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)

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

A new route for the synthesis of 1-(beta-D-allofuranosyl)uracil ("allo-uridine") and the corresponding 6'-deoxy-derivative ("6'-deoxy-allo-uridine") as well as for 1-(beta-D-altrofuranosyl) uracil ("altro-uridine") is described. NMR studies of allo-uridine revealed a preferred conformation with the base in anti-position, C-2'-endo-pucker of the sugar moiety, the 5'-OH-group above the furanose ring and the 5'-CH2OH-group in a gt position with the OH-group in the plane of the furanose ring. The same conformation is found for the 5'- and 6'-phosphate, indicated by the influence of the phosphate group on the H-6 signal. Allo-uridine is phosphorylated by the phosphotransferases from carrot and from malt sprouts only in the 6'-position. The phosphate ester is hydrolysed by unspecific phosphatases but not by 5'-nucleotidase. A (3' leads to 6')-dinucleoside phosphate is formed by pancreatic ribonuclease with 2',3'-cyclic cytidylic acid and allo-uridine. It is split by nuclease S1, but not by snake-venom phosphodiesterase. It has no primer activity for polynucleotide phosphorylase. All-uridine 6'-diphosphate could not be prepared enzymatically by nucleotide kinase or by chemical methods, where 5',6'-cyclic phosphates are formed, which are hydrolysed exclusively to 6'-monophosphates.
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PMID:Synthesis, conformation and enzymatic properties of 1-(beta-D-allofuranosyl)uracil and some derivatives. 631 65

Ribosomal RNA is normally a stable molecule in bacterial cells with negligible turnover. Antibiotics which impair ribosomal subunit assembly promote the accumulation of subunit intermediates in cells which are then degraded by ribonucleases. It is predicted that cells expressing one or more mutated ribonucleases will degrade the antibiotic-bound particle less efficiently, resulting in increased sensitivity to the antibiotic. To test this, eight ribonuclease-deficient strains of Escherichia coli were grown in the presence or absence of azithromycin. Cell viability and protein synthesis rates were decreased in these strains compared with wild type cells. Degradation of 23S rRNA and recovery from azithromycin inhibition were examined by 3H-uridine labeling and by hybridization with a 23S rRNA specific probe. Mutants defective in ribonuclease II and polynucleotide phosphorylase demonstrated hypersensitivity to the antibiotic and showed a greater extent of 23S rRNA accumulation and a slower recovery rate. The results suggest that these two ribonucleases are important in 23S rRNA turnover in antibiotic-inhibited E. coli cells.
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PMID:Accumulation and turnover of 23S ribosomal RNA in azithromycin-inhibited ribonuclease mutant strains of Escherichia coli. 1609 36

The reaction of polyuridylic acid with sodium bisulfite produces modified polymers in which up to 95% of the uracil residues have been converted to uracil-6-sulfonate residues. A 91.6% bisulfite-saturated polymer was found to resist hydrolysis by spleen phosphodiesterase and phosphorolysis by polynucleotide phosphorylase. Digestion by pancreatic ribonuclease was successful and gave the bisulfite adduct of uridine-3'-phosphate. Treatment of this nucleotide adduct with acid phosphatase afforded the bisulfite adduct of uridine. The ability of polyuridylic acid to bind to ribosomes, and to stimulate the binding of phenylalanine tRNA to ribosomes was abolished by progressive bisulfite saturation of the polymer. The rate of decline of these functionsf with increasing bisulfite content, was less sharp than the loss of phenyl-alanine coding ability o, the modified polymer.
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PMID:Modification of polyuridylic acid by bisulfite. II: Studies on ribosomal binding and enzymatic hydrolysis. 2419 77

Transcription termination in bacteria can occur either via Rho-dependent or independent (intrinsic) mechanisms. Intrinsic terminators are composed of a stem-loop RNA structure followed by a uridine stretch and are known to terminate in a precise manner. In contrast, Rho-dependent terminators have more loosely defined characteristics and are thought to terminate in a diffuse manner. While transcripts ending in an intrinsic terminator are protected from 3'-5' exonuclease digestion due to the stem-loop structure of the terminator, it remains unclear what protects Rho-dependent transcripts from being degraded. In this study, we mapped the exact steady-state RNA 3' ends of hundreds of Escherichia coli genes terminated either by Rho-dependent or independent mechanisms. We found that transcripts generated from Rho-dependent termination have precise 3'-ends at steady state. These termini were localized immediately downstream of energetically stable stem-loop structures, which were not followed by uridine rich sequences. We provide evidence that these structures protect Rho-dependent transcripts from 3'-5' exonucleases such as PNPase and RNase II, and present data localizing the Rho-utilization (rut) sites immediately downstream of these protective structures. This study represents the first extensive in-vivo map of exact RNA 3'-ends of Rho-dependent transcripts in E. coli.
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PMID:High-resolution RNA 3'-ends mapping of bacterial Rho-dependent transcripts. 2966 55


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