Impaired embryo sac cellularization by PMEI gene mutation affects gamete specification and twin plants in Arabidopsis

Arabidopsis lines with loss-of-function mutations in the gene encoding Embryo sac Pectin MethylEsterase Inhibitor (Atepmei) were found to have short silique and high seed sterility. Examination of tissue-cleared mature ovules (FG7-stage) revealed irregularly positioned nuclei within the embryo sacs. Instead of horse-shoe-shaped ovules, defective globular ovules without proper micropylar and chalazal ends were found. Embryo sac cell-type-specific GFP marker expression studies confirmed gamete and accessory cell identity alterations. Egg cell-specific marker (DD45) expression analysis confirmed the presence of multiple egg cells in the mutant embryo sacs, possibly due to defect in embryo sac cellularization. These supernumerary egg cells were functional as evident from the production of twin embryos when supernumerary sperm cells were provided. The results of Ruthenium red and tannic acid-ferric chloride staining of Atepmei mutant developing ovules, conferred its interaction with the specific PME in proper cell wall formation and maintenance around embryo sac nuclei which also coincide with its fate as a specific gamete. This is the first report implicating role of cell wall in gamete cell fate determination by altering cell-cell communication. Our analysis of the twin-embryo phenotype of epmei mutants also sheds light on the boundary conditions for double fertilization in plant reproduction.