Agustín J. Marín-Peña scite author profile

Although ammonium (NH 4 +) is a key intermediate of plant nitrogen metabolism, high concentrations of NH 4 + in the soil provoke physiological disorders that lead to the development of stress symptoms. Ammonium nutrition was shown to induce the accumulation of glucosinolates (GSLs) in leaves of different Brassicaceae species. To further understand the link between ammonium nutrition and GSLs, we analysed the ammonium stress response of Arabidopsis mutants impaired in GSL metabolic pathway. We showed that the MYB28 and MYB29 double mutant (myb28myb29), which is almost deprived of aliphatic GSLs, is highly hypersensitive to ammonium nutrition. Moreover, we evidenced that the stress symptoms developed were not a consequence of the lack of aliphatic GSLs. Transcriptomic analysis highlighted the induction of an iron (Fe) deficiency response in myb28myb29 under ammonium nutrition. Consistently, ammonium-grown myb28myb29 plants showed altered Fe accumulation and homeostasis. Interestingly, we showed overall that growing Arabidopsis with increased Fe availability relieved ammonium stress symptoms and that this was associated with MYB28 and MYB29 expression. Taken together, our data indicated that the control of Fe homeostasis was crucial for the Arabidopsis response to ammonium nutrition and evidenced that MYB28 and MYB29 play a role in this control.

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Polyamines contribute to salinity tolerance in the symbiosis Medicago truncatula-Sinorhizobium meliloti by preventing oxidative damage

López‐Gómez

Hidalgo-Castellanos

Muñoz‐Sánchez

et al. 2017

Plant Physiology and Biochemistry

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Polyamines: Key elements in the rhizobia-legume symbiosis?

et al. 2021

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Relationship Between Polyamines and Osmoprotectants in the Response to Salinity of the Legume–Rhizobia Symbiosis

López‐Gómez

Hidalgo-Castellanos

Marín-Peña

et al. 2019

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Polyamines oxidation is required in the symbiotic interaction Medicago truncatula–Sinorhizobium meliloti but does not participate in the regulation of polyamines level under salinity

et al. 2019

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