Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Mycophenolic acid (MA) was demonstrated to be an effective inhibitor of the growth of the intracellular parasitic protozoan Eimeria tenella in tissue culture and guanine was shown to reverse this inhibition as expected for an inhibitor of IMP dehydrogenase (IMP:NAD+ oxidoreductase, EC 1.1.1.205). A high performance liquid chromatography study of the intracellular nucleotide pools labeled with [3H]hypoxanthine was carried out in host cells lacking hypoxanthine-guanine phosphoribosyltransferase, and the depletion of guanine nucleotides demonstrated that the intracellular parasite enzyme was being inhibited by the drug. Kinetic studies carried out on the enzyme derived from E. tenella oocysts demonstrated substrate inhibition by NAD and mycophenolic acid inhibition similar to that found for mammalian enzymes, but different from that for bacterial enzymes. The inhibition by mycophenolic acid was not time-dependent and was immediately reversed upon dilution. As found previously for other IMP dehydrogenases, an Ordered Bi-Bi mechanism prevails with IMP on first followed by NAD, NADH off first, and then XMP. The kinetic patterns are consistent with substrate inhibition at high concentrations of NAD due to the formation of an E X XMP X NAD complex. Uncompetitive inhibition by MA versus IMP, NAD, and K+ was found and this was interpreted as evidence for the formation of an E X XMP X MA complex. A speculative mechanism for the inhibition of the enzyme is offered which is consistent with the fact that E X XMP X MA readily forms, whereas E X IMP X MA does not.
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PMID:IMP dehydrogenase from the intracellular parasitic protozoan Eimeria tenella and its inhibition by mycophenolic acid. 287 41

Mycophenolic acid, an inhibitor of purine metabolism, was shown to block the replication of vaccinia virus in normal cell lines. This observation led to the development of a dominant one-step plaque selection system, based on expression of the Escherichia coli gpt gene, for the isolation of recombinant vaccinia viruses. Synthesis of xanthine-guanine phosphoribosyltransferase enabled only the recombinant viruses to form large plaques in a selective medium containing mycophenolic acid, xanthine, and hypoxanthine. To utilize the selection system efficiently, we constructed a series of plasmids that contain the E. coli gpt gene and allow insertion of foreign genes into multiple unique restriction endonuclease sites in all three reading frames between the translation initiation codon of a strong late promoter and synthetic translation termination sequences. The selection-expression cassette is flanked by vaccinia virus DNA that directs homologous recombination into the virus genome. The new vectors allow high-level expression of complete or partial open reading frames and rapid construction of recombinant viruses by facilitating the cloning steps and by simplifying their isolation. The system was tested by cloning the E. coli beta-galactosidase gene; in 24 h, this enzyme accounted for approximately 3.5% of the total infected-cell protein.
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PMID:Escherichia coli gpt gene provides dominant selection for vaccinia virus open reading frame expression vectors. 313 Apr 92

Yeast mutants lacking activity of the enzyme hypoxanthine:guanine phosphoribosyltransferase (H:G-PRT) have been isolated by selecting for resistance to 8-azaguanine in a strain carrying the wild type allele, ade4%, of the gene coding for amidophosphoribosyltransferase (PRPPAT), the first enzyme of de novo purine synthesis. The mutants excrete purines and are cross-resistant to 8-azaadenine. They are recessive and represent a single complementation group, designated hpt1. Ade4-su, a prototrophic allele of ade4 with reduced activity of PRPPAT, is epistatic to hpt1, suppressing purine excretion and resistance to azaadenine but not resistance to azaguanine. The genotype ade2hpt1 does not respond to hypoxanthine. Hpt1 complements and is not closely linked to the purine excreting mutants pur1 to pur5. Hpt1 and pur6, a regultory mutant of PRPPAT, are also unlinked but do not complement, suggesting a protein-protein interaction between H:G-PRT and PRPPAT. Mycophenolic acid (MPA), an inhibitor of de novo guanine nucleotide synthesis, inhibits the growth of hpt1 and hpt1+. Xanthine allows both genotypes to grow in the presence of MPA whereas guanine only allows growth of hpt1+. Activity of A-PRT, X-PRT and H:G-PRT is present in hpt+. Hpt1 lacks activity of H:G-PRT but has normal A-PRT and X-PRT.
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PMID:Hypoxanthine: guanine phosphoribosyltransferase mutants in Saccharomyces cerevisiae. 635 64