EC:2.4.2.7 - FACTA Search

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Query: EC:2.4.2.7 (adenine phosphoribosyltransferase)
692 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A functional mouse adenine phosphoribosyltransferase (APRT) gene was identified and cloned by screening a mouse sperm genomic DNA library in lambda Charon 4A. The probe utilized for screening was a restriction fragment encoding much of the hamster APRT gene. Six recombinants that hybridized with the probe were identified, and after digestion with restriction enzymes EcoRI and PvuII revealed three different patterns of digestion for each enzyme. Of the six recombinants, five representing two of the restriction patterns possessed transforming activity. A sixth recombinant, which has a unique restriction pattern, lacks transforming activity but hybridizes well with hamster APRT coding sequences and is a possible candidate for a pseudogene. We used three criteria for conclusively identifying the mouse APRT genes. (1) DNA from the recombinant lambda phage hybridizes with DNA encoding hamster APRT. (2) The recombinant lambda phages and their DNAs transform mouse, hamster and human APRT- cells to the APRT+ phenotype. (3) The hamster and human transformants display APRT activity that migrates with a mobility characteristic of mouse APRT and not of hamster or human. A 3.1-kb EcoRI-SphI restriction fragment which retains transforming activity has been subcloned into the plasmid pBR328. Comparison of restriction enzyme sites with those contained in a mouse APRT cDNA, coupled with loss of transforming activity after enzyme digestion, indicates that the mouse APRT gene is larger than 1.8 kb and contains at least three introns.
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PMID:Cloning and expression of a mouse adenine phosphoribosyltransferase gene. 630 22

The CHO-AT3-2 Chinese hamster ovary cell line is functionally hemizygous for the adenine phosphoribosyltransferase (APRT; EC 2.4.2.7) locus. Class 1 APRT +/- heterozygotes, such as CHO-AT3-2, can be isolated at high spontaneous frequencies from wild-type CHO cell populations. Simon et al. [Simon, A. E., Taylor, M. W., Bradley, W. E. C. & Thompson, L. (1982) Mol. Cell. Biol. 2, 1126-1133] have proposed that a high-frequency event that inactivates one APRT allele might be responsible for both the spontaneous generation of class 1 APRT +/- heterozygotes and the high-frequency occurrence of APRT- mutants in class 2 APRT +/- heterozygote populations. This event appears to occur at only one of the two APRT alleles. To investigate the nature of this high-frequency event, and to determine the genetic basis for functional hemizygosity of the APRT locus in CHO-AT3-2 cells, we have mapped the APRT locus by using CHO-AT3-2-mouse somatic cell hybrids. Our data confirm that CHO-AT3-2 cells have a single functional APRT allele, which is located on the Z7 chromosome. Karyotypic analysis of CHO-AT3-2 revealed an interstitial deletion on the long arm of the Z4 chromosome, in the very region where the other APRT allele should be located. To determine whether the Z4q interstitial deletion had resulted in physical loss of the APRT gene, DNA from CHO-AT3-2-mouse cell hybrids that had either lost or retained the Z4q- chromosome was analyzed for the presence of CHO APRT coding sequences. Our data suggest that allele-specific high-frequency structural gene deletion events involving the long arm of chromosome Z4 are responsible for the spontaneous generation of functional hemizygosity at the APRT locus in CHO cells.
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PMID:High-frequency structural gene deletion as the basis for functional hemizygosity of the adenine phosphoribosyltransferase locus in Chinese hamster ovary cells. 631 Jun 7

Mapping of the simian virus 40 (SV40) late promoter was carried out in the absence of the viral early protein, large tumor (T) antigen, and replication of the viral DNA template. SV40 late control region DNA fragments, containing specific deletions, were cloned directly upstream from the coding region of the herpes simplex virus-1 (HSV-1) thymidine kinase (TK; ATP:thymidine 5'-phosphotransferase, EC 2.7.1.21) gene (tk). The promoter activities of the fragments were determined by measuring the tk transformation frequencies of the chimeric tk constructs in mouse L TK- APRT- (adenine phosphoribosyltransferase-negative) and human 143B TK- cell lines. The following results were obtained. (i) The SV40 control region functions with equal efficiencies in the early and late promoter orientations. (ii) A major late control element has been localized within the G+C-rich 21-base-pair (bp) repeat. Thus, in conjunction with our earlier results, the 21-bp repeat is a bidirectional promoter element functioning as a major component of both the early and late promoters and is an element that enhances the replication efficiency of SV40 DNA. (iii) Minor late promoters have been localized within the minimal replication origin and the 72-bp repeat. (iv) The minimal replication origin is not per se a constituent of the major late promoter; however, both the minimal replication origin and the 21-bp repeat are required for obtaining high levels of late gene expression observed at late times after infection by SV40. (v) The 72-bp repeat exerts a 4- to 5-fold enhancement of late promoter expression.
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PMID:Mapping of the late promoter of simian virus 40. 632 Jan 66

Evidence for a two-step model to explain the high-frequency expression of the recessive phenotype at the autosomal adenine phosphoribosyltransferase (APRT; EC 2.4.2.7) locus in Chinese hamster ovary (CHO) cells was given by Simon et al. [Simon, A. E., Taylor, M. W., Bradley, W. E. C. & Thompson, L. (1982) Mol. Cell. Biol. 2, 1126-1133]. This model proposed a high-frequency event, leading to allelic inactivation or a loss of gene function, and a low-frequency event, causing a structural alteration of the APRT protein. Either event could occur first, resulting in two classes of heterozygotes. We have analyzed the low-frequency event that gave rise to the class 2 aprt heterozygote D416 and the high-frequency event that led to APRT- cells derived from D416. Genomic Southern blots of Msp I- or Hpa II-digested DNA from wild-type CHO, aprt heterozygote D416, and two APRT- cell lines derived from D416 indicate a loss of a specific Msp I/Hpa II recognition sequence at one aprt locus in the heterozygote that correlates with the production of the electrophoretically altered APRT protein found in D416. The APRT- mutants are homozygous for the loss of this Msp I/Hpa II site. By using an additional CHO gene as an internal control, it was determined that the APRT- mutants contain only a single copy of the altered aprt gene. Thus, the high-frequency event that produces APRT- mutants derived from D416 is not an inactivation event but rather a deletion of the wild-type aprt gene.
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PMID:High-frequency mutation at the adenine phosphoribosyltransferase locus in Chinese hamster ovary cells due to deletion of the gene. 657 71

Acyclovir (ACV), an antiviral drug active in the treatment of oral and genital Herpes infections, has been evaluated for mutagenic and carcinogenic potential in a battery of in vitro and in vivo short-term assays. Negative results were obtained in the following in vitro tests: Ames Salmonella, plate incorporation and preincubation modification assays; E. coli polA+/polA- DNA repair; yeast (S. cerevisiae D4) gene conversion; Chinese hamster ovary cells (HGPRT, APRT loci and ouabain-resistance marker); L5178Y mouse lymphoma cells (HGPRT locus and ouabain-resistance marker); and C3H/10T1/2 mouse fibroblast neoplastic transformation assay. All except the last assay were performed in the presence and absence of an exogenous metabolic activation system. ACV was positive at high concentrations X exposure times in the absence of exogenous metabolic activation in the following in vitro systems and at the indicated concentrations: BALB/c-3T3 neoplastic transformation (50 micrograms/mL, 72 h exposure); human lymphocyte cytogenetics (250-500 micrograms/mL, 48 h exposure); and L5178Y mouse lymphoma cells (TK locus, 400-2400 micrograms/mL, 4 h exposure; predominantly small colony mutants of chromosomal origin produced). No effects were seen in vivo (mouse dominant lethal assay; rat and Chinese hamster bone marrow cytogenetics) at up to maximum tolerated doses (MTD). An unusual clastogenic effect was seen in Chinese hamsters at 5 times the MTD. Overall, positive effects were seen only at either high concentrations (greater than or equal to 250 micrograms/mL in vitro or plasma levels) or prolonged exposure (72 hr in the BALB/c-3T3 neoplastic transformation assay). These studies support the view that ACV is a chromosomal mutagen, i.e., one which causes multi-locus damage but not single gene effects. The significance of these results for the genetic risk of ACV to man is discussed.
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PMID:Preclinical toxicology studies with acyclovir: genetic toxicity tests. 666 1

The effect of DNA methylation on the expression of the hamster adenine phosphoribosyltransferase (aprt) gene in mouse cells has been examined. This gene was methylated in vitro at all of its C-C-G-G sites by using Hpa II methylase and was inserted into mouse Ltk- aprt- L cells by cotransformation, with the herpes virus thymidine kinase gene as a selectable vector. Whereas clones carrying unmethylated aprt sequences were found to have an aprt+ phenotype as shown by their ability to grow in azaserine-containing medium, almost all clones carrying methylated aprt sequences were shown to be phenotypically aprt-. Blot hybridization analysis demonstrated that both the methylated and unmethylated aprt sequences were integrated into the cellular genome to the same extent and that the in vitro modification was stably maintained in these cells for many generations. When clones containing methylated aprt genes were exposed to conditions that select for the expression of the aprt gene, a low frequency of reversion to the aprt+ phenotype was observed. In all of these clones, this reversion was accompanied by reorganization and undermethylation of the aprt sequences. These results show that the expression of certain genes may be inhibited by site-specific methylation of these sequences and suggest that methylation may play a direct role in the regulation of gene expression.
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PMID:In vitro methylation of the hamster adenine phosphoribosyltransferase gene inhibits its expression in mouse L cells. 695 87

Human DNA purified from HeLa cells and from three strains of skin fibroblasts was precipitated with calcium phosphate and added to mouse cells that were deficient in adenine phosphoribosyltransferase (APRT) and hypoxanthine phosphoribosyltransferase (HPRT). Selection for cells possessing either of the phosphoribosyltransferases was imposed by blocking de novo synthesis of purine nucleotides with azaserine in a medium supplemented with adenine and hypoxanthine. The frequency of colony formation after selection was 1.7 x 10(-7)-3.3 x 10(-6). Excepting some azaserine-resistant colonies that appeared only in the first experiment and infrequent revertants expressing moust APRT, all characterized clones expressed the human forms of APRT or HPRT according to the criteria of specific immunoprecipitation and electrophoretic mobility. The frequency of transfer of the human APRT gene was much greater than that of HPRT. Transfer efficiency was not significantly reduced when HeLa DNA was sheared to 6.5-13.5 kb size or when the donor DNA was isolated from a transferent that expressed human APRT.
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PMID:Expression of human genes for adenine phosphoribosyltransferase and hypoxanthine-guanine phosphoribosyltransferase after genetic transformation of mouse cells with purified human DNA. 699 64

Resistance to adenine analogs such as 2,6-diaminopurine occurs at a rate of approximately 10(-3) per cell per generation in mouse L cells. This resistance is associated with a loss of detectable adenine phosphoribosyltransferase activity. Other genetic loci in L cells have the expected mutation frequency (approximately 10(-6)). Transformation of L cell mutants with Chinese hamster ovary cell DNA results in transformants with adenine phosphoribosyltransferase activity characteristic of Chinese hamster ovary cells. No activation of the mouse gene occurs on hybridization with human fibroblasts. That this high frequency event is the result of mutation rather than an epigenetic event is supported by antigenic and reversion studies of the 2,6-diaminopurine-resistant clones. These results are consistent with either a mutational hot-spot, a locus specific mutator gene, or a site of integration of an insertion sequence.
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PMID:Genetic instability at the adenine phosphoribosyltransferase locus in mouse L cells. 711 Jan 33

Transformation, or DNA-mediated gene transfer, permits the introduction of new genetic information into a cell and frequently results in a change in phenotype. The transforming DNA is ultimately integrated into a recipient cell chromosome. No unique chromosomal locations are apparent, different lines contain the transforming DNA on different chromosomes. Expression of transformed genes frequently results in the synthesis of new polypeptide products which restore appropriate mutant cells to the wild-type phenotype. Thus transformation provides an in vivo assay for the functional role of DNA sequence organization about specific genes. Transforming genes coding for selectable functions, such as adenine phosphoribosyltransferase or thymidine kinase, have now been isolated by utilizing transformation in concert with molecular cloning. Finally, transformation may provide a general approach to the analysis of complex heritable phenotypes by permitting the distinction between phenotypic changes without concomitant changes in DNA and functional genetic rearrangements.
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PMID:Altering genotype and phenotype by DNA-mediated gene transfer. 741 20

To investigate the nature of DNA sequence rearrangements occurring in a highly malignant human colorectal carcinoma cell line (SW620) exhibiting a high level of chromosome instability, we characterized the molecular basis of deletions eliminating APRT. Deletions in SW620 resembled those in a variety of cell lines. They were joined at regions of little similarity through mono-, di-, or trinucleotide repeats. Breakpoint regions were rich in di- and trinucleotide repeats that might constitute pause sites for the replication complex. Deletions ranged in size from 1.8 to approximately 70 kb and were "directional" in that they eliminated sequences upstream of APRT but not downstream. Analysis of downstream sequences suggested that this pattern of deletion was due to the presence of another gene. Transcripts from these two genes converged but did not overlap. Given that this gene was not deleted in any hamster or human mutants, it appears essential for cell viability. This organization has important consequences for the pattern of mutation and repair of this region.
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PMID:Deletion mapping of highly conserved transcribed sequence downstream from APRT locus. 748 30

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