New Insights into the Nature and Phylogeny of Prasinophyte Antenna Proteins: Ostreococcus tauri, a Case Study

doi:10.1093/molbev/msi220

MBE Advance Access originally published online on July 27, 2005
Molecular Biology and Evolution 2005 22(11):2217-2230; doi:10.1093/molbev/msi220

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Research Article

New Insights into the Nature and Phylogeny of Prasinophyte Antenna Proteins: Ostreococcus tauri, a Case Study

Christophe Six^*^,1, Alexandra Z. Worden^,1, Francisco Rodríguez^*, Hervé Moreau and Frédéric Partensky^*

^* Station Biologique, Roscoff cedex, France; Marine Biology and Fisheries Division, Rosenstiel School of Marine and Atmospheric Science, University of Miami; and Laboratoire Arago, Banyuls sur mer cedex, France

E-mail: partensky{at}sb-roscoff.fr.

The basal position of the Mamiellales (Prasinophyceae) withinthe green lineage makes these unicellular organisms key to elucidatingearly stages in the evolution of chlorophyll a/b–bindinglight-harvesting complexes (LHCs). Here, we unveil the completeand unexpected diversity of Lhc proteins in Ostreococcus tauri,a member of the Mamiellales order, based on results from completegenome sequencing. Like Mantoniella squamata, O. tauri possessesa number of genes encoding an unusual prasinophyte-specificLhc protein type herein designated "Lhcp". Biochemical characterizationof the complexes revealed that these polypeptides, which bindchlorophylls a, b, and a chlorophyll c–like pigment (Mg-2,4-divinyl-phaeoporphyrina₅ monomethyl ester) as well as a number of unusual carotenoids,are likely predominant. They are retrieved to some extent inboth reaction center I (RCI)– and RCII-enriched fractions,suggesting a possible association to both photosystems. However,in sharp contrast to previous reports on LHCs of M. squamata,O. tauri also possesses other LHC subpopulations, includingLHCI proteins (encoded by five distinct Lhca genes) and theminor LHCII polypeptides, CP26 and CP29. Using an antibody againstplant Lhca2, we unambiguously show that LHCI proteins are presentnot only in O. tauri, in which they are likely associated toRCI, but also in other Mamiellales, including M. squamata. Withthe exception of Lhcp genes, all the identified Lhc genes arepresent in single copy only. Overall, the discovery of LHCIproteins in these prasinophytes, combined with the lack of themajor LHCII polypeptides found in higher plants or other greenalgae, supports the hypothesis that the latter proteins appearedsubsequent to LHCI proteins. The major LHC of prasinophytesmight have arisen prior to the LHCII of other chlorophyll a/b–containingorganisms, possibly by divergence of a LHCI gene precursor.However, the discovery in O. tauri of CP26-like proteins, phylogeneticallyplaced at the base of the major LHCII protein clades, yieldsnew insight to the origin of these antenna proteins, which haveevolved separately in higher plants and green algae. Its diversebut numerically limited suite of Lhc genes renders O. taurian exceptional model system for future research on the evolutionand function of LHC components.

Key Words: Ostreococcus tauri • Prasinophyceae • light-harvesting complex • evolution • phylogeny

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