Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A mouse-human cell hybrid clone retaining an inactive human X chromosome was treated with 5-azacytidine. Following treatment, expression of the X-linked enzyme markers, hypoxanthine-guanine phosphoribosyltransferase (HPRT), glucose-6-phosphate dehydrogenase (G6PD), phosphoglycerate kinase (PGK), and alpha-galactosidase A (GLA) was examined. Results presented here show that 45 of the 62 clones positive for human HPRT expressed human GLA, while only four of 68 clones negative for human HPRT expressed human GLA. These results strongly suggest that there is coordinate reactivation of GLA and HPRT. Reactivated expression of G6PD was studied in detail. The studies show that 5-azacytidine can induce heritable changes in the inactive human X chromosome resulting in the expression of G6PD activity at a level lower than that from an active human X chromosome.
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PMID:Frequency of reactivation and variability in expression of X-linked enzyme loci. 620 21

For comparative studies we have used the somatic cell hybridization approach to regionally map genes on the mouse X chromosome. Fibroblasts from a mouse with the balanced reciprocal translocation T(XD;16B5)16H were fused with a Chinese hamster cell line (V79/380-6) deficient in activity of the enzyme hypoxanthine phosphoribosyltransferase (HPRT). Interpecific cell hybrids were initially selected for retention of the mouse translocation chromosome carrying the Hprt gene. Subsequently, hybrid clones were counterselected to force segregation of this chromosome. Selected and counterselected hybrid clones were analyzed for their chromosome content by trypsin/Giemsa banding and for expression of the mouse forms of the X-linked enzymes HPRT and alpha-galactosidase (GALA) by isoelectric focusing. The results indicate that the breakpoint on the mouse X chromosome (in band XD) has separated the genes for HPRT (Hprt) and for GALA (Ags). Hprt is proximal to the breakpoint in region Xcen-XD and Ags is distal in region XD-Xter. The gene order in the mouse (centromere-Hprt-Ags) is therefore inverted when compared to the order of the homologous loci on the long arm of the human X (centromere-GALA-HPRT).
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PMID:Comparative gene mapping: order of loci on the X chromosome is different in mice and humans. 625 72

A Sardinian pedigree described in 1964 for having been found to segregate at the X-linked loci for the Xga antigen, G6PD deficiency, Protan and Deutan color blindness, with an instance of recombination between the last two loci, was re-examined with respect to four common X-linked DNA polymorphisms detected by molecular probes homologous to critical subregions of the human X chromosome. Two branches of this pedigree--including the one with the Protan-Deutan recombinant--were found to segregate also for the common BamHI polymorphism identified with the cDNA probe pHPT-2 or the HPRT gene (Xq26). The analysis of the chromosome haplotypes in the male offspring of the phase known penta-heterozygous mother suggests that the probable order of the relevant loci is HPRT, Deutan, G6PD, Protan, Xq telomere. Though we are fully aware of the risks of generalizing the significance of observations made on a single exceptional pedigree, we believe that this report outlines the potential of families of the type described as research tools to resolve the linear order of tightly X-linked loci and to investigate the biology of genetic recombination in humans.
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PMID:Old and new genetics help ordering loci at the telomere of the human X-chromosome long arm. 632 26

As a first step in the development of a multiple-marker, mammalian cell mutagenesis assay system, we have isolated a Chinese hamster ovary (CHO) cell line that is heterozygous for both the adenine phosphoribosyltransferase (aprt) and thymidine kinase (tk) loci. Presumptive aprt+/- heterozygotes with intermediate levels of APRT activity were selected from unmutagenized CHO cell populations on the basis of resistance to low concentrations of the adenine analog, 8-azaadenine. a functional aprt+/ heterozygote with approximately 50% wild-type APRT activity was subsequently used to derive sublines that were also heterozygous for the tk locus. Biochemical and genetic characterization of one such subline, CHO-AT3-2, indicated that it was indeed heterozygous at both the aprt and tk loci. CHO-AT3-2 cells permitted single-step selection of mutants resistant for 8-azaadenine or 5-fluorodeoxyuridine, allowing quantitation and direct comparison of mutation induction at the autosomal aprt or tk loci, as well as in the gene involved in ouabain resistance or at the X-linked, hypoxanthine--guanine phosphoribosyltransferase (hgprt) locus. Significant dose-dependent increases in mutation frequency were observed for all 4 genetic markers after treatment of CHO-AT3-2 cells with ethyl methanesulfonate.
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PMID:Mutagenicity testing in mammalian cells. I. Derivation of a Chinese hamster ovary cell line heterozygous for the adenine phosphoribosyltransferase and thymidine kinase loci. 644 63

The frequencies of 6-thioguanine-resistant primary clones from the kidneys and skeletal muscles of aging male cohorts of two F1 hybrid strains of Mus musculus varied from 0.59 to 10.96 X 10(-5) and did not increase as a function of donor age (up to 40 months). Resistant clones were shown to be severely deficient in the activity of hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8). These deficiencies presumably resulted from molecular alterations at this X-linked locus, including point mutations. No alterations of the X-chromosome were observed at the level of the light microscope. These results are inconsistent with predictions of the intrinsic mutagenesis and protein synthesis error catastrophe theories of aging. They do not rule out, however, somatic mutational theories that invoke comparatively large-scale chromosomal lesions, many of which would be likely to be lethal at the cellular level.
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PMID:A cloning assay for 6-thioguanine resistance provides evidence against certain somatic mutational theories of aging. 649 Jul 30

The mechanism of X-chromosome inactivation has been investigated recently using DNA-mediated transformation of the X-linked hypoxanthine phosphoribosyl transferase (hprt) locus. Several experiments indicate that inactive X-chromosomal DNA does not function in HPRT transformation. Liskay and Evans used DNA from hamster or mouse cells which had an hprt- allele on the active X chromosome and an hprt+ allele on the inactive X chromosome. We and others used rodent-human hybrid cell lines which had an hprt+ allele on the inactive human X chromosome alone. DNA from all of these cells failed to transform HPRT- recipients. Recently, Chapman et al. have shown that inactive X-chromosome DNA from several tissues of adult female mice is strikingly inefficient in genetic transformation for the hprt gene. On the other hand, de Jonge et al., using simian virus 40 (SV40)-transformed fibroblasts from a human heterozygous for an HPRT deficiency, observed HPRT transformation regardless of whether the hprt+ allele was on the active or the inactive X chromosome of the donor cells. We have done an experiment similar to that of deJonge et al., and report here results which clearly indicate that DNA from the inactive X chromosome functions very poorly in HPRT transformation, thus supporting the original interpretation of Liskay and Evans that inactive X-chromosomal DNA is structurally modified.
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PMID:Comparison of transformation efficiency of human active and inactive X-chromosomal DNA. 668 66

We tested the premise that monoclonal antibodies to either intracellular or membrane antigens can greatly facilitate the construction of linkage maps of mammals whose chromosomes can be introduced into rodent cells. Monoclonal antibodies against antigenic determinants of cat lymphocytes and fibroblasts were used to analyze feline antigen expression in cat-mouse somatic cell hybrid populations selected to contain the X-linked feline HPRT locus. The frequency of antigen expression as measured by fixed cell immunofluorescence (IF) assays, varied greatly within hybrid populations for all but the antigen designated as VP382. Its frequent presence in hybrid cells led to the prediction, confirmed by 8-azaguanine selection experiments, that its expression was controlled by a gene, or genes, on the feline X chromosome. The antigens identified by the rest of the antibodies segregated independently of each other in cat-mouse somatic cell hybrids and their expression appeared to be controlled by autosomal genes of the cat.
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PMID:Detection of a feline X-linked antigen in somatic cell hybrids. Single-cell analysis using monoclonal antibodies. 668 31

This paper describes genetic mapping studies with several respiration-deficient mutants of Chinese hamster fibroblasts which have a defect in complex I of the electron transport chain (NADH-coenzyme Q reductase). The mutations associated with two different complementation groups map on the X chromosome. In two cases (G14 and G20) karyotypic and isozyme analyses in hybrids have shown that a gene(s) on the mouse X chromosome complements the mutation(s) in the hamster cell mutant(s). A cosegregation analysis in hybrid cells has shown the corresponding genes to be linked to the HPRT genes (hamster-mouse hybrids of G14, and hamster-hamster hybrids for G14 and G20). By the same method the defective gene in a third mutant (G4) was also shown to be X-linked. A mutation representing a third complementation group (G11) was shown to be on an autosomal gene. These results provide an explanation for our observation that cells with recessive mutations in complementation groups I and II can be selected at relatively high frequencies.
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PMID:Mapping of the genes of some components of the electron transport chain (complex I) on the X chromosome of mammals. 681 42

Somatic cell selective techniques and hybridization analyses with a cloned cDNA probe were used to isolate and identify Chinese hamster cell lines in which the X-linked gene for hypoxanthine-guanine phosphoribosyltransferase (HGPRT) has been altered. Two of 19 HGPRT-deficient mutants selected were found to have major DNA deletions affecting the HGPRT locus. Cytogenetic studies revealed that the X chromosome of each deletion mutant had undergone a translocation event, whereas those from the remaining 17 mutants were normal. Phenotypic revertants of the thermosensitive HGPRT mutant RJK526 were isolated, and amplification of the mutant allele was shown to be the predominant mechanism of reversion. Comparisons of restriction enzyme fragments of DNA from deletion versus amplification strains identified two regions of the Chinese hamster genome that contained homology to the cDNA probe. One was shown to be much larger than the 1,600-nucleotide mRNA for HGPRT and to be comprised of linked fragments that contained the functional HGPRT gene. The second was neither transcribed nor tightly linked to the functional gene. These initial studies of HGPRT alterations at the level of DNA thus identified molecular mechanisms of phenotypic variation.
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PMID:Deletion and amplification of the HGPRT locus in Chinese hamster cells. 687 39

We report a unique and complex karyotypic rearrangement involving chromosomes X, 3, 7, and 21. Blood cells and fibroblasts from the proband do not express the maternal allele for glucose-6-phosphate dehydrogenase (G6PD), providing biochemical evidence for nonrandom expression of X-linked genes in balanced X-autosome translocations. The break point on the X chromosome, at the junction of Xq27-Xq28, separates the loci for hypoxanthine phosphoribosyltransferase (HPRT) and G6PD. Studies of mouse-human hybrids derived from the proband's cells indicate that G6PD, at q28, is clearly distal to all other X loci now assigned. From these and previous studies, we can localize HPRT to that segment between Xq26 and Xq27. The studies also provide further evidence for the stability of the inactive X phenotype in hybrid cells.
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PMID:Localization of loci for hypoxanthine phosphoribosyltransferase and glucose-6-phosphate dehydrogenase and biochemical evidence of nonrandom X chromosome expression from studies of a human X-autosome translocation. 693 Jun 69


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