Cell stage appears critical for control of plasma membrane order in plant cells.

Lipids and proteins modulate both the global order of plasma membrane (PM) and its organization in distinct domains. This raises the question of the influence on PM-ordered domain formation of PM composition, which is finely controlled during cell differentiation. Labeling of plant cell PM with an environment-sensitive probe demonstrated that the level of PM order is regulated during anisotropic expansion observed during both cell regeneration from protoplasts and cell differentiation along the growing root. Indeed, PM order progressively decreased during the polarized growth of regenerated tobacco cells, without observed correlation between this parameter and the kinetics of either cell wall regeneration or cell morphology. This suggests that the dynamics of PM formation and renewal could control the PM organization, maybe by involving the secretory pathway.

Plant lipids: Key players of plasma membrane organization and function.

The plasma membrane (PM) is the biological membrane that separates the interior of all cells from the outside. The PM is constituted of a huge diversity of proteins and lipids. In this review, we will update the diversity of molecular species of lipids found in plant PM. We will further discuss how lipids govern global properties of the plant PM, explaining that plant lipids are unevenly distributed and are able to organize PM in domains. From that observation, it emerges a complex picture showing a spatial and multiscale segregation of PM components. Finally, we will discuss how lipids are key players in the function of PM in plants, with a particular focus on plant-microbe interaction, transport and hormone signaling, abiotic stress responses, plasmodesmata function. The last chapter is dedicated to the methods that the plant membrane biology community needs to develop to get a comprehensive understanding of membrane organization in plants.