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Chemical Disaccharides

1–50 of 144 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 6,6'-bis(2,3-dimethoxybenzoyl)-alpha,alpha-trehalose cell migration 6,6'-bis(2,3-dimethoxybenzoyl)-alpha,alpha-trehalose analog results in decreased cell migration 1: Mus musculus Skin | Cell Line, Tumor
2 genes: GSK3B | VEGFA 		1
2. baicalein-7-O-diglucoside response to endoplasmic reticulum stress baicalein-7-O-diglucoside results in increased response to endoplasmic reticulum stress 1: Homo sapiens B-Lymphocytes | Cell Line, Tumor
2 genes: DDIT3 | HSPA5 		1
3. baicalein-7-O-diglucoside positive regulation of p38MAPK cascade baicalein-7-O-diglucoside results in increased positive regulation of p38MAPK cascade 1: Homo sapiens B-Lymphocytes | Cell Line, Tumor   1
4. baicalein-7-O-diglucoside positive regulation of apoptotic process baicalein-7-O-diglucoside results in increased positive regulation of apoptotic process 1: Homo sapiens B-Lymphocytes | Cell Line, Tumor
2 genes: ATF6 | DDIT3 		1
5. baicalein-7-O-diglucoside positive regulation of cell proliferation baicalein-7-O-diglucoside results in decreased positive regulation of cell proliferation 1: Homo sapiens Cell Line, Tumor   1
6. baicalein-7-O-diglucoside positive regulation of p38MAPK cascade SB 203580 SB 203580 inhibits the reaction [baicalein-7-O-diglucoside results in increased positive regulation of p38MAPK cascade] 1: Homo sapiens B-Lymphocytes | Cell Line, Tumor   1
7. baicalein-7-O-diglucoside positive regulation of apoptotic process SB 203580 SB 203580 inhibits the reaction [baicalein-7-O-diglucoside results in increased positive regulation of apoptotic process] 1: Homo sapiens B-Lymphocytes | Cell Line, Tumor
2 genes: ATF6 | DDIT3 		1
8. Dietary Sucrose regulation of blood pressure Acarbose | Sodium Chloride, Dietary Acarbose inhibits the reaction [[Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in increased regulation of blood pressure] 1: Rattus norvegicus Cardiovascular System
13 genes: ACSM3 | CYP4F18 | EPHX2 | HMOX1 | LEP | NOS2 | NOS3 | NPPA | NPPB | NPY | PPARG | SOD1 | SOD2 		1
9. Dietary Sucrose regulation of blood pressure Sodium Chloride, Dietary [Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in increased regulation of blood pressure 1: Rattus norvegicus Cardiovascular System
13 genes: ACSM3 | CYP4F18 | EPHX2 | HMOX1 | LEP | NOS2 | NOS3 | NPPA | NPPB | NPY | PPARG | SOD1 | SOD2 		1
10. Dietary Sucrose positive regulation of urine volume Sodium Chloride, Dietary [Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in decreased positive regulation of urine volume 1: Rattus norvegicus Cardiovascular System
2 genes: HAS2 | NPPB 		1
11. Dietary Sucrose positive regulation of urine volume Acarbose | Sodium Chloride, Dietary Acarbose inhibits the reaction [[Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in decreased positive regulation of urine volume] 1: Rattus norvegicus Cardiovascular System
2 genes: HAS2 | NPPB 		1
12. Dietary Sucrose renal sodium excretion Sodium Chloride, Dietary [Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in decreased renal sodium excretion 1: Rattus norvegicus Cardiovascular System   1
13. Dietary Sucrose renal sodium excretion Acarbose | Sodium Chloride, Dietary Acarbose inhibits the reaction [[Dietary Sucrose co-treated with Sodium Chloride, Dietary] results in decreased renal sodium excretion] 1: Rattus norvegicus Cardiovascular System   1
14. Dietary Sucrose response to oxidative stress Dietary Sucrose results in increased response to oxidative stress 1: Rattus norvegicus  
22 genes: ALDH1A1 | CAR3 | CAT | CST3 | DGKK | DUOX2 | GPX1 | GPX4 | GSR | HMOX1 | LCN2 | MT3 | NQO1 | PRDX6 | SCARA3 | SIRT1 | SLC7A11 | SOD1 | SOD2 | TPO | TRP53 | VNN1 		1
15. Dietary Sucrose lipid catabolic process Dietary Sucrose results in decreased lipid catabolic process 1: Rattus norvegicus  
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
16. Dietary Sucrose response to oxidative stress Acetylcysteine Acetylcysteine inhibits the reaction [Dietary Sucrose results in increased response to oxidative stress] 1: Rattus norvegicus  
22 genes: ALDH1A1 | CAR3 | CAT | CST3 | DGKK | DUOX2 | GPX1 | GPX4 | GSR | HMOX1 | LCN2 | MT3 | NQO1 | PRDX6 | SCARA3 | SIRT1 | SLC7A11 | SOD1 | SOD2 | TPO | TRP53 | VNN1 		1
17. Dietary Sucrose lipid catabolic process Acetylcysteine Acetylcysteine inhibits the reaction [Dietary Sucrose results in decreased lipid catabolic process] 1: Rattus norvegicus  
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
18. Dietary Sucrose response to oxidative stress Dietary Sucrose results in increased response to oxidative stress 1: Rattus norvegicus Heart
22 genes: ALDH1A1 | CAR3 | CAT | CST3 | DGKK | DUOX2 | GPX1 | GPX4 | GSR | HMOX1 | LCN2 | MT3 | NQO1 | PRDX6 | SCARA3 | SIRT1 | SLC7A11 | SOD1 | SOD2 | TPO | TRP53 | VNN1 		1
19. Dietary Sucrose response to oxidative stress Acetylcysteine Acetylcysteine inhibits the reaction [Dietary Sucrose results in increased response to oxidative stress] 1: Rattus norvegicus Heart
22 genes: ALDH1A1 | CAR3 | CAT | CST3 | DGKK | DUOX2 | GPX1 | GPX4 | GSR | HMOX1 | LCN2 | MT3 | NQO1 | PRDX6 | SCARA3 | SIRT1 | SLC7A11 | SOD1 | SOD2 | TPO | TRP53 | VNN1 		1
20. Dietary Sucrose lipid catabolic process Dietary Sucrose results in decreased lipid catabolic process 1: Rattus norvegicus Heart
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
21. Dietary Sucrose lipid catabolic process Acetylcysteine Acetylcysteine inhibits the reaction [Dietary Sucrose results in decreased lipid catabolic process] 1: Rattus norvegicus Heart
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
22. Dietary Sucrose triglyceride biosynthetic process Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased triglyceride biosynthetic process 2: Mus musculus | Rattus norvegicus Liver
4 genes: ACSL4 | DGAT2 | LPIN1 | MOGAT1 		2
23. Dietary Sucrose triglyceride biosynthetic process Betaine | Choline | Dietary Fats | Folic Acid | Vitamin B 12 [Choline co-treated with Betaine co-treated with Vitamin B 12 co-treated with Folic Acid] inhibits the reaction [[Dietary Fats co-treated with Dietary Sucrose] results in increased triglyceride biosynthetic process] 1: Rattus norvegicus Liver
4 genes: ACSL4 | DGAT2 | LPIN1 | MOGAT1 		1
24. Dietary Sucrose detection of glucose Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased detection of glucose 1: Rattus norvegicus Plasma
2 genes: GCK | NKX6-1 		1
25. Dietary Sucrose DNA damage response, detection of DNA damage Dietary Sucrose results in increased DNA damage response, detection of DNA damage 1: Rattus norvegicus Colon   1
26. Dietary Sucrose cellular senescence Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased cellular senescence 1: Rattus norvegicus Aorta
4 genes: CAV1 | CDKN1A | ID2 | PML 		1
27. Dietary Sucrose cellular senescence Dietary Fats | resveratrol resveratrol inhibits the reaction [[Dietary Fats co-treated with Dietary Sucrose] results in increased cellular senescence] 1: Rattus norvegicus Aorta
4 genes: CAV1 | CDKN1A | ID2 | PML 		1
28. Dietary Sucrose mitochondrial electron transport, cytochrome c to oxygen Copper [Dietary Sucrose co-treated with Copper deficiency] results in decreased mitochondrial electron transport, cytochrome c to oxygen 1: Rattus norvegicus Islets of Langerhans | Cells, Cultured   1
29. Dietary Sucrose positive regulation of insulin secretion involved in cellular response to glucose stimulus Copper [Dietary Sucrose co-treated with Copper deficiency] results in decreased positive regulation of insulin secretion involved in cellular response to glucose stimulus 1: Rattus norvegicus Islets of Langerhans | Cells, Cultured
6 genes: ATG7 | GHRL | GPR27 | HIF1A | NR1H4 | SIRT1 		1
30. Dietary Sucrose mitochondrial electron transport, cytochrome c to oxygen Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in decreased mitochondrial electron transport, cytochrome c to oxygen] 1: Rattus norvegicus Islets of Langerhans | Cells, Cultured   1
31. Dietary Sucrose positive regulation of insulin secretion involved in cellular response to glucose stimulus Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in decreased positive regulation of insulin secretion involved in cellular response to glucose stimulus] 1: Rattus norvegicus Islets of Langerhans | Cells, Cultured
6 genes: ATG7 | GHRL | GPR27 | HIF1A | NR1H4 | SIRT1 		1
32. Dietary Sucrose positive regulation of insulin secretion involved in cellular response to glucose stimulus Copper [Dietary Sucrose co-treated with Copper deficiency] results in decreased positive regulation of insulin secretion involved in cellular response to glucose stimulus 1: Rattus norvegicus Insulin-Secreting Cells
6 genes: ATG7 | GHRL | GPR27 | HIF1A | NR1H4 | SIRT1 		1
33. Dietary Sucrose mitochondrial electron transport, cytochrome c to oxygen Copper [Dietary Sucrose co-treated with Copper deficiency] results in decreased mitochondrial electron transport, cytochrome c to oxygen 1: Rattus norvegicus Islets of Langerhans   1
34. Dietary Sucrose positive regulation of macrophage activation Copper [Dietary Sucrose co-treated with Copper deficiency] results in increased positive regulation of macrophage activation 1: Rattus norvegicus Pancreas, Exocrine
2 genes: HAVCR2 | LBP 		1
35. Dietary Sucrose positive regulation of macrophage chemotaxis Copper [Dietary Sucrose co-treated with Copper deficiency] results in increased positive regulation of macrophage chemotaxis 1: Rattus norvegicus Pancreas, Exocrine 1 gene: CCL2 1
36. Dietary Sucrose positive regulation of insulin secretion involved in cellular response to glucose stimulus Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in decreased positive regulation of insulin secretion involved in cellular response to glucose stimulus] 1: Rattus norvegicus Insulin-Secreting Cells
6 genes: ATG7 | GHRL | GPR27 | HIF1A | NR1H4 | SIRT1 		1
37. Dietary Sucrose mitochondrial electron transport, cytochrome c to oxygen Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in decreased mitochondrial electron transport, cytochrome c to oxygen] 1: Rattus norvegicus Islets of Langerhans   1
38. Dietary Sucrose positive regulation of macrophage activation Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in increased positive regulation of macrophage activation] 1: Rattus norvegicus Pancreas, Exocrine
2 genes: HAVCR2 | LBP 		1
39. Dietary Sucrose positive regulation of macrophage chemotaxis Copper Copper inhibits the reaction [[Dietary Sucrose co-treated with Copper deficiency] results in increased positive regulation of macrophage chemotaxis] 1: Rattus norvegicus Pancreas, Exocrine 1 gene: CCL2 1
40. Dietary Sucrose lipid catabolic process Copper [Copper deficiency co-treated with Dietary Sucrose] results in increased lipid catabolic process 1: Rattus norvegicus Liver
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
41. Dietary Sucrose lipid catabolic process Copper [Copper deficiency co-treated with Dietary Sucrose] results in increased lipid catabolic process 1: Rattus norvegicus Serum
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
42. Dietary Sucrose lipid catabolic process Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased lipid catabolic process 1: Mus musculus Liver
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
43. Dietary Sucrose lipid catabolic process Dietary Fats | GPX4 GPX4 gene mutant form promotes the reaction [[Dietary Fats co-treated with Dietary Sucrose] results in increased lipid catabolic process] 1: Mus musculus Liver
16 genes: APOA4 | CLPS | CYP39A1 | ENPP6 | LIPF | MGLL | PCK1 | PLA1A | PLA2G10 | PLA2G7 | PLCD4 | PLCXD2 | PLIN1 | PNLIP | PNPLA2 | PRDX6 		1
44. Dietary Sucrose positive regulation of vasculogenesis Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in decreased positive regulation of vasculogenesis 1: Macaca mulatta Neocortex   1
45. Dietary Sucrose positive regulation of vasculogenesis Dietary Fats | resveratrol resveratrol inhibits the reaction [[Dietary Fats co-treated with Dietary Sucrose] results in decreased positive regulation of vasculogenesis] 1: Macaca mulatta Neocortex   1
46. Dietary Sucrose lipid oxidation Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased lipid oxidation 1: Mus musculus Liver 1 gene: PLA2G7 1
47. Dietary Sucrose lipid oxidation Dietary Fats | Thiobarbituric Acid Reactive Substances [[Dietary Fats co-treated with Dietary Sucrose] results in increased lipid oxidation] which results in increased abundance of Thiobarbituric Acid Reactive Substances 1: Mus musculus Liver 1 gene: PLA2G7 1
48. Dietary Sucrose positive regulation of adipose tissue development Dietary Fats [Dietary Fats co-treated with Dietary Sucrose] results in increased positive regulation of adipose tissue development 1: Mus musculus Intra-Abdominal Fat
3 genes: GHRL | NR1H4 | SIRT1 		1
49. Dietary Sucrose lipid oxidation Dietary Fats | Quercetin Quercetin inhibits the reaction [[Dietary Fats co-treated with Dietary Sucrose] results in increased lipid oxidation] 1: Mus musculus Liver 1 gene: PLA2G7 1
50. Dietary Sucrose lipid oxidation Dietary Fats | Quercetin | Thiobarbituric Acid Reactive Substances Quercetin inhibits the reaction [[[Dietary Fats co-treated with Dietary Sucrose] results in increased lipid oxidation] which results in increased abundance of Thiobarbituric Acid Reactive Substances] 1: Mus musculus Liver 1 gene: PLA2G7 1
1–50 of 144 results.
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