Effects of Gibberellins on Seed Germination of Phytochrome-Deficient Mutants of Arabidopsis thaliana

Abstract

Experiments were carried out to explore the involvement of gibberellins (GAs) in the light-induced germination of Arabidopsis thaliana (L.) Heynh, using wild type (WT) and phytochrome-deficient mutants (phyA, phyB and phyAphyB deficient in phytochrome A, B and A plus B, respectively). Seed germination of WT and phytochrome-deficient mutants was inhibited by uniconazole (an inhibitor of an early step in biosynthesis of GA, the oxidation of ent-kaurene) and prohexadione (an inhibitor of late steps, namely, 2rβ- and 3rβ-hydroxylation). This inhibition was overcome by simultaneous application of 10^-5 M GA₄. The relative activity of GAs for promoting germination of uniconazole-treated seeds was GA₄>GA₁=GA₉>GA₂₀. The wild type and the phyA and phyB mutants had an increased response to a red light pulse in the presence of GA₁, GA₄, GA₉, GA₂₀ and GA₂₄ but there were no significant differences in activity of each GA between the mutants. Therefore, neither phytochrome A nor hytochrome B appears to regulate GA biosynthesis from GA₁₂ to GA₄ during seed germination, since the conversion of GA₁₂ to GA₉ is regulated by one enzyme (GA 20-oxidase). However, GA responsiveness appears to be regulated by phytochromes other than phytochromes A and B, since the phyAphyB double mutant retains the photoreversible increased response to GAs after a red light pulse.