{"@type":"Dataset","go_id":["https://identifiers.org/GO:0010133","https://identifiers.org/GO:0005739","https://identifiers.org/GO:0005829","https://identifiers.org/GO:0006099","https://identifiers.org/GO:0006119"],"go_kw":["proline oxidation","mitochondrion","cytosol","TCA cycle","oxidative phosphorylation"],"integmet_study":"MTBLS1390","mesh_chemical_id":["https://identifiers.org/mesh:D011392","https://identifiers.org/mesh:D014233","https://identifiers.org/mesh:D017382","https://identifiers.org/mesh:D000255"],"mesh_chemical_pubtator_kw":["proline","tricarboxylic acid","ROS","reactive oxygen species","TCA","ATP"],"mesh_disease_id":["https://identifiers.org/mesh:D015433"],"mesh_disease_pubtator_kw":["mitochondrial membrane"],"ncbi_taxonomy_id":["https://identifiers.org/taxonomy:7393","https://identifiers.org/taxonomy:5691"],"ncbi_taxonomy_pubtator_kw":["tsetse fly","Trypanosoma brucei"],"source_id":"https://identifiers.org/metabolights:MTBLS1390","study_findings":"Mitochondria release ROS to drive cellular differentiation.","study_observation":"Mitochondrial metabolic remodeling during Trypanosoma brucei life cycle.","study_summary":"Mitochondrial metabolic changes in Trypanosoma brucei.","study_title_original":"Cell-based and multi-omics profiling reveal dynamic metabolic repurposing of mitochondria to drive developmental progression of Trypanosoma brucei"}
