E. Ozcan Et Al. , "Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures," BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1, pp.223-237, 2021
Ozcan, E. Et Al. 2021. Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures. BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1 , 223-237.
Ozcan, E., Seven, M., Sirin, B., ÇAKIR, T., Nikerel, E., Teusink, B., ... TOKSOY ÖNER, E.(2021). Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures. BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1, 223-237.
Ozcan, Emrah Et Al. "Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures," BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1, 223-237, 2021
Ozcan, Emrah Et Al. "Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures." BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1, pp.223-237, 2021
Ozcan, E. Et Al. (2021) . "Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures." BIOTECHNOLOGY AND BIOENGINEERING , vol.118, no.1, pp.223-237.
@article{article, author={Emrah Ozcan Et Al. }, title={Dynamic co-culture metabolic models reveal the fermentation dynamics, metabolic capacities and interplays of cheese starter cultures}, journal={BIOTECHNOLOGY AND BIOENGINEERING}, year=2021, pages={223-237} }