AI Article Synopsis
- Systemic acquired acclimation (SAA) is a mechanism that helps plants adjust to excess light through changes in chlorophyll fluorescence and signaling processes.
- Researchers studied both wild-type Arabidopsis thaliana and a mutant (npq4-1) to understand how SAA affects fluorescence dynamics under light stress.
- The results showed that functional PsbS is crucial for optimizing how plants handle light energy, essential for effective responses to excess light conditions.
Article Abstract
Systemic acquired acclimation (SAA) is an important light acclimatory mechanism that depends on the global adjustments of non-photochemical quenching and chloroplast retrograde signaling. As the exact regulation of these processes is not known, we measured time-resolved fluorescence of chlorophyll a in Arabidopsis thaliana leaves exposed to excess light, in leaves undergoing SAA, and in leaves after excess light episode. We compare the behavior induced in wild-type plants with null mutant of non-photochemical quenching (npq4-1). The wild type rosettes exhibit a small reduction of fluorescence decay times in leaves directly exposed to excess light and in leaves undergoing SAA in ambient low light. However in npq4-1 exposition to excess light results in much faster fluorescence decay, which is insensitive to excitation power. At the same time npq4-1 leaves undergoing SAA displayed intermediate fluorescence decay. The npq4-1 plants also lost the ability to optimize florescence decay, and thus chlorophyll a dynamics up to 2 h after excess light episode. The fluorescence decay dynamics in both WT and npq4-1 can be described by a set of 3 maximum decay times. Based on the results, we concluded that functional PsbS is required for optimization of absorbed photon fate and optimal light acclimatory responses such as SAA or after excess light stress.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4622620 | PMC |
| http://dx.doi.org/10.4161/15592324.2014.982018 | DOI Listing |
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