Phosphoinositides are key players from which the various membranes of the cells acquire their identity. The relative accumulation of these low-abundant anionic phospholipids in the cytosolic leaflet of the plasma membrane and of various organelles generates a landmark code, responsible for the selective recruitment of extrinsic proteins at given membranes. One of the key players in the protein/lipid interaction at the plasma membrane in plant cells, is phosphatidylinositol 4-phosphate (PI4P), which patterns the recruitment of effector proteins from the plasma membrane to organelles along the endocytic pathway. Here we describe a fast assay to assess the requirement of PI4P for membrane localization of extrinsic membrane proteins in vivo. This system relies on perturbing PI4P distribution in plant cells via the action of a PI4P phosphatase that depletes the pool of PI4P at a given membrane. This system efficiently decreases PI4P levels, and can therefore be easily used to assess requirement of PI4P (and electrostatics) for the targeting of extrinsic membrane proteins to the plasma membrane or endosomes. Ultimately, this system could also be extended to test the phosphatase activity in planta of enzymes putatively involved in PI4P metabolism.
Keywords: Agrobacterium transformation; Anionic lipids; Electrostatics; Fluorescent-tagged protein; Membrane proteins; Membrane trafficking; Phosphatase assay; Phosphoinositides; Plasma membrane.