Gallo, G. L., Valko, A., Aramburu, S. I., Etchegaray Elcuaz, E., Völker, C., Parodi, A. J. A., & D'Alessio, C. (2018). Abrogation of glucosidase I–mediated glycoprotein deglucosylation results in a sick phenotype in fission yeasts: Model for the human MOGS-CDG disorder. Web
Citación estilo ChicagoGallo, Giovanna Lucrecia, Ayelén Valko, Sofía Ivana Aramburu, Emiliana Etchegaray Elcuaz, Christof Völker, Armando José A. Parodi, and Cecilia D'Alessio. Abrogation of Glucosidase I–mediated Glycoprotein Deglucosylation Results in a Sick Phenotype in Fission Yeasts: Model for the Human MOGS-CDG Disorder. 2018.
Cita MLAGallo, Giovanna Lucrecia, et al. Abrogation of Glucosidase I–mediated Glycoprotein Deglucosylation Results in a Sick Phenotype in Fission Yeasts: Model for the Human MOGS-CDG Disorder. 2018.