Function of the {alpha} Subunit of Rice Heterotrimeric G Protein in Brassinosteroid Signaling

The subunit of plant heterotrimeric G proteins (G) plays pivotalroles in multiple aspects of development and responses to planthormones. Recently, several lines of evidence have shown thatG participates in brassinosteroid (BR) responses in Arabidopsisand rice plants. In this study, we conducted a comprehensiveanalysis of the roles of the rice G in the responses to BR usinga defective mutant of the G gene, T65d1. Decreased sensitivityto 24-epi-brassinolide (24-epiBL) in the T65d1 mutant was observedin many processes examined, e.g. in the inhibition of root growthand the promotion of coleoptile elongation. The T65d1 mutantalso showed similar phenotypes to those of BR-deficient mutants,such as the specifically shortened second internode and theconstitutive photomorphogenic growth phenotype under dark conditions.However, a negative feedback effect by 24-epiBL on the expressionof BR biosynthetic genes was observed in the T65d1 mutant, andthe levels of BR intermediates did not fluctuate in this mutant.To determine the epistatic relationship between the T65d1 mutantand d61-7, a weak allele of a rice BR receptor mutant, the twomutants were crossed. The T65d1/d61-7 double mutant showed noepistasis in the elongation inhibition of the internodes, theinternode elongation pattern, the leaf angle and the morphologicalabnormality of leaf, except for the vertical length of seedand the seed weight. Our results suggest that the rice G affectsthe BR signaling cascade but the G may not be a signaling moleculein BRI1-meditated perception/transduction.