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| Home > Publications database > Fluctuating Light Interacts with Time of Day and Leaf Development Stage to Reprogram Gene Expression |
| Home > Publications database > Fluctuating Light Interacts with Time of Day and Leaf Development Stage to Reprogram Gene Expression |
| Journal Article | FZJ-2019-01601 |
; ; ; ; ; ; ; ;
2019
Soc.
Rockville, Md.
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Please use a persistent id in citations: doi:10.1104/pp.18.01443
Abstract: Natural-light environments are highly variable. Flexible adjustment between light energy utilization and photoprotection is therefore of vital importance for plant performance and fitness in the field. Short-term reactions to changing light intensity are triggered inside chloroplasts and leaves within seconds to minutes, whereas long-term adjustments proceed over hours and days, integrating multiple signals. While the mechanisms of long-term acclimation to light intensity have been studied by changing constant growth light intensity during the day, responses to fluctuating growth light intensity have rarely been inspected in detail. We performed transcriptome profiling in Arabidopsis (Arabidopsis thaliana) leaves to investigate long-term gene expression responses to fluctuating light (FL). In particular, we examined whether responses differ between young and mature leaves or between morning and at the end of the day. Our results highlight global reprogramming of gene expression under FL, including that of genes related to photoprotection, photosynthesis and photorespiration and to pigment, prenylquinone and vitamin metabolism. The FL-induced changes in gene expression varied between young and mature leaves at the same time point, and between the same leaves in the morning and at the end of the day, indicating interactions of FL acclimation with leaf development stage and time of day. Only 46 genes were up- or downregulated in both young and mature leaves at both time points. Combined analyses of gene co-expression and cis-elements pointed to a role of the circadian clock and light in coordinating the acclimatory responses of functionally related genes. Our results also suggest a possible crosstalk between FL acclimation and systemic acquired resistance-like gene expression in young leaves.
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