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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)

2'-O-o-Nitrobenzyluridine, -cytidine and -adenosine were phosphorylated with phosphoryl chloride to the corresponding 5'-phosphates and led to 5'-diphosphates by the method of Moffatt and Khorana. These 2'-O-oNB-nucleoside 5'-diphosphates were incubated with a primer CpApA and polynucleotide phosphorylase in the presence of Mn2+. Tetranucleotides CpApApU, CpApApC and CpApApA were obtained after photosensitive removal of oNB groups in yields of 54-70%.
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PMID:Polynucleotides. XLII1. Limited addition of 2'O-onitrobenzyl nucleotides to the 3'-end of ribooligonucleotide with polynucleotide phosphorylase. 100 16

The kinetics of the phosphorolysis of polynucleotide (as differentiated from oligonucleotide) by polynucleotide phosphorylase of Micrococcus luteus has been investigated. Double reciprocal plots of initial velocity against either inorganic phosphate or polynucleotide concentration are linear, and furthermore, the affinity of the enzyme for either substrate is unaffected by the presence of the other. dADP, an analogue of ADP product, is a competitive inhibitor with respect to Pi and polynucleotidy. (Ap)tA-cyclic-p is a competitive inhibitor with respect to Pi. The results are almost identical with both primer-independent (Form-I) and primer-dependent (Form-T) enzymes, although the various kinetic constants differ. On the vasis of these data a rapid equilibrium random Bi Bi mechanism is proposed. The demonstration of two different inhibitor constants for dADP and the difference between the Michaelis and the inhibitor constant for polyadenylic acid in polynucleotide phosphorolysis indicate at least two binding sites for polyadenylic acid and dADP on M. luteus polynucleotide phosphorylase. Its is suggested that in the phosphorolysis of long chain polymers the second binding site permits the polynucleotide to snap right back into position after removal of I mononucleotide unit and thus leads to the observed processive degradation. A general discussion of oligonucleotide and polynucleotide phosphorolysis and the differences between Form-I and Form-T enzymes in de novo synthesis and degradation of polynucleotides is presented.
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PMID:Kinetic studies on the phosphorolysis of polynucleotides by polynucleotide phosphorylase. 107 70

The disappearance of ribosomes in Escherichia coli cells starved for a carbon source was studied. We used a series of mutants, some of them lacking in ribonuclease I(RNase I, EC 2.7.7.17), and other containing various combinations of modified polynucleotide phosphorylase (PNPase, EC 2.7.7.8) and modified ribonuclease II (RNase II, EC 3.1.4.1). RNA was prepared from the starved mutant cells and separated on polyacrylamide gels. The results obtained indicate that 23 S RNA degradation is similar in all strains that lack RNase I, and is slightly increased in the strain that contains this enzyme. The extent of 16 S RNA degradation is identical in all strains tested. RNA species in the size of 4 S and smaller accumulate in mutants containing modified forms of PNPase and RNase II. The appearance of an RNA species 10% smaller than 16 S RNA (d16 S RNA) was observed in all strains that contain unmodified RNase II. Analysis of ribosomes and polysomes and their RNA content indicated that polysomes are converted to monosomes and these, in turn, to ribosomal subunits. No RNA degradation products were found in polysomes, 70 S, OR 50 C particle; 30 S subunits contained 16 S RNA as well as the d16 S RNA species. Subunits are degraded to a similar extent in all strains lacking RNase I, and at a slightly faster rate in the strain that contains RNase I. The RNA to protein ratio in subunits prepared from starved cells is similar to that of unstarved cultures. Very little degradation of ribosomal proteins occurs in these mutants during carbon starvation. The proteins released from degraded ribosomes are found in the fast sedimenting (20,000 times g) pellet. Cell viability studies indicated a direct correlation between the capacity of the mutants to recovery from starvation and their capacity to degrade RNA. Thus a biological necessity for degradation of ribosomes during starvation is implied. Based on these data we propose that the endonucleolytic degradation of ribosomal RNA is the primary event in starvation degradation. It takes place in ribosomal subunits, which fall apart after the endonucleoltic attack. The RNA pieces produced by this cleavage are degraded to nucleotide by RNase II and PNPase. The ribosomal proteins attach to the cell membrane.
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PMID:The fate of ribosomes in Escherichia coli cells starved for a carbon source. 108 66

A method has been developed for the routine synthesis of 2'(3')-o-monoacyl ribonucleoside 5'-diphosphates for stepwise synthesis of oligoribonucleotides with Escherichia coli polynucleotide phosphorylase. The use of triethyl orthoisovalerate allows the facile preparation of 2'(3')-o-isovaleryl-UDP, -CDP, -ADP, -GDP, -IDP, -EPLISON-APD, eplison-CDP, and N6-isopentenyl-ADP. The synthesis of N6-isopentenyl-ADP from ADP by N1-alkylation and the Dimroth rearrangement to N6 is reported. The effects of several factors including the nature of the divalent cation, pH, SALT CONCENTRATION, AND TIME ON THE EFFICIENCY OF THE POLYNUCLEOTIDE PHPSPHORYLASE CATALYZED SINGLE ADDITIONS OF THE 2'(3')-O-ISOVALERYL RIBONUCLEOSIDE 5'-DIPHOSPHATES TO AN OLIGORIBONUCLEOTIDE PRIMER ARE REPORTED. The syntheses of many tetranucleoside triphosphates and two pentanucleoside tetraphosphates in yields of 20-75 per cent are reported. The 2'(3')-o-isovaleryl derivatives of IDP, eplison-ADP, eplison-CDP, and N6-isopentenyl-ADP were all accepted by polynucleotide phosphorylase as substrates for the monoaddition reaction. The extension of the method to include the syntheses of oligoribonucleotides containing modified nucleosides offers a means of studying the role s of these modification by the use of relatively simple model compounds.
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PMID:Stepwise enzymatic oligoribonucleotide synthesis including modified nucleotides. 109 Mar

Decay of pre-existing ribonucleic acid was studied in Escherichia coli cells subjected to high temperature or to starvation for nitrogen, phosphate, amino acids, or a carbon source. In these studies a series of mutants affected in ribonucleic I(RNase I, EC 3.1.4.22) polynucleotide phosphorylase (EC 2.7.7.8) or ribonuclease II (RNase II, EC 3.1.4.23) were used. Degradation of total RNA and the disappearance of 23 S and 16 S rRNA were followed. The results obtained indicated that, by and large, decay of 23 S and 16 S RNA parallels that of total RNA. Decay of RNA depended on the nuclease content of the cells as well as on the treatment of applied. It was most pronounced during carbon starvation and least in cells deprived of phosphate ions. It was most effective in strains containing all three nucleases and least in the strain defective in all three. The exonucleases polynucleotide phosphorylase and RNase II did not seem to affect the extent of 23 S and 16 S RNA disappearance. Strains with modified exonucleases did accumulate low molecular weight RNA species during treatments which induced considerable degradation of 23 S and 16 S RNA. Based on the above date and previous observations, we suggest that during various starvations a similar mechanism is operative. The 23 S and 16 S RNAs are degraded endonucleolytically, and this is the rate-limiting step during starvation. The exonucleases polynucleotide phosphorylase and RNase II seem to participate primarily in the decay of the low molecular weight RNA species formed by the endonuclease(s), not as yet identified.
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PMID:Decay of ribosomal ribonucleic acid in Escherichia coli cells starved for various nutrients. 109 48

Escherichia coli cells, made permeable to ribonucleoside-5'-diphosphates by treatment with toluene, efficiently promote the synthesis of homo- and heteropolynucleotides. This synthesis is catalyzed by polynucleotide phosphorylase because, among other things, it is inhibited by orthophosphate, and E. coli Q13, a mutant having a Mn-2+-dependent polynucleotide phosphorylase, promotes polynucleotide synthesis in the presence of Mn-2+ but not of Mg-2+. Cells of E. coli B and E. coli MRE 600 (A Mutant lacking ribonuclease I) are about equally active in promoting poly(A, U, G, C) synthesis. Sucrose density gradient and agarose gel electrophoretic analysis of the product show that it is polydisperse with sedimentation coefficients ranging between 4 S and 27 S. The synthesized polynucleotides can be translated by the toluene-treated cells.
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PMID:Synthesis of heteropolyribonucleotides by toluene-treated Escherichia coli cells. 109 65

Some tRNA molecules in solution are sensitive to attack by polynucleotide phosphorylase while others are resistant, even with pure species of tRNA. Further analysis of this behaviour has revealed an underlying microheterogeneity in tRNA structure. In order to clarify the relation between the sensitive and resistant classes of tRNA, and the native and denatured forms with respect to amino acid acceptance, the phosphorolysis of tRNATrp from Escherichia coli has been investigated. Native tRNATrp is similar to species examined previously: resistant and sensitive classes are observed and the sensitive proportion increases with temperature. At 20 degrees C both native and denatured tRNATrp are stable under phosphorolysis conditions, and denaturated tRNATrp is found also to possess resistant and sensitive classes. About 10% of both native and denatured tRNATrp is rapidly phosphorolysed at 20 degrees C, but the rate of conversion of resistant denatured tRNATrp to the sensitive class is about twice as fact as for the native form. Thus it can be concluded that the sensitive molecules of tRNATrp attacked by polynucleotide phosphorylase are not due to denaturation.
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PMID:No correlation between native and denatured forms of tRNA(Trp) form Escherichia coli and the resistant and sensitive molecules characterised by phosphorolysis. Two classes of conformation characterised by phosphorolysis in both native and denatured tRNA(Trp). 109 52

A new form of polynucleotide phosphorylase containing alpha and beta subunits was isolated (form B) by purification without preparative electrophoresis; this form was compared to the enzyme obtained by preparative electrophoresis purification (form A). The Stokes radius of these two forms are very different: 6.4 nm for form A and 8.7 - 9.0 nm for form B; on the other hand the sedimentation coefficients are close: 8.9 S and 9.9 S respectively. Such a result suggests that form B is very asymmetric. The apparent molecular weights, calculated from the Stokes radii and from the sedimentation coefficients, are approximately 365000 for form B and 252000 for form A. The latter is homogeneous on polyacrylamide gel, whereas the former yields two components, one of which behaves similarly to form A. Finally, whereas form A is composed of only one type of subunit, alpha, form B contains two types of chains: alpha (Mr 86000 +/- 5000) and beta (Mr 48000 +/- 2000) in stoichiometric proportions. From these results we believe that one should assume for form B the existence of a complex between form A and beta chains; the role of the latter still remains to be specified.
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PMID:Quaternary structure of polynucleotide phosphorylase from Escherichia coli: evidence of a complex between two types of polypeptide chains. 110 Mar 86

This report concerns the synthesis of poly(5-aminouridylic acid) and of 5-aminouridine-containing trinucleotides. Starting from 5-aminouridine the nucleoside 5'-phosphate was prepared enzymatically with carrot phosphotransferase whereas the nucleoside 5'-diphosphate was prepared chemically and polymerised with polynucleotide phosphorylase. The aminouridine-containing trinucleotides were prepared by known enzymatic procedures. Besides an increase of stability in the secondary structure poly(nh25U) forms a triple-stranded complex with poly(A) and stimulates the poly(Phe) synthesis like poly(U). In contrast to U-nh25U-U, the triplet containing the 3'-terminal aminouridine does not stimulate the binding of Phe-tRNA to 70-S ribosomes. This behavior is discussed with respect to the influence of a modification on the stacking geometry of a codon and the base pairing scheme between the 5'-nucleotide of the anticodon and the 3'-nucleotide of the condon.
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PMID:Physical and coding properties of poly(5-aminouridylic acid) and of 5-aminouridine-containing trinucleotides. 110 84

In a mutant strain defective in polynucleotide phosphorylase, under conditions where the enzyme becomes limiting, it is possible to demonstrate that chemical as well as functional half lives of mRNA become longer if the strain is also missing ribonuclease II. These results allow to unify in a simple model a variety of observations about turnover of RNA in a variety of bacteria.
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PMID:Polynucleotide phosphorylase can participate in decay of mRNA in Escherichia coli in the absence of ribonuclease II. 110 47

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