Gene/Protein
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Enzyme
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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Despite the variety of messenger RNA half-lives in bacteria (0.5-30 min in Escherichia coli) and their importance in controlling gene expression, their molecular basis remains obscure. The lifetime of an entire mRNA molecule can be determined by features near its 5' end, but no 5' exoribonuclease has been identified in any prokaryotic organism. A mutation that inactivates E. coli
RNase E
also increases the average lifetime of bulk E. coli mRNA and of many individual messages, suggesting that cleavage by this
endonuclease
may be the rate-determining step in the degradation of most mRNAs in E. coli. We have investigated the substrate preference of
RNase E
in E. coli by using variants of RNA I, a small untranslated RNA whose swift degradation in vivo is initiated by
RNase E
cleavage at an internal site. We report here that
RNase E
has an unprecedented substrate specificity for an endoribonuclease, as it preferentially cleaves RNAs that have several unpaired nucleotides at the 5' end. The sensitivity of
RNase E
to 5'-terminal base pairing may explain how determinants near the 5' end can control rates of mRNA decay in bacteria.
...
PMID:Control of RNase E-mediated RNA degradation by 5'-terminal base pairing in E. coli. 128 Mar 35
Processing of 9 S precursor RNA in Escherichia coli requires the endoribonuclease
RNase E
, which makes two cleavages to liberate p5, the immature form of 5 S rRNA. The contributions of primary and secondary structure to
RNase E
-mediated cleavage of 9 S RNA were investigated. The structure of the 5' domain of 9 S RNA was probed by partial ribonuclease digestion and chemical modification. Our structural analysis of 9 S RNA supports a model in which the 5' spacer domain folds into tandem hairpins so that the first processing cleavage site 5' to the 5 S moiety resides in a stretch of single-stranded residues. Site-directed mutagenesis of a cloned 9 S RNA sequence was performed and synthetic transcripts derived from a variety of such mutant templates were assayed as substrates for
RNase E
-dependent
endonuclease
activity in fractionated extracts. Partial or complete deletion of the 5 S sequence did not eliminate site-specific processing of 9 S RNA. Mutations affecting the 5' domain revealed that secondary structure upstream from the first cleavage site is important in maintaining efficient processing. However, secondary structure downstream from either cleavage site is dispensable. Our results suggest that
RNase E
specifically recognizes and cleaves single-stranded RNA sequences only when presented in a proper conformational context. Adjacent secondary structures appear to play a direct and critical role in the enzyme's recognition of its substrate. Additionally, it may serve to anchor single-stranded regions to ensure the availability of the
RNase E
cleavage sites.
...
PMID:Structural requirements for the processing of Escherichia coli 5 S ribosomal RNA by RNase E in vitro. 147 79
A DNA clone complementing the rne-3071 mutation has been expressed and localized in the physical map of Escherichia coli. The DNA fragment from this clone was localized to the region of the E. coli chromosome where the rne-3071 mutation has been mapped. The position of this DNA fragment in the E. coli chromosome, the size of the product directed by this DNA fragment (110,000 Da), the restriction map of this fragment, the fact that the same clone complements the ams mutation, and the observation that the rne-3071 and the ams mutations cause similar patterns of RNA synthesis, show that the rne gene--a gene specifying the processing
endonuclease
RNase E
--and the ams gene--a gene that affects mRNA stability--are identical.
...
PMID:The gene specifying RNase E (rne) and a gene affecting mRNA stability (ams) are the same gene. 171 82
The technique of gene fusion, in which the gene of interest, severed from its 3' end, is in-phase fused to a reporter gene--usually lacZ--is widely used to study translational regulation in Escherichia coli. Implicit in these approaches is the assumption that the activity of the ribosome binding site (RBS) fused in-phase with lacZ, does not per se modify the steady-state level of the lacZ mRNA. Herein, we have tested this hypothesis, using a model system in which the RBS of the lamB gene is fused to lacZ. Several point mutations affecting translation initiation have been formerly characterized in this RBS, and we used Northern blots to study their effect upon the lacZ mRNA pattern. Two series of constructs were assayed: in the first one, a 51-bp fragment centered around the lamB initiator codon, was inserted in front of lacZ within the natural lactose operon, whereas in the second the lacZ gene was fused to the genuine malK-lamB operon just downstream from the lamB RBS. We observed that in the first series, the concentration and average molecular weight of the lacZ mRNA dropped sharply as the efficiency of the RBS decreased. This apparently arose from a decreased stability of the message, since the mRNA patterns are equalized when the
endonuclease
RNase E
is inactivated. We suggest that in this case the rate limiting step in the decay process is an
RNase E
cleavage that is outcompeted by translation.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The relation between translation and mRNA degradation in the lacZ gene. 172 64
Bacteriophage T4 mRNAs are markedly stabilized, both chemically and functionally, in an Escherichia coli strain deficient in the RNA-processing
endonuclease
RNase E
. The functional stability of total T4 messages increased 6-fold; we were unable to detect a T4 message whose functional stability was not increased. There was a 4-fold increase in the chemical stability of total T4 RNA. The degree of chemical stabilization of six specific T4 mRNAs examined varied from a maximum of 28-fold to a minimum of 1.5-fold. In the
RNase E
-deficient strain, several minutes delay and a slower rate of progeny production led to a reduction in final phage yield of approximately 50%. Although the effect of the rne temperature-sensitive mutation could be indirect, the simplest interpretation of our results is that
RNase E
acts directly in the degradation of many T4 mRNAs.
...
PMID:Escherichia coli RNase E has a role in the decay of bacteriophage T4 mRNA. 219 22
RNase E
, an endoribonuclease encoded by the Escherichia coli ams/rne/hmp1 locus, cleaves RNA I, an antisense regulator of the replication of ColE1 type plasmids, in a single-stranded region near its 5' end. The rne-3071 mutation prolongs the RNA 1 half-life in cells cultured at an elevated temperature and imparts temperature sensitivity on
RNase E
isolated from the mutant strain. Here we report the effects of specific sequence changes introduced by site-directed mutagenesis on the location of ribonucleolytic cleavage near the 5' end of pBR322 RNA I in rne-3071 and congenic rne+ E. coli and on cleavage of RNA I by
RNase E
in vitro. Primer extension analyses showed that the occurrence and position of cleavages in vivo and in vitro are altered highly specifically by sequence changes but that the site of cleavage bears no simple relationship to a particular nucleotide order. Our results do not support either the notion that cleavage by
RNase E
is determined by a consensus sequence or the contrary view that
RNase E
is a virtually nonspecific single-stranded
endonuclease
with a preference for cutting 5' to an AU dinucleotide.
...
PMID:Effects of nucleotide sequence on the specificity of rne-dependent and RNase E-mediated cleavages of RNA I encoded by the pBR322 plasmid. 751 7
Transiently stable products derived from the
endonuclease
cleavage of transcripts from the secEnusG and rplKAJLrpoBC operons have been identified. Cleavage sites for RNase III occur in the leader of the secEnusG transcript and in the L12-beta intercistronic space of the rplKAJLrpoBC transcript. A single
RNase E
cleavage site was located in the L1-L10 intergenic space. Inactivation of RNase III and
RNase E
results respectively in a one- to twofold and a greater than 10-fold stabilization of five mRNA sequences from within the secE, nusG, L11-L1, L10 and beta encoding cistrons. The relative amounts of each of these five mRNA sequences were found to be nearly constant when measured either in the presence or absence of cleavage by RNase III or
RNase E
. This clearly implies that any increases in the stability of these mRNA sequences resulting from the inactivation of processing by RNase III or RNAase E are counterbalanced by changes in the mRNA synthesis rates. The mechanism that links mRNA synthesis to mRNA decay is not known.
...
PMID:Coupling between mRNA synthesis and mRNA stability in Escherichia coli. 751 86
The rpsU-dnaG-rpoD operon messenger RNA that encodes S21, primase, and sigma-70 is cleaved under normal physiological conditions. The dnaG coding portion of the mRNA is then rapidly degraded. An
endonuclease
activity has been isolated from wild type Escherichia coli cells that cleaves dnaG mRNA. This activity has been identified as
RNase E
, and the identity confirmed by the accumulation of the unprocessed operon polycistronic mRNA in
RNase E
mutants, rne-3071 and ams-1, when incubated at nonpermissive temperatures. Extracts prepared from
RNase E
mutant strains failed to cleave dnaG mRNA in vitro. The dnaG mRNA
RNase E
cleavage site (5'-AAGUGAUUUA-3') is only 50% homologous to the ribosomal RNA
RNase E
cleavage site. By using computer programs predicting secondary structure, the dnaG
RNase E
cleavage site appears to be in a single stranded RNA loop.
...
PMID:Selective decay of Escherichia coli dnaG messenger RNA is initiated by RNase E. 768 58
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.
...
PMID:Analysis of mRNA decay and rRNA processing in Escherichia coli multiple mutants carrying a deletion in RNase III. 841 98
In Escherichia coli, ribonuclease E (
RNase E
) is a key
endonuclease
in mRNA decay. We have analysed the role of E coli
RNase E
on the degradation of a heterologous cytochrome c3 (cyc) mRNA from Desulfovibrio vulgaris Hildenborough. The decay of the cyc transcript in wild-type and mutant E coli cells was followed and the degradation intermediates analysed by Northern blotting and S1 protection analysis. The half-life of total cyc mRNA intermediates was increased in the
RNase E
mutant. A number of degradation intermediates were stabilised, and new species arose. However, some species decayed faster in the met5 mutant at the non-permissive temperature, suggesting that
RNase E
might inhibit their degradation. The results indicate that
RNase E
is involved in cyc mRNA degradation, and, interestingly, decay of certain intermediates could be reduced by this enzyme activity. This may suggest a functional interaction between
RNase E
and exonucleases, like polynucleotide phosphorylase.
...
PMID:RNase E can inhibit the decay of some degradation intermediates: degradation of Desulfovibrio vulgaris cytochrome c3 mRNA in E coli. 887 97
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