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 RNA degradosome of Escherichia coli is a multiprotein complex involved in the degradation of mRNA. The principal components are RNase E, PNPase, RhlB, and enolase. RNase E is a large multidomain protein with an N-terminal catalytic region and a C-terminal noncatalytic region that is mostly natively unstructured protein. The noncatalytic region contains sites for binding RNA and for protein-protein interactions with other components of the RNA degradosome. Several recent studies suggest that there are alternative forms of the RNA degradosome depending on growth conditions or other factors. These alternative forms appear to modulate RNase E activity in the degradation of mRNA. RNA degradosome-like complexes appear to be conserved throughout the Proteobacteria, but there is a surprising variability in composition that might contribute to the adaptation of these bacteria to the enormously wide variety of niches in which they live.
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PMID:The RNA degradosome of Escherichia coli: an mRNA-degrading machine assembled on RNase E. 1744 62

The first step in the current model for the processing and maturation of mono- and polycistronic tRNA precursors in Escherichia coli involves initial cleavages by RNase E 1-3 nt downstream of each chromosomally encoded CCA determinant. Subsequently, each mature 5' terminus is generated by single RNase P cleavage, while the 3' terminus undergoes exonucleolytic processing by a combination of 3' --> 5' exonucleases. Here we describe for the first time a previously unidentified pathway for the maturation of tRNAs in polycistronic operons (valV valW and leuQ leuP leuV) where the processing of the primary transcripts is independent of RNase E. Rather, RNase P cleavages separate the individual tRNA precursors with the concomitant formation of their mature 5' termini. Furthermore, both polynucleotide phosphorylase (PNPase) and RNase II are required for the removal of the 3' Rho-dependent terminator sequences. Our data indicate that RNase P substrate recognition is more complex than previously envisioned.
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PMID:Ribonuclease P processes polycistronic tRNA transcripts in Escherichia coli independent of ribonuclease E. 1798 36

In pathogenic bacteria, a large number of sRNAs coordinate adaptation to stress and expression of virulence genes. To better understand the turnover of regulatory sRNAs in the model pathogen, Salmonella typhimurium, we have constructed mutants for several ribonucleases (RNase E, RNase G, RNase III, PNPase) and Poly(A) Polymerase I. The expression profiles of four sRNAs conserved among many enterobacteria, CsrB, CsrC, MicA and SraL, were analysed and the processing and stability of these sRNAs was studied in the constructed strains. The degradosome was a common feature involved in the turnover of these four sRNAs. PAPI-mediated polyadenylation was the major factor governing SraL degradation. RNase III was revealed to strongly affect MicA decay. PNPase was shown to be important in the decay of these four sRNAs. The stability of CsrB and CsrC seemed to be independent of the RNA chaperone, Hfq, whereas the decay of SraL and MicA was Hfq-dependent. Taken together, the results of this study provide initial insight into the mechanisms of sRNA decay in Salmonella, and indicate specific contributions of the RNA decay machinery components to the turnover of individual sRNAs.
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PMID:Characterization of the role of ribonucleases in Salmonella small RNA decay. 1798 74

Replication of the ColE2 plasmid requires a plasmid-coded initiator protein (Rep). Rep expression is controlled by antisense RNA (RNAI) against the Rep mRNA at a translational step. In this paper, we examined the effects of host RNA degradation enzymes on the degradation process of the Rep mRNA and its degradation intermediates especially those carrying the 5' untranslated region. We showed that the Rep mRNA is subjected to complex degradation pathways involving at least RNase I, RNase II, RNase III, RNase E, RNase G and PNPase. RNase II acts as a major exoribonuclease and PNPase plays a minor role. We also showed that the PcnB (polyA polymerase I) plays only a minor role in the Rep mRNA degradation process. The RNA degradation pathways of the Rep mRNA and RNAI of the ColE2 plasmid are quite different. Based on these results, we speculate that the ColE2 Rep mRNA and RNAI are endowed with individual RNA half lives required for the efficient copy number control by being subjected to different RNA degradation systems.
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PMID:Replication initiator protein mRNA of ColE2 plasmid and its antisense regulator RNA are under the control of different degradation pathways. 1819 Dec 5

In this report, we demonstrate that exonucleolytic turnover is much more important in the regulation of sRNA levels than was previously recognized. For the first time, PNPase is introduced as a major regulatory feature controlling the levels of the small noncoding RNAs MicA and RybB, which are required for the accurate expression of outer membrane proteins (OMPs). In the absence of PNPase, the pattern of OMPs is changed. In stationary phase, MicA RNA levels are increased in the PNPase mutant, leading to a decrease in the levels of its target ompA mRNA and the respective protein. This growth phase regulation represents a novel pathway of control. We have evaluated other ribonucleases in the control of MicA RNA, and we showed that degradation by PNPase surpasses the effect of endonucleolytic cleavages by RNase E. RybB was also destabilized by PNPase. This work highlights a new role for PNPase in the degradation of small noncoding RNAs and opens the way to evaluate striking similarities between bacteria and eukaryotes.
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PMID:PNPase is a key player in the regulation of small RNAs that control the expression of outer membrane proteins. 1820 24

Yersinia spp. use a type 3 secretion system (T3SS) to directly inject six proteins into macrophages, and any impairment of this process results in a profound reduction in virulence. We previously showed that the exoribonuclease polynucleotide phosphorylase (PNPase) was required for optimal T3SS functioning in Yersinia pseudotuberculosis and Yersinia pestis. Here we report that Y. pseudotuberculosis cells with reduced RNase E activity are likewise impaired in T3SS functioning and that phenotypically they resemble Delta pnp cells. RNase E does not affect expression levels of the T3SS substrates but instead, like PNPase, regulates a terminal event in the secretion pathway. This similarity, together with the fact that RNase E and PNPase can be readily copurified from Y. pseudotuberculosis cell extracts, suggests that these two RNases regulate T3SS activity through a common mechanism. This is the first report that RNase E activity impacts the T3SS as well as playing a more general role in infectivity.
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PMID:RNase E regulates the Yersinia type 3 secretion system. 1835 11

Endoribonuclease E (RNase E) is a regulator of global gene expression in Escherichia coli and is the best studied member of the RNase E/G ribonuclease family. Homologues are present in other bacteria but the roles of plant RNase E/G-like proteins are not known. Arabidopsis thaliana contains a single nuclear gene (At2g04270) encoding a product with the conserved catalytic domain of RNase E/G-like proteins. At2g04270 and the adjacent At2g04280 gene form converging transcription units with a approximately 40 base overlap at their 3' ends. Several translation products were predicted from the analyses of At2g04270 cDNAs. An antibody raised against a recombinant A. thaliana RNase E/G-like protein recognized a 125 kDa protein band in purified chloroplast preparations fractionated by SDS-PAGE. The 125 kDa RNase E/G-like protein was detected in cotyledons, rosette and cauline leaves. T-DNA insertions in exon 6 or intron 11 of At2g04270 result in loss of the 125 kDa band or truncation to a 110 kDa band. Loss of At2g04270 function resulted in the arrest of chloroplast development, loss of autotrophic growth, and reduced plastid ribosomal, psbA and rbcL RNA levels. Homozygous mutant plants were pale-green, contained smaller plastids with fewer thylakoids and shorter granal stacks than wild-type chloroplasts, and required sucrose at all growth stages following germination right up to flowering and setting seeds. Recombinant A. thaliana RNase E/G-like proteins rescued an E. coli RNase E mutant and cleaved an rbcL RNA substrate. Expression of At2g04270 was highly correlated with genes encoding plastid polyribonucleotide phosphorylase, S1 RNA-binding, and CRS1/YhbY domain proteins.
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PMID:A 125 kDa RNase E/G-like protein is present in plastids and is essential for chloroplast development and autotrophic growth in Arabidopsis. 1851 28

Replication of the ColE2 plasmid requires a plasmid-coded initiator protein (Rep). Rep expression is controlled by antisense RNA (RNAI), which prevents the Rep mRNA translation. In this paper, we examined the effects of RNA degradation enzymes on the degradation pathways of RNAI of the ColE2 plasmid. In the DeltapcnB strain lacking the poly(A) polymerase I (PAP I) the RNAI degradation intermediate (RNAI(*)) accumulates much more than that in the wt strain. RNAI(*) is produced by the RNase E cleavage. RNase II and PNPase are involved in further degradation of RNAI(*) and PAP I is necessary for efficient degradation. The degradation process of ColE2 RNAI is similar to those of R1 CopA RNA and ColE1 RNAI, although the nucleotide sequences and fine secondary structures of these three RNAs are different. ColE2 RNAI is cleaved at multiple positions in the 5' end region by RNase E. The degradation pathway of ColE2 RNAI shown here is quite different from that of the ColE2 Rep mRNA which we have previously reported. In the DeltapcnB strain used for RNA analysis the copy number of the ColE2 plasmid decreases to about a half as compared with that in the isogenic wt strain.
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PMID:The effects of RNA degradation enzymes on antisense RNAI controlling ColE2 plasmid copy number. 1868 57

Ribonuclease E (RNase E) is a component of the Escherichia coli RNA degradosome, a multiprotein complex that also includes RNA helicase B (RhlB), polynucleotide phosphorylase (PNPase) and enolase. The degradosome plays a key role in RNA processing and degradation. The degradosomal proteins are organized as a cytoskeletal-like structure within the cell that has been thought to be associated with the cytoplasmic membrane. The article by Khemici et al. in the current issue of Molecular Microbiology reports that RNase E can directly interact with membrane phospholipids in vitro. The RNase E-membrane interaction is likely to play an important role in the membrane association of the degradosome system. These findings shed light on important but largely unexplored aspects of cellular structure and function, including the organization of the RNA processing machinery of the cell and of bacterial cytoskeletal elements in general.
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PMID:New insights into the cellular organization of the RNA processing and degradation machinery of Escherichia coli. 1897 83

Polyadenylation is an important factor controlling RNA degradation and RNA quality control mechanisms. In this report we demonstrate for the first time that RNase R has in vivo affinity for polyadenylated RNA and can be a key enzyme involved in poly(A) metabolism. RNase II and PNPase, two major RNA exonucleases present in Escherichia coli, could not account for all the poly(A)-dependent degradation of the rpsO mRNA. RNase II can remove the poly(A) tails but fails to degrade the mRNA as it cannot overcome the RNA termination hairpin, while PNPase plays only a modest role in this degradation. We now demonstrate that in the absence of RNase E, RNase R is the relevant factor in the poly(A)-dependent degradation of the rpsO mRNA. Moreover, we have found that the RNase R inactivation counteracts the extended degradation of this transcript observed in RNase II-deficient cells. Elongated rpsO transcripts harboring increasing poly(A) tails are specifically recognized by RNase R and strongly accumulate in the absence of this exonuclease. The 3' oligo(A) extension may stimulate the binding of RNase R, allowing the complete degradation of the mRNA, as RNase R is not susceptible to RNA secondary structures. Moreover, this regulation is shown to occur despite the presence of PNPase. Similar results were observed with the rpsT mRNA. This report shows that polyadenylation favors in vivo the RNase R-mediated pathways of RNA degradation.
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PMID:The poly(A)-dependent degradation pathway of rpsO mRNA is primarily mediated by RNase R. 1910 51

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