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)

In this report, we demonstrate the feasibility of transforming mouse cells deficient in adenine phosphoribosyltransferase (aprt; AMP:pyrophosphate phosphoribosyltransferase, EC 2.4.2.7) to the aprt+ phenotype by means of DNA-mediated gene transfer. Transformation was effected by using unfractionated high molecular weight genomic DNA from Chinese hamster, human, and mouse cells and restriction endonuclease-digested DNA from rabbit liver. The transformation frequency observed was between 1 and 10 colonies per 10(6) cells per 20 microgram of donor DNA. Transformants displayed enzymatic activity that was donor derived as demonstrated by isoelectric focusing of cytoplasmic extracts. These transformants fall into two classes: those that are phenotypically stable when grown in the absence of selective pressure and those that are phenotypically unstable under the same conditions.
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PMID:DNA-mediated transfer of the adenine phosphoribosyltransferase locus into mammalian cells. 28 19

A mouse embryonal carcinoma cell line isolated for resistance to the adenine analogue 2,6-diaminopurine (DAP) was found to have near-wild-type levels of adenine phosphoribosyltransferase (APRT) activity in a cell-free assay. This DAP-resistant (DAPr) cell line, termed H29D1, also exhibited near-wild-type levels of adenine accumulation and the ability to grow in medium containing azaserine and adenine. Growth in this medium requires high levels of intracellular APRT activity. Using the polymerase chain reaction (PCR) and the dideoxy chain termination sequencing technique, an A-->G transition was discovered in exon 3 of the aprt gene in H29D1. This mutation resulted in an Arg-to-Gln change at amino acid 87 of the APRT protein that, in turn, resulted in a decreased affinity for adenine. An increased sensitivity of APRT to inhibition by AMP was observed when comparing H29D1 to P19, the parental cell line. Using a transgene containing the A-->G mutation, we demonstrated that this mutation is responsible for the biochemical and cellular phenotypes observed for the H29D1 cell line. The approach used in this study provides a definitive method for linking a mutation to a specific cellular phenotype.
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PMID:Molecular and biochemical elucidation of a cellular phenotype characterized by adenine analogue resistance in the presence of high levels of adenine phosphoribosyltransferase activity. 129 76

In some biological systems ionizing radiation appears to induce large deletions and rearrangements, while in others point mutations predominate the mutational spectrum. Moreover, while the point mutations are often randomly distributed, some systems exhibit "hot spots." Retroviral shuttle vectors are particularly useful for investigating the basis of these differences since the genetic target can be conveniently analyzed in a variety of host backgrounds and genomic locations. We have studied the mutational specificity of X-rays in a Chinese hamster ovary cell line (CHO) containing a stably integrated retroviral shuttle vector, carrying the CHO aprt cDNA as the genetic target. Cells were irradiated with 7 Gy using a 180 kVp X-ray source. The predominant mutation (87% of all APRT mutants), as determined by Southern analysis, was the complete deletion of the shuttle vector construct. In addition, 23 APRT mutants, carrying an apparently intact shuttle vector, were characterized at the sequence level: 5 were transitions, 9 were transversions, 3 were small deletions or insertions, 4 were frameshifts, and 2 were small rearrangements. Although the type and the location of the point mutations characterized appeared largely random, small deletions, insertions, and frameshifts were frequently associated with direct sequence repeats.
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PMID:Investigation of the mutagenic specificity of X-rays using a retroviral shuttle vector in CHO cells. 133 May 46

We have studied the mechanism of targeted recombination in mammalian cells using a hemizygous adenine phosphoribosyltransferase-deficient (APRT-) Chinese hamster ovary (CHO) cell mutant as a recipient. Three structurally different targeting vectors with a 5' or a 3', or both, end-deleted aprt sequence, in either a closed-circular or linear form, were transfected to the cells with a mutated aprt gene by electroporation. APRT-positive (APRT+) recombinant clones were selected and analyzed to study the gene correction events of the deletion mutation. Some half of 58 recombinant clones obtained resulted from corrections of the deleted chromosomal aprt gene by either gene replacement or gene insertion, a mechanism which is currently accepted for homologous recombination in mammalian cells. However, the chromosomal sequence in the remaining half of the recombinants remained uncorrected but their truncated end of the aprt gene in the incoming vectors was corrected by extending the end beyond the region of homology to the target locus; the corrected vector was then randomly integrated into the genome. This extension, termed end extension repair, was observed with all three vectors used and was as far as 4.6-kilobase (kb) or more long. It is evident that the novel repair reaction mediated by homologous recombination, in addition to gene replacement and gene insertion, is also involved in gene correction events in mammalian cells. We discuss the model which may account for this phenomenon.
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PMID:End extension repair of introduced targeting vectors mediated by homologous recombination in mammalian cells. 140 93

Two APRT- clones (V79-E3 and V79-E1A) were isolated from V79 hamster fibroblasts treated with ethyl methanesulfonate. Selection involved sequential exposure of the mutagenized cells to the adenine analogues 8-azaadenine and 2,6-diaminopurine. To examine the influence of APRT deficiency on cell metabolism we determined the size and turnover of adenine ribonucleotide pools, the deoxyribonucleoside triphosphate pools, the rate of DNA synthesis, and the length of the cell cycle. Clone V79-E3 was hemizygous for aprt and carried a new chromosome, 3p-. Clone V79-E1A was quasi-tetraploid with a cell volume more than twice that of the WT cells. When the difference in size was taken into account, both clones behaved similarly. While WT V79 cells released no adenine into the medium, they excreted adenine at a rate of 6 pmol/min. This did not affect the size of the ATP pool. The main change in the deoxynucleotide pools was a marked decrease of the concentration of dCTP. The rate of DNA synthesis was the same in WT cells and in the diploid V79-E3 clone. APRT is known to recycle adenine produced during polyamine synthesis, but the enzyme apparently contributes little to the maintenance of adenine ribonucleotide pools of V79 fibroblasts.
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PMID:Metabolic consequences of adenine-phosphoribosyl transferase deficiency in V79 hamster fibroblasts. 145 99

We have determined the nucleotide sequence surrounding a BclI restriction fragment length variation near the aprt gene of CHO cells. By BclI digestion of the PCR-amplified DNA from a variety of APRT-deficient mutants derived from CHO cells, we were able to infer the following. First, all three heterozygotes of class II, which are known to undergo the second mutational step via a large deletion event occurring at high frequency, are mutant at the chromosome Z4-linked allele, and wild type at the Z7 allele. Second, both class-III heterozygotes, which mutate to the APRT- phenotype at low frequency, are mutant at the Z7 allele, wild type at the Z4 allele. A total of 12 class-I lines, defined as having already undergone a deletion event and yielding fully APRT- mutants at low frequency were all found to have lost the Z7-linked allele. We conclude that the Z7-linked allele is substantially more susceptible to mutation by the large deletion event than is the Z4-linked allele. This supports a hypothesis we advanced earlier to explain the existence of the class-III heterozygotes but does not support previous work suggesting that a chromosomal inversion break-point junction near the Z4-linked aprt allele is responsible for the high frequency deletion event.
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PMID:Analysis of second-step mutations of class II and class III CHO aprt heterozygotes: chromosomal differences in deletion frequencies. 167 90

Morphologically differentiated cell lines were previously isolated from a mouse teratocarcinoma stem cell line exhibiting an unstable heterozygous deficiency for adenine phosphoribosyltransferase (APRT) expression. In this study, the methylation sensitive and insensitive isoschizomer restriction endonucleases HpaII and MspI, respectively, were used to demonstrate that the aprt gene in the heterozygous deficient stem cell line was hypomethylated. Loss of APRT activity in this stem cell line was not associated with DNA methylation change. However, differentiation of this stem cell line was associated with hypermethylation of three consecutive HpaII/MspI sites that were located in the second intron and the third exon of the aprt gene. A total of 15 independent APRT homozygous deficient cell lines were isolated from three differentiated heterozygous deficient cell lines, and in all 15 cell lines this differentiation-related methylation pattern was altered. Two classes of alterations were noted: (1) hypomethylation of a site located in the second intron or (2) the apparent spreading of methylation to downstream methylation sites. The CpG-rich promoter region remained hypomethylated in the APRT homozygous deficient differentiated cell lines and a methylation change affecting a specific CpG site upstream of the promoter region was noted in only two of the 15 homozygous deficient cell lines. It is proposed that methylation of the mouse aprt gene may be involved in controlling phenotypic expression in the differentiated cell lines, but not in the stem cell line they were derived from.
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PMID:Methylation of mouse adenine phosphoribosyltransferase gene is altered upon cellular differentiation and loss of phenotypic expression. 169 89

Loss of heterozygosity at previously heterozygous loci may occur by one of several possible mechanisms and account for a large fraction of all mutations occurring at such loci. In order to investigate loss of heterozygosity events, we have chosen the aprt locus of Chinese hamster ovary (CHO) cells as our model since it is readily available in either heterozygous or hemizygous form. Cloning and sequencing of the two heterozygous aprt alleles from the CHO derivative D423 identified a single polymorphic site, which does not create a restriction fragment length polymorphism. In order to evaluate the loss of heterozygosity events at this locus, we devised a method that creates an artificial restriction fragment length polymorphism in one of these two alleles as a direct consequence of enzymatic amplification. Restriction enzyme digestion of the amplified sequences can then conveniently identify the genotype of the DNA sample. This same methodology also provides for the selective cloning of only one allele of a heterozygous pair into a plasmid vector for subsequent DNA sequence analysis, and can be easily adapted to other situations requiring the analysis of single base changes at a particular position within known sequences. Using this technique, we have determined that 16/37 (43%) spontaneous APRT- mutants had undergone a loss of heterozygosity event.
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PMID:Loss of heterozygosity in mammalian cell mutagenesis: molecular analysis of spontaneous mutations at the aprt locus in CHO cells. 197 45

Spontaneous deletion mutants can be isolated from CHO cell lines heterozygous at the adenine phosphoribosyltransferase locus at frequencies up to 10(-4), i.e., about 100-fold higher than spontaneous point mutations. Indirect evidence has suggested that most deletions were in the megabase range. We have fully characterized one such mutant, Del 155, and shown that it resulted from an illegitimate recombination that took place between overlapping tetranucleotides. Comparisons with sequences of other deletions at various loci revealed a number of similarities, most striking of which was a CHI-like motif found within 6 bp of the upstream breakpoint of Del 155 and breakpoints of 8/21 previously described short deletions at the CHO aprt locus. Homology also existed between the downstream breakpoint of Del 155 and breakpoints of retinoblastoma gene deletions (3/6 cases) and also a 20-bp stretch of an Alu sequence in which breakpoints at the low-density lipoprotein receptor locus have been shown to cluster. The magnitude of the deletion event in Del 155 was assessed by pulsed field (PF) gel analysis and found to be at least 2100 kb long. PF analysis also indicated that the downstream breakpoint was near a region of structural differences between the two chromosomes carrying apart. These structural differences were probably not implicated in the mechanism of the high frequency event, since no indication of breakpoint clustering among a large collection of mutants was found either by conventional or PF electrophoretic analyses.
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PMID:A very large spontaneous deletion at aprt locus in CHO cells: sequence similarities with small aprt deletions. 199 42

We analyzed the nature of spontaneous mutations at the autosomal locus coding for adenine phosphoribosyltransferase in the human colorectal carcinoma cell line SW620 to establish whether distinctive mutational pathways exist that might underlie the more complex genome rearrangements arising in tumor cells. Point mutations occur at a low rate in aprt hemizygotes derived from SW620, largely as a result of base substitutions at G.C base pairs to yield transversions and transitions. However, a novel pathway is evident in the form of multiple dispersed mutations in which two errors, separated by as much as 1,800 bp, fall in the same mutant gene. Such mutations could be the result of error-prone DNA synthesis occurring during normal replication or during long-patch excision-repair of spontaneously arising DNA lesions. This process could also contribute to the chromosomal instability evident in these tumor cells.
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PMID:Multiple dispersed spontaneous mutations: a novel pathway of mutation in a malignant human cell line. 203 24

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