Identification of the Arabidopsis calmodulin-dependent NAD+ kinase that sustains the elicitor-induced oxidative burst
Résumé
17 NADP(H) is an essential cofactor of multiple metabolic processes in all living organisms. In plants, 18 NADP(H) is required as the substrate of Ca 2+-dependent NADPH oxidases which catalyze a reactive 19 oxygen species burst in response to various stimuli. While NADP + production in plants has long been 20 known to involve a Calmodulin and Calcium (CaM)/Ca 2+-dependent NAD + kinase, the nature of the 21 enzyme catalyzing this activity has remained enigmatic, as well as its role in plant physiology. Here, 22 thanks to a combination of proteomics, biochemistry, molecular biology and in vivo studies, we have 23 identified an Arabidopsis protein that catalyzes NADP + production exclusively in the presence of 24 CaM/Ca 2+. This new enzyme (NADKc) has a CaM-binding peptide located in its N-terminal region and 25 displays peculiar biochemical properties as well as different domain organization compared to known 26 plant NAD + kinases. In response to a pathogen elicitor, activity of NADKc, which is associated with the 27 mitochondrial periphery, contributes to an increase in the cellular NADP + concentration and to the 28 amplification of the elicitor-induced oxidative burst. Based on a phylogenetic analysis and enzymatic 29 assays, we propose that the CaM/Ca 2+-dependent NAD + kinase activity found in photosynthetic 30
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