Algae require specific acclimation strategies to cope with spectral variability in shallow marine habitats. We investigated how the siphonous green alga Derbesia alters its photosynthetic and metabolic processes under white (WL), blue (BL), green (GL), red (RL), and far-red light (FL) by conducting photobiological and transcriptomic sampling over a 10-day period. Our results show two contrasting photoacclimation strategies: BL and GL promoted metabolic activity associated with growth, whereas FL and RL induced a low-light-like survival strategy characterized by reduced growth and suppression of the core metabolism. Photosynthetic acclimation across all conditions primarily occurs within the light dependent reactions. BL and GL promoted early acclimation marked by the immediate activation of light-harvesting complexes (LHCs) and a key transcriptional regulator MYB, and showed better acclimation marked by the sustained activation of ATPases, ATP transporters, and hormone-signaling components. BL induced a distinct transcriptional shift during the transition to prolonged exposure, including enhanced cyclic electron transport, and key regulators of protein synthesis, DNA replication, and transcriptional regulation. In contrast, FL, and to a lesser extent RL, triggered responses resembling low light acclimation with constrained growth, characterized by inefficient energy utilization, enlarged antenna systems, chloroplast proliferation with aggregations, and reduced growth rates. This study suggests high accumulation of core photopigments and reduction in chlorophyll a/b is an acclimatory response to FL, and consistently higher activation of core metabolic processes under WL likely indicates the evolutionary adaptation of Derbesia to shallow coastal environments where broad-spectrum light predominates. Additionally, our newly sequenced draft genome of the Derbesia strain for this study could serve as a genomic resource for future molecular photobiology research in Bryopsidales algae.
Hossen, R., Bjornson, S., Pelle, J., West, J. A., Bringloe, T., Tandon, K., Deore, P., Verbruggen, H.
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