AI Article Synopsis
- Photosynthetic diatoms, like Phaeodactylum tricornutum, must adapt quickly to changes in light intensity and quality, but the underlying molecular mechanisms of this acclimation are not well understood.
- Researchers conducted a study using global transcriptional and metabolite profiling, along with variable fluorescence techniques, to examine how these diatoms acclimate to high light conditions over various time intervals after being transferred from low light.
- The findings indicate that acclimation occurs in distinct phases: an initial response (0-0.5 hours) marked by rapid gene regulation and metabolite changes, an intermediate phase (3-12 hours) with decreased light-harvesting pigments, and a late phase (12-48 hours) showing improved photosynthetic capacity
Article Abstract
Photosynthetic diatoms are exposed to rapid and unpredictable changes in irradiance and spectral quality, and must be able to acclimate their light harvesting systems to varying light conditions. Molecular mechanisms behind light acclimation in diatoms are largely unknown. We set out to investigate the mechanisms of high light acclimation in Phaeodactylum tricornutum using an integrated approach involving global transcriptional profiling, metabolite profiling and variable fluorescence technique. Algae cultures were acclimated to low light (LL), after which the cultures were transferred to high light (HL). Molecular, metabolic and physiological responses were studied at time points 0.5 h, 3 h, 6 h, 12 h, 24 h and 48 h after transfer to HL conditions. The integrated results indicate that the acclimation mechanisms in diatoms can be divided into an initial response phase (0-0.5 h), an intermediate acclimation phase (3-12 h) and a late acclimation phase (12-48 h). The initial phase is recognized by strong and rapid regulation of genes encoding proteins involved in photosynthesis, pigment metabolism and reactive oxygen species (ROS) scavenging systems. A significant increase in light protecting metabolites occur together with the induction of transcriptional processes involved in protection of cellular structures at this early phase. During the following phases, the metabolite profiling display a pronounced decrease in light harvesting pigments, whereas the variable fluorescence measurements show that the photosynthetic capacity increases strongly during the late acclimation phase. We show that P. tricornutum is capable of swift and efficient execution of photoprotective mechanisms, followed by changes in the composition of the photosynthetic machinery that enable the diatoms to utilize the excess energy available in HL. Central molecular players in light protection and acclimation to high irradiance have been identified.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2766053 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0007743 | PLOS |
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