1-O-octadecyl-2-O-methylglycero)phospho)-3-deoxy-myo-inositol inhibits the reaction [Fructose results in increased expression of and results in increased activity of SLC2A5 protein]; 2-(4-morpholinyl)-8-phenyl-4H-1-benzopyran-4-one inhibits the reaction [Fructose results in increased expression of and results in increased activity of SLC2A5 protein]; [[Colforsin results in increased abundance of Cyclic AMP] which results in increased expression of SLC2A5 protein] which results in increased uptake of Fructose; [Triiodothyronine co-treated with Fructose] results in increased expression of SLC2A5 mRNA; Cycloheximide inhibits the reaction [Fructose promotes the reaction [SLC2A5 protein results in increased uptake of Fructose]]; Dactinomycin inhibits the reaction [Fructose promotes the reaction [SLC2A5 protein results in increased uptake of Fructose]]; Dactinomycin inhibits the reaction [Fructose results in increased expression of SLC2A5 mRNA]; Dexamethasone promotes the reaction [Fructose results in increased activity of SLC2A5 protein]; Dexamethasone promotes the reaction [Fructose results in increased expression of SLC2A5 mRNA]; Fructose analog results in increased activity of [SLC2A5 protein results in increased uptake of Fructose]; Fructose promotes the reaction [SLC2A5 protein results in increased transport of Fructose]; Fructose promotes the reaction [SLC2A5 protein results in increased uptake of Fructose]; Fructose results in increased expression of and results in increased activity of SLC2A5 protein; Mifepristone inhibits the reaction [Dexamethasone promotes the reaction [Fructose results in increased activity of SLC2A5 protein]]; Mifepristone inhibits the reaction [Dexamethasone promotes the reaction [Fructose results in increased expression of SLC2A5 mRNA]]; Vanadates inhibits the reaction [Fructose results in increased activity of SLC2A5 protein]; Vanadates inhibits the reaction [Fructose results in increased expression of SLC2A5 mRNA]; wortmannin inhibits the reaction [Fructose results in increased expression of and results in increased activity of SLC2A5 protein] lactisole inhibits the reaction [Fructose results in increased expression of SLC2A5 mRNA]
SLC2A9 protein results in increased transport of Fructose Allopurinol inhibits the reaction [Fructose results in increased expression of SLC2A9 mRNA SNP]; Allopurinol inhibits the reaction [Fructose results in increased expression of SLC2A9 protein SNP]; Quercetin inhibits the reaction [Fructose results in increased expression of SLC2A9 mRNA SNP]; Quercetin inhibits the reaction [Fructose results in increased expression of SLC2A9 protein SNP]; Rutin inhibits the reaction [Fructose results in increased expression of SLC2A9 mRNA SNP]; Rutin inhibits the reaction [Fructose results in increased expression of SLC2A9 protein SNP] Fructose results in increased expression of SLC2A9 mRNA SNP; Fructose results in increased expression of SLC2A9 protein SNP Fructose promotes the reaction [SLC2A9 protein alternative form results in increased transport of Uric Acid]
Fructose results in decreased expression of SLC34A2 mRNA tungstate promotes the reaction [Fructose results in decreased expression of SLC34A2 mRNA]; Vanadates promotes the reaction [Fructose results in decreased expression of SLC34A2 mRNA] Fructose affects the expression of SLC34A2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of SLC38A11 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC38A4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC47A2 mRNA
lactisole inhibits the reaction [Fructose results in increased expression of SLC5A1 mRNA] Fructose results in increased expression of SLC5A1 mRNA; Fructose results in increased expression of SLC5A1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC5A10 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLC5A4A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC5A7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC6A7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SLC7A10 mRNA
[Fructose co-treated with Dietary Fats] results in decreased expression of SLC8A1 mRNA; troxerutin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in decreased expression of SLC8A1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of SLFN9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLFNL1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SLITRK6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SNAI3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of SNORD49A mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SOCS2 mRNA
Fructose results in increased expression of SOCS3 mRNA; Fructose results in increased expression of SOCS3 protein [Fenofibrate co-treated with resveratrol] inhibits the reaction [Fructose results in increased expression of SOCS3 mRNA]; Fenofibrate inhibits the reaction [Fructose results in increased expression of SOCS3 mRNA]; Quercetin inhibits the reaction [Fructose results in increased expression of SOCS3 protein]; resveratrol inhibits the reaction [Fructose results in increased expression of SOCS3 mRNA]; Rutin inhibits the reaction [Fructose results in increased expression of SOCS3 protein]
Fructose binds to SOD1 protein mutant form [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in decreased expression of SOD1 protein Fructose results in decreased expression of SOD1 mRNA; Fructose results in decreased expression of SOD1 protein [Fructose co-treated with Copper deficiency] results in decreased expression of SOD1 protein Fructose results in decreased activity of SOD1 protein Fructose results in increased activity of SOD1 protein Fructose promotes the reaction [SOD1 protein mutant form results in increased chemical synthesis of Hydrogen Peroxide]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of SORCS1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SORCS1 mRNA
[Fructose results in increased glycation of SORD protein] which results in decreased activity of SORD protein [SORD protein results in increased metabolism of Sorbitol] which results in increased abundance of Fructose
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of SOX2OT mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SOX9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of SP7 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of SPACA9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of SPATA20 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SPATA20 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SPIB mRNA
[Streptozocin co-treated with Fructose] results in decreased expression of NPHS1 mRNA; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in decreased expression of NPHS1 mRNA]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in decreased expression of NPHS1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of SPMIP7 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] results in increased 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of SPTLC3 mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of SQSTM1 protein]; [Dietary Fats co-treated with Fructose] results in increased expression of SQSTM1 protein
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of SREBF1 protein; Phenylbutyrates inhibits the reaction [Fructose affects the localization of SREBF1 protein alternative form]; Phenylbutyrates inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]; SCD1 affects the reaction [Fructose results in increased expression of SREBF1 protein]; SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]; SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of SREBF1 protein]; Triolein inhibits the reaction [SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]]; Triolein inhibits the reaction [SCD1 gene mutant form inhibits the reaction [Fructose results in increased expression of SREBF1 protein]] Fructose results in increased expression of SREBF1 mRNA; Fructose results in increased expression of SREBF1 protein [Atorvastatin co-treated with dapagliflozin] inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of SREBF1 protein]; [Fenofibrate co-treated with Resveratrol] inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]; [Fructose co-treated with bisphenol A] results in increased expression of SREBF1 protein; [Fructose co-treated with Copper deficiency] results in increased expression of SREBF1 protein; [Fructose co-treated with Dietary Fats] results in increased expression of SREBF1 protein; Atorvastatin inhibits the reaction [Fructose results in increased activity of SREBF1 protein]; bisphenol A promotes the reaction [Fructose results in increased expression of SREBF1 mRNA]; dapagliflozin inhibits the reaction [[Fructose co-treated with Dietary Fats] results in increased expression of SREBF1 protein]; Fructose promotes the reaction [bisphenol A results in increased expression of SREBF1 mRNA]; Fructose promotes the reaction [RBMX protein binds to SREBF1 promoter]; Fructose results in increased expression of and results in increased activity of SREBF1 protein; gadolinium chloride inhibits the reaction [[Fructose co-treated with Copper deficiency] results in increased expression of SREBF1 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]; Rosiglitazone inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA]; Tea inhibits the reaction [Fructose results in increased expression of SREBF1 mRNA] SREBF1 promoter SNP affects the susceptibility to Fructose
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of STAC2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of STAT1 mRNA
Fructose results in increased phosphorylation of STAT3 protein Fructose results in decreased phosphorylation of STAT3 protein Quercetin inhibits the reaction [Fructose results in decreased phosphorylation of STAT3 protein]; Quercetin inhibits the reaction [Fructose results in increased phosphorylation of STAT3 protein]; Rutin inhibits the reaction [Fructose results in increased phosphorylation of STAT3 protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of STMND1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of STRA6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of STUM 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 STX19 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of SULT4A1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of SYNDIG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of TAP1 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 Glyphosate] results in increased expression of TBX4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of TC2N 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of TESPA1 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 ARHGAP33OS mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ARHGAP33OS mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of TEX51 mRNA
Fructose results in decreased expression of TGFB1 mRNA [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TGFB1 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of TGFB1 protein; [FGF21 gene mutant form results in increased susceptibility to Fructose] which results in increased expression of TGFB1 mRNA Fructose results in increased expression of TGFB1 mRNA; Fructose results in increased expression of TGFB1 protein [Fenofibrate co-treated with Resveratrol] inhibits the reaction [Fructose results in increased expression of TGFB1 mRNA]; [Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TGFB1 protein; betanin inhibits the reaction [Fructose results in increased expression of TGFB1 protein]; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TGFB1 protein]; dapagliflozin promotes the reaction [Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TGFB1 protein]]; Fenofibrate inhibits the reaction [Fructose results in increased expression of TGFB1 mRNA]; galangin inhibits the reaction [Fructose results in increased expression of TGFB1 protein]; Genistein inhibits the reaction [Fructose results in increased expression of TGFB1 protein]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TGFB1 protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of TGFB1 mRNA]
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TGFBR2 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TGFBR2 protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of TGFBR2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of TGM4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of TGM5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of THEMIS mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of THEMIS2 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 ART2B mRNA
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TIMP1 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of TIMP1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TIMP1 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 TLCD2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TLR2 mRNA
[gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of TLR4 mRNA; bisphenol A promotes the reaction [Fructose results in increased expression of TLR4 protein]; Fructose promotes the reaction [bisphenol A results in increased expression of TLR4 protein] [Fructose co-treated with Ethanol] results in increased expression of TLR4 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TLR8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of TLR9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TMEM145 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; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TMEM52 mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]; [Dietary Fats co-treated with Fructose] results in increased expression of TNF protein; [Fenofibrate co-treated with Resveratrol] inhibits the reaction [Fructose results in increased expression of and results in increased secretion of TNF protein]; [gadolinium chloride co-treated with Fructose co-treated with Copper deficiency] results in decreased expression of TNF mRNA; [Particulate Matter co-treated with Ozone] promotes the reaction [Fructose results in increased expression of TNF mRNA]; [Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TNF protein; [Streptozocin co-treated with Fructose] results in increased expression of TNF protein; Acetates inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of TNF protein]; Allopurinol inhibits the reaction [Fructose results in increased expression of TNF protein]; bisphenol A diglycidyl ether inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]]; bisphenol A promotes the reaction [Fructose results in increased expression of TNF protein]; caffeic acid phenethyl ester inhibits the reaction [Fructose results in increased expression of TNF protein]; caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]; Curcumin inhibits the reaction [Fructose results in increased expression of TNF protein]; dapagliflozin inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TNF protein]; dapagliflozin promotes the reaction [Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TNF protein]]; Fenofibrate inhibits the reaction [Fructose results in increased expression of and results in increased secretion of TNF protein]; Fructose inhibits the reaction [lipopolysaccharide, E coli O55-B5 results in increased expression of TNF protein]; Fructose promotes the reaction [bisphenol A results in increased expression of TNF protein]; Fructose results in increased expression of and results in increased secretion of TNF protein; galangin inhibits the reaction [Fructose results in increased expression of TNF mRNA]; galangin inhibits the reaction [Fructose results in increased expression of TNF protein]; Genistein inhibits the reaction [Fructose results in increased expression of TNF protein]; geraniol inhibits the reaction [Fructose results in increased secretion of TNF protein]; iodopravadoline inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of and results in increased secretion of TNF protein]; Metformin inhibits the reaction [Fructose results in increased expression of TNF protein]; Ozone promotes the reaction [Fructose results in increased expression of TNF mRNA]; Particulate Matter promotes the reaction [Fructose results in increased expression of TNF mRNA]; Pioglitazone inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of TNF protein]; Pioglitazone inhibits the reaction [Fructose results in increased secretion of TNF protein]; Quercetin inhibits the reaction [Fructose results in increased expression of TNF protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of and results in increased secretion of TNF protein]; Resveratrol inhibits the reaction [Fructose results in increased expression of TNF protein]; Rutin inhibits the reaction [Fructose results in increased expression of TNF protein]; TNF protein affects the reaction [Fructose results in increased expression of ADIPOQ protein]; tributylhexadecylphosphonium bromide inhibits the reaction [Fructose results in increased expression of TNF protein] [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TNF protein; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of TNF protein; Fructose promotes the reaction [Ethanol results in increased expression of TNF mRNA] Fructose results in increased expression of TNF mRNA; Fructose 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 Herbicides] results in increased expression of TNFAIP8L3 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TNFRSF9 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 TNFSF14 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TNFSF8 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of TOMM20L mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of TOP2A mRNA
[Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Ethanol] results in increased expression of TRP53 mRNA; [Dietary Fats co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose] results in increased expression of TRP53 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of TRP63 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 TRP73 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TPH2 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
Fructose inhibits the reaction [Ethanol results in increased expression of TRAF6 protein]; Fructose promotes the reaction [Ethanol results in increased expression of TRAF6 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of TRBC1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of TRBV17 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TRCG1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TREM2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of TRIM66 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TRIM69 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of TRPM2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of TSBP1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of TSHB mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TSHR 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 Herbicides] results in decreased expression of TTC6 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of TTK mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of TVP23A mRNA
Fructose results in increased expression of TXNIP protein Allopurinol inhibits the reaction [Fructose results in increased expression of TXNIP protein]; Quercetin inhibits the reaction [Fructose results in increased expression of TXNIP protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of UBD mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of UBE2C mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of UBE2L6 mRNA
Fructose promotes the reaction [[Ozone co-treated with Particulate Matter] results in decreased expression of UCP1 mRNA]; Fructose promotes the reaction [Ozone results in decreased expression of UCP1 mRNA]; Fructose promotes the reaction [Particulate Matter results in decreased expression of UCP1 mRNA] Fructose results in decreased expression of UCP1 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] 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 Herbicides] results in decreased expression of UGT1A10 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of UGT1A10 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] 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] results in increased expression of UGT1A8 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of UGT1A9 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of UHRF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of UNC13C mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in increased expression of UNC79 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of UNC80 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
Fructose results in increased expression of VCAM1 mRNA [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of VCAM1 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of VCAM1 mRNA [Dietary Fats co-treated with Fructose] results in increased expression of VCAM1 protein; bisphenol A diglycidyl ether inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of VCAM1 protein]]; caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of VCAM1 protein]; iodopravadoline inhibits the reaction [caryophyllene inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of VCAM1 protein]]; Pioglitazone inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of VCAM1 protein]
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in increased expression of VIM protein]; [Dietary Fats co-treated with Fructose] results in increased expression of VIM protein
[PPARD mRNA results in decreased susceptibility to Fructose] which results in decreased expression of VLDLR mRNA; Fructose inhibits the reaction [PPARD mRNA results in decreased expression of VLDLR mRNA]; Fructose promotes the reaction [PPARD gene mutant form results in increased expression of VLDLR mRNA]; Fructose promotes the reaction [PPARD gene mutant form results in increased expression of VLDLR protein]
[Streptozocin co-treated with Fructose] results in increased expression of VNN1 mRNA; dapagliflozin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of VNN1 mRNA]; Metformin inhibits the reaction [[Streptozocin co-treated with Fructose] results in increased expression of VNN1 mRNA]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of VPREB3 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] results in decreased expression of WDR17 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of WFIKKN2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of WNK2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of WNT7A mRNA
[dapagliflozin co-treated with Atorvastatin] inhibits the reaction [[Dietary Fats co-treated with Fructose] results in decreased expression of WT1 protein]; [Dietary Fats co-treated with Fructose] results in decreased expression of WT1 protein
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of XAF1 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of XCR1 mRNA
Fructose promotes the reaction [XDH protein results in increased chemical synthesis of Uric Acid]; XDH protein promotes the reaction [Fructose results in increased abundance of Reactive Oxygen Species] Glutamine inhibits the reaction [Fructose results in increased activity of XDH protein]
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of XKR5 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ZAP70 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ZBTB16 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of ZDHHC19 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
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in decreased expression of ZKSCAN2 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Herbicides] results in decreased expression of ZFP647 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose co-treated with Glyphosate] results in increased expression of ZFP683 mRNA; [lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in decreased expression of ZFP683 mRNA
[lard co-treated with Cholesterol, Dietary co-treated with Dietary Sucrose co-treated with Fructose co-treated with Glucose] results in increased expression of ZFP300 mRNA
[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate] APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate PF-06840003 inhibits the reaction [APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate]
[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased chemical synthesis of sodium arsenite; [GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog; heptelidic acid inhibits the reaction [[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog]
IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate; PF-06840003 inhibits the reaction [[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate] MAPT protein mutant form results in decreased abundance of fructose-1,6-diphosphate PF-06840003 inhibits the reaction [MAPT protein mutant form results in decreased abundance of fructose-1,6-diphosphate]
fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]; fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 protein] fructose-1,6-diphosphate results in decreased degradation of NOS2 mRNA
[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate [APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate] PF-06840003 inhibits the reaction [APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate]
[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased chemical synthesis of sodium arsenite; [GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog; heptelidic acid inhibits the reaction [[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog]
IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate; PF-06840003 inhibits the reaction [[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate] PF-06840003 inhibits the reaction [MAPT protein mutant form results in decreased abundance of fructose-1,6-diphosphate]
fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]; fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 protein] fructose-1,6-diphosphate results in decreased degradation of NOS2 mRNA
[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate PF-06840003 inhibits the reaction [APP protein mutant form results in decreased abundance of fructose-1,6-diphosphate] [APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased chemical synthesis of sodium arsenite; [GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog; heptelidic acid inhibits the reaction [[GAPDH protein co-treated with fructose-1,6-diphosphate co-treated with NAD] results in increased reduction of sodium arsenate analog]
IDH2 protein mutant form results in increased abundance of fructose-1,6-diphosphate Triazines inhibits the reaction [IDH2 protein mutant form results in increased abundance of fructose-1,6-diphosphate]
IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate; PF-06840003 inhibits the reaction [[amyloid beta-protein (1-42) binds to MAPT protein] which results in decreased abundance of fructose-1,6-diphosphate] MAPT protein mutant form results in decreased abundance of fructose-1,6-diphosphate PF-06840003 inhibits the reaction [MAPT protein mutant form results in decreased abundance of fructose-1,6-diphosphate]
fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]; fructose-1,6-diphosphate inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 protein] fructose-1,6-diphosphate results in decreased degradation of NOS2 mRNA
[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate; IDO1 protein affects the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]; PF-06840003 inhibits the reaction [[APP protein mutant form co-treated with PSEN1 protein mutant form] results in decreased abundance of fructose-1,6-diphosphate]
royal jelly inhibits the reaction [Nicotine results in decreased expression of BCL2 mRNA] royal jelly inhibits the reaction [Fluorides results in increased expression of BCL2 protein]
royal jelly inhibits the reaction [Nicotine results in increased expression of CASP3 mRNA] royal jelly inhibits the reaction [Fluorides results in decreased expression of CASP3 protein]
royal jelly inhibits the reaction [Cisplatin results in decreased activity of CAT protein]; royal jelly inhibits the reaction [Fluorides results in decreased activity of CAT protein] royal jelly inhibits the reaction [Nicotine results in decreased activity of CAT protein]
Estradiol inhibits the reaction [royal jelly binds to ESR1 protein]; royal jelly binds to and results in increased activity of ESR1 protein; royal jelly inhibits the reaction [Estradiol binds to ESR1 protein] royal jelly results in increased activity of ESR1 protein
Estradiol inhibits the reaction [royal jelly binds to ESR2 protein]; royal jelly binds to and results in increased activity of ESR2 protein; royal jelly inhibits the reaction [Estradiol binds to ESR2 protein]
royal jelly inhibits the reaction [phenylhydrazine results in decreased expression of MYC mRNA] royal jelly results in decreased expression of MYC mRNA royal jelly inhibits the reaction [Paclitaxel results in decreased expression of MYC mRNA]
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