Elemental cryo-imaging reveals SOS1-dependent vacuolar sodium accumulation

Ramakrishna, Priya; Gámez‐Arjona, Francisco M.; Bellani, Etienne; Martin‐Olmos, Cristina; Escrig, Stéphane; Bellis, Damien De; Luca, Antonietta De; Pardo, José M.; Quintero, Francisco J.; Genoud, Christel; Sánchez‐Rodríguez, Clara; Geldner, Niko; Meibom, Anders

doi:10.1038/s41586-024-08403-y

articleNatureJan 15, 2025HYBRID OA

Elemental cryo-imaging reveals SOS1-dependent vacuolar sodium accumulation

PRPriya Ramakrishna FMFrancisco M. Gámez‐Arjona EBEtienne Bellani CMCristina Martin‐Olmos SEStéphane Escrig

École Polytechnique Fédérale de Lausanne · University of Lausanne · +5 more institutions

PubMed

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Abstract

Increasing soil salinity causes significant crop losses globally; therefore, understanding plant responses to salt (sodium) stress is of high importance. Plants avoid sodium toxicity through subcellular compartmentation by intricate processes involving a high level of elemental interdependence. Current technologies to visualize sodium, in particular, together with other elements, are either indirect or lack in resolution. Here we used the newly developed cryo nanoscale secondary ion mass spectrometry ion microprobe1, which allows high-resolution elemental imaging of cryo-preserved samples and reveals the subcellular distributions of key macronutrients and micronutrients in root meristem cells of Arabidopsis…

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Keywords

Sodium
Chemistry
Biophysics
Biology

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