NERD1 is required for primexine formation and plasma membrane undulation during microsporogenesis in Arabidopsis thaliana

Abstract

The primexine formation and plasma membrane undulation are the crucial steps of pollen wall formation in many angiosperms. However, the molecular mechanism underlining these processes is largely unknown. In Arabidopsis, NEW ENHANCER OF ROOT DWARFISM1 (NERD1), a transmembrane protein, was reported to play pleiotropic roles in plant development including male fertility control; while, how NERD1 disruption impacts male reproduction is yet unclear. Here, we revealed that the male sterility of nerd1 mutants is attributed to defects in early steps of pollen wall formation. We found that nerd1-2 is void of primexine formation and microspore plasma membrane undulation, defective in callose deposition. Consequently, sporopollenin precursors are unable to deposit and assemble on the microspore surface, but instead accumulated in the anther locule and tapetal cells, and ultimately leading to microspore abortion. NERD1 is localized in the Golgi and is expressed in both vegetative and reproductive organs, with the highest expression in reproductive tissues, including the tapetum, male meiocytes, tetrads and mature pollen grains. Our results suggest that NERD1 is required for the primexine deposition and microspore plasma membrane undulation, thus essential for sporopollenin assembly and pollen exine formation.