Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chemicals classified by the IARC to its groups 1, 2A, 2B and 3 were examined in an attempt to identify characteristics of their behaviour in experimental studies of carcinogenicity, genotoxicity and acute mammalian toxicity that correlate with those categories. Only those agents for which information on carcinogenic potency was available were studied. In both mice and rats, more chemicals were potent carcinogens if they had been categorized in Group 1 (human carcinogens) than if they had been put into one of the other categories. Not surprisingly, there was a weak association between carcinogenic potency and acute toxicity. Mice were especially sensitive to tumour induction by halides; the lower sensitivity of rats to any carcinogenic effect of halides could be due in part to their higher systemic toxicity in this species: a reduced differential of toxic and carcinogenic doses decreases the dose window in which carcinogenic effects may be demonstrated. It was notable that the human carcinogens were active in those genotoxicity tests with higher specificity for identifying rodent carcinogens. Predictive assays for carcinogenicity that were considered to be highly specific were tests for cytogenetic effects in vivo, unscheduled DNA synthesis in hepatocytes, mutation in any of the five commonly used strains of Salmonella typhimurium and mutation at the hprt locus in mammalian cells. None of the relationships was strong enough to form the basis of a simple categorization, but they could serve to alert investigators to chemicals of special toxicological interest and importance.
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PMID:Chemicals classified by IARC: their potency in tests for carcinogenicity in rodents and their genotoxicity and acute toxicity. 142 89

A convenient system for gene targeting that uses hypoxanthine phosphoribosyltransferase (HPRT) minigenes as the selectable marker in HPRT-deficient mouse embryonic stem (ES) cells is described. Improvements to the expression of HPRT minigenes in ES cells were achieved by promoter substitution and the provision of a strong translational initiation signal. The use of minigenes in the positive-negative selection strategy for gene targeting was evaluated and the smaller minigenes were found to be as effective as a more conventional marker--the herpes simplex virus thymidine kinase gene. Minigenes were used to target the DNA repair gene ERCC-1 in ES cells. A new HPRT-deficient ES cell line was developed that contributes with high frequency to the germ line of chimeric animals. The ability to select for and against HPRT minigene expression in the new HPRT-deficient ES cell line will make this system useful for a range of gene-targeting applications.
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PMID:Gene targeting using a mouse HPRT minigene/HPRT-deficient embryonic stem cell system: inactivation of the mouse ERCC-1 gene. 144 55

Dosage compensation of X-linked genes in male and female mammals is accomplished by random inactivation of one X chromosome in each female somatic cell. As a result, a transcriptionally active allele and a transcriptionally inactive allele of most X-linked genes reside within each female nucleus. To examine the mechanism responsible for maintaining this unique system of differential gene expression, we have analyzed the differential binding of regulatory proteins to the 5' region of the human hypoxanthine phosphoribosyltransferase (HPRT) gene on the active and inactive X chromosomes. Studies of DNA-protein interactions associated with the transcriptionally active and inactive HPRT alleles were carried out in intact cultured cells by in vivo footprinting by using ligation-mediated polymerase chain reaction and dimethyl sulfate. Analysis of the active allele demonstrates at least six footprinted regions, whereas no footprints were detected on the inactive allele. Of the footprints on the active allele, at least four occur over canonical GC boxes or Sp1 consensus binding sites, one is associated with a potential AP-2 binding site, and another is associated with a DNA sequence not previously reported to interact with a sequence-specific DNA-binding factor. While no footprints were observed for the HPRT gene on the inactive X chromosome, reactivation of the inactive allele with 5-azacytidine treatment restored the in vivo footprint pattern found on the active allele. Results of these experiments, in conjunction with recent studies on the X-linked human PGK-1 gene, bear implications for models of X chromosome inactivation.
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PMID:Multiple in vivo footprints are specific to the active allele of the X-linked human hypoxanthine phosphoribosyltransferase gene 5' region: implications for X chromosome inactivation. 144 69

To test the hypothesis that reactive species in the oxygen cascade are responsible for spontaneous mutation, we examined the spectra of oxygen and hydrogen peroxide-induced mutations at the hprt locus in a human B-lymphoblastoid cell line. We compared these spectra with the spontaneous mutational spectrum. Large gene alterations were studied by Southern analysis of individual TGR clones. A combination of high fidelity polymerase chain reaction, denaturing gradient gel electrophoresis and direct DNA sequencing were used to detect and identify point mutations in exon 3 of hprt. With regard to spontaneous mutations, a previous study showed that 39% of the spontaneous TGR clones had large gene alterations. In the present study, the analysis of spontaneous point mutations within exon 3 revealed two hotspots. A one base-pair deletion (-A) at base-pair 256 or 257 and a two base-pair deletion (-GG) at base-pair 237 and 238, were detected in triplicate cultures. Each of the hotspots comprised about 1% of the TGR mutants. The analysis of individual oxygen-induced TGR clones (48 h, 910 microM-O2) showed 43% had large gene alterations similar to the spontaneous TGR clones. However, none of the spontaneous point mutation hotspots was found among triplicate oxygen-treated cultures. Two point mutations in common with H2O2-treated cultures were found in one of the three oxygen-treated cultures. Hydrogen peroxide-induced mutations (1 h, 20 microM) also differed from spontaneous mutations. Only 24% of the hydrogen peroxide-induced TGR clones had large gene alterations. The analysis of point mutations showed three hotspots within exon 3 of hprt. An AT to TA transversion at base-pair 259 had an average frequency of 3% of all TGR mutants (present in all of 3 H2O2-treated cultures). Two GC to CG transversions at base-pairs 243 and 202 were present at a frequency of 0.6% and 0.4%, respectively. A five base-pair deletion (base-pair 274 to 278) was present at an average frequency of 0.3%. The latter three mutations were detected in two of three H2O2-treated cultures. Thus, the point mutation spectra of both oxygen and hydrogen peroxide were significantly different from the spontaneous spectrum. The oxygen and hydrogen peroxide-induced spectra shared some features, suggesting that oxygen and hydrogen peroxide share some but not all pathways for induction of mutations within the DNA sequence studied here.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mutational spectra in human B-cells. Spontaneous, oxygen and hydrogen peroxide-induced mutations at the hprt gene. 146 15

Chemicals classified by the IARC to its Groups 1, 2A, 2B and 3 were examined in an attempt to identify characteristics of their behaviour in experimental studies of carcinogenicity, genotoxicity and acute, mammalian toxicity that correlate with those categories. Only those agents for which carcinogenic potency information was available were studied. For both mice and rats, greater proportions of chemicals were potent carcinogens if they had been categorized in Group 1 (human carcinogens) than if they had been put into one of the other categories. Not surprisingly, there was a weak association between carcinogenic potency and acute toxicity. Mice were especially sensitive to tumour induction by halides, while the lower sensitivity of rats to any carcinogenic effect of halides could be due in part to the higher systemic toxicity of halides in this species: a reduced differential of toxic and carcinogenic doses decreases the dose window in which carcinogenic effects may be demonstrated. It was notable that the human carcinogens were active in those genotoxicity tests with higher specificity for identifying rodent carcinogens. Predictive assays for carcinogenicity considered to have high specificity were in vivo cytogenetic, hepatocyte unscheduled DNA synthesis and Salmonella (5 commonly used strains) and mammalian cell hprt locus mutation assays. None of the relationships was strong enough to form the basis of a simple categorization process, but they could serve to alert investigators to chemicals of special toxicological interest and importance.
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PMID:Chemicals classified by IARC: an investigation of some of their toxicological characteristics. 147 Dec 18

Five independent mutations in the hypoxanthine guanine phosphoribosyltransferase (HPRT) gene were identified in a partially HPRT deficient patient with gout and in four Lesch-Nyhan patients. Using the polymerase chain reaction (PCR) technique coupled with direct sequencing, the nucleotide sequences of the entire HPRT coding region amplified from the cDNA and also of each exon amplified form the genomic DNA were analyzed. Three independent point mutations in the coding region were detected in the partially HPRT deficient patient (Case 1) and in two Lesch-Nyhan patients (Case 2 and 3), resulting in single amino acid substitutions. The family study of Case 3, utilizing a PvuII restriction site created in the mutant gene, indicated that the mother was a heterozygote, and a sister and a fetal brother had inherited the normal HPRT gene from the mother. In two other mutants causing Lesch-Nyhan syndrome, a portion of the HPRT gene was deleted, and RNA splicing was missing in both mutants. A 4-bp deletion at the 5' end of exon 4 resulted in formation of three different types of abnormal mRNA (Case 4). The other mutant (Case 5) produced abnormal mRNA including 26 bp of intron 8 instead of the deleted 58 bp at the 5' end of exon 9, because of a 74-bp deletion from intron 8 to exon 9.
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PMID:Molecular analysis of five independent Japanese mutant genes responsible for hypoxanthine guanine phosphoribosyltransferase (HPRT) deficiency. 148 94

The study of hprt mutations in cynomolgus monkey T-lymphocytes is part of our effort to understand the mechanisms of mutagenesis in vivo. This primate model allows us to study mutations and their kinetics at the molecular level under well-controlled conditions using recently developed techniques for selection of mutant T-cells and polymerase chain reaction (PCR) amplification of hprt cDNA, which is directly sequenced. This is the first report of the sequence of the coding region of the cynomolgus monkey hprt gene and PCR/DNA sequence analysis of seven spontaneous mutant T-cell clones, as well as 23 mutant clones isolated 63 and 601 days after treatment with ethylnitrosourea (ENU, 77 mg/kg, intraperitoneal). cDNA was reverse transcribed from hprt mRNA directly from a lysate of about 2-4 x 10(3) cells, and a 700 bp fragment including the coding region was amplified by PCR and sequenced. Of the seven spontaneous mutants, only one point mutation (GC----AT transition) was detected, and the other six failed to amplify by PCR, possibly due to functional deletions. Of the 14 mutant clones isolated 63 days after ENU treatment, nine base substitutions were detected in ten clones: four transitions (three AT----GC and one GC----AT) and five transversions (four AT----TA and one AT----CG). Of the nine mutants isolated 601 days after ENU treatment, six single base substitutions were detected in six clones (five AT----TA and one AT----CG transversions), and one mutant had a large deletion or insertion. No changes were detected in three clones (one Day 63 and two Day 601 clones). In summary, only one of 15 single base substitutions isolated after ENU treatment was a GC----AT transition mutation and the rest were transitions and transversions at AT sites.
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PMID:DNA sequence analysis of spontaneous and N-ethyl-N-nitrosourea-induced hprt mutations arising in vivo in cynomolgus monkey T-lymphocytes. 150 33

1-Nitrosopyrene, a metabolite of the tumorigenic environmental pollutant 1-nitropyrene, is a potent mutagen at the hprt locus in Chinese hamster ovary (CHO) cells. A single DNA adduct, N-(deoxyguanosin-8-yl)-1-aminopyrene, is produced in CHO cells treated with 1-nitrosopyrene, and this adduct is found in rats and mice exposed to 1-nitropyrene. In this study, the structure of the hprt gene and the structure and amount of hprt mRNA were analyzed in 43 CHO cell mutants (16 isolated from solvent control cultures and 27 isolated from 1-nitrosopyrene-treated cultures). Pstl- and BamHl-digested DNA from the mutants were subjected to Southern blot analysis using a hamster hprt cDNA probe. None of the 1-nitrosopyrene-induced mutants and only one of the control mutants displayed hybridization patterns that were different from the parent CHO cells. Northern blot analysis revealed that two control mutants had truncated hprt mRNAs, while 56% of the control mutants and 78% of the induced mutants had reduced levels of hprt mRNA. Using polymerase chain reaction amplification of cDNA synthesized from RNA, the hprt protein-coding region could be amplified from 23 of the 1-nitrosopyrene-induced mutants and 11 of the control mutants. The amplification products from 3 of the control mutants and 5 of the induced mutants were smaller than that found with RNA from parental CHO cells. These results indicate that the mutagenic DNA damage produced by 1-nitrosopyrene in CHO cells does not cause major structural alterations in the hprt gene and suggest that 1-nitrosopyrene acts as a point mutagen. A large number of both control and 1-nitrosopyrene-induced mutants exhibited a marked reduction in hprt mRNA concentration or possessed truncated mRNA hprt protein coding sequence. These alterations may contribute to the 6-thioguanine-resistant phenotype.
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PMID:Analysis of solvent control and 1-nitrosopyrene-induced Chinese hamster ovary cell mutants by Southern and northern blots and the polymerase chain reaction. 154 Dec 56

The effects of the reaction photosensitized by 4'-hydroxymethyl-4,5'-8-trimethylpsoralen (HMT) on a mouse lymphoma cell line have been examined. Using the hypoxanthine phosphoribosyltransferase (HPRT) locus as target gene, a mutagenic effect of the photoreaction can be detected concomitantly with a loss of cell viability. Isolation of HPRT deficient clones has permitted a molecular characterization of the mutational pattern induced by the photosensitization reaction mediated by HMT. Southern blotting analysis demonstrated that the HPRT deficiency could not be correlated with gene deletions larger than 300 bp. Using polymerase chain reaction on both DNA and cDNA, amplification products have been cloned into M13mp18 and sequenced. Base transversions targeted on thymine residues have been located in exon 2, 3, 8 and 9 together with spontaneous frameshift mutations occurring in a run of guanine residues in exon 3. HPRT deficiencies owing to mutations arising in the HPRT promoter region have also been observed. Dot and Northern blot analysis revealed that the photoreaction could lead to either a reduced level of gene transcription or to a complete absence of HPRT m-RNA. Using polymerase chain reaction (PCR) amplification and agarose gel electrophoresis, deletions in the HPRT promoter have been observed and correlated to deficient enzyme expression.
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PMID:Molecular analysis of mutations induced by 4'-hydroxymethyl-4,5',8-trimethylpsoralen and UVA in the mouse HPRT gene. 154 88

The change in DNA responsible for partial hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency in three brothers has been determined by polymerase chain amplification and sequencing. An A-to-G substitution at base 155 in exon 3 predicts a change in aspartic acid 52 to glycine. Allele-specific polymerase chain amplification verified the presence of the mutation in genomic DNA and provides a means of direct diagnostic assay.
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PMID:The point mutation of hypoxanthine-guanine phosphoribosyltransferase (HPRTEdinburgh) and detection by allele-specific polymerase chain reaction. 155 76


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