PDX3 is important for carbon/nitrogen balance in Arabidopsis associated with distinct environmental conditions
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Abstract
ABSTRACT To survive and proliferate in diverse environments with varying climate and nutrient availability, plants modulate their metabolism. Achieving a balance between carbon (C) and nitrogen (N) use such that growth and defense mechanisms can be appropriately controlled is critical for plant fitness. The identification of factors that regulate C/N utilization in plants can make a significant contribution to optimization of plant health. Here we show that pyridox(am)ine 5’-phosphate oxidase (PDX3), which regulates vitamin B 6 homeostasis, influences C/N balance. The B 6 vitamer imbalance resulting from loss of PDX3 leads to over-accumulation of nitrogenous compounds. A combination of increased glutamate dehydrogenase activity, impairment in the photorespiratory cycle and inappropriate use of endogenous ammonium fuel the metabolic imbalance. Growth at elevated CO 2 levels further exacerbates the pdx3 phenotypes. Interestingly, serine supplementation rescues growth under high CO 2 likely bypassing the phosphorylated pathway of biosynthesis suggesting that this amino acid is an important commodity. We show that PDX3 function appears dispensable upon thermomorphogenesis, a condition that favors C metabolism. Furthermore, while a low ammonium to nitrate ratio likely accounts for overstimulation of salicylic acid (SA) defense responses in pdx3 lines that compromises growth, a basal level of SA protects against loss of PDX3 biochemical function. Overall, the study highlights environmental scenarios where vitamin B 6 homeostasis, as managed by the salvage pathway enzyme PDX3, is critical and provides insight into how plants reprogram their metabolism under such conditions.
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