Arabidopsis Poly(ADP-ribose)-binding protein RCD1 interacts with Photoregulatory Protein Kinases in nuclear bodies

Continuous reprograming of gene expression in response to environmental signals in plants is achieved through signaling hub proteins that integrate external stimuli and transcriptional responses. RADICAL-INDUCED CELL DEATH1 (RCD1) functions as a nuclear hub protein, which interacts with a variety of transcription factors with its C-terminal RST domain and thereby acts as a co-regulator of numerous plant stress reactions. Here a previously function for RCD1 as a novel plant PAR reader protein is shown; RCD1 functions as a scaffold protein, which recruits transcription factors to specific locations inside the nucleus in PAR-dependent manner. The N-terminal WWE- and PARP-like domains of RCD1 bind poly(ADP-ribose) (PAR) and determine its localization to nuclear bodies (NBs), which is prevented by chemical inhibition of PAR synthesis. RCD1 also binds and recruits Photoregulatory Protein Kinases (PPKs) to NBs. The PPKs, which have been associated with circadian clock, abscisic acid, and light signaling pathways, phosphorylate RCD1 at multiple sites in the intrinsically disordered region between the WWE- and PARP-like-domains, which affects the stability and function of RCD1 in the nucleus. Phosphorylation of RCD1 by PPKs provides a mechanism where turnover of a PAR-binding transcriptional co-regulator is controlled by nuclear phosphorylation signaling pathways.