ORGANIZATION OF ISOLATED EMBRYO SACS AND EGGS OF PLUMBAGO ZEYLANICA (PLUMBAGINACEAE) BEFORE AND AFTER FERTILIZATION

Abstract

The organization of isolated embryo sacs and eggs of Plumbago zeylanica was described before and after fertilization using microscopic cytochemistry and scanning electron microscopy. Major developmental events of fertilization, including preferential fertilization and early embryogenesis, are described in isolated embryo sacs. The two sperms, one unassociated with vegetative nucleus (Sua) and the other physically associated with the vegetative nucleus (Svn), fuse with nuclei of egg and central cell, respectively. The zygote divides asymmetrically to form a two‐celled embryo, consisting of a massive suspensor occupying most of the micropylar portion of the embryo during early embryogenesis. Plastids are distributed in the perinuclear and micropylar regions of the egg cell and in cytoplasmic strands of the central cell before fertilization. Calcofluor white‐positive fibrillar material in the filiform apparatus (presumed β‐1,4 linked glucans) was investigated using scanning electron microscopy. The egg of P. zeylanica can easily be divided into three cytologically distinct regions: 1) perinuclear cytoplasm, 2) lateral cytoplasm, and 3) micropylar cytoplasm. Cytological differences are evident in the organization of the cell walls, general degree of vacuolization, and the distribution of heritable organelles, storage bodies, and microtubules. The present study supports the concept that the egg of P. zeylanica plays combined synergid and gamete functions.