TÜRK, H. Et Al. 2019. Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions. Cryobiology , vol.91 , 97-103.

TÜRK, H., Erdal, S., & DUMLUPINAR, R., (2019). Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions. Cryobiology , vol.91, 97-103.

TÜRK, Hülya, Serkan Erdal, And Rahmi DUMLUPINAR. "Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions," Cryobiology , vol.91, 97-103, 2019

TÜRK, Hülya Et Al. "Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions." Cryobiology , vol.91, pp.97-103, 2019

TÜRK, H. Erdal, S. And DUMLUPINAR, R. (2019) . "Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions." Cryobiology , vol.91, pp.97-103.

@article{article, author={Hülya TÜRK Et Al. }, title={Exogenous carnitine application augments transport of fatty acids into mitochondria and stimulates mitochondrial respiration in maize seedlings grown under normal and cold conditions}, journal={Cryobiology}, year=2019, pages={97-103} }