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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mouse hypoxanthine phosphoribosyltransferase gene, like several other housekeeping genes, lacks many of the features associated with promoters of RNA polymerase II-transcribed genes. HPRT transcripts have multiple initiation sites and an HPRT minigene was used to show that only 49 bases of 5' flanking sequence was necessary for normal expression in cultured cells. The essential region, which occurs within a complex series of direct repeats, is homologous to sequences upstream of other housekeeping genes. When this sequence was deleted, cryptic upstream initiation sites were revealed. Similar aberrant patterns of initiation were seen with all minigenes assayed in Xenopus oocytes. We speculate that this region of the HPRT promoter is involved in a different interaction with the transcriptional machinery to that occurring at more conventional promoters.
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PMID:Expression of the mouse HPRT gene: deletional analysis of the promoter region of an X-chromosome linked housekeeping gene. 345 94

We have recently detected de-novo transcripts of the predominantly muscle-specific myotonin protein kinase gene in human preimplantation embryos from the 1-cell to the 4-cell stages. Others have shown de-novo transcripts of the Y-linked genes, ZFY and SRY, in the 1-cell zygote. In order to assess the significance of early transcription of these predominantly tissue-specific genes in preimplantation development, we have analysed individual human oocytes and preimplantation embryos for the presence of transcripts of two further tissue-specific genes, alpha-globin and beta-globin, and two house-keeping genes, HPRT and APRT. Reverse transcriptase polymerase chain reaction assays were developed to the required single cell sensitivity, using human red blood cells and fibroblasts, prior to their application to human oocytes and embryos. As expected, transcripts of the house-keeping genes, HPRT and APRT, were detected at all stages of preimplantation development. Transcripts of 'tissue-specific' alpha-globin were readily detected in preimplantation embryos from the 1-cell stage. However, transcripts of beta-globin were detected only rarely (in only one of the 11 embryos analysed). This difference may be due to the fact that alpha-globin contains a CpG island. A survey of the data on gene expression in early human development suggests that CpG-island-containing genes may be expressed in preimplantation embryos. Expression of these genes in gametes and early embryos may be involved in the survival of CpG islands in evolution.
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PMID:Transcription of tissue-specific genes in human preimplantation embryos. 940 90

Within its intermediate host, Toxoplasma gondii switches between two forms: a rapidly replicating tachyzoite and an encysted bradyzoite. Bradyzoites persist within the host throughout its life, hidden from antimicrobial agents and the immune system. The signals that mediate switching are poorly understood. A gene trap was employed to isolate genes whose expression is up-regulated early in the switching of bradyzoites via the negative and positive selectable marker hypoxanthine-xanthine-guanine phosphoribosyltransferase (HXGPRT). T. gondii was transfected with promoterless HXGPRT and negatively selected with 6-thioxanthine to inhibit the growth of tachyzoites expressing HXGPRT. The surviving tachyzoites were then induced for in vitro bradyzoite formation and treated with mycophenolic acid and xanthine to positively select for parasites in which the construct had integrated downstream of a bradyzoite-specific gene. Strains were checked for their ability to differentiate by using Dolichos biflorus agglutinin (a bradyzoite-specific lectin) and a monoclonal antibody against P36 (a bradyzoite-specific surface antigen). After differentiation, all gene-trapped clones had Dolichos immunofluorescence and all but one expressed P36. The sequences flanking the insertion site of this P36-negative strain were homologous to the Toxoplasma family of surface antigens, strongly suggesting that P36 is encoded by the disruptive gene. Genetic mapping and complementation of the P36-negative strain further indicated that the disrupted gene is P36. Reverse transcriptase PCR and S1 nuclease digestion were used to compare mRNA levels during the tachyzoite and bradyzoite stages. The presumptive P36 gene does not appear to regulate its mRNA levels between the two stages, indicating a posttranscriptional mechanism of regulation for early bradyzoite-specific genes.
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PMID:Isolation of developmentally regulated genes from Toxoplasma gondii by a gene trap with the positive and negative selectable marker hypoxanthine-xanthine-guanine phosphoribosyltransferase. 944 77

Molecular analysis of mutations at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in peripheral blood T-lymphocytes can provide information on mechanisms of somatic in vivo mutation in populations exposed to exogenous carcinogens and in individuals with inherent susceptibility to cancer and other diseases. To study possible mutational changes associated with smoking as a risk factor for lung cancer, we analyzed HPRT mutations in T-cells of newly diagnosed, nonsmoking and smoking lung cancer patients before treatment. Reverse transcriptase polymerase chain reaction (RT-PCR) and DNA sequencing methods were used to identify 146 independent mutations, 73 each from 32 nonsmoking and 31 smoking cases. In 35 T-cell mutants, the HPRT cDNA showed loss of an entire exon, indicating a splicing mutation. Among the remaining 111 fully characterized mutations in the coding region, single base pair (bp) substitutions predominated with 79% (48/61) in nonsmokers and 90% (45/50) in smokers. Frameshift and small deletion (1-24 bp) mutations were found in 18 mutants. The distribution of base pair substitutions was nonrandom, with significant clustering at previously identified hotspot positions 143, 197 and 617 in the HPRT coding sequence (P< or =0.008). One additional hotspot, GC-->TA at position 606, was observed only in smokers (P=0.006). The frequency of GC>TA transversions was higher in smokers (13%) than in nonsmokers (6%). Conversely, smokers had a lower frequency of GC>AT transitions (24%) than nonsmokers (35%). This smoking-associated shift of the HPRT mutational spectrum, although not statistically significant, is consistent with the in vitro mutagenicity of benzo(a)pyrene (BaP), a prominent carcinogen of tobacco smoke, and with known differences in the TP53 mutational spectrum in lung tumors of smokers and nonsmokers. Among nonsmokers, the HPRT mutational spectra in healthy population controls and lung cancer patients were similar, but there was a marginally significant difference (P=0.07) in the distribution of base pair substitutions between smoking controls and patients. These results suggest that (i) general mechanisms of somatic mutagenesis in individuals with possible predisposition to cancer (e.g. nonsmoking lung cancer patients) are not different from those in normal healthy individuals, and (ii) the HPRT gene in T-cells is a useful reporter locus for smoking-associated somatic in vivo mutations occurring early in lung cancer development.
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PMID:Mutational spectra at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in T-lymphocytes of nonsmoking and smoking lung cancer patients. 1086 57

Reverse transcriptase PCR was performed with mRNA obtained from HPRT mutants that had base pair alterations, or small deletions or insertions <20bp. The frequencies of mutants yielding RT-PCR products (mRNA) were the same when human EJ30 cells were irradiated in G(1) or S (3-4-fold higher for 6 than 3Gy). However, the frequencies of mutants that did not yield RT-PCR products were approximately 10-fold higher in the cells irradiated in G(1) than in those irradiated in S. Sequence analysis of RT-PCR products and genomic DNA showed that 40% of the RT-PCR products had splice errors (one or more exons not spliced into mRNA), with 64% of them due to 1-17bp deletions. Also, the distributions of molecular alterations in exons, acceptor sites, and donor sites for mutants having splice errors (observed in this study and reported by others) were similar to those reported for mutants not yielding RT-PCR products (isolated from Russian cosmonauts). In addition, we have found previously that large deletions which eliminated 1-9 exons were preferentially induced in G(1). Therefore, we postulate that the preferential induction of mutants not yielding mRNA is due primarily to splice errors that result from deletions preferentially induced during G(1). These splice errors would then result either in no message or a message that is rapidly degraded.
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PMID:Mutations induced in the HPRT gene by X-irradiation during G(1) or S: analysis of base pair alterations, small deletions, and splice errors. 1108 Jun 56

Previous work from our laboratory has allowed for the subdivision of RNA polymerase II TATA-less promoters into two classes: those that initiate at a single start site (SSS) and those that initiate at multiple start sites (MSS). MSS promoters are defined by the lack of a TATA box and the presence of a transcription initiation window and a downstream MED-1 element (GCTCCC/G) [Ince, T. A., and Scotto, K. W. (1995) J. Biol. Chem. 270, 30249-30252]. Further insight into the mechanisms regulating TATA-less MSS promoters has been hampered by the lack of an in vitro transcription assay in which multiple start sites can be reproduced. In the present study, we describe the development of a versatile in vitro transcription system optimized for the expression of MSS promoters, termed the multiple promoter comparison (MPC) assay. By alteration of assay parameters including template length, cation and nucleotide concentrations, and RNA isolation method, the accurate and robust transcription of two MSS promoters, pgp1 (hamster P-glycoprotein class I homologue) and HPRT (human hypoxanthine phosphoribosyltransferase), was accomplished. Moreover, both TATA-containing and TATA-less single start site promoters were also transcribed in the MPC assay, making this the first general in vitro transcription system for the simultaneous analysis of all three classes of RNA polymerase II genes.
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PMID:Optimization of a versatile in vitro transcription assay for the expression of multiple start site TATA-less promoters. 1166 33

The hpt gene, which encodes hypoxanthine phosphoribosyltransferase, is located next to, but transcribed in the opposite direction to, the gcd gene, which codes for a membrane-bound glucose dehydrogenase, at 3.1 min on the Escherichia coli genome. In their promoter-operator region, putative regulatory elements for integration host factor (IHF) and for the complex comprising 3', 5'-cyclic AMP (cAMP) and its receptor protein (CRP) are present, and they overlap the promoters for hpt and gcd, respectively. The involvement of IHF and cAMP-CRP, as well as the corresponding putative cis-acting elements, in the expression of the two genes was investigated by using lacZ operon fusions. In an adenylate cyclase-deficient strain, addition of cAMP increased the expression of hpt and reduced the expression of gcd. In agreement with this observation, the introduction of mutations into the putative binding element for the cAMP-CRP complex enhanced the expression of gcd. In contrast, mutations introduced into the putative IHF-binding elements increased the level of hpt expression. Similar results were obtained with IHF-defective strains. Thus, the expression of the two genes is regulated in a mutually exclusive manner. Additional experiments with mutations at the -10 sequence of the gcd promoter suggest that the binding of RNA polymerase to the hpt promoter interferes with the interaction of RNA polymerase with the gcd promoter, and vice versa.
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PMID:Differential control by IHF and cAMP of two oppositely oriented genes, hpt and gcd, in Escherichia coli: significance of their partially overlapping regulatory elements. 1181 Feb 62

Gene expression changes are used with increasing frequency to assess the effects of exposure to environmental agents. Housekeeping (Hk) genes are essential in these analyses as internal controls for normalizing expression levels evaluated with Real-Time PCR (RT-PCR). Ideal Hk genes are constitutively expressed, do not respond to external stimuli and exhibit little or no sample-to-sample or run-to-run variation. Previous studies indicate that some commonly used Hk genes including glyceraldehyde 3-phosphate dehydrogenase (GAPDH) and beta-actin have differential expression in various cell lines. Here we examine the expression of 11 Hk genes in four normal human lymphoblastoid cell lines and one T-cell leukemia (Jurkat) cell line following exposure to graded doses of ionizing radiation or to varying ratio concentrations of phytohemagglutinin (PHA) and phorbol myristate acetate (PMA). PHA and PMA are known to have synergistic effects on the expression of some genes and have very different effects from those of radiation. There has been no systematic study performed to ascertain the best control genes for radiation and/or PHA/PMA exposures in lymphoblastoid cells. Using a two-step reverse-transcriptase RT-PCR protocol we show that following radiation doses ranging from 0 to 400 cGy, 18S rRNA, acidic ribosomal protein, beta-actin, cyclophilin, GAPDH, phosphoglycerokinase, beta-2 microglobulin (B2M), beta-glucuronidase, hypoxanthine phosphoribosyltransferase and transferrin receptor showed no significant variation in expression in normal lymphoblastoid cells. In contrast, only 18S rRNA levels were unchanged in Jurkat cells. After PHA/PMA treatment of the same normal cell lines, B2M showed no significant variation and 18S rRNA, GAPDH and transcription binding protein (TBP) were minimally responsive, whereas in Jurkat cells all these genes were unresponsive. While our results suggest that the utility of a particular Hk gene should be determined for each experimental condition, 18S rRNA and B2M appear to be excellent candidates for use as internal controls in RT-PCR in human lymphoblastoid cells because they have the most constant levels of expression across cell lines following exposure to ionizing radiation as well as to PHA/PMA.
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PMID:Evaluation and validation of housekeeping genes in response to ionizing radiation and chemical exposure for normalizing RNA expression in real-time PCR. 1790 13

Comprehensive analyses of gene expression have been carried out by the development of microarrays and deep sequencers. However, it is difficult to obtain comprehensive information on gene expression from a small amount of ribonucleic acid (RNA). Therefore, we investigated the reproducibility and application of T7 RNA polymerase-mediated transcription, adaptor ligation and polymerase chain reaction (PCR) amplification, followed by T7 transcription (TALPAT), an efficient method for amplifying poly (A)-positive RNA, such as messenger RNA (mRNA). When amplified complementary RNA (cRNA) was electrophoresed, a large number of amplified cRNA was detected in the size of 0.2-0.5 kb. This indicates that the region up to 0.2-0.5 kb from the 3' end of the original mRNA was amplified by the TALPAT method. Seven housekeeping genes, glyceraldehyde-3-phosphate dehydrogenase (GAPDH), hydroxymethylbilane synthase (HMBS), hypoxanthine phosphoribosyltransferase (HPRT1), ribosomal protein L13a (RPL13A), succinate dehydrogenase complex (SDHA), TATA box-binding protein (TBP) and ubiquitin C (UBC), showed high reproducibility (square of the correlation coefficient, R2=0.9954), according to scatter plots of Ct values obtained in the real-time PCR analysis of amplified cRNA. In addition, relative expression ratios of amplified cRNA of the seven housekeeping genes were approximately equal to the ratio of the original RNA solution. Furthermore, cRNA was amplified from 20 pg total RNA. In the present study, we confirmed the characteristics of mRNA amplification using the TALPAT method. This method may be applicable to mRNA and poly (A)-positive non-coding RNA amplification, using a small amount of RNA from single, laser-captured and sorted cells, as well as exosomes from serum, urine and body fluids.
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PMID:An efficient method for high-fidelity messenger RNA amplification from a small amount of total RNA. 2464 3

The majority of protein coding genes in vertebrates contain several introns that are removed by the mRNA splicing machinery. Errors during splicing can generate aberrant transcripts and degrade the transmission of genetic information thus contributing to genomic instability and disease. However, estimating the error rate of constitutive splicing is complicated by the process of alternative splicing which can generate multiple alternative transcripts per locus and is particularly active in humans. In order to estimate the error frequency of constitutive mRNA splicing and avoid bias by alternative splicing we have characterized the frequency of splice variants at three loci, HPRT, POLB, and TRPV1 in multiple tissues of six vertebrate species. Our analysis revealed that the frequency of splice variants varied widely among loci, tissues, and species. However, the lowest observed frequency is quite constant among loci and approximately 0.1% aberrant transcripts per intron. Arguably this reflects the "irreducible" error rate of splicing, which consists primarily of the combination of replication errors by RNA polymerase II in splice consensus sequences and spliceosome errors in correctly pairing exons.
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PMID:Estimation of the minimum mRNA splicing error rate in vertebrates. 2891 75


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