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PDB Keywords for 4HFZ
(Keywords from the PDB file are used here. They may or may not correspond to GO term names).
- Mdm2|P53|Surface Entropy Reduction|Mutant Validation|Ligase [GO] [PubMed] [Google]
GO Keywords for 4HFZ
(Here all GO term names are given that map directly to this particular structure).
- negative regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- DNA strand renaturation [GO] [PubMed] [Google]
- nuclear chromatin [GO] [PubMed] [Google]
- DNA-binding transcription factor activity, RNA polymerase II-specific [GO] [PubMed] [Google]
- core promoter sequence-specific DNA binding [GO] [PubMed] [Google]
- RNA polymerase II transcription factor binding [GO] [PubMed] [Google]
- DNA-binding transcription activator activity, RNA polymerase II-specific [GO] [PubMed] [Google]
- protease binding [GO] [PubMed] [Google]
- p53 binding [GO] [PubMed] [Google]
- DNA binding [GO] [PubMed] [Google]
- chromatin binding [GO] [PubMed] [Google]
- damaged DNA binding [GO] [PubMed] [Google]
- double-stranded DNA binding [GO] [PubMed] [Google]
- DNA-binding transcription factor activity [GO] [PubMed] [Google]
- copper ion binding [GO] [PubMed] [Google]
- protein binding [GO] [PubMed] [Google]
- ATP binding [GO] [PubMed] [Google]
- nucleus [GO] [PubMed] [Google]
- nucleoplasm [GO] [PubMed] [Google]
- replication fork [GO] [PubMed] [Google]
- nucleolus [GO] [PubMed] [Google]
- cytoplasm [GO] [PubMed] [Google]
- mitochondrion [GO] [PubMed] [Google]
- mitochondrial matrix [GO] [PubMed] [Google]
- endoplasmic reticulum [GO] [PubMed] [Google]
- cytosol [GO] [PubMed] [Google]
- base-excision repair [GO] [PubMed] [Google]
- nucleotide-excision repair [GO] [PubMed] [Google]
- transcription, DNA-templated [GO] [PubMed] [Google]
- regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- transcription by RNA polymerase II [GO] [PubMed] [Google]
- apoptotic process [GO] [PubMed] [Google]
- cellular response to DNA damage stimulus [GO] [PubMed] [Google]
- DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest [GO] [PubMed] [Google]
- DNA damage response, signal transduction by p53 class mediator resulting in transcription of p21 class mediator [GO] [PubMed] [Google]
- ER overload response [GO] [PubMed] [Google]
- cell cycle [GO] [PubMed] [Google]
- cell cycle arrest [GO] [PubMed] [Google]
- Ras protein signal transduction [GO] [PubMed] [Google]
- multicellular organism development [GO] [PubMed] [Google]
- cell aging [GO] [PubMed] [Google]
- protein localization [GO] [PubMed] [Google]
- transcription factor binding [GO] [PubMed] [Google]
- zinc ion binding [GO] [PubMed] [Google]
- cell proliferation [GO] [PubMed] [Google]
- negative regulation of cell proliferation [GO] [PubMed] [Google]
- determination of adult lifespan [GO] [PubMed] [Google]
- response to X-ray [GO] [PubMed] [Google]
- response to gamma radiation [GO] [PubMed] [Google]
- positive regulation of gene expression [GO] [PubMed] [Google]
- programmed cell death [GO] [PubMed] [Google]
- viral process [GO] [PubMed] [Google]
- nuclear matrix [GO] [PubMed] [Google]
- PML body [GO] [PubMed] [Google]
- protein sumoylation [GO] [PubMed] [Google]
- enzyme binding [GO] [PubMed] [Google]
- protein kinase binding [GO] [PubMed] [Google]
- protein phosphatase binding [GO] [PubMed] [Google]
- cell differentiation [GO] [PubMed] [Google]
- negative regulation of cell growth [GO] [PubMed] [Google]
- DNA damage response, signal transduction by p53 class mediator [GO] [PubMed] [Google]
- receptor tyrosine kinase binding [GO] [PubMed] [Google]
- positive regulation of histone deacetylation [GO] [PubMed] [Google]
- chromatin assembly [GO] [PubMed] [Google]
- mitotic G1 DNA damage checkpoint [GO] [PubMed] [Google]
- ubiquitin protein ligase binding [GO] [PubMed] [Google]
- positive regulation of protein oligomerization [GO] [PubMed] [Google]
- cellular protein localization [GO] [PubMed] [Google]
- cellular response to UV [GO] [PubMed] [Google]
- histone acetyltransferase binding [GO] [PubMed] [Google]
- cellular response to drug [GO] [PubMed] [Google]
- cellular response to glucose starvation [GO] [PubMed] [Google]
- intrinsic apoptotic signaling pathway in response to DNA damage by p53 class mediator [GO] [PubMed] [Google]
- identical protein binding [GO] [PubMed] [Google]
- regulation of apoptotic process [GO] [PubMed] [Google]
- positive regulation of apoptotic process [GO] [PubMed] [Google]
- negative regulation of apoptotic process [GO] [PubMed] [Google]
- entrainment of circadian clock by photoperiod [GO] [PubMed] [Google]
- proteasome-mediated ubiquitin-dependent protein catabolic process [GO] [PubMed] [Google]
- positive regulation of neuron apoptotic process [GO] [PubMed] [Google]
- sequence-specific DNA binding [GO] [PubMed] [Google]
- protein self-association [GO] [PubMed] [Google]
- transcription regulatory region DNA binding [GO] [PubMed] [Google]
- negative regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- response to antibiotic [GO] [PubMed] [Google]
- positive regulation of protein export from nucleus [GO] [PubMed] [Google]
- metal ion binding [GO] [PubMed] [Google]
- regulation of mitochondrial membrane permeability [GO] [PubMed] [Google]
- protein heterodimerization activity [GO] [PubMed] [Google]
- protein N-terminus binding [GO] [PubMed] [Google]
- negative regulation of fibroblast proliferation [GO] [PubMed] [Google]
- rhythmic process [GO] [PubMed] [Google]
- circadian behavior [GO] [PubMed] [Google]
- positive regulation of peptidyl-tyrosine phosphorylation [GO] [PubMed] [Google]
- chaperone binding [GO] [PubMed] [Google]
- negative regulation of helicase activity [GO] [PubMed] [Google]
- protein tetramerization [GO] [PubMed] [Google]
- protein phosphatase 2A binding [GO] [PubMed] [Google]
- negative regulation of telomerase activity [GO] [PubMed] [Google]
- positive regulation of thymocyte apoptotic process [GO] [PubMed] [Google]
- positive regulation of cell cycle arrest [GO] [PubMed] [Google]
- cellular response to hypoxia [GO] [PubMed] [Google]
- cellular response to ionizing radiation [GO] [PubMed] [Google]
- intrinsic apoptotic signaling pathway by p53 class mediator [GO] [PubMed] [Google]
- positive regulation of release of cytochrome c from mitochondria [GO] [PubMed] [Google]
- replicative senescence [GO] [PubMed] [Google]
- oxidative stress-induced premature senescence [GO] [PubMed] [Google]
- intrinsic apoptotic signaling pathway [GO] [PubMed] [Google]
- oligodendrocyte apoptotic process [GO] [PubMed] [Google]
- positive regulation of execution phase of apoptosis [GO] [PubMed] [Google]
- positive regulation of protein insertion into mitochondrial membrane involved in apoptotic signaling pathway [GO] [PubMed] [Google]
- regulation of signal transduction by p53 class mediator [GO] [PubMed] [Google]
- regulation of cell cycle G2/M phase transition [GO] [PubMed] [Google]
- positive regulation of transcription from RNA polymerase II promoter in response to endoplasmic reticulum stress [GO] [PubMed] [Google]
- positive regulation of reactive oxygen species metabolic process [GO] [PubMed] [Google]
- positive regulation of intrinsic apoptotic signaling pathway [GO] [PubMed] [Google]
- transcription factor TFIID complex [GO] [PubMed] [Google]
- nuclear body [GO] [PubMed] [Google]
- negative regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- blood vessel development [GO] [PubMed] [Google]
- blood vessel remodeling [GO] [PubMed] [Google]
- regulation of heart rate [GO] [PubMed] [Google]
- p53 binding [GO] [PubMed] [Google]
- heart valve development [GO] [PubMed] [Google]
- atrioventricular valve morphogenesis [GO] [PubMed] [Google]
- endocardial cushion morphogenesis [GO] [PubMed] [Google]
- ventricular septum development [GO] [PubMed] [Google]
- atrial septum development [GO] [PubMed] [Google]
- ubiquitin-protein transferase activity [GO] [PubMed] [Google]
- protein binding [GO] [PubMed] [Google]
- nucleus [GO] [PubMed] [Google]
- nucleoplasm [GO] [PubMed] [Google]
- nucleolus [GO] [PubMed] [Google]
- cytoplasm [GO] [PubMed] [Google]
- cytosol [GO] [PubMed] [Google]
- plasma membrane [GO] [PubMed] [Google]
- DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest [GO] [PubMed] [Google]
- traversing start control point of mitotic cell cycle [GO] [PubMed] [Google]
- heart development [GO] [PubMed] [Google]
- zinc ion binding [GO] [PubMed] [Google]
- positive regulation of cell proliferation [GO] [PubMed] [Google]
- response to toxic substance [GO] [PubMed] [Google]
- response to carbohydrate [GO] [PubMed] [Google]
- response to iron ion [GO] [PubMed] [Google]
- regulation of gene expression [GO] [PubMed] [Google]
- positive regulation of gene expression [GO] [PubMed] [Google]
- negative regulation of gene expression [GO] [PubMed] [Google]
- negative regulation of protein processing [GO] [PubMed] [Google]
- viral process [GO] [PubMed] [Google]
- protein ubiquitination [GO] [PubMed] [Google]
- ligase activity [GO] [PubMed] [Google]
- protein sumoylation [GO] [PubMed] [Google]
- peptidyl-lysine modification [GO] [PubMed] [Google]
- SUMO transferase activity [GO] [PubMed] [Google]
- enzyme binding [GO] [PubMed] [Google]
- endocytic vesicle membrane [GO] [PubMed] [Google]
- ubiquitin protein ligase binding [GO] [PubMed] [Google]
- protein destabilization [GO] [PubMed] [Google]
- response to magnesium ion [GO] [PubMed] [Google]
- positive regulation of proteasomal ubiquitin-dependent protein catabolic process [GO] [PubMed] [Google]
- protein localization to nucleus [GO] [PubMed] [Google]
- regulation of protein catabolic process [GO] [PubMed] [Google]
- response to cocaine [GO] [PubMed] [Google]
- response to drug [GO] [PubMed] [Google]
- identical protein binding [GO] [PubMed] [Google]
- peroxisome proliferator activated receptor binding [GO] [PubMed] [Google]
- negative regulation of apoptotic process [GO] [PubMed] [Google]
- negative regulation of cysteine-type endopeptidase activity involved in apoptotic process [GO] [PubMed] [Google]
- response to morphine [GO] [PubMed] [Google]
- negative regulation of DNA damage response, signal transduction by p53 class mediator [GO] [PubMed] [Google]
- establishment of protein localization [GO] [PubMed] [Google]
- synapse [GO] [PubMed] [Google]
- response to ether [GO] [PubMed] [Google]
- positive regulation of cell cycle [GO] [PubMed] [Google]
- negative regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of mitotic cell cycle [GO] [PubMed] [Google]
- response to antibiotic [GO] [PubMed] [Google]
- positive regulation of protein export from nucleus [GO] [PubMed] [Google]
- metal ion binding [GO] [PubMed] [Google]
- response to steroid hormone [GO] [PubMed] [Google]
- cardiac septum morphogenesis [GO] [PubMed] [Google]
- ubiquitin protein ligase activity [GO] [PubMed] [Google]
- cellular response to hydrogen peroxide [GO] [PubMed] [Google]
- negative regulation of cell cycle arrest [GO] [PubMed] [Google]
- cellular response to antibiotic [GO] [PubMed] [Google]
- cellular response to vitamin B1 [GO] [PubMed] [Google]
- cellular response to organic substance [GO] [PubMed] [Google]
- cellular response to alkaloid [GO] [PubMed] [Google]
- cellular response to growth factor stimulus [GO] [PubMed] [Google]
- cellular response to peptide hormone stimulus [GO] [PubMed] [Google]
- cellular response to estrogen stimulus [GO] [PubMed] [Google]
- cellular response to organic cyclic compound [GO] [PubMed] [Google]
- cellular response to hypoxia [GO] [PubMed] [Google]
- cellular response to UV-C [GO] [PubMed] [Google]
- scaffold protein binding [GO] [PubMed] [Google]
- regulation of signal transduction by p53 class mediator [GO] [PubMed] [Google]
- negative regulation of signal transduction by p53 class mediator [GO] [PubMed] [Google]
- nuclear body [GO] [PubMed] [Google]