The controls of late dicot embryogenesis and early germination

During seed formation, the embryo appears to be germinable as soon as cell division is completed; however, it continues development on the plant. This review describes the stages of development after cell division and provides a summary of important observations and recent use of molecular markers as they apply to the regulation of dicot seed formation. Genetic evidence suggests that abscisic acid may help initiate late embryogenesis, although no evidence firmly establishes that abscisic acid controls any other aspect of late dicot development. Previous studies utilizing cultured embryos have implicated abscisic acid and water potential as endogenous promoters of late embryogenesis and inhibitors of germination. However, these embryo culture experiments have been misinterpreted. The experiments show that both immature and mature embryos respond to environmental water stress by expressing a developmental program that is normally induced in late embryogenesis by abscission of the vascular connection. This postabscission program probably prepares the embryo for its forthcoming desiccation during normal development and is predicted to be important in protecting the embryo from water stress during germination.