The role of endogenous gibberellin in seed and fruit development of tomato: Studies with a gibberellin-deficient mutant

In Arabidopsis thaliana 37 independent irradiation or EMS induced mutants were isolated which have an absolute or almost absolute gibberellin (GA) requirement for germination and successive elongation growth. These are called 'non-germinating GA-dwarfs', since without further addition of GA they develop into typical GA-dwarfs, being dark green, stunted and sterile. However, with repeated GA-treatment they develop into fertile plants with a completely wild type phenotype, or nearly so. In addition, 19 independently induced 'germinating GA-dwarfs' were obtained, i.e. mutants which do germinate without GA but develop into typical GA-dwarfs. With repeated GA-treatment these too grow to become completely wild type phenotypes, or nearly so. 'Germinating dwarfs' have been found by previous authors in a number of other plant species. The 'non-germinating dwarfs' form a new class of mutants. The system of non-germinating mutants offers a resolving power unique in higher plants, so that self-detecting rare events like induced revertants or intragenic recombinants can be efficiently screened for.The 56 GA-sensitive mutants represent mutations at 5 loci, located on three of five Arabidopsis chromosomes. At three of the five loci both mutant classes were represented in similar frequency ratio's, whilst at the other two loci only germinating dwarfs were found.

Embryos of Phaseolus coccineus in different stages of development (from 0.5 to 5 mm in length) were grown in vitro. Both intact embryos (with suspensor) and embryos deprived of suspensor were studied. It was found that removal of the suspensor has no effect on the development of embryos which have reached a length of 5 mm. With younger embryos, removal of the suspensor reduces embryo development, the negative effect being the greater the younger the embryo. It was shown that gibberellic acid (GA3) concentrations of 10(-8) to 10(-6)M can replace the suspensor in heart-shaped and early cotyledonary embryos (0.5 to 1.5 mm in length), whereas they reduce the development of suspensor-deprived embryos of later stages (embryos 2 to 3 mm in length) as compared with intact embryos of similar size grown on hormone-free medium. GA3 concentrations of 10(-5) and 10(-4)M are generally inhibitory and may stimulate callus formation in some embryos. The present data and those of Alpi et al. (1975) concur in ascribing a major role to gibberellins in characterizing the physiological function of the suspensor in early embryogenesis in Phaseolus coccineus.