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ChemicalChemical: Mephenytoin

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  Interacting Chemical Interacting Gene Organism Interaction Reference
1. Mephenytoin CYP1A Pygoscelis adeliae Mephenytoin does not affect the activity of CYP1A protein Wanwimolruk S, et al. (2006).
2. Mephenytoin CYP1A2 Homo sapiens Mephenytoin does not affect the reaction [CYP1A2 protein results in decreased ethylation of 7-ethoxy-4-trifluoromethylcoumarin] Ekins S, et al. (1997).
3. Mephenytoin CYP1A2 Homo sapiens Mephenytoin does not affect the reaction [CYP1A2 protein results in increased chemical synthesis of 7-hydroxy-4-trifluoromethylcoumarin] Ekins S, et al. (1997).
4. Mephenytoin CYP2B6 Homo sapiens CYP2B6 protein results in decreased methylation of Mephenytoin Yuan R, et al. (2002).
5. Mephenytoin CYP2B6 Homo sapiens CYP2B6 protein results in increased metabolism of Mephenytoin Lewis DF. (2003).
6. Mephenytoin CYP2B6 Homo sapiens Mephenytoin inhibits the reaction [CYP2B6 protein results in decreased ethylation of 7-ethoxy-4-trifluoromethylcoumarin] Ekins S, et al. (1997).
7. Mephenytoin CYP2B6 Homo sapiens Mephenytoin inhibits the reaction [CYP2B6 protein results in increased chemical synthesis of 7-hydroxy-4-trifluoromethylcoumarin] Ekins S, et al. (1997).
8. Mephenytoin CYP2B6 Homo sapiens Mephenytoin results in decreased activity of CYP2B6 protein Ekins S, et al. (1997).
9. Mephenytoin CYP2C Homo sapiens CYP2C protein results in increased hydroxylation of Mephenytoin Shimada T, et al. (1997).
10. Mephenytoin CYP2C Macaca fascicularis CYP2C protein results in increased hydroxylation of Mephenytoin Shimada T, et al. (1997).
11. 4-hydroxymephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased chemical synthesis of 4-hydroxymephenytoin Lutz ES, et al. (2002).
12. 4-hydroxymephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased chemical synthesis of 4-hydroxymephenytoin Walsky RL, et al. (2004).
13. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein affects the metabolism of Mephenytoin Guengerich FP, et al. (1987).
14. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased hydroxylation of Mephenytoin Yuan R, et al. (2002).
15. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased hydroxylation of Mephenytoin Lim HK, et al. (2005).
16. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased hydroxylation of Mephenytoin Emoto C, et al. (2003).
17. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Lewis DF. (2003).
18. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Veiga MI, et al. (2008).
19. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Lutz ES, et al. (2002).
20. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Kim KA, et al. (2004).
21. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Walsky RL, et al. (2004).
22. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Liu KH, et al. (2004).
23. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Kim MJ, et al. (2005).
24. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Li X, et al. (2007).
25. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Yao M, et al. (2007).
26. Mephenytoin CYP2C19 Homo sapiens CYP2C19 protein results in increased metabolism of Mephenytoin Atkinson A, et al. (2005).
27. Mephenytoin CYP2C19 Homo sapiens Mephenytoin results in decreased activity of CYP2C19 protein Testino SA JR, et al. (2003).
28. Mephenytoin CYP2C19 Homo sapiens [Mephenytoin results in decreased activity of CYP2C19 protein] which results in decreased degradation of vanoxerine Cherstniakova SA, et al. (2001).
29. Mephenytoin CYP2C19 Homo sapiens pranlukast does not affect the reaction [CYP2C19 protein results in increased metabolism of Mephenytoin] Liu KH, et al. (2004).
30. Mephenytoin CYP2C19 Homo sapiens Ticlopidine inhibits the reaction [CYP2C19 protein results in increased metabolism of Mephenytoin] Atkinson A, et al. (2005).
31. Mephenytoin CYP2C19 Homo sapiens ursolic acid inhibits the reaction [CYP2C19 protein results in increased metabolism of Mephenytoin] Kim KA, et al. (2004).
32. Mephenytoin CYP2C19 Homo sapiens zafirlukast inhibits the reaction [CYP2C19 protein results in increased metabolism of Mephenytoin] Liu KH, et al. (2004).
33. N-3-benzylnirvanol CYP2C19 Homo sapiens N-3-benzylnirvanol inhibits the reaction [CYP2C19 protein results in increased oxidation of 2-oxo-clopidogrel] Kazui M, et al. (2010).
34. N-3-benzylnirvanol CYP2C19 Homo sapiens N-3-benzylnirvanol inhibits the reaction [CYP2C19 protein results in increased oxidation of clopidogrel] Kazui M, et al. (2010).
35. N-3-benzylnirvanol CYP2C19 Homo sapiens N-3-benzylnirvanol results in decreased activity of CYP2C19 protein Lim HK, et al. (2005).
36. N-3-benzylnirvanol CYP2C19 Homo sapiens N-3-benzylnirvanol results in decreased activity of CYP2C19 protein Walsky RL, et al. (2004).
37. Mephenytoin NR1I2 Homo sapiens Mephenytoin binds to and results in increased activity of NR1I2 protein Kobayashi K, et al. (2004).
Showing 1–37 of 37
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