Approximately 1% of plant proteins are predicted to be post‐translationally modified with a glycosylphosphatidylinositol (GPI) anchor that tethers the polypeptide to the outer leaflet of the plasma membrane. Whereas the synthesis and structure of GPI anchors is largely conserved across eukaryotes, the repertoire of functional domains present in the GPI‐anchored proteome has diverged substantially. In plants, this includes a large fraction of the GPI‐anchored proteome being further modified with plant‐specific arabinogalactan (AG) O‐glycans. The importance of the GPI‐anchored proteome to plant development is underscored by the fact that GPI biosynthetic null mutants exhibit embryo lethality. Mutations in genes encoding specific GPI‐anchored proteins (GAPs) further supports their contribution to diverse biological processes, occurring at the interface of the plasma membrane and cell wall, including signaling, cell wall metabolism, cell wall polymer cross‐linking, and plasmodesmatal transport. Here, we review the literature concerning plant GPI‐anchored proteins, in the context of their potential to act as molecular hubs that mediate interactions between the plasma membrane and the cell wall, and their potential to transduce the signal into the protoplast and, thereby, activate signal transduction pathways. GPI anchors attach proteins to the outer leaflet of the plasma membrane. Although well characterised in mammals and yeast, less is known about the biosynthesis and structure of GPI anchors in plants. In this review, we cover the importance of plant GPI‐anchored proteins at the plasma membrane‐cell wall interface.