{"@type":"Dataset","go_id":["https://identifiers.org/GO:0009058","https://identifiers.org/GO:0009813"],"go_kw":["biosynthesis","flavonoid biosynthesis (ko00941)"],"integmet_study":"MTBLS4820","mesh_chemical_id":["https://identifiers.org/mesh:D016644","https://identifiers.org/mesh:D002338","https://identifiers.org/mesh:D011166","https://identifiers.org/mesh:C066957","https://identifiers.org/mesh:D000872","https://identifiers.org/mesh:D005419","https://identifiers.org/mesh:C065861","https://identifiers.org/mesh:D002734"],"mesh_chemical_pubtator_kw":["canthaxanthin","carotenoid","porphyrin","pelargonidin","anthocyanins","flavonoid","anthocyanin","carotenoids","malvidin","chlorophyll"],"mesh_gene_id":["https://identifiers.org/ncbigene:1319","https://identifiers.org/ncbigene:5447"],"mesh_gene_pubtator_kw":["CRD1","POR"],"ncbi_taxonomy_id":["https://identifiers.org/taxonomy:40685"],"ncbi_taxonomy_pubtator_kw":["willows"],"source_id":"https://identifiers.org/metabolights:MTBLS4820","study_findings":"Pelargonidin and canthaxanthin regulate red and purple color pigment.","study_observation":"Color regulation mechanism in purple, green, and red willow barks.","study_summary":"Color development in willow bark studied.","study_title_original":"Integrated Metabolomics and Transcriptomics Analyses Reveal Anthocyanin and Carotenoid Biosynthesis Involved in Color Development in Willow Bark"}
