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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)
RNase E, an essential endoribonuclease of Escherichia coli, interacts through its C-terminal region with multiple other proteins to form a complex termed the RNA degradosome. To investigate the degradosome's proposed role as an RNA decay machine, we used DNA microarrays to globally assess alterations in the steady-state abundance and decay of 4,289 E. coli mRNAs at single-gene resolution in bacteria carrying mutations in the degradosome constituents RNase E,
polynucleotide phosphorylase
, RhlB helicase, and
enolase
. Our results show that the functions of all four of these proteins are necessary for normal mRNA turnover. We identified specific transcripts and functionally distinguishable transcript classes whose half-life and abundance were affected congruently by multiple degradosome proteins, affected differentially by mutations in degradosome constituents, or not detectably altered by degradosome mutations. Our results, which argue that decay of some E. coli mRNAs in vivo depends on the action of assembled degradosomes, whereas others are acted on by degradosome proteins functioning independently of the complex, imply the existence of structural features or biochemical factors that target specific classes of mRNAs for decay by degradosomes.
...
PMID:Global analysis of Escherichia coli RNA degradosome function using DNA microarrays. 1498 Dec 37
The ptsG mRNA encoding the major glucose transporter is rapidly degraded in an RNase E-dependent manner in response to the accumulation of glucose 6-P or fructose 6-P when the glycolytic pathway is blocked at its early steps in Escherichia coli. RNase E, a major endonuclease, is associated with
polynucleotide phosphorylase
(
PNPase
), RhlB helicase and a glycolytic enzyme,
enolase
, which bind to its C-terminal scaffold region to form a multienzyme complex called the RNA degradosome. The role of
enolase
within the RNase E-based degradosome in RNA decay has been totally mysterious. In this article, we demonstrate that the removal of the scaffold region of RNase E suppresses the rapid degradation of ptsG mRNA in response to the metabolic stress without affecting the expression of ptsG mRNA under normal conditions. We also demonstrate that the depletion of
enolase
but not the disruption of pnp or rhlB eliminates the rapid degradation of ptsG mRNA. Taken together, we conclude that
enolase
within the degradosome plays a crucial role in the regulation of ptsG mRNA stability in response to a metabolic stress. This is the first instance in which a physiological role for
enolase
in the RNA degradosome has been demonstrated. In addition, we show that
PNPase
and RhlB within the degradosome cooperate to eliminate short degradation intermediates of ptsG mRNA.
...
PMID:Enolase in the RNA degradosome plays a crucial role in the rapid decay of glucose transporter mRNA in the response to phosphosugar stress in Escherichia coli. 1552 87
The RNA degradosome of Escherichia coli is a ribonucleolytic multienzyme complex containing RNase E,
polynucleotide phosphorylase
, RhlB, and
enolase
. Previous in vitro and in vivo work has shown that RhlB facilitates the exonucleolytic degradation of structured mRNA decay intermediates by
polynucleotide phosphorylase
in an ATPase-dependent reaction. Here, we show that deleting the gene encoding RhlB stabilizes a lacZ mRNA transcribed by bacteriophage T7 RNA polymerase. Deleting the gene encoding
enolase
has little if any effect. Other messages transcribed by T7 polymerase are also stabilized by DeltarhlB. The effect of point mutations inactivating RhlB is comparable with the effect of deleting the gene. Primer extension analysis of the lacZ message indicates that RhlB facilitates endoribonucleolytic cleavage by RNase E, demonstrating a functional interaction between the RNA helicase and the endoribonuclease. The possible physiological role of an RhlB-RNase E pathway and the mechanisms by which RhlB could facilitate RNase E cleavage are discussed.
...
PMID:Evidence in vivo that the DEAD-box RNA helicase RhlB facilitates the degradation of ribosome-free mRNA by RNase E. 1586 49
The RNA degradosome is a bacterial protein machine devoted to RNA degradation and processing. In Escherichia coli it is typically composed of the endoribonuclease RNase E, which also serves as a scaffold for the other components, the exoribonuclease
PNPase
, the RNA helicase RhlB, and
enolase
. Several other proteins have been found associated to the core complex. However, it remains unclear in most cases whether such proteins are occasional contaminants or specific components, and which is their function. To facilitate the analysis of the RNA degradosome composition under different physiological and genetic conditions we set up a simplified preparation procedure based on the affinity purification of FLAG epitope-tagged RNase E coupled to Multidimensional Protein Identification Technology (MudPIT) for the rapid and quantitative identification of the different components. By this proteomic approach, we show that the chaperone protein DnaK, previously identified as a "minor component" of the degradosome, associates with abnormal complexes under stressful conditions such as overexpression of RNase E, low temperature, and in the absence of
PNPase
; however, DnaK does not seem to be essential for RNA degradosome structure nor for its assembly. In addition, we show that normalized score values obtain by MudPIT analysis may be taken as quantitative estimates of the relative protein abundance in different degradosome preparations.
...
PMID:Analysis of the Escherichia coli RNA degradosome composition by a proteomic approach. 1613 13
Escherichia coli
polynucleotide phosphorylase
(
PNPase
), a protein that has both ribonucleolytic and synthetic capabilities, binds, along with the 48-kDa glycolytic enzyme
enolase
, the 50-kDa DEAD-box protein RhlB helicase and other cellular proteins to the C-terminal "scaffold" region of RNase E to form a complex termed the RNA degradosome.
PNPase
itself has been reported to exist as a complex (alpha(3)beta(2)) containing trimers of a catalytic subunit (alpha) and dimers of another subunit (beta). The beta-subunit has been believed to be
enolase
; we report here that it is instead the RhlB helicase. Whereas interaction between
PNPase
-alpha and
enolase
was observed in bacteria that synthesize RNase E having a scaffold region, immunoprecipitates from cells expressing
PNPase
-alpha, RhlB, and
enolase
from single-copy chromosomal loci, plus a mutant RNase E protein lacking its C-terminal half, showed direct association of
PNPase
-alpha only with RhlB. Using affinity chromatography, we found that
PNPase
-alpha and RhlB form a ribonucleolytically active complex corresponding to the mass calculated previously for alpha(3)beta(2) (i.e., 377-380 kDa), whereas no association between
PNPase
-alpha and
enolase
was detected. Chromosomal deletion of the eno gene had no effect on the ability of
PNPase
to degrade either single- or double-stranded RNAs. Collectively, our findings show that direct interaction between
PNPase
-alpha and RhlB occurs physiologically in the absence of the RNase E C-terminal region, that
enolase
association with
PNPase
-alpha is a consequence of the interaction of both proteins with RNase E, and that, contrary to current notions,
enolase
is not the beta-subunit of E. coli
PNPase
complex.
...
PMID:RhlB helicase rather than enolase is the beta-subunit of the Escherichia coli polynucleotide phosphorylase (PNPase)-exoribonucleolytic complex. 1627 23
RNaseE is the main component of the RNA degradosome of Escherichia coli, which plays an essential role in RNA processing and decay. Localization studies showed that RNaseE and the other known degradosome components (RNA helicase B,
polynucleotide phosphorylase
, and
enolase
) are organized as helical filamentous structures that coil around the length of the cell. These resemble the helical structures formed by the MreB and MinD cytoskeletal proteins. Formation of the RNaseE cytoskeletal-like structure requires an internal domain of the protein that does not include the domains required for any of its known interactions or the minimal domain required for endonuclease activity. We conclude that the constituents of the RNA degradosome are components of the E. coli cytoskeleton, either assembled as a primary cytoskeletal structure or secondarily associated with another underlying cytoskeletal element. This suggests a previously unrecognized role for the bacterial cytoskeleton, providing a mechanism to compartmentalize proteins that act on cytoplasmic components, as exemplified by the RNA processing and degradative activities of the degradosome, to regulate their access to important cellular substrates.
...
PMID:RNaseE and the other constituents of the RNA degradosome are components of the bacterial cytoskeleton. 1724 52
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.
...
PMID:The RNA degradosome of Escherichia coli: an mRNA-degrading machine assembled on RNase E. 1744 62
The RNA degradosome of Escherichia coli is a multiprotein complex that plays an essential role in normal RNA processing and decay. It was recently shown that the major degradosome constituents are organized in a coiled cytoskeletal-like structure that extends along the length of the cell. Here we show that the endoribonuclease E (RNaseE) and RNA helicase B (RhlB) components of the degradosome can each independently form coiled structures in the absence of the other degradosome proteins. In contrast, the cytoskeletal organization of the other degradosome proteins required the presence of the RNaseE or RhlB coiled elements. Although the RNaseE and RhlB structures were equally competent to support the helical organization of
polynucleotide phosphorylase
, the cytoskeletal-like organization of
enolase
occurred only in the presence of the RNaseE coiled structure. The results indicate that the RNA degradosome proteins are components of the bacterial cytoskeleton rather than existing as randomly distributed multiprotein complexes within the cell and suggest a model for the cellular organization of the components within the helical degradosomal structure.
...
PMID:RNaseE and RNA helicase B play central roles in the cytoskeletal organization of the RNA degradosome. 1833 49
In yeast mitochondria, RNA degradation takes place through the coordinated activities of ySuv3 helicase and yDss1 exoribonuclease (mtEXO), whereas in bacteria, RNA is degraded via RNaseE, RhlB,
PNPase
, and
enolase
. Yeast lacking the Suv3 component of the mtEXO form petits and undergo a toxic accumulation of omega intron RNAs. Mammalian mitochondria resemble their prokaryotic origins by harboring a polyadenylation-dependent RNA degradation mechanism, but whether SUV3 participates in regulating RNA turnover in mammalian mitochondria is unclear. We found that lack of hSUV3 in mammalian cells subsequently yielded an accumulation of shortened polyadenylated mtRNA species and impaired mitochondrial protein synthesis. This suggests that SUV3 may serve in part as a component of an RNA degradosome, resembling its yeast ancestor. Reduction in the expression levels of oxidative phosphorylation components correlated with an increase in reactive oxygen species generation, whereas membrane potential and ATP production were decreased. These cumulative defects led to pleiotropic effects in mitochondria such as decreased mtDNA copy number and a shift in mitochondrial morphology from tubular to granular, which eventually manifests in cellular senescence or cell death. Thus, our results suggest that SUV3 is essential for maintaining proper mitochondrial function, likely through a conserved role in mitochondrial RNA regulation.
...
PMID:Role of SUV3 helicase in maintaining mitochondrial homeostasis in human cells. 1867 73
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.
...
PMID:New insights into the cellular organization of the RNA processing and degradation machinery of Escherichia coli. 1897 83
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