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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)

A 7.1 kb HindIII-XhoI fragment of E. coli DNA which contains the structural gene for ribonuclease II (rnb) has been cloned in the recombinant plasmid pDK24. At least two constitutively expressed genes are encoded on the fragment as shown by maxicell analysis. On denaturing polyacrylamide gels RNase II appears as a single 72,000 dalton species. The approximate site of transcription initiation of the rnb gene has been mapped. Although derivatives of E. coli harboring pDK24 contained 10-fold more RNase II activity that wild type strains without the plasmid, the degradation rate of mRNA was similar in all strains tested. Strains deficient in both RNase II and polynucleotide phosphorylase appear inviable.
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PMID:Amplification of ribonuclease II (rnb) activity in Escherichia coli K-12. 633 77

1. Polynucleotide phosphorylase [polyribonucleotide: orthophosphate nucleotidyltransferase, EC 2.7.7.8] was purified to near homogeneity from the photosynthetic bacterium, Rhodospirillum rubrum. The purified enzyme had a molecular weight of approximately 160,000, and consisted of two equivalent subunits of approximately 76,000 daltons. It catalyzed the three reactions described below. 2. In the exchange reaction of the beta-phosphate of nucleoside diphosphates with Pi by the purified enzyme in the presence of 3.3 mM Pi, 6.7 mMCl2, and 0.33 mM or 1.0 mM nucleotide at pH 8.0 and 20 degrees C, ADP, GDP, and CDP, and CDP were better substrates than UDP, while IDP and deoxyribonucleoside diphosphates hardly served as substrates. The ADP-Pi exchange activity was significantly inhibited by high concentrations of either ADP or Pi. 3. In the polymerization reaction of ribonucleoside diphosphates by the purified enzyme in the presence of 6.7 mM nucleotide and 6.7 mM MgCl2 at pH 8.0 and 20 degrees C, ADP was the best substrate; the activities relative to that with ADP were 55% with UD, 51% with CDP, and 48% with IDP, while GDP hardly served as a substrate, 4. In the phosphoryolysis reaction of polynucleoside diphosphates by the purified enzyme in the presence of 1.0 mM polynucleotide, 6.7 mM Pi, and 6.7 mM MgCl2 at pH 8.0 and 20 degrees C, poly[U] was the best substrate; the activities relative to that with poly[U] were 32% with poly[A], 28% with poly[I], 21% with poly[C], and 2% with yeast RNA, while poly[G] and yeast DNA hardly served as substrates. 5. The three kinds of activities of the purified enzyme described above were stimulated by divalent cations such as Mg2+, Mn2+, Cd2+, and Co2+.
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PMID:Purification and properties of polynucleotide phosphorylase from photosynthetic bacterium Rhodospirillum rubrum. 676 23

Photorhabdus sp. strain K122 was found to produce higher levels of the protein CAP87K when cultured at 9 degrees C than when cultured at 28 degrees C. NH2-terminal sequencing of this protein revealed homology with the NH2 terminus of Escherichia coli polynucleotide phosphorylase. A 4.5-kb DNA fragment from strain K122 was cloned and sequenced and found to have 75% identity to the E. coli rpsO-pnp operon coding for ribosomal protein S15 and polynucleotide phosphorylase, respectively. Predicted proteins encoded by this sequence were found to have 86% identity with ribosomal protein S15 and polynucleotide phosphorylase from E. coli, and the genes were called rpsO and pnp, respectively. Quantitation of rpsO and pnp mRNA transcripts from K122 revealed that there was a 2.4-fold increase in the level of pnp mRNA and a 1.9-fold decrease in the level of rpsO mRNA at 9 degrees C relative to 28 degrees C. Primer extension analysis revealed the positions of possible promoters controlling the expression of rpsO and pnp in K122, suggesting that the genes are expressed independently. The increase in the level of pnp mRNA at 9 degrees C was not due to any relative increase in its stability compared with that of the rpsO transcript. However, there was evidence to suggest that it may be a result of a cold-inducible promoter, P2, in the intergenic region between rpsO and pnp. Several features of P2 support the suggestion that it may be cold inducible.
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PMID:The gene coding for polynucleotide phosphorylase in Photorhabdus sp. strain K122 is induced at low temperatures. 820 56

In the presence of Mg2+ ions, polynucleotide phosphorylase (PNPase, EC 2.7.7.8) is known to synthesize RNA-like polymers using ribonucleoside-5'-diphosphate (NDP) substrates but to be unable to utilize deoxyribonucleoside substrates. Our experiments show that when MgCl2 is replaced by FeCl3, PNPase becomes able to synthesize deoxyheteropolymers using deoxyribonucleoside-5'-diphosphates (dNDPs). The deoxyheteropolymer formed from the four dNDPs is degraded by pancreatic DNase, but not by RNase, and is readily used as a template by DNA-dependent DNA polymerase. Synthesis of this DNA-like polymer is accomplished de novo without the help of any primer or preexisting template. What is more, dA/dG and dC/dT ratios of polymers synthesized by different bacterial PNPases closely match ratios found in DNA of the bacterial species the enzyme came from.
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PMID:De Novo Synthesis of DNA-Like Molecules by Polynucleotide Phosphorylase In Vitro 866 1

ColE1 DNA replication is initiated by RNA II and inhibited by RNA I. Control of the replication occurs through the interaction between RNA I and RNA II. Therefore, RNases involved in the metabolism of RNA I and RNA II are expected to play a key role in the control of the ColE1 plasmid replication. RNase H, RNase E, RNase III, RNase P, and polynucleotide phosphorylase carry out the many specific reactions of the RNA metabolism.
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PMID:RNases in ColE1 DNA metabolism. 890 10

Genome comparison permits identification of chromosome regions conserved during evolution. Bacillus subtilis and Escherichia coli are so distant that there exists very few conserved landmarks in their genome organisation. Analysis of the conserved cmk rpsA cluster pinpointed the importance of cytosine nucleotide metabolism. In these bacteria, mRNA turnover provides an efficient means to fulfil the need for CDP as a precursor of DNA synthesis. The cmk rpsA operon is responsible for CDP synthesis. This function is self-explained in the case of the cmk gene (which codes for cytidylate kinase). The case of rpsA, that codes for ribosomal protein S1, is more subtle. It is suggested here that S1 is a RNA-binding protein helping polynucleotide phosphorylase (PNPase, known to be phylogenetically related to S1) to degrade mRNA, or helper molecule involved in other RNase activities. This provides an explanation for the elusive function of PNPase, which generates nucleoside diphosphates (not monophosphates) when degrading RNA. This also accounts for the discovery that the B. subtilis comR gene product is PNPase. This article briefly discusses the availability of cytosine nucleotides in eukaryotes, and suggests that they are derived from phospholipids turnover. Finally, the GC content of genomes is discussed in this new light.
DNA Res 1997 Feb 28
PMID:Comparison between the Escherichia coli and Bacillus subtilis genomes suggests that a major function of polynucleotide phosphorylase is to synthesize CDP. 917 91

The effect of 3'-exoribonucleases on the polyadenylation of mRNA in Escherichia coli was studied by comparing the synthesis and levels of poly(A) RNA in wild-type E coli and mutant strains defective in the two major 3'-exoribonucleases: polynucleotide phosphorylase and ribonuclease II. Mutations which substantially reduced the activity of these 3'-exonucleases caused a 10-fold increase in pulse-labeling of total poly(A) RNA in intact cells. When the net rate of RNA synthesis was measured in permeabilized cells, the mutant with defective 3'-exonucleases showed 20- to 60-fold increased synthesis of total poly(A) RNA as well as of specific polyadenylated mRNAs, with less than two-fold changes in non-poly(A) RNA. Measurement of mRNA polyadenylation in permeable cells under conditions when 3'-exoribonucleases were inactive showed a 6-fold higher rate of poly(A) synthesis in the exonuclease-deficient mutant strain, suggesting a higher concentration of mRNA 3'-ends amenable to polyadenylation. Steady-state levels of poly(A) RNA, measured by the ability to serve as template for oligo(dT)-dependent complementary DNA synthesis, also increased more than 40-fold when the 3'-exonucleases were inactivated. Monitoring of the length of the poly(A) tracts by denaturing polyacrylamide gel electrophoresis showed chain lengths of up to 45 residues in the 3'-exonuclease-deficient mutant, whereas most of the poly(A) tracts in the parent strain were shorter than 12 residues. These results show that 3'-exonucleases reduce the level of polyadenylated mRNA in E coli not merely by causing its degradation but also by reducing its rate of synthesis, presumably by competing with poly(A) polymerase for the 3'-ends of mRNA.
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PMID:Polyadenylated mRNA in Escherichia coli: modulation of poly(A) RNA levels by polynucleotide phosphorylase and ribonuclease II. 924 86

We have identified a gene in Escherichia coli that is required for both the normal decay of mRNA and RNA synthesis. Originally designated mrsC (mRNA stability), the mrsC505 mutation described here is, in fact, an allele of the hflB/ftsH locus (R.-F. Wang et al., J. Bacteriol. 180:1929-1938, 1998). Strains carrying the thermosensitive mrsC505 allele stopped growing soon after the temperature was shifted to 44 degrees C but remained viable for several hours. Net RNA synthesis stopped within 20 min after the shift, while DNA and protein synthesis continued for over 60 min. At 44 degrees C, the half-life of total pulse-labeled RNA rose from 2.9 min in a wild-type strain to 5.9 min in the mrsC505 single mutant. In an rne-1 mrsC505 double mutant, the average half-life was 19.8 min. Inactivating mrsC significantly increased the half-lives of the trxA, cat, secG, and kan mRNAs, particularly in an mrsC505 pnp-7 rnb-500 rne-1 multiple mutant. In addition, Northern analysis showed dramatic stabilizations of full-length mRNAs in a variety of mrsC505 multiple mutants at 44 degrees C. These results suggest that MrsC, directly or indirectly, controls endonucleolytic processing of mRNAs that may be independent of the RNase E-PNPase-RhlB multiprotein complex.
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PMID:The Escherichia coli mrsC gene is required for cell growth and mRNA decay. 953 93

The gene encoding for polynucleotide phosphorylase (pnp) of a new biovar of Staphylococcus aureus subsp. aureus (NBSA) has been isolated from a genomic library of strain M280(0). The coding region consisted of a 1094-bp HindIII-HindIII DNA fragment encoding for a protein of 277 amino acids with a calculated molecular mass of 29.5 kDa. The nucleotide sequence of the structural gene, contained a continuous open reading frame of 836 bp, showed significant homology with the genes of bacterial polynucleotide phosphorylase from Bacillus subtilis (67.7% identity), from Haemophilus influenzae (62.4% identity), from Pseudomonas luminescens (61.6% identity), and from Escherichia coli (59.7% identity). DNA-DNA and DNA-colony slot-blot hybridizations demonstrated that the pnp gene, employed as a molecular probe, is specific for the identification of NBSA strains.
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PMID:Isolation and characterization of a DNA probe for Staphylococcus aureus subspecies aureus biovar. 1007 26

The hypothesis that vestiges of the ancestral RNA-dependent RNA polymerase involved in the replication of RNA genomes of Archean cells are present in the eubacterial RNA polymerase beta' subunit and its homologues is discussed. We show that in the DNA-dependent RNA polymerases from the three cellular lineages a very conserved sequence of eight amino acids also found in a small RNA-binding site previously described for the E. coli polynucleotide phosphorylase and the S1 ribosomal protein is present. The optimal conditions for the replicase activity of the avian myeloblastosis virus reverse transcriptase are presented. The evolutionary significance of the in vitro modifications of substrate and template specificities of RNA polymerases and reverse transcriptases is also discussed.
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PMID:The origin and early evolution of nucleic acid polymerases. 1153 40


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