Deciphering thylakoid sub-compartments using a mass spectrometry-based approach. - BIG - Biologie à Grande Échelle (BGE)
Article Dans Une Revue Molecular and Cellular Proteomics Année : 2014

Deciphering thylakoid sub-compartments using a mass spectrometry-based approach.

Résumé

Photosynthesis has shaped atmospheric and ocean chemistries and probably changed the climate as well, as oxygen is released from water as part of the photosynthetic process. In photosynthetic eukaryotes, this process occurs in the chloroplast, an organelle containing the most abundant biological membrane, the thylakoids. The thylakoids of plants and some green algae are structurally inhomogeneous, consisting of two main domains: the grana, which are piles of membranes gathered by stacking forces, and the stroma-lamellae, which are unstacked thylakoids connecting the grana. The major photosynthetic complexes are unevenly distributed within these compartments because of steric and electrostatic constraints. Although proteomic analysis of thylakoids has been instrumental to define its protein components, no extensive proteomic study of subthylakoid localization of proteins in the BBY (grana) and the stroma-lamellae fractions has been achieved so far. To fill this gap, we performed a complete survey of the protein composition of these thylakoid subcompartments using thylakoid membrane fractionations. We employed semiquantitative proteomics coupled with a data analysis pipeline and manual annotation to differentiate genuine BBY and stroma-lamellae proteins from possible contaminants. About 300 thylakoid (or potentially thylakoid) proteins were shown to be enriched in either the BBY or the stroma-lamellae fractions. Overall, present findings corroborate previous observations obtained for photosynthetic proteins that used nonproteomic approaches. The originality of the present proteomic relies in the identification of photosynthetic proteins whose differential distribution in the thylakoid subcompartments might explain already observed phenomenon such as LHCII docking. Besides, from the present localization results we can suggest new molecular actors for photosynthesis-linked activities. For instance, most PsbP-like subunits being differently localized in stroma-lamellae, these proteins could be linked to the PSI-NDH complex in the context of cyclic electron flow around PSI. In addition, we could identify about a hundred new likely minor thylakoid (or chloroplast) proteins, some of them being potential regulators of the chloroplast physiology.
Fichier principal
Vignette du fichier
PIIS1535947620348933.pdf (1.67 Mo) Télécharger le fichier
Origine Fichiers éditeurs autorisés sur une archive ouverte

Dates et versions

hal-01078965 , version 1 (06-03-2024)

Identifiants

Citer

Martino Tomizioli, Cosmin Lazar, Sabine Brugière, Thomas Burger, Daniel Salvi, et al.. Deciphering thylakoid sub-compartments using a mass spectrometry-based approach.. Molecular and Cellular Proteomics, 2014, 13 (8), pp.2147-2167. ⟨10.1074/mcp.M114.040923⟩. ⟨hal-01078965⟩
245 Consultations
27 Téléchargements

Altmetric

Partager

More