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The robustness of the terminal emitter site in major LHCII complexes controls xanthophyll function during photoprotection
F. Saccon, M. Durchan, T. Polívka, AV. Ruban
Language English Country Great Britain
Document type Journal Article
PubMed
32815966
DOI
10.1039/d0pp00174k
Knihovny.cz E-resources
- MeSH
- Arabidopsis chemistry MeSH
- Photochemical Processes MeSH
- Photosystem II Protein Complex chemistry metabolism MeSH
- Lutein chemistry metabolism MeSH
- Xanthophylls chemistry metabolism MeSH
- Publication type
- Journal Article MeSH
Xanthophylls in light harvesting complexes perform a number of functions ranging from structural support to light-harvesting and photoprotection. In the major light harvesting complex of photosystem II in plants (LHCII), the innermost xanthophyll binding pockets are occupied by lutein molecules. The conservation of these sites within the LHC protein family suggests their importance in LHCII functionality. In the present work, we induced the photoprotective switch in LHCII isolated from the Arabidopsis mutant npq1lut2, where the lutein molecules are exchanged with violaxanthin. Despite the differences in the energetics of the pigments and the impairment of chlorophyll fluorescence quenching in vivo, we show that isolated complexes containing violaxanthin are still able to induce the quenching switch to a similar extent to wild type LHCII monomers. Moreover, the same spectroscopic changes take place, which suggest the involvement of the terminal emitter site (L1) in energy dissipation in both complexes. These results indicate the robust nature of the L1 xanthophyll binding domain in LHCII, where protein structural cues are the major determinant of the function of the bound carotenoid.
References provided by Crossref.org
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