Study details
- Title
- PKM2 methylation by CARM1 activates aerobic glycolysis to promote tumorigenesis.
- Summary
- PKM2 methylation by CARM1 promotes tumorigenesis.
- Observation
- PKM2 methylation by CARM1 in breast cancer cells.
- Findings
- PKM2 methylation shifts metabolism to aerobic glycolysis, promoting tumorigenesis.
- Disease terms
- tumorigenesis, metastasis, cancer, breast cancer
- Gene terms
- CARM1, co-activator-associated arginine methyltransferase 1
- Chemical terms
- calcium
- Organisms
- —
Raw data (JSON)
Also available at
/api/study/https://identifiers.org/metabolights:MTBLS533.
{
"@type": "Dataset",
"go_id": [
"https://identifiers.org/GO:0005737",
"https://identifiers.org/GO:0016310",
"https://identifiers.org/GO:0008283",
"https://identifiers.org/GO:0005783",
"https://identifiers.org/GO:0005739",
"https://identifiers.org/GO:0006119",
"https://identifiers.org/GO:0032259",
"https://identifiers.org/GO:0006096"
],
"go_kw": [
"cytoplasm",
"phosphorylation",
"cell proliferation",
"endoplasmic reticulum",
"mitochondria",
"oxidative phosphorylation",
"methylation",
"glycolysis"
],
"integmet_study": "MTBLS533",
"mesh_chemical_id": [
"https://identifiers.org/mesh:D002118"
],
"mesh_chemical_pubtator_kw": [
"calcium"
],
"mesh_disease_id": [
"https://identifiers.org/mesh:D063646",
"https://identifiers.org/mesh:D009362",
"https://identifiers.org/mesh:D009369",
"https://identifiers.org/mesh:D001943"
],
"mesh_disease_pubtator_kw": [
"tumorigenesis",
"metastasis",
"cancer",
"breast cancer"
],
"mesh_gene_id": [
"https://identifiers.org/ncbigene:10498"
],
"mesh_gene_pubtator_kw": [
"CARM1",
"co-activator-associated arginine methyltransferase 1"
],
"source_id": "https://identifiers.org/metabolights:MTBLS533",
"study_findings": "PKM2 methylation shifts metabolism to aerobic glycolysis, promoting tumorigenesis.",
"study_observation": "PKM2 methylation by CARM1 in breast cancer cells.",
"study_summary": "PKM2 methylation by CARM1 promotes tumorigenesis.",
"study_title_original": "PKM2 methylation by CARM1 activates aerobic glycolysis to promote tumorigenesis."
}