Akar, M. Et Al. 2023. UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis. TOXICOLOGY MECHANISMS AND METHODS , vol.33, no.1 , 56-64.

Akar, M., Ercin, M., Boran, T., Gezginci-Oktayoglu, S., & Özhan, G., (2023). UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis. TOXICOLOGY MECHANISMS AND METHODS , vol.33, no.1, 56-64.

Akar, Muzeyyen Et Al. "UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis," TOXICOLOGY MECHANISMS AND METHODS , vol.33, no.1, 56-64, 2023

Akar, Muzeyyen Et Al. "UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis." TOXICOLOGY MECHANISMS AND METHODS , vol.33, no.1, pp.56-64, 2023

Akar, M. Et Al. (2023) . "UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis." TOXICOLOGY MECHANISMS AND METHODS , vol.33, no.1, pp.56-64.

@article{article, author={Muzeyyen Akar Et Al. }, title={UR-144, synthetic cannabinoid receptor agonist, induced cardiomyoblast toxicity mechanism comprises cytoplasmic Ca2+ and DAPK1 related autophagy and necrosis}, journal={TOXICOLOGY MECHANISMS AND METHODS}, year=2023, pages={56-64} }