KRAS
Gene Ontology Biological Process
- Fc-epsilon receptor signaling pathway [TAS]
- MAPK cascade [TAS]
- Ras protein signal transduction [TAS]
- activation of MAPKK activity [TAS]
- axon guidance [TAS]
- blood coagulation [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]
- neurotrophin TRK receptor signaling pathway [TAS]
- positive regulation of cell proliferation [IMP]
- positive regulation of gene expression [IMP]
- positive regulation of protein phosphorylation [IMP]
- small GTPase mediated signal transduction [TAS]
Gene Ontology Molecular Function
Gene Ontology Cellular Component
STX3
Gene Ontology Biological Process
- intracellular protein transport [IBA]
- neuron projection development [ISS]
- positive regulation of cell adhesion [IMP]
- positive regulation of cell proliferation [IMP]
- positive regulation of chemotaxis [IMP]
- positive regulation of protein localization to cell surface [IMP]
- positive regulation of protein localization to plasma membrane [IMP]
- synaptic vesicle fusion to presynaptic membrane [IBA]
- vesicle docking [IBA]
Gene Ontology Molecular Function
Gene Ontology Cellular Component
- SNARE complex [IBA, ISS]
- apical plasma membrane [IDA]
- azurophil granule [IDA]
- cell-cell junction [IDA]
- extracellular vesicular exosome [IDA]
- growth cone [ISS]
- integral component of membrane [IBA]
- lamellipodium [IDA]
- neuron projection [ISS]
- plasma membrane [IDA]
- specific granule [IDA]
- synaptic vesicle [IBA]
- vacuole [TAS]
Proximity Label-MS
An interaction is inferred when a bait-enzyme fusion protein selectively modifies a vicinal protein with a diffusible reactive product, followed by affinity capture of the modified protein and identification by mass spectrometric methods.
Publication
A proximity-dependent biotinylation map of a human cell.
Compartmentalization is a defining characteristic of eukaryotic cells, and partitions distinct biochemical processes into discrete subcellular locations. Microscopy1 and biochemical fractionation coupled with mass spectrometry2-4 have defined the proteomes of a variety of different organelles, but many intracellular compartments have remained refractory to such approaches. Proximity-dependent biotinylation techniques such as BioID provide an alternative approach to define the composition of ... [more]
Quantitative Score
- 50.0 [FoldChange]
Throughput
- High Throughput
Additional Notes
- BioID
- SAINTexpress (v.3.6.1) was used to identify proximity interactions and those with a Bayesian FDR =< 0.01 were considered high confidence. The score represents the fold change of the average spectral count in sample replicates relative to the average in control replicates.
Related interactions
Interaction | Experimental Evidence Code | Dataset | Throughput | Score | Curated By | Notes |
---|---|---|---|---|---|---|
KRAS STX3 | Proximity Label-MS Proximity Label-MS An interaction is inferred when a bait-enzyme fusion protein selectively modifies a vicinal protein with a diffusible reactive product, followed by affinity capture of the modified protein and identification by mass spectrometric methods. | High | 18.0613 | BioGRID | 2604497 | |
KRAS STX3 | Proximity Label-MS Proximity Label-MS An interaction is inferred when a bait-enzyme fusion protein selectively modifies a vicinal protein with a diffusible reactive product, followed by affinity capture of the modified protein and identification by mass spectrometric methods. | High | - | BioGRID | 2529383 | |
KRAS STX3 | Proximity Label-MS Proximity Label-MS An interaction is inferred when a bait-enzyme fusion protein selectively modifies a vicinal protein with a diffusible reactive product, followed by affinity capture of the modified protein and identification by mass spectrometric methods. | High | - | BioGRID | 2548270 |
Curated By
- BioGRID