E. TUNCAY Et Al. , "Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes," OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014, 2014
TUNCAY, E. Et Al. 2014. Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes. OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014 .
TUNCAY, E., Okatan, E. N., Toy, A., & Turan, B., (2014). Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes. OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014.
TUNCAY, ERKAN Et Al. "Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes," OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014, 2014
TUNCAY, ERKAN Et Al. "Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes." OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014, 2014
TUNCAY, E. Et Al. (2014) . "Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes." OXIDATIVE MEDICINE AND CELLULAR LONGEVITY , vol.2014.
@article{article, author={ERKAN TUNCAY Et Al. }, title={Enhancement of Cellular Antioxidant-Defence Preserves Diastolic Dysfunction via Regulation of Both Diastolic Zn2+ and Ca2+ and Prevention of RyR2-Leak in Hyperglycemic Cardiomyocytes}, journal={OXIDATIVE MEDICINE AND CELLULAR LONGEVITY}, year=2014}