Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.13.1 (exoribonuclease)
 732 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The degradation of individual mRNAs in Escherichia coli has been studied through the use of a multiple mutant carrying the pnp-7 (polynucleotide phosphorylase), rnb-500 (RNase II), and rne-1 (RNase E) alleles. In this triple mutant, discrete mRNA breakdown products are stabilized in vivo at the nonpermissive temperature (Arraiano, C. M., S. D. Yancey, and S. R. Kushner, J. Bacteriol. 170:4625-4633, 1988). In the case of thioredoxin (trxA) mRNA decay, degradation fragments accumulated at early times after a shift to the nonpermissive temperature. Using Northern (RNA) blots, S1 nuclease analysis, and primer extensions, we identified a series of specific endonucleolytic cleavage sites that occur throughout the transcript in both the triple mutant and a wild-type control. The implications of the complex decay patterns observed are discussed.
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PMID:Identification of endonucleolytic cleavage sites involved in decay of Escherichia coli trxA mRNA. 767 84

The rpsO mRNA, encoding ribosomal protein S15, is only partly stabilized when the three ribonucleases implicated in its degradation--RNase E, polynucleotide phosphorylase, and RNase II--are inactivated. In the strain deficient for RNase E and 3'-to-5' exoribonucleases, degradation of this mRNA is correlated with the appearance of posttranscriptionally elongated molecules. We report that these elongated mRNAs harbor poly(A) tails, most of which are fused downstream of the 3'-terminal hairpin at the site where transcription terminates. Poly(A) tails are shorter in strains containing 3'-to-5' exoribonucleases. Inactivation of poly(A) polymerase I (pcnB) prevents polyadenylylation and stabilizes the rpsO mRNA if RNase E is inactive. In contrast polyadenylylation does not significantly modify the stability of rpsO mRNA undergoing RNase E-mediated degradation.
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PMID:Polyadenylylation destabilizes the rpsO mRNA of Escherichia coli. 773 15

mRNA degradation in Escherichia coli is mediated by a combination of exo- and endoribonucleases. We present evidence for a multiprotein complex which includes at least two enzymes that play important roles in mRNA degradation: the exoribonuclease polynucleotide phosphorylase (PNPase) and the endoribonuclease RNase E. An activity which impedes the processive activity of PNPase at stem-loop structures also appears to be associated with the complex. This complex is estimated to have a molecular mass of about 500 kDa and includes several additional polypeptides whose functions are unknown. The identification of a complex which includes several activities associated with mRNA degradation has implications for the mechanisms and co-ordinated control of mRNA degradation.
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PMID:A protein complex mediating mRNA degradation in Escherichia coli. 789 59

RNase III is an endonuclease involved in processing both rRNA and certain mRNAs. To help determine whether RNase III (rnc) is required for general mRNA turnover in Escherichia coli, we have created a deletion-insertion mutation (delta rnc-38) in the structural gene. In addition, a series of multiple mutant strains containing deficiencies in RNase II (rnb-500), polynucleotide phosphorylase (pnp-7 or pnp-200), RNase E (rne-1 or rne-3071), and RNase III (delta rnc-38) were constructed. The delta rnc-38 single mutant was viable and led to the accumulation of 30S rRNA precursors, as has been previously observed with the rnc-105 allele (P. Gegenheimer, N. Watson, and D. Apirion, J. Biol. Chem. 252:3064-3073, 1977). In the multiple mutant strains, the presence of the delta rnc-38 allele resulted in the more rapid decay of pulse-labeled RNA but did not suppress conditional lethality, suggesting that the lethality associated with altered mRNA turnover may be due to the stabilization of specific mRNAs. In addition, these results indicate that RNase III is probably not required for general mRNA decay. Of particular interest was the observation that the delta rnc-38 rne-1 double mutant did not accumulate 30S rRNA precursors at 30 degrees C, while the delta rnc-38 rne-3071 double mutant did. Possible explanations of these results are discussed.
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PMID:Analysis of mRNA decay and rRNA processing in Escherichia coli multiple mutants carrying a deletion in RNase III. 841 98

Ribonuclease II (RNase II) is a major exonuclease in Escherichia coli that hydrolyzes single-stranded polyribonucleotides processively in the 3' to 5' direction. To understand the role of RNase II in the decay of messenger RNA, a strain overexpressing the rnb gene was constructed. Induction resulted in a 300-fold increase in RNase II activity in crude extracts prepared from the overexpressing strain compared to that of a non-overexpressing strain. The recombinant polypeptide (Rnb) was purified to apparent homogeneity in a rapid, simple procedure using conventional chromatographic techniques and/or fast protein liquid chromatography to a final specific activity of 4,100 units/mg. Additionally, a truncated Rnb polypeptide was purified, solubilized, and successfully renatured from inclusion bodies. The recombinant Rnb polypeptide was active against both [3H]poly(A) as well as a novel (synthetic partial duplex) RNA substrate. The data show that the Rnb polypeptide can disengage from its substrate upon stalling at a region of secondary structure and reassociate with a new free 3'-end. The stalled substrate formed by the dissociation event cannot compete for the Rnb polypeptide, demonstrating that duplexed RNAs lacking 10 protruding unpaired nucleotides are not substrates for RNase II. In addition, RNA that has been previously trimmed back to a region of secondary structure with purified Rnb polypeptide is not a substrate for polynucleotide phosphorylase-like activity in crude extracts. The implications for mRNA degradation and the proposed role for RNase II as a repressor of degradation are discussed.
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PMID:Overexpression, purification, and properties of Escherichia coli ribonuclease II. 855 29

The Escherichia coli RNA degradosome is a multi-enzyme complex that contains the exoribonuclease polynucleotide phosphorylase (PNPase) and the endoribonuclease RNase E. Both enzymes are important in RNA processing and messenger RNA degradation. Here we report that enolase and RhlB are two other major components of the degradosome. Enolase is a glycolytic enzyme with an unknown role in RNA metabolism. RhlB is a member of the DEAD-box family of ATP-dependent RNA helicases, which are found in both prokaryotes and eukaryotes. We show that the degradosome has an ATP-dependent activity that aids the degradation of structured RNA by PNPase. Incubation of the degradosome with affinity-purified antibody against RhlB inhibited the ATP-stimulated RNA degradation. These results suggest that RhlB acts by unwinding RNA structures that impede the processive activity of PNPase. RhlB is thus an important enzyme in mRNA turnover.
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PMID:A DEAD-box RNA helicase in the Escherichia coli RNA degradosome. 861 17

Hammerhead ribozymes are small catalytic RNA molecules that can be designed to specifically cleave other RNAs. These ribozymes have exhibited low efficiency when examined inside cells, perhaps in part because of their sensitivity to intracellular RNases. In an effort to better understand intracellular degradation of small, foreign RNAs and to develop more stable ribozymes, the ability of Escherichia coli RNase mutants to digest ribozymes was examined. In soluble extracts, most (80 to 90%) of the endonucleolytic activity was due to RNases I and I*, since degradative activity was inhibited by Mg2+ and by the rna-2 mutation. Degradation by exonucleolytic activities was temperature sensitive in extracts from an rna pnp rnb(Ts) triple mutant but not in extracts from an rna rnb(Ts) double mutant. Thus, the products of rnb and pnp, RNase II and polynucleotide phosphorylase, respectively, appear to be the major exonucleases that degrade hammerhead ribozymes. Examination of intracellular degradation revealed that RNases I and I* contributed to about half of the degradative activity as judged by comparison of the rate of ribozyme decay in wild-type and rna-2 mutant cells. Little additional effect was observed in rne(RNase E) and rnc (RNaseIII) mutants. Taken together, these data indicate that hammerhead ribozymes are digested largely by the degradative class of RNase (RNases I, I* and II and polynucleotide phosphorylase).
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PMID:RNases involved in ribozyme degradation in Escherichia coli. 862 92

The Escherichia coli endoribonuclease RNase E is essential for RNA processing and degradation. Earlier work provided evidence that RNase E exists intracellularly as part of a multicomponent complex and that one of the components of this complex is a 3'-to-5' exoribonuclease, polynucleotide phosphorylase (EC 2.7.7.8). To isolate and identify other components of the RNase E complex, FLAG-epitope-tagged RNase E (FLAG-Rne) fusion protein was purified on a monoclonal antibody-conjugated agarose column. The FLAG-Rne fusion protein, eluted by competition with the synthetic FLAG peptide, was found to be associated with other proteins. N-terminal sequencing of these proteins revealed the presence in the RNase E complex not only of polynucleotide phosphorylase but also of DnaK, RNA helicase, and enolase (EC 4.2.1.11). Another protein associated only with epitope-tagged temperature-sensitive (Rne-3071) mutant RNase E but not with the wild-type enzyme is GroEL. The FLAG-Rne complex has RNase E activity in vivo and in vitro. The relative amount of proteins associated with wild-type and Rne-3071 expressed at an elevated temperature differed.
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PMID:Proteins associated with RNase E in a multicomponent ribonucleolytic complex. 863 81

The 3'-exonucleolytic decay of the mRNA for ribosomal protein S20 has been reconstituted in vitro using purified RNase II and crude extracts enriched for polynucleotide phosphorylase (PNPase) activity. We show that RNase II can catalyze the degradation of the 5' two-thirds of the S20 mRNA and that prior oligoadenylation of the 3' termini of truncated S20 mRNA substrates can significantly stimulate the initiation of degradation by RNase II. The intact S20 mRNA is, however, insensitive to attack by RNase II and polyadenylation of its 3'-end cannot overcome the natural resistance of the S20 mRNA to RNase II. Complete degradation of either the entire S20 mRNA without prior endonucleolytic cleavage or the 3'-terminal 147-residue fragment is dependent on both oligoadenylation and PNPase activity. Moreover, this process can take place in the absence of RNase E activity. Our data point to the importance of oligoadenylation in facilitating 3'-exonucleolytic activity and indicate that there are alternative degradative pathways. The implications for mRNA decay are discussed.
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PMID:Differential sensitivities of portions of the mRNA for ribosomal protein S20 to 3'-exonucleases dependent on oligoadenylation and RNA secondary structure. 866 15

The rpsO monocistronic messenger, encoding ribosomal protein S15, is destabilized upon polyadenylation occurring at the hairpin structure of the transcription terminator t1. We report that mRNA fragments differing from the monocistronic transcript by their 3' termini are also polyadenylated in the absence of polynucleotide phosphorylase and RNase II. Some of these 3' extremities result from endonucleolytic cleavages by RNase E and RNase III and from exonucleolytic degradation. Most of these mRNA fragments are destabilized upon polyadenylation with the exception of the RNA species generated by RNase III. RNase E appears to reduce the amount of poly(A) added at the transcription terminator t1.
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PMID:The rpsO mRNA of Escherichia coli is polyadenylated at multiple sites resulting from endonucleolytic processing and exonucleolytic degradation. 867 Aug 15


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