Histological comparison between wheat embryos developing in vitro from isolated zygotes and those developing in vivo.

There is currently great interest shown in understanding the process of embryogenesis and, due to the relative inaccessibility of these structures in planta, extended studies are carried out in various in vitro systems. The culture of isolated zygotes in particular provides an excellent platform to study the process of in planta embryogenesis. However, very few comparisons have been made between zygotic embryos grown entirely in cultures and those grown in vivo.

HvPG1 and ECA1: two genes activated transcriptionally in the transition of barley microspores from the gametophytic to the embryogenic pathway.

Microspores genetically programmed to produce male gametes can be switched to the embryogenic pathway to give rise to haploid embryos. Microspore embryogenesis is usually induced in barley by stress pre-treatment applied to vacuolated microspores. We studied the expression of two genes during the early stages of microspore embryogenesis to gain further insight into the microspore transition from the gametophytic to the embryogenic pathway.

Hordeins are expressed in microspore-derived embryos and also during male gametophytic and very early stages of seed development.

Microspore-derived embryos induced by anther or isolated-microspore culture display certain characteristics of zygotic embryos. Furthermore, the expression of certain endosperm genes has been described in these non-zygotic embryos. The expression of hordein genes encoding the main barley endosperm proteins has been studied using a wide range of methods (RT-PCR, in situ hybridization, ELISA sandwich, western blotting immunocytochemistry, and cytochemistry) to ascertain their presence or absence during the induction and first stages of microspore embryogenesis.