Kartal, B. And Palabiyik, B. 2019. Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism. CELLULAR AND MOLECULAR BIOLOGY , vol.65, no.1 , 73-77.

Kartal, B., & Palabiyik, B., (2019). Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism. CELLULAR AND MOLECULAR BIOLOGY , vol.65, no.1, 73-77.

Kartal, Burcu, And Bedia PALABIYIK. "Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism," CELLULAR AND MOLECULAR BIOLOGY , vol.65, no.1, 73-77, 2019

Kartal, Burcu K. And Palabiyik, Bedia. "Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism." CELLULAR AND MOLECULAR BIOLOGY , vol.65, no.1, pp.73-77, 2019

Kartal, B. And Palabiyik, B. (2019) . "Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism." CELLULAR AND MOLECULAR BIOLOGY , vol.65, no.1, pp.73-77.

@article{article, author={Burcu KARTAL SURAL And author={Bedia PALABIYIK}, title={Thiamine leads to oxidative stress resistance via regulation of the glucose metabolism}, journal={CELLULAR AND MOLECULAR BIOLOGY}, year=2019, pages={73-77} }