{"@type":"Dataset","go_id":["https://identifiers.org/GO:0007165"],"go_kw":["signal transduction"],"integmet_study":"MTBLS984","mesh_chemical_id":["https://identifiers.org/mesh:D011392","https://identifiers.org/mesh:D000872","https://identifiers.org/mesh:D005419","https://identifiers.org/mesh:D013267","https://identifiers.org/mesh:D055549","https://identifiers.org/mesh:D000597","https://identifiers.org/mesh:D000040"],"mesh_chemical_pubtator_kw":["proline","anthocyanins","flavonoid","stilbenoid","volatile organic compounds","branched-chain amino acids","ABA"],"mesh_disease_id":["https://identifiers.org/mesh:D000069578"],"mesh_disease_pubtator_kw":["water deficit","Water deficit","Water Deficit"],"mesh_gene_id":["https://identifiers.org/ncbigene:100268051"],"mesh_gene_pubtator_kw":["AP2"],"ncbi_taxonomy_id":["https://identifiers.org/taxonomy:29760"],"ncbi_taxonomy_pubtator_kw":["Vitis vinifera L."],"source_id":"https://identifiers.org/metabolights:MTBLS984","study_findings":"Water deficit affects gene regulation, metabolite levels, and signal pathways.","study_observation":"Metabolic response of grape berries to water deficit.","study_summary":"Grape berry response to water deficit analyzed.","study_title_original":"Multi-Omics and Integrated Network Analyses Reveal New Insights into the Systems Relationships between Metabolites, Structural Genes, and Transcriptional Regulators in Developing Grape Berries (Vitis vinifera L.) Exposed to Water Deficit (Carotenoids; UPLC-DAD assay)."}
