Endogenous Gibberellin-Like Substances in Somatic Embryos of Grape (Vitis vinifera x Vitis rupestris) in Relation to Embryogenesis and the Chilling Requirement for Subsequent Development of Mature Embryos.

Endogenous gibberellin (GA)-like substances were examined in suspension cultures of somatic embryos of a hybrid grape (Vitis vinifera x Vitis rupestris) during embryogenesis, and in mature embryos chilled at 4 degrees C, and subsequently incubated at 26 degrees C with and without abscisic acid (ABA). The extract was separated into a nonpolar fraction (would contain GA-precursors); a fraction that would contain free GAs; and a highly H(2)O-soluble fraction (would contain GA glucosyl conjugates and very polar free GAs). Quantitation after SiO(2) partition chromatography was accomplished by microdrop and immersion dwarf rice bioassays. As embryogenesis developed, the free and highly H(2)O-soluble GA-like substances, expressed on a dry weight basis, decreased (however, they increased on a per embryo basis). Chilling at 4 degrees C for 1 week greatly increased activity of free GA-like substances (per g dry weight and per embryo), it then declined over the next three weeks of chilling. Activity (per g dry weight and per embryo) in the H(2)O-soluble fraction declined throughout chilling. Activity in the GA-precursor fraction, however, increased steadily with chilling (per g dry weight and per embryo). Incubation at 26 degrees C after chilling enhanced activity in the free GA and H(2)O-soluble fractions (per g dry weight and per embryo), but activity in the GA-precursor fraction dropped dramatically. Incubation at 26 degrees C with (+/-) ABA after chilling prevented germination and maintained high activity for GA precursors and less polar free GAs and low activity in the polar free GA and H(2)O-soluble fractions.Kaurene and kaurenoic acid were characterized in the GA-precursor fraction of chilled embryos by gas-liquid chromatography-mass spectrometry (GLC-MS). The existence of GA(4) and GA(9) in ABA-treated, chilled embryos was also confirmed by GLC-MS.