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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Escherichia coli K-12 produces at least two ATP-dependent proteases, Lon (La) and Clp (Ti), the latter consisting of a regulatory subunit (ClpA) and a proteolytic subunit (
ClpP
). The gene clpB encoding an analog of ClpA had been found at 57 min on the E. coli chromosome. Cloning and examination of novel heat shock promoters led us to identify a major clpB promoter specifically controlled by a heat shock sigma factor, sigma 32 (the rpoH [= htpR] gene product). beta-Galactosidase synthesis from a PclpB-lacZ operon fusion was transiently induced upon temperature shift from 30 to 42 degrees C, and the induction depended on the rpoH function. Chromosomal clpB transcripts also increased upon temperature upshift and were totally absent in the rpoH deletion strain. In the in vitro transcription experiments, the clpB promoter was specifically recognized and transcribed by
RNA polymerase
-sigma 32. Nucleotide sequencing and determination of mRNA start sites permitted us to identify a major heat shock promoter located upstream of the clpB coding sequence. The results clearly indicate that clpB expression is under direct control of sigma 32. Since
ClpP
was recently shown to be a sigma 32-dependent heat shock protein, the present finding suggests the possibility that a potential ATP-dependent protease, ClpB-
ClpP
complex, plays an important role against thermal stress in E. coli.
...
PMID:Expression of ClpB, an analog of the ATP-dependent protease regulatory subunit in Escherichia coli, is controlled by a heat shock sigma factor (sigma 32). 190 60
A general scheme of lambda phage and plasmid DNA replication in Escherichia coli is presented, and results of in vivo experiments from the authors' laboratory are superimposed. The initiator lambda O functions in the assembly of the replication complex (RC) at ori lambda, making it a stable component of this structure.
ClpP
/ClpX protease-specific action on lambda O does not affect the regulation of replication; it only degrades the surplus of synthesized lambda O. The initiator lambda O becomes protected from proteolysis at a distinct step of the pathway of RC assembly. The host DnaA initiator-regulated transcriptional activation of ori lambda seems to be coupled with RC assembly at the step of chaperone-mediated rearrangement of the pre-primosome. The once-assembled RC is inherited by one of two lambda plasmid daughter copies at each round of circle-to-circle (theta) replication. The inherited, old RC-driven replication is also dependent on
RNA polymerase
and DnaA functions. It seems that DnaA licenses lambda plasmid DNA for only one replication round, resembling the putative eukaryotic licensing factor in this respect. The lambda O binding to ori lambda does not seem to play any role in regulation of lambda plasmid replication, and the Cro-autoregulatory loop may be deleted. The emerging picture shows lambda plasmid circles with RCs bound to their ori, awaiting a signal triggering initiation of replication. The host DnaA initiator-regulated transcriptional activation of ori lambda may be involved in signal transmission. Inactivation of DnaA function blocks initiation of lambda phage DNA replication, but the lambdoid prophage Rac compensates this defect and all parental phage DNA molecules, after one round of theta replication switch to the sigma mode and produce progeny in high yield. We suspect that DnaA-regulated transcriptional activation is involved in installation and adequate positioning of two RCs, required for bidirectional replication, but in the Rac-promoted process only one RC may be installed, leading to unidirectional replication continued in the sigma mode. In wild-type cells consumption of DnaA function by the rapidly replicating lambda phage DNA may switch replication from bidirectional theta to unidirectional theta, and later to the sigma mode; the lambda circles produced earlier may play the role of Rac, which is required only when DnaA function has been inactivated prior to phage infection.
...
PMID:Replication of coliphage lambda DNA. 766 36
Most organisms respond to heat by substantial alteration of the pattern of gene expression. This has been particularly well studied with Escherichia coli although the response has by no means been completely characterized. Here we report the characterization of 26 new heat shock genes of E. coli, termed hsl, discovered by global transcription analysis with an overlapping lambda clone bank. We have measured the molecular weights of the corresponding heat shock proteins and mapped each of them to within a few kilobases on the E. coli genome. In vitro, 16 of them can be activated by the E sigma 32
RNA polymerase
, which specifically transcribes heat shock genes. In vivo expression kinetics of seven of eight examined new proteins were found to be similar to those of the four most studied heat shock proteins, DnaK, DnaJ, GroEL (MopA), and GroES (MopB). In the course of this work, we confirmed that the catalytic subunit of the
ATP-dependent Clp protease
(also known as Ti protease),
ClpP
, is derived from a larger precursor protein. Possible assignments of some of the hsl genes to known proteins are discussed.
...
PMID:Characterization of twenty-six new heat shock genes of Escherichia coli. 834 64
The Bacillus subtilis clpP gene, encoding the proteolytic component of the Clp or Ti protease, was cloned and sequenced. The amount of clpP-specific mRNA increased after heat shock, salt and ethanol stress, as well as after treatment with puromycin. Two transcriptional start sites upstream of the clpP structural gene were identified, preceded by sequences resembling the consensus sequences of promoters recognized by sigmaA and sigmaB transcriptional factors of the B. subtilis
RNA polymerase
respectively. Transcription initiation occurred predominantly at the putative sigmaA-dependent promoter in exponentially growing cells and was induced under stress conditions. After exposure to stress, initiation of transcription also increased at the sigmaB-dependent promoter, but to a lesser extent, indicating that clpP belongs to a double promoter-controlled subgroup of class III general stress genes in B. subtilis. In a sigB mutant strain, clpP remained heat and stress inducible at the sigmaA-dependent promoter. BgaB-reporter gene fusions, carrying either the sigmaA- or the sigmaB-dependent promoter, showed a higher bgaB induction at the sigmaA-dependent promoter, whereas a significantly lower level of induction was measured at the sigmaB-dependent promoter. The sigmaA-dependent promoter appeared to be crucial for the heat-inducible transcription of clpP. A CIRCE (controlling inverted repeat of chaperone expression) element, the characteristic regulation target of class I heat shock genes such as dnaK and groESL, was not found between the transcriptional and translational start sites. Mutants lacking either the proteolytic component
ClpP
or the regulatory ATPase component ClpX were phenotypically distinct from the wild type. Both mutants produced chains of elongated cells and exhibited severely impaired growth under stress conditions and starvation. Comparison of two-dimensional protein gels from wild-type cells with those from clpP and clpX mutant cells revealed several changes in the protein pattern. Several proteins, such as GroEL, PpiB, PykA, SucD, YhfP, YqkF, YugJ and YvyD, which were found preferentially in higher amounts in both clpP and clpX mutants, might be potential substrates for the ClpXP protease.
...
PMID:Stress induction of the Bacillus subtilis clpP gene encoding a homologue of the proteolytic component of the Clp protease and the involvement of ClpP and ClpX in stress tolerance. 964 46
The Bacillus subtilis clpX and clpP genes are the sites of pleiotropic mutations that adversely affect growth on a variety of media and impair developmental processes such as sporulation and competence development. ClpX is necessary for the post-exponential induction of genes that require the sigmaH form of
RNA polymerase
for transcription. Both ClpX and
ClpP
are required for the activation of sigmaA-dependent transcription of the srf operon that encodes surfactin synthetase and the regulatory peptide ComS, required for the development of genetic competence. Transcription of srf is activated by the two-component regulatory system ComPA in response to the peptide pheromone, ComX, which mediates cell density-dependent control. A clpX mutant, although able to produce ComX, is unable to respond to the pheromone. A mutant allele of comP, encoding a product whose activity is independent of ComX, is not able to suppress clpX with respect to srf expression, suggesting that ClpXP acts at the level of ComA-dependent activation of srf transcription initiation. Suppressor mutations of clpX (cxs-1 and cxs-2) were isolated in screens for pseudorevertants exhibiting high levels of srf expression and sigmaH-dependent transcription respectively. One mutation, cxs-1, suppressed a clpP null mutation with respect to srf transcription, but did not overcome the block conferred by clpP on competence development and sporulation. Both cxs-1 and cxs-2 mutations map to the region of the rpoA gene encoding the
RNA polymerase
alpha C-terminal domain (alphaCTD). The reconstruction of the cxs-1 and cxs-2 alleles of rpoA confirmed that these mutations confer the suppressor phenotype. These findings provide further support for the hypothesis that ClpX and
ClpP
might be intimately associated with transcription initiation in B. subtilis.
...
PMID:Mutations conferring amino acid residue substitutions in the carboxy-terminal domain of RNA polymerase alpha can suppress clpX and clpP with respect to developmentally regulated transcription in Bacillus subtilis. 1097 8
The sigma(S) subunit of Escherichia coli
RNA polymerase
regulates the expression of stationary phase and stress response genes. Control over sigma(S) activity is exercised in part by regulated degradation of sigma(S). In vivo, degradation requires the ClpXP protease together with RssB, a protein homologous to response regulator proteins. Using purified components, we reconstructed the degradation of sigma(S) in vitro and demonstrate a direct role for RssB in delivering sigma(S) to ClpXP. RssB greatly stimulates sigma(S) degradation by ClpXP. Acetyl phosphate, which phosphorylates RssB, is required. RssB participates in multiple rounds of sigma(S) degradation, demonstrating its catalytic role. RssB promotes sigma(S) degradation specifically; it does not affect degradation of other ClpXP substrates or other proteins not normally degraded by ClpXP. sigma(S) and RssB form a stable complex in the presence of acetyl phosphate, and together they form a ternary complex with ClpX that is stabilized by ATP[gamma-S]. Alone, neither sigma(S) nor RssB binds ClpX with high affinity. When
ClpP
is present, a larger sigma(S)--RssB--ClpXP complex forms. The complex degrades sigma(S) and releases RssB from ClpXP in an ATP-dependent reaction. Our results illuminate an important mechanism for regulated protein turnover in which a unique targeting protein, whose own activity is regulated through specific signaling pathways, catalyzes the delivery of a specific substrate to a specific protease.
...
PMID:The RssB response regulator directly targets sigma(S) for degradation by ClpXP. 1123 82
Escherichia coli glutaredoxin 2 (Grx2, encoded by grxB) differs greatly from the other two glutaredoxins in structure and catalytic properties. In a wild type strain, levels of Grx2 increased 3-fold in the stationary phase (up to 8 microg/mg). Guanosine-3',5'-tetraphoshate (ppGpp) and sigma(S), which regulate the transcription of genes in the stationary phase, dramatically affected the expression of Grx2. spoTrelA null mutants, lacking ppGpp, had very low levels of Grx2, while overproduction of full-length RelA or valine-induced starvation of isoleucine, both conditions elevating ppGpp levels, resulted in elevation of Grx2. Null mutants for the sigma(S)-specific protease
ClpP
, which have higher levels of sigma(S), exhibited a 3-fold Grx2 increase. sigma(S) in trans also increased the levels of Grx2. Therefore the stationary phase expression of Grx2 is determined by the sigma(S)-bound form of
RNA polymerase
in connection with ppGpp, while basal levels should be attributed to sigma(70)-
RNA polymerase
holoenzyme. Osmotic pressure and cAMP also affected the expression of Grx2, presumably via sigma(S). Furthermore, Grx2 levels were elevated in an oxyR(-) strain. In accordance with the role of Grx2 as a stationary phase protein, null mutants for grxB were shown to lyse under starvation conditions and exhibited a distorted morphology.
...
PMID:Expression of Escherichia coli glutaredoxin 2 is mainly regulated by ppGpp and sigmaS. 1188 38
We have identified the barley gene and cDNA encoding the plastid phage-type
RNA polymerase
(RNAP), nuclear-encoded plastid RNAP (RpoTp), and the nearly full-length cDNA of the mitochondrial RNAP, nuclear-encoded mitochondrial RNAP (RpoTm). RpoTp spans more than 9000 nt, consists of 19 exons and 18 introns, gives rise to a 3632-nt mRNA and is localized to the long arm of chromosome 1 (7H). The length of the deduced polypeptide is 948 residues. The mRNA levels of RpoTp and RpoTm were determined in roots and primary leaf sections of 7-day-old barley seedlings of the albostrians mutant, which were either phenotypically normal and exhibited a gradient of chloroplast development, or contained ribosome-deficient undifferentiated plastids. Transcript levels of RpoTp and RpoTm in almost all sections reached higher concentrations in plastid ribosome-deficient leaves than in the wild-type material, except in the most basal part of the leaf. These data indicate a role of plastid-to-nucleus signalling in the expression of the two RpoT genes. The mRNA levels of the plastid genes, beta-subunit of plastid-encoded RNAP (rpoB), proteolytic subunit of the
Clp protease
(clpP) and ribosomal protein Rpl2 (rpl2), all known to be transcribed by the nuclear-encoded RNAP (NEP), followed closely the pattern of RpoTp mRNA accumulation, strongly suggesting that RpoTp and NEP are identical. Transcripts of RpoTm and RpoTm-transcribed mitochondrial genes cytochrome oxidase subunit 2 (coxII) and ATPase subunit 9 (atp9) accumulated to the highest levels in the most basal parts of the leaf and declined considerably towards the leaf tip with a pronounced reduction in green versus white leaves. Our data revealed a marked influence of the developmental stage of the plastid on the expression and activity of organellar phage-type RNAPs and their target genes. Thus, interorganellar cross-talk in the regulated expression of nuclear-encoded plastid and mitochondrial RNAP genes might be a key element governing the concerted expression of genes located within plastids, mitochondria and the nucleus of the plant cell.
...
PMID:Chloroplast development affects expression of phage-type RNA polymerases in barley leaves. 1508 95
The gene encoding the alternative sigma factor sigma(B) in Listeria monocytogenes is induced upon exposure of cells to several stresses. In this study, we investigated the impact of a sigB null mutation on the survival of L. monocytogenes EGD-e at low pH, during high-hydrostatic-pressure treatment, and during freezing. The survival of Delta sigB mutant exponential-phase cells at pH 2.5 was 10,000-fold lower than the survival of EGD-e wild-type cells. Moreover, the Delta sigB mutant failed to show an acid tolerance response. Upon preexposure for 1 h to pH 4.5, the survival at pH 2.5 was 100,000-fold lower for the Delta sigB mutant than for the wild type. The glutamate decarboxylase (GAD) acid resistance system is important in survival and adaptation of L. monocytogenes in acidic conditions. The sigma(B) dependence of the gad genes (gadA, gadB, gadC, gadD, and gadE) was analyzed in silico. Putative sigma(B)-dependent promoter sites were found upstream of the gadCB operon (encoding a glutamate/gamma-aminobutyrate antiporter and a glutamate decarboxylase, respectively) and the lmo2434 gene (gadD, encoding a putative glutamate decarboxylase). Reverse
transcriptase
PCR revealed that expression of the gadCB operon and expression of gadD are indeed sigma(B) dependent. In addition, a proteomics approach was used to analyze the protein expression profiles upon acid exposure. Although the GAD proteins were not recovered, nine proteins accumulated in the wild type but not in the Delta sigB strain. These proteins included Pfk, GalE,
ClpP
, and Lmo1580. Exposure to pH 4.5, in order to preload cells with active sigma(B) and consequently with sigma (B)-dependent general stress proteins, also provided considerable protection against high-hydrostatic-pressure treatment and freezing. The combined data argue that the expression of sigma(B)-dependent genes provides L. monocytogenes with nonspecific multiple-stress resistance that may be relevant for survival in the natural environment as well as during food processing.
...
PMID:Identification of sigma factor sigma B-controlled genes and their impact on acid stress, high hydrostatic pressure, and freeze survival in Listeria monocytogenes EGD-e. 1518 44
Protein carbonylation is an irreversible oxidative modification that increases during organism aging and bacterial growth arrest. We analyzed whether the heat shock regulon has a role in defending Escherichia coli cells against this deleterious modification upon entry into stationary phase. Providing the cell with ectopically elevated levels of the heat shock transcription factor, sigma32, effectively reduced stasis-induced carbonylation. Separate overproduction of the major chaperone systems, DnaK/DnaJ and GroEL/GroES, established that the former of these is more important in counteracting protein carbonylation. Deletion of the heat shock proteases Lon and HslVU enhanced carbonylation whereas a clpP deletion alone had no effect. However,
ClpP
appears to have a role in reducing protein carbonyls in cells lacking Lon and HslVU. Proteomic immunodetection of carbonylated proteins in the wild-type, lon, and hslVU strains demonstrated that the same spectrum of proteins displayed a higher load of carbonyl groups in the lon and hslVU mutants. These proteins included the beta-subunit of
RNA polymerase
, elongation factors Tu and G, the E1 subunit of the pyruvate dehydrogenase complex, isocitrate dehydrogenase, 6-phosphogluconate dehydrogenase, and serine hydroxymethyltranferase.
...
PMID:Defense against protein carbonylation by DnaK/DnaJ and proteases of the heat shock regulon. 1593 82
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