S. G. Kutuk Et Al. , "Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress," SCIENTIFIC REPORTS , vol.9, 2019
Kutuk, S. G. Et Al. 2019. Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress. SCIENTIFIC REPORTS , vol.9 .
Kutuk, S. G., Gokce, G., Kutuk, M., Cila, H. E. S. G., & NAZIROĞLU, M., (2019). Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress. SCIENTIFIC REPORTS , vol.9.
Kutuk, Sinem Et Al. "Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress," SCIENTIFIC REPORTS , vol.9, 2019
Kutuk, Sinem G. Et Al. "Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress." SCIENTIFIC REPORTS , vol.9, 2019
Kutuk, S. G. Et Al. (2019) . "Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress." SCIENTIFIC REPORTS , vol.9.
@article{article, author={Sinem Gokce Kutuk Et Al. }, title={Curcumin enhances cisplatin-induced human laryngeal squamous cancer cell death through activation of TRPM2 channel and mitochondrial oxidative stress}, journal={SCIENTIFIC REPORTS}, year=2019}