EC:2.7.7.6 - FACTA Search

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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 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

Transcription from promoter Pu of the upper catabolic operon of the Pseudomonas putida TOL plasmid which specifies conversion of toluene/xylenes to benzoate/toluates is activated by the TOL-encoded regulator XylR protein in the presence of substrates of the catabolic pathway and in conjunction with the sigma 54(NtrA)-containing form of RNA polymerase. This regulatory circuit was faithfully reproduced in Escherichia coli in single copy gene dosage by integrating the corresponding controlling determinants into the chromosomes of several K12 derivatives by means of specialized transposons. In vivo monitoring of the activity of a Pu-lacZ fusion in E. coli strains with different genetic backgrounds demonstrated that integration host factor (IHF) is involved in Pu regulation and that hyperproduction of the XylR protein leads to a decrease of Pu activity in a manner in which deletion of the putative DNA-binding domain of the XylR does not impair its inhibitory effect when hyperproduced. One discrete IHF binding site and two potential XylR sites (consensus sequence 5'-TTGANCAAATC-3'), bracketted by short stretches of DNase I-hypersensitive bonds, were detected upstream of the transcription initiation site. A model accounting for the features found is proposed which includes the IHF-promoted looping of upstream XylR-DNA complexes so that they contact the sigma 54(NtrA)-RNA polymerase bound at -12/-24 positions.
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PMID:An upstream XylR- and IHF-induced nucleoprotein complex regulates the sigma 54-dependent Pu promoter of TOL plasmid. 202 86

Novel RNA polymerase activities (termed type II reaction) can be found in toluene-treated Escherichia coli with Ca2+, Fe2+, or endogenously bound cations, probably Mg2+. These activities are distinguishable from the well characterized DNA-dependent RNA polymerase (type I reaction) by: (i) their divalent cation requirements, i.e., the classical enzyme is activated by exogenously added Mn2+, Mg2+, or CO2+ ions; (ii) their relative resistance to inhibition by actinomycin D, rifampicin, and streptolydigin; (iii) their selective synthesis of low molecular weight RNA; (iv) their sensitivity to inhibition by arabinonucleoside 5'-triphosphates or deoxyribonucleoside 5'-triphosphates; and (v) the strict requirement for ATP in Ca2+ and bound cation-activated reactions. The Ca2+-activated and endogenous RNA polymerase activities are inhibited by orthophosphate. The properties of the type II RNA polymerase(s) are compared with those of polynucleotide phosphorylase, and dnaG gene product, and the RNA polymerase described by Ohasa and Tsugita.
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PMID:Divalent cation-activated RNA synthesis in toluene-treated Escherichia coli. 617 Apr 2

As a starting point for the study of the biosynthesis of polyadenylated RNA in bacteria, the characteristics of RNA synthesis by cells of Escherichia coli B made permeable to small molecules by treatment with toluene were examined. Such cells mediated the incorporation of radiolabeled ribonucleoside triphosphates into RNA in a reaction that was sensitive to inhibitors of RNA polymerase and required the simultaneous presence of the four ribonucleoside triphosphates. Between 10 to 15% of the RNA synthesized under these conditions was polyadenylated as shown by affinity chromatography on oligo(dT)-cellulose. The presence of orthophosphate or dADP, inhibitors of polynucleotide phosphorylase, had no effect on the reaction and the rate of RNA synthesis was indistinguishable in the polynucleotide phosphorylase-deficient strain PR-7 and in its otherwise isogenic parent strain PR-100. The poly(A) tracts associated with the newly synthesized RNA could be isolated after exhaustive digestion with pancreatic and T1 ribonucleases and accounted for 14% of the poly(A)-RNA. At least 74% of the poly(A) sequences were located at the 3' ends of RNA molecules and their weight-average length was 48 nucleotide residues. The size distribution of total RNA and poly(A)-RNA synthesized in the toluenized cell system was similar to that of the corresponding pulse-labeled fractions derived from growing cultures. The sequence complexity of poly(A)-RNA and unadenylated RNA synthesized in toluenized cells with [alpha-32P]CTP as the labeled substrate was analyzed by hybridization to fragments of Escherichia coli B DNA generated by digestion with EcoRI restriction endonuclease and immobilized on nitrocellulose sheets. Both RNA fractions hybridized with many DNA fractions, the hybridization patterns being similar with poly(A)-RNA and unadenylated RNA. This indicated that many different types of RNA transcripts synthesized in toluenized cells were subject to polyadenylation, but that polyadenylation was incomplete so that each transcript was present in both an adenylated and an unadenylated state.
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PMID:Synthesis of polyadenylate-containing RNA in vitro in permeable cells of Escherichia coli B. 619 64

A class of rpoB mutations is described which suppresses replication and transcription deficiency in gyrB-ts mutants shifted to a nonpermissive temperature. The compensatory effect of an altered subunit B of RNA polymerase (rpoB) for the gyrB defect, indicates that transcription is a primary target of the B subunit of DNA gyrase. One gyrB mutation (gyrB402-ts) shows deficiency in chromosome elongation at the nonpermissive temperature, both in vivo and in cells permeabilized with toluene. It is therefore concluded that the gyrB polypeptide functions at least dually in replication; first, at the level of transcription initiation and second, at the level of chain polymerization.
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PMID:The gyrB gene product functions in both initiation and chain polymerization of Escherichia coli chromosome replication: suppression of the initiation deficiency in gyrB-ts mutants by a class of rpoB mutations. 619 15

The bactericidal activity of Tinopal AN [1,1-bis(3,N-5-dimethyl-benzoxazol-2-yl)-methine p-toluene sulphonate] was shown to be due to a mechanism entirely independent of its inhibitory effects upon NADH dehydrogenase which were reported previously. Whereas the compound had no significant effect upon DNA synthesis in Escherichia coli D22, RNA and protein synthesis were immediately and markedly inhibited. In confirmation, Tinopal AN caused an immediate cessation in inducible beta-galactosidase synthesis in the same organism. An in vitro assay of the transcription of calf-thymus DNA by purified E. coli RNA polymerase showed that this process was inhibited by Tinopal AN.
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PMID:The antibacterial action of Tinopal AN. 620

The xylABC operon on the TOL plasmid directs the synthesis of enzymes for conversion of toluene to benzoate and is positively controlled by the regulatory gene xylR. In the study here the nucleotide sequence was determined for the regulatory region of this operon. The in vivo transcription initiation site of the operon was determined by S1 nuclease and reverse transcriptase mapping. RNA was prepared from m-methylbenzyl alcohol-induced cells of Pseudomonas putida and Escherichia coli carrying pTN2, a derivative of the TOL plasmid containing the structural and regulatory genes of the entire toluene-degrading pathway. The amount of E. coli mRNA was estimated to be only 10% of that of P. putida mRNA. Consensus sequences of the -10 region (Pribnow box) and the -35 region (RNA polymerase recognition site) in E. coli genes were not found in the region preceding the transcription initiation site, whereas a sequence complementary to the 3' end of the 16S rRNA of Pseudomonas aeruginosa and E. coli existed in front of the predicted start codon of the xylA gene. These results explain the inefficient expression of TOL genes in E. coli.
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PMID:Nucleotide sequence surrounding transcription initiation site of xylABC operon on TOL plasmid of Pseudomonas putida. 632 12

The genetic organization of the Pseudomonas putida plasmid pWWO-161, which encodes enzymes for the degradation of toluene and related aromatic hydrocarbons, has been investigated by transposition mutagenesis and gene cloning. Catabolic genes were localized to two clusters, one for upper pathway (hydrocarbon leads to carboxylic acid) enzymes and the other for lower pathway (carboxylic acid leads to tricarboxylic acid cycle) enzymes, that are separated by a 14-kilobase DNA segment. The physical organization of the catabolic genes thus reflects their functional organization into two regulatory blocks. The pWWO-161 DNA fragments Sst I fragment C and fragment D were cloned in a broad host range vector to produce plasmid pKT530. This hybrid encodes toluate oxygenase and all meta cleavage pathway enzymes, and it enables P. putida mt-2 and Escherichia coli K-12 cells to grow on m-toluate as sole carbon source. The pKT530 plasmid also carries xylS (a gene whose product has been postulated to regulate expression of the lower pathway genes) and the control sequences of the pathway that interact with this product, because catechol 2,3-oxygenase synthesis is specifically induced by m-toluate in both P. putida and E. coli. Evidence is presented that suggests the promoter operator of the meta pathway gene functions less effectively with the RNA polymerase or xylS product of E. coli than with the enzyme or product of P. putida.
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PMID:Molecular and functional analysis of the TOL plasmid pWWO from Pseudomonas putida and cloning of genes for the entire regulated aromatic ring meta cleavage pathway. 695 Mar 88

The nucleotide (nt) sequence of the bpdC1C2BADE genes which encode the first three enzymes in the biphenyl (BP) degradation pathway of Gram+ Rhodococcus sp. M5 (formerly Arthrobacter M5) was determined. Except for the ferredoxin component (BpdB) of the initial BP dioxygenase, the predicted amino acid (aa) sequences of the remaining proteins are found to be more closely related to the counterpart proteins (TodC1C2BADE) present in the toluene-degrader, Pseudomonas putida F1, than those of three BP-degrading pseudomonads. The cloned bpd genes were verified by their expression in the Escherichia coli T7 RNA polymerase/promoter system. In E. coli, BpdA was able to complement TodC1C2B in indigo biosynthesis, although the M5 native or cloned BP dioxygenase does not carry out this reaction.
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PMID:Sequence and expression of the bpdC1C2BADE genes involved in the initial steps of biphenyl/chlorobiphenyl degradation by Rhodococcus sp. M5. 759 Feb 99

In the presence of toluene and xylenes, the sigma 54-dependent Ps promoter of the TOL (toluene biodegradation) plasmid pWW0 of Pseudomonas putida is activated at a distance by the XylR protein, of the NtrC family of transcriptional regulators. Since contacts between XylR bound to upstream activating sites and the RNA polymerase require the looping out of the intervening DNA segment, the intrinsic curvature, the bendability of the corresponding sequence, and the spatial effects of protein-induced DNA bending have an influence on promoter activity. Unlike other sigma 54-dependent promoters, Ps does not require the structural aid of the integration host factor to assemble a specific promoter geometry required for transcriptional initiation. In vivo analysis of transcriptional activity in various genetic backgrounds suggests, instead, that the looping out of intervening DNA sequences in Ps would result from the exacerbation of a preexisting static bend within the region, assisted by the histone-like protein HU.
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PMID:The sigma 54-dependent promoter Ps of the TOL plasmid of Pseudomonas putida requires HU for transcriptional activation in vivo by XylR. 760 41

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