UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The E6 protein of human papillomavirus types 16 and 18 (HPV-16 and HPV-18) can stably associate with the p53 protein in vitro. In the presence of rabbit reticulocyte lysate, this association leads to the specific degradation of p53 through the ubiquitin-dependent proteolysis system. We have examined the E6-p53 complex in more detail and have found that association of E6 with p53 is mediated by an additional cellular factor. This factor is present in rabbit reticulocyte lysate, primary human keratinocytes and in each of five human cell lines examined. The factor is designated E6-AP, for E6-associated protein, based on the observation that the E6 proteins of HPV-16 and 18 can form a stable complex with the factor in the absence of p53, whereas p53 association with the factor can be detected only in the presence of E6. Gel filtration and coprecipitation experiments indicate that E6-AP is a monomeric protein of approximately 100 kDa.
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PMID:A cellular protein mediates association of p53 with the E6 oncoprotein of human papillomavirus types 16 or 18. 166 71

Aggregation of the high-affinity receptors for IgE (Fc epsilon RI) on mast cells activates nonreceptor kinases and other enzymes, thereby initiating a complex biochemical cascade. We have employed a chemical cross-linker in order to stabilize the association of Fc epsilon RI with other cellular proteins that are involved in the early events. We reacted the water-soluble, membrane-impermeant chemical cross-linker 3,3'-dithiobis(sulfosuccinimidyl propionate) (DTSSP) with permeabilized rat mucosal mast cells of the RBL line and analyzed immunoprecipitates of the receptor in detergent lysates of cells that had biosynthetically incorporated [35S]cysteine. Gel electrophoresis revealed substantial amounts of nonreceptor components only when the cells had been reacted with DTSSP. Receptors isolated from cells whose receptor-bound IgE had been aggregated with antigen prior to cross-linking yielded a similar pattern of 35S-labeled proteins. However, when the cells had also been exposed to [gamma-32P]ATP, the proteins associated with the cross-linked, aggregated receptors revealed enhanced incorporation of 32P compared to those associated with cross-linked, unaggregated receptors. A variety of antibodies were used to try to identify the associated proteins. Of those tested for, two, the src-like kinase p53/56lyn and the delta isoform of protein kinase C, were associated with the cross-linked Fc epsilon RI in amounts much greater than could be accounted for by nonspecific cross-linking.
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PMID:Chemical cross-linking of IgE-receptor complexes in RBL-2H3 cells. 753 96

Insertion/deletion (IDL) mismatches in DNA are lesions consisting of extra bases on one strand. Here, the binding of p53 and its 14 kDa C-terminal domain to DNAs containing one or three 3-cytosine IDL mismatches was examined. Electron microscopy showed that both p53 forms bound predominantly as tetramers at the lesions while single-stranded binding proteins did not bind. Gel retardation assays showed that p53 formed highly stable complexes when the DNA contained the IDL mismatches, but only unstable complexes when the DNA lacked lesions (but did contain free ends). The highly stable complexes had a half-life of > 2 hr, suggesting that upon encountering lesions, p53 may recruit other proteins to the site, providing a signal for DNA damage.
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PMID:p53 and its 14 kDa C-terminal domain recognize primary DNA damage in the form of insertion/deletion mismatches. 760 May 70

A p53 variant protein (p53as) generated from alternatively spliced p53 RNA is expressed in normal and malignant mouse cells and tissues, and p53as antigen activity is preferentially associated with the G2 phase of the cell cycle, suggesting that p53as and p53 protein may have distinct properties. Using p53as and p53 proteins translated in vitro, we now provide evidence that p53as protein has efficient sequence-specific DNA-binding ability. DNA binding by p53 protein is inefficient in comparison and requires activation. Furthermore, p53as and p53 proteins formed hetero-oligomers when co-translated in vitro, resulting in inactivation of p53as DNA-binding activity. Gel filtration indicated that p53as translated in vitro, like p53, formed tetramers. In support of a functional role of p53as in cells, p53as/p53 hetero-oligomers were coimmunoprecipitated from mouse cells, and both protein forms were detectable in nuclear extracts by electrophoretic mobility shift assays. These results suggest that the biochemical functions of p53 are mediated by interaction between two endogenous protein products of the wild-type p53 gene.
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PMID:Wild-type alternatively spliced p53: binding to DNA and interaction with the major p53 protein in vitro and in cells. 795 51

A high-yield, rapid and non-denaturing purification protocol for baculovirus recombinant wild-type p53 is described. Gel-filtration chromatography and chemical cross-linking experiments indicated that purified p53 assembles into multimeric forms ranging from tetramer to higher oligomers. A gel-mobility-shift assay and protein-DNA cross-linking studies demonstrated that purified baculovirus recombinant p53 binds to consensus DNA target as a dimer but that additional p53 molecules may then associate with the preformed p53-dimer-DNA complexes to form larger p53 DNA complexes. These observations suggest that the p53 tetramers and higher oligomers that form the minimal p53 association in solution dissociate upon DNA binding to form p53 dimer-DNA complexes. Binding of the mAB PAb 421 to the oligomerization-promoting domain on p53 stimulated sequentially formation of both p53-dimer-DNA and larger p53-DNA complexes. This observation suggests that factors may exist in vivo that could participate in the formation and the stabilization of the various p53-DNA complexes. Further characterization of the purified p53 revealed that the protein possesses highly reactive cysteine residues. We show that intrachain disulfide bonds form within the purified p53 molecules during storage in the absence of reducing agent. Zn2+ binding to p53 protect sulfhydryl groups from oxidation. Cysteine oxidation by intramolecular disulfide-bond formation did not modify the wild-type immunoreactive phenotype of the p53 protein but totally inhibited its DNA-binding activities. The oxidation of the p53 cysteine residues was also observed for nuclear p53 in baculovirus-infected insect cells. The redox status of the nuclear p53 regulates its DNA-binding activity in vitro confirming the essential role of the reduced state of cysteine residues in p53 for detectable DNA-binding activity.
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PMID:Characterization of baculovirus recombinant wild-type p53. Dimerization of p53 is required for high-affinity DNA binding and cysteine oxidation inhibits p53 DNA binding. 805 38

p53 is a tumor suppressor gene found to be mutated in a wide variety of tumors. The encoded p53 protein has properties of a classical transcription factor, but the promoter targets for its regulation are largely unknown. We have investigated the ability of p53 to regulate activity of the human retinoblastoma susceptibility gene (Rb) promoter using a cotransfection assay in CCL-64 and Saos-2 cells. p53 was able to stimulate transcription from the Rb promoter at low input doses of p53 expression plasmid, whereas transcription was repressed at high input doses. The stimulatory effect of p53 on Rb promoter activity mapped to a region between 4 and 92 base pairs upstream from the start site of translation, whereas the region controlling repression by p53 mapped to the basal transcriptional control region of the promoter between -207 and -185. Moreover, an oligonucleotide containing Rb promoter sequences between -63 and -88 was sufficient to confer stimulation by p53 when inserted upstream from a minimal heterologous promoter. Gel mobility shift analysis was used to demonstrate that p53 can bind to a sequence within the -63 to -88 oligonucleotide with homology to a p53 binding site. The presence of a functional p53 binding site in the human retinoblastoma tumor suppressor gene promoter suggests that p53 can regulate Rb promoter activity.
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PMID:Identification of a p53 binding site in the human retinoblastoma susceptibility gene promoter. 811 88

We show that wild-type human p53 transactivates the human epidermal growth factor receptor (EGFR) promoter in vivo in a dose-dependent manner, implicating p53 in promotion of cell proliferation. This activation is sensitive to the expression of cellular oncoprotein MDM2 and human papillomavirus type 18 (HPV-18) E6 protein. The p53 response element is localized within -15 and -569 of the promoter. The EGFR promoter does not have a TATA box, and has low activity in Saos-2 cells in the absence of p53. Results from our in vivo transient transfection assays suggest that p53-binding sites, without any other known promoter element, can act as bidirectional promoters in the presence of wild-type p53. Gel retardation analyses suggest that p53 may serve to nucleate TBP on a promoter. We propose that p53 successfully nucleates the transcription complex, possibly via direct interaction with TFIID, and activates the EGFR promoter.
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PMID:Wild-type human p53 activates the human epidermal growth factor receptor promoter. 815 94

p53 is the most commonly mutated gene in a large variety of human tumors including familial cancers. Because p53 mutations have in a number of human cancer types, been related to a negative outcome of the disease and the importance of pre-symptomatic diagnosis in cancer-prone families, screening for p53 mutations is becoming more and more widely used. In order to avoid sequencing of the complete coding sequence, several pre-screening methods have been developed and applied to the p53 gene. Among them, Single Strand Conformation Polymorphism (SSCP) and Denaturing Gradient Gel Electrophoresis (DGGE) appear to be highly sensitive. In this work, we used 52 different p53 variants to compare the two methods. In our conditions, DGGE is more sensitive than SSCP since 100% of the variants were detected. SSCP detected 90% of the variants, but efficiency of the method can still be improved by additional optimization experiments.
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PMID:Relative efficiency of denaturing gradient gel electrophoresis and single strand conformation polymorphism in the detection of mutations in exons 5 to 8 of the p53 gene. 818 71

In this report we demonstrate that the cloned human TATA-binding protein (TBP) interacts with T antigen. TBP co-immunoprecipitates with T antigen when incubated with the T antigen-specific monoclonal antibody PAb419, and Protein-A agarose. Gel retention analysis with a radiolabeled TATA box-containing probe showed that the complex of TBP and T antigen can bind to the TATA box. Recently, p53 has also been shown to interact with TBP. Using TBP deletion mutants and co-immunoprecipitation experiments with p53 or T antigen, we show that both p53 and T antigen bind to the same region, amino acids 203-275, within the conserved C-terminal domain of TBP. Binding of p53 and T antigen to the same domain on TBP may lead to competition between the two proteins for transcriptional function.
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PMID:p53 and SV40 T antigen bind to the same region overlapping the conserved domain of the TATA-binding protein. 839 34

p53 stimulates the transcription of a number of genes, such as MDM2, Waf1, and GADD45. We and others have shown previously that this activity of p53 can be inhibited by adenovirus type 2 or 12 large E1B proteins. Here we show that the adenovirus E1A proteins also can repress the stimulation of transcription by p53, both in transient transfections and in stably transfected cell lines. The inhibition by E1A occurs without a significant effect on the DNA-binding capacity of p53. Furthermore, the activity of a fusion protein containing the N-terminal part of p53 linked to the GAL4 DNA-binding domain can be suppressed by E1A. This indicates that E1A affects the transcription activation domain of p53, although tryptic phosphopeptide mapping revealed that the level of phosphorylation of this domain does not change significantly in E1A-expressing cell lines. Gel filtration studies, however, showed p53 to be present in complexes of increased molecular weight as a result of E1A expression. Apparently, E1A can cause increased homo- or hetero-oligomerization of p53, which might result in the inactivation of the transcription activation domain of p53. Additionally, we found that transfectants stably expressing E1A have lost the ability to arrest in G1 after DNA damage, indicating that E1A can abolish the normal biological function of p53.
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PMID:Adenovirus E1A proteins inhibit activation of transcription by p53. 862 76

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