A CYTOLOGICAL ANALYSIS OF MICROSPORES OF TRITICUM AESTIVUM (POACEAE) DURING NORMAL ONTOGENY AND INDUCED EMBRYOGENIC DEVELOPMENT.

Uninucleate microspores of Triticum aestivum cv. Pavon can be induced in vitro to alter their development to produce embryoids rather than pollen. Microspores expressed their embryogenic capacity through one of two division pathways. In the more common route, the first sporophytic division was asymmetric and produced what appeared to be a typical bicellular pollen grain. Here the generative cell detached from the intine, migrated to a central position in the pollen grain, and underwent a second haploid mitosis as the vegetative cell divided to give rise to the embryoid. In the second pathway, the first division was symmetric and both nuclei divided repeatedly to form the embryoid. This comparative analysis of normal pollen ontogeny and induced embryogenesis provided no evidence for the existence of predetermined embryogenic microspores in vitro or in vivo. Instead, microspores are induced at the time of culture, and embryogenesis involves continued metabolic activity associated with the gradual cessation of the gametophytic pathway and a redifferentiation into the sporophytic pathway. In conjunction with a previous study, it appears that embryogenic induction of wheat microspores involves switching off gametophytic genes and derepressing sporophytic genes.