Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 Clarke-Carbon library with Escherichia coli DNA cloned into plasmid ColE1 was partially screened for Z-DNA with the monoclonal antibody Z-D11 using the retardation of the covalently closed circular DNA-protein complex by nitrocellulose filters. About 85% of the plasmids tested at "natural" supercoil density bound to the filter. Together with binding studies of the iodinated antibody, one Z-DNA segment per about 18,000 base-pairs of E. coli DNA is observed. One clone containing the region around the lactose operon, pLC20-30, was studied in detail. Subcloning a partial Sau3A digest and selection with antibodies gave three different Z-forming sites. They were mapped to within about +/- 20 base-pairs by preparing unidirectional deletion clones, selection of protein binding plasmids on nitrocellulose filters and subsequent sizing on agarose gels. The size of the Z-DNA-forming segments was estimated from two-dimensional gels of topoisomer mixtures. Together with results from sequencing of the plasmid DNA using exonuclease III to create single-stranded templates, stretches of alternating purine-pyrimidine tracts of 12 to 15 base-pairs were found to be responsible for Z-DNA formation. One of the sites was found in the middle of the lacZ gene, where it might be an obstacle for RNA polymerase. The methods used here should also be helpful for studying other DNA-protein sites, especially if they exist only in supercoiled DNA.
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PMID:Searching for potential Z-DNA in genomic Escherichia coli DNA. 329 60

We report in vitro studies of the interactions between purified E. coli RNA polymerase and DNA from the regulatory region of the E. coli galactose operon which carries a point mutation that simultaneously stops transcription initiation at the two normal start points, S1 and S2. In the presence of this point mutation, transcription initiates at a third start point 14/15 bp downstream of S1, showing that inactivation of the two normally active promoters, P1 and P2, unmasks a third weaker promoter, P3. Transcription initiation in the gal operon is normally regulated by the cyclic AMP receptor protein, CRP, that binds to the gal regulatory region and switches transcription from P2 to P1. With the point mutation, CRP binding switches transcription from P3 to P1, although the formation of transcriptionally competent complexes at P1 is very slow. The results are discussed with respect to the mechanism of transcription activation by the CRP factor and the similarities between the regulatory regions of the galactose and lactose operons.
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PMID:Studies with the Escherichia coli galactose operon regulatory region carrying a point mutation that simultaneously inactivates the two overlapping promoters. Interactions with RNA polymerase and the cyclic AMP receptor protein. 329 89

Two Escherichia coli control regions have been compared in their ability to be unwound by RNA polymerase during formation of the transcriptionally active ("open") complex: the wild-type control region, consisting of two overlapping binding sites P1 and P2, both weakly transcribed, and an "up" P1 mutant, the strong lac L8UV5 promoter. The final complexes were characterized by their topological unwinding, by DNase I and orthophenanthroline footprints, as well as by methylation of unpaired cytosine residues. At the wild-type control region, the RNA polymerase footprint is weak, and single-strand formation is incomplete and slow. The same signals are strong, complete and quickly established at lac L8UV5; yet the final complexes were found to be equally unwound (by 1.7 turns) in the absence of nucleotide substrates as well as during an abortive initiation cycle. At the lac wild-type region, open complex formation occurs slowly enough to permit the measurement of the extent of a single-stranded region and of topological unwinding during the latency period. Not all the final species are active and unwinding appears to precede, in time, full open-complex formation. At the lac UV5 promoter the same conclusion was reached by a different method involving those changes in the various parameters that characterize open-complex formation monitored by an abortive initiation assay, conducted at increasing levels of template superhelicity. From both approaches we conclude that, at these promoters, the formation of the single-stranded region occurs at the expense of a negative change in linking number, initially stored in a closed intermediate, perhaps as negative writhing. Furthermore, abortive transcription assays indicate that the specific initiation efficiency of the species stored at both promoters, P1 and P2, on the wild-type template is increased as a whole with increasing superhelicity (conversion of inactive species to active ones, increased efficiency of active ones). We conclude that negative supercoiling is not an extra-regulatory element of the lactose system, allowing modulation of expression of the wild-type promoter to the profit of P1. Instead, P2 and P1, in the absence of active catabolite receptor protein (CRP-cAMP), appear to be equally weak and to be equally affected by negative supercoiling in the range of superhelical densities examined. The physiological importance of the P1-P2 competition in the regulation of expression in this region is thus questioned. The major effect of CRP-cAMP stimulation appears to be the direct activation at the P1 promoter.
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PMID:Topological unwinding of strong and weak promoters by RNA polymerase. A comparison between the lac wild-type and the UV5 sites of Escherichia coli. 330 41

In Escherichia coli the transcription of the lactose operon, like other catabolite-sensitive operons, requires catabolite gene activator protein and 3',5'-cyclic adenosine monophosphate in addition to ribonucleic acid polymerase. We isolated and analyzed lac(+) revertants from a crp(-) strain of E. coli. We found that revertants with a higher level of expression only for the lac operon lie in the lac promoter region. These promoter mutations have no effect on operator or repressor function. Two of the revertants in which the lesions have been more precisely mapped carry mutations in the operator proximal segment of the promoter.
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PMID:Cyclic adenosine monophosphate-independent mutants of the lactose operon of Escherichia coli. 435 Mar 44

The Escherichia coli mutant hfl-1 is lysogenized at very high frequency by bacteriophage lambda. The normal requirement for the lambdacIII gene product in the establishment of repression is not observed in hfl-1 strains. These phenotypic characteristics are specified by a single locus at 82.5 min on the E. coli map in extremely close proximity to the purA gene, cotransduction frequencies ranging from 97 to 100% depending on the particular purA marker used. The lactose operon is shown to function normally in this strain, and there are also no demonstrable differences in ribonucleic acid polymerase activity or cyclic-adenosine monophosphate levels. Alterations in the cell envelope are indicated by a slight rifamycin resistance, which is reversible by pretreating the cells with ethylenediaminetetraacetic acid, and by a resistance to penicillin and a sensitivity to high concentrations of sodium dodecyl sulfate. It is not known whether this change in cell surface is the primary lesion, or a pleiotropic effect of some more basic metabolic shift.
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PMID:Genetic and biochemical investigation of the Escherichia coli mutant hfl-1 which is lysogenized at high frequency by bacteriophage lambda. 435 76

Fusidic acid or chloramphenicol was used to inhibit peptide synthesis to 1% of normal in Escherichia coli B, strain AS19. After 10 min of inhibition, peptide synthesis could be quickly restored to 80% of the normal rate after washing the bacteria on a filter. However, even in the presence of adenosine 3'-5'-cyclic-monophosphoric acid to block catabolite repression, beta-galactosidase, the first enzyme of the lactose operon (lac), could only be induced to 10% of normal, and the last enzyme of the operon, galactoside acetyltransferase, even less. The first and last enzymes of the operon for tryptophan synthesis could be derepressed to about 30% of normal. The lac ribonucleic acid (RNA) induced during recovery showed a smaller than normal size distribution on sucrose gradients. The operator-proximal or -distal parts of this RNA were specifically labeled. Hybridization to phi80dlac deoxyribonucleic acid (DNA) suggested that although the distal parts of the lac RNA were barely detectable, initiation was occurring at normal rates in recovery. Either normal levels of distal messenger RNA (mRNA) are made but then rapidly degraded or the mRNA is not completed. The small amount that is made decayed abnormally slowly, probably as a result of slower transcription. Total mRNA decay was multiphasic with all components decaying slower than normal. We propose that there is a residual level of inhibition of peptide synthesis during recovery. The probability that a ribosome is blocked at any codon can be estimated from the data. The longer the message, the less likely its complete translation. We propose that the RNA polymerase can transcribe translatable mRNA for only a finite distance beyond the lead ribosome. Because ribosomes can load at the start of each message in a polycistronic mRNA, the probability that a distal message will be synthesized and translated is a function of the number of more proximal messages and the distances between their ribosome-loading sites.
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PMID:Residual polarity and transcription-translation coupling during recovery from chloramphenicol or fusidic acid. 435 50

I have sequenced the first 63 bases of mRNA transcribed in vitro from the UV5 promoter mutant of the E. coli lactose operon. Sonic fragments of DNA, 1000 base pairs long and purified to contain only the lac operator-promoter region, were used as template. The UV5 promoter mutation allows transcription of the lac operon in the absence of catabolite activator protein and cAMP; lac repressor controls the synthesis of this RNA. I find that during synthesis, RNA polymerase pauses at particular sites along the DNA, naturally generating several discrete sizes of RNA that provide overlaps useful for sequencing. The UV5 lac mRNA initiates within the lac operator and copies the operator sequence. The AUG initiator codon for beta-galactosidase occurs at position 39 of the message. The sequence is: pppA-A-U-U-G-U-G-A-G-C-G-G-A-U-A-A-C-A-A-U-U-U- C-A-C-A-C-A-G-G-A-A-A-C-A-G-C-U-A-U-G-A-C-C-A-U- G-A-U-U-A-C-G-G-A-U-U-C-A-C-U-G-G.
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PMID:The nucleotide sequence of the lactose messenger ribonucleic acid transcribed from the UV5 promoter mutant of Escherichia coli. 458 56

The regulatory system of the lactose operon has been "modeled" by a set of mass action equations and conservation constraints which describe the system at equilibrium. A "base-set" of values of binding constants and total component concentrations has been assembled from the available experimental data, and the simultaneous equations solved by computer procedures, to yield equilibrium concentrations of all the relevant molecular species. Considering the operator-repressor-inducer system alone, it is shown that the in vivo basal and induced (derepressed) levels of lac enzyme synthesis in both wild-type and certain mutant Escherichia coli can be accounted for only if binding of repressor and repressor-inducer complexes to non-specific DNA sites is included in the calculations as an integral component of the ovrall control system. A similar approach was applied to the RNA polymerase-promoter system to show that sigma factor may modulate the general level of transcription in the cell by "inducing" polymerase off non-specific DNA binding sites, thus making it available to promoters. Competitive and non-competitive models for the interaction of repressor and polymerase at the lac operon can, in principle, be distinguished by these computational procedures, though data sufficient to permit unambiguous differentiation between the models are not available at this time. However, for any competitive binding model the results show that repression in the entire (operator-repressor-RNA polymerase-lac promoter) system can occur only because non-specific binding of the regulatory proteins reduces the concentration of free polymerase, relative to that of repressor, to appropriate levels.
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PMID:Non-specific DNA binding of genome regulating proteins as a biological control mechanism: I. The lac operon: equilibrium aspects. 461 28

S1 nuclease was used to generate a series of deletions which extend into the CAP-cAMP binding site from upstream of the Escherichia coli lactose operon promoter (lacP). Deletion and insertion mutations were also created which changed the spacing region between the CAP-cAMP binding site and the lacP -35 region. The promoter activities of these mutations were compared by measuring the levels of beta-galactosidase gene expression in vivo. The results show that sequence information prior to 74 base pairs (-74) upstream from the transcription start site (designated as +1) is not necessary for the full activation of the lac promoter by the CAP-cAMP complex. However, the deletion which extends to the -71 position retains only one third of the promoter activity in the presence of the CAP-cAMP complex. Removal of one symmetrical element from the two fold symmetry in the CAP-cAMP binding site abolished the CAP-cAMP stimulation of the lac promoter. Spacer mutations which increase by one base pair or decrease by two base pairs the length of the spacing region between the CAP-cAMP binding site and the lacP -35 region drastically reduced the CAP-cAMP stimulation of the lac promoter. This suggests that the distance between the lac promoter transcription start site and CAP-cAMP binding site is crucial for the function of the lac promoter, despite the fact that this distance varies in other E. coli promoters positively regulated by CAP-cAMP. A deletion which extends to the -59 position results in a two fold enhanced expression of lac in the absence of CAP-cAMP. This is consistent with the existance of a competitive RNA polymerase binding site in this region which would normally act to inhibit RNA polymerase binding.
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PMID:Deletion analysis of the CAP-cAMP binding site of the Escherichia coli lactose promoter. 608 87

The control of transcription initiation at the lactose operon promoter was investigated in vitro. We found that an upstream promoter (termed lac P2) interfered with RNA polymerase binding at the principal promoter (termed lac P1). The start site for lac P2 was located at base pair position -22 relative to the P1 start site. The addition of cAMP receptor protein and cAMP was shown to repress lac P2 and to activate lac P1. Abortive initiation reactions for both promoters were used to investigate the coordinate repression-activation elicited by CRP-cAMP. The effects of lac promoter mutations (L8, Ps, and UV5) were consistent with an important RNA polymerase positioning role for CRP-cAMP in the activation of lac operon expression.
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PMID:Dual promoter control of the Escherichia coli lactose operon. 609 9


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