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)

A number of cellular and viral genes encode proteins that play a role in the establishment of normal cells in culture. In addition, these genes cooperate with activated ras genes to induce cellular transformation. We show that ras-dependent transformation of rat embryo fibroblasts is more efficient when two establishment genes are used together compared with one alone. Both quantitative and qualitative differences in the efficiency of transformation were detected. The number of transformed foci generated was greater than the sum of the foci obtained with ras and each of the establishment genes used separately. In addition, the foci had a distinct morphology. Synergism was seen between the HPV-16 E7 gene and certain mutant alleles of the cellular p53 gene as well as between E7 and c-myc.
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PMID:Synergism between pairs of immortalizing genes in transformation assays of rat embryo fibroblasts. 217 38

Statistically significant charge clusters are of infrequent occurrence in all kinds of proteins. In the six standard classes of proto-oncogene products, all of the nuclear class contain a significant charge cluster and several, but not all, of the transmembrane class do, whereas significant charge clusters or patterns are not found in protooncogenes of primarily cytoplasmic location, nor in membrane-bound (src-like) proto-oncogenes, nor in those of the ras family. Among nuclear oncogene families, such as myc, jun, fos, myb, or ets-related, and among homologous proteins across species, the significant charge clusters are part of the most conserved region. These gene families generally have similar charge distributions embodying a significant charge cluster, not of an invariant sign, preceded by a substantial uncharged stretch of predominantly polar residues. The nuclear transforming proteins p53 and p68 also contain significant charge clusters together with long uncharged segments, suggestive of a modular structure of these proteins. The transmembrane oncogene c-mas contains a mixed charge cluster and c-fms displays an unusual (0, +)7 pattern, in both cases positioned within their intracellular activating domain. Distinctive charge configurations for excreted proto-oncogenes are of a mixed character. Possible functions, mechanisms, and associated experimental procedures for studying proteins with anomalous charge distributions are discussed.
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PMID:Charge configurations in oncogene products and transforming proteins. 218 79

Twenty-five colorectal tumors (rectum 6, left colon 13, right colon 6) were studied with respect to the overexpression of p53 and the activation by point mutation of the Ki-ras oncogene. Single point mutations on codon 12 and codon 13 were analyzed after PCR amplivication, dotblotting and sequential hybridization with 12 different oligonucleotides. The intranuclear concentration of p53 protein was measured by flow cytometry after immunofluorescence staining with monoclonal antibody Pab 421. Twelve tumors were found to significantly overexpress p53 and 6 of them had an activated Ki-ras (5 on codon 12, 1 on codon 13). Of 13 tumors which failed to demonstrate over expression of p53, 8 had an activated Ki-ras (5 on codon 12, 3 on codon 13). In our series, p53 overexpression and ki-ras activation appeared to be independent.
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PMID:[A joint study of mutation of the Ki-ras oncogene and overexpression of the Tp53 oncogene in colorectal cancer]. 219 Aug 55

We have used a system of nutritional manipulation to investigate whether hepatocytes of the normal liver can be primed for replication in vivo. In this system, rats that are denied protein for 3 days undergo a burst of hepatic DNA synthesis and mitosis when they are refed amino acids, while normally fed or starved rats do not respond. To determine if hepatocytes of protein deprived (PD) rats have been "primed" for replication, we examined changes in protooncogene expression in livers of PD rats to see if they would mimic the pattern of gene expression that is induced early after partial hepatectomy. c-jun, c-myc, and p53 mRNAs were elevated in livers of PD rats, while c-fos and c-ras genes were not expressed. The administration of amino acids to PD rats stimulated hepatic DNA synthesis in a shorter period than is required after partial hepatectomy and induced p53 and c-ras expression. In culture, hepatocytes from PD rats had higher levels of c-myc mRNA, underwent morphological changes more rapidly, and reached maximum rates of DNA synthesis earlier than normal hepatocytes. In both normal and primed hepatocyte cultures, transforming growth factor alpha stimulated DNA synthesis more effectively than epidermal growth factor. We conclude that hepatocytes pass through a priming stage before they proliferate and that replicative competence without DNA synthesis can be induced in hepatocytes in the normal liver.
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PMID:Induction of replicative competence ("priming") in normal liver. 220 69

Mutations in the p53 gene have been associated with a wide range of human tumors, including osteosarcomas. Although it has been shown that wild-type p53 can block the ability of E1a and ras to cotransform primary rodent cells, it is poorly understood why inactivation of the p53 gene is important for tumor formation. We show that overexpression of the gene encoding wild-type p53 blocks the growth of osteosarcoma cells. The growth arrest was determined to be due to an inability of the transfected cells to progress into S phase. This suggests that the role of the p53 gene as an antioncogene may be in controlling the cell cycle in a fashion analogous to the check-point control genes in Saccharomyces cerevisiae.
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PMID:p53 functions as a cell cycle control protein in osteosarcomas. 223 17

We have analysed, by Northern blots, the expression of 14 cellular oncogenes in nine cell lines established from human teratocarcinomas. All lines expressed considerable amounts of p53, c-Ki-ras2, c-Ha-ras1, c-raf1, N-myc, and c-fos. Low level expression of c-myc was detected in some lines. Southern blot experiments revealed no amplification or rearrangement of the c-Ki-ras2, N-myc or c-fos genes. Using a rapid dot-blot screening procedure, based on a combination of in-vitro amplification of ras-specific sequences and oligonucleotide hybridization, we could detect no activation of Ha-ras or Ki-ras or any unexpressed N-ras sequences secondary to a point mutation at codons 12, 13, or 61.
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PMID:Cellular oncogenes in human teratocarcinoma cell lines. 228 83

The majority of the p53 genes derived from human colorectal carcinomas contain point mutations. A significant number of these mutations occur in or around amino acids 143, 175, 273, or 281. Experiments presented here demonstrate for the first time that p53 DNA clones containing any one of these mutations cooperate with the activated ras oncogene to transform primary rat embryo cells in culture. These transformed cells produce elevated levels of the human p53 protein, which has extended half-lives (1.5-7 h), as compared to the wild-type human p53 protein (20-30 min). The p53 mutant with an alteration at residue 175 (p53-175H) binds tightly to the cellular heat shock protein, hsc70. In contrast, the p53 mutants possessing mutations at either residue 273 or 281 (p53-273H/281G) do not bind detectably to this heat shock protein and generally are less efficient at forming transformed foci in culture. The transformed cell lines are tumorigenic in nude mice. Thus, two classes of p53 mutant proteins can be distinguished: p53-175H, which cooperates with ras efficiently and binds to hsc70, and p53-273H/281G, which has a reduced efficiency of transformed foci formation and does not bind hsc70. This demonstrates that complex formation between mutant p53 and hsc70 is not required for p53-mediated transformation, but rather it facilitates this function, perhaps by ensuring sequestration of the endogenous wild-type p53 protein. The positive effect on cell proliferation by these mutant p53 proteins is consistent with a role for activated p53 mutants in the genesis of colorectal carcinomas.
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PMID:Mutant p53 DNA clones from human colon carcinomas cooperate with ras in transforming primary rat cells: a comparison of the "hot spot" mutant phenotypes. 228 74

Heritable and genetic factors pertinent to colon cancer can be divided into three categories: inherited syndromes, genetic epidemiology, and molecular genetics. Familial adenomatous polyposis (FAP) and Gardner syndrome (GS) are rare dominantly inherited syndromes characterized by hundreds to thousands of colonic adenomatous polyps. Colon cancer occurs at a young age in both diseases unless the colon is removed. Peutz-Jeghers syndrome and familial juvenile polyposis are inherited hamartomatous polyposis conditions with a less dramatic, but definite, increased risk for colon cancer. These four polyposis syndromes together account for less than 1% of cases of colon malignancy. Hereditary nonpolyposis colorectal cancer is a dominantly inherited form of colon cancer characterized by an early age of onset and a predilection for proximal colonic tumours. Multiple primary malignancies are frequently observed and one or several adenomatous polyps are often present in affected individuals; 4-6% of colon cancer cases occur in relationship to this syndrome. Genetic epidemiological studies have consistently shown that first-degree relatives of persons with colon cancer have a twofold to threefold increased risk of having colon malignancy. More recent studies have found a similar risk among relatives of those with adenomatous polyps. Studies of colon cancer and adenomatous polyps in pedigrees have further demonstrated that this familial clustering probably occurs on the basis of partially penetrant inherited susceptibilities. These inherited susceptibilities probably interact with environmental factors to give rise to polyp growth and finally colon cancer. Molecular studies have begun to elucidate the genetic mechanisms of colon cancer at the DNA level. The germinal mutation of FAP and GS has been localized to the long arm of chromosome 5. Tissue samples from "random" adenomatous polyps and colon cancers have shown frequent and specific acquired DNA sequence deletions on chromosomes 5, 17, and 18. Mutations and over-expression of the ras oncogene likewise have been observed in such tissues. The chromosome 5 defect in polyp and cancer tissues is probably at the same locus as the germinal mutation of FAP. There is evidence that this locus normally regulates expression of the c-myc oncogene, which in turn probably has a regulatory function in DNA replication. The chromosome 17 deletion is a mutation of the gene for the transformation-associated protein, p53. Appropriate screening starting at a relatively young age is necessary to prevent cancer in the inherited syndromes. Screening is also indicated in close relatives of those with nonsyndromic or common colon cancer in view of the moderately increased risk for colon cancer in this group.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Risk and surveillance of individuals with heritable factors for colorectal cancer. WHO Collaborating Centre for the Prevention of Colorectal Cancer. 228 1

The cellular phosphoprotein p53 binds tightly and specifically to simian virus 40 T antigen and the 58,000-molecular-weight adenovirus E1b protein. Many human and murine tumor cell lines contain elevated levels of the p53 protein even in the absence of these associated viral proteins. Recently the cloned p53 gene, linked to strong viral promoters, has been shown to complement activated ras genes in transformation of primary rodent cell cultures. Overexpression of the p53 gene alone rescues some primary rodent cell cultures from senescence. We isolated three new monoclonal antibodies to the p53 protein, designated PAb242, PAb246, and PAb248, and mapped the epitopes they recognized on p53 in comparison with other previously isolated antibodies. At least five sterically separate epitopes were defined on murine p53. One of the antibodies, PAb246, recognizes an epitope on p53 that is unstable in the absence of bound simian virus 40 T antigen. This effect is demonstrable in vivo and in newly developed in vitro assays of T-p53 complex formation. Using the panel of anti-p53 antibodies and sensitive immunocytochemical methods, we found that p53 has a predominantly nuclear location in established but not transformed cells as well as in the vast majority of transformed cell lines. Several monoclonal antibodies to p53 showed cross-reactions with non-p53 components in immunocytochemical staining.
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PMID:Monoclonal antibody analysis of p53 expression in normal and transformed cells. 242 67

We have studied a panel of 10 genes and cDNA sequences that are expressed in a cell cycle-dependent manner in different types of cells from different species and that are inducible by different mitogens. These include five sequences (c-myc, 4F1, 2F1, 2A9, and KC-1) that are preferentially expressed in the early part of the G1 phase, three genes (ornithine decarboxylase, p53, and c-rasHa) preferentially expressed in middle or late G1, and two genes (thymidine kinase and histone H3) preferentially expressed in the S phase of the cell cycle. We have studied the expression of these genes in nonpermissive (tsAF8) and semipermissive (Swiss 3T3) cells infected with adenovirus type 2. Under the conditions of these experiments, adenovirus type 2 infection stimulates cellular DNA synthesis in both tsAF8 and 3T3 cells. However, four of the five early G1 genes (c-myc, 4F1, KC-1, and 2A9) and one of the late G1 genes (c-ras) are not induced by adenovirus infection, although they are strongly induced by serum. The other sequences (2F1, ornithine decarboxylase, p53, thymidine kinase, and histone H3) are activated by both adenovirus and serum. We conclude that the cell cycle-dependent genes activated by adenovirus 2 are a subset of the cell cycle-dependent genes activated by serum. The data suggest that the mechanisms by which serum and adenovirus induce cellular DNA synthesis are not identical.
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PMID:Adenovirus type 2 activates cell cycle-dependent genes that are a subset of those activated by serum. 242 24

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