OLĞAR, Y. Et Al. 2020. Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes. Molecular and Cellular Biochemistry , vol.469, no.1-2 , 97-107.

OLĞAR, Y., TUNCAY, E., BİLLUR, D., DURAK, A., ÖZDEMİR, S., & TURAN, B., (2020). Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes. Molecular and Cellular Biochemistry , vol.469, no.1-2, 97-107.

OLĞAR, YUSUF Et Al. "Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes," Molecular and Cellular Biochemistry , vol.469, no.1-2, 97-107, 2020

OLĞAR, YUSUF Et Al. "Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes." Molecular and Cellular Biochemistry , vol.469, no.1-2, pp.97-107, 2020

OLĞAR, Y. Et Al. (2020) . "Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes." Molecular and Cellular Biochemistry , vol.469, no.1-2, pp.97-107.

@article{article, author={YUSUF OLĞAR Et Al. }, title={Ticagrelor reverses the mitochondrial dysfunction through preventing accumulated autophagosomes-dependent apoptosis and ER stress in insulin-resistant H9c2 myocytes}, journal={Molecular and Cellular Biochemistry}, year=2020, pages={97-107} }