{"@type":"Dataset","go_id":["https://identifiers.org/GO:0030154","https://identifiers.org/GO:0006555","https://identifiers.org/GO:0008152"],"go_kw":["cell differentiation","methionine metabolism","metabolism"],"integmet_study":"MTBLS6661","mesh_chemical_id":["https://identifiers.org/mesh:D008715"],"mesh_chemical_pubtator_kw":["methionine"],"mesh_disease_id":["https://identifiers.org/mesh:D000138","https://identifiers.org/mesh:D009369"],"mesh_disease_pubtator_kw":["acidosis","tumor"],"mesh_gene_id":["https://identifiers.org/ncbigene:20539"],"mesh_gene_pubtator_kw":["SLC7A5"],"ncbi_taxonomy_id":["https://identifiers.org/taxonomy:10090"],"ncbi_taxonomy_pubtator_kw":["mice"],"source_id":"https://identifiers.org/metabolights:MTBLS6661","study_findings":"Acidosis impairs methionine metabolism, preserving T cell stemness and enhancing anti-tumor efficacy.","study_observation":"Impact of extracellular-acidosis on T cell metabolic fitness and differentiation.","study_summary":"Extracellular-acidosis affects T cell metabolism and stemness.","study_title_original":"Extracellular-acidosis restricts one-carbon metabolism and preserves T cell stemness"}
