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ABC1K1/PGR6 kinase: a regulatory link between photosynthetic activity and chloroplast metabolism
Auteur(s)
Martinis, Jacopo
Glauser, Gaétan
Stettler, Michaela
Zeeman, Samuel C
Yamamoto, Hiroshi
Shikanai, Toshiharu
In
The Plant Journal, Wiley, 2014/77/2/269–283
Résumé
Arabidopsis proton gradient regulation (pgr) mutants have high chlorophyll fluorescence and reduced non-photochemical quenching (NPQ) caused by defects in photosynthetic electron transport. Here, we identify PGR6 as the chloroplast lipid droplet (plastoglobule, PG) kinase ABC1K1 (activity of <i>bc1</i> complex kinase 1). The members of the ABC1/ADCK/UbiB family of atypical kinases regulate ubiquinone synthesis in bacteria and mitochondria, and impact various metabolic pathways in plant chloroplasts. Here, we demonstrate that <i>abc1k1</i> has a unique photosynthetic and metabolic phenotype that is distinct from that of the <i>abc1k3</i> homolog. The <i>abc1k1/pgr6</i> single mutant is specifically deficient in the electron carrier plastoquinone, as well as in ß–carotene and the xanthophyll lutein, and is defective in membrane antioxidant tocopherol metabolism. After 2 days of continuous high light stress, abc1k1/pgr6 plants suffer extensive photosynthetic and metabolic perturbations, strongly affecting carbohydrate metabolism. Remarkably, however, the mutant acclimates to high light after 7 days together with a recovery of carotenoid levels and a drastic alteration in the starch-to-sucrose ratio. Moreover, ABC1K1 behaves as an active kinase and phosphorylates VTE1, a key enzyme of tocopherol (vitamin E) metabolism in vitro. Our results indicate that the ABC1K1 kinase constitutes a new type of regulatory link between photosynthetic activity and chloroplast metabolism.
Identifiants
Type de publication
journal article
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