OsbZIP48, a HY5 Transcription Factor Ortholog, Exerts Pleiotropic Effects in Light-Regulated Development.

Plants have evolved an intricate network of sensory photoreceptors and signaling components to regulate their development. Among the light signaling components identified to date, HY5, a basic leucine zipper (bZIP) transcription factor, has been investigated extensively. However, most of the work on HY5 has been carried out in Arabidopsis (), a dicot. In this study, based on homology search and phylogenetic analysis, we identified three homologs of AtHY5 in monocots; however, AtHYH (HY5 homolog) homologs are absent in the monocots analyzed. Out of the three homologs identified in rice (), we have functionally characterized was able to complement the mutant. OsbZIP48 protein levels are developmentally regulated in rice. Moreover, the OsbZIP48 protein does not degrade in dark-grown rice and seedlings complemented with , which is in striking contrast to AtHY5. In comparison with , which does not cause any change in hypocotyl length when overexpressed in Arabidopsis, the overexpression of full-length in rice transgenics reduced the plant height considerably. Microarray analysis revealed that , which encodes -kaurene oxidase 2 of the gibberellin biosynthesis pathway, is down-regulated in and up-regulated in transgenics as compared with the wild type. Electrophoretic mobility shift assay showed that OsbZIP48 binds directly to the promoter. The RNA interference lines and the T-DNA insertional mutant of showed seedling-lethal phenotypes despite the fact that roots were more proliferative during early stages of development in the T-DNA insertional mutant. These data provide credible evidence that OsbZIP48 performs more diverse functions in a monocot system like rice in comparison with its Arabidopsis ortholog, HY5.