UNIPROT:P00492 - FACTA Search

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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The frequency of 6-thioguanine resistant (TGr) mutants induced in human G0 phase T-lymphocytes by 200 cGy of gamma irradiation is greatly enhanced by incubation with cytosine arabinoside (ara-C) after irradiation. The mutant frequency increased with increasing incubation time in ara-C for up to 2 hr. This mutation induction required a phenotypic expression time of 5-8 days mass culture growth, similar to that found with mutants induced by 300 cGy of irradiation alone. Southern blot analysis of 40 isolated mutant clones revealed 8 independent mutations by T-cell receptor (TCR) gene rearrangement patterns. Four of these eight showed hprt gene structural alterations (0.50). An alternative method to allow phenotypic expression was developed to minimize the isolation of hprt/TCR sibling mutants. The use of in situ expression in the microtiter dish wells resulted in the isolation of 17 independent mutations in 19 mutant clones. Ten of these 17 mutations showed hprt structural alterations (0.59). The high fraction of mutations involving structural alterations detected by Southern blot analysis is consistent with the known induction of chromosome aberrations by irradiation plus ara-C treatment. We propose that both the increase in Mf and the increase in the incidence of hprt gene structural alterations are due to the accumulation of strand breaks in repairing regions of DNA under these conditions of ara-C induced inhibition of repair. We further propose that upon release of the ara-C inhibition, these repairing regions can interact to yield both gene mutations and chromosome aberrations.
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PMID:Cytosine arabinoside enhancement of gamma irradiation induced mutations in human T-lymphocytes. 205 Jan 30

The effect of ionizing radiation on methotrexate (MTX) resistance and gene amplification in cultured mammalian cells was investigated. X-irradiation of mouse EMT-6 cells induced cell killing and MTX resistance due to amplification of dihydrofolate reductase (dhfr) gene in a dose-dependent manner. The highest yields of mutant cells were obtained at approximately D37 (the dose at which 37% of the cells survive), where the frequency of MTX-resistant cells was four- to eightfold over that of the unirradiated population. The proportion of MTX-resistant cells among the survivors increased logarithmically with dose, up to a 1000-fold increase over unirradiated cells at 1000 cGy, the highest dose tested. The induced frequency of MTX resistance after X-irradiation was greater than the induced frequency of 8-azaguanine resistance, which indicates deletion of the hypoxanthine phosphoribosyltransferase gene. Inhibition of poly(ADP-ribose) polymerase by the addition of 3-aminobenzamide before irradiation increased both cell killing and MTX resistance. Metaphase spreads of chromosomes from EMT-6 cells that had been irradiated and subjected to stepwise increases in MTX concentration showed numerous double minutes. Pulsed-field gel electrophoresis of the DNA from cells containing radiation-induced double minutes showed that many copies of the dhfr gene were present on circular DNA molecules of 10(6), 2 x 10(6), and 3 x 10(6) base pairs. These results suggest a relationship between the induction of chromosome aberrations and the induction of gene amplification.
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PMID:X-ray induction of methotrexate resistance due to dhfr gene amplification. 212 27

Using 32P-postlabelling, evidence of DNA adduct formation was sought in six mammalian cell lines, namely Chinese hamster ovary (CHO), human cervical carcinoma (HeLa S3), mouse lymphoma L5178Y tk +/- and L5178Y wild-type, human lymphoblastoid TK6 and Chinese hamster V79, following treatment with benzidine (BZD) in the presence of S-9. Adduct formation was also determined in calf thymus DNA reacted in vitro with N-hydroxy-N'-acetyl-BZD, and in liver DNA from mice given a single intraperitoneal injection of BZD. DNA adducts were detected in the calf thymus DNA sample and in mouse liver DNA, but not in DNA from any of the six cell lines. The absence of adduct formation is consistent with the lack of mutagenicity of BZD in CHO, and V79 and in L5178Y cells at the hprt locus, and in TK6 cells at the tk and hprt loci. These results also suggest that the observed mutagenicity of BZD at the tk locus in L5178Y cells may be due to a mechanism(s) not involving covalent binding to DNA.
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PMID:Determination of benzidine--DNA adduct formation in CHO, HeLa, L5178Y, TK6 and V79 cells. 218 24

The proliferative effect of insulin on de novo purine synthesis and on the expression of various enzymes of purine metabolism were studied in primary cultured rat hepatocytes. Insulin greater than 1.5 x 10(-8) M increased DNA and de novo purine synthesis to 260-390 and 270-420%, respectively, 24 and 8 h after the administration. Insulin at 1.5 x 10(-7) M increased the specific activity of amidophosphoribosyltransferase (ATase) to 154-180%, hypoxanthine-guanine phosphoribosyltransferase to 129%, and adenine phosphoribosyltransferase (APRT) to 205%, in contrast to unchanged xanthine dehydrogenase at 80%. Enzyme induction was supported by the results of kinetic analysis and the inhibition of the insulin-induced increase in enzyme activities by protein synthesis inhibitors. Insulin increased ATP to 127% and decreased AMP, ADP, 5'-guanylic acid (GMP), and guanosine 5'-diphosphate (GDP), respectively, to 73, 69, 73, and 69%. Insulin increased adenylate energy charge from 0.83 to 0.90 without changing total feedback inhibitory potential on ATase. No obvious increase of 5-phosphoribosyl-1-pyrophosphate supply was suggested, although its apparent availability for purine ribonucleotide synthesis was increased to 208-245%, reflecting mainly induced APRT activity to 205%. It is concluded that hepatocyte proliferation by insulin, as evidenced by purine metabolism, is mediated by the selective gene activation of anabolic enzymes and increased ATP as the basis to activate multiple metabolic pathways without remarkable changes of substrate availability or feedback inhibition.
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PMID:Increased de novo purine synthesis by insulin through selective enzyme induction in primary cultured rat hepatocytes. 218 59

Southern blot analyses were performed on DNA from at least 10 large and 10 small colony thymidine kinase-deficient (tk -/-) mutants induced by each of 10 mutagens [2-amino-N6-hydroxyadenine (AHA), ethyl methanesulfonate (EMS), methyl methanesulfonate, 2-acetylaminofluorene, methotrexate, caffeine, methapyrilene, 4-(9-acridinylamino)-methanesulfo-m-anisidide, hycanthone methanesulfonate and procarbazine]. Two molecular mutant genotypes were recognized upon digestion with NcoI and subsequent probing with a 1.1 kb cDNA insert from plasmid pMtk 4: (i) no detectable alteration, and (ii) the absence of the functional tkb allele as indicated by the absence of the 6.3 kb fragment. In combination with the previously established chromosomal nature of most small colony tk -/- mutants, this permitted the classification of these 10 mutagens according to the relative proportions of each of four classes of genetic damage they induced. AHA and EMS gave mutational spectra consistent with their point mutational effects in other systems. The other eight mutagens induced mostly small colony mutants, most of which had lost the entire original tkb allele. Methotrexate induced high frequencies of large colony mutants at the tk locus, most of which lacked the tkb allele, although it is weakly or non-mutagenic at the hemizygous hprt locus in these same cells. At least three of these mutagens-methotrexate, caffeine, methapyrilene (and possibly procarbazine)--lack structural alerts for DNA reactivity, implying a major class of non-DNA primary targets for mutagenicity in mammalian cells that interact secondarily with the chromosome. These results are discussed in relation to the known differences in sensitivity among various short-term tests for genotoxicity.
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PMID:Molecular aspects of chemical mutagenesis in L5178Y/tk +/- mouse lymphoma cells. 218 74

Due to the lack of de novo purine nucleotide biosynthesis, hypoxanthine-guanine phosphoribosyltransferase (HGPRTase) is an essential enzyme in the human parasite Schistosoma mansoni for supplying guanine nucleotides and has been proposed as a potential target for antiparasitic chemotherapy. While the enzyme can be purified from adult schistosome worms, yields are too low to allow extensive structural and kinetic studies. We therefore cloned and sequenced the cDNA and gene encoding the schistosomal enzyme but were unable to positively identify the amino-terminal sequence of the enzyme from the DNA sequence. Knowledge of the exact amino terminus was necessary before accurate expression of active enzyme could be attempted. Therefore, we purified the HGPRTase from crude extracts of the adult worms. The purified enzyme has a subunit molecular mass of 26 kDa and an amino-terminal sequence of Met-Ser-Ser-Asn-Met. This sequence matched one of the potential initiation sites predicted from the cDNA and gene sequence. We next expressed the correct size cDNA of the S. mansoni HGPRTase in Escherichia coli using a vector that is regulated by a bacterial alkaline phosphatase promoter and uses an E. coli signal peptide for secretion of expressed product into the periplasmic space. Using this expression system, some of the recombinant enzyme is secreted and found to have a correct amino terminus. That remaining in the cytoplasm has part of the signal peptide attached to the amino terminus. The recombinant schistosomal HGPRTase isolated from the periplasm of the transformed E. coli was purified and found to have kinetic and physical properties identical to those of the native enzyme.
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PMID:The hypoxanthine-guanine phosphoribosyltransferase of Schistosoma mansoni. Further characterization and gene expression in Escherichia coli. 219 39

Determination of the DNA sequence alterations produced by various mutagens is a prerequisite for understanding mechanisms of mutagenesis. With recent technical advances that permit rapid isolation of mutant alleles, the mammalian genome has become accessible to this type of analysis. Here we discuss the growing data base on mutational specificity in mammalian cells, with an emphasis on the information obtained from studies of two endogeneous genetic loci, aprt and hprt.
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PMID:Endogenous gene systems for the study of mutational specificity in mammalian cells. 220 81

DNA was analysed from a large set of hamster hprt gene mutants, some induced by ionising radiations and others occurring naturally, to identify those with large alterations in part of the gene. DNA from these mutants was restricted further with different endonucleases and probed to establish the patterns of restriction fragments remaining. Of 15 mutants characterized, one showed a duplication of part of the 5' end of the gene, and the remainder showed deletions of various sizes. It was possible to approximately locate the breakpoints of the deletions by comparison of fragment patterns to a recently-established map of the hamster gene. The relatively small number of mutants examined precludes rigorous analysis of the distribution of breakpoints in the hprt gene, but taken with other recent studies of deletion mutagenesis it is suggested that non-random induction or selection of this type of mutation may occur.
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PMID:Localization of deletion breakpoints in radiation-induced mutants of the hprt gene in hamster cells. 221 26

Alterations in the hprt gene of Chinese hamster cells were determined in 71 spontaneous, methylmethane sulphonate (MMS)- and X-ray-induced mutants, using the Southern blot hybridization technique. Among 41 MMS-induced mutants, deletions eliminating the whole gene were observed in 17 cases (41%). Analysis of 20 X-ray-induced mutants revealed the presence of similar deletions in nine of them (45%). No evidence of deletion was found in 10 spontaneous mutants. To investigate the possibility of small deletions, 18 MMS-induced mutants were studied with probes derived from exons 3 and 9 but no evidence of specific deletion of these two exons was found. The polymerase chain reaction (PCR) was used to phenotype hprt transcripts in 48 MMS, X-ray and spontaneous Chinese hamster mutants by amplifying the coding region of their cDNA. Among 22 MMS-induced mutants the message was present in 16 instances; 11 had normal levels while three had much lower levels of transcription. A further two mutants had mRNA of reduced size as revealed by the use of primers for PCR 3' to those routinely used. An analysis of 20 X-ray-induced mutants showed the presence of hprt mRNA in 11 of them with five having low levels of transcription. Among six spontaneous mutants, four were negative for mRNA on standard Northern blots and in one the message was only detected after PCR amplification. Direct DNA sequencing of 10 mutants revealed the presence of base substitutions in five of them while a 7 bp deletion was found in another. No mutations were found in another four mutants, suggesting the presence of mutation outside the coding region.
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PMID:Methylmethane-sulphonate and X-ray-induced mutations in the Chinese hamster hprt gene: mRNA phenotyping using polymerase chain reactions. 226 7

We have determined the molecular basis of hypoxanthine-guanine phosphoribosyltransferase (hprt) mutations that arose in vivo in the T lymphocytes of a normal male subject. In previous studies approximately 16% (23/141) of the mutants from this individual analyzed by Southern blot displayed large structural alterations in hprt. Thirty-two mutants without these large hprt structural alterations produced sufficient hprt cDNA for polymerase chain reaction amplification and DNA sequence analysis. Base substitutions in hprt cDNA resulting in missense mutations and one mRNA splicing aberration (inclusion of intron sequences) were observed in 18/32 of these these mutants; substitutions occurred at both AT and GC base pairs. Small deletions (3/32), a tandem change and a single base insertion were also observed among the hprt cDNAs. Exon skipping and inclusion of hprt intron sequences in the hprt cDNA were observed in an additional 9/32 of the mutants. Analysis of T cell receptor (TCR) gene rearrangements revealed that six of eight mutants with an identical hprt T----A transversion displayed the same TCR rearrangement pattern, indicating that they were clonally related and arose from a single in vivo mutational event.
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PMID:DNA sequence analysis of in vivo hprt mutation in human T lymphocytes. 226 8

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