DELLA Proteins and Gibberellin-Regulated Seed Germination and Floral Development in Arabidopsis

doi:10.1104/pp.104.039578

DELLA Proteins and Gibberellin-Regulated Seed Germination and Floral Development in Arabidopsis

Ludmila Tyler , Stephen G. Thomas , Jianhong Hu , Alyssa Dill , Jose M. Alonso , Joseph R. Ecker , and Tai-ping Sun ^*

Department of Biology, Duke University, Durham, North Carolina 27708 (L.T., S.G.T., J.H., A.D., T.-p.S.); and Plant Biology Laboratory, The Salk Institute for Biological Studies, La Jolla, California 92037 (J.M.A., J.R.E.)

^* Corresponding author; email: tps{at}duke.edu.

RGA (repressor of ga1-3) and GAI (gibberellin insensitive)are negative regulators of plant hormone gibberellin (GA) signalingin Arabidopsis. The GA-deficient mutant ga1-3 is a nongerminating,extreme dwarf that flowers late and produces male-sterile flowers.The rga and gai null alleles interact synergistically to rescuevegetative growth and floral initiation in ga1-3, indicatingthat RGA and GAI are major repressors for these processes. However,rga and gai in combination cannot rescue seed germination orfloral development in ga1-3. RGA and GAI belong to the DELLAsubfamily within the GRAS family of plant regulatory proteins.Three additional DELLA proteins RGL1, RGL2, and RGL3 are presentin Arabidopsis. Previous studies provided evidence that RGL2and possibly RGL1 control seed germination. To investigate furtherthe function of the RGL genes, we examined the expression profilesof all 5 DELLA protein genes by real-time PCR. RGA and, to alesser extent, GAI mRNAs were expressed ubiquitously in alltissues, whereas RGL1, 2, and 3 transcripts were present athigh levels only in germinating seeds and/or flowers and siliques.Using the newly isolated rgl1, rgl2, and rgl3 T-DNA insertionmutants, we demonstrated that RGL2 is the major repressor inseed germination. We further provided evidence that RGA, RGL1,and RGL2 are all involved in modulating floral development.Interestingly, RGL2 expression is regulated not only at thetranscript level. We showed that RGL2 protein in imbibed seedsis rapidly degraded by GA treatment and that the F-box proteinSLY1 is required for RGL2 degradation to occur.

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