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Chemical Alkaloids

1–50 of 5,488 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 10-hydroxycamptothecin apoptotic process Fluorouracil | Leucovorin [10-hydroxycamptothecin co-treated with Fluorouracil co-treated with Leucovorin] results in increased apoptotic process 1: Homo sapiens Intestine, Large | Cells
4 genes: BCL2 | BCL2L1 | CASP3 | DDIT3
1
2. 10-hydroxycamptothecin cell proliferation 10-hydroxycamptothecin results in decreased cell proliferation 1: Homo sapiens Ovary | Cell Line, Tumor
2 genes: BCL2 | BCL2L1
1
3. 10-hydroxycamptothecin apoptotic process 10-hydroxycamptothecin results in increased apoptotic process 1: Homo sapiens Ovary | Cell Line, Tumor
4 genes: BCL2 | BCL2L1 | CASP3 | DDIT3
1
4. 10-hydroxycamptothecin apoptotic DNA fragmentation 10-hydroxycamptothecin results in increased apoptotic DNA fragmentation 1: Homo sapiens Ovary | Cell Line, Tumor 1 gene: CASP3 1
5. 10-hydroxycamptothecin cell proliferation 10-hydroxycamptothecin results in decreased cell proliferation 1: Homo sapiens Lung | Cell Line, Tumor
2 genes: BCL2 | BCL2L1
1
6. 10-hydroxycamptothecin cell proliferation 10-hydroxycamptothecin analog affects cell proliferation 1: Homo sapiens Lung | Cell Line, Tumor
2 genes: BCL2 | BCL2L1
1
7. 10-hydroxycamptothecin mitotic cell cycle arrest 10-hydroxycamptothecin results in increased mitotic cell cycle arrest 1: Homo sapiens Lung | Cell Line, Tumor   1
8. 10-hydroxycamptothecin mitotic cell cycle arrest 10-hydroxycamptothecin analog results in increased mitotic cell cycle arrest 1: Homo sapiens Lung | Cell Line, Tumor   1
9. 10-hydroxycamptothecin apoptotic process 10-hydroxycamptothecin results in increased apoptotic process 1: Homo sapiens Lung | Cell Line, Tumor
4 genes: BCL2 | BCL2L1 | CASP3 | DDIT3
1
10. 10-hydroxycamptothecin apoptotic process 10-hydroxycamptothecin analog results in increased apoptotic process 1: Homo sapiens Lung | Cell Line, Tumor
4 genes: BCL2 | BCL2L1 | CASP3 | DDIT3
1
11. 10-hydroxycamptothecin cell proliferation Roscovitine Roscovitine promotes the reaction [10-hydroxycamptothecin analog affects cell proliferation] 1: Homo sapiens Lung | Cell Line, Tumor
2 genes: BCL2 | BCL2L1
1
12. 10-hydroxycamptothecin cell proliferation olomoucine olomoucine promotes the reaction [10-hydroxycamptothecin analog affects cell proliferation] 1: Homo sapiens Lung | Cell Line, Tumor
2 genes: BCL2 | BCL2L1
1
13. 10-hydroxycamptothecin negative regulation of cell proliferation 10-hydroxycamptothecin results in increased negative regulation of cell proliferation 1: Homo sapiens Stomach | Cell Line, Tumor 1 gene: BCL2 1
14. 1,3-dipropyl-8-cyclopentylxanthine vasodilation Glyburide 1,3-dipropyl-8-cyclopentylxanthine promotes the reaction [Glyburide results in decreased vasodilation] 1: Rattus norvegicus Ileum | Blood Vessels 1 gene: ADORA2A 1
15. 1,3-dipropyl-8-cyclopentylxanthine vasodilation Glucose 1,3-dipropyl-8-cyclopentylxanthine inhibits the reaction [Glucose results in increased vasodilation] 1: Rattus norvegicus Jejunum | Blood Vessels 1 gene: ADORA2A 1
16. 1,3-dipropyl-8-cyclopentylxanthine cell growth APP | cordycepin 1,3-dipropyl-8-cyclopentylxanthine inhibits the reaction [cordycepin inhibits the reaction [APP protein modified form results in decreased cell growth]] Hippocampus | Neurons | Cells, Cultured   1
17. 1,3-dipropyl-8-cyclopentylxanthine calcium ion import across plasma membrane APP | cordycepin 1,3-dipropyl-8-cyclopentylxanthine inhibits the reaction [cordycepin inhibits the reaction [APP protein modified form results in increased calcium ion import across plasma membrane]] Hippocampus | Neurons | Cells, Cultured   1
18. 1,7-dimethyluric acid exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in increased abundance of 1,7-dimethyluric acid 1: Homo sapiens Urine 1 gene: CYP2A6 1
19. 1,7-dimethylxanthine regulation of blood pressure 1,7-dimethylxanthine affects regulation of blood pressure 1: Homo sapiens Cardiovascular System   1
20. 1,7-dimethylxanthine exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in decreased abundance of 1,7-dimethylxanthine 1: Homo sapiens Plasma
2 genes: CYP1A2 | CYP2A6
1
21. 1,7-dimethylxanthine exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in decreased abundance of 1,7-dimethylxanthine 1: Homo sapiens Urine
2 genes: CYP1A2 | CYP2A6
1
22. 1,7-dimethylxanthine drug catabolic process Rifampin [Rifampin results in increased drug catabolic process] which results in increased chemical synthesis of 1,7-dimethylxanthine 1: Homo sapiens Hepatocytes | Cell Line, Tumor 1 gene: CYP1A2 1
23. 1,7-dimethylxanthine drug catabolic process Rifampin [Rifampin results in increased drug catabolic process] which results in increased chemical synthesis of 1,7-dimethylxanthine 1: Homo sapiens Hepatocytes | Cells, Cultured 1 gene: CYP1A2 1
24. 1,7-dimethylxanthine drug catabolic process Methylcholanthrene [Methylcholanthrene results in increased drug catabolic process] which results in increased chemical synthesis of 1,7-dimethylxanthine 1: Homo sapiens Hepatocytes | Spheroids, Cellular 1 gene: CYP1A2 1
25. 1-methyluric acid exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in increased abundance of 1-methyluric acid 1: Homo sapiens Urine   1
26. 1-methylxanthine exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in decreased abundance of 1-methylxanthine 1: Homo sapiens Plasma 1 gene: CYP1A2 1
27. 1-methylxanthine exogenous drug catabolic process Caffeine | Quercetin [[Quercetin affects exogenous drug catabolic process] which affects the metabolism of Caffeine] which results in decreased abundance of 1-methylxanthine 1: Homo sapiens Urine 1 gene: CYP1A2 1
28. 1-propyl-8-(4-sulfophenyl)xanthine cell proliferation 1-propyl-8-(4-sulfophenyl)xanthine results in decreased cell proliferation 1: Mus musculus Skin | Cell Line, Tumor 1 gene: FGF2 1
29. 2-oxindole cell proliferation 2-oxindole analog results in decreased cell proliferation 1: Homo sapiens MCF-7 Cells 1 gene: CDK4 1
30. 2-oxindole cell proliferation 2-oxindole analog results in decreased cell proliferation 1: Homo sapiens Breast | Cell Line, Tumor 1 gene: CDK4 1
31. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine response to antineoplastic agent 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine results in increased response to antineoplastic agent 1: Homo sapiens Precursor Cells, B-Lymphoid | Cell Line, Tumor   1
32. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine response to antineoplastic agent Methotrexate [3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine results in increased response to antineoplastic agent] which results in increased susceptibility to Methotrexate 1: Homo sapiens Precursor Cells, B-Lymphoid | Cell Line, Tumor   1
33. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine response to antineoplastic agent Doxorubicin [3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine results in increased response to antineoplastic agent] which results in increased susceptibility to Doxorubicin 1: Homo sapiens Precursor Cells, B-Lymphoid | Cell Line, Tumor   1
34. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine positive regulation of cell death Methotrexate 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine promotes the reaction [Methotrexate results in increased positive regulation of cell death] 1: Homo sapiens Precursor Cells, B-Lymphoid | Cell Line, Tumor   1
35. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine positive regulation of cell death Doxorubicin 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine promotes the reaction [Doxorubicin results in increased positive regulation of cell death] 1: Homo sapiens Precursor Cells, B-Lymphoid | Cell Line, Tumor   1
36. 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine cell proliferation 3-keto-N-aminoethylaminoethylcaproyldihydrocinnamoyl cyclopamine results in decreased cell proliferation 1: Homo sapiens HT29 Cells 1 gene: BCL2 1
37. 5'-acetoxy-N'-nitrosonornicotine DNA modification 5'-acetoxy-N'-nitrosonornicotine results in increased DNA modification 1: Rattus norvegicus Hepatocytes | Cells, Cultured   1
38. 5'-acetoxy-N'-nitrosonornicotine DNA modification 5'-acetoxy-N'-nitrosonornicotine results in increased DNA modification 1: Bos taurus Thymus Gland   1
39. 6-codeinone cell death 6-codeinone results in increased cell death 1: Homo sapiens HL-60 Cells   1
40. 6-codeinone cell death Acetylcysteine Acetylcysteine inhibits the reaction [6-codeinone results in increased cell death] 1: Homo sapiens HL-60 Cells   1
41. 6-codeinone positive regulation of apoptotic DNA fragmentation 6-codeinone results in increased positive regulation of apoptotic DNA fragmentation 1: Homo sapiens HL-60 Cells 1 gene: BAX 1
42. 6-codeinone positive regulation of release of cytochrome c from mitochondria 6-codeinone results in increased positive regulation of release of cytochrome c from mitochondria 1: Homo sapiens HL-60 Cells 1 gene: BAX 1
43. 6-codeinone positive regulation of cell death 6-codeinone results in increased positive regulation of cell death 1: Homo sapiens Lung | Cell Line, Tumor   1
44. 6-codeinone positive regulation of cell death 6-codeinone results in increased positive regulation of cell death 1: Homo sapiens MCF-7 Cells   1
45. 6-codeinone positive regulation of cell death 6-codeinone results in increased positive regulation of cell death 1: Homo sapiens Periodontal Ligament | Fibroblasts | Cells, Cultured   1
46. 6-codeinone positive regulation of cell death 6-codeinone results in increased positive regulation of cell death 1: Homo sapiens Gingiva | Fibroblasts | Cells, Cultured   1
47. 6-codeinone positive regulation of cell death 6-codeinone results in increased positive regulation of cell death 1: Homo sapiens Dental Pulp | Cells, Cultured   1
48. 7-ethyl-10-hydroxycamptothecin glucuronide drug metabolic process Paclitaxel [Paclitaxel results in increased drug metabolic process] which results in increased abundance of 7-ethyl-10-hydroxycamptothecin glucuronide 1: Mus musculus Hepatocytes | Cells, Cultured   1
49. 7-ethyl-10-hydroxycamptothecin glucuronide drug metabolic process Paclitaxel | TLR4 TLR4 protein mutant form inhibits the reaction [[Paclitaxel results in increased drug metabolic process] which results in increased abundance of 7-ethyl-10-hydroxycamptothecin glucuronide] 1: Mus musculus Hepatocytes | Cells, Cultured   1
50. 7-ethyl-14-aminocamptothecin cell proliferation 7-ethyl-14-aminocamptothecin results in decreased cell proliferation 1: Homo sapiens Lung | Cell Line, Tumor   1
1–50 of 5,488 results.