<HashMap><database>ENA</database><scores/><additional><omics_type>Genomics</omics_type><center_name>Universidad Pública de Navarra</center_name><full_dataset_link>https://www.ebi.ac.uk/ena/browser/view/PRJNA271657</full_dataset_link><scientific_name>Arabidopsis thaliana</scientific_name><long_description>In this study we explain the physiological, biochemical and gene expression mechanisms adopted by nitrate-fed Arabidopsis thaliana plants growing under elevated [CO2], highlighting the importance of root-to-shoot interactions in these responses The transcriptomic approach (conducted at the root and shoot level) revealed that exposure to 800 ppm [CO2] conditioned the expression of genes involved in the transport of nitrate and mineral elements. Overall design: Arabidopsis thaliana, Columbia 0 ecotype (col 0) plants grown under hydroponic conditions. The nitrogen (N) source was KNO3 at 0.75 mM concentration. 5 weeks exposure to CO2 treatments, previous to first flower were buds visible (see Supplemental Figure 1 for the image of the plants), in 3.9 growth stage ontology from the scale described by Boyes (2001).</long_description><repository>ENA</repository></additional><is_claimable>false</is_claimable><name>Arabidopsis thaliana</name><description>Root-shoot mineral transport as a key target processes involved in Arabidopsis responsiveness to elevated [CO2] conditions</description><dates><last_updated>2025-09-24</last_updated><first_public>2024-04-04</first_public></dates><accession>PRJNA271657</accession><cross_references><GEO>GSE64694</GEO><taxon>3702</taxon></cross_references></HashMap>