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SALT OVERLY SENSITIVE2 and AMMONIUM TRANSPORTER1;1 contribute to plant salt tolerance by maintaining ammonium uptake

Liang Ma, Debin Qin, Liping Sun, Kaina Zhang, Yu Xiang, An-Kai Dang, Shengfan Hou, Xiaoyun Zhao, Yongqing Yang, Yang Wang, Yuhang Chen, Yan Guo

2025The Plant Cell33 citationsDOIOpen Access PDF

Abstract

Soil salinity is a severe threat to agriculture and plant growth. Under high salinity conditions, ammonium (NH4+) is the predominant inorganic nitrogen source used by plants due to limited nitrification. However, how ammonium shapes the plant response to salt stress remains a mystery. Here, we demonstrate that the growth of Arabidopsis (Arabidopsis thaliana) seedlings is less sensitive to salt stress when provided with ammonium instead of nitrate (NO3-), a response that is mediated by ammonium transporters (AMTs). We further show that the kinase SALT OVERLY SENSITIVE2 (SOS2) physically interacts with and activates AMT1;1 by directly phosphorylating the nonconserved serine residue Ser-450 in the C-terminal region. In agreement with the involvement of SOS2, ammonium uptake was lower in sos2 mutants grown under salt stress relative to the wild type. Moreover, AMT-mediated ammonium uptake enhanced salt-induced SOS2 kinase activity. Together, our study demonstrates that SOS2 activates AMT1;1 to fine-tune and maintain ammonium uptake and optimize the plant salt stress response.

Topics & Concepts

AmmoniumSalt (chemistry)ArabidopsisSerineSalinityArabidopsis thalianaBiologyAmmonium nitratePlant growthBiochemistryNitrateBiophysicsNitrogenMutantBotanyChemistryPhosphorylationEcologyGeneOrganic chemistryPhysical chemistryPlant nutrient uptake and metabolismAluminum toxicity and tolerance in plants and animalsPlant Stress Responses and Tolerance
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