Defined Nuclear Changes Accompany the Reprogramming of the Microspore to Embryogenesis

The switch of the gametophytic developmental program toward pollen embryogenesis to form a haploid plant represents an important alternative for plant breeding. In the present study, the switch of the gametophytic developmental program toward a sporophytic pathway, “embryogenesis,” has been studied...

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Published inJournal of structural biology Vol. 129; no. 2-3; pp. 223 - 232
Main Authors Testillano, P.S., Coronado, M.J., Seguı́, J.M., Domenech, J., González-Melendi, P., Raška, I., Risueño, M.C.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.04.2000
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Summary:The switch of the gametophytic developmental program toward pollen embryogenesis to form a haploid plant represents an important alternative for plant breeding. In the present study, the switch of the gametophytic developmental program toward a sporophytic pathway, “embryogenesis,” has been studied in three different plant species, Brassica, tobacco, and pepper. The switch has been induced by stress (heat shock) at the very responsive stage of the microspore, which is the vacuolate period. As a result, the cell nucleus undergoes striking structural changes with regard to late gametophytic development, including alterations of biosynthetic activities and proliferative activity. An enrichment in HSP70 heat-shock protein and in the presence of Ntf6-MAP kinase was observed after inductive treatment in the nuclei during early embryogenesis. This apparently reflected the possible roles of these proteins, specifically the protective role of HSP70 for the nuclear machinery, and signal transduction of Ntf6-MAPK for the entry of cells into proliferation. Importantly, the observed nuclear changes were similar in the three species investigated and represented convenient markers for early monitoring of embryogenesis and selection purposes for obtaining double-haploid plants in plant breeding.
ISSN:1047-8477
1095-8657
DOI:10.1006/jsbi.2000.4249