Nucleoporin1 maintains male germ unit organization and transport in Arabidopsis pollen tubes, likely through shaping nuclear morphology

The male germ unit (MGU) in Arabidopsis pollen is comprised of one vegetative nucleus (VN) and two sperm nuclei (SN). It is evolutionarily specialized to deliver immotile sperm nuclei to an ovule for fertilization. Despite some progress in research on MGU, its organization and transport remain only partially understood. Here, we identified Nucleoporin1/136 as a new player in the structural organization and positioning of MGU in pollen tubes. We and others have previously reported the reduced fertility of nup1-1 plants; however, the mechanism remains unknown. In this work, we further examined the role of NUP1 in fertility using two mutant alleles, nup1-1 and nup1-2-/+. The reciprocal crosses between the nup1 mutants and the Col-0 wild type indicate that the nup1 mutant pollen is defective. To study the effect of a complete NUP1 knockout on pollen, we generated a transgenic line that produces pollen with and without NUP1 expression. This work led to the surprising discovery that the NUP1 protein is inherited from the pollen mother cell to the daughter cell during microgametophyte development. Subsequent in vitro experiments showed that NUP1 is required for pollen germination and pollen tube elongation. Further microscopic studies demonstrated that NUP1 is highly expressed in VN and essential for maintaining nuclear shape and size. We also demonstrated that NUP1 is required for proper MGU organization and transport, likely through maintaining VN morphology. Notably, our finding of nuclear morphology-mediated regulation of MGU may also explain the mechanistic details underlying the defective MGU movement in previously reported mutants such as kaku4, wit, and wip, which have abnormal nuclear morphology.