4.6 Article

Expression of nuclear-encoded, haptophyte-derived ftsH genes support extremely rapid PSII repair and high-light photoacclimation in Karenia brevis (Dinophyceae)

Journal

HARMFUL ALGAE
Volume 118, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.hal.2022.102295

Keywords

ftsH; Karenia brevis; Photobiology; PSII repair; Transcript processing

Funding

  1. National Oceanic and Atmospheric Administration [NA15NOS4780175]
  2. State of Florida

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Study evaluated the photobiology and molecular mechanisms of high-light tolerance in K. brevis, showing increased PSII photoinactivation, repair, NPQ, and F-v/F-m under high-light conditions. Phylogeny of ftsH-like genes revealed acquisition during tertiary endosymbiosis, with high-light cultures showing upregulation of thylakoid-associated genes, supporting K. brevis success in the Gulf of Mexico.
Karenia brevis, a neurotoxic dinoflagellate that produces brevetoxins, is endemic to the Gulf of Mexico and can grow at high irradiances typical of surface waters found there. To build upon a growing number of studies addressing high-light tolerance in K. brevis, specific photobiology and molecular mechanisms underlying this capacity were evaluated in culture. Since photosystem II (PSII) repair cycle activity can be crucial to high light tolerance in plants and algae, the present study assessed this capacity in K. brevis and characterized the ftsH-like genes which are fundamental to this process. Compared with cultures grown in low-light, cultures grown in high-light showed a 65-fold increase in PSII photoinactivation, a similar to 50-fold increase in PSII repair, enhanced non-photochemical quenching (NPQ), and depressed F-v/F-m. Repair rates were among the fastest reported in phytoplankton. Publicly available K. brevis transcriptomes (MMETSP) were queried for ftsH-like sequences and refined with additional sequencing from two K. brevis strains. The genes were phylogenetically related to haptophyte orthologs, implicating acquisition during tertiary endosymbiosis. RT-qPCR of three of the four ftsH-like homologs revealed that poly-A tails predominated in all homologs, and that the most highly expressed homolog had a 5' splice leader and amino-acid motifs characteristic of chloroplast targeting, indicating nuclear encoding for this plastid-targeted gene. High-light cultures showed a similar to 1.5-fold upregulation in mRNA expression of the thylakoid-associated genes. Overall, in conjunction with NPQ mechanisms, rapid PSII repair mediated by a haptophyte-derived ftsH prevents chronic photoinhibition in K. brevis. Our findings continue to build the case that high-light photobiology-supported by the acquisition and maintenance of tertiary endosymbiotic genes-is critical to the success of K. brevis in the Gulf of Mexico.

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