Transcriptome datasets of salt-stressed tomato plants treated with zinc oxide nanoparticlesMendeley DataSRR30014447 - SRR30014450SRR30014447 - SRR30014450PRJNA1141123SRR30014447 - SRR30014450SRR30020776 - SRR30020779SRR30020776 - SRR30020779SRR30020755 - SRR30020758SRR30020776 - SRR30020779SRR30035507 - SRR30035510SRR30040799 - SRR30040802SRR30020776 - SRR30020779SRR30035507 - SRR30035510SRR30022363 - SRR30022366SRR30022363 - SRR30022366SRR30014447 - SRR30014450SRR30022363 - SRR30022366SRR30020755 - SRR30020758SRR30020755 - SRR30020758SRR30022363 - SRR30022366SRR30020755 - SRR30020758SRR30040799 - SRR30040802SRR30035507 - SRR30035510SRR30040799 - SRR30040802SRR30040799 - SRR30040802SRR30035507 - SRR30035510

Salinity diminishes agricultural productivity and quality, resulting in overall economic losses on a worldwide scale. Zinc oxide nanoparticles (ZnONPs) have been found to enhance plant physiological and metabolic processes, as well as increase overall resilience to abiotic stressors. A research stu...

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Bibliographic Details

Main Authors:	Mostafa Ahmed, Zoltán Tóth, Diaa Attia Marrez, Roquia Rizk, Donia Abdul-Hamid, Kincső Decsi
Format:	Article
Language:	English
Published:	Elsevier 2025-02-01
Series:	Data in Brief
Subjects:	Solanum lycopersicum NaCl ZnO-NPs Osmotic pressure RNA-seq Illumina NGS
Online Access:	http://www.sciencedirect.com/science/article/pii/S2352340925000149
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