Phosphorylation activates master growth regulator DELLA by promoting histone H2A binding at chromatin in Arabidopsis

Huang, Xu; Zentella, Rodolfo; Park, Jeongmoo; Reser, Larry; Bai, Dina L.; Ross, Mark M.; Shabanowitz, Jeffrey; Hunt, Donald F.; Sun, Tai-ping

Phosphorylation activates master growth regulator DELLA by promoting histone H2A binding at chromatin in Arabidopsis

Xu Huang, Rodolfo Zentella, Jeongmoo Park, Larry Reser, Dina L. Bai, Mark M. Ross, Jeffrey Shabanowitz, Donald F. Hunt and Tai-ping Sun ()
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Xu Huang: Duke University
Rodolfo Zentella: Duke University
Jeongmoo Park: Duke University
Larry Reser: University of Virginia
Dina L. Bai: University of Virginia
Mark M. Ross: University of Virginia
Jeffrey Shabanowitz: University of Virginia
Donald F. Hunt: University of Virginia
Tai-ping Sun: Duke University

Nature Communications, 2024, vol. 15, issue 1, 1-12

Abstract: Abstract DELLA proteins are conserved master growth regulators that play a central role in controlling plant development in response to internal and environmental cues. DELLAs function as transcription regulators, which are recruited to target promoters by binding to transcription factors (TFs) and histone H2A via their GRAS domain. Recent studies showed that DELLA stability is regulated post-translationally via two mechanisms, phytohormone gibberellin-induced polyubiquitination for its rapid degradation, and Small Ubiquitin-like Modifier (SUMO)-conjugation to increase its accumulation. Moreover, DELLA activity is dynamically modulated by two distinct glycosylations: DELLA-TF interactions are enhanced by O-fucosylation, but inhibited by O-linked N-acetylglucosamine (O-GlcNAc) modification. However, the role of DELLA phosphorylation remains unclear as previous studies showing conflicting results ranging from findings that suggest phosphorylation promotes or reduces DELLA degradation to others indicating it has no effect on its stability. Here, we identify phosphorylation sites in REPRESSOR OF ga1-3 (RGA, an AtDELLA) purified from Arabidopsis by mass spectrometry analysis, and show that phosphorylation of two RGA peptides in the PolyS and PolyS/T regions enhances RGA activity by promoting H2A binding and RGA association with target promoters. Notably, phosphorylation does not affect RGA-TF interactions or RGA stability. Our study has uncovered a molecular mechanism of phosphorylation-induced DELLA activity.

Date: 2024
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DOI: 10.1038/s41467-024-52033-x

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