Abstract
A shoot overgrowth mutant of rice ( Oryza sativa L.), accelerated internode overgrowth-1 ( ao-1), is marked by accelerated longitudinal elongation of aerial parts and overgrowth of internodes at the vegetative stage. The physiological properties of ao-1 were similar to those of wild plants treated with a saturating level of exogenous gibberellins (GAs), except for the internode-overgrowth phenotype, which was not mimicked by GA-treated wild plants. The ao-1 mutant was less sensitive to a GA biosynthesis inhibitor, Uniconazole-P, than the wild type. Dwarf alleles of three loci, including two GA-sensitive and one GA-insensitive mutation, were introduced to produce double-mutants with ao-1, but the overgrowth phenotype was not suppressed in double-homozygous mutants. These results suggest that the overgrowth phenotype of ao-1 is caused by abolition of GA signaling rather than by GA overproduction. It is likely that a part of the shoot regulation system of ao-1 is saturated with the GA signal. As a possible model consistent with the results, we propose that AO-1 protein acts as a negative regulator in GA signal transduction.
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