von Ahsen, O., Tropschug, M., Pfanner, N., & Rassow, J. (1997). The chaperonin cycle cannot substitute for prolyl isomerase activity, but GroEL alone promotes productive folding of a cyclophilin-sensitive substrate to a cyclophilin-resistant form.
Citação norma Chicagovon Ahsen, O., M. Tropschug, N. Pfanner, and J. Rassow. The Chaperonin Cycle Cannot Substitute for Prolyl Isomerase Activity, but GroEL Alone Promotes Productive Folding of a Cyclophilin-sensitive Substrate to a Cyclophilin-resistant Form. 1997.
Citação norma MLAvon Ahsen, O., M. Tropschug, N. Pfanner, and J. Rassow. The Chaperonin Cycle Cannot Substitute for Prolyl Isomerase Activity, but GroEL Alone Promotes Productive Folding of a Cyclophilin-sensitive Substrate to a Cyclophilin-resistant Form. 1997.