The bZIP transcription factor ABSCISIC ACID INSENSITIVE5 (ABI5) is a master regulator determining seed germination and postgerminative growth in response to abscisic acid (ABA), but the detailed molecular mechanism underlying the repression function of ABI5 in plant growth remains to be characterized. In this study, we used proximity labeling (PL) to map the neighboring proteome of ABI5 and identified FCS-LIKE ZINC FINGER PROTEIN 13 (FLZ13) as an up-to-now unknown ABI5-interacting partner. Phenotypic analysis of flz13 mutants and FLZ13-overexpressing lines demonstrated that FLZ13 acts as a positive regulator of ABA signaling. Interestingly, transcriptomic analysis showed that ABI5 and FLZ13 co-downregulate the expression of ABA-repressed and growth-related genes involved in chlorophyll biosynthesis, photosynthesis and cell wall organization, thereby repressing seed germination and seedling establishment in response to ABA. Further genetic analysis proved that FLZ13 works synergistically with ABI5 to regulate seed germination. Collectively, our study reveals a previously uncharacterized transcriptional regulatory mechanism regarding ABA-inhibited seed germination and seedling establishment.
Autophagy is a highly conserved quality control process that maintains cellular health by eliminating deleterious cargoes. Compared with the extensive studies in yeast and mammalian models, the molecular details and significance of post-translational modifications (PTMs) in the autophagy process in plants remain less well defined. In this review, we discuss recent progress in our understanding of phosphorylation, one of the most extensively studied PTMs, in the regulation of autophagosome biogenesis and autophagic degradation in plants. Based on the plant mass spectrometric database, we summarize the experimentally verified phosphorylation sites of the core autophagy machinery in plants. Furthermore, we put forward several approaches to test the roles of phosphorylation in the regulation of plant autophagy.
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