Skip navigation

Chemical Plant Extracts

1–50 of 1,310 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. ankaferd blood stopper hemostasis ankaferd blood stopper results in increased hemostasis     1
2. Ashwagandha positive regulation of neuron apoptotic process Scopolamine Hydrobromide Ashwagandha inhibits the reaction [Scopolamine Hydrobromide results in increased positive regulation of neuron apoptotic process] 1: Homo sapiens Neurons | Cell Line   1
3. Ashwagandha lipid oxidation lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased lipid oxidation] 1: Rattus norvegicus Kidney   1
4. Ashwagandha positive regulation of NF-kappaB transcription factor activity Lipopolysaccharides Ashwagandha inhibits the reaction [Lipopolysaccharides results in increased positive regulation of NF-kappaB transcription factor activity] 1: Rattus norvegicus Astrocytes | Cell Line 1 gene: CAT 1
5. Ashwagandha positive regulation of cell death lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased positive regulation of cell death] 1: Rattus norvegicus Neuroglia | Cell Line, Tumor   1
6. Ashwagandha positive regulation of glial cell differentiation Ashwagandha results in increased positive regulation of glial cell differentiation 1: Rattus norvegicus Cell Line, Tumor   1
7. Ashwagandha lipid oxidation lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased lipid oxidation] 1: Rattus norvegicus Liver   1
8. Ashwagandha lipid oxidation lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased lipid oxidation] 1: Rattus norvegicus Neocortex   1
9. Ashwagandha positive regulation of cell death Ashwagandha results in increased positive regulation of cell death 2: Homo sapiens | Mus musculus Cell Line, Tumor   1
10. Ashwagandha lipid oxidation lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased lipid oxidation] 1: Rattus norvegicus Hypothalamus   1
11. Ashwagandha lipid oxidation lead nitrate Ashwagandha inhibits the reaction [lead nitrate results in increased lipid oxidation] 1: Rattus norvegicus Hippocampus   1
12. ciklavit response to oxidative stress Acetaminophen ciklavit inhibits the reaction [Acetaminophen results in increased response to oxidative stress] 1: Mus musculus Hepatocytes 1 gene: CAT 1
13. ciklavit membrane lipid catabolic process Acetaminophen ciklavit inhibits the reaction [Acetaminophen results in increased membrane lipid catabolic process] 1: Mus musculus Liver   1
14. ciklavit membrane lipid catabolic process Acetaminophen ciklavit inhibits the reaction [Acetaminophen results in increased membrane lipid catabolic process] 1: Mus musculus Kidney   1
15. Curare negative regulation of striated muscle contraction Amphibian Venoms | regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction Amphibian Venoms inhibits the reaction [[Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction] which results in increased negative regulation of striated muscle contraction] 1: Gallus gallus Neck Muscles   1
16. Curare acetylcholine receptor signaling pathway Nicotine Curare inhibits the reaction [Nicotine results in increased acetylcholine receptor signaling pathway] 1: Periplaneta americana Neuroendocrine Cells   1
17. Curare regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction negative regulation of striated muscle contraction [Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction] which results in increased negative regulation of striated muscle contraction 1: Gallus gallus Neck Muscles   1
18. Curare negative regulation of striated muscle contraction regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction [Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction] which results in increased negative regulation of striated muscle contraction 1: Gallus gallus Neck Muscles   1
19. Curare regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction Amphibian Venoms | negative regulation of striated muscle contraction Amphibian Venoms inhibits the reaction [[Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction] which results in increased negative regulation of striated muscle contraction] 1: Gallus gallus Neck Muscles   1
20. Curare regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction Amphibian Venoms Amphibian Venoms inhibits the reaction [Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction] 1: Gallus gallus Neck Muscles   1
21. Curare regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction Curare affects regulation of skeletal muscle contraction by neural stimulation via neuromuscular junction 1: Gallus gallus Neck Muscles   1
22. dan-shen root extract regulation of mitochondrial membrane potential fulvestrant | IGF2 fulvestrant inhibits the reaction [dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects regulation of mitochondrial membrane potential]] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line 1 gene: BCL2L1 1
23. dan-shen root extract regulation of intracellular estrogen receptor signaling pathway IGF2 dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects regulation of intracellular estrogen receptor signaling pathway] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
24. dan-shen root extract regulation of protein kinase B signaling dan-shen root extract affects regulation of protein kinase B signaling 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
25. dan-shen root extract positive regulation of apoptotic signaling pathway IGF2 dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects positive regulation of apoptotic signaling pathway] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
26. dan-shen root extract positive regulation of phosphoprotein phosphatase activity IGF2 dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects positive regulation of phosphoprotein phosphatase activity] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
27. dan-shen root extract regulation of protein kinase B signaling fulvestrant fulvestrant inhibits the reaction [dan-shen root extract affects regulation of protein kinase B signaling] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
28. dan-shen root extract regulation of mitochondrial membrane potential IGF2 dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects regulation of mitochondrial membrane potential] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line 1 gene: BCL2L1 1
29. dan-shen root extract positive regulation of insulin-like growth factor receptor signaling pathway IGF2 dan-shen root extract inhibits the reaction [IGF2 protein mutant form affects positive regulation of insulin-like growth factor receptor signaling pathway] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
30. Drugs, Chinese Herbal positive regulation of cell proliferation Drugs, Chinese Herbal results in decreased positive regulation of cell proliferation 1: Homo sapiens Breast | Cell Line, Tumor
79 genes: ADM | ADRB2 | AGT | AGTR2 | AKT1 | ATF3 | BCL2 | BCL2L1 | BIRC5 | CAPN1 | CCND1 | CCND2 | CCND3 | CD86 | CDC20 | CDK2 | CDKN1B | CSF2 | CTF1 | CTNNB1 | EDN1 | EDNRA | EFNB2 | EGF | EGFR | EIF5A | EIF5A2 | EPO | FGF2 | FGFR1 | FLT1 | FLT4 | FOSL1 | HES1 | HGF | HIF1A | HRAS | HSP90AA1 | IFNG | IGF1 | IHH | IKBKB | IL1B | IL2 | IL4 | IL5 | IL6 | IL6R | INSR | JUN | KIF20B | KLF5 | KRAS | LEP | LYN | MAPK1 | MYC | NAMPT | NOX1 | PDCD10 | PDGFB | PGR | PPARD | PRKACA | PTGS2 | RELA | RRM2 | RUNX2 | SHC4 | SRPK2 | STAT3 | TBX3 | TGFB1 | TGFBR2 | TIMP1 | TNF | VEGFA | VEGFD | WNT5A
1
31. Drugs, Chinese Herbal reactive oxygen species metabolic process bisphenol A Drugs, Chinese Herbal inhibits the reaction [bisphenol A results in increased reactive oxygen species metabolic process] 1: Rattus norvegicus Plasma
9 genes: BCL2 | CAT | DDIT4 | MET | PDGFB | PMAIP1 | SESN2 | SOD1 | SOD2
1
32. Drugs, Chinese Herbal regulation of mitochondrial membrane potential Arachidonic Acid | Iron Drugs, Chinese Herbal inhibits the reaction [[Arachidonic Acid co-treated with Iron] affects regulation of mitochondrial membrane potential] 1: Homo sapiens Hep G2 Cells
7 genes: BAK1 | BAX | BCL2 | BCL2L1 | PYCR1 | SOD1 | SOD2
1
33. Drugs, Chinese Herbal lipid catabolic process Doxorubicin Drugs, Chinese Herbal inhibits the reaction [Doxorubicin results in increased lipid catabolic process] 1: Rattus norvegicus Kidney
5 genes: APOC3 | MITF | PLA2G2A | PNPLA2 | RARRES3
1
34. Drugs, Chinese Herbal positive regulation of reactive oxygen species biosynthetic process tert-Butylhydroperoxide Drugs, Chinese Herbal inhibits the reaction [tert-Butylhydroperoxide results in increased positive regulation of reactive oxygen species biosynthetic process] 1: Homo sapiens Hep G2 Cells
2 genes: FOXO3 | IL4
1
35. Drugs, Chinese Herbal positive regulation of apoptotic process Drugs, Chinese Herbal results in increased positive regulation of apoptotic process 1: Homo sapiens Stomach | Epithelial Cells | Cell Line, Transformed
69 genes: ADM | ADRB1 | ADRB2 | AGER | AIFM1 | AKT1 | APC | ATF6 | ATM | BAK1 | BAX | BBC3 | BCL2L1 | BCL6 | BID | CASP12 | CASP3 | CASP6 | CASP8 | CASP9 | CDKN2A | CTNNB1 | CYP1B1 | DDIT3 | DNAJA1 | DUSP1 | EIF5A | ENDOG | ESR2 | FAS | FOSL1 | FOXO3 | GADD45A | GADD45B | GSK3B | HIF1A | HMOX1 | IFNG | IL1B | IL6 | JUN | LDHA | MAP3K5 | MAPK8 | MAPK9 | MIR29C | MLLT11 | MMP2 | MMP9 | NOS2 | NOS3 | NUPR1 | PDIA3 | PMAIP1 | PPARG | PPP1R15A | PPP2CA | PTGS2 | RELA | SOD1 | SRC | TCF7L2 | TGFB1 | TNF | TNFRSF12A | TNFSF10 | TP53 | UACA | UBC
1
36. Drugs, Chinese Herbal nitric oxide biosynthetic process Doxorubicin Drugs, Chinese Herbal inhibits the reaction [Doxorubicin results in increased nitric oxide biosynthetic process] 1: Rattus norvegicus Plasma
6 genes: AKT1 | CYP1B1 | HSP90AA1 | NOS2 | NOS3 | NQO1
1
37. Drugs, Chinese Herbal apoptotic process Ethanol Drugs, Chinese Herbal inhibits the reaction [Ethanol results in increased apoptotic process] 1: Mus musculus Gastric Mucosa
81 genes: ADRA1A | ADRB1 | AHR | AIFM1 | AKT1 | ATM | BAG3 | BAK1 | BAX | BBC3 | BCL2 | BCL2L1 | BID | BIRC5 | C5AR1 | CASP12 | CASP3 | CASP6 | CASP8 | CASP9 | CD14 | CDKN2A | CHAC1 | CIDEC | CSRNP2 | CYCS | DAP | DDIT3 | DDIT4 | DEDD | DEDD2 | DLC1 | EIF5A | ELMO2 | EPO | FAS | FOXO3 | FXR1 | GADD45A | GADD45B | GPX1 | HMOX1 | HRAS | IER3 | IFNG | IL1A | IL1B | IRF3 | LCK | MAP3K5 | MAPK1 | MAPK14 | MAPK3 | MCL1 | NFKB1 | NFKBIA | PARP1 | PDCD10 | PMAIP1 | PPARD | PPP1R15A | PPP2CA | PPP2R1A | PRDX5 | PRKCA | RNF41 | S100A9 | SHC4 | STK11 | TAOK2 | TGFBR2 | TNF | TNFRSF10A | TNFRSF10B | TNFRSF12A | TNFRSF18 | TNFSF10 | TNFSF9 | TP53 | TRIB3 | XAF1
1
38. Drugs, Chinese Herbal cell proliferation Drugs, Chinese Herbal results in decreased cell proliferation 1: Mus musculus Liver | Cell Line, Tumor
54 genes: ACHE | AKT1 | AXIN2 | BAK1 | BAX | BCL2 | BCL2L1 | CITED2 | CLK1 | CREBBP | CTF1 | CTNNB1 | CYP1A1 | DDIT4 | EDNRA | EGFR | ELF5 | EPO | FGF2 | GLUL | GPX1 | GSK3B | HDGF | HGF | HRAS | IGF1 | IL12A | IL12B | IL1A | KIF15 | KIF2C | MAP2K1 | MET | MXD1 | MYC | NDP | NUPR1 | PCNA | PLK1 | PPARD | SRC | STAT3 | SYK | TCF7L2 | TFDP1 | TGFB1 | TNF | TNFSF9 | TP53 | TXNRD1 | TYR | VEGFA | VEGFD | XRCC5
1
39. Drugs, Chinese Herbal lipid catabolic process Doxorubicin Drugs, Chinese Herbal inhibits the reaction [Doxorubicin results in increased lipid catabolic process] 1: Rattus norvegicus Plasma
5 genes: APOC3 | MITF | PLA2G2A | PNPLA2 | RARRES3
1
40. Drugs, Chinese Herbal positive regulation of ERK1 and ERK2 cascade Drugs, Chinese Herbal results in decreased positive regulation of ERK1 and ERK2 cascade 1: Homo sapiens Breast | Cell Line, Tumor
30 genes: ACTA2 | ADRA1A | AGER | C5AR1 | CD44 | EDNRA | EGFR | EPO | ESR1 | ESR2 | FGF2 | FLT4 | HRAS | ICAM1 | IL1A | IL1B | IL6 | JUN | MAP2K1 | MAPK3 | MARCO | PDGFB | PLA2G2A | PRKCA | RAPGEF2 | SRC | TEK | TGFB1 | TNF | VEGFA
1
41. Drugs, Chinese Herbal cell proliferation Arachidonic Acid | Iron Drugs, Chinese Herbal inhibits the reaction [[Arachidonic Acid co-treated with Iron] results in decreased cell proliferation] 1: Homo sapiens Hep G2 Cells
54 genes: ACHE | AKT1 | AXIN2 | BAK1 | BAX | BCL2 | BCL2L1 | CITED2 | CLK1 | CREBBP | CTF1 | CTNNB1 | CYP1A1 | DDIT4 | EDNRA | EGFR | ELF5 | EPO | FGF2 | GLUL | GPX1 | GSK3B | HDGF | HGF | HRAS | IGF1 | IL12A | IL12B | IL1A | KIF15 | KIF2C | MAP2K1 | MET | MXD1 | MYC | NDP | NUPR1 | PCNA | PLK1 | PPARD | SRC | STAT3 | SYK | TCF7L2 | TFDP1 | TGFB1 | TNF | TNFSF9 | TP53 | TXNRD1 | TYR | VEGFA | VEGFD | XRCC5
1
42. Drugs, Chinese Herbal positive regulation of smooth muscle contraction Acetylcholine Drugs, Chinese Herbal inhibits the reaction [Acetylcholine results in increased positive regulation of smooth muscle contraction] 1: Cavia porcellus Trachea | Muscle, Smooth
3 genes: ADRA1A | EDN1 | PTGS2
1
43. Drugs, Chinese Herbal regulation of blood pressure Sodium, Dietary Drugs, Chinese Herbal inhibits the reaction [Sodium, Dietary results in increased regulation of blood pressure] 1: Rattus norvegicus Cardiovascular System
17 genes: ACTA2 | AGT | AGTR2 | AHR | COL1A2 | EDN1 | EDNRA | HMOX1 | LEP | NOS2 | NOS3 | NOX1 | NPPA | PPARG | PTGS2 | SOD1 | SOD2
1
44. Drugs, Chinese Herbal cell proliferation Drugs, Chinese Herbal results in decreased cell proliferation 1: Homo sapiens Lung | Cell Line, Tumor
54 genes: ACHE | AKT1 | AXIN2 | BAK1 | BAX | BCL2 | BCL2L1 | CITED2 | CLK1 | CREBBP | CTF1 | CTNNB1 | CYP1A1 | DDIT4 | EDNRA | EGFR | ELF5 | EPO | FGF2 | GLUL | GPX1 | GSK3B | HDGF | HGF | HRAS | IGF1 | IL12A | IL12B | IL1A | KIF15 | KIF2C | MAP2K1 | MET | MXD1 | MYC | NDP | NUPR1 | PCNA | PLK1 | PPARD | SRC | STAT3 | SYK | TCF7L2 | TFDP1 | TGFB1 | TNF | TNFSF9 | TP53 | TXNRD1 | TYR | VEGFA | VEGFD | XRCC5
1
45. Drugs, Chinese Herbal mitotic cell cycle arrest Drugs, Chinese Herbal results in increased mitotic cell cycle arrest 1: Homo sapiens Stomach | Epithelial Cells | Cell Line, Transformed
5 genes: CDKN1A | CDKN1B | DUSP1 | GADD45A | TP53
1
46. Drugs, Chinese Herbal positive regulation of vasoconstriction BRL 15572 BRL 15572 inhibits the reaction [Drugs, Chinese Herbal results in increased positive regulation of vasoconstriction] 1: Rattus norvegicus Aorta
7 genes: ADRA1A | AKT1 | ALOX5 | EGFR | ICAM1 | PDGFB | PTGS2
1
47. Drugs, Chinese Herbal positive regulation of protein import into nucleus NFE2L2 [Drugs, Chinese Herbal results in increased positive regulation of protein import into nucleus] which affects the localization of NFE2L2 protein 1: Homo sapiens Hep G2 Cells
10 genes: BAG3 | CDH1 | LEP | MAPK14 | PIK3R1 | PTGS2 | SMAD3 | TEK | TGFB1 | UACA
1
48. Drugs, Chinese Herbal positive regulation of vasoconstriction Prazosin Prazosin inhibits the reaction [Drugs, Chinese Herbal results in increased positive regulation of vasoconstriction] 1: Rattus norvegicus Aorta
7 genes: ADRA1A | AKT1 | ALOX5 | EGFR | ICAM1 | PDGFB | PTGS2
1
49. Drugs, Chinese Herbal positive regulation of JNK cascade Drugs, Chinese Herbal results in increased positive regulation of JNK cascade 1: Homo sapiens Breast | Cell Line, Tumor
12 genes: AGER | FLT4 | GADD45A | GADD45B | HRAS | IL1A | IL1B | MAP3K5 | NOX1 | TAOK2 | TNF | WNT5A
1
50. Drugs, Chinese Herbal positive regulation of vasoconstriction Ketanserin Ketanserin inhibits the reaction [Drugs, Chinese Herbal results in increased positive regulation of vasoconstriction] 1: Rattus norvegicus Aorta
7 genes: ADRA1A | AKT1 | ALOX5 | EGFR | ICAM1 | PDGFB | PTGS2
1
1–50 of 1,310 results.