HRAS
Gene Ontology Biological Process
- Fc-epsilon receptor signaling pathway [TAS]
- MAPK cascade [TAS]
- Ras protein signal transduction [IDA, TAS]
- activation of MAPKK activity [TAS]
- axon guidance [TAS]
- blood coagulation [TAS]
- cell cycle arrest [IDA, IMP]
- cell surface receptor signaling pathway [TAS]
- cellular senescence [IDA]
- chemotaxis [TAS]
- epidermal growth factor receptor signaling pathway [TAS]
- fibroblast growth factor receptor signaling pathway [TAS]
- innate immune response [TAS]
- insulin receptor signaling pathway [TAS]
- leukocyte migration [TAS]
- mitotic cell cycle checkpoint [IDA]
- negative regulation of Rho GTPase activity [IDA]
- negative regulation of cell proliferation [IDA]
- negative regulation of gene expression [IDA]
- neurotrophin TRK receptor signaling pathway [TAS]
- organ morphogenesis [TAS]
- positive regulation of DNA replication [IDA]
- positive regulation of ERK1 and ERK2 cascade [IDA]
- positive regulation of JNK cascade [IDA]
- positive regulation of MAP kinase activity [IDA]
- positive regulation of MAPK cascade [IDA]
- positive regulation of Rac GTPase activity [IDA]
- positive regulation of actin cytoskeleton reorganization [IDA]
- positive regulation of cell migration [IDA]
- positive regulation of cell proliferation [IDA]
- positive regulation of epithelial cell proliferation [IMP]
- positive regulation of miRNA metabolic process [IDA]
- positive regulation of protein phosphorylation [IDA]
- positive regulation of ruffle assembly [IDA]
- positive regulation of transcription from RNA polymerase II promoter [IDA]
- positive regulation of wound healing [IDA]
- signal transduction [NAS]
- small GTPase mediated signal transduction [TAS]
- synaptic transmission [TAS]
Gene Ontology Molecular Function
Gene Ontology Cellular Component
MAPKAP1
Gene Ontology Biological Process
- Fc-epsilon receptor signaling pathway [TAS]
- T cell costimulation [TAS]
- epidermal growth factor receptor signaling pathway [TAS]
- fibroblast growth factor receptor signaling pathway [TAS]
- innate immune response [TAS]
- negative regulation of Ras protein signal transduction [IMP]
- neurotrophin TRK receptor signaling pathway [TAS]
- phosphatidylinositol-mediated signaling [TAS]
- substantia nigra development [IEP]
Gene Ontology Molecular Function- Ras GTPase binding [IDA]
- phosphatidic acid binding [IDA]
- phosphatidylinositol-3,4,5-trisphosphate binding [IDA]
- phosphatidylinositol-3,4-bisphosphate binding [IDA]
- phosphatidylinositol-3,5-bisphosphate binding [IDA]
- phosphatidylinositol-4,5-bisphosphate binding [IDA]
- protein binding [IPI]
- protein kinase binding [IPI]
- Ras GTPase binding [IDA]
- phosphatidic acid binding [IDA]
- phosphatidylinositol-3,4,5-trisphosphate binding [IDA]
- phosphatidylinositol-3,4-bisphosphate binding [IDA]
- phosphatidylinositol-3,5-bisphosphate binding [IDA]
- phosphatidylinositol-4,5-bisphosphate binding [IDA]
- protein binding [IPI]
- protein kinase binding [IPI]
Gene Ontology Cellular Component
Co-localization
Interaction inferred from two proteins that co-localize in the cell by indirect immunofluorescence only when in addition, if one gene is deleted, the other protein becomes mis-localized. Also includes co-dependent association of proteins with promoter DNA in chromatin immunoprecipitation experiments.
Publication
The Functional Proximal Proteome of Oncogenic Ras Includes mTORC2.
Proximity-dependent biotin labeling (BioID) may identify new targets for cancers driven by difficult-to-drug oncogenes such as Ras. Therefore, BioID was used with wild-type (WT) and oncogenic mutant (MT) H-, K-, and N-Ras, identifying known interactors, including Raf and PI3K, as well as a common set of 130 novel proteins proximal to all Ras isoforms. A CRISPR screen of these proteins for ... [more]
Throughput
- Low Throughput
Additional Notes
- PLA-Western
Related interactions
| Interaction | Experimental Evidence Code | Dataset | Throughput | Score | Curated By | Notes |
|---|---|---|---|---|---|---|
| HRAS MAPKAP1 | Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores. | Low | - | BioGRID | 2548766 |
Curated By
- BioGRID