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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)
In this report we test the hypothesis that a cis-acting methylation center can induce epigenetic gene inactivation. The cis-acting element used is an 838-base pair fragment that was shown previously to provide a de novo methylation signal (Mummaneni, P., Bishop, P. L., and Turker, M.S. (1993) J. Biol. Chem. 268, 552-558). Its normal location is approximately 1.3 kilobase pairs upstream of the mouse
aprt
(
adenine phosphoribosyltransferase
) gene. To determine if the methylation center could induce inactivation of the
aprt
gene, a plasmid construct was created in which the methylation center was moved next to the
aprt
promoter. Transfection experiments demonstrated inactivation of the
aprt
gene on the hybrid construct. The inactivation event was shown with a Southern blot analysis to correlate with hypermethylation and to be reversible by treatment with 2-deoxy-5'-azacytidine, a demethylating agent. Interestingly, gene inactivation induced by the methylation center required truncation of the
aprt
promoter. The results demonstrate that epigenetic gene inactivation can be induced by a DNA methylation center.
...
PMID:Epigenetic gene inactivation induced by a cis-acting methylation center. 782 12
Mutagenesis at the
aprt
locus in TK6 human lymphoblasts has been found to occur at an unusually high rate (1.2 x 10(-9)) for a homozygous diploid locus. Evaluation of linked microsatellite polymorphisms demonstrated that loss of heterozygosity (LOH) accompanies conventional intragenic sequence alterations in each
APRT
- mutant. LOH occurred without allele preference. The extent of loss was highly uniform, ranging from 16q12 to 16qter in 36/38
APRT
- mutants. Fluorescence in situ hybridization (FISH), used in conjunction with microsatellite analysis, demonstrated that the loss was not attributable to physical deletion, nondisjunction, or nondisjunction with reduplication of the remaining chromosome. LOH thus appears to be recombinationally mediated. FISH analysis also detected translocations affecting chromosome 16 in 4/20
APRT
- mutants examined.
APRT
- mutants appear to arise as part of a genetic instability phenomenon since three distinct genetic alterations affecting chromosome 16 are recovered in single clones at a detectable rate. These events may be mechanistically related to early events in gene amplification.
...
PMID:Genetic instability on chromosome 16 in a human B lymphoblastoid cell line. 790 33
A 2.1-kilobase pair region located just upstream of the mouse
aprt
(
adenine phosphoribosyltransferase
) gene has a methylation pattern that is conserved in mouse tissues and culture cell lines. This upstream region includes four HpaII/MspI sites. Two of these sites are fully methylated, one is partially methylated, and one is unmethylated. Transfection experiments have demonstrated that the conserved methylation pattern can be reproduced in a mouse embryonal carcinoma stem cell line via de novo methylation (Turker, M.S., Mummaneni, P., and Bishop, P.L. (1991) Somat. Cell Mol. Genet. 17, 151-157). To examine the molecular basis of the conserved methylation pattern, a plasmid-based deletion analysis was conducted by removing and rearranging specific portions of the upstream region. Unmethylated versions of these plasmid constructs were then transfected into the mouse stem cell line and the methylation status of the remaining HpaII/MspI sites determined with a Southern blot analysis. By using this approach, a cis-acting sequence within the upstream region of approximately 0.8 kilobase pairs was identified which appears responsible for the conserved methylation pattern. We use the term "de novo methylation center" to denote this sequence. Based on the results obtained, a model is offered to explain the formation of the conserved methylation pattern in the upstream region.
...
PMID:A cis-acting element accounts for a conserved methylation pattern upstream of the mouse adenine phosphoribosyltransferase gene. 841 60
We have sequenced homologous DNA fragments of 2.7 and 2.8 kbp derived from the closely related mouse species Mus musculus domesticus (M. domesticus) and Mus musculus musculus (M. musculus), respectively. These two species diverged approximately 1 million years ago. Each DNA fragment contains 1.35 kbp of the 3' end of the constitutively expressed 2.2-kbp
aprt
(
adenine phosphoribosyltransferase
) gene and a similarly sized nontranscribed region downstream of the
aprt
gene. The
aprt
gene region contains protein coding sequences (0.35 kbp), intronic sequences (0.75 kbp), and a 3' nontranslated sequence (0.25 kbp). Both the M. domesticus and M. musculus downstream regions share three partial copies of the B1 repetitive element with the M. musculus downstream region containing an additional complete copy of this element. A comparison of the 2.7- and 2.8-kbp DNA fragments revealed a total of 63 molecular alterations (i.e., mutations) that were approximately fourfold more abundant in the nontranscribed downstream region than in the transcribed
aprt
gene. Of the 11 mutations observed in the transcribed region, 7 were found in introns, 3 in the 3' untranslated sequence, and 1 was a synonymous change in an exon. A comparison of the human and M. domesticus
aprt
genes has previously revealed no homology in either the intronic or 3' nontranslated regions with the exception of a 26-bp sequence in intron 3 and sequences at the exon/intron boundaries necessary for correct mRNA splicing (Broderick et al., Proc. Natl. Acad. Sci. USA, 84:3349, 1987). Therefore, there does not appear to be selective pressure for sequences within these regions. We conclude that there is a lower rate of accumulation of "silent" mutations in the transcribed mouse
aprt
gene than in a contiguous nontranscribed downstream region. A possible molecular mechanism involving preferential DNA repair for the transcribed region is discussed.
...
PMID:Region-specific rates of molecular evolution: a fourfold reduction in the rate of accumulation of "silent" mutations in transcribed versus nontranscribed regions of homologous DNA fragments derived from two closely related mouse species. 843 77
To study the involvement of DNA topoisomerases in recombination in mammalian cells, we used gene transfer assays to examine the effects of DNA topoisomerase inhibitors on nonhomologous (illegitimate) and homologous recombination. The assays were performed by transfecting
adenine phosphoribosyltransferase
-deficient (APRT-) CHO cells with plasmids carrying the wild-type or mutant
aprt
genes and by treating the cells with the inhibitors, followed by subsequent cultivation to select for
APRT
-positive (APRT+) colonies. Treatments with DNA topoisomerase II inhibitors such as VP-16, VM-26, ICRF-193 resulted in a 3- to 5-fold stimulation of integration of both closed-circular and linearized plasmids carrying the wild-type
aprt
gene into the recipient genome through nonhomologous recombination. The same treatments also increased 6- to 9-fold and 3-fold the number of APRT+ recombinant colonies that were generated by cotransfecting two closed-circular plasmids with nonoverlapping defective
aprt
genes and their linearized equivalents, respectively. However, this cotransfection assay involved intrinsically nonhomologous recombination processes; normalization of the frequencies by dividing them with those of the above nonhomologous recombination revealed 2-fold enhancement of homologous recombination events between the circular mutant genes but not between the linear ones. In contrast, DNA topoisomerase I inhibitor, camptothecin, showed no such effect on either recombination. From these results, we discuss the function of DNA topoisomerases on recombination in mammalian cells.
...
PMID:Effects of DNA topoisomerase inhibitors on nonhomologous and homologous recombination in mammalian cells. 859 37
The TK6 human B lymphoblastoid cell line contains two easily and widely used selectable markers: the X-linked, hemizygous hprt locus, and the heterozygous tk locus on chromosome 17q. In this study, rare
APRT
heterozygotes were directly isolated from the TK6 population by clonal selection in cell culture medium supplemented with 5 micrograms/ml of 8-azaadenine. One of nine isolated heterozygotes, AZH1, was characterized extensively.
APRT
- mutants can be recovered from AZH1 at a mutation rate of 1.5 x 10(-7), similar to rates previously determined for the selection of TK- and HPRT- mutants from TK6. A unique sequence alteration was identified in the non-functional
aprt
allele at position 1930. A G:C to A:T transition at this site alters the canonical AG splice acceptor dinucleotide in exon 3, and also results in the destruction of a Stul recognition sequence. This polymorphism was used to analyze loss of heterozygosity in a set of 32 spontaneous
APRT
- mutants by restriction analysis following PCR amplification. Analysis of flanking microsatellite dinucleotide polymorphisms demonstrated that LOH occurring in spontaneous
APRT
- mutants is nearly always a multi-locus event extending at least 7.5 cM along chromosome 16q. This pattern of LOH among
APRT
- mutants differs from extensive LOH in spontaneous, normal-growth TK- mutants derived from TK6 cells (p < 0.0001), and suggests that cis-acting factors may be equally important in shaping the mutational spectrum as trans-acting factors such as cellular apoptotic capacity.
...
PMID:Isolation of an APRT heterozygote from TK6 human lymphoblasts: predominance of multi-locus loss of heterozygosity among spontaneous APRT-mutants. 921 76
Several alkylanilines with structures more complex than toluidines have been associated epidemiologically with human cancer. Their mechanism of action remains largely undetermined, and there is no reported evidence that it replicates that of multicyclic aromatic amines even though the principal metabolic pathways of P450-mediated hydroxylation and phase II conjugation are very similar. As a means to elucidate their mechanisms of action, lethality and mutagenicity in the
adenine phosphoribosyltransferase
(
aprt
(+/-)) gene induced in several Chinese hamster ovary cell types by 2,6- and 3,5-dimethylaniline (2,6-DMA, 3,5-DMA) and their N- and ring-hydroxyl derivatives (N-OH-2,6-DMA, N-OH-3,5-DMA, 2,6-DMAP, 3,5-DMAP) were assessed. Dose-response relationships were determined in the parental AA8 cell line, its repair-deficient UV5 subclone and other repair-deficient 5P3NAT2 or -proficient 5P3NAT2R9 subclones engineered to express mouse cytochrome P4501A2 (CYP1A2) and human N-acetyltransferase (NAT2), and also in AS52 cells harboring the bacterial guanine-hypoxanthine phosphoribosyltransferase (gpt) gene. Mutations in the gpt gene of AS52 cells were characterized and found to be dominated by G:C to A:T and A:T to G:C transitions. Separately, treatment of AS52 cells with N-OH-2,6-DMA, N-OH-3,5-DMA, 2,6-DMAP, 3,5-DMAP, and 3,5-DMAP led to intracellular production of reactive oxygen species (ROS) for at least 24h after removal of the mutagens in every case. Using the comet assay, DNA strand breaks were observed in a dose-dependent manner in AS52 cells when treated with each of the four N-OH-2,6-DMA, N-OH-3,5-DMA, 2,6-DMAP, and 3,5-DMAP derivatives. Comparative evaluation of the results indicates that the principal mechanism of mutagenic action is likely to be through redox cycling of intracellularly bound aminophenol/quinone imine structures to generate ROS rather than through formation of covalent DNA adducts.
...
PMID:Genotoxicity of 2,6- and 3,5-dimethylaniline in cultured mammalian cells: the role of reactive oxygen species. 2283 70
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