Connected function of PRAF/RLD and GNOM in membrane trafficking controls intrinsic cell polarity in plants.

Cell polarity is a fundamental feature underlying cell morphogenesis and organismal development. In the Arabidopsis stomatal lineage, the polarity protein BASL controls stomatal asymmetric cell division. However, the cellular machinery by which this intrinsic polarity site is established remains unknown. Here, we identify the PRAF/RLD proteins as BASL physical partners and mutating four PRAF members leads to defects in BASL polarization. Members of PRAF proteins are polarized in stomatal lineage cells in a BASL-dependent manner. Developmental defects of the praf mutants phenocopy those of the gnom mutants. GNOM is an activator of the conserved Arf GTPases and plays important roles in membrane trafficking. We further find PRAF physically interacts with GNOM in vitro and in vivo. Thus, we propose that the positive feedback of BASL and PRAF at the plasma membrane and the connected function of PRAF and GNOM in endosomal trafficking establish intrinsic cell polarity in the Arabidopsis stomatal lineage. The polarly localized BASL protein controls asymmetric cell division during stomatal lineage development in Arabidopsis. Here, the authors show that BASL polarization depends on PRAF/RLD proteins that interact with GNOM and suggest a role for endosomal trafficking in establishing polarity. [ABSTRACT FROM AUTHOR]