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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)

In vitro transcription studies with a trp leader DNA template derived from a double deletion mutant of Serratia marcescens revealed that the transcription complex pauses synthesis of part of the RNA antiterminator, structure 2:3. Pausing was enhanced by NusA protein and was dependent on the concentration of UTP in the transcription reaction mixture. A weak antiterminator pause also was detected during transcription of the wild-type S. marcescens trp leader template in the presence of NusA protein and 1 microM UTP. Transcription pausing following synthesis of the antiterminator also was observed in a cell-free transcription-translation system. Antiterminator-induced pausing may play an important role in vivo by delaying synthesis of RNA segment 4. This delay may influence basal level control in cells with an excess of tryptophan. In addition, formation of the antiterminator pause structure may introduce a more stringent tryptophan starvation requirement for RNA polymerase to read through the attenuator.
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PMID:The RNA antiterminator causes transcription pausing in the leader region of the tryptophan operon. 169 Jul 21

In Pseudomonas aeruginosa, the operon encoding tryptophan synthase (trpBA) is positively regulated by the TrpI protein and an intermediate in tryptophan biosynthesis, indoleglycerol phosphate (InGP). A gene fusion in which the trpBA promoter directs expression of the Pseudomonas putida xylE gene was constructed. By using a P. putida F1 todE mutant carrying this fusion on a plasmid, three cis-acting mutations that increased xylE expression enough to allow the todE strain to grow on toluene were isolated. The level of xylE transcript from the trpBA promoter was increased in all three mutants. All three mutations are base substitutions located in the -10 region of the trpBA promoter; two of these mutations make the promoter sequence more like the Escherichia coli RNA polymerase sigma 70 promoter consensus sequence. The activities of the wild-type and mutant trpBA promoters, as monitored by xylE expression, were assayed in P. putida PpG1 and in E. coli. The up-regulatory phenotypes of the mutants were maintained in the heterologous backgrounds, as was trpI and InGP dependence. These results indicate that the P. aeruginosa trpBA promoter has the key characteristics of a typical E. coli positively regulated promoter. The results also show that the P. aeruginosa and P. putida trpI activator gene products are functionally interchangeable.
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PMID:Up-promoter mutations in the trpBA operon of Pseudomonas aeruginosa. 190 57

RNA polymerase pausing during transcription of the tryptophan (trp) operon leader region is postulated to be the key event that synchronizes transcription of this region with translation of the coding region for the trp leader peptide. Coupling of transcription to translation enables the cell to monitor the intracellular concentration of charged tRNATrp and determine whether polymerase should terminate transcription at the attenuator or proceed into the structural genes of the operon. We used mutant templates containing deletions of DNA segments corresponding to sequences that are predicted to form alternative RNA secondary structures to show that formation of an RNA hairpin in the leader transcript, and the concentration of the next nucleoside triphosphate to be added to the paused transcript, both markedly affect the kinetics of pausing in vitro. A model is presented that accounts for many of the findings obtained in this and other pausing studies.
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PMID:Analysis of the requirements for transcription pausing in the tryptophan operon. 240 88

Transcription of the trp operon of Bacillus subtilis is regulated in response to the availability of tryptophan. The first structural gene of the operon is preceded by a 204-base-pair transcribed leader region that contains a segment with the features of a procaryotic termination site. Transcription of the leader region was analyzed in vivo and in vitro to determine whether this putative termination site was used to regulate operon expression. When RNA was isolated from wild-type cells grown in the presence of excess tryptophan, transcripts of the operon ended at the putative termination site. In contrast, RNA isolated from cells grown in the absence of tryptophan or from a mutant strain which is constitutive for trp operon expression contained trp transcripts that extended beyond the termination site into the structural genes. To assess termination quantitatively in vivo, a trpE-lacZ fusion was constructed in which the trp promoter and leader region controls hybrid beta-galactosidase formation. The effects on hybrid beta-galactosidase levels of point mutations and deletions introduced into this leader region were determined. The results obtained establish that transcription of the trp operon structural genes is regulated in the leader region. This regulation appears to be mediated by the formation of alternative secondary structures of the leader transcript. In vitro transcription studies with wild-type and mutant templates provided additional evidence that the identified alternative RNA secondary structures regulate transcription termination. We hypothesize that binding of a tryptophan-activated regulatory protein to a specific segment of the nascent leader transcript prevents formation of one of the alternative secondary structures, thereby directing RNA polymerase to terminate transcription.
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PMID:Novel form of transcription attenuation regulates expression the Bacillus subtilis tryptophan operon. 242 55

The effect of infusion of a methionine-free total parenteral nutrition solution for 7 d on ribonucleic acids in liver of rats were investigated. The control solution contained leucine, valine, isoleucine, lysine, phenylalanine, threonine, tryptophan, arginine, histidine, glycine, methionine, glucose and vitamins and minerals. Deprivation of a methionine is known to increase the activity of RNA polymerase I. Infusing the methionine-free solution resulted in the accumulation of RNA molecules larger than 28S in the liver nuclei and resulted in a higher rate of rRNA synthesis than in rats infused with the control solution. A methionine deficiency did not impede either the processing of 45S pre-rRNA or transport of 28S and 18S rRNA into cytoplasm. When rats were infused with the methionine-free solution for 7 d followed by the control solution for 2 d, the level of RNA in the nucleus as well as the rate of RNA polymerase I were similar to the levels in rats receiving the control solution for 9 d. There were no significant changes in the rate of DNA synthesis due to nutritional manipulations.
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PMID:Alteration in the ribonucleic acids in rat liver induced by a methionine-free total parenteral nutrition solution. 243 90

The N protein of bacteriophage lambda (N lambda) modifies Escherichia coli RNA polymerase in such a way that it transcribes through termination signals, a process called antitermination. N antitermination normally occurs only if the template contains a specific utilization or nut site upstream of the terminators and only in the presence of host-encoded Nus proteins. The lambda-related phages 21 and P22 produce N analogs, N21 and N22, but these require different nut sites and show a different pattern of functional interaction with one of the Nus factors, NusA, according to whether this protein is of E. coli or Salmonella origin (NusAEc or NusASal). We report the overproduction of N lambda, N21, or N22, each of which was induced by isopropyl-beta-D-thiogalactopyranoside at 37 degrees C from its cloned position downstream from ptac on a high-expression plasmid, each in a host that provided NusAEc or NusASal. Overproduction of each of these N proteins resulted in relaxed specificity for nut, which was shown by the ability to complement N mutants of heterologous phages; NusA specificity was determined by the N type that was present in these complementation tests. We also observed that excess N was able to suppress transcriptional polarity in the particular case of cloned 'trpA, the last gene of the tryptophan operon, although there was no effect on polarity within chromosomal trpE. Such polarity is attributed to the presence of cryptic intragenic terminators that become exposed in the absence of translation. Because there is no known nut site cis to 'trpA, we suggest that the 'trpA segment itself fortuitously contains a nut sequence that is able to function with excess N of any of the types tested and with either NusAEc or NusASal. We also found that excess N of any specificity, or even inactive N with missense mutation, could cause an increase in the level of NusAEc or NusASal, possibly because interaction between N and NusA, but independent of nut, whether functional or not, interferes with the autoregulation of NusA synthesis. These observations highlight the importance of protein concentration for the specificity of interactions both with other proteins and with nucleic acids. They also indicate that the interaction between N and NusA requires nut participation both for specificity and functionality.
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PMID:Overexpression of N antitermination proteins of bacteriophages lambda, 21, and P22: loss of N protein specificity. 265 5

Mutations in prfB, encoding release factor 2 (UGA- and UAA-specific), increase transcription termination at the trp operon attenuator in Escherichia coli strains grown in the presence of tryptophan. The prfB mutations have no effect on basal level expression in strains in which the natural trp leader peptide stop codon UGA was replaced by either UAG or UAA. The effect of introducing prfB mutations into mutant strains containing altered trp leader regions that influence basal level transcription readthrough was also determined. Our findings support a model for basal level control of trp operon expression in which ribosome release from the leader peptide stop codon, formation of alternative transcript secondary structures, and the position of the transcribing RNA polymerase regulate expression.
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PMID:Regulation of basal level expression of the tryptophan operon of Escherichia coli. 266 55

Zeins, the storage proteins of maize, are totally lacking in the essential amino acids lysine and tryptophan. Lysine codons and lysine- and tryptophan-encoding oligonucleotides were introduced at several positions into a 19-kilodalton zein complementary DNA by oligonucleotide-mediated mutagenesis. A 450-base pair open reading frame from a simian virus 40 (SV40) coat protein was also engineered into the zein coding region. Messenger RNAs for the modified zeins were synthesized in vitro with an SP6 RNA polymerase system and injected into Xenopus laevis oocytes. The modifications did not affect the translation, signal peptide cleavage, or stability of the zeins. The ability of the modified zeins to assemble into structures similar to maize protein bodies was assayed by two criteria: assembly into membrane-bound vesicles resistant to exogenously added protease, and ability to self-aggregate into dense structures. All of the modified zeins were membrane-bound; only the one containing a 17-kilodalton SV40 protein fragment was unable to aggregate. These findings suggest that it may be possible to create high-lysine corn by genetic engineering.
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PMID:Aggregation of lysine-containing zeins into protein bodies in Xenopus oocytes. 283 22

It has been proposed that RNA polymerase pausing in the leader region of the tryptophan (trp) operon of Escherichia coli is responsible for the synchronization of transcription and translation essential to attenuation control. In this report we use an in vitro coupled transcription/translation system to study the effect of trp leader peptide synthesis on RNA polymerase pausing in the trp leader region. Wild-type and translation-defective trp leader templates of E. coli and Serratia marcescens were employed, and pause RNA synthesis and paused complex release (activation) were quantified relative to synthesis of the terminated leader transcript. It was observed that pausing in the trp leader region was prolonged when translation of the leader transcript was reduced by mutations in the leader region or by addition of the translation inhibitor kasugamycin or chloramphenicol. Experiments with S-30 extracts from a mutant strain that is inefficient in translating the tryptophan codons in the leader transcript indicated that ribosome movement to these codons also releases the paused transcription complex. These findings indicate that the paused trp leader transcription complex resumes transcription when released by ribosome movement over the leader peptide coding region. This release would facilitate the coupling of transcription and translation essential to attenuation control.
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PMID:Translation activates the paused transcription complex and restores transcription of the trp operon leader region. 299 86

The binding affinity between the substrates ATP and UTP with the purified yeast RNA polymerase II have been studied here in the presence and absence of Mn2+. In the absence of template DNA, both ATP and UTP showed tight binding with the enzyme without preference for any specific nucleotide, unlike Escherichia coli RNA polymerase. Fluorescence titration of the tryptophan emission of the enzyme by nucleoside triphosphate substrates gave an estimated Kd value around 65 microM in the absence of Mn2+ whereas in the presence of Mn2+, the Kd was 20 microM. The effect of substrates on the longitudinal relaxation of the HDO proton in enzyme-substrate complex also yielded a similar Kd value.
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PMID:Spectroscopic studies on the mode of binding of ATP, UTP and alpha-amanitin with yeast RNA polymerase II. 305 14

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