1. |
baysilon
|
hair follicle morphogenesis
|
Oxygen
|
[baysilon results in increased abundance of Oxygen] which results in increased hair follicle morphogenesis |
1: Mus musculus |
Epithelial Cells | Mesoderm | Hair Follicle | Cells, Cultured |
|
1 |
2. |
decamethylcyclopentasiloxane
|
mammary gland epithelial cell proliferation
|
|
decamethylcyclopentasiloxane results in increased mammary gland epithelial cell proliferation |
1: Homo sapiens |
Mammary Glands, Human | Epithelial Cells |
|
1 |
3. |
flusilazole
|
positive regulation of protein import into nucleus
|
|
flusilazole results in decreased positive regulation of protein import into nucleus |
1: Homo sapiens |
Pluripotent Stem Cells | Cells, Cultured |
1 gene: TEK
|
1 |
4. |
flusilazole
|
cardiac muscle cell differentiation
|
|
flusilazole affects cardiac muscle cell differentiation |
1: Mus musculus |
Embryonic Stem Cells |
2 genes: PITX2 | TDGF1
|
1 |
5. |
flusilazole
|
hatching
|
|
flusilazole results in decreased hatching |
1: Danio rerio |
Embryo, Nonmammalian |
|
1 |
6. |
flusilazole
|
regulation of steroid biosynthetic process
|
|
flusilazole affects regulation of steroid biosynthetic process |
1: Homo sapiens |
Adrenal Cortex | Cell Line, Tumor |
|
1 |
7. |
flusilazole
|
neural tube closure
|
|
flusilazole results in decreased neural tube closure |
1: Rattus norvegicus |
Embryo, Mammalian |
10 genes: ALX1 | LHX2 | PRICKLE1 | TDGF1 | TGFB2 | TGIF1 | TULP3 | VASP | WNT5A | ZEB2
|
1 |
8. |
flusilazole
|
pharyngeal system development
|
|
flusilazole results in decreased pharyngeal system development |
1: Rattus norvegicus |
Embryo, Mammalian |
3 genes: DLX2A | FGF8 | WNT11R
|
1 |
9. |
flusilazole
|
optic cup morphogenesis involved in camera-type eye development
|
|
flusilazole results in decreased optic cup morphogenesis involved in camera-type eye development |
1: Rattus norvegicus |
Embryo, Mammalian |
|
1 |
10. |
flusilazole
|
cardiac muscle cell differentiation
|
|
flusilazole results in decreased cardiac muscle cell differentiation |
1: Mus musculus |
Embryonic Stem Cells | Cells, Cultured |
2 genes: PITX2 | TDGF1
|
1 |
11. |
hexamethylcyclotrisiloxane
|
mammary gland epithelial cell proliferation
|
|
hexamethylcyclotrisiloxane results in increased mammary gland epithelial cell proliferation |
1: Homo sapiens |
Mammary Glands, Human | Epithelial Cells |
|
1 |
12. |
hexamethylcyclotrisiloxane
|
DNA damage response, detection of DNA damage
|
|
hexamethylcyclotrisiloxane results in increased DNA damage response, detection of DNA damage |
1: Homo sapiens |
Mammary Glands, Human | Epithelial Cells |
|
1 |
13. |
octamethylcyclotetrasiloxane
|
mammary gland epithelial cell proliferation
|
|
octamethylcyclotetrasiloxane results in increased mammary gland epithelial cell proliferation |
1: Homo sapiens |
Mammary Glands, Human | Epithelial Cells |
|
1 |
14. |
octamethylcyclotetrasiloxane
|
DNA damage response, detection of DNA damage
|
|
octamethylcyclotetrasiloxane results in increased DNA damage response, detection of DNA damage |
1: Homo sapiens |
Mammary Glands, Human | Epithelial Cells |
|
1 |
15. |
octamethylcyclotetrasiloxane
|
estrogen biosynthetic process
|
|
octamethylcyclotetrasiloxane results in decreased estrogen biosynthetic process |
1: Mus musculus |
Serum |
|
1 |
16. |
octamethylcyclotetrasiloxane
|
lactate dehydrogenase activity
|
|
octamethylcyclotetrasiloxane results in increased lactate dehydrogenase activity |
1: Mus musculus |
Serum |
|
1 |
17. |
octamethylcyclotetrasiloxane
|
L-aspartate:2-oxoglutarate aminotransferase activity
|
|
octamethylcyclotetrasiloxane results in increased L-aspartate:2-oxoglutarate aminotransferase activity |
1: Mus musculus |
Serum |
|
1 |
18. |
octamethylcyclotetrasiloxane
|
reactive oxygen species biosynthetic process
|
|
octamethylcyclotetrasiloxane results in increased reactive oxygen species biosynthetic process |
1: Mus musculus |
Liver |
|
1 |
19. |
octamethylcyclotetrasiloxane
|
reactive oxygen species biosynthetic process
|
|
octamethylcyclotetrasiloxane results in increased reactive oxygen species biosynthetic process |
1: Mus musculus |
Lung |
|
1 |
20. |
ormosil
|
cell proliferation
|
Polyethylene Glycols
|
[ormosil binds to Polyethylene Glycols] which results in decreased cell proliferation |
1: Homo sapiens |
Lung | Cell Line, Tumor |
5 genes: CSF1R | DDIT4 | LIPG | PDZK1 | SERPINF1
|
1 |
21. |
ormosil
|
cell proliferation
|
|
ormosil results in decreased cell proliferation |
1: Homo sapiens |
Lung | Fibroblasts | Cell Line |
5 genes: CSF1R | DDIT4 | LIPG | PDZK1 | SERPINF1
|
1 |
22. |
ormosil
|
cell proliferation
|
|
ormosil results in decreased cell proliferation |
1: Homo sapiens |
Lung | Cell Line, Tumor |
5 genes: CSF1R | DDIT4 | LIPG | PDZK1 | SERPINF1
|
1 |
23. |
ormosil
|
reactive oxygen species metabolic process
|
Polyethylene Glycols
|
[ormosil binds to Polyethylene Glycols] which results in increased reactive oxygen species metabolic process |
1: Homo sapiens |
Lung | Cell Line, Tumor |
3 genes: CCN2 | DDIT4 | PDK4
|
1 |
24. |
ormosil
|
reactive oxygen species metabolic process
|
Polyethylene Glycols
|
[ormosil binds to Polyethylene Glycols] which results in increased reactive oxygen species metabolic process |
1: Homo sapiens |
Lung | Fibroblasts | Cell Line |
3 genes: CCN2 | DDIT4 | PDK4
|
1 |
25. |
SAN 58035
|
positive regulation of cholesterol esterification
|
|
SAN 58035 results in decreased positive regulation of cholesterol esterification |
1: Homo sapiens |
Hep G2 Cells |
|
1 |
26. |
SAN 58035
|
positive regulation of cholesterol esterification
|
Cholesterol
|
[SAN 58035 results in decreased positive regulation of cholesterol esterification] which results in increased abundance of Cholesterol |
1: Homo sapiens |
Hep G2 Cells |
|
1 |
27. |
SAN 58035
|
positive regulation of cholesterol esterification
|
Cholesterol Esters
|
[SAN 58035 results in decreased positive regulation of cholesterol esterification] which results in decreased abundance of Cholesterol Esters |
1: Homo sapiens |
Hep G2 Cells |
|
1 |
28. |
Silicone Oils
|
positive regulation of cell death
|
|
Silicone Oils results in increased positive regulation of cell death |
1: Homo sapiens |
Neural Stem Cells | Cell Line, Tumor |
|
1 |
29. |
TAC 101
|
negative regulation of G1/S transition of mitotic cell cycle
|
|
TAC 101 results in increased negative regulation of G1/S transition of mitotic cell cycle |
1: Homo sapiens |
Pancreas | Cell Line, Tumor |
2 genes: CDKN1A | RB1
|
1 |
30. |
TAC 101
|
positive regulation of apoptotic DNA fragmentation
|
|
TAC 101 results in increased positive regulation of apoptotic DNA fragmentation |
1: Homo sapiens |
Pancreas | Cell Line, Tumor |
|
1 |
31. |
TAC 101
|
positive regulation of cell proliferation
|
|
TAC 101 results in decreased positive regulation of cell proliferation |
1: Homo sapiens |
Pancreas | Cell Line, Tumor |
5 genes: CDKN1B | HGF | PLAU | RARA | RARB
|
1 |
32. |
TAC 101
|
positive regulation of apoptotic process
|
|
TAC 101 results in increased positive regulation of apoptotic process |
1: Homo sapiens |
Colon | Cell Line, Tumor |
6 genes: CASP3 | CASP8 | FAS | MMP2 | MMP9 | RARB
|
1 |
33. |
TAC 101
|
positive regulation of retinoic acid receptor signaling pathway
|
|
TAC 101 results in increased positive regulation of retinoic acid receptor signaling pathway |
1: Homo sapiens |
Hepatocytes | Cell Line, Tumor |
|
1 |
34. |
TAC 101
|
positive regulation of retinoic acid receptor signaling pathway
|
RARB
|
[TAC 101 results in increased positive regulation of retinoic acid receptor signaling pathway] which results in increased expression of RARB mRNA |
1: Homo sapiens |
Hepatocytes | Cell Line, Tumor |
|
1 |
35. |
TAC 101
|
negative regulation of DNA-binding transcription factor activity
|
|
TAC 101 results in increased negative regulation of DNA-binding transcription factor activity |
1: Homo sapiens |
Hepatocytes | Cell Line, Tumor |
1 gene: RB1
|
1 |
36. |
TAC 101
|
positive regulation of apoptotic process
|
|
TAC 101 results in increased positive regulation of apoptotic process |
1: Homo sapiens |
Hepatocytes | Cell Line, Tumor |
6 genes: CASP3 | CASP8 | FAS | MMP2 | MMP9 | RARB
|
1 |
37. |
TAC 101
|
positive regulation of cell death
|
|
TAC 101 results in increased positive regulation of cell death |
1: Mus musculus |
Colon | Cell Line, Tumor |
3 genes: CDKN1A | CDKN1B | FAS
|
1 |
38. |
tetraethoxysilane
|
apoptotic process
|
|
tetraethoxysilane analog results in increased apoptotic process |
1: Homo sapiens |
Lung | Cell Line |
4 genes: AKT1 | BCL2 | CASP3 | CASP9
|
1 |
39. |
Zilpaterol
|
positive regulation of multicellular organism growth
|
|
Zilpaterol results in increased positive regulation of multicellular organism growth |
1: Bos taurus |
Body Regions |
|
1 |
40. |
Zilpaterol
|
urea homeostasis
|
|
Zilpaterol affects urea homeostasis |
1: Bos taurus |
Serum |
|
1 |
41. |
Zilpaterol
|
urea homeostasis
|
Urea
|
[Zilpaterol affects urea homeostasis] which results in decreased abundance of Urea |
1: Bos taurus |
Serum |
|
1 |
42. |
Zilpaterol
|
fatty acid homeostasis
|
|
Zilpaterol affects fatty acid homeostasis |
1: Bos taurus |
Serum |
|
1 |
43. |
Zilpaterol
|
fatty acid homeostasis
|
Fatty Acids, Nonesterified
|
[Zilpaterol affects fatty acid homeostasis] which results in increased abundance of Fatty Acids, Nonesterified |
1: Bos taurus |
Serum |
|
1 |