APA
Arisan E. D., Akar R. O., Rencuzogullari O., Obakan Yerlikaya P., Coker Gurkan A., Akın B., Dener E., Kayhan E. & Palavan Unsal N. (2019). The molecular targets of diclofenac differs from ibuprofen to induce apoptosis and epithelial mesenchymal transition due to alternation on oxidative stress management p53 independently in PC3 prostate cancer cells. : Prostate international.
Chicago
Arisan Elif D, Akar Remzi O, Rencuzogullari Ozge, Obakan Yerlikaya Pinar, Coker Gurkan Ajda, Akın Beyza, Dener Elif, Kayhan Ecem and Palavan Unsal Narcin. 2019. The molecular targets of diclofenac differs from ibuprofen to induce apoptosis and epithelial mesenchymal transition due to alternation on oxidative stress management p53 independently in PC3 prostate cancer cells. : Prostate international.
Harvard
Arisan E. D., Akar R. O., Rencuzogullari O., Obakan Yerlikaya P., Coker Gurkan A., Akın B., Dener E., Kayhan E. and Palavan Unsal N. (2019). The molecular targets of diclofenac differs from ibuprofen to induce apoptosis and epithelial mesenchymal transition due to alternation on oxidative stress management p53 independently in PC3 prostate cancer cells. : Prostate international.
MLA
Arisan Elif D, Akar Remzi O, Rencuzogullari Ozge, Obakan Yerlikaya Pinar, Coker Gurkan Ajda, Akın Beyza, Dener Elif, Kayhan Ecem and Palavan Unsal Narcin. The molecular targets of diclofenac differs from ibuprofen to induce apoptosis and epithelial mesenchymal transition due to alternation on oxidative stress management p53 independently in PC3 prostate cancer cells. : Prostate international. 2019.