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An unexpected hydratase synthesizes the green light-absorbing pigment fucoxanthin

Authors :
Tianjun Cao
Yu Bai
Paul Buschbeck
Qiaozhu Tan
Michael B Cantrell
Yinjuan Chen
Yanyou Jiang
Run-Zhou Liu
Nana K Ries
Xiaohuo Shi
Yan Sun
Maxwell A Ware
Fenghua Yang
Huan Zhang
Jichang Han
Lihan Zhang
Jing Huang
Martin Lohr
Graham Peers
Xiaobo Li
Source :
The Plant Cell.
Publication Year :
2023
Publisher :
Oxford University Press (OUP), 2023.

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.

Subjects

Subjects :
Cell Biology
Plant Science

Details

ISSN :
1532298X and 10404651
Database :
OpenAIRE
Journal :
The Plant Cell
Accession number :
edsair.doi...........c5c7498f863d995483ed526b076dc510