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Chemical Sugar Phosphates

1–50 of 114 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 1-((1-O-octadecyl-2-O-methylglycero)phospho)-3-deoxy-myo-inositol positive regulation of phosphatidylinositol 3-kinase activity IL1B 1-((1-O-octadecyl-2-O-methylglycero)phospho)-3-deoxy-myo-inositol inhibits the reaction [IL1B protein affects positive regulation of phosphatidylinositol 3-kinase activity] Tendons | Cells, Cultured 1 gene: SRC 1
2. 1-((1-O-octadecyl-2-O-methylglycero)phospho)-3-deoxy-myo-inositol positive regulation of p38MAPK cascade tricarbonyldichlororuthenium (II) dimer 1-((1-O-octadecyl-2-O-methylglycero)phospho)-3-deoxy-myo-inositol inhibits the reaction [tricarbonyldichlororuthenium (II) dimer results in increased positive regulation of p38MAPK cascade] 1: Homo sapiens Myocytes, Cardiac | Cells, Cultured 1 gene: IL1B 1
3. alpha-glycerophosphoric acid mitochondrial ATP transmembrane transport alpha-glycerophosphoric acid results in increased mitochondrial ATP transmembrane transport 1: Rattus norvegicus Insulin-Secreting Cells | Cell Line, Tumor | Mitochondria   1
4. alpha-glycerophosphoric acid glycolytic process Permethrin | Pyridostigmine Bromide [[Pyridostigmine Bromide co-treated with Permethrin] affects glycolytic process] which results in decreased abundance of alpha-glycerophosphoric acid 1: Mus musculus Brain   1
5. atrinositol vasoconstriction NPY atrinositol inhibits the reaction [NPY protein results in increased vasoconstriction] 1: Cavia Basilar Artery   1
6. atrinositol vasoconstriction Adenosine Triphosphate atrinositol inhibits the reaction [Adenosine Triphosphate results in increased vasoconstriction] 1: Cavia Basilar Artery   1
7. atrinositol calcium-mediated signaling Adenosine Triphosphate atrinositol inhibits the reaction [Adenosine Triphosphate results in increased calcium-mediated signaling] 1: Rattus norvegicus Veins | Myocytes, Smooth Muscle   1
8. atrinositol calcium-mediated signaling NPY atrinositol inhibits the reaction [NPY results in increased calcium-mediated signaling] 1: Rattus norvegicus Veins | Myocytes, Smooth Muscle   1
9. beta-glycerophosphoric acid ossification Ascorbic Acid | Dexamethasone | INS1 [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS1 protein] results in increased ossification 1: Mus musculus Bone Marrow Cells | Cells, Cultured
18 genes: BGLAP | BMP1 | BMP2 | BMP3 | BMP7 | COL11A1 | DMP1 | GDF10 | IBSP | MGP | MSX2 | NOG | PTH1R | RUNX2 | SOX9 | SPARC | SPP1 | STC1
1
10. beta-glycerophosphoric acid fat cell differentiation Ascorbic Acid | Dexamethasone | INS1 | triphenyl phosphate [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS1 protein co-treated with triphenyl phosphate] results in increased fat cell differentiation 1: Mus musculus Bone Marrow Cells | Cells, Cultured
4 genes: CEBPA | GDF10 | PPARG | SREBF1
1
11. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | Dexamethasone | INS1 | triphenyl phosphate [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS1 protein co-treated with triphenyl phosphate] results in decreased alkaline phosphatase activity 1: Mus musculus Bone Marrow Cells | Cells, Cultured 1 gene: ALPL 1
12. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
13. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | tributyltin tributyltin inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
14. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | Rosiglitazone Rosiglitazone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
15. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Bexarotene | Dexamethasone | INS Bexarotene inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
16. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | LG 100268 LG 100268 inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
17. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | LG 100268 | tributyltin tributyltin promotes the reaction [LG 100268 inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development]] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
18. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | T 0070907 T 0070907 promotes the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
19. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | INS | Rosiglitazone | T 0070907 T 0070907 inhibits the reaction [Rosiglitazone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development]] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
20. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | diazepinylbenzoic acid | INS | Rosiglitazone diazepinylbenzoic acid inhibits the reaction [Rosiglitazone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development]] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
21. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | diazepinylbenzoic acid | INS | LG 100268 diazepinylbenzoic acid inhibits the reaction [LG 100268 inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development]] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
22. beta-glycerophosphoric acid positive regulation of bone development Ascorbic Acid | Dexamethasone | diazepinylbenzoic acid | INS | tributyltin diazepinylbenzoic acid inhibits the reaction [tributyltin inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS protein] results in increased positive regulation of bone development]] 1: Homo sapiens Mesenchymal Stem Cells | Cells, Cultured   1
23. beta-glycerophosphoric acid positive regulation of osteoblast differentiation Ascorbic Acid | Dexamethasone [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone] results in increased positive regulation of osteoblast differentiation 1: Homo sapiens Adipose Tissue | Mesenchymal Stem Cells | Cells, Cultured
8 genes: BMP2 | BMP7 | BMPR1A | CEBPA | GDF10 | IL6 | MSX2 | RUNX2
1
24. beta-glycerophosphoric acid osteoblast development Ascorbic Acid | Dexamethasone [beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased osteoblast development 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
6 genes: BGLAP | CEBPA | MSX2 | PTH1R | RUNX2 | SATB2
1
25. beta-glycerophosphoric acid osteoblast development Ascorbic Acid | Dexamethasone | Hydrogen Peroxide Hydrogen Peroxide inhibits the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased osteoblast development] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
6 genes: BGLAP | CEBPA | MSX2 | PTH1R | RUNX2 | SATB2
1
26. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone [beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased bone mineralization 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
27. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone | Hydrogen Peroxide Hydrogen Peroxide inhibits the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased bone mineralization] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
28. beta-glycerophosphoric acid osteoblast development Ascorbic Acid | Dexamethasone | Hydrogen Peroxide | Quercetin Quercetin inhibits the reaction [Hydrogen Peroxide inhibits the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased osteoblast development]] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
6 genes: BGLAP | CEBPA | MSX2 | PTH1R | RUNX2 | SATB2
1
29. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone | Hydrogen Peroxide | Quercetin Quercetin inhibits the reaction [Hydrogen Peroxide inhibits the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] results in increased bone mineralization]] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
30. beta-glycerophosphoric acid collagen biosynthetic process Ascorbic Acid | Dexamethasone [beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] affects collagen biosynthetic process 1: Rattus norvegicus Fetus | Skull | Cells, Cultured   1
31. beta-glycerophosphoric acid collagen biosynthetic process Ascorbic Acid | Dexamethasone | Hydrogen Peroxide Hydrogen Peroxide affects the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] affects collagen biosynthetic process] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured   1
32. beta-glycerophosphoric acid collagen biosynthetic process Ascorbic Acid | Dexamethasone | Hydrogen Peroxide | Quercetin Quercetin affects the reaction [Hydrogen Peroxide affects the reaction [[beta-glycerophosphoric acid co-treated with Ascorbic Acid co-treated with Dexamethasone] affects collagen biosynthetic process]] 1: Rattus norvegicus Fetus | Skull | Cells, Cultured   1
33. beta-glycerophosphoric acid osteoblast differentiation Ascorbic Acid [Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased osteoblast differentiation 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
11 genes: BGLAP | BMP2 | BMP3 | GDF10 | MSX2 | NOG | RUNX2 | SOX2 | SP7 | SPP1 | WNT11
1
34. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | Dexamethasone Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased alkaline phosphatase activity] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured 1 gene: ALPL 1
35. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | Dexamethasone | ginsenoside Rg3 ginsenoside Rg3 inhibits the reaction [Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased alkaline phosphatase activity]] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured 1 gene: ALPL 1
36. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | Dexamethasone | ginsenoside Rg3 | NOG NOG protein inhibits the reaction [ginsenoside Rg3 inhibits the reaction [Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased alkaline phosphatase activity]]] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured 1 gene: ALPL 1
37. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | osteoblast differentiation [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased osteoblast differentiation] which results in increased alkaline phosphatase activity 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured 1 gene: ALPL 1
38. beta-glycerophosphoric acid osteoblast differentiation alkaline phosphatase activity | Ascorbic Acid [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased osteoblast differentiation] which results in increased alkaline phosphatase activity 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
11 genes: BGLAP | BMP2 | BMP3 | GDF10 | MSX2 | NOG | RUNX2 | SOX2 | SP7 | SPP1 | WNT11
1
39. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid [Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased alkaline phosphatase activity 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured 1 gene: ALPL 1
40. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | osteoblast differentiation [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased osteoblast differentiation] which results in increased bone mineralization 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
41. beta-glycerophosphoric acid osteoblast differentiation Ascorbic Acid | bone mineralization [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased osteoblast differentiation] which results in increased bone mineralization 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
11 genes: BGLAP | BMP2 | BMP3 | GDF10 | MSX2 | NOG | RUNX2 | SOX2 | SP7 | SPP1 | WNT11
1
42. beta-glycerophosphoric acid bone mineralization Ascorbic Acid [Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased bone mineralization 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
43. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased bone mineralization] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
44. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone | ginsenoside Rg3 ginsenoside Rg3 inhibits the reaction [Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased bone mineralization]] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
45. beta-glycerophosphoric acid bone mineralization Ascorbic Acid | Dexamethasone | ginsenoside Rg3 | NOG NOG protein inhibits the reaction [ginsenoside Rg3 inhibits the reaction [Dexamethasone inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid] results in increased bone mineralization]]] 1: Rattus norvegicus Skull | Osteoblasts | Cells, Cultured
7 genes: BGLAP | BMP2 | GPC3 | IBSP | PHEX | PTH1R | WNT11
1
46. beta-glycerophosphoric acid positive regulation of osteoblast differentiation Ascorbic Acid | Dexamethasone [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone] results in increased positive regulation of osteoblast differentiation 1: Mus musculus Embryonic Stem Cells | Cell Line
8 genes: BMP2 | BMP7 | BMPR1A | CEBPA | GDF10 | IL6 | MSX2 | RUNX2
1
47. beta-glycerophosphoric acid positive regulation of biomineral tissue development Ascorbic Acid | Dexamethasone [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone] results in increased positive regulation of biomineral tissue development 1: Mus musculus Embryonic Stem Cells | Cell Line   1
48. beta-glycerophosphoric acid positive regulation of osteoblast differentiation Ascorbic Acid | cadmium sulfate | Dexamethasone cadmium sulfate inhibits the reaction [[Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone] results in increased positive regulation of osteoblast differentiation] 1: Mus musculus Embryonic Stem Cells | Cell Line
8 genes: BMP2 | BMP7 | BMPR1A | CEBPA | GDF10 | IL6 | MSX2 | RUNX2
1
49. beta-glycerophosphoric acid fat cell differentiation Ascorbic Acid | Dexamethasone | Firemaster 550 | INS1 [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS1 protein co-treated with Firemaster 550] results in increased fat cell differentiation 1: Mus musculus Bone Marrow Cells | Cells, Cultured
4 genes: CEBPA | GDF10 | PPARG | SREBF1
1
50. beta-glycerophosphoric acid alkaline phosphatase activity Ascorbic Acid | Dexamethasone | Firemaster 550 | INS1 [Ascorbic Acid co-treated with beta-glycerophosphoric acid co-treated with Dexamethasone co-treated with INS1 protein co-treated with Firemaster 550] results in decreased alkaline phosphatase activity 1: Mus musculus Bone Marrow Cells | Cells, Cultured 1 gene: ALPL 1
1–50 of 114 results.