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)

Expression of the p53 cellular phosphoprotein was examined in rat cells transformed by adenovirus 12 (Ad12) virions and by fragments of Ad12 DNA. p53 was detected in all the cell lines examined. Steady-state levels of p53 were highest in cells transformed by the entire E1 region rather than by E1A alone. Physical association between p53 and the Ad12 E1B 55K protein was not detected. The Ad12 E1B-encoded 55K protein, but not the Ad12 E1B 17K and 19K proteins, appears to participate in regulating p53 protein levels.
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PMID:Expression of the cellular p53 protein in cells transformed by adenovirus 12 and viral DNA fragments. 296 54

The human gene for the transformation-associated p53 phosphoprotein (P53) was assigned to the short arm of chromosome 17 using human-rodent somatic cell hybrids and Southern filter hybridization of cell hybrid DNA. The filters were hybridized to radiolabeled DNA from a genomic clone which contained P53 nucleotide sequences. Hybridization of the probe to a 2.5-kb human DNA fragment in HindIII-digested DNA was used to identify the human P53 gene.
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PMID:Transformation associated p53 protein is encoded by a gene on human chromosome 17. 299 41

Recently the gene for the cellular tumour antigen p53, a phosphoprotein found in increased concentration in a variety of human cells, had been mapped to region 17q22 by in situ hybridization techniques and has been shown to translocate to the chromosome carrying the translocation [t(15; 17)] associated with acute promyelocytic leukaemia (APL). Based on this finding it has been postulated that this gene has a role in the pathogenesis of APL. Here we present evidence that the gene for p53 is not located on the long arm of chromosome 17, but maps to band 17p13. We therefore suggest that this gene is not directly involved in the chromosome translocation observed in APL.
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PMID:Localization of gene for human p53 tumour antigen to band 17p13. 345 88

P53 is a cellular phosphoprotein of short half-life (t1/2) which is present at elevated levels in cells transformed by various stimuli including viruses, chemicals and radiation. p53 forms specific stable complexes with simian virus 40 (SV40) large-T antigen and an adenovirus E1b protein of relative molecular mass (Mr) 57,000. A number of reports have associated p53 with cell proliferation, and p53 complementary DNA expression constructs immortalize primary cells in vitro and render them sensitive to transformation by an activated ras oncogene. We have examined the biological properties of a set of p53 expression constructs, and report here that cellular immortalization by a wild-type p53 cDNA gene is conditional upon the promoter/enhancer construction used, but that p53 can extend cellular lifespan by a second distinct mechanism involving rearrangements of the coding sequence which give rise to stable protein products. Cells immortalized by one of these mutants are refractory to subsequent transformation by a ras oncogene, indicating that cellular immortalization and ras cooperation are separate activities.
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PMID:The cellular oncogene p53 can be activated by mutagenesis. 390 15

p53, a transformation-related cellular-encoded protein, was found to accumulate at high concentration in transformed cell lines. The results presented here show that p53 biosynthesis is also increased in most induced and spontaneous mouse tumors. Judged by the identity in antigenic determinants (estimated by binding to monoclonal antibodies), size, and partial peptide mapping, I conclude that the p53 molecule found in primary tumors is indistinguishable from that in established cell lines. The fact that p53 is found in heterogeneous populations of primary tumors makes it a convenient biochemical diagnostic marker for the detection of primary tumors in mice. It is found in primary tumors as a phosphoprotein, just as it was found previously in established cell lines. On the other hand, the p53 found at low concentration in normal thymocytes is labeled with [35S]methionine but cannot be found in its phosphorylated form.
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PMID:p53, a transformation-related cellular-encoded protein, can be used as a biochemical marker for the detection of primary mouse tumor cells. 618 26

Malignant cells of the mouse transformed by a variety of different agents have been found to express high levels of a 53,000 Mr phosphoprotein (designated p53). Little or no p53 can be detected in normal mouse cells. The nucleus appears to be the predominant site of p53 localization in transformed cells. p53-related antigens are also found in transformed cells of rat, hamster, rabbit, and human. In cells transformed by simian virus 40 (SV40), p53 forms a complex with SV40 tumor (t) antigen, resulting in the coprecipitation of T antigen by monoclonal p53 antibodies. Immune complexes of p53 precipitated from extracts of SV40- or methylcholanthrene-transformed cells by monoclonal p53 antibodies have protein kinase activity. This enzymatic activity is dependent upon divalent cations, utilizing Mn2+ more effectively than Mg2+. The phosphorylation of p53 in this kinase reaction has been found to involve serine and threonine, but not tyrosine residues. In view of the finding that the transforming proteins of several different oncogenic viruses have kinase activity, the association of this activity with p53 is important with regard to the possibility of a common pathway of transformation by diverse agents.
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PMID:p53 transformation-related protein: detection of an associated phosphotransferase activity. 626 26

Large tumor antigen (T antigen) occurs in at least three different oligomeric subclasses in cells infected or transformed by simian virus 40 (SV40): 5-7 S, 14-16 S, and 23-25 S. The 23-25 S form is complexed with a host phosphoprotein (p53). The DNA binding properties of these three subclasses of T antigen from nine different cell lines and free p53 protein were compared using an immunoprecipitation assay. All three subclasses of T antigen bound specifically to SV40 DNA sequences near the origin of replication. However, the DNA binding activity varied between different cell lines over a 40- to 50-fold range. The 23-25 S and 14-16 S forms from most of the cell lines tested bound much less SV40 origin DNA than 5-7 S T antigen. The free p53 phosphoprotein did not bind specifically to any SV40 DNA sequences.
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PMID:Specific DNA binding activity of T antigen subclasses varies among different SV40-transformed cell lines. 630 81

The relationship between the expression of a transformation-related cellular-encoded phosphoprotein, p53, and the potential to form distant metastases was investigated in Abelson murine leukemia virus-transformed murine large cell lymphoma sublines of differing metastatic behaviors. Low metastasis RAW117-P and high metastasis RAW117-H10 cells were labeled with 35S-methionine, and several anti-p53 monoclonal antibodies were used to immunoprecipitate p53 from the cell lysates. Using these procedures, similar amounts of p53 were detected in the RAW117-P and -H10 cells. In addition, the expression of 2.0 Kb mRNA containing p53-specific sequences was equivalent in RAW117-P and -H10 cells. The results indicate that p53 expression, although apparently required for neoplastic transformation, is not quantitatively related to metastatic behavior in RAW117 large cell lymphoma cells.
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PMID:The expression of transformation-related protein p53 and p53-containing mRNA in murine RAW117 large cell lymphoma cells of differing metastatic potential. 639 97

The role of the lyn product (p53/p56lyn), a membrane-associated protein tyrosine kinase in the signaling pathway used by granulocyte macrophage-CSFR (GM-CSFR) was investigated by using the GM-CSF-dependent human megakaryoblastic leukemia cell line M-07e. M-07e cells express GM-CSFR and are dependent on GM-CSF for survival and proliferation in vitro. Treatment with anti-lyn Abs coimmunoprecipitated, along with lyn product, the beta subunit of GM-CSFR and a phosphoprotein with a molecular mass of 120 kDa (p120) in the lysates of M-07e cells but not in the lysates of human monocyte-derived macrophages (HMDM) or human lymphoid leukemia cells. That the 120-kDa phosphoprotein coimmunoprecipitated by anti-lyn Abs is the beta subunit of GM-CSFR was confirmed in the immunoprecipitates (IP) of M-07e cells with the use of an agarose-conjugated anti-p-tyr mAb. The formation of GM-CSF/GM-CSFR/lyn signaling complexes was verified in an autoradiographic study with anti-lyn IP of M-07e cells that had been bound with 125I-labeled recombinant human (rh)GM-CSF. The p120 protein (beta subunit) was not detected in the IP of M-07e cells with anti-fyn or anti-PI3 Abs. A direct association of Lyn kinase with the beta subunit of GM-CSFR was illustrated with a reversed approach showing the recovery of Lyn protein in anti-beta (CRS1) but not anti-alpha IP of M-07e cells that had been starved for a prolonged period. Finally, the interaction of Lyn kinase with the GM-CSFR complexes was further corroborated using anti-GM-CSF (G133) mAb, which coimmunoprecipitated both the p120 beta subunit and lyn product in the lysates of M-07e cells that had been bound with rhGM-CSF before cell lysis. Removal of rhGM-CSF from culture medium for 10 to 12 h resulted in a marked decrease in lyn-associated kinase activity but not the beta subunit/lyn kinase complex formation. Taken together, our results showed that, in M-07e cells, Lyn protein tyrosine kinase (p53/p56lyn) is stably associated with a constitutively phosphorylated beta subunit of the GM-CSFR in a manner that seems to be independent of lyn kinase activity.
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PMID:Association between Lyn protein tyrosine kinase (p53/56lyn) and the beta subunit of the granulocyte-macrophage colony-stimulating factor (GM-CSF) receptors in a GM-CSF-dependent human megakaryocytic leukemia cell line (M-07e). 763 65

The p53 gene, located on chromosome 17p 13.1 and coding for a nuclear 393 amino-acids phosphoprotein acts to constrain or antagonize cell growth, and as such, is a tumor suppressor gene. In fact, inactivation of p53 tumor suppressor gene is a common event in the development of all or most types of human cancers. About half of cell cancer cases analysed thus far involve missense mutation of one p53 allele combined with the deletion of the second allele, and many of the remaining cases involve a functional inactivation of p53 protein through non mutational mechanisms. The importance of p53 as an inherited cancer susceptibility gene has been demonstrated in Li-Fraumeni syndrome. In some circumstances, it has been shown that in response to DNA damage, the p53 level in the cell increases considerably and induces a cell growth arrest late in G1 phase. This cycle arrest allows the altered DNA to be repaired before entry of the cell into S phase. This function of p53 helps to insure the genomic stability of the cell. Mutations in p53 eliminate this response and result in enhanced frequency of genomic rearrangements. In other circumstances wild type p53 may act by triggering cell death by apoptosis. The p53 protein exerts its physiological functions through various biochemical activities. These include its ability to be a site-specific transcriptional transactivator as well as a repressor of transcription. The oncoproteins derived from several oncogenic DNA viruses including SV40 large T antigen, the adenovirus E1B protein, and papillomavirus E6 protein, as well as specific cellular gene products e.g. mdm2 form complexes with the p53 protein, causing its inactivation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[P53 and cancers]. 767 43

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