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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)

Poly (2'-chloro-2'-deoxyinosinic acid) [poly(Icl)] was synthesized from Icl 5'-DP by polymerization with polynucleotide phosphorylase. UV absorption properties of poly(Icl) are very similar to those of poly(I). Poly(Icl) adopted a multi-stranded ordered form in the presence of 0.95M Na ion. The Tm value of this form was 36 degrees, which resembles that of poly(I) quadruple-stranded form at high salt. CD spectra also suggested presence of these two forms. Upon mixing with poly(C), poly-(Icl) forms a double-stranded 1 : 1 complex, which had very similar Tm-log[Na+] relationship to that of poly(I) . poly(C). Thus it was concluded that the chlorine substitution at 2'-position of the polynucleotide had the similar effect to OH on physical properties of polynucleotides.
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PMID:Polynucleotides. LVII. Synthesis and properties of poly (2'-chloro-2'-deoxyinosinic acid). 46 Nov 98

2'-Deoxy-2'-fluoroadenosine was chemically transformed to its 5'-diphosphate and polymerized with polynucleotide phosphorylase to give poly(2'-deoxy-2'-fluoroadenylic acid) [poly(Af)]. Polymerization proceeded smoothly as in the case of poly(A) and the yield of the polymerization was 55%. The UV absorption spectra of poly(Af) closely resembled those of poly(A) and the hypochromicity was 32% at pH 7.0. The CD profile at 25 degrees and neutrality showed similar pattern to that of other poly(2'-deoxy-2'-halogenoadenylic acids) with somewhat larger [theta] values both in the positive and negative maxima. Acid titration of poly(Af) showed a transition point at pH 5.2 and the Tm of the acid form was 37 degrees which was significantly lower than that of poly(A), but similar to that of poly(2'-azido-2'-deoxyadenylic acid). Poly(Af) formed 1:1 and 1:2 complexes with poly-(U) having Tm of 49 degrees and 62 degrees at 0.04M and 0.15M Na(+) concentration, respectively. Poly(Af) also formed a 1:2 complex with poly(I) and its Tm was 36 degrees at 0.05M Na(+) concentration. These data showed that poly(Af) has rather similar properties to those of poly(A), but not to poly(dA).
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PMID:Polynucleotides. LII. Synthesis and properties of poly(2'-deoxy-2'-fluoroadenylic acid). 67 38

Poly (2'-deoxy-2'-fluoroinosinic acid) [ poly(If)] was synthesized by polymerization of 2'-deoxy-2'-fluoroinosine 5'-diphosphate catalyzed by Escherichia coli polynucleotide phosphorylase. Although the UV absorption properties of poly(If) closely resembled those of poly(I), thermal melting curves at Na+ concentrations of 0.15M and 0.75M suggested two ordered structures for poly(If) neutral form. CD psectra taken at 0.15M Na+ concentration showed rather larger amplitudes in both a peak at 273 nm and a trough at 246 nm, suggesting rather strong vertical stacking of bases. When complexed with poly(C), poly(If) forms a double-stranded complex, poly(If).poly(C) which has Tm's higher by 10-20 degrees than those of poly(If).poly(C) measured under the same conditions. The CD spectrum of this complex resembled that of poly(I).poly(C). The effect of the fluorine atom at the 2'-position on thermal stability of polynucleotides is discussed.
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PMID:Polynucleotides. LVI. Synthesis and properties of poly(2-deoxy-2'-fluoroinosinic acid). 70 58

Polyguanylic acid (poly(G)) was synthesized from GDP in a yield of 60-75% by Thermus thermophilus polynucleotide phosphorylase (polyribonucleotide: orthophosphate nucleotidyltransferase, EC 2.7.7.8) at 70 degrees C, pH 8.5 in the presence of Mg2+. The yield was dependent on the ratio of GDP to Mg2+, but was independent of the concentrations of enzyme or substrate. The maximal rate of GDP polymerization was obtained when the ratio of GDP to Mg2+ was 3:1. However, by prolonged incubation, the higher initial ratio of over 4:1 was preferred because of the rapid consumption of GDP in the reaction mixture. Poly(G) prepared by 1 h incubation was heterogeneous in size from 5 S to over 23 S, but by prolonged incubation of 19 h the size of product converged to 9 S as judged by sucrose density gradient centrifugation. Its chain length was determined by terminal nucleoside analysis to be 200 nucleotides long.
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PMID:An efficient synthesis of polyguanylic acid by a thermophilic polynucleotide phosphorylase. 88 4

Poly (2'-azido-2'-deoxyinosinic acid), [poly (Iz)], was synthesized from 2'-azido-2'-deoxyinosine diphosphate by the action of polynucleotide phosphorylase. Poly (Iz) has UV absorption properties similar to poly (I) and hypochromicity of 11% at 0.15M Na+ and neutrality. In solutions of high Na+ ion concentration, poly (Iz) forms a multi-stranded complex and its Tm at 1.0M Na+ ion concentration was 43 degrees. Upon mixing with poly (C), poly (Iz) forms a 1:1 complex having a Tm lower than that of poly (I)-poly (C) complex in the same conditions. The effect of substitution at the 2'-position of the poly (I) strand was discussed in relation to the interferon-inducing activity.
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PMID:Polynucleotides. XLV Synthesis and properties of poly(2'-azido-2'-deoxyinosinic acid). 90 87

The synthesis of poly(2-amino-6-chloropurinylic acid) [poly(n2cl6Pu)] by the polynucleotide phosphorylase catalyzed polymerization of 2-amino-6-chloro-9-(beta-D-ribofuranosyl)purine 5'-diphosphate and its chemical conversion to poly(6-thioguanylic acid) [poly(s6G)] is described. Poly(s6G) was found to form a relatively unstable complex with poly(C), the properties of which were incompatible with those previously reported for the same complex prepared by another method [Darlix, J.L., Fromageot, P., and Reich, E. (1973), Biochemistry 12, 914]. It was found that poly(s6G) could be thermally converted to a copolymer of which with poly(C) was strikingly similar to that reported earlier for poly(s6G)-poly(C).
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PMID:Polyribonucleotides containing thiopurines: synthesis and properties of poly (6-thioguanylic acid). 97 65

Poly(8-bromoadenylic acid) (poly(8-BrA)) has been synthesized by polymerization of 8-BrADP with polynucleotide phosphorylase in the presence of oligonucleotide primers. In the absence of oligonucleotides, significant (i.e. more than 1%) polymerization does not occur. Oligo(I) primer was removed selectively from the polymer with ribonuclease T1 to yield the homopolymer, poly(8-BrA). End group analysis, based on quantitative infrared measurement of the (Ip)3I-primed polymer, indicates an average degree of polymerization of about 70 residues. The primed polymers and the homopolymer appear to have similar helical structures, probably double-stranded with mutual hydrogen bonding interaction of BrA residues. Preliminary NMR observations of poly(8-BrA) with a tetrainosinic acid primer at the 5' ends of the polymer chain ((Ip)3I-(8-BrA)n) are consistent with the existence of a rigid helical structure below the melting range of the primed polymer. Above the melting range (81 degrees) the H1' coupling constants of (Ip)3I-(8-BrA)n and of polyadenylic acid (poly(A)) suggest a significantly higher population of C3' endo conformation of ribose residues in the primed polymer than in poly(A) at 81 degrees.
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PMID:Poly(8-bromoadenylic acid): synthesis and characterization of an all-syn polynucleotide. 112 40

The location of poly(A) sequences in the RNA of mammalian RNA-tumor viruses was determined by enzymatic analyses. The 56-64S viral genomic RNAs, the 20-40S viral subunit RNAs, and the 4-5S poly(A) sequences excised from these viral RNAs were subjected to either hydrolysis with a 3'-OH specific exoribonuclease from Ehrlich ascites tumor cells or phosphorolysis from the 3'-termini with polynucleotide phosphorylase from Micrococcus luteus. Purified adenosine-labeled poly(A) fragments, excised from genomic viral RNAs by RNase A and T(1) digestion, were hydrolyzed with the 3'-OH specific exoribonuclease for various periods of time. Poly(U) filter binding studies of the residual poly(A) indicated that 97% of the poly(A) fragments were hydrolyzed. Adenosine-labeled genomic and subunit viral RNAs and excised poly(A) fragments were phosphorolyzed from their 3'-termini for various periods of time with polynucleotide phosphorylase. The degree of phosphorolysis was monitored by poly(U) filter binding studies, and CCl(3)COOH insolubility and solubility determinations. There was an initial preferential rate of phosphorolysis of the poly(A) sequences of genomic and subunit viral RNAs as compared to the total adenosine-labeled viral RNAs. The data from these two different enzymatic mechanisms of action indicated conclusively that the poly(A) sequences were located at the 3'-termini of genomic and subunit viral RNAs.
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PMID:Polyriboadenylate sequences at the 3'-termini of ribonucleic acid obtained from mammalian leukemia and sarcoma viruses. 437 12

Poly-8-bromoriboadenylic acid was synthesized by the bromination of adenosine-5'-monophosphate to yield 8-bromoadenosine-5'-monophosphate which on conversion to the 5'-diphosphate form was polymerized by polynucleotide phosphorylase (PNPase). The polymer formed a 1:1 hybrid with polyribouridylic acid and the hybrid was found to protect chick embryos against Wesselsbron virus (H10964).
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PMID:Synthesis and protective effects of poly-8-bromoriboadenylic acid: poly ribouridylic acid hybrid against Wesselsbron virus in chick embryos. 609 91

Up to about 50% of the total radioactivity in pulse-labeled RNA in Bacillus brevis 47-5, a high-protein-producing bacterium, was found in the polyadenylated fraction [termed poly(A)-RNA] isolated by adsorption to oligodeoxythymidylic acid-cellulose. Labeled RNA was bound to the cellulose regardless of whether the radioactive precursor was [3H]adenosine or [3H]uridine, showing that the adsorbed material was poly(A)-RNA rather than free poly(A). Poly(A) tracts, isolated after digestion of pulse-labeled RNA with pancreatic and T1 RNases, were homogeneous, with a length of about 95 nucleotides. Susceptibility of the isolated poly(A) tracts to degradation by snake venom phosphodiesterase and polynucleotide phosphorylase indicated that the poly(A) sequences were located directly at the 3'-terminal of the RNA molecules. Comparison of the poly(A)-RNA content in high-protein-producing and nonprotein-producing cells of B. brevis 47 showed much higher levels in the former. Electrophoretic analysis in both denaturing and denaturing polyacrylamide gels of the poly(A)-RNAs showed a heterogeneous population of molecules ranging in size from 23S to 4S. Comparison of the molecular-weight distribution patterns revealed that a significantly greater amount of high-molecular-weight poly(A)-RNA (comigrating with 23S RNA) was present under conditions in which extracellular protein production was high. The possibility that a substantial fraction of the poly(A)-RNA might be involved in the synthesis of extracellular proteins in B. brevis 47 is discussed.
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PMID:Characterization of polyadenylated RNA in a protein-producing bacterium, Bacillus brevis 47. 617 22

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