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Chemical Monosaccharides

1–50 of 1,950 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. beta-D-glucosylisophosphoramide mustard apoptotic process beta-D-glucosylisophosphoramide mustard results in increased apoptotic process 1: Homo sapiens Pancreas | Cell Line, Tumor   1
2. beta-D-glucosylisophosphoramide mustard apoptotic DNA fragmentation beta-D-glucosylisophosphoramide mustard results in increased apoptotic DNA fragmentation 1: Homo sapiens Pancreas | Cell Line, Tumor   1
3. beta-D-glucosylisophosphoramide mustard cell proliferation beta-D-glucosylisophosphoramide mustard results in decreased cell proliferation 1: Homo sapiens Pancreas | Cell Line, Tumor   1
4. Blood Glucose glutathione metabolic process Ethanol | Glutathione | Oxygen | zinc protoporphyrin [[[[[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] co-treated with Ethanol] co-treated with zinc protoporphyrin] affects glutathione metabolic process] which results in decreased abundance of Glutathione 1: Rattus norvegicus Liver
3 genes: GSR | SOD1 | SOD2
1
5. Blood Glucose positive regulation of neuron apoptotic process Oxygen | Quercetin Quercetin inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of neuron apoptotic process] 1: Mus musculus Hippocampus
9 genes: CASP3 | CASP9 | DDIT3 | GSK3B | IL18 | IL1B | MAPK8 | NR3C1 | TNF
1
6. Blood Glucose glucose homeostasis Alloxan [Alloxan results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose 1: Mus musculus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
7. Blood Glucose astrocyte activation Oxygen [Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased astrocyte activation 1: Rattus norvegicus CA1 Region, Hippocampal   1
8. Blood Glucose glutathione metabolic process Oxygen [[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] affects glutathione metabolic process 1: Rattus norvegicus Liver
3 genes: GSR | SOD1 | SOD2
1
9. Blood Glucose urea homeostasis Oxygen | Urea [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in decreased urea homeostasis] which results in increased abundance of Urea 1: Rattus norvegicus Serum   2
10. Blood Glucose glucose homeostasis Streptozocin [Streptozocin results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose 1: Mus musculus Serum
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
11. Blood Glucose lipid oxidation 2,2-bis(4-glycidyloxyphenyl)propane | estradiol 3-benzoate | Oxygen | Thiobarbituric Acid Reactive Substances 2,2-bis(4-glycidyloxyphenyl)propane inhibits the reaction [estradiol 3-benzoate inhibits the reaction [[[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased lipid oxidation] which results in increased abundance of Thiobarbituric Acid Reactive Substances]] 1: Rattus norvegicus Kidney   1
12. Blood Glucose protein nitrosylation Blood Glucose results in increased protein nitrosylation 1: Mus musculus Embryo, Mammalian | Tissues   1
13. Blood Glucose regulation of gluconeogenesis 3,4,5,3',4'-pentachlorobiphenyl [3,4,5,3',4'-pentachlorobiphenyl affects regulation of gluconeogenesis] which results in decreased abundance of Blood Glucose 1: Rattus norvegicus Liver 1 gene: NR3C1 1
14. Blood Glucose glutathione metabolic process Hemin | Oxygen Hemin inhibits the reaction [[[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] affects glutathione metabolic process] 1: Rattus norvegicus Liver
3 genes: GSR | SOD1 | SOD2
1
15. Blood Glucose mitochondrial genome maintenance genipin | Oxygen genipin inhibits the reaction [[Blood Glucose deficiency co-treated with Oxygen deficiency] results in decreased mitochondrial genome maintenance] 1: Mus musculus Liver   1
16. Blood Glucose mitochondrial genome maintenance Oxygen [Blood Glucose deficiency co-treated with Oxygen deficiency] results in decreased mitochondrial genome maintenance 1: Rattus norvegicus Sensorimotor Cortex   1
17. Blood Glucose positive regulation of autophagy of mitochondrion Oxygen [Blood Glucose deficiency co-treated with Oxygen deficiency] results in increased positive regulation of autophagy of mitochondrion 1: Mus musculus Liver 1 gene: PARK2 1
18. Blood Glucose glucose homeostasis Metformin [Metformin results in increased glucose homeostasis] which results in decreased abundance of Blood Glucose 1: Mus musculus Plasma
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
19. Blood Glucose glucose homeostasis sodium arsenite [sodium arsenite results in increased glucose homeostasis] which results in decreased abundance of Blood Glucose 1: Mus musculus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
20. Blood Glucose glucose homeostasis Tetrachlorodibenzodioxin [Tetrachlorodibenzodioxin results in decreased glucose homeostasis] which results in decreased abundance of Blood Glucose 1: Mus musculus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
21. Blood Glucose positive regulation of superoxide anion generation estradiol 3-benzoate | Oxygen estradiol 3-benzoate inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of superoxide anion generation] 1: Rattus norvegicus Kidney
3 genes: IL18 | ITGAM | SOD1
1
22. Blood Glucose cell death Blood Glucose results in increased cell death 1: Rattus norvegicus CA3 Region, Hippocampal 1 gene: HMOX1 1
23. Blood Glucose lipid oxidation Oxygen [Blood Glucose deficiency co-treated with Oxygen deficiency] results in increased lipid oxidation 1: Rattus norvegicus Kidney   1
24. Blood Glucose glucose homeostasis Choline | Methionine [[Methionine deficiency co-treated with Choline deficiency] results in decreased glucose homeostasis] which results in decreased abundance of Blood Glucose 1: Mus musculus Liver
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
25. Blood Glucose positive regulation of leukocyte adhesion to vascular endothelial cell chelerythrine | Oxygen | Quercetin chelerythrine inhibits the reaction [Quercetin inhibits the reaction [[Blood Glucose deficiency co-treated with Oxygen deficiency] results in increased positive regulation of leukocyte adhesion to vascular endothelial cell]] 1: Rattus norvegicus Pia Mater | Microvessels 1 gene: TNF 1
26. Blood Glucose lipid oxidation Ethanol | Hemin | Oxygen [[[[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] co-treated with Ethanol] co-treated with Hemin] results in increased lipid oxidation 1: Rattus norvegicus Liver   1
27. Blood Glucose lipid oxidation estradiol 3-benzoate | Oxygen estradiol 3-benzoate inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased lipid oxidation] 1: Rattus norvegicus Kidney   1
28. Blood Glucose glutathione metabolic process Ethanol | Glutathione | Oxygen Ethanol promotes the reaction [[[[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] affects glutathione metabolic process] which results in decreased abundance of Glutathione] 1: Rattus norvegicus Liver
3 genes: GSR | SOD1 | SOD2
1
29. Blood Glucose protein oxidation Oxygen | RSVA314 RSVA314 inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased protein oxidation] 1: Rattus norvegicus Kidney   1
30. Blood Glucose positive regulation of apoptotic DNA fragmentation Oxygen | Quercetin Quercetin inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of apoptotic DNA fragmentation] 1: Mus musculus Hippocampus   1
31. Blood Glucose glucose homeostasis Dexamethasone | G6PC2 G6PC2 gene mutant form promotes the reaction [[Dexamethasone results in increased glucose homeostasis] which affects the abundance of Blood Glucose] 1: Mus musculus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
32. Blood Glucose lipid oxidation Oxygen [[Oxygen deficiency co-treated with Blood Glucose deficiency] co-treated with [Oxygen co-treated with Blood Glucose]] results in increased lipid oxidation 1: Rattus norvegicus Liver   1
33. Blood Glucose positive regulation of ATP biosynthetic process Oxygen [Blood Glucose deficiency co-treated with Oxygen deficiency] results in decreased positive regulation of ATP biosynthetic process 1: Mus musculus Liver
3 genes: PARK2 | PINK1 | PPARGC1A
1
34. Blood Glucose astrocyte activation Oxygen [Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased astrocyte activation 1: Rattus norvegicus CA3 Region, Hippocampal   1
35. Blood Glucose peptidyl-tyrosine modification 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride | Oxygen 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased peptidyl-tyrosine modification] 1: Rattus norvegicus Myocardium   1
36. Blood Glucose glucose homeostasis Acetylcysteine | tributyltin Acetylcysteine inhibits the reaction [[tributyltin results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose] 1: Mus musculus Insulin-Secreting Cells | Cell Line
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
37. Blood Glucose glucose homeostasis Arsenic | Lead [[Arsenic co-treated with Lead] results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose 1: Rattus norvegicus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
38. Blood Glucose mitochondrial genome maintenance Oxygen [Blood Glucose deficiency co-treated with Oxygen deficiency] results in decreased mitochondrial genome maintenance 1: Mus musculus Liver   1
39. Blood Glucose positive regulation of neuron death Oxygen [Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of neuron death 1: Rattus norvegicus CA1 Region, Hippocampal
4 genes: CASP8 | DDIT3 | GSK3B | ITGAM
1
40. Blood Glucose positive regulation of neuron death Oxygen | ursolic acid ursolic acid inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of neuron death] 1: Rattus norvegicus Cerebral Cortex
4 genes: CASP8 | DDIT3 | GSK3B | ITGAM
1
41. Blood Glucose positive regulation of prostaglandin biosynthetic process Oxygen [Oxygen deficiency co-treated with Blood Glucose deficiency] results in decreased positive regulation of prostaglandin biosynthetic process 1: Rattus norvegicus Stomach
3 genes: MAPK9 | PPARG | PTGS2
1
42. Blood Glucose positive regulation of microglial cell activation Oxygen [Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of microglial cell activation 1: Rattus norvegicus Dentate Gyrus 1 gene: ITGAM 1
43. Blood Glucose positive regulation of glucose import in response to insulin stimulus acipimox [acipimox results in decreased positive regulation of glucose import in response to insulin stimulus] which results in increased abundance of Blood Glucose 1: Homo sapiens Blood
3 genes: AKT2 | INS | RARRES2
1
44. Blood Glucose urea homeostasis Oxygen | RSVA405 | Urea RSVA405 inhibits the reaction [[[Oxygen deficiency co-treated with Blood Glucose deficiency] results in decreased urea homeostasis] which results in increased abundance of Urea] 1: Rattus norvegicus Serum   1
45. Blood Glucose glucose homeostasis cobaltiprotoporphyrin | Dietary Fats cobaltiprotoporphyrin inhibits the reaction [[Dietary Fats results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose] 1: Rattus norvegicus Serum
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
46. Blood Glucose positive regulation of neuron death 2,2-bis(4-glycidyloxyphenyl)propane | Oxygen | ursolic acid 2,2-bis(4-glycidyloxyphenyl)propane inhibits the reaction [ursolic acid inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased positive regulation of neuron death]] 1: Rattus norvegicus Cerebral Cortex
4 genes: CASP8 | DDIT3 | GSK3B | ITGAM
1
47. Blood Glucose positive regulation of prostaglandin biosynthetic process Dinoprostone | Oxygen [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in decreased positive regulation of prostaglandin biosynthetic process] which results in decreased chemical synthesis of Dinoprostone 1: Rattus norvegicus Stomach
3 genes: MAPK9 | PPARG | PTGS2
1
48. Blood Glucose glucose homeostasis diethyl phthalate [diethyl phthalate results in decreased glucose homeostasis] which results in decreased abundance of Blood Glucose 1: Danio rerio Serum
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
49. Blood Glucose lipid oxidation 2,2-bis(4-glycidyloxyphenyl)propane | estradiol 3-benzoate | Oxygen 2,2-bis(4-glycidyloxyphenyl)propane inhibits the reaction [estradiol 3-benzoate inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased lipid oxidation]] 1: Rattus norvegicus Kidney   1
50. Blood Glucose glucose homeostasis Dietary Fats | manganese(III)-tetrakis(4-benzoic acid)porphyrin manganese(III)-tetrakis(4-benzoic acid)porphyrin inhibits the reaction [[Dietary Fats results in decreased glucose homeostasis] which results in increased abundance of Blood Glucose] 1: Mus musculus Blood
6 genes: AKT2 | IL6 | INS | LEPR | MTNR1B | PPARG
1
1–50 of 1,950 results.