Limami, A.; Hirel, B.; Lothier, J. Does Potassium (K+) Contribute to High-Nitrate (NO3−) Weakening of a Plant’s Defense System against Necrotrophic Fungi? Int. J. Mol. Sci.2022, 23, 15631.
Limami, A.; Hirel, B.; Lothier, J. Does Potassium (K+) Contribute to High-Nitrate (NO3−) Weakening of a Plant’s Defense System against Necrotrophic Fungi? Int. J. Mol. Sci. 2022, 23, 15631.
Limami, A.; Hirel, B.; Lothier, J. Does Potassium (K+) Contribute to High-Nitrate (NO3−) Weakening of a Plant’s Defense System against Necrotrophic Fungi? Int. J. Mol. Sci.2022, 23, 15631.
Limami, A.; Hirel, B.; Lothier, J. Does Potassium (K+) Contribute to High-Nitrate (NO3−) Weakening of a Plant’s Defense System against Necrotrophic Fungi? Int. J. Mol. Sci. 2022, 23, 15631.
Abstract
In this opinion article, we have analyzed the relevancy of a hypothesis which is based on the idea that in Arabidopsis thaliana jasmonic acid (JA)-mediated defense system against necrotrophic fungi is weakened when NO3- supply is high. Such hypothesis is based on the fact that when NO3- supply is high, it induces an increase in the amount of bioactive ABA which induces the sequestration of the phosphatase ABI2 (PP2C) into the PYR/PYL/RCAR receptor. Consequently, the Ca sensors CBL1/9 - CIPK23 are not dephosphorylated by ABI2, thus remaining able to phosphorylate targets such as AtNPF6.3 and AtKAT1, a NO3- and K+ transporters respectively. Therefore, the impact of phosphorylation on the regulation of these two transporters, could 1) reduce NO3- influx as in its phosphorylated state AtNPF6.3 shifts to low capacity state and 2) increase K+ influx, as in its phosphorylated state KAT1 becomes more active. It is also well known that in the roots K+ loading in the xylem and its transport to the shoot is activated in the presence of NO3-. As such, the enrichment of plant tissues in K+ can impair jasmonic acid (JA) regulatory pathway and the induction of the corresponding biomarkers. The latter are known to be up-regulated under K+ deficiency and inhibited when K+ is resupplied. We therefore suggest that increased K+ uptake and tissue content induced by high NO3- supply modifies JA regulatory pathway, resulting in weakened JA-mediated plant’s defense system against necrotrophic fungi.
Biology and Life Sciences, Biochemistry and Molecular Biology
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
