M. Cakir Et Al. , "ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats," LIFE SCIENCES , vol.176, pp.10-20, 2017
Cakir, M. Et Al. 2017. ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats. LIFE SCIENCES , vol.176 , 10-20.
Cakir, M., DÜZOVA, H., TEKİN, S., Taslidere, E., Kaya, G. B., ÇİĞREMİŞ, Y., ... Ozgocer, T.(2017). ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats. LIFE SCIENCES , vol.176, 10-20.
Cakir, Murat Et Al. "ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats," LIFE SCIENCES , vol.176, 10-20, 2017
Cakir, Murat Et Al. "ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats." LIFE SCIENCES , vol.176, pp.10-20, 2017
Cakir, M. Et Al. (2017) . "ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats." LIFE SCIENCES , vol.176, pp.10-20.
@article{article, author={Murat Cakir Et Al. }, title={ACA, an inhibitor phospholipases A2 and transient receptor potential melastatin-2 channels, attenuates okadaic acid induced neurodegeneration in rats}, journal={LIFE SCIENCES}, year=2017, pages={10-20} }