Options
A Chloroplast ABC1-like Kinase Regulates Vitamin E Metabolism in Arabidopsis
Auteur(s)
Martinis, Jacopo
Glauser, Gaétan
In
Plant Physiology, American Society of Plant Biologists, 2013/162/2/652-662
Résumé
In bacteria and mitochondria, ABC1 (for Activity of bc1 complex)-like kinases regulate ubiquinone synthesis, mutations causing severe respiration defects, including neurological disorders in humans. Little is known about plant ABC1-like kinases; in Arabidopsis (<i>Arabidopsis thaliana</i>), five are predicted in mitochondria but, surprisingly, six are located at lipid droplets in chloroplasts. These are a known site of prenylquinone (including tocopherol [vitamin E], phylloquinone [vitamin K] and plastoquinone) metabolism and contain a large proportion of the tocopherol cyclase (VTE1) required for vitamin E synthesis and recycling. Therefore, ABC1-like kinases may be involved in the regulation of chloroplast prenylquinone metabolism. Using a nontargeted lipidomics approach, we demonstrate that plants lacking the plastoglobule ABC1-like kinase ABC1K3 are defective both for the production of plastochromanol-8 (a plastoquinone-derived lipid antioxidant) and the redox recycling of a-tocopherol, whereas tocopherol production is not affected. All of these pathways require VTE1 activity. However, in the <i>abc1k3</i> mutant, VTE1 levels are strongly reduced posttranscriptionally. We provide evidence that the ABC1-like kinase ABC1K3 phosphorylates VTE1, possibly stabilizing it at plastoglobules. However, ABC1K3 may also have other targets and be involved in a wider chloroplast regulatory network.
Identifiants
Type de publication
journal article
Dossier(s) à télécharger
