Author:
Daloso Danilo M.,Müller Karolin,Obata Toshihiro,Florian Alexandra,Tohge Takayuki,Bottcher Alexandra,Riondet Christophe,Bariat Laetitia,Carrari Fernando,Nunes-Nesi Adriano,Buchanan Bob B.,Reichheld Jean-Philippe,Araújo Wagner L.,Fernie Alisdair R.
Abstract
Plant mitochondria have a fully operational tricarboxylic acid (TCA) cycle that plays a central role in generating ATP and providing carbon skeletons for a range of biosynthetic processes in both heterotrophic and photosynthetic tissues. The cycle enzyme-encoding genes have been well characterized in terms of transcriptional and effector-mediated regulation and have also been subjected to reverse genetic analysis. However, despite this wealth of attention, a central question remains unanswered: “What regulates flux through this pathway in vivo?” Previous proteomic experiments withArabidopsisdiscussed below have revealed that a number of mitochondrial enzymes, including members of the TCA cycle and affiliated pathways, harbor thioredoxin (TRX)-binding sites and are potentially redox-regulated. We have followed up on this possibility and found TRX to be a redox-sensitive mediator of TCA cycle flux. In this investigation, we first characterized, at the enzyme and metabolite levels, mutants of the mitochondrial TRX pathway inArabidopsis: theNADP-TRX reductasea and b double mutant (ntra ntrb) and the mitochondrially locatedthioredoxin o1(trxo1) mutant. These studies were followed by a comparative evaluation of the redistribution of isotopes when13C-glucose,13C-malate, or13C-pyruvate was provided as a substrate to leaves of mutant or WT plants. In a complementary approach, we evaluated the in vitro activities of a range of TCA cycle and associated enzymes under varying redox states. The combined dataset suggests that TRX may deactivate both mitochondrial succinate dehydrogenase and fumarase and activate the cytosolic ATP-citrate lyase in vivo, acting as a direct regulator of carbon flow through the TCA cycle and providing a mechanism for the coordination of cellular function.
Publisher
Proceedings of the National Academy of Sciences
Cited by
174 articles.
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