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)

The Bacillus subtilis glucose starvation-inducible transcription units, gsiA and gsiB, were characterized by DNA sequencing, transcriptional mapping, mutational analysis, and expression in response to changes in environmental conditions. The gsiA operon was shown to consist of two genes, gsiAA and gsiAB, predicted to encode 44.9- and 4.8-kDa polypeptides, respectively. The gsiB locus contains a single cistron which encodes a protein of unusual structure; most of its amino acids are arranged in five highly conserved, tandemly repeated units of 20 amino acids. The 5' ends of gsiA and gsiB mRNAs were located by primer extension analysis; their locations suggest that both are transcribed by RNA polymerase containing sigma A. Expression of both gsiA and gsiB was induced by starvation for glucose or phosphate or by addition of decoyinine, but only gsiA was induced by exhaustion of nutrient broth or by amino acid starvation. Regulation of gsiA expression was shown to be dependent upon the two-component signal transduction system ComP-ComA, which also controls expression of genetic competence genes. Mutations in mecA bypassed the dependency of gsiA expression on ComA. Disruption of gsiA relieved glucose repression of sporulation but did not otherwise interfere with sporulation, development of competence, motility, or glucose starvation survival. We propose that gsiA and gsiB are members of an adaptive pathway of genes whose products are involved in responses to nutrient deprivation other than sporulation.
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PMID:Transcriptional regulation of Bacillus subtilis glucose starvation-inducible genes: control of gsiA by the ComP-ComA signal transduction system. 137 51

The time required for transcription of the lacZ gene in Escherichia coli was determined during exponential growth and under conditions, when the bacterium was exposed to partial isoleucine starvation. To do this, RNA was extracted from the cells at 10 s intervals following induction and quantified by Northern hybridization with probes complementary to either the beginning or the end of the lacZ mRNA. The time lag between inducer addition and the appearance of a hybridization signal at the 'late' probe represents the transit time for RNA polymerase on the lacZ gene, and this parameter and the known length of the transcribed sequence were used to calculate the lacZ mRNA chain growth-rate. The transcription elongation rate was c. 43 nucleotides s-1 during exponential growth and decreased abruptly to c. 20 nucleotides s-1 in a relA+ strain after the onset of isoleucine starvation, when massive concentrations of guanosine tetraphosphate (ppGpp) accumulated in the cells. The starvation condition did not affect initiation of transcription at the lac-promoter, but a substantial fraction of the initiated lacZ mRNA chains was never completed. For the rel+ strain the polarity was moderate, since c. 25% of the initiated lacZ mRNA' chains were continued into full-length mRNAs, but for the relA strain the polarity was so strong that no completed lacZ mRNA could be detected. The protein chain elongation rates decreased from 13 amino acids (aa) s-1 in the unperturbed growth phase to approximately 6 as s-1, when the cells starved for isoleucine. In combination, these results suggest that ppGpp plays a major role in maintaining the coupling between transcription and translation during the downshift by inhibiting mRNA chain elongation. The implications of this result for the control of stable RNA synthesis during the stringent response are discussed.
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PMID:Decreasing transcription elongation rate in Escherichia coli exposed to amino acid starvation. 140 59

Nutrient limitation is a critical signal in Salmonella virulence gene regulation. The katF (rpoS) gene mediates the expression of the Salmonella spv plasmid virulence genes during bacterial starvation. A katF Salmonella mutant has increased susceptibility to nutrient deprivation, oxidative stress, acid stress, and DNA damage, conditions which are relevant to the intraphagosomal environment of host macrophages. Moreover, the katF mutant has significantly reduced virulence in mice. katF encodes an alternative sigma factor of RNA polymerase which coordinately regulates Salmonella virulence.
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PMID:The alternative sigma factor katF (rpoS) regulates Salmonella virulence. 146 28

Mecillinam, a beta-lactam antibiotic which specifically inactivates penicillin binding protein 2 (PBP2) in Escherichia coli, prevents lateral cell wall elongation, inducing spherical morphology and cell death. Two mecillinam resistant mutants, lov-1 and lovB, both able to dispense entirely with PBP2, are shown here to be affected in the aminoacyl-tRNA synthetase genes argS and alaS, respectively. Although the argS and alaS mutants grow slowly, we show that there is no correlation between mecillinam resistance and either growth rate or translation speed. A role of the ribosomes in mecillinam sensitivity, suggested by our earlier report that the lov-1 mutation is suppressed by certain rpsL(StrR) alleles affecting ribosomal protein S12, is supported by the present observation that a pseudo-streptomycin dependent mutant is mecillinam resistant in the presence of streptomycin. The argS and alaS mutants have high pools of the nucleotide ppGpp (effector of the stringent response) and the mecillinam resistance of both mutations is suppressed by a relA mutation, inactivating the ribosome-associated ppGpp synthetase and preventing ppGpp synthesis in response to aminoacyl-tRNA starvation. Furthermore, a ptacrelA' multicopy plasmid makes a wild type strain mecillinam resistant. The effect of ppGpp is probably mediated by RNA polymerase, since sublethal doses of the polymerase inhibitor rifampicin suppress mecillinam resistance in argS, alaS and ptacrelA'-bearing strains. We conclude that ppGpp regulates the transcription of a gene whose product is involved in mecillinam sensitivity, possibly as part of a chain of interacting elements which coordinate ribosomal activity with that of the PBPs.
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PMID:Penicillin binding protein 2 is dispensable in Escherichia coli when ppGpp synthesis is induced. 156 53

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

The discovery of cyclic AMP (cAMP) and its receptor protein in Escherichia coli and the convincing demonstration that these molecules mediate catabolite repression of the synthesis of carbohydrate catabolic enzymes led to the widespread belief that the phenomenon of catabolite repression in bacteria was understood. It is now recognized that cAMP-independent catabolite repression mechanisms are operative in both prokaryotic and eukaryotic microorganisms. New evidence has led to the identification of a diversity of cAMP-independent regulatory mechanisms that may mediate catabolite repression in bacteria. These mechanisms utilize (i) novel transcription factors, (ii) starvation-induced RNA polymerase sigma factors, and (iii) three evolutionarily distinct protein phosphorylating enzyme systems. Although these mechanisms are not fully understood, it is suggested that they exert their effects at the transcriptional level and that phosphorylation and allosteric control by regulatory proteins are involved in these processes.
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PMID:A multiplicity of potential carbon catabolite repression mechanisms in prokaryotic and eukaryotic microorganisms. 166 78

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

The Drosophila glutathione S-transferase D genes encode a family of isozymes. We have determined the amino acid sequence of a new member of this family by nucleotide sequence analysis of a genomic DNA clone. The open reading frame of this intronless gene should encode an isozyme subunit of 211 amino acids. This sequence has significant homology to the E. coli stringent starvation protein, SSP, which is also a protein of two identical 211 amino acid subunits. The two proteins have very similar overall amino acid composition as well. It is possible that SSP may be a glutathione S-transferase(s) in E. coli or is evolutionarily related to glutathione S-transferases. Because SSP is known to be tightly associated with the RNA polymerase holoenzyme during purification, it is conceivable that Drosophila glutathione S-transferase(s) may potentially interact with the transcription machinery in a fashion similar to SSP's interaction with E. coli RNA polymerase holoenzyme.
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PMID:Drosophila glutathione S-transferases have sequence homology to the stringent starvation protein of Escherichia coli. 173 92

The first events of lambda plasmid replication in vivo, which probably regulate this process, are the transcriptional activation of the origin of replication by RNA polymerase and the binding of the initiator protein, lambda O, to this nucleotide sequence. The lambda O protein is known for its rapid proteolytic degradation; hence amino acid starvation of Escherichia coli should result in inhibition of lambda plasmid replication caused by inhibition of protein synthesis. However, contrary to this prediction, we found that lambda plasmid replication, as measured by the increase in plasmid content per bacterial mass, proceeds for hours in an amino acid-starved, relaxed mutant, whereas it is inhibited in its wild-type stringent partner. lambda plasmid replication in amino acid-starved, relaxed cells reveals absolute lambda O dependence and is not inhibited by chloramphenicol at 200 micrograms/ml. This process also occurs in wild-type cells treated with chloramphenicol. We conclude that lambda plasmid replication is under stringent control, probably as a result of the action of ppGpp, the indirect product of the relA gene, on RNA polymerase. The problem of stability of the lambda O initiator protein is discussed.
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PMID:Stringent control of replication of plasmids derived from coliphage lambda. 182 94

The auxin-regulated par gene from tobacco mesophyll protoplasts was characterized in detail to deduce its possible function. An homology search of the par gene in the NBRF databases revealed that the par gene has homology to the stringent starvation protein (ssp) gene of Escherichia coli, which is induced under starved conditions and binds in an equimolar ratio to a holoenzyme of RNA polymerase. Hence, it is supposed that the par gene product could play a similar role to that of ssp. Although sequence homology of the par gene to the Gmhsp 26-A gene from soybean was observed, both genes were shown to respond differently to plant hormones and stresses. Gmhsp 26-A is induced by heat shock, 2,4-dichlorophenoxyacetic acid (2,4-D), cytokinin and abscisic acid (ABA), whereas the par gene was induced only by auxins. Furthermore, cycloheximide treatment prevents 2,4-D-mediated accumulation of Gmhsp 26-A mRNA, but not that of par mRNA. Both par and Gmhsp 26-A respond to CdCl2, but splicing of the par pre-mRNA proceeded in a normal way, whereas splicing off the Gmhsp 26-A pre-mRNA was inhibited. Hence, the par and Gmhsp 26-A genes should have a common ancestor, but have evolved in different directions. Detailed time-course experiments confirmed that the par gene was induced immediately after the addition of auxin and expressed upon the initiation of meristematic activity in tobacco mesophyll protoplasts. As the par gene was induced by the sole treatment of cycloheximide, it was proposed that the par gene belongs to a category of 'superinduction' genes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the auxin-regulated par gene from tobacco mesophyll protoplasts. 184 86

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