Downregulation and delayed induction of photosynthesis by coordinated transcriptomic changes induced by sink-source imbalance

Understanding comprehensive mechanisms of the downregulation of photosynthesis induced by accumulation of non-structural carbohydrates (NSCs) is essential for the future food security.x Despite numerous studies, whether NSCs accumulation directly affects steady-state maximum photosynthesis and photosynthetic induction, as well as underlying gene expression profiles, remains unknown so far. We evaluated the relationship between photosynthetic capacity and NSCs accumulation induced by cold-girdling, sucrose feeding, and low nitrogen treatment in Glycine max and Phaseolus vulgaris. In G. max, changes in transcriptome profiles were further investigated focusing on physiological processes of photosynthesis and NSCs accumulation. NSCs accumulation decreased maximum photosynthetic capacity and delayed photosynthetic induction in both species. In G. max, such photosynthetic downregulation was explained by coordinated downregulation of photosynthetic genes involved in Calvin cycle, Rubisco activase, photochemical reactions, and stomatal opening. Furthermore, sink-source imbalance may have triggered a change in the balance of sugar-phosphate translocators in chloroplast membranes, which may have promoted starch accumulation in chloroplasts. Our findings provided an overall picture of the photosynthetic downregulation and NSCs accumulation in G. max, demonstrating that the photosynthetic downregulation is triggered by NSCs accumulation and cannot be explained simply by N deficiency. One Sentence SummaryAccumulation of nonstructural carbohydrates directly induced both downregulation and delayed induction of photosynthesis by coordinated transcriptomic changes in photosynthetic genes in Glycine max.