EC:2.7.7.8 - FACTA Search

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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 synthesis of 1-methyl-6-thioguanosine 5'-diphosphate and its conversion to poly(1-methyl-6-thioguanylic acid) by means of polynucleotide phosphorylase are described. The polymer exhibited cooperative behavior (Tm = 294 K in the absence of added NaCl) characteristic of a highly stacked single-stranded helical array. In a high salt environment (0.5 M NaCl) the melting was much less cooperative and gave a higher Tm (313 K); this is suggestive of interstrand aggregation involving hydrogen bonding. The polynucleotide exhibited a remarkably high pKa (6.2) compared to that of the mononucleotide (2.6), and formed a very stable acid structure (Tm = 356 K in 50% ethylene glycol). Comparisons with poly(1-methyl-6-thioinosinic acid) and poly(6-thioguanylic acid) establish that both the 2-amino group and the 1-methyl group are required for the formation of the stable acid structure.
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PMID:Polyribonucleotides containing thiopurines. Synthesis and properties of poly(1-methyl-6-thioguanylic acid). 2 Sep 55

Native Escherichia coli polynucleotide phosphorylase can be retained on blue-dextran--Sepharose. The bound enzyme cannot be displaced by its mononucleotide substrates such as ADP, UDP, CDP, GDP and IDP, but it is easily eluted by its polymeric substrates. Under identical conditions, lactate dehydrogenase, bound on blue-dextran--Sepharose, is not eluted by poly(I) but can be specifically displaced by NADH. On the other hand, the trypsinized polynucleotide phosphorylase, known to be an active enzyme which has lost its polynucleotide site, does not bind to the affinity column. The native polynucleotide phosphorylase can also be tightly bound to poly(U)--agarose and displaced from it only by high salt concentration. The trypsinized enzyme is not bound at all on poly(I)--AGAROSe. Moreover, the native enzyme linked on blue-dextran--Sepharose, remains active indicating a free access of nucleoside diphosphates to the active center. These results taken together show that the dye ligand is not inserted onto the mononucleotide binding site and suggest rather that it binds to the polynucleotide binding region. The implications of this study and the application of blue-dextran--Sepharose affinity chromatography to other proteins having affinity for nucleic acids are discussed.
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PMID:Blue-dextran--Sepharose affinity chromatography: recognition of a polynucleotide binding site of a protein. 34 36

Chemically synthesized 2-azaadenosine 5'-diphosphate (n2ADP) and 2-azainosine 5'-diphosphate (n2IDP) were polymerized to yield poly(2-azaadenylic acid), poly(n2A), and poly(2-azainosinic acid), poly(n2I), using Escherichia coli polynucleotide phosphorylase. In neutral solution, poly(n2A) and poly(n2I) had hypochromicities of 32 and 5.5%, respectively. Poly(n2A) formed an ordered structure, which had a melting temperature (Rm) of 20 degrees C at 0.15 M salt concentration. Upon mixing with poly(U), poly(n2A) formed a 1 : 2 complex with Tm of 41 degrees C at 0.15 M salt concentration. Poly(n2A) and poly(n2I) formed three-stranded complexes with poly(I), and poly(A), respectively. Poly(n2A) . 2poly(I), poly(A) . 2poly(n2I), and poly(n2A) . 2poly(n2I) complexes had Tm values of 23, 48, and 31 degrees C at 0.15 M salt concentration, respectively. Poly(n2I) formed a double-stranded complex with poly(C), but its Tm was very low.
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PMID:Polynucleotides. XLIV. Synthesis and properties of poly (2-azaadenylic acid) and poly(2-azainosinic acid). 36 Oct 91

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

Rabbit globin mRNA species containing poly(A) segments of different lengths were prepared by partial phosphorolysis of mRNA with Escherichia coli polynucleotide phosphorylase. By varying the salt concentration and the time of incubation of the phosphorolysis mixture, as well as performing oligo(dT)-cellulose chromatography at 22 degrees C and at 4 degrees C, globin mRNA preparations containing poly(A) segments of approximately 122, 95, 68, 39, 32, 21, and 16 adenylate residues were obtained. It was found that the functional stability of the mRNA species containing 32 or more adenylate residues after injection into Xenopus laevis oocytes equaled that of the native globin mRNA. On the other hand, the functional stability of mRNA containing an average number of 21 adenylate residues was about 30% of the native mRNA, while that of mRNA containing 16 adenylate residues was as low as poly(A)-free globin MRNA.
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PMID:Globin mRNA species containing poly(A) segments of different lengths. Their functional stability in Xenopus oocytes. 77 10

An affinity analog with a 5-bromoacetamido uridine 5'-phosphate moiety bonded to the 3' end of A-U-G has been prepared with the aid of polynucleotide phosphorylase. This 3'-modified, chemically reactive A-U-G analog was used to probe the ribosomal codon binding site. The yield of the reaction depended strongly on the ribosomal source and was sensitive to salt-washing ribosomes. The major crosslinking product was identified to be protein S1. Since the reaction of this 3'-modified A-U-G programmed ribosomes for Met-tRNA-Met-M binding, it is concluded that protein S1 is located at or near the 3'-side of the ribosomal codon binding site.
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PMID:Location of protein S1 of Escherichia coli ribosomes at the 'A'-site of the codon binding site. Affinity labeling studies with a 3'-modified A-U-G analog. 82 27

We have used a photoreactive cross-linking reagent, poly(A/8-N3-A) (a poly(A) of average molecular mass of 100 kDa in which 5-10% of the A residues are replaced by 8-N3-A), to label poly(A) binding proteins of rat liver nuclear envelopes. This reagent was prepared by polymerizing a mixture of ADP and 8-N3-ADP with polynucleotide phosphorylase. The purified poly(A) was labeled in the 5'-position with a 32P group. In nuclear envelopes prepared by a low salt DNase I procedure, the poly(A/8-N3-A) labeled a protein-nucleic acid complex of approximately 270 kDa, which on degradation with RNase U2 or NaOH at pH 10 yielded two polypeptides of approximately 50 and 30 kDa. These photoreaction products were markedly decreased when resealed nuclear envelopes or non-nuclear envelope proteins were irradiated in the presence of poly(A/8-N3-A). The affinity labeling was intensified when resealed vesicles were made leaky by freezing or ultrasonication, suggesting that the poly(A) binding proteins are accessible from the nucleoplasmic but not the cytoplasmic face of the envelope. Moreover binding was specific for poly(A). Alternative reagents, random poly(A/8-N3-A,C,G,U) of about 100 kDa and poly(dA) (molecular mass between 350 and 515 kDa), showed a very low affinity for poly(A) recognition proteins in the low salt DNase I-treated nuclear envelopes; the 270-kDa band was labeled only weakly. The binding site was not protected by poly(A,C,G,U), weakly by poly(dA), and distinctly by poly(A).
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PMID:Poly(A) binding proteins located at the inner surface of resealed nuclear envelopes. 169 Nov 70

In this paper we examine the binding of Escherichia coli transcription termination factor rho to single-stranded RNA. Random polyribonucleotide copolymers containing low ratios of the fluorescent base 1,N6-ethenoadenosine have been synthesized using polynucleotide phosphorylase. Binding of rho to these polynucleotides elicits a significant increase in fluorescence, thus allowing either the direct monitoring of the titration of these polynucleotides with rho or measurement of the competitive displacement of the protein from these probes with other nucleic acids, even in the presence of biologically significant concentrations of ATP. By these techniques, it is shown that the binding site size (n) of rho protein to polynucleotides is 13(+/- 1) nucleotide residues per rho monomer (or 78(+/- 6) nucleotide residues per rho hexamer). Binding constants (K) and co-operativity parameters (omega) for the binding of rho to these polynucleotides have been measured as a function of nucleotide composition and of salt concentration. The results show that the affinity of rho for cytosine residues is quite strong and salt concentration independent, whilst binding to uridine residues is somewhat weaker and very salt concentration dependent. Poly(rC) and poly(dC) bind to rho competitively and with equal affinity and site size, although poly(rC) is the strongest cofactor for activating rho-dependent ATPase and poly(dC) has no ATPase cofactor activity at all. It is also shown that ATP (or ADP or ATP-gamma-S) binding does not change the binding site size of rho on RNA nor decrease its affinity for RNA binding. Circular dichroism measurements of rho binding to phage R17 RNA suggest that the affinity (K omega) of rho for RNA may be increased by ATP. The possible significance of these results for models of rho-dependent transcription termination is discussed in the companion paper.
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PMID:Interactions of Escherichia coli transcription termination factor rho with RNA. I. Binding stoichiometries and free energies. 245 Oct 28

Vibrio costicola polynucleotide phosphorylase (polyribonucleotide: orthophosphate nucleotidyltransferase, EC 2.7.7.8) has been purified to electrophoretic homogeneity. It has an approximate molecular weight of 220 000 and consists of identical subunits with an approximate molecular weight of 72 000. The enzyme appears to be a fairly typical polynucleotide phosphorylase with respect to its pH optima, substrate specificity and requirement for a divalent cation cofactor. However, the effect of salt concentration on its physiologically important phosphorolysis activity suggests that it is a moderately halophilic enzyme, able to function at the intracellular ionic strength of the bacterium. In addition, its ADP polymerization activity is remarkably stimulated by polylysine.
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PMID:Preparation and properties of highly-purified Vibrio costicola polynucleotide phosphorylase. 397 Sep 47

1. Conditions have been established for the estimation of molecular weights of proteins by analytical gel filtration and sucrose-density-gradient centrifugation in 2.5m-potassium chloride-1m-sodium chloride; Halobacterium cutirubrum polynucleotide phosphorylase, DNA-dependent RNA polymerase and RNA-dependent RNA polymerase have been studied by these methods. 2. The RNA-dependent polymerase has also been studied by density-gradient centrifugation in the absence of salt. 3. All three proteins are of unusually low molecular weight compared with similar enzymes from non-halophilic bacteria.
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PMID:Nucleic acid enzymology of extremely halophilic bacteria. Gel-filtration and density-gradient-centrifugation studies of the molecular weights of Halobacterium cutirubrum polynucleotide phosphorylase and deoxyribonucleic acid- and ribonucleic acid-dependent ribonucleic acid polymerases. 511 75

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