A. YALÇIN Et Al. , "Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells," New Frontiers in Understanding Tumor Metabolism , 2016
YALÇIN, A. Et Al. 2016. Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells. New Frontiers in Understanding Tumor Metabolism .
YALÇIN, A., ÖZCAN, S. C., Campbell, P. M., Chesney, J., GÜZEL, S., & Sevinç, E., (2016). Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells . New Frontiers in Understanding Tumor Metabolism
YALÇIN, ABDULLAH Et Al. "Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells," New Frontiers in Understanding Tumor Metabolism, 2016
YALÇIN, ABDULLAH Et Al. "Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells." New Frontiers in Understanding Tumor Metabolism , 2016
YALÇIN, A. Et Al. (2016) . "Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells." New Frontiers in Understanding Tumor Metabolism .
@conferencepaper{conferencepaper, author={ABDULLAH YALÇIN Et Al. }, title={Silencing of PFKFB2 reduces fructose 2 6 bisphosphate levels without affecting glycolysis in KRasG12V transformed pancreatic duct cells}, congress name={New Frontiers in Understanding Tumor Metabolism}, city={}, country={}, year={2016}}