Abstract
Flowering plant genomes encode multiple cation/H+ exchangers (CHXs) whose functions are largely unknown. AtCHX17, AtCHX18, and AtCHX19 are membrane transporters that modulate K+ and pH homeostasis and are localized in the dynamic endomembrane system. Loss of function reduced seed set, but the particular phase(s) of reproduction affected was not determined. Pollen tube growth and ovule targeting of chx17chx18chx19 mutant pollen appeared normal, but reciprocal cross experiments indicate a largely male defect. Although triple mutant pollen tubes reach ovules of a wild-type pistil and a synergid cell degenerated, half of those ovules were unfertilized or showed fertilization of the egg or central cell, but not both female gametes. Fertility could be partially compromised by impaired pollen tube and/or sperm function as CHX19 and CHX18 are expressed in the pollen tube and sperm cell, respectively. When fertilization was successful in self-pollinated mutants, early embryo formation was retarded compared with embryos from wild-type ovules receiving mutant pollen. Thus CHX17 and CHX18 proteins may promote embryo development possibly through the endosperm where these genes are expressed. The reticulate pattern of the pollen wall was disorganized in triple mutants, indicating perturbation of wall formation during male gametophyte development. As pH and cation homeostasis mediated by AtCHX17 affect membrane trafficking and cargo delivery, these results suggest that male fertility, sperm function, and embryo development are dependent on proper cargo sorting and secretion that remodel cell walls, plasma membranes, and extracellular factors.
Highlights
Land plants, such as mosses and ferns, reproduce using motile male gametes that can swim through an aqueous medium to the female gametes
As pH and cation homeostasis mediated by AtCHX17 affect membrane trafficking and cargo delivery, these results suggest that male fertility, sperm function, and embryo development are dependent on proper cargo sorting and secretion that remodel cell walls, plasma membranes, and extracellular factors
As a wild-type pistil pollinated with triple mutant pollen produced embryos that developed to the wild type, our results suggest that at least one copy of CHX17, CHX18, or CHX19 is required for synchronous development of mutant embryos
Summary
Land plants, such as mosses and ferns, reproduce using motile male gametes that can swim through an aqueous medium to the female gametes. The CPA2 subfamily (including AtCHX) is predominantly conserved in bacteria, archea, fungi, amoebozoa, and plants, but not in metazoa (Chanroj et al, 2012) Basal land plants, such as moss, contain 3–4 copies of CHX genes per genome (Mottaleb et al, 2013), but ~17 and 28 members are predicted in rice and Arabidopsis, respectively. CHX17, CHX18, or CHX19 are localized to the pre-vacuolar compartments (PVCs) and the PM in plant cells (Chanroj et al, 2011, 2013) Their expression in an alkaline-sensitive yeast strain conferred tolerance to growth at pH 7.5, suggesting a role in pH homeostasis. Our findings underscore a previously unknown role for endomembrane transporters and K+ and pH homeostasis in male fertility, fertilization, and embryo development possibly through remodeling of the cell wall and PM
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