SET
Gene Ontology Biological Process
- DNA replication [TAS]
- RNA metabolic process [TAS]
- gene expression [TAS]
- mRNA metabolic process [TAS]
- mitotic cell cycle [TAS]
- negative regulation of catalytic activity [TAS]
- negative regulation of histone acetylation [TAS]
- negative regulation of neuron apoptotic process [IGI]
- negative regulation of transcription, DNA-templated [IDA]
- nucleocytoplasmic transport [NAS]
- nucleosome disassembly [TAS]
- regulation of catalytic activity [TAS]
Gene Ontology Molecular Function
Gene Ontology Cellular Component
GLS2
Gene Ontology Biological Process
- cellular amino acid biosynthetic process [TAS]
- cellular amino acid metabolic process [TAS]
- cellular nitrogen compound metabolic process [TAS]
- glutamate secretion [TAS]
- neurotransmitter secretion [TAS]
- reactive oxygen species metabolic process [IMP]
- regulation of apoptotic process [IMP]
- small molecule metabolic process [TAS]
- synaptic transmission [TAS]
Gene Ontology Molecular Function
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
Acetylation-regulated interaction between p53 and SET reveals a widespread regulatory mode.
Although lysine acetylation is now recognized as a general protein modification for both histones and non-histone proteins, the mechanisms of acetylation-mediated actions are not completely understood. Acetylation of the C-terminal domain (CTD) of p53 (also known as TP53) was an early example of non-histone protein acetylation and its precise role remains unclear. Lysine acetylation often creates binding sites for bromodomain-containing ... [more]
Throughput
- Low Throughput
Additional Notes
- ChIP
Curated By
- BioGRID