. "Biophysical analysis of the plant-specific GIPC sphingolipids reveals multiple modes of membrane regulation" . "10.1016/j.jbc.2021.100602" . "2021" . . . . . "Mamode CassimAdiilah, NavonYotam, GaoYu, DecossasMarion, FouillenLaetitia, Gr\u00E9lardAxelle, NaganoMinoru, LambertOlivier, van DelftPierre, Maneta- PeyretLilly, Simon-PlasFran\u00E7oise, HeuxLaurent, JeanBruno, FragnetoGiovanna, MortimerJenny, DeleuMagali, LinsLaurence, MongrandSebastien . Biophysical analysis of the plant-specific GIPC sphingolipids reveals multiple modes of membrane regulation . Journal of Biological Chemistry, 2021, 296, pp.100602 . ⟨10.1016/j.jbc.2021.100602⟩" . . . . "Mamode Cassim Adiilah, Navon Yotam, Gao Yu, Decossas Marion, Fouillen Laetitia, Gr\u00E9lard Axelle, Nagano Minoru, Lambert Olivier, Van Delft Pierre, Maneta- Peyret Lilly, Simon-Plas Fran\u00E7oise, Heux Laurent, Jean Bruno, Fragneto Giovanna, Mortimer Jenny, Deleu Magali, Lins Laurence. Biophysical analysis of the plant-specific GIPC sphingolipids reveals multiple modes of membrane regulation. Journal of Biological Chemistry, American Society for Biochemistry and Molecular Biology, 2021, pp.100602. ⟨10.1016/j.jbc.2021.100602⟩" . . . . .