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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) has been purified 23,000-fold from normal human erythrocytes. The purification includes affinity chromatography on a GMP column. The subunit molecular weight of the enzyme obtained from this purification is 24,000. The finding of four protein species after cross-linkage of the highly purified enzyme with dimethylsuberimidate, dimethyladipimidate, and glutaraldehyde suggests that the enzyme may exist in the native state as a tetramer.
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PMID:Human hypoxanthine-guanine phosphoribosyltransferase. Evidence for tetrameric structure. 65 26

A steady state kinetic study of the hypoxanthine-guanine phosphoribosyltransferase-catalyzed reaction in the forward and the reverse directions was carried out. The results obtained favor a sequential mechanism where the monomagnesium complexes of IMP and PPi bind to the enzyme in a rapid equilibrium random fashion while products must dissociate from the enzyme in ordered sequence, first the purine base and then the magnesium complex(es) of P-Rib-PP.
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PMID:Human hypoxanthine-guanine phosphoribosyltransferase. Steady state kinetics of the forward and reverse reactions. 68 38

Clonal lines, with either partial or total deficiency of adenine phosphoribosyltransferase (APRT) were derived from the WI-L2 long-term human lymphocyte line by selection for resistance to the adenine analogs 8-azaadenine or 2,6-diaminopurine. Resistance to 8-azaadenine also conferred resistance to 2,6 diaminopurine and vice versa. Cells with 30--40% of wild-type APRT activity were selected by resistance to 0.01 mM 2,6-diaminopurine or 1.40 mM 8-azaadenine. The APRT in the 8-azaadinine-resistant cells exhibited a four- to sevenfold increase in the apparent Km for adenine. Activities of three other purine reutilization and interconversion enzymes in the resistant cells, including hypoxanthine phosphoribosyltransferase (HPRT), adenosine kinase, and adenosine deaminase, were within the range of wild-type activities. The doubling times of the APRT-deficient cells in purine-free medium was not different from wild-type cells. The APRT in the 8-azaadenine-resistant cells did not have an altered mobility in glycerol gradients as compared to wild-type cells. The rate of purine synthesis de novo and intracellular levels of 5-phosphoribosyl-1-pyrophosphate were unchanged in the APRT-deficient cells as compared to WI-L2. The ability of the cells to reutilize exogenous adenine, however, was severely impaired.
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PMID:Purine reutilization and synthesis de novo in long-term human lymphocyte cell lines deficient in adenine phosphoribosyltransferase activity. 69 20

Marsupial and eutherian nuclei in heterokaryons were shown to synthesize DNA and RNA, apparently at control levels, and heterokaryons were found to contain marsupial hypoxanthine-guanine phosphoribosyltransferase. The two types of nucleus in heterokaryons were also able to undergo synchronous chromosome condensation. our results provide no evidence for suppression of nucleic acid synthesis, gene expression or mitosis in marsupial x eutherian heterokaryons.
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PMID:Fusion and hybridization of marsupial and eutherian cells. Activity of heterokaryons. 70 24

A method for reducing the degree of heterogeneity in the electrophoretic enzyme activity pattern of hypoxanthine phosphoribosyltransferase preparations by incubation with a (magnesium) phosphoribosyl diphosphate substrate is described. Hypoxanthine phosphoribosyltransferase was isolated from human erythrocytes and Chinese hamster livers. A subunit molecular weight of 26000--27000 as reported by other authors was obtained for both enzymes by gel electrophoresis in the presence of dodecylsulfate. Gradient gel electrophoresis revealed that the native enzymes mainly have a molecular weight of 105000--110000 and are thus apparently tetrameric, when held in the active state by the presence of phosphoribosyl diphosphate. The dimeric enzyme with a molecular weight of 52000--55000, was also found under other conditions. The trimer occurred only in the absence of phosphoribosyl diphosphate, for instance by glycerol gradient centrifugation. The enzyme from human erythrocytes was partly degraded during purification in the absence of a protease inhibitor. The purified enzyme has a very low protease contamination level. Proteolysis is an additional cause of heterogeneity and might therefore explain earlier conflicting results. Since the heterogeneous nature of hypoxanthine phosphoribosyltransferase is caused only by the secondary processes of dissociation/association and, in the case of the human erythrocyte enzyme, degradation, we suggest that the use of the term 'isozyme' to describe the different forms should be avoided.
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PMID:Evidence against the existence of real isozymes of hypoxanthine phosphoribosyltransferase. 71 Apr 24

Purine nucleotide synthesis and interconversion were examined over a range of purine base and nucleoside concentrations in intact N4 and N4TG (hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficient) neuroblastoma cells. Adenosine was a better nucleotide precursor than adenine, hypoxanthine or guanine at concentrations greater than 100 micron. With hypoxanthine or guanine, N4TG cells had less than 2% the rate of nucleotide synthesis of N4 cells. At substrate concentrations greater than 100 micron the rates for deamination of adenosine and phosphorolysis of guanosine exceeded those for any reaction of nucleotide synthesis. Labelled inosine and guanosine accumulated from hypoxanthine and guanine, respectively, in HGPRT-deficient cells and the nucleosides accumulated to a greater extent in N4 cells indicating dephosphorylation of newly synthesized IMP and GMP to be quantitatively significant. A deficiency of xanthine oxidase, guanine deaminase and guanosine kinase activities was found in neuroblastoma cells. Hypoxanthine was a source for both adenine and guanine nucleotides, whereas adenine or guanine were principally sources for adenine (greater than 85%) or guanine (greater than 90%) nucleotides, respectively. The rate of [14C]formate incorporation into ATP, GTP and nucleic acid purines was essentially equivalent for both N4 and N4TG cells. Purine nucleotide pools were also comparable in both cell lines, but the concentration of UDP-sugars was 1.5 times greater in N4TG than N4 cells.
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PMID:A comparison of purine metabolism and nucleotide pools in normal and hypoxanthine-guanine phosphoribosyltransferase-deficient neuroblastoma cells. 71 89

Cellular resistance to the cytotoxic purine analogues 8-azaguanine (AG) and 6-thioguanine (TG) is usually mediated by a mutation leading to the loss or reduction in hypoxanthine phosphoribosyltransferase (HPRT) activity. However, stable AG-resistant variants have often been shown to contain wild-type levels of HPRT, while cellular resistance to TG is always accompanied by a profound deficiency in HPRT activity. Such AG-resistant, HPRT-positive cells are still sensitive to TG. To investigate the basis of this differential sensitivity, we examined the inhibition of the HPRT activity by AG and TG in whole cells, in cell-free extracts, and with purified mouse HPRT. In addition, the relative incorporation and utilization of AG and TG by L929 cells were determined under a variety of culture conditions. Results show that, compared to TG, AG is generally a very poor substrate for HPRT. Incorporation of radioactive AG by HPRT-positive cells was extremely sensitive to the free purine concentrations in the medium, so that under the usual culture conditions employing undialyzed serum, cellular uptake and utilization was minimal even when relatively high levels of AG were present. In contrast, the incorporation of radioactive TG was comparable to that of a natural substrate, hypoxanthine. The results indicate that the differential cellular sensitivity to AG and TG is due to the difference between these two guanine analogues as substrates of HPRT. Additional data indicate also that cellular resistance to TG is mediated exclusively by HPRT deficiency, but resistance to very high levels of AG may result through at least two other mechanisms not involving HPRT deficiency. These observations may help resolve some of the conflicting data in the literature, and demonstrate that TG is a better selective agent for the HPRT-deficient phenotype.
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PMID:Basis for differential cellular sensitivity to 8-azaguanine and 6-thioguanine. 76 2

Some physicochemical properties of HGPRTase were studied in hemolysates and fibroblasts of a gout patient with partial deficiency of this enzyme. In comparison to normal HGPRTase the mutant enzyme from erythrocytes was found to have an elevated apparent Km-value for hypoxanthine and guanine and a lower Km-value for PRPP. The patient's enzyme from erythrocytes is more stable at +4 degrees C and +80 degrees C, the enzyme from fibroblasts more labile than that of controls. The inhibition of the mutant enzyme by some purine nucleosides and -nucleotides differed from that found in controls. No evidence was shown for an inhibitor of the patient's HGPRTase from erythrocytes. Ultracentrifugation of hemolysate in a saccharose gradient revealed no difference in the sedimentation coefficient.
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PMID:[Properties of hypoxanthineguanine-phosphoribosyltransferase (HGPRTase) in a gout patient with partial deficiency of this enzyme (author's transl)]. 76 46

Genes coding for enzymes functioning in purine salvage pathways have been located on the chromosome of Escherichia coli. The gene add encoding adenosine deaminase was located by transduction at 31 min, the gene order was established to be man-uidA-add-aroD. A deletion covering man-uidA-add was obtained. The gene gsk encoding guanosine kinase was cotransducible with purE and shown to be located at 13 min. The gene hpt encoding hypoxanthine phosphoribosyltransferase was cotransducible with tonA indicating a location at 3 min. The location of the gene gpt encoding guanine (xanthine) phosphoribosyltransferase in the proA-proB region was confirmed.
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PMID:Location on the chromosome of Escherichia coli of genes governing purine metabolism. Adenosine deaminase (add), guanosine kinase (gsk) and hypoxanthine phosphoribosyltransferase (hpt). 76 47

Uptake of hypoxanthine and guanine into isolated membrane vesicles of Salmonella typhimurium TR119 was stimulated by 5'-phosphoribosyl-1'-pyrophosphate (PRPP). For strain proAB47, a mutant that lacks guanine phosphoribosyltransferase, PRPP stimulated uptake of hypoxanthine into membrane vesicles. No PRPP-stimulated uptake of guanine was observed. For strain TR119, guanosine 5'-monophosphate and inosine 5'-monophosphate accumulated intravesicularly when guanine and hypoxanthine, respectively, were used with PRPP as transport substrates. For strain proAB47, IMP accumulated intravesicularly with hypoxanthine and PRPP as transport substrates. For strain TR119, hypoxanthine also accumulated when PRPP was absent. This free hypoxanthine uptake was completely inhibited by N-ethylmaleimide, but the PRPP-stimulated uptake of hypoxanthine was inhibited only 20% by N-ethylmaleimide. Hypoxanthine and guanine phosphoribosyltransferase activity paralleled uptake activity in both strains. But, when proAB47 vesicles were sonically treated to release the enzymes, a three- to sixfold activation of phosphoribosyltransferase molecules occurred. Since proAB47 vessicles lack the guanine phsophoribosyltransferase gene product and since hypoxanthine effectively competes out the phosphoribosylation of guanine by proAB47 vesicles, it was postulated that the hypoxanthine phosphoribosyltransferase gains specificity for both guanine and hypoxanthine when released from the membrane. A group translocation as the major mechanism for the uptake of guanine and hypoxanthine was proposed.
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PMID:Regulation of purine utilization in bacteria. VI. Characterization of hypoxanthine and guanine uptake into isolated membrane vesicles from Salmonella typhimurium. 77 Apr 25


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