Celebi-Birand, D. Et Al. 2023. Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications. SUSTAINABILITY , no.23 .

Celebi-Birand, D., Genc, K., Agun, I., Erikci, E., Akcali, K. C., & Kiran, F., (2023). Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications. SUSTAINABILITY , no.23.

Celebi-Birand, Dilan Et Al. "Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications," SUSTAINABILITY , no.23, 2023

Celebi-Birand, Dilan Et Al. "Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications." SUSTAINABILITY , no.23, 2023

Celebi-Birand, D. Et Al. (2023) . "Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications." SUSTAINABILITY , no.23.

@article{article, author={Dilan Celebi-Birand Et Al. }, title={Microbiota-Derived Postbiotics Enhance the Proliferative Effects of Growth Factors on Satellite Cells in Cultivated Meat Applications}, journal={SUSTAINABILITY}, year=2023}