Celik, E. Et Al. 2022. Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.. Journal of physiology and biochemistry , vol.78, no.4 , 869-883.

Celik, E., Ercin, M., Bolkent, S., & Gezginci-Oktayoglu, S., (2022). Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.. Journal of physiology and biochemistry , vol.78, no.4, 869-883.

Celik, Ertan Et Al. "Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.," Journal of physiology and biochemistry , vol.78, no.4, 869-883, 2022

Celik, Ertan Et Al. "Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.." Journal of physiology and biochemistry , vol.78, no.4, pp.869-883, 2022

Celik, E. Et Al. (2022) . "Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.." Journal of physiology and biochemistry , vol.78, no.4, pp.869-883.

@article{article, author={Ertan Celik Et Al. }, title={Metformin induces mitochondrial remodeling and differentiation of pancreatic progenitor cells into beta-cells by a potential mechanism including suppression of the T1R3, PLCβ2, cytoplasmic Ca⁺², and AKT.}, journal={Journal of physiology and biochemistry}, year=2022, pages={869-883} }