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)

Human nuclear poly(ADP-ribosyl) transferase (ADPRT) protein content in cells suggests that ADPRT expression is stringently controlled. Analysis of the 3 kb promoter sequence, which is required for high level expression, revealed an extraordinary architecture: several Sp1 motifs are located in the vicinity of the first exon but the closest CCAAT/TATA boxes are several hundred basepairs away. Four Alu type repetitive sequences are in the promoter structure. Within these Alu sequences there exist inverted repeat elements, which could form two mutually exclusive types of DNA tertiary structure consisting of quadruplex DNA and loops resembling rackets. Thereby, a CCAAT/TATA element would be moved to spatial vicinity of the Sp1 site activating the promoter. Deletion analysis showed the functional significance of these racket elements. We also obtained evidence for DNA racket structures when we studied mutational mechanisms in a human adenine phosphoribosyltransferase (APRT) deficient patient. One of his alleles harbours a novel complex type of deletion/insertion mutation. Based on several highly informative sequence features in this genomic region a model is proposed for the generation of this unusual type of mutation involving two steps: an initial targeting step and a subsequent complex rearrangement. This process includes the formation of a DNA racket structure, which resembles that of the ADPRT promoter. Thus we conclude that DNA racket structures seem to be of general importance in nature.
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PMID:Regulation of the human poly(ADP-ribosyl) transferase promoter via alternative DNA racket structures. 757 33

A series of clones displaying a high-frequency "switching" phenotype for expression of the adenine phosphoribosyltransferase (aprt) gene was previously isolated from the P19 mouse embryonal carcinoma stem cell line. In a subset of these clones, loss of aprt expression was correlated with increased DNA methylation, a nuclease-resistant chromatin conformation, and loss of RNA transcription; reactivation was associated with a reversal of these parameters. In this report, the role of DNA methylation in transcriptional inactivation was studied in the H22D3 clone. The cells of this clone contain a single inactive aprt allele that is methylated. Mass cultures of H22D3 were treated with 2-deoxy-5'-azacytidine (5aCdr) and found to reactivate aprt at frequencies ranging from 60 to 90%. Treated cultures were then assayed over time for aprt mRNA, chromatin conformation, and DNA methylation of the aprt gene. These studies demonstrated that 5aCdr treatment resulted in promoter region-specific hemidemethylation and chromatin relaxation starting at 12 h. This was followed by the appearance of RNA transcripts at 18 h and increasing levels of APRT enzymatic activity at 36 h after treatment. Complete demethylation occurred significantly later. Experiments in which cells were treated with 5aCdr for varying periods of time demonstrated that a single round of analog incorporation was sufficient for transcriptional reactivation of aprt in H22D3.
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PMID:Hemidemethylation is sufficient for chromatin relaxation and transcriptional activation of methylated aprt gene in mouse P19 embryonal carcinoma cell line. 768 84

We analyzed DNA from six Japanese patients with adenine phosphoribosyltransferase (APRT) deficiency who developed 2,8-dihydroxyadenine (DHA) urolithiasis. These six patients were selected for DNA analysis since they were expected to possess allele(s) with mutations other than two known abnormalities, i.e. a missense mutation at codon 136 (APRT*J allele) and a nonsense mutation at codon 98. In three of the six patients an insert of four bases CCGA was detected in exon 3 by sequencing clones obtained from the genomic DNA. In two of the three patients, both of the two alleles had this mutation (homozygotes) while the other patient had the APRT*J allele in addition to the allele with the 4-base insertion. To search for mutations other than the above three defined germline mutations, we amplified a genomic DNA segment including all the 5 exons of the APRT gene by PCR and cloned it into a plasmid. After selecting recombinant plasmids containing neither of the three defined mutations, we sequenced the entire APRT exons and introns. Abnormalities were found in neither the coding regions nor the exon-intron junctions. Disease-related mutations in these mutant alleles may exist in either 5' or 3' flanking sequences and remain to be elucidated.
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PMID:Detection of the three common mutations of adeninephosphoribosyltransferase deficiency among Japanese. 775 7

Specific recognition of duplex DNA by a single-stranded oligonucleotide via the formation of triplex DNA is a rational approach for targeting specific regions of a genome. By screening a number of potential target sites for triple helix formation within mammalian genes that allow genetic selection in cell culture, we have identified a site within intron 1 of the hamster adenine phosphoribosyltransferase (APRT) gene that specifically binds a triplex-forming oligodeoxyribonucleotide (TFO) with high affinity. Under optimal conditions for triplex formation, the equilibrium dissociation constant is in the nanomolar range (Kd = 7 x 10(-10) M). This high-affinity binding is very specific, as a 10(5)-fold excess of genomic DNA reduced triplex formation less than 10-fold, and within a 6928-bp plasmid bearing the APRT gene, only restriction fragments containing the intron 1 site were found to bind the TFO. Results of DNase I protection assays were consistent with the TFO binding in an antiparallel orientation via reverse Hoogsteen hydrogen bonds in the major groove of the duplex. We have examined the kinetics of triplex formation as well as the effects of ionic composition and chemical modifications of the TFO on triplex formation. While divalent cations were not required for triplex formation, Mg2+ stabilized the triplex apparently through inhibition of TFO dissociation, with a mean bound lifetime of > 17 h for the triplex at Mg2+ concentrations above 5 mM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High-affinity triple helix formation by synthetic oligonucleotides at a site within a selectable mammalian gene. 776 35

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.
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PMID:Epigenetic gene inactivation induced by a cis-acting methylation center. 782 12

Clone B is a CHO cell line that shows a moderate mutator phenotype as a consequence of a defect in mismatch recognition. To identify the classes of mutation that accumulate spontaneously in a functional gene, we isolated and sequenced 54 clone B spontaneous mutants at the adenine phosphoribosyltransferase gene. This spectrum was compared to 42 mutants collected in the parental cells. Rates of AT-->TA transversions and frameshifts were strikingly increased in clone B (almost eight- and sixfold, respectively). Minor increases were also observed for GC-->TA transversions and GC-->AT transition rates. Frameshifts occurred in repeated sequences, and a large proportion were losses of 2 bases occurring in dinucleotide runs of a type similar to microsatellite sequences. AT-->TA transversions clustered in regions of secondary structure and their formation might be explained by slippage-mediated mechanisms. These data indicate that an important function of mismatch recognition is in repair of extrahelical bases generated by misalignment during DNA replication.
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PMID:Spontaneous mutations at aprt locus in a mammalian cell line defective in mismatch recognition. 782 63

It is well established that exposure to solar UVB (290-320 nm) gives rise to mutations in oncogenes and tumor suppressor genes that initiate the molecular cascade toward skin cancer. Although UVA (320-400 nm) has also been implicated in multistage photocarcinogenesis, its potential contribution to sunlight mutagenesis remains poorly characterized. We have determined the DNA sequence specificity of mutations induced by UVB (lambda > 290 nm), and by UVA (lambda > 350 nm), at the adenine phosphoribosyltransferase locus of Chinese hamster ovary cells. This has been compared to results previously obtained for stimulated sunlight (lambda > or = 310 nm) and 254-nm UVC in the same gene. We demonstrate that T-->G transversions, a generally rare class of mutation, are induced at high frequency (up to 50%) in UVA-exposed cells. Furthermore, this event comprises a substantial proportion of the simulated sunlight-induced mutant collection (25%) but is significantly less frequent (P < 0.05) in cells irradiated with either UVB (9%) or UVC (5%). We conclude that the mutagenic specificity of broad-spectrum solar light in rodent cells is not determined entirely by the UVB component and that UVA also plays an important role.
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PMID:A role for ultraviolet A in solar mutagenesis. 789 70

The nature of multilocus deletions eliminating the adenine phosphoribosyltransferase (aprt) gene was analyzed in a CHO cell strain heterozygous for this locus. These deletions arose at a high frequency, spanning an estimated average length of 4250 kb. To detect breakpoints participating in their formation, a 200-kb region surrounding aprt was screened for novel fragments. Seven novel fragments were detected, five of which were clustered around the aprt gene itself. Despite the existence of at least eight Alu-equivalent repeats in this region, no breakpoints fell within these elements. Two deletions were characterized in more detail by cloning and sequencing their junction fragments. The novel DNA detected at one junction was unique, whereas that situated at the junction of the other deletion was of a repetitive nature, consisting of a truncated intracisternal-A particle gene. The contrasting nature of these junctions may imply that multilocus deletions of aprt can occur by one of several mechanisms.
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PMID:Molecular characterization of multilocus deletions at a diploid locus in CHO cells: association with an intracisternal-A particle gene. 797 4

Irradiation of cells with short wave ultraviolet light (UV-C) induces both cyclobutane pyrimidine dimers (CPD) as well as pyrimidine 6-4 pyrimidone photoproducts (6-4 PP). We have focused on the removal of both types of DNA photolesions from the transcriptionally active adenine phosphoribosyltransferase (APRT) and hypoxanthine-guanine phosphoribosyltransferase (HPRT) genes and the inactive c-mos gene. Induction levels of both CPD and 6-4 PP were similar for all three genes analyzed, with the induction of 6-4 PP being about 3-fold lower than of CPD. Repair of CPD was analyzed using the CPD-specific enzyme T4 endonuclease V; repair of 6-4 PP was examined employing Escherichia coli UvrABC excinuclease. Unlike the HPRT gene, in which CPD were removed selectively from the transcribed strand, both strands of the 16-kilobase fragment encompassing the 2.6-kilobase APRT gene were repaired efficiently. This suggests the existence of multiple transcription units in the APRT region including transcription units running in the opposite direction of the APRT gene. Only a marginal part of the CPD was removed from the inactive c-mos gene after 24 h. In all three genes investigated, 6-4 PP were repaired more rapidly than CPD and, as demonstrated for the HPRT and APRT genes, without strand specificity. The difference in the repair phenotype of CPD between the HPRT gene and the APRT gene coincides with differences between both genes with regard to the DNA strand distribution of previously published UV-induced mutations.
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PMID:Analysis of repair of cyclobutane pyrimidine dimers and pyrimidine 6-4 pyrimidone photoproducts in transcriptionally active and inactive genes in Chinese hamster cells. 798 59

Animal somatic cell DNA is characterized by a bimodal pattern of methylation: tissue-specific genes are methylated in most cell types whereas housekeeping genes have 5' CpG islands which are constitutively unmethylated. Because methyl moieties derived from the gametes are erased in the morula and early blastula, this profile must be re-established in every generation; this is apparently accomplished by a wave of non-CpG island de novo methylation that occurs at implantation. Using transfection into embryonic stem cells and transgenic mice as a model system, we now show that Sp1 elements play a key role in protecting a CpG island in the adenine phosphoribosyltransferase (APRT) gene from de novo methylation. This recognition mechanism represents a critical step in embryogenesis, as it is responsible for setting up the correct genome methylation pattern which, in turn, is involved in regulating basal gene expression in the organism.
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PMID:Sp1 elements protect a CpG island from de novo methylation. 809 Feb 26

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