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 tumour suppressor p53 specifically interferes with the onset of S phase. The mechanism of the growth suppression action of the protein is unclear, though recent evidence points to transcriptional activation and repression functions of the protein. A competing hypothesis suggests that p53 interacts with the DNA replication apparatus and directly interferes with DNA replication. The major evidence for this hypothesis is that p53 interacts with the simian virus 40 (SV40)-encoded protein T antigen and interferes with the ability of T antigen to unwind the SV40 origin of DNA replication, and recruit DNA polymerase alpha to the replication initiation complex. Here we report that p53 physically interacts with and inhibits the function of a cellular DNA replication factor, the single-stranded DNA-binding protein complex RPA.
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PMID:Inhibition of DNA replication factor RPA by p53. 836 31

The tumor suppressor protein p53 activates transcription from promoters with specific p53 binding elements, represses transcription from promoters without such elements and interacts with and inhibits the single-stranded DNA binding activity of the human DNA replication factor RPA. All these activities involve the N terminal 70 amino acids of p53. Dissection of the domains of p53 which bind RPA suggest that multiple sub-domains of the protein synergize to give strong RPA binding. Point-mutations in one of these sub-domains of p53 significantly diminish its ability to interact with RPA. A multimer of a peptide from p53 which includes these residues, or of a peptide from the acidic activation domain of the prototypic trans-activator protein VP16, can itself bind to RPA. Comparison of sequences of these multimeric peptides suggests that aromatic amino acids flanked by negatively charged residues are important for binding RPA. Several alleles of p53 with point mutations in the N terminal region were analysed for their relative abilities to bind RPA, activate or repress transcription, and suppress growth of p53 null SaOs2 and H1299 cells. Both mutants of p53 with decreased RPA binding suppressed cell growth as well as wild-type p53, suggesting that p53 can suppress growth without interacting with RPA. The allele that lost most of the transcription activation function also lost most of its transcription repression activity suggesting that interaction with the same basal transcription factors are involved in both functions. This same allele bound RPA well but was defective in growth suppression. Therefore, transcription activation and/or repression appear to be more important for the growth suppression function of p53 than RPA binding.
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PMID:Loss of transactivation and transrepression function, and not RPA binding, alters growth suppression by p53. 870 May 25

Binding of simian virus 40 (SV40) large T antigen to human and calf thymus topoisomerase I (topo I) was readily detected by using modified enzyme-linked immunosorbent assays and immunoblots. In addition to WT T antigen, binding could also be readily demonstrated with T antigen fragments from the amino-terminal region as well as with fragments missing this region, but much less so with small t antigen or with human p53. Antibody-blocking experiments showed that a monoclonal antibody that binds to the N-terminal region and several antibodies that recognize the central region of T antigen interfere with the binding to topo I. Our data are consistent with the existence of two separate topo I-binding regions in T antigen, one mapping within residues 82 to 246 and an apparently weaker one present after residue 246. By comparing the binding of T antigen to topo I with that of T antigen to DNA polymerase alpha or RPA, a single-stranded DNA-binding protein, it was determined that the T antigen-topo I interaction is much stronger and that the binding sites for topo I and DNA polymerase overlap, whereas the one for RPA differs. Several unwinding-defective mutants of T antigen were partially defective in their binding to topo I, suggesting that the binding to topo I is required for unwinding circular DNA. Finally, immunoprecipitation experiments demonstrated that T antigen can interact with DNA-bound topo I, indicating that such an interaction may take place during SV40 DNA replication.
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PMID:Simian virus 40 large T antigen binds to topoisomerase I. 880 20

p53 is a nuclear protein that acts like a tumor suppressor and is involved in regulation of cellular growth. In Xenopus, the p53 protein is highly expressed during oogenesis and is strictly cytoplasmic in the oocyte. We have analysed its participation in DNA replication and transcription during early development, using the egg and oocyte as model-systems. The injection of sperm nuclei into Xenopus eggs is followed by DNA replication and mitotic events. We show that the endogenous p53 enters the nuclei and moves through a series of discrete sub-nuclear loci whose distribution is S-phase specific. A specific peripheral nuclear localization of p53 is observed before entry into S-phase, followed by an internal localization which is strictly dependent on ongoing DNA synthesis. At no stage in the cell cycle, however, did we observe any co-localization with RPA or PCNA, which were used as initiation or elongation markers for DNA replication. We also show that injection into the nucleus of the oocyte of small amounts of either Xenopus or human p53 - less than 10% of the cytoplasmic storage - is sufficient to block RNA polymerase II-dependent transcription from a coinjected TATA-box-containing reporter plasmid. Transcription is rescued by microinjection of the TATA-box binding protein (TBP), suggesting that nuclear exclusion of p53 during oogenesis may be necessary for transcription of maternal genes. These characteristics are discussed in relation to the regulation of nuclear activities during early embryogenesis.
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PMID:A functional analysis of p53 during early development of Xenopus laevis. 939 77

Previously, we reported that human cytomegalovirus (HCMV) infection of fibroblasts markedly affects p53 and other regulatory proteins and inhibits transit through the cell cycle (F. M. Jault, J.-M. Jault, F. Ruchti, E. A. Fortunato, C. Clark, J. Corbeil, D. D. Richman, and D. H. Spector, J. Virol. 69:6697-6704, 1995). Although the p53 steady-state levels are elevated throughout the infection, evidence suggests that the ability of p53 to transactivate some of its downstream targets is compromised. To elucidate the mechanisms governing the accumulation of p53, we examined the synthesis, stability, and localization of the protein in HCMV-infected fibroblasts. Synthesis of p53 was not increased in the infected cells during the first 24 h postinfection. In fact, pulse-chase experiments revealed that synthesis of p53 in infected fibroblasts was lower than in mock-infected cells. However, after an initial decay, the p53 was stabilized. In addition, beginning at approximately 30 h postinfection, p53 was localized to discrete foci within the nuclei of infected cells. The morphology of these foci suggested that they were replication centers. We confirmed that these are sites of DNA replication by demonstrating both incorporation of bromodeoxyuridine and localization of UL44 (the viral polymerase processivity factor) into these centers. The single-stranded DNA binding protein RPA was also sequestered. In contrast, Rb and HCMV IE1 72 remained distributed throughout the infected cell nuclei, indicating specific targeting of certain proteins. Taken together, our results provide two alternative mechanisms to account for the increased steady-state levels of p53 observed in HCMV-infected fibroblasts.
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PMID:p53 and RPA are sequestered in viral replication centers in the nuclei of cells infected with human cytomegalovirus. 949 57

The SV40 large T-antigen is involved in transcription and replication of viral DNA and malignant cell transformation. In order to gain insight into its interaction with other proteins, we analyzed its distribution during the cell cycle using a cell-free system derived from Xenopus eggs that reproduces most nuclear events linked to the cell cycle in vitro. T-antigen associates with chromatin independently of the nuclear membrane formation. A transient association of T-antigen with the nuclear matrix is observed during ongoing DNA synthesis. However, T-antigen colocalizes neither with RPA pre-replication centers nor replication foci as detected by biotin dUTP labeling. Both intranuclear colocalization and biochemical interaction with the endogenous p53 were detected, which occurs at the nuclear matrix. These data are discussed in view of the T-antigen transforming activity.
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PMID:[A large T-antigen of SV40 virus: involvement in replication of cellular DNA and interactions with nuclear proteins]. 970 93

The protein proliferating cell nuclear antigen (PCNA) is an auxiliary factor for DNA polymerase delta and is involved in the resynthesis step of nucleotide excision repair (NER). After UV irradiation of quiescent cells, PCNA forms an insoluble complex with nuclear substructures. We have investigated associations between NER and its subcomponent pathway, transcription coupled repair (TCR) on PCNA complex formation using genetically related hamster cell lines with different repair characteristics. In DNA repair proficient cells, the PCNA complex was readily detectable within 30 min after UV irradiation by both immunofluorescence and western blot analyses. This complex formation after UV occurs efficiently in quiescent cells. In UV5 (human XP-D homolog) and UV 24 (human XP-B homolog) cells, which are totally deficient in NER, the PCNA complex was not detectable at 30 min after UV. The PCNA complex formation is restored to normal levels in UV5 cells after transfection with the human XPD gene, encoding a subunit of the basal transcription factor, TFIIH. In UV61 (Human CS-B homolog) cells, that are defective only in transcription coupled repair (TCR) of cyclobutane pyrimidine dimers (CPDs), the rate of PCNA complex formation was 2-fold slower than in repair proficient cells. This defect was complemented by transfection of the CSB gene into the UV61 cells. We thus conclude that efficient PCNA complex formation after UV is dependent upon both the NER and TCR pathways in hamster cells. The association of several other DNA repair proteins including XPA, RPA, TFIIH and p53 with the insoluble PCNA complex in UV treated cells suggests a central role for PCNA in different steps of NER.
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PMID:Efficient PCNA complex formation is dependent upon both transcription coupled repair and genome overall repair. 987 89

Surface plasmon resonance measurements were used for detecting and quantifying protein-protein interactions between the tumor suppressor protein p53, the SV40 large T antigen (T-ag), the cellular DNA polymerase alpha-primase complex (pol-prim), and the cellular single-strand DNA binding protein RPA. Highly purified p53 protein bound to immobilized T-ag with an apparent binding constant of 2 x 10(8) M(-1). Binding of p53 to RPA was in the same order of magnitude with a binding constant of 4 x 10(8) M(-1), when RPA was coupled to the sensor chip via its smallest subunit, and 1 x 10(8) M(-1), when RPA was coupled via its p70 subunit. Furthermore, p53 bound human DNA polymerase alpha-primase complex (pol-prim) with a K(A) value of 1 x 10(10) m(-1). Both the p68 subunit and the p180 subunit of pol-prim could interact with p53 displaying binding constants of 2 x 10(10) m1(-1) and 5 X 10(9) M(-1), respectively. Complex formation was also observed with a p180/p68 heterodimer, and again with a binding constant similar. Hence, there was no synergistic effect when p53 bound to higher order complexes of pol-prim. A truncated form of p53, consisting of amino acids 1-320, bound pol-prim by four orders of magnitude less efficiently. Therefore, an intact C-terminus of p53 seems to be important for efficient binding to pol-prim. It was also tried to measure complex formation between p53, pol-prim, and T-ag. However there was no evidence for the existence of a ternary complex consisting of T-ag, pol-prim, and p53.
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PMID:Surface plasmon resonance measurements reveal stable complex formation between p53 and DNA polymerase alpha. 998 27

ATW8 was a unique opportunity to review the complex and growing field of ataxia-telangiectasia (A-T) research and to cross-fertilize ideas for new experimental designs. A-T biology now encompasses human and mouse neurology, neurobiology, immunology, radiobiology, cell signalling, cell cycle checkpoints, gametogenesis, and oncogenesis, as well as radiotherapy, cancer epidemiology, premature aging, cytogenetics, and DNA repair mechanisms. By an as yet undetermined mechanism, the ATM protein appears to sense double strand breaks (DSB) during meiosis or mitosis, or breaks consequent to the damage of free radicals which are generated during the metabolism of food. As a protein kinase, ATM then directly phosphorylates p53 and interacts with many other molecules involved in homologous and nonhomologous DSB repair, as well as in cell signalling. Some of these molecule targets include: c-abl, ATR, chk-1, chk-2, RPA, BRCA1, BRCA2, NFkappaB/IkappaB alpha, beta-adaptin, and perhaps ATM itself. Thus, ATM is a "hierarchical kinase," initiating many pathways simultaneously. Parallel sessions or longer meetings will clearly be necessary for future A-T workshops.
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PMID:Eighth International Workshop on Ataxia-Telangiectasia (ATW8). 1044 4

The role of SV40 large tumor T-antigen in replication of viral DNA is well established, but it is still unclear how T-antigen triggers cellular replication and cell transformation in non-permissive cells. Here, we used Xenopus egg extracts which reproduce most nuclear events linked to the cell cycle in vitro to analyze its interaction with genomic chromatin during the cell cycle. We show that T-antigen associates with chromatin before the nuclear membrane formation, and further demonstrate that the nuclear membrane is not necessary for its import into the nucleus. We show that the interaction of T-antigen with the endogenous chromatin does not occur at replication foci nor at RPA pre-replication centers. Immunoprecipitations as well as sucrose gradient experiments, indicate that the endogenous pool of p53 interacts with T-antigen. In addition, a transient association of both proteins with the nuclear matrix is observed during the ongoing DNA synthesis. These data are discussed in view of the T-antigen and p53 activity during the cell cycle.
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PMID:T-antigen interactions with chromatin and p53 during the cell cycle in extracts from xenopus eggs. 1050 1

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