AI Article Synopsis
- Fucoxanthin is a key pigment in marine phytoplankton that absorbs blue-green light, which is essential for their photosynthesis, unlike land plants which mainly use chlorophylls.
- Researchers identified CRTISO5 as the critical enzyme responsible for fucoxanthin synthesis in diatoms, revealing that it acts differently from its land plant counterpart by converting a different carotenoid into fucoxanthin.
- The study highlights the evolutionary significance of this enzyme and its potential applications in biocatalysis, demonstrating how functional adaptations can lead to diversity in photosynthetic mechanisms among marine organisms.
Article Abstract
The ketocarotenoid fucoxanthin and its derivatives can absorb blue-green light enriched in marine environments. Fucoxanthin is widely adopted by phytoplankton species as a main light-harvesting pigment, in contrast to land plants that primarily employ chlorophylls. Despite its supreme abundance in the oceans, the last steps of fucoxanthin biosynthesis have remained elusive. Here, we identified the carotenoid isomerase-like protein CRTISO5 as the diatom fucoxanthin synthase that is related to the carotenoid cis-trans isomerase CRTISO from land plants but harbors unexpected enzymatic activity. A crtiso5 knockout mutant in the model diatom Phaeodactylum tricornutum completely lacked fucoxanthin and accumulated the acetylenic carotenoid phaneroxanthin. Recombinant CRTISO5 converted phaneroxanthin into fucoxanthin in vitro by hydrating its carbon-carbon triple bond, instead of functioning as an isomerase. Molecular docking and mutational analyses revealed residues essential for this activity. Furthermore, a photophysiological characterization of the crtiso5 mutant revealed a major structural and functional role of fucoxanthin in photosynthetic pigment-protein complexes of diatoms. As CRTISO5 hydrates an internal alkyne physiologically, the enzyme has unique potential for biocatalytic applications. The discovery of CRTISO5 illustrates how neofunctionalization leads to major diversification events in evolution of photosynthetic mechanisms and the prominent brown coloration of most marine photosynthetic eukaryotes.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10396388 | PMC |
| http://dx.doi.org/10.1093/plcell/koad116 | DOI Listing |
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