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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)
The role of the alpha subunit of Escherichia coli
RNA polymerase
in transcription activation by positive factors was investigated using two reconstituted mutant RNA polymerases (containing C-terminally truncated alpha subunits) and three positive factors [the
cAMP
receptor protein (CRP), OmpR, and PhoB]. The mutant RNA polymerases did not respond to transcription activation by activator proteins that bind upstream of the respective promoters. Transcription by these mutant enzymes was, however, activated in the cases where activators bind to target sites that overlap the promoter -35 region. Two different mechanisms are proposed for the positive control of transcription by activator proteins, one requiring the C-terminal domain of the alpha subunit, and the other not requiring it.
...
PMID:Functional map of the alpha subunit of Escherichia coli RNA polymerase: two modes of transcription activation by positive factors. 183 68
The promoter region preceding the hutUH operon in Klebsiella aerogenes contains two oppositely oriented, overlapping promoters. In the absence of catabolite gene activator protein-cyclic AMP (CAP-cAMP), transcription proceeds primarily from the backward-oriented promoter (Pc), whose function has not yet been determined, and only very weakly from the forward hutUH promoter, hutUp. In the presence of CAP-
cAMP
, Pc is repressed and transcription from hutUp is favored. Two protein components required for this in vitro transcription system,
RNA polymerase
(RNAP) and CAP, were purified from K. aerogenes and were shown to be functionally interchangeable with the corresponding proteins from Escherichia coli, suggesting that E. coli RNAP could be used to study some aspects of hut transcription. We showed that a gradual activation of hutUp (by increasing concentrations of CAP,
cAMP
, or glycerol) resulted in a parallel repression of Pc, arguing in favor of a direct competition between the two promoters. The presence of a DNA sequence resembling the consensus for CAP-binding sites and centered at nucleotide -82 (relative to hutUp) initially suggested that a primary role of CAP was to repress Pc, thereby indirectly activating hutUp. However, the relatively slow formation of open complexes at Pc, even in the absence of CAP-
cAMP
, showed that Pc is a weak promoter and likely to be a poor competitor for RNAP. The observed dominance of Pc over hutUp suggested that the latter is an even weaker promoter. Thus, repression of Pc would not be sufficient to cause the observed increase in hutUp activity, and the CAP-
cAMP
complex must play a direct role in the activation of hutUp.
...
PMID:In vitro transcription of the histidine utilization (hutUH) operon from Klebsiella aerogenes. 184 33
The gene encoding rat fructose-1,6-bisphosphatase was isolated from a rat genomic Charon 4A library by screening with a cDNA to the rat liver enzyme. Southern blotting of rat genomic DNA showed that there is a single copy of the fructose-1,6-bisphosphatase gene. It extends over 23 kilobases and is composed of seven exons and six introns that range in size from 93 to 267 base pairs and from 1,400 to 11,300 base pairs, respectively. The intron/exon boundary sequences conform to consensus acceptor (GTn) and donor (nAG) sequences, and the exons in the gene appear to code for functional protein domains. The transcription start site, determined by 5'-extension sequencing of mRNA, was assigned to a guanine 119 bases 5' to the translation initiation AUG. The sequence of the gene upstream to the cap site contains characteristic
RNA polymerase II
promoter-binding sites: a putative TATA box at position -29 and a Sp 1 binding site (GGGGCGGAGA) at position -48. A 1,300-base pair fragment of 5'-flanking sequence containing these elements, ligated upstream from a firefly luciferase reporter gene and transfected into cultured normal rat kidney cells, demonstrated strong promoter activity. The accumulation of fructose-1,6-bisphosphatase mRNA in hepatocytes incubated with
cAMP
suggests that the gene may be
cAMP
-responsive, which is consistent with the presence of three consensus
cAMP
regulatory elements at positions -169, -282, and -698 in the 5'-flanking region of the gene. Expression of the fructose-1,6-bisphosphatase promoter-driven luciferaes gene was 2-3-fold activated by the cyclic nucleotide, suggesting that one or more of these elements may be functional. On the other hand, insulin decreased the expression of the endogenous gene in hepatocytes. Thus, expression of the fructose-1,6-bisphosphatase gene is regulated independently by both
cAMP
and insulin.
...
PMID:The rat fructose-1,6-bisphosphatase gene. Structure and regulation of expression. 184 13
During carbon-starvation-induced entry into stationary phase, Escherichia coli cells exhibit a variety of physiological and morphological changes that ensure survival during periods of prolonged starvation. Induction of 30-50 proteins of mostly unknown function has been shown under these conditions. In an attempt to identify C-starvation-regulated genes we isolated and characterized chromosomal C-starvation-induced csi::lacZ fusions using the lambda placMu system. One operon fusion (csi2::lacZ) has been studied in detail. csi2::lacZ was induced during transition from exponential to stationary phase and was negatively regulated by
cAMP
. It was mapped at 59 min on the E. coli chromosome and conferred a pleiotropic phenotype. As demonstrated by two-dimensional gel electrophoresis, cells carrying csi2::lacZ did not synthesize at least 16 proteins present in an isogenic csi2+ strain. Cells containing csi2::lacZ or csi2::Tn10 did not produce glycogen, did not develop thermotolerance and H2O2 resistance, and did not induce a stationary-phase-specific acidic phosphatase (AppA) as well as another csi fusion (csi5::lacZ). Moreover, they died off much more rapidly than wild-type cells during prolonged starvation. We conclude that csi2::lacZ defines a regulatory gene of central importanc e for stationary phase E. coli cells. These results and the cloning of the wild-type gene corresponding to csi2 demonstrated that the csi2 locus is allelic with the previously identified regulatory genes katF and appR. The katF sequence indicated that its gene product is a novel sigma factor supposed to regulate expression of catalase HPII and exonuclease III (Mulvey and Loewen, 1989). We suggest that this novel sigma subunit of
RNA polymerase
defined by csi2/katF/appR is a central early regulator of a large starvation/stationary phase regulon in E. coli and propose 'rpoS' ('sigma S') as appropriate designations.
...
PMID:Identification of a central regulator of stationary-phase gene expression in Escherichia coli. 184 9
A catabolite-sensitive promoter was found to be involved in transcription of the heat shock regulatory gene rpoH encoding the sigma 32 protein. Expression of lacZ from the operon fusion, rpoHp-lacZ, was partially inhibited by glucose added to the broth medium. Dissection of the rpoH promoter region allowed us to localize the glucose-sensitive promoter to the 110-base-pair (bp) segment directly upstream of the rpoH coding region. Experiments on lacZ expression from the set of fusions in cya (adenylate cyclase) and crp (cyclic AMP [
cAMP
] receptor protein) mutants also supported the involvement of a catabolite-sensitive promoter. Analysis of rpoH mRNAs by S1 nuclease protection experiments led us to identify a novel promoter, designated P5, that is regulated by
cAMP
and the
cAMP
receptor protein. Studies of rpoH transcription in vitro demonstrated that
RNA polymerase
-sigma 70 can transcribe from the P5 promoter only in the presence of
cAMP
and its receptor protein. The 5' ends of P5 transcripts obtained in vivo and in vitro were found to be at 61 to 62 bp upstream of the initiation codon, and a putative binding sequence for the
cAMP
receptor protein was found at 38 to 39 bp further upstream. Transcription from the P5 promoter is increased by the addition of ethanol to the growth medium; however, the increase is greater in the presence of glucose than in its absence. These results add a new dimension to the transcriptional control of rpoH and to the regulation of the heat shock response in Escherichia coli.
...
PMID:Transcriptional regulation of the heat shock regulatory gene rpoH in Escherichia coli: involvement of a novel catabolite-sensitive promoter. 213 50
The cyclic AMP receptor protein-
cAMP
complex (CRP-cAMP) binds at a variety of distances upstream of several E. coli promoters and activates transcription. We have constructed a model system in which a consensus CRP binding site is placed at different distances upstream of the melR promoter. CRP-
cAMP
activates transcription from melR when bound at a number of positions, all of which lie on the same face of the DNA helix. The two distances at which transcription is strongly activated correspond exactly to those at which CRP-
cAMP
binds upstream of the well-studied galP1 and lac promoters. Footprinting of the synthetic promoters reveals that
RNA polymerase
makes identical contacts with their -10 regions even though CRP-
cAMP
binds at a different distance in each case. Kinetic analysis in vitro indicates that CRP-
cAMP
activates transcription from these promoters in similar but distinct ways. A model is proposed to explain this two-position activation.
...
PMID:Stringent spacing requirements for transcription activation by CRP. 216 78
A plasmid carrying a CRP-dependent promoter fused to the lac structural genes was manipulated to construct a set of spacing mutants that have varying lengths between the CRP binding site and the -35 region. The lengths of the spacer were changed over 45 bp by inserting or deleting nucleotides. DNase I footprinting analysis revealed that the spacer length did not affect the binding of
cAMP
-CRP to the CRP site. The effect of the spacer length on transcription activation by
cAMP
-CRP was tested in vivo by beta-galactosidase and quantitative S1 assays with crp+ and delta crp cells harboring plasmids. Insertions or deletions of non-integral helical turns, which displace the CRP site onto the opposite face of DNA helix compared to the original promoter, eliminated completely the activation of transcription. In contrast, changing the spacer length by integral helical turns allowed the promoter to respond to CRP, although the degree of activation varied with the length of the spacer. We conclude that stereospecific positioning of CRP and
RNA polymerase
on the DNA helix is strictly required for CRP action. The data support a model that CRP stimulates transcription by directly contacting
RNA polymerase
.
...
PMID:Helical phase dependent action of CRP: effect of the distance between the CRP site and the -35 region on promoter activity. 217 26
Bacteriophage T7 expresses a serine/threonine-specific,
cAMP
-independent protein kinase activity encoded by the early gene 0.7. The phosphoproteins specifically resulting from gp0.7 protein kinase expression in T7-infected Escherichia coli have been examined by one-dimensional, SDS-polyacrylamide gel electrophoresis. Only seven major, stable phosphoproteins dependent on gp0.7 protein kinase expression are observed. Two of the gp0.7 protein kinase-specific phosphoproteins observed have been previously identified: the beta' subunit of
RNA polymerase
and the RNA processing enzyme RNase III. The gp0.7-catalyzed protein phosphorylation activity appears at 9-11 min postinfection at 30 degrees. The new phosphoproteins have a metabolic stability comparable to that of uninfected cell phosphoproteins. T7 protein kinase expression causes the phosphorylation of the same, limited set of proteins in B, C, or K strains of E. coli. Expression of the T3 and BA14 phage protein kinase activities also produces the same phosphoproteins.
...
PMID:Protein kinase of bacteriophage T7 induces the phosphorylation of only a small number of proteins in the infected cell. 218 69
Anti-alpha monoclonal antibodies have been used to investigate the role of the alpha subunit of
RNA polymerase
in initiation and elongation. The four inhibitory monoclonal antibodies studied strongly inhibit
cAMP
receptor protein-dependent initiation with lac P+ and partially inhibit initiation directed by the lac UV5 promoter. The data suggest that the epitopes to which each of the monoclonal antibodies bind may be proximal to the contact domain between
cAMP
receptor protein and
RNA polymerase
. Recycling of
RNA polymerase
through the initiation process is slower in the presence of an inhibitory monoclonal antibody. Once a 9-nucleotide-long transcript has formed, incubation with the anti-alpha monoclonal antibody does not affect subsequent elongation. The monoclonal antibodies still bind to the elongation complex as indicated by sedimentation of the complex formed after incubation with Staphylococcus aureus cells (immunoprecipitin). These results suggest that the resistance of the elongation complex to these antibodies is not a consequence of their inability to bind to
RNA polymerase
. Only one of the alpha subunits may be involved in the initial process of transcription, and the antigenic domain of this subunit appears to be occluded by the nascent transcript present in the elongation complex.
...
PMID:Effects of anti-alpha monoclonal antibodies on initiation and elongation by the Escherichia coli RNA polymerase. 218 35
The anti-alpha monoclonal antibody, mAb 126C6, has been used to investigate the role of the alpha subunit in transcription initiation. mAb 126C6 strongly inhibits
cAMP
-CRP-dependent abortive initiation with lac P+, partially inhibits abortive initiation with the lac L8UV5 promoter, and is without effect on the d(A-T)n-directed synthesis of r(A-U)n. DNase I footprinting shows that the preformed mAb 126C6-
RNA polymerase
complex does not bind to
cAMP
-CRP-lac P+;
RNA polymerase
specific protection is largely lost after incubation of the preformed RPo with mAb 126C6. Kinetic analysis of open complex formation by mAb 126C6-
RNA polymerase
with lac L8UV5 showed that changes in both the binding and the rate of isomerization account for the observed inhibition, with the isomerization step affected to a greater extent. Binding of
cAMP
-CRP to lac L8UV5 is
RNA polymerase
dependent. DNase I footprints show that as a consequence of mAb 126C6 binding of the preformed
cAMP
-CRP-lac L8UV5-
RNA polymerase
RPo, CRP dissociates from its site on the promoter.
RNA polymerase
protection of the promoter upstream from -41 is also lost. DNase I footprinting of mAb 126C6-
RNA polymerase
complexed with
cAMP
-CRP-lac P+ or -lac L8UV5 suggests that interactions between CRP and
RNA polymerase
are affected by binding of the anti-alpha mAb 126C6 to
RNA polymerase
. Protection methylation studies demonstrate that the formation of the mAb 126C6-
RNA polymerase
-lac L8UV5 open complex occurs at a slower rate and that nonoptimal contacts are established between mAb 126C6-
RNA polymerase
-lac L8UV5 promoter.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Effects of an anti-alpha monoclonal antibody on interaction of Escherichia coli RNA polymerase with lac promoters. 219 Jun 32
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