De Bellis, M., Pisani, F., Mola, M. G., Basco, D., Catalano, F., Nicchia, G. P., . . . Frigeri, A. (2014). A novel human aquaporin-4 splice variant exhibits a dominant-negative activity: A new mechanism to regulate water permeability. The American Society for Cell Biology.

De Bellis, Manuela, Francesco Pisani, Maria Grazia Mola, Davide Basco, Francesco Catalano, Grazia Paola Nicchia, Maria Svelto, and Antonio Frigeri. A Novel Human Aquaporin-4 Splice Variant Exhibits a Dominant-negative Activity: A New Mechanism to Regulate Water Permeability. The American Society for Cell Biology, 2014.

De Bellis, Manuela, et al. A Novel Human Aquaporin-4 Splice Variant Exhibits a Dominant-negative Activity: A New Mechanism to Regulate Water Permeability. The American Society for Cell Biology, 2014.