Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Bacillus subtilis mutants defective in purine metabolism have been isolated by selecting for resistance to purine analogs. Mutants resistant to 2-fluoroadenine were found to be defective in adenine phosphoribosyltransferase (apt) activity and slightly impaired in adenine uptake. By making use of apt mutants and mutants defective in adenosine phosphorylase activity, it was shown that adenine deamination is an essential step in the conversion of both adenine and adenosine to guanine nucleotides. Mutants resistant to 8-azaguanine, pbuG mutants, appeared to be defective in hypoxanthine and guanine transport and normal in hypoxanthine-guanine phosphoribosyltransferase activity. Purine auxotrophic pbuG mutants grew in a concentration-dependent way on hypoxanthine, while normal growth was observed on inosine as the purine source. Inosine was taken up by a different transport system and utilized after conversion to hypoxanthine. Two mutants resistant to 8-azaxanthine were isolated: one was defective in xanthine phosphoribosyltransferase (xpt) activity and xanthine transport, and another had reduced GMP synthetase activity. The results obtained with the various mutants provide evidence for the existence of specific purine base transport systems. The genetic lesions causing the mutant phenotypes, apt, pbuG, and xpt, have been located on the B. subtilis linkage map at 243, 55, and 198 degrees, respectively.
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PMID:Genetic and physiological characterization of Bacillus subtilis mutants resistant to purine analogs. 311 Jan 31

Spontaneous and ethyl methanesulfate induced mutants of Saccharomyces cerevisiae, with partial and complete deficiency of adenine phosphoribosyltransferase (APRT, EC 2.4.2.7), were isolated by selection for resistance to 8-azaadenine. Matings between totally deficient mutants and tester strain resulted in diploid heterozygotes that were sensitive to azaadenine. Upon sporulation and tetrad analysis, azaadenine resistance (and APRT deficiency) segregated as expected for a single Mendelian gene. Hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) activity in the mutants was similar to that in the wild-type cells. There was no detectable activity of adenine aminohydrolase (EC 3.5.4.2) in the wild-type or mutant cells.
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PMID:Mutants of Saccharomyces cerevisiae deficient in adenine phosphoribosyltransferase. 330 56

A screening method using high-performance liquid chromatography (HPLC) for the simultaneous detection of deficiencies of adenine phosphoribosyltransferase (APRT) and hypoxanthine phosphoribosyltransferase (HPRT) activities in human erythrocytes is described. Both enzyme reactions of APRT and HPRT in lysates treated with a charcoal-dextran were simultaneously carried out in the same reaction tube and the enzyme activities were determined by measuring the increases in absorbance at 260 nm of adenosine and inosine converted from adenosine-5'-monophosphate and inosine-5'-monophosphate with alkaline phosphatase. Adenosine and inosine were separated from adenine and hypoxanthine by a reversed-phase column. The method could detect 1% of normal APRT activity and 0.3% of normal HPRT activity. The within-run coefficients of variation for APRT and HPRT activities were 3.2 and 3.4%, respectively.
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PMID:Screening for adenine and hypoxanthine phosphoribosyltransferase deficiencies in human erythrocytes by high-performance liquid chromatography. 343 62

Cells with and without hypoxanthine-guanine phosphoribosyltransferase (HGPRT) activity were used to examine the transfer of purine metabolites through the medium and via cell contacts. HGPRT- Chinese hamster and human fibroblasts were able to incorporate 3H-labeled purine metabolite(s) from medium in which mouse HGPRT+ B82 cells had been grown for 24 h with [3H]hypoxanthine, but mouse A9 fibroblasts that were deficient in HGPRT, adenine phosphoribosyltransferase (APRT), and methylthioadenosine phosphorylase (MTAP) were unable to incorporate these metabolites. This suggests that in recipient cells incorporation is due to [3H]MTA, which has been shown previously to be the major 3H-labeled purine metabolite to accumulate in B82 medium, being cleaved by MTAP to [3H]adenine, which is phosphoribosylated by APRT to [3H]AMP. Incorporation by recipient cells of metabolites from the medium is referred to as contact-independent metabolite transfer (CIMT). In autoradiograms of B82/A9 cocultures that were labeled with [3H]hypoxanthine, grains were found over A9 that were not in contact with B82, although A9 did not act as recipients of CIMT. This is termed proximity-dependent metabolite transfer (PDMT). Both CIMT and PDMT interfered with the assessment of nucleotide exchange between HGPRT+ and HGPRT- cells through cell contacts, which is referred to as contact-dependent metabolite transfer (CDMT). These problems were unique to HGPRT+ mouse L cells. However, HGPRT- mouse L cells, A9, could be used as potential recipients. A9 were positive recipients of CDMT with only one of five cell lines tested, which suggested that these cells were selective communicators. CDMT could not be studied with [3H]guanine because the nuclei of HGPRT- cells became labeled.
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PMID:Transfer of purine metabolites between cells through the medium and via cell contacts in cocultures of HGPRT+ and HGPRT- cells. 367 80

Mutant promastigotes of Leishmania donovani deficient in adenine phosphoribosyltransferase (APRTase) have been isolated in medium containing 4-aminopyrazolopyrimidine. The generation of APRTase-deficient mutants occurred in two discrete steps. In the first step, clones were isolated with 50% of wildtype levels of APRTase activity. These cells were reselected and colonies totally deficient in APRTase were isolated. Partially and totally APRTase-deficient cells exhibited intermediate and complete resistance to cytotoxic adenine analogs, respectively. Nevertheless, wildtype and mutant cells could salvage adenine and utilize adenine as a purine source equally efficiently, suggesting that the adenine deaminase-HGPRTase pathway plays an important role in promastigote adenine metabolism. Kinetic and thermal inactivation studies of purified APRTase and isoelectric focusing of crude extracts from wildtype and partially APRTase-deficient cells suggested that the latter cells possessed wildtype APRTase activity at half the amount found in wildtype parental cells. These data suggest that Leishmania donovani possess two copies of the APRTase structural gene and that these organisms might be diploid for the APRTase locus.
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PMID:Adenine phosphoribosyltransferase-deficient Leishmania donovani. 376 43

Simple methods for the detection of hypoxanthine-guanine phosphoribosyltransferase and/or adenine phosphoribosyltransferase deficiencies using dried filter paper blood spots were studied. Enzyme activities in the eluate from dried filter paper blood spots stored for 4 weeks at room conditions were shown to be quite stable. Autoradiographs prepared from dried filter paper blood spots and DE-81 papers soaked with enzyme reaction mixtures containing 14C-hypoxanthine and/or 14C-adenine showed sharp radioactive spots in normal subjects. No activity was evident in the cases of the Lesch-Nyhan syndrome and/or adenine phosphoribosyltransferase deficiency. The methods seem to be suitable for screening.
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PMID:Simple screening methods for hypoxanthine-guanine phosphoribosyltransferase and adenine phosphoribosyltransferase deficiencies using dried blood spots on filter paper. 376 88

We have determined the nucleotide sequence of a functional mouse adenine phosphoribosyltransferase (APRT) gene and its cDNA. The amino acid sequence of the enzyme is deduced from an open reading frame in the cDNA and predicts a protein with a molecular weight of 19,560. The protein coding region of the gene is approximately 2 kilobases, and it is composed of five exons and four introns. While the body of the gene is 53% G + C, the 200 nucleotides upstream from the ATG translation start codon are 66% G + C and contain three copies of the sequence C-C-G-C-C-C. The mouse APRT enzyme shares a homologous 20-amino acid sequence with mouse, hamster, and human hypoxanthine phosphoribosyltransferases (HPRTs) and several bacterial phosphoribosyltransferases. This sequence has previously been shown to be a likely catalytic domain in human HPRT and Escherichia coli glutamine phosphoribosyltransferase. Because of the similarities in function of these proteins, both eukaryotic and prokaryotic, it is not unexpected that they should exhibit one or more regions of homology, particularly at the 5-phosphoribosyl-1-pyrophosphate and purine binding sites, especially if they are related via a common evolutionary lineage. This homologous sequence is interrupted by a single intron in the mouse APRT gene and by two introns in the mouse HPRT gene. Furthermore, the positions of both introns in the HPRT sequence are different from that of the single intron in the corresponding sequence of the APRT gene.
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PMID:Nucleotide sequence and organization of the mouse adenine phosphoribosyltransferase gene: presence of a coding region common to animal and bacterial phosphoribosyltransferases that has a variable intron/exon arrangement. 392 64

Murine stocks with wild-derived hypoxanthine phosphoribosyltransferase (HPRT) A alleles (Hprt a) have erythrocyte HPRT activity levels that are approximately 25-fold (Mus musculus castaneus) and 70-fold (Mus spretus) higher than those of laboratory strains of mice with the common Hprt b allele (Mus musculus: C3H/HeHa or C57B1/6). Since the purified HPRT A and B enzymes have substantially similar maximal specific activities (64 and 46 units/mg of protein, respectively), we infer that these HPRT activity levels closely approximate the relative levels of HPRT protein in these cells. Red blood cells of HPRT A and B mice have similar levels of adenine phosphoribosyltransferase activity (APRT; EC 2.4.2.7) and reticulocyte percentages, which suggests that the elevated levels of HPRT in erythrocytes of HPRT A mice are not secondary consequences of abnormal erythroid cell development. The HPRT activity levels in reticulocytes of HPRT B mice are approximately 35-fold higher than the levels in their erythrocytes and approach the HPRT activity levels in reticulocytes of HPRT A mice. Thus, the marked differences in the levels of HPRT protein in erythrocytes of HPRT A and B mice result from differences in the extent to which the HPRT A and B proteins are retained as reticulocytes mature to erythrocytes. The substantial and preferential loss of HPRT B activity from reticulocytes is paralleled by an equivalent loss of HPRT immunoreactive protein (i.e., CRM) from that cell, and we infer that the HPRT B protein is degraded or extruded as reticulocytes mature to erythrocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Elevated levels of erythrocyte hypoxanthine phosphoribosyltransferase associated with allelic variation of murine Hprt. 407 78

Activities of adenine phosphoribosyltransferase (EC 2.4.2.7 APRT) and hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8 HGPRT) were studied in thrombocytes of healthy donors, patients with hemophilia A and B and of women--heterozygote carriers of the pathologic gene. The data obtained suggest that HGPRT test may be used as a genetic marker of hemophilia as well as to detect the heterozygote carriers; estimation of APRT activity is suitable test for differentiation of hemophilia forms.
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PMID:[Adenine phosphoribosyltransferase and hypoxanthine phosphoribosyltransferase of blood platelets in hereditary coagulopathies]. 409 Mar 55

1. 5-Phosphoribosyl 1-methylenediphosphonate was isolated after reaction of ribose 5-phosphate and O-adenylyl methylenediphosphonate with 5-phosphoribosyl pyrophosphate synthetase from Ehrlich ascites-tumour cells. 2. The analogue reacted with adenine phosphoribosyltransferase, hypoxanthine phosphoribosyltransferase and nicotinamide phosphoribosyltransferase [K(m) (analogue)/K(m) (5-phosphoribosyl pyrophosphate) 0.17, 0.19 and 6.3 respectively; V(max.) (analogue)/V(max.) (5-phosphoribosyl pyrophosphate) 0.011, 0.26 and 1.1 respectively]. 3. The analogue was not a substrate for 5-phosphoribosyl pyrophosphate amidotransferase or orotate phosphoribosyltransferase. 4. Ribose 5-phosphorothioate was synthesized by allowing ribose to react with thiophosphoryl chloride in triethyl phosphate. The analogue was a substrate for 5-phosphoribosyl pyrophosphate synthetase from Ehrlich ascites-tumour cells. When this reaction was coupled to either adenine phosphoribosyltransferase or hypoxanthine phosphoribosyltransferase, adenosine 5'-phosphorothioate or inosine 5'-phosphorothioate was formed respectively.
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PMID:Analogues of ribose 5-phosphate and 5-phosphoribosyl pyrophosphate. The preparation and properties of ribose 5-phosphorothioate and 5-phosphoribosyl 1-methylenediphosphonate. 430 74


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