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)

1. Enzymological and metabolic data in a patient with nucleoside phosphorylase (NP) deficiency are described. 2. Incubation of intact NP-deficient red cells with [14C]adenosine showed a rapid uptake and conversion to inosine. Almost no radioactivity was incorporated in the adenosine nucleotides and no hypoxanthine labeling could be detected. 3. Incubation with [14C]inosine resulted in a rapid conversion to IMP in the normal intact red cells but in an accumulation of inosine in the medium with the erythrocytes of the patient, proving again that a NP deficiency is present. 4. The high PRPP level found may result from impaired consumption due to lack of substrates for the salvage enzyme HGPRT. 5. Incubation with [14C]hypoxanthine and [14C]adenine showed that normal HGPRT and APRT activities were present in the NP-deficient red cells. 6. In serum and urine of the patient the levels of inosine and guanosine were considerably increased, while the serum and urinary levels of uric acid were very low. In the two deceased sisters NP deficiency was also strongly suggested by analyses of the serum purines, of stored deep frozen samples.
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PMID:A patient with purine nucleoside phosphorylase deficiency: enzymological and metabolic aspects. 40 97

Strains of Escherichia coli K-12 defective in purine nucleoside phosphorylase (pup gene) formed on the medium with inosine as the source of carbon and energy phenotypical reversions for the ability of utilizing inosine as source of carbon or purines. The phenotypical suppression of the purine nucleoside phosphorylase deficiency is the result of the mutations (called pnd), which are mapped on the chromosome of E. coli beyond the region of the structural pup-gene location and have phenotypic manifestation distinct from that of pup+ allele: a) pnd mutants divide into some groups for the ability of utilizing several purine nucleosides, including xantosine that cannot be metabolized by pnd+ strains of E. coli; b) pnd mutations do not restore the ability of purine auxotrophs (pur) defective in purine nucleoside phosphorylase (pup) and adenine phosphoribosyltransferase (apt) to grow on the medium with adenine as the sole source of purines. Cell-free extracts of pnd mutants fail to degrade the guanine nucleosides in the absence of phosphate or arsenate ions. These data (and also the ability of pnd mutants to utilize both purine ribonucleosides and deoxyribonucleosides) seem to indicate that the activities induced by pnd mutations are phosphorylase activities.
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PMID:[Escherichia coli K-12 mutants capable of catabolizing purine nucleosides in the absence of purine nucleoside phosphorylase]. 41 Jul 1

Uptake of adenine, hypoxanthine and uracil by an uncA strain of Escherichia coli is inhibited by uncouplers or when phosphate in the medium is replaced by less than 1 mM-arsenate, indicating a need for both a protonmotive force and phosphorylated metabolites. The rate of uptake of adenine or hypoxanthine was not markedly affected by a genetic deficiency of purine nucleoside phosphorylase. In two mutants with undetected adenine phosphoribosyltransferase, the rate of adenine uptake was about 30% of that in their parent strain, and evidence was obtained to confirm that adenine had then been utilized via purine nucleoside phosphorylase. In a strain deficient in both enzymes adenine uptake was about 1% of that shown by wild-type strains. Uptake of hypoxanthine was similarly limited in a strain lacking purine nucleoside phosphorylase, hypoxanthine phosphoribosyltransferase and guanine phosphoribosyltransferase. Deficiency of uracil phosphoribosyltransferase severely limits uracil uptake, but the defect can be circumvented by addition of inosine, which presumably provides ribose 1-phosphate for reversal of uridine phosphorylase. The results indicate that there are porter systems for adenine, hypoxanthine and uracil dependent on a protonmotive force and facilitated by intracellular metabolism of the free bases.
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PMID:Transport of adenine, hypoxanthine and uracil into Escherichia coli. 41 44

We report a third case of 2, 8-dihydroxyadenine stones in a child with a complete lack of the adenine salvage enzyme--adenine phosphoribosyltransferase (APRT). The propositus, a 20-month-old girl of consanguineous Arab parents, presented with multiple urinary tract infections and supposed 'uric acid' stones in the right renal pelvis and left ureter. Both parents and one brother were heterzygotes for the defect, in keeping with an autosomal recessive mode of inheritance. In contrast with the other purine salvage enzyme disorder of childhood with true uric acid stones (the Lesch-Nyhan syndrome), uric acid excretion was normal in all family members. As in our previous case, treatment with allopurinol, without alkali, has eliminated the urinary excretion of 2, 8-dihydroxyadenine: the stones were removed surgically. 2, 8-Dihydroxyadenine should be considered in any child thought to have uric acid stones and tests made to distinguish the two compounds.
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PMID:Complete deficiency of adenine phosphoribosyltransferase: a third case presenting as renal stones in a young child. 42 May 19

A family is reported where four males have developed hyperuricemia, renal damage and, except for the youngest person affected, gout at an early age. The disease appears to be inherited as an X-linked recessive metabolic error. Clinically the patients have developed classical, tophaceous gout before the age of 25 and have suffered repeated attacks of renal colic. Renal tubular damage with decreased ability to concentrate and acidify urine was seen in a family member of only 16 years of age. Progressive renal failure seems to develop slowly. None in the family has shown neurologic symptoms, and two of the four affected men are apparently of at least average intelligence, two slightly below average. One female carrier has repeatedly passed uric acid stones. Studies of the red blood cell lysate have shown a normal activity of enzyme hypoxanthine phosphoribosyltransferase, and an increased level of adenine phosphoribosyltransferase. Skin fibroblasts from affected family members grew normally in the presence of 8-azaguanine. Administration of azathioprine to the patients did not decrease their serum uric acid levels. This is the first family described with this type of disorder of the purine metabolism.
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PMID:Recessive X-linked hyperuricemia with gout and renal damage, normal activity of hypoxanthine phosphoribosyltransferase and resistance to azaguanine. 42 44

Adenine phosphoribosyltransferase (EC 2.4.2.7) has been purified 55,000-fold from normal human erythrocytes. The native molecular weight of the enzyme is 38,200 as determined by sedimentation equilibrium centrifugation. The subunit molecular weight is 18,000 as determined by sodium dodecyl sulfate gel electrophoresis and 17,000 as determined by gel filtration in guanidine hydrochloride, suggesting that the enzyme is a dimer in its native state. Cross-linking the enzyme with dimethylsuberimidate confirms the dimeric structure and peptide mapping data suggested that the subunits are quite similar if not identical. The amino acid composition reveals that 33% of the residues are hydrophobic.
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PMID:Human adenine phosphoribosyltransferase. Affinity purification, subunit structure, amino acid composition, and peptide mapping. 45 64

Chinese hamster ovary cells were treated with the DNA-crosslinking chemicals, mitomycin C (MMC) and porfiromycin (POR), and their monofunctional derivative decarbamoyl mitomycin C (DCMMC). After exposure, the cells were studied for the induction of sister-chromatid exchanges (SCEs) and mutations at the hypoxanthine phosphoribosyltransferase and adenine phosphoribosyltransferase loci. The frequency of SCEs varied significantly in successive sampling intervals, requiring the weighting of each interval by the percentage of second-division mitosis in that interval to obtain the mean SCE frequency for each dose. All 3 compounds were potent inducers of SCEs but weakly mutagenic. All 3 chemicals by concentration were approximately equally effective in inducing SCEs or mutations. When the induced SCEs and mutations were compared at equal levels of survival, DCMMC was slightly more effective than MMC or POR in inducing SCEs and somewhat less mutagenic. These results indicate that the DNA interstrand crosslink is not the major lesion responsible for the induction of SCE or mutation by these compounds.
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PMID:DNA crosslinking, sister-chromatid exchange and specific-locus mutations. 52 65

The adenine analog 4-aminopyrazolo(3,4-d)pyrimidine inhibits the growth of the kinetoplastid (trypanosomatid) flagellate Crithidia fasciculata. This inhibition is partially overcome only by adenine (of a number of purines tested), with an inhibition index of 0.025. More effective reversal of inhibition is obtained with any of a number of naturally occurring pyrimidine compounds, up to a concentration of 0.18 mM. Higher concentrations of pyrimidines or addition of guanine, as well as adenine and uracil, to the medium increases inhibition. The analog (presumably as the ribonucleotide) was found not to be inhibitory to any enzyme of the pyrimidine biosynthetic pathway that could be tested. It is suggested that the analog competes with adenine for adenine phosphoribosyltransferase (AMP:pyrophosphate phosphoribosyltransferase, EC 2.4.2.7), is converted to a ribonucleotide, and is incorporated into nucleic acid.
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PMID:Inhibitory action of the adenine analog, 4-aminopyrazolo(3,4-d)pyrimidine, in Crithidia fasciculata. 55 73

The expression of human mitochondrial thymidine kinase (mt TK) was investigated by polyacrylamide electrophoresis in 19 independent human-mouse somatic cell hybrids which allowed all human chromosomes to be analyzed. In 8 hybrid clones the presence of this enzymatic activity could be demonstrated. Human mt TK segregated concordantly with human adenine phosphoribosyltransferase (APRT) and human chromosome 16. Discordant segregation with all other human chromosomes was demonstrated by karyotype and isozyme analyses. These results suggest that human mt TK is coded for by a gene on chromosome 16 of the nucleus. Thus human mt TK is genetically different from human cytosol thymidine kinase which is coded for by a gene on chromosome 17. The appearance of one heteropolymer band after electrophoretic separation of human and murine mt TK supports the notion that both enzymes have dimeric structures.
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PMID:Human mitochondrial thymidine kinase is coded for by a gene on chromosome 16 of the nucleus. 60 84

Mutants of human lymphoblastoid cell lines have been isoalted, which are resistant to 6-thioguanine or to 2,6-diaminopurine. They have been partially characterized and shown to be almost totally deficient in HGPRT and APRT, respectively. Cell lines doubly mutant for HGPRT deficiency and resistance to ouabain have also been isolated. All mutants were indistinguishable from the respective parental lines by criteria other than those leading specifically to their drug resistant phenotypes. The use of these mutants in the production of hybrids between two lines of suspension-growing human lymphoblastoid cells is discussed.
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PMID:Isolation and preliminary characterization of drug resistant mutants of human lymphoblastoid cells. 61 7

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