Further evidence of a role for abscisic acid in conversion of somatic embryos ofDaucus carota

Summary Somatic embryogenesis has been shown to be an imperfect recapitulation of stages involved to form embryos from vegetative tissues. Although abscisic acid has been implicated in normalizing development, studies that specifically investigate conversion (vegetative leaf initiation) in somatic embryos are lacking. This report documents a follow-up of a study that implicated abscisic acid as a vital factor in allowing embryos ofDaucus carota to progress to the plantlet stage. Abscisic acid was determined to enhance conversion at doses ranging from 1 to 50 µM. Younger embryo stages were more responsive to abscisic acid application with regards to plantlet recovery. Pulses of abscisic acid were shown to elicit more rapid response with younger embryo stages, indicating more plastic development. Fluridone, an abscisic acid synthesis inhibitor, was shown to dramatically reduce conversion, even at low doses (<5µM). When abscisic acid was applied concurrently with fluridone, partial restoration of conversion was observed. Histologically, fluridone was seen to cause pronounced vacuolation in the shoot apical notch which resulted in the loss of meristematic cells, negating conversion capacity. Quantitation of total cytoplasmic area showed that abscisic acid reduced vacuolar intrusion into the apical notch, while fluridone caused a significant increase in vacuolation of cells in this region. This report documents further evidence of a role for abscisic acid in plantlet establishment from somatic embryos ofDaucus carota.