Quantitative proteomics uncovers a role for REVEILLE8- like clock genes in osmotic and salt stress response in Arabidopsis
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The plant circadian clock governs the precise regulation of plant developmental and environmental responses within a 24 h photoperiod. Consisting of a series of interconnected transcription factor moderated feedback loops, each operating at specific times of day within the photoperiod, more than 30% of Arabidopsis genes show circadian regulation. REVEILLE (RVE) genes exhibit highest expression in the afternoon, and act as activators of afternoon-expressed clock genes, including TOC1 and PRR5 . Specifically, RVE4, 6 and 8 have been identified as regulators of both plant growth and development, along with temperature responses. Previous work using Arabidopsis has implicated soybean RVE8-like proteins in drought responses, however, there remains a lack of understanding of how these RVEs control abiotic stress responses, particularly relating to proteome-level regulation. Here, using quantitative proteomics, we resolve how the rve4 6 8 proteome responds to osmotic and salt stress at end-of-day and end-of-night timepoints. Our results indicate that rve4 6 8 plants have substantially altered regulation of proteins related to osmotic stress, photosynthesis and phenylpropanoid metabolism, particularly at end-of-day. Further, we resolve new drought-responsive targets impacted by the loss of RVE4, 6, and 8 that are involved in vesicle transport, fatty acid metabolism and abscission. Overall, our data provide a new resource for understanding how RVE8-like proteins impact plant drought-like responses, offering opportunities for future chronoculture-informed breeding of climate-resilient crops.