G. Unlu Et Al. , "Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability," MOLECULAR CELL , vol.82, no.15, pp.2832-2851, 2022
Unlu, G. Et Al. 2022. Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability. MOLECULAR CELL , vol.82, no.15 , 2832-2851.
Unlu, G., Prizer, B., Erdal, R., Yeh, H., Bayraktar, E. C., & Birsoy, K., (2022). Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability. MOLECULAR CELL , vol.82, no.15, 2832-2851.
Unlu, Gokhan Et Al. "Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability," MOLECULAR CELL , vol.82, no.15, 2832-2851, 2022
Unlu, Gokhan Et Al. "Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability." MOLECULAR CELL , vol.82, no.15, pp.2832-2851, 2022
Unlu, G. Et Al. (2022) . "Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability." MOLECULAR CELL , vol.82, no.15, pp.2832-2851.
@article{article, author={Gokhan Unlu Et Al. }, title={Metabolic-scale gene activation screens identify SLCO2B1 as a heme transporter that enhances cellular iron availability}, journal={MOLECULAR CELL}, year=2022, pages={2832-2851} }