Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.8 (polynucleotide phosphorylase)
 723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inherited deficiency of purine-nucleoside phosphorylase (PNPase; purine-nucleoside:orthophosphate ribosyltransferase, EC 2.4.2.1) in humans is associated with a severe deficiency of the T lymphocytes of the immune system. Because of the unsatisfactory nature of previously described model systems, we have selected, cloned, and characterized a mutant mouse T cell lymphoma (S49) completely deficient in PNPase. Of the four substrates of PNPase, only deoxyguanosine at low concentrations is toxic to the PNPase-deficient (NSU-1) cells. In order to delineate the biochemical processes necessary for the sensitivity of the NSU-1 cells to deoxyguanosine, we have isolated a series of secondary mutants resistant to deoxyguanosine from the PNPase-deficient line. One of these mutants is defective in its ability to transport deoxyguanosine into the cell. A second type of mutant cannot phosphorylate the deoxyguanosine and is totally deficient in deoxycytidine kinase activity. A third type of mutant (NSU-1-dGuo-L) can both transport and phosphorylate deoxyguanosine and accumulates dGTP. However, unlike its parent, NSU-1-dGuo-L does not become depleted of dCTP and TTP when exposed to exogenous deoxyguanosine. This observation is accounted for by the fact that the reduction of CDP to dCDP by the ribonucleotide reductase (ribonucleoside-diphosphate reductase, 2'-deoxyribonucleoside-diphosphate:oxidized-thioredoxin 2'-oxidoreductase, EC 1.17.4.1) of NSU-1-dGuo-L cells is not normally sensitive to feedback inhibition by dGTP.Thus, in order to exert its toxicity deoxyguanosine must be transported into the cell, be phosphorylated by deoxycytidine kinase, and be accumulated as dGTP. By inhibiting ribonucleotide reductase, dGTP depletes the cell of dCTP and to some extent TTP, thus preventing the synthesis of DNA, a process necessary for any proliferation-dependent function of T cells.
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PMID:Isolation and characterization of purine-nucleoside phosphorylase-deficient T-lymphoma cells and secondary mutants with altered ribonucleotide reductase: genetic model for immunodeficiency disease. 10 75

O2-Ethyl-UDP and O4-methyl-UDP have been prepared and copolymerized in various proportions with UDP or CDP, using polynucleotide phosphorylase. The copolymers were used as templates for DNA-dependent RNA polymerases in the presence of Mn2+. Both of the O-alkylated uridines caused a similar misincorporations. When copolymerized with U they led to incorporation of CMP and GMP into the poly(A). No AMP or UMP incorporation seemed to be caused by the introduction of O-alkyluridines into either poly(U) or poly(C). The mispairing of O2- and O4-alkyluridine to behave like C or G represents mutagenic events. O2 alkylation of U or T is, in contrast to O4 alkylation, a relatively frequent result of treatment of double-stranded nucleic acids with N-nitroso alkylating agents. In single-stranded nucleic acids both O2 and O4 alkylations of U and T occur to similar extents. Thus, the observed mutagenic effects of O2 and O4 alkylation of U may be involved in the high carcinogenicity of these alkylating agents.
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PMID:Preparation and template activities of polynucleotides containing O2- and O4-alkyluridine. 27 2

Model DNA polymers containing heteroduplex regions of defined sequence and size were synthesized using polynucleotide phosphorylase and calf thymus terminal transferase. Heteroduplexes were of the form (dG)n-d(C12AmC-x), where m - 1-6, and (dG)n-d(C10GmC-x), where m = 1 and 3-5. Thermal melting studies of the model DNAs indicated that the heteroduplex regions did not disrupt the cooperative interaction between the flanking regions of dG-dC base pairs. thus, it is possible that the heteroduplex nucleotides are accommodated in a stacked helical structure.
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PMID:Synthesis and thermal melting behavior of oligomer-polymer complexes containing defined lengths of mismatched dA-dG and dG-dG nucleotides. 30 Oct 42

Under the conditions that RNA ligase converts the tetranucleotide, pA-A2-A, to larger polynucleotides, no such polymerization can be detected with the derivative, pA-A2-A(MeOEt), that possesses a terminal 2'-0-(alpha-methoxyethyl) group. The protection against self condensation offered by the methoxyethyl group in this system allows the specific joining of donor and acceptor oligonucleotides in reaction mixtures containing equimolar concentrations of the two species. Thus, the enzyme, together with ATP, converts equimolar quantities of A-A2-A and pA-A2-A(MeOEt) to A-A6-A(MeOEt) in 55% yield, while a similar reaction with A-A2-A and pU-U2-U(MeOEt) results in a 40% yield of A-A3-U3-U(MeOEt). The intermediate in these ligations is a disubstituted pyrophosphate composed of the donor molecule and the adenylate moiety deriving from ATP. In the case of the intermediate arising from the blocked adenosine tetranucleotide, the assigned structure, A5'pp5'A-A2-A(MeOEt), has been confirmed by chemical synthesis. The pyrophosphate derivative is able to participate in joining reactions in the absence of ATP. These observations constitute an efficient approach to the synthesis of larger polynucleotides from a specific series of oligonucleotide blocks since (i), the methoxyethyl group can be easily introduced into each oligonucleotide using the single addition reaction catalyzed by polynucleotide phosphorylase in the presence of a 2'-0-(alpha-methoxyethyl)nucleoside 5'-diphosphate, and (ii), the blocking group may be readily removed under mild conditions after each successive ligation reaction. Two other octanucleotides, I-I2-A-U3-U and U-U2-C-I3-A, have also been synthesized by this method, and these molecules correspond (with I substituting for G) to sequences appearing near the 3' terminus of the 6S RNA transcribed from phage lambda DNA. The terminal 3'-phosphate group serves equally well as a blocking group for specific ligation reactions in that the ligase converts equimolar amounts of A-A2-A and pA-A2-Ap to A-A6-Ap in 50% yield.
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PMID:The use of terminal blocking groups for the specific joining of oligonucleotides in RNA ligase reactions containing equimolar concentrations of acceptor and donor molecules. 100 14

1H nuclear magnetic resonance (NMR) spectra of a self-complementary ribosyl hexanucleotide, A2GCU2, are investigated as a function of temperature and ionic strength in D2O. Seventeen nonexchangeable base and ribose-H1' resonances are resolved, and unequivocally assigned by a systematic comparison with the spectra of a series of oligonucleotide fragments of the A2GCU2 sequence varying in chain length from 2 to 5. Changes in the chemical shifts of the 17 protons from the hexamer as well as the six H1'-H2' coupling constants are followed throughout a thermally induced helix-coil transition. These sigma vs. T and J vs. T (degrees C) profiles indicate that the transition is not totally cooperative and that substantial populations of partially bonded structures must exist at intermediate temperatures, with the central G-C region being most stable. Transitions in chemical shift for protons in the same base pair exhibit considerable differences in their Tm values as the data reflect both thermodynamic and local magnetic field effects in the structural transition, which are not readily separable. However, an average of the Tm values agrees well with the value predicted from studies of the thermally induced transition made by optical methods. The values of J1'-2' for all six residues become very small (less than 1.5 Hz) at low temperatures indicating that C3'-endo is the most heavily populated furanose conformation in the helix. The sigma values of protons in the duplex were compared with those calculated from the ring current magnetic anisotropies of nearest and next-nearest neighboring bases using the geometrical parameters of the A'-RNA and B-DNA models. The sigma values of the base protons in the duplex calculated assuming the A'-RNA geometry agree (+/- approximately 0.1 ppm) with the observed values much more accurately than those calculated on the basis of B-DNA geometry. The measured sigma values of the H1' are not accurately predicted from either model. The synthesis of 35 mg of A2GCU2 using primer-dependent polynucleotide phosphorylase is described in detail with extensive discussion in the microfilm edition.
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PMID:Conformation and interaction of short nucleic acid double-stranded helices. I. Proton magnetic resonance studies on the nonexchangeable protons of ribosyl ApApGpCpUpU. 118 24

Filaments formed by the polymerization of RecA protein along DNA in the presence of Mg2+ and adenosine 5'-0-(3-thiotriphosphate) (ATP gamma S) are seen by electron microscopy to have a 10 nm diameter with a 9 nm helical repeat. When certain preparations of apparently pure RecA protein are incubated with Mg2+ and ATP gamma S in the absence of nucleic acid for extended times, very long filaments with the same 10 nm diameter and 9 nm axial repeat are seen. We show here that these long 10 nm filaments can contain RNA which is present as a contaminant of the RecA protein and poly(A) which is synthesized during the incubations by an activity that is apparently polynucleotide phosphorylase. RecA protein purified by a procedure developed in this laboratory did not contain RNA and did not form these very long 10 nm filaments. However, when exogenous RNA was added to this protein, 10 nm filament formation was observed.
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PMID:10 nm RecA protein filaments formed in the presence of Mg2+ and ATP gamma S may contain RNA. 241 90

Ribosomal protein S15 and polynucleotide phosphorylase of E. coli are encoded by two adjacent genes, rpsO and pnp, respectively. Analysis of in vivo transcripts from these two genes shows that they are within the same operon (S15 operon). By correlating the 5' and 3' ends of their in vivo transcripts with the DNA sequence, we have identified several features of the operon structure. These features include a promotor upstream from rpsO, an attenuator downstream from rpsO and an RNA processing site between these two genes.
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PMID:Attenuation and processing of RNA from the rpsO-pnp transcription unit of Escherichia coli. 241 37

We have studied the kinetics of guanine incorporation into DNA in mouse T-lymphoma (S-49) mutant cells [PNPase (purine-nucleoside phosphorylase)- and HGPRTase (hypoxanthine: guanine phosphoribosyltransferase)-deficient] that are incapable of converting dGuo (deoxyguanosine) to Gua (guanine) ribonucleotides. Of the two possible pathways for an exogenous guanine source to reach DNA, firstly: dGuo----dGMP----dGDP----dGTP and secondly: Gua----GMP----GDP----dGDP----dGTP only the second pathway was found to be functional in providing guanine for DNA replication, although deoxyguanosine readily produced toxic cellular dGTP levels via the first pathway. The functional guanine-nucleotide-precursor pools for DNA are rather small; further, the depletion of the small GMP pool, but not that of GDP, GTP and dGTP, correlated well with the inhibition of DNA synthesis by mycophenolic acid, an IMP dehydrogenase inhibitor. These results support the hypothesis that guanine-nucleotide incorporation into DNA is highly compartmentalized and that a small functional guanine-nucleotide pool, e.g., the GMP pool, may serve a crucial role in limiting the availability of DNA precursor substrate.
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PMID:Compartmentation of guanine nucleotide precursors for DNA synthesis. 242 29

Using the enzymes terminal deoxyribonucleotidyltransferase (EC 2.7.7.31) and polynucleotide phosphorylase (EC 2.7.7.8), we constructed polyriboadenylic acid tracts, approximately 8000 AMP residues long, attached to the 3'-terminus of a synthetic deoxynucleotide. The polyadenylated DNA, termed the "signal strand", was used in a displacement-type nucleic acid probe assay (see pp 1631-6, this issue). A probe-signal strand complex was made by hybridizing the signal strand to a deoxycytidylate-terminal probe DNA. The probe-signal strand complex was immobilized on an oligo (dG)-cellulose support and subsequently displaced from the immobilized hybrid complex with various amounts of analyte DNA. After the displacement procedure, the polyadenylate tracts were converted to ATP by the combined action of polynucleotide phosphorylase and pyruvate kinase. ATP was quantified by a bioluminescence assay with luciferase from Photinus pyralis. Displacement events were also quantified with biotinylated signal strand bound to avidin-conjugated horseradish peroxidase. Such enzyme-amplified assays offer considerable versatility: they may be coupled to a variety of detection systems including colorimetry, fluorimetry, and luminometry.
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PMID:Nonisotopic detection methods for strand displacement assays of nucleic acids. 242 59

The pnp gene is located at 69 min on the Escherichia coli chromosome adjacent to the rpsO gene which encodes the ribosomal protein S15. In this paper, we present the sequence of a 3030-nucleotide DNA fragment containing the open reading frames coding for ribosomal protein S15 and polynucleotide phosphorylase. Translation of pnp is initiated by 5'-UUG-3' codon separated by 7 nucleotides from a good ribosome binding site. Codon usage in this gene is typical of highly expressed proteins of E. coli. Some of the transcripts of the pnp gene terminate just after the stem of the terminator t2 visible in the nucleotide sequence. However, a very strong read-through occurs at this site, thus permitting many of the pnp transcripts to extend beyond this transcription terminator. We also describe the primary structure homologies between a 69-amino-acid stretch of polynucleotide phosphorylase and the four homologous stretches of ribosomal protein S1 which form its RNA binding site. The possibility that this 69-amino-acid stretch constitutes the polynucleotide binding domain of polynucleotide phosphorylase is discussed.
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PMID:Nucleotide sequence of the pnp gene of Escherichia coli encoding polynucleotide phosphorylase. Homology of the primary structure of the protein with the RNA-binding domain of ribosomal protein S1. 243 69


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