The Ascorbate-deficient vtc-1 Arabidopsis Mutant Shows Altered ABA Accumulation in Leaves and Chloroplasts

Abstract

Abscisic acid (ABA) accumulation has been analyzed in irrigated and water-stressed wild-type and the vtc-1 mutant of Arabidopsis thaliana, which shows an ascorbate deficiency in leaves of approximately 60%. The amounts of ABA increased progressively up to 2.3-fold in water-stressed wild-type plants, whereas levels were kept at low levels in the irrigated plants. In contrast, initial increases followed by a sharp decrease of abscisic acid levels were observed in water-stressed vtc-1 mutants. Furthermore, the levels of this phytohormone increased up to fivefold in irrigated mutants. This differential accumulation of ABA in the mutant strongly correlated with the ascorbate redox state, but not with ascorbate levels. Changes in ABA levels in leaves paralleled those of chloroplasts. Immunolocalization studies showed a differential ABA accumulation in chloroplasts of vtc-1 mutants, which displayed the highest ABA labeling in irrigated plants. Our results indicate an altered pattern of ABA accumulation in the vtc-1 mutant compared to the wild type, under both irrigated conditions and water-stress conditions, which is strongly dependent on the ascorbate redox state.