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Query: EC:3.1.27.4 (
ribonuclease
)
6,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The long-standing assumption that messenger RNA (mRNA) degradation in Escherichia coli begins with endonucleolytic cleavage has been challenged by the recent discovery that RNA decay can be triggered by a prior non-nucleolytic event that marks transcripts for rapid turnover: the rate-determining conversion of the 5' terminus from a triphosphate to a monophosphate. This modification creates better substrates for the endonuclease
RNase E
, whose cleavage activity at internal sites is greatly enhanced when the RNA 5' end is monophosphorylated. Moreover, it suggests an explanation for the influence of 5' termini on the endonucleolytic cleavage of primary transcripts, which are triphosphorylated. However, no enzyme capable of removing pyrophosphate from RNA 5' ends has been identified in any bacterial species. Here we show that the E. coli protein RppH (formerly NudH/YgdP) is the RNA pyrophosphohydrolase that initiates mRNA decay by this 5'-end-dependent pathway. In vitro, RppH efficiently removes pyrophosphate from the 5' end of triphosphorylated RNA, irrespective of the identity of the 5'-terminal nucleotide. In vivo, it accelerates the degradation of hundreds of E. coli transcripts by converting their triphosphorylated 5' ends to a more labile monophosphorylated state that can stimulate subsequent
ribonuclease
cleavage. That the action of the pyrophosphohydrolase is impeded when the 5' end is structurally sequestered by a stem-loop helps to explain the stabilizing influence of 5'-terminal base pairing on mRNA lifetimes. Together, these findings suggest a possible basis for the effect of RppH and its orthologues on the invasiveness of bacterial pathogens. Interestingly, this master regulator of 5'-end-dependent mRNA degradation in E. coli not only catalyses a process functionally reminiscent of eukaryotic mRNA decapping but also bears an evolutionary relationship to the eukaryotic decapping enzyme Dcp2.
...
PMID:The bacterial enzyme RppH triggers messenger RNA degradation by 5' pyrophosphate removal. 1820 62
Many macromolecules in the cell function by forming multi-component assemblies. We have applied the technique of small angle neutron scattering to study a nucleic acid-protein complex and a multi-protein complex. The results illustrate the versatility and applicability of the method to study macromolecular assemblies. The neutron scattering experiments, complementing X-ray solution scattering data, reveal that the conserved catalytic domain of
RNase E
, an essential
ribonuclease
in Escherichia coli (E. coli), undergoes a marked conformational change upon binding a 5'monophosphate-RNA substrate analogue. This provides the first evidence in support of an allosteric mechanism that brings about RNA substrate cleavage. Neutron contrast variation of the multi-protein TIM10 complex, a mitochondrial chaperone assembly comprising the subunits Tim9 and Tim10, has been used to determine a low-resolution shape reconstruction of the complex, highlighting the integral subunit organization. It shows characteristic features involving protrusions that could be assigned to the six subunits forming the complex.
...
PMID:Complementing structural information of modular proteins with small angle neutron scattering and contrast variation. 1827 Jun 93
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.
...
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
RNase E
(Rne) plays a major role in the decay and processing of numerous RNAs in E. coli, and protein inhibitors of
RNase E
, RraA and RraB, have recently been discovered. Here, we report that coexpression of RraA or RraB reduces the ribonucleolytic activity in rne-deleted E. coli cells overproducing RNase ES, a Streptomyces coelicolor functional ortholog of
RNase E
, and consequently rescues these cells from growth arrest. These findings suggest that the regulators of
ribonuclease
activity have a conserved intrinsic property that effectively acts on an
RNase E
-like enzyme found in a distantly related bacterial species.
...
PMID:Functional implications of the conserved action of regulators of ribonuclease activity. 1875 93
RNase E
is an essential endoribonuclease involved in RNA processing and mRNA degradation. The N-terminal half of the protein encompasses the catalytic domain; the C-terminal half is the scaffold for the assembly of the multienzyme RNA degradosome. Here we identify and characterize 'segment-A', an element in the beginning of the non-catalytic region of
RNase E
that is required for membrane binding. We demonstrate in vitro that an oligopeptide corresponding to segment-A has the propensity to form an amphipathic alpha-helix and that it avidly binds to protein-free phospholipid vesicles. We demonstrate in vitro and in vivo that disruption of segment-A in full-length
RNase E
abolishes membrane binding. Taken together, our results show that segment-A is necessary and sufficient for
RNase E
binding to membranes. Strains in which segment-A has been disrupted grow slowly. Since in vitro experiments show that phospholipid binding does not affect the
ribonuclease
activity of
RNase E
, the slow-growth phenotype might arise from a defect involving processes such as accessibility to substrates or interactions with other membrane-bound machinery. This is the first report demonstrating that
RNase E
is a membrane-binding protein and that its localization to the inner cytoplasmic membrane is important for normal cell growth.
...
PMID:The RNase E of Escherichia coli is a membrane-binding protein. 1899 Jan 79
The pst operon of Escherichia coli is composed of five genes that encode a high-affinity phosphate transport system. pst belongs to the PHO regulon, which is a group of genes and operons that are induced in response to phosphate limitation. The pst operon also has a regulatory role in the repression of PHO genes' transcription under phosphate excess conditions. Transcription of pst is initiated at the promoter located upstream to the first gene, pstS. Immediately after its synthesis, the primary transcript of pst is cleaved into shorter mRNA molecules in a
ribonuclease
E-dependent manner. Other ribonucleases, such as RNase III and MazF, do not play a role in pst mRNA processing.
RNase E
is thus at least partially responsible for processing the pst primary transcript.
...
PMID:Transcriptional processing of the pst operon of Escherichia coli. 1901 89
The MSMEG_4626 gene was cloned from Mycobacterium smegmatis MC2 155. It codes for a protein of 1,037 amino acids, identified as
ribonuclease
E by matching to the protein family HMM TIGR00757. The protein was expressed and purified. Although its calculated molecular weight is 112.7 kDa, it has an aberrant mobility in SDS-polyacrylamide gels, like other
ribonuclease
E enzymes (it migrates as a 180 kDa protein). The central part of the protein displays high similarity to the catalytic domains of other
RNase E
enzymes. Mass spectrometric analysis revealed the presence of the chaperonin GroEL, ribosomal proteins, a negative regulator of genetic competence and GTP pyrophosphokinase in the affinity-purified preparation. It is a very unstable protein; despite the use of protease inhibitors in addition to the full-length
RNase E
its proteolytic fragments were detected.
...
PMID:MSMEG_4626 ribonuclease from Mycobacterium smegmatis. 1915 21
RraA is a recently discovered protein inhibitor of
RNase E
that catalyzes the initial step in the decay and processing of numerous RNAs in Escherichia coli. In the genome of Vibrio vulnificus, two open reading frames that potentially encode proteins homologous to E. coli, RraA-designated RraAV1 and RraAV2, have respectively 80.1% and 59.0% amino acid identity to RraA. The authors report that coexpression of RraAV1 protein in E. coli cells overproducing
RNase E
rescued these cells from growth arrest and restored their normal growth, whereas coexpression of RraAV2 protein further inhibited the growth of E. coli cells, whose growth was already impaired by overproduction of
RNase E
. Analyses of the steady-state level of various
RNase E
substrates indicated that the coexpression of RraAV1 more efficiently inhibited
RNase E
action than coexpression of RraA, and consequently resulted in the more increased abundance of each RNA species tested in vivo. The inhibitory effect by RraAV2 coexpression on
RNase E
was observed only in the case of trpA mRNA, indicating the possibility of RNA substrate-dependent inhibition of RraAV2 on
RNase E
. The findings suggest that these regulators of
ribonuclease
activity have both a conserved inhibitory function and a differential inhibitory activity on
RNase E
-like enzymes across the species.
...
PMID:Effects of Escherichia coli RraA orthologs of Vibrio vulnificus on the ribonucleolytic activity of RNase E in vivo. 1919 49
RNase E
autoregulates its production in Escherichia coli by governing the decay rate of rne (
RNase E
) mRNA. It does so by a mechanism that is dependent in part on hp2, a cis-acting stem-loop within the rne 5' untranslated region. In principle, hp2 could function either as a cleavage site for
RNase E
or as a binding site for that protein or an ancillary factor. Here we show that the effector region at the top of hp2 is cleaved poorly by
RNase E
yet binds the catalytic domain of that
ribonuclease
with a sequence specificity reflecting its efficacy in feedback regulation. These findings suggest that hp2 controls
RNase E
synthesis by binding to
RNase E
and expediting cleavage elsewhere within the rne transcript.
...
PMID:RNase E autoregulates its synthesis in Escherichia coli by binding directly to a stem-loop in the rne 5' untranslated region. 1932 Aug 30
The Escherichia coli endoribonuclease
RNase E
is an essential enzyme having key roles in mRNA turnover and the processing of several structured RNA precursors, and it provides the scaffold to assemble the multienzyme RNA degradosome. The activity of
RNase E
is inhibited by the protein RraA, which can interact with the
ribonuclease
's degradosome-scaffolding domain. Here, we report that RraA can bind to the RNA helicase component of the degradosome (RhlB) and the two RNA-binding sites in the degradosome-scaffolding domain of
RNase E
. In the presence of ATP, the helicase can facilitate the exchange of RraA for RNA stably bound to the degradosome. Our data suggest that RraA can affect multiple components of the RNA degradosome in a dynamic, energy-dependent equilibrium. The multidentate interactions of RraA impede the RNA-binding and
ribonuclease
activities of the degradosome and may result in complex modulation and rerouting of degradosome activity.
...
PMID:The regulatory protein RraA modulates RNA-binding and helicase activities of the E. coli RNA degradosome. 2010 55
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