Entries by Lekshmy Sathee

Review: Protein phosphorylation “toggle switch” for plant iron balance (Trends Plant Sci)

Protein phosphorylation and dephosphorylation act as a switch regulating a multitude of protein properties, be it their activity, interaction with other proteins, stability, or even cellular localization. This review by Li et al. describs the many ways that protein phosphorylation contributes to iron uptake and homeostasis. The membrane localization of the iron transporter IRT1 is […]

N-mediated heading date-1 (Nhd1) regulates nitrogen uptake efficiency and root growth in rice (Plant Physiol)

In rice, the transcription factor N-mediated heading date-1 (Nhd1) activates the expression of Heading date 3a (Hd3a), a floral regulator gene and regulate flowering. Li et al. report the role of Nhd1 in nitrogen (N) use efficiency and N-dependent root growth in rice. nhd1 mutants were impaired in root growth when grown in low nitrate, […]

PDX1.1-dependent vitamin B6 synthesis alleviates ammonium toxicity-associated ROS production (Mol Plant)

Ammonium is a nitrogen form preferred by many plant species. However, high ammonium concentrations lead to decreased primary root elongation due to membrane depolarization and lower apoplastic pH.  Liu et al. report that ammonium toxicity results in iron-dependent reactive oxygen species (ROS) production and thereby decreases primary root elongation. Based on ammonium responsive transcriptome data, […]

Nitrogen form dependent root foraging is regulated by auxin and brassinosteroid signaling (Plant Physiol.)

Root growth is highly sensitive to nitrogen (N), and affected by both the form and distribution of N. The hormone auxin is a major player in root growth response to N heterogeneity. Devi et al. report on the intricate interplay of auxin and brassinosteroid (BR) signaling in determining the root growth response to low N, […]

Nitrate transporter NPF7.9 is a regulator nitrogen use efficiency and stress-induced nitrate allocation to roots in rice (Plant Physiol)

In addition to its role as a nutrient and a developmental signal, nitrate regulates stress responses in plants. By homology to nitrate transporters previously identified in Arabidopsis as contributing to stress induced-nitrate allocation to roots (SINAR) and nitrogen use efficiency (NUE), Guan et al. identified OsNPF7.9 as having a similar role in rice.  Osnpf7.9 mutants […]

Nitrate transporter NRT2.1 is a determinant of a nitrogen acquisition switch between nitrate uptake and symbiosis in Lotus japonicus (Plant Cell)

When nitrogen or nitrate availability is high, symbiotic nodule generation is curtailed to conserve the associated energy cost. But how does the presence of nitrate interfere with nodulation and symbiosis?  Previously, genetic studies identified nitrate unresponsive symbiosis (nrsym) mutants in Lotus japonicus in which nodule formation is insensitive to nitrate levels. Here, Misawa et al. […]

Functional interaction of nitrate signaling regulator NLP7 and N-degron “recognin” PRT6 enhances abiotic stress tolerance (Plant Physiol.)

In addition to the vast array of metabolic and signaling roles, nitric oxide (NO) is prominently involved in low oxygen sensing in seeds and waterlogged plants. In Arabidopsis, the cytosolic nitrate reductase (NR) isoforms NIA1/NIA2 catalyze the reductive pathway of NO generation. NO sensing in plants constitute highly regulated proteasomal degradation of ethylene response transcription […]