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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)

Five phages which are morphologically similar to coliphage T7 but attack other host bacteria have been compared to T7 and to its relative, T3, by the following criteria: (a) cross-reactivity with antisera against T7 and T3, (b) DNA base sequence homologies, as determined by the C0t technique, (c) synthesis of two phage-coded enzymes: RNA polymerase and SAMase, (d) patterns of phage-directed protein synthesis, as determined by SDS-polyacrylamide gel electrophoresis of phage coat subunits. As judged by all these criteria, Pseudomonas phage PX3 is not related to T7; thus, morphological similarity was attributed to convergent evolution. The other phages, i.e. Serratia phage IV, Psuedomonas phage gh-1, Citrobacter phage ViIII and Klebsiella phage No. 11, were considered to be related to T7 on the basis of similarities in the patterns of phage-coded proteins and because, early after infection, these phages induced, as T7 does, an RNA polymerase which specifically transcribes the DNA of thehomologous phage. Phages IV and No. 11 also induced the early synthesis of SAMase (previously only known to occur upon T3 infection). With the exception of phage IV, however, DNA base sequence homologies with T7 or T3 seem to be poor or non-existent. The tested phages, again with the exception of phage IV, did not react with antiserum against T3 or T7. It is concluded that a particular pattern of phage-directed protein synthesis (as characterized by polyacrylamide gel electrophoresis and enzyme tests) may provide evidence for phylogenetic relationships between phages, even in cases where other criteria, such as genetic recombination, serological cross-reaction, and DNA base sequence homologies, fail to indicate relatedness.
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PMID:The strategy of infection as a criterion for phylogenetic relationships of non-coli phages morphologically similar to phage T7. 9 Jan 10

Various F' plasmids of Escherichia coli K-12 could be transferred into mutants of the soil strain 6.2, classified herein as a Pseudomonas fluorescens biotype IV. This strain was previously found to receive Flac plasmid (N. Datta and R.W. Hedges, J. Gen Microbiol. 70:453-460, 1972). ilv, leu, met, arg, and his auxotrophs were complemented by plasmids carrying isofunctional genes; trp mutants were not complemented or were very poorly complemented. The frequency of transfer was 10(-5). Subsequent transfer into other P. fluorescens recipients was of the same order of magnitude. Some transconjugants were unable to act as donors, and these did not lose the received information if subcultured on nonselective media. Use of F' plasmids helped to discriminate metabolic blocks in P. fluorescens. In particular, metA, metB, and argH mutants were so distinguished. In addition, F131 plasmid carrying the his operon and a supD mutation could partially relieve the auxotrophy of thr, ilv, and metA13 mutants, suggesting functional expression of E. coli tRNA in P. fluorescens. In P. fluorescens metA Rifr mutants carrying the F110 plasmid, which carried the E. coli metA gene and the E. coli rifs allele, sensitivity to rifampin was found to be dominant at least temporarily over resistance. This suggests interaction of E. coli and P. fluorescens subunits of RNA polymerase. his mutations were also complemented by composite P plasmids containing the his-nif region of Klebsiella pneumoniae (plasmids FN68 and RP41). nif expression could be detected by acetylene reduction in some his+ transconjugants. The frequency of transfer of these P plasmids was 5 X 10(-4).
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PMID:F'-plasmid transfer from Escherichia coli to Pseudomonas fluorescens. 9 67

The promoter elements responsible for the expression of the regulatory nif genes rpoN, nifA1 and nifA2 of Rhodobacter capsulatus were mapped by exonuclease-III-mediated deletions and by primer extension analysis. The rpoN promoter maps 600 bp upstream of rpoN and has the characteristic features of a -24/-12 promoter. The upstream activator sequence (UAS) displays two mismatches with the NIFA consensus sequence and is located 37 bp upstream of a perfect -24/-12 promoter element. The spacing and/or the helical phasing of these two promotor elements was found to be important for promoter function. In addition, an UAS half-site may contribute to optimal promoter function. The rpoN UAS can partially substitute for the UAS of the nifE promoter. An open reading frame with homology to Klebsiella pneumoniae NIFU was identified between the rpoN promoter and rpoN and termed nifU2 since another nifU-like gene (nifU1) is located in a conventional nifUSVW operon in nif region A. Thus, rpoN, encoding an alternative sigma factor for RNA polymerase, is cotranscribed with a nifU analogous gene from an rpoN-dependent promoter. Mapping of the promoter elements involved in the expression of nifA copy 1 and copy 2 identified a novel promoter type. A conserved distal promoter element is likely to represent the binding site of NTRC in R. capsulatus. The DNA region preceding the mapped 5' ends of the nifA transcripts displays much less homology. The distance between the distal and proximal elements is about 100 bp.
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PMID:Mapping and characterization of the promoter elements of the regulatory nif genes rpoN, nifA1 and nifA2 in Rhodobacter capsulatus. 137 27

Pseudomonas syringae pv. syringae 61 contains a 25-kb cluster of hrp genes that are required for elicitation of the hypersensitive response (HR) in tobacco. TnphoA mutagenesis of cosmid pHIR11, which contains the hrp cluster, revealed two genes encoding exported or inner-membrane-spanning proteins (H.-C. Huang, S. W. Hutcheson, and A. Collmer, Mol. Plant-Microbe Interact. 4:469-476, 1991). The gene in complementation group X, designated hrpH, was subcloned on a 3.1-kb SalI fragment into pCPP30, a broad-host-range, mobilizable vector. The subclone restored the ability of hrpH mutant P. syringae pv. syringae 61-2089 to elicit the HR in tobacco. DNA sequence analysis of the 3.1-kb SalI fragment revealed a single open reading frame encoding an 81,956-Da preprotein with a typical amino-terminal signal peptide and no likely inner-membrane-spanning hydrophobic regions. hrpH was expressed in the presence of [35S]methionine by using the T7 RNA polymerase-promoter system and vector pT7-3 in Escherichia coli and was shown to encode a protein with an apparent molecular weight of 83,000 on sodium dodecyl sulfate-polyacrylamide gels. The HrpH protein in E. coli was located in the membrane fraction and was absent from the periplasm and cytoplasm. The HrpH protein possessed similarity with several outer membrane proteins that are known to be involved in protein or phage secretion, including the Klebsiella oxytoca PulD protein, the Yersinia enterocolitica YscC protein, and the pIV protein of filamentous coliphages. All of these proteins possess a possible secretion motif, GG(X)12VP(L/F)LXXIPXIGXL(F/L), near the carboxyl terminus, and they lack a carboxyl-terminal phenylalanine, in contrast to other outer membrane proteins with no known secretion function. These results suggest that the P. syringae pv. syringae HrpH protein is involved in the secretion of a proteinaceous HR elicitor.
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PMID:The Pseudomonas syringae pv. syringae 61 hrpH product, an envelope protein required for elicitation of the hypersensitive response in plants. 140 Feb 38

In a wide variety of nitrogen-fixing organisms among the Purple Bacteria (large division of Gram-negative bacteria) the nitrogen fixation (nif) operons are transcribed by an alternative holoenzyme form of RNA polymerase, sigma 54-holoenzyme. Transcription depends on the activator protein NIFA (nitrogen fixation protein A), which catalyzes isomerization of closed complexes between this polymerase and a promoter to transcriptionally productive open complexes. NIFA-mediated activation of transcription from the nifH promoter of Klebsiella pneumoniae is greatly stimulated by the integration host factor IHF, which binds to a site between the upstream binding site for NIFA and the promoter, and bends the DNA. IHF fails to stimulate activation of transcription from this promoter by another activator of sigma 54-holoenzyme, NTRC (nitrogen regulatory protein C), which lacks a specific binding site in the nifH promoter region. As predicted, if the IHF-induced bend facilitates interaction between NIFA and sigma 54-holoenzyme, substitution of an NTRC-binding site for the NIFA-binding site allowed IHF to stimulate NTRC-mediated activation of transcription from the nifH promoter. The stimulation was of the same order of magnitude as that for NIFA in the native configuration of the promoter-regulatory region (up to 20-fold). With purified NTRC and the substitution construct we could demonstrate that stimulation by IHF in a purified transcription system was comparable to that in a crude coupled transcription-translation system, indicating that the stimulation in the crude system could be accounted for by IHF. The IHF stimulation was observed on linear as well as supercoiled templates, indicating that the geometric requirements are relatively simple. We have attempted to visualize the arrangement of proteins on DNA fragments carrying the nifH promoter-regulatory region of K. pneumoniae by electron microscopy. IHF stimulated NIFA-mediated activation of transcription from the nifH and nifD promoters of Bradyrhizobium japonicum and less so from the nifH promoters of Rhizobium meliloti and Thiobacillus ferrooxidans, consistent with previous observations that stimulation is greatest at promoters that are weak binding sites for sigma 54-holoenzyme in closed complexes.
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PMID:Role of integration host factor in stimulating transcription from the sigma 54-dependent nifH promoter. 140 79

The alternative sigma factor sigma 54 is required for transcription of nitrogen fixation genes in Klebsiella pneumoniae and other diazotrophs. The nif genes, and other E sigma 54-dependent genes whose products are necessary for a wide range of processes, are postively regulated. A unifying model that is well supported by studies on nif and other nitrogen-regulated (ntr) genes includes the central tenet that sigma 54 confers upon core RNA polymerase the ability to recognize and bind specific promoter sequences, but not the ability to isomerize to the open complex without assistance from the appropriate activator protein. Direct physical evidence for formation of an activator-independent complex between E sigma 54 and the NifA-dependent K. pneumoniae nifH and nifU promoters has, to date, been lacking. Using purified components we have now demonstrated formation of the closed complex at these promoters, indicating that it is an intermediate along the pathway to open complex formation. The closed complex was not detected when conserved features of the promoter were altered by mutation, nor was its stability increased when integration host factor protein was bound adjacent to the E sigma 54 recognition sequence.
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PMID:Activator-independent formation of a closed complex between sigma 54-holoenzyme and nifH and nifU promoters of Klebsiella pneumoniae. 149 90

The positive control protein NifA of Klebsiella pneumoniae activates transcription by RNA polymerase containing sigma 54 by catalysing open promoter complex formation. We show that the integrity of the putative ATP-binding pocket in the central domain of NifA is necessary for the positive control function of NifA, but is not required for DNA-binding or recognition of NifA by NifL. The inactive mutant NifA proteins are trans dominant to wild-type NifA and are unable to catalyse formation of open promoter complexes irrespective of whether a closed promoter complex at the nifH promoter has preformed. Formation of the closed complex results in a DNA structural distortion adjacent to the DNA region melted in the open promoter complex. This distortion lies at the leading edge of the E sigma 54 footprint. Although unable to catalyse open complex formation, some mutant NifAs altered the chemical reactivity of the distorted base-pair indicating that they retain the ability to recognize the closed promoter complex. The activation phenotype of partially active NifA molecules was sensitive to promoter sequences known to influence closed complex formation, indicating differences in (1) the susceptibility of the closed complexes towards activation and (2) their requirements for NifA during activation.
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PMID:Central domain of the positive control protein NifA and its role in transcriptional activation. 159 20

Transcription from the sigma 54-dependent Klebsiella pneumoniae nifL and glnAp2 promoters is activated by the general nitrogen regulatory protein NTRC. Unlike the glnAp2 promoter, which is relatively insensitive to changes in DNA supercoiling, transcription from nifL in vitro in a chloride-based buffer is supercoiling-dependent at physiological salt concentrations. The replacement of chloride with an acetate-based buffer decreases the stringency of the nifL supercoiling response, but open complexes formed on linear nifL promoter DNA under these conditions are unstable and less extensive than those found on supercoiled (form I) DNA. We have introduced mutations in particular elements of the nifL promoter that increase its homology to glnAp2. At the wild-type nifL promoter, sigma 54-RNA polymerase makes only limited contacts with the promoter in the absence of NTRC. However, a G to T change at -26 (nifL74) allows the formation of a stable closed complex with sigma 54-holoenzyme on both linear and form I templates in the absence of the activator. The combination of C to T mutations at -3 and -1 (nifL18) increases the A+T rich nature of the melted region and stabilizes open complexes formed on linear DNA. Open complex formation as a function of superhelical density was assessed at each promoter. Formation of open complexes at glnAp2 peaks at -0.024 and declines at higher superhelical densities, whereas at the wild-type nifL promoter, open complex formation peaks at -0.067 and is not detectable at superhelical densities less than -0.032. Both the nifL74 and nifL18 mutations altered the supercoiling response, increasing the ability to form open complexes at low superhelical densities. The presence of the nifL74 and nifL18 mutations in combination further altered the response of the promoter to DNA supercoiling. These observations suggest that the promoter as a whole, and not any one promoter element, mediates the transcriptional response to DNA supercoiling.
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PMID:DNA supercoiling response of the sigma 54-dependent Klebsiella pneumoniae nifL promoter in vitro. 160 72

The NAC (nitrogen assimilation control) protein from Klebsiella aerogenes is a LysR-like regulator for transcription of several operons involved in nitrogen metabolism, and couples the transcription of these sigma 70-dependent operons to regulation by the sigma 54-dependent NTR system. NAC activates expression of operons (e.g. histidine utilization, hut), allowing use of poor nitrogen sources, and represses expression of operons (e.g. glutamate dehydrogenase, gdh) allowing assimilation of the preferred nitrogen source, ammonium. NAC is both necessary and sufficient to activate transcription, but the expression of the nac gene is totally dependent on the central nitrogen regulatory system (NTR) and RNA polymerase carrying the sigma 54 sigma factor (RNAP sigma 54). Nitrogen starvation signals the NTR system to transcribe nac, and NAC activates the transcription of hut, put (proline utilization), and urease. NAC does not affect the transcription of RNAP sigma 54-dependent operons like ginA or nifLA, which respond directly to the NTR system, but activates transcription of RNAP sigma 70-dependent operons. Thus NAC acts as a bridge between RNAP sigma 70-dependent operons like hut and the RNAP sigma 54-dependent NTR system. The activation of operons like hut by NAC in response to nitrogen starvation is at least superficially similar to their activation by CAP-cAMP in response to carbon and energy starvation.
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PMID:The role of the NAC protein in the nitrogen regulation of Klebsiella aerogenes. 166 20

Cassette mutagenesis has been used to study the role of a helix-turn-helix (HTH) motif in the novel RNA polymerase sigma factor sigma 54 of Klebsiella pneumoniae. Of the four residues which are predicted to be solvent-exposed in the second helix, the first (Glu-378) tolerated all substitutions, and some mutations of this residue increased expression from sigma 54-dependent promoters. Certain substitutions in the third exposed residue (Ser-382) produced a promoter-specific phenotype and all substitutions in the fourth residue (Arg-383) inactivated the protein, identifying this residue as being likely to be involved in base-specific interactions with the promoter. In vivo footprinting indicated that the inactive HTH mutants of sigma 54 were defective in interaction with both the -24 and -12 regions of the glnAp2 promoter.
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PMID:Cassette mutagenesis implicates a helix-turn-helix motif in promoter recognition by the novel RNA polymerase sigma factor sigma 54. 178 87


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