UNIPROT:P00492 - FACTA Search

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

The molecular basis of bleomycin (BLM)-induced mutations in the absence and presence of inhibitors of DNA repair was investigated in V79 cells with Southern hybridization techniques. 43% of the BLM-induced thioguanine-resistant mutants suffer from large alterations of hprt DNA sequences. To understand the role of DNA repair in the process of mutagenesis, the effect of inhibitors of DNA repair on the frequency and types of BLM-induced mutations was tested. The inhibitors used were arabinofuranosyl cytosine (araC), didesoxythymidine (ddThd) and 3-aminobenzamide (3AB), which inhibit different steps of excision repair. Only 3AB caused a comutagenic effect. The increased mutation frequency was mainly due to additionally induced gene deletions. In the presence of 3AB, 70% of the HPRT-deficient mutants revealed partial or total deletions of the hprt coding sequences. Thus, it could be shown that BLM induces a broad range of types of mutation and that inhibited repair of BLM-induced DNA damage leads to specific types of mutations.
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PMID:Molecular characterization of mutations at the hprt locus in V79 Chinese hamster cells induced by bleomycin in the presence of inhibitors of DNA repair. 171 23

The enzyme hypoxanthine phosphoribosyltransferase (HPRT) catalyzes the metabolic salvage of the purine bases hypoxanthine and guanine. We previously characterized the genomic structure of the human HPRT gene and described its promoter sequence. In this report, we identify cis-acting transcriptional control regions of the human HPRT gene by linking various 5'-flanking sequences to the bacterial chloramphenicol acetyltransferase gene. The sequence from positions -219 to -122 relative to the translation initiation site is required for maximal expression of this gene, and it functions equally in both normal and reverse orientations. In addition, a cis-acting negative element is present in the region spanning from positions -570 to -388. This negative element can also repress promoters of heterologous genes, such as those of adenosine deaminase and dihydrofolate reductase, which are structurally and functionally similar to the human HPRT promoter. Furthermore, this repressor element functions independently of its orientation but appears to be distance dependent. In vivo competition assays demonstrated that the trans-acting factor(s) that binds to this negative element specifically inhibits human HPRT promoter activity. Taken together, these data localize cis-acting sequences important in the regulation of human HPRT gene expression and should allow the study of protein-DNA interactions which modulate the transcription of this gene.
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PMID:Functional characterization of the human hypoxanthine phosphoribosyltransferase gene promoter: evidence for a negative regulatory element. 171 4

The in vivo frequency of mutants resulting from mutation at the hprt locus in human T-lymphocytes was determined with a cloning assay. T-lymphocytes were obtained from 14 individuals diagnosed with schizophrenia and 5 controls. No significant difference in mutant frequency was observed between the 2 groups. In addition, DNA-repair capacity was measured with the unscheduled DNA synthesis technique in lymphocytes from 7 individuals diagnosed with schizophrenia and 7 controls. Repair capacity was determined following treatment with MMS, MNNG, and 20 J/m2 ultraviolet light. No significant differences in DNA repair were observed between the patient and control groups in response to any of the 3 DNA-damaging agents. These results argue against differences between normal and schizophrenic individuals with respect to in vivo mutant frequency or their capacity to repair DNA lesions induced by MMS, MNNG, or ultraviolet radiation.
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PMID:DNA repair and mutant frequency in schizophrenia. 171 95

Alkylating agent damage was quantified in human T-lymphocytes by calculating gene-specific lesion frequencies and repair rates. At 3 time points after exposure to methyl methanesulfonate (0, 6, and 24 h), T-lymphocyte DNA was extracted, digested with HindIII, and divided into 2 aliquots. Apurinic sites were formed in the DNA fragments of both aliquots by heat-induced liberation of the N-methylpurines. The methoxyamine-treated aliquot provided gene fragments which were refractory to alkaline hydrolysis (full-length fragments), while the fragments in the untreated aliquot were cleaved at apurinic sites by hydroxide. After Southern blotting, lesion frequencies were calculated by comparing the band intensity of the full-length fragment to its unprotected counterpart. The restriction fragments analyzed were from the constitutively active dihydrofolate reductase (dhfr) plus hypoxanthine phosphoribosyltransferase (hprt) genes and from the transcriptionally inactive Duchenne muscular dystrophy gene (dmd). In decreasing order, the fragments containing the most lesions per kb of DNA were: hprt greater than dhfr greater than dmd. T-Lymphocytes from 2 females had 30% more heat-labile N-methylpurines in the active X-linked hprt gene than in the inactive X-linked dmd gene. The lesion frequency found in the male's lone hprt allele was the highest observed. These lesion frequency differences are discussed in terms of chromatin structure. After 6 and 24 h, no significant repair rate differences were observed among the 3 genes.
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PMID:Two expressed human genes sustain slightly more DNA damage after alkylating agent treatment than an inactive gene. 171 96

Chinese hamster ovary (CHO) cells were subjected to electroporation in the presence of 5-methyl deoxycytidine-triphosphate. This treatment increases by 10 to 100-fold the frequency of cells lacking thymidine kinase, hypoxanthine-guanine phosphoribosyltransferase, or adenine phosphoribosyltransferase. The inactivation of the genes coding for these enzymes is thought to occur following the direct incorporation of the methylated nucleotide triphosphate into DNA. The enzyme-deficient clones were stable, but almost all were reactivated at high frequency by the demethylating agent 5-azacytidine, to produce derivatives with enzyme activity. The results indicate that there is a direct relationship between DNA methylation and gene silencing.
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PMID:Gene silencing in mammalian cells by uptake of 5-methyl deoxycytidine-5'-triphosphate. 172 91

We have shown by the filter hybridization technique that bleomycin (BLM) induces different types of mutations at the hprt gene locus of V79 Chinese hamster cells. DNA of mutants identified by Southern blots as partial deletions was subjected to further analysis using multiplex polymerase chain reaction (PCR) to localize the endpoints of the deletions over the hprt gene. The PCR analysis revealed that deletions occur in all parts of the hprt gene but are distributed non-randomly. Deletions occurred most frequently at the 3'-end of the hprt gene suggesting a possible existence of a hot spot for deletions in this region; exons 1, 2 and 3 appeared to be less affected by deletions. As PCR can detect microdeletions which are below the limit of resolution of Southern blot hybridization we analysed 25 HPRT- mutants with Southern wild-type pattern to distinguish between point mutations and small deletions. Of these HPRT- mutants, all except five showed PCR amplification products identical to that of V79 wild-type cells. These results are consistent with previous Southern analyses indicating that a large portion of BLM-induced HPRT- mutants are real point mutations. Five mutants, however, showed differences in fragment sizes of single PCR products or did not yield one single exon fragment and thus are probably the result of deletions which were not to be detected by Southern analyses.
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PMID:Mutation screening of bleomycin-induced V79 Chinese hamster hprt mutants using multiplex polymerase chain reaction. 172 91

Molecular analysis of hypoxanthine-guanine phosphoribosyltransferase (hprt) cDNA from 6-thioguanine-resistant T-lymphocytes cloned from smoking and non-smoking adult donors showed that 35% of these mutants were defective in splicing of hprt mRNA. Among a set of 42 hprt splice mutants, we observed i) complete loss of one or more exons, ii) partial loss of one exon, or iii) inclusion of part of an intron sequence between adjacent exons. Loss of exon 4 was significantly more frequent than of the other exons, suggesting that the sequences that regulate splicing of this exon are either larger than those of the other exons or especially prone to mutation. In order to identify the molecular nature of DNA alterations causing aberrant splicing of hprt mRNA, 17 splice mutants were analyzed in more detail by sequencing the genomic regions flanking the mis-spliced exon. Base pair substitutions or small deletions causing defective splicing were either detected in exon sequences or in splice site consensus sequences of introns. Furthermore, genomic deletions encompassing entire exons were found. In some mutants, the alteration responsible for incorrect splicing could not be identified, suggesting that the target sequence for splice mutations is larger than merely the splice junctions. Molecular characterization of hprt splice mutations will lead to the identification of specific sequences regulating splicing of hprt mRNA and will reveal whether the mutational spectrum in splice mutants is similar to that found in the hprt coding region.
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PMID:Molecular analysis of mutations affecting hprt mRNA splicing in human T-lymphocytes in vivo. 173 5

Because the human hprt gene is used in numerous mutation studies, it is important to fully characterize this gene. Therefore, our laboratory has undertaken to map the region around the hprt gene at band q26 of the human X chromosome. Utilizing hprt mutant T-cell clones isolated using the hprt clonal assay, which have deletions of all or part of the hprt gene, we have ordered 5 anonymous probes previously known to map in Xq26. Results suggest that this region includes between 460 kb and 18 Mb of DNA, which is at least 10 times the size of the hprt gene itself (43 kb). Pulsed field gel analysis of the region is underway to determine the exact distances between each of the anonymous probes and hprt and to determine deletion sizes in the mutant T-cell clones.
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PMID:Analysis of human HPRT deletion mutations with X-linked probes and pulsed field gel electrophoresis. 174 89

We describe a highly efficient stable gene transfection procedure for Chinese hamster ovary (CHO) cells using a modification of the calcium phosphate-DNA coprecipitation method. We have found that treatment of CHO cells with chloroquine increases the efficiency of gene transfer by up to 20-fold (from approx. 0.01% to approx. 0.2%) when transfection is done using the pSV2-neo plasmid. The optimized transfection procedure requires that CHO cells to be incubated with calcium phosphate-DNA coprecipitate and chloroquine (100 microM) for a total of 16 h. By using high-molecular-weight human genomic DNA as a DNA source for transfection, we show that this procedure is equally efficient for stably transferring a much larger gene, such as the 49-kb human hypoxanthine phosphoribosyltransferase gene.
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PMID:High-efficiency stable gene transfection using chloroquine-treated Chinese hamster ovary cells. 176 89

DNA of two yeast artificial chromosomes (YACs) containing selectable human genes was transferred by microinjection to rodent cells in tissue culture. The human hypoxanthine phosphoribosyltransferase (HPRT) gene, spanning 45 kb, is contained on the 660-kb YAC yHPRT as described elsewhere. The human phosphoribosylglycinamide formyltransferase (GART) gene, spanning approximately 40 kb, is contained on the 590-kb YAC yGART2 as described previously. YAC DNA was isolated from pulsed-field gels and microinjected into mammalian cells in which the human HPRT and GART genes can be selected. The cell lines that were selected contain the entire human genes. Some of the cell lines contain multiple copies of the genes integrated at the same chromosomal position. The YAC yGART2 could not be purified away from natural yeast chromosomes of similar size, and the cell lines into which the human GART gene was introduced contain variable amounts of yeast DNA in addition to the human DNA.
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PMID:Transfer of the human HPRT and GART genes from yeast to mammalian cells by microinjection of YAC DNA. 176 36

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